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Specifications •• /WEC 20 ►o - oo2y-0 TRANE' Submittal r t y-5 5‘A/ 7O Arv - RECEIVED MAY 262010 Prepared For: Date: May 05, 2010 Brian @ American Heating CITY OF TIGARD Job Name: BUILDING DIVISION AH: TV &R Trane U.S. Inc. is pleased to provide the enclosed submittal for your review and approval. Product Summary Qty Product 9 Variable Air Volume Fan Powered Terminal Units 24 Low Height VAV Fan Powered Terminal Units The attached information describes the equipment we propose to furnish for this project, and is submitted for your approval. Greg Korkowskl Trane 7257 SW Kable Lane Portland, OR 97224 -7181 Phone: (503) 620 -8031 Fax: (503) 639 -1454 r r 1 JAJOBS1124143223131Trane FPVAV submittal for TV &R.doc • ! Table Of Contents Product Summary 1 Variable Air Volume Fan Powered Terminal Units (Items Al - A9) Tag Data 3 Product Data 3 Performance Data 4 Mechanical Specifications 7 Unit Dimensions 13 Accessory 28 Field Wiring 32 Low Height VAV Fan Powered Terminal Units (Items B1 - B24) Tag Data 38 Product Data 38 Performance Data 40 Mechanical Specifications 45 Unit Dimensions 51 Accessory 60 Field Wiring 63 AH: TV&R May 05, 2010 Tai Data - Variable Air Volume Fan Powered Terminal Units (Qty: Item Tag(s) Qty Description Model Number Al FPB -204 1 VAV Fan Powered Terminal Units ( FP) VPEF1204SQ A2 FPB -207 1 VAV Fan Powered Terminal Units ( FP) VPEF1004SQ A3. FPB -208 1 VAV Fan Powered Terminal Units ( FP) VPEF1004SQ A4. FPB -210 1 VAV Fan Powered Terminal Units ( FP) VPEF1204SQ A5 FPB -305 1 VAV Fan Powered Terminal Units ( FP) VPEF1407SQ A6 FPB -306 1 VAV Fan Powered Terminal Units ( FP) 0 p A7 FPB -101 1 VAV Fan Powered Terminal Units ( FP) (.�[ F 05S) of ft - s ? A8 FPB -309 1 VAV Fan Powered Terminal Units ( FP) VPEF1004SQ �I A9 FPB -108 1 _VAV Fan Powered Terminal Units ( FP) VPEF1204SQ C—Z){,A. Product Data - Variable Air Volume Fan Powered Terminal Units All Units Parallel with electric heat 1/2" [13mm] matte faced insulation Slip and drive connection 277/60/1 motor voltage Single speed motor w/ SCR DDC with on /off electric heat control Left hand connection Power fuse 480 volt, 3 phase 2 stages of heat - equal increments 24 volt magnetic contactors Disconnect switch Electric heater air flow switch 1st year labor warranty - whole unit Item: Al Qty: 1 Tag(s): FPB -204 12" (305 mm) 04 super quiet fan 13.0 kilowatt Item: A2, A3, A8 Qty: 3 Tag(s): FPB -207, FPB -208, FPB -309 10" (254 mm) 04 super quiet fan 12.0 kilowatt Item: A4 Qty: 1 Tag(s): FPB -210 12" (305 mm) 04 super quiet fan 12.0 kilowatt Item: A5 Qty: 1 Tag(s): FPB -305 14" (356 mm) 07 super quiet fan 18.0 kilowatt Item: A6 Qty: 1 Tag(s): FPB -306 10" (254 mm) 03 super quiet fan 11.0 kilowatt Item: A7 Qty: 1 Tag(s): FPB -101 14" (356 mm) 05 super quiet fan 15.0 kilowatt � ) Item: A9 Qty: 1 Tag(s): FPB -108 12" (305 mm) FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 3 of 36 Others AH: TV&R May 05, 2010 04 super quiet fan 14.0 kilowatt Performance Data - Variable Air Volume Fan Powered Terminal Units Tags FPB -204 FPB -207, FPB -210 FPB -305 FPB -306 FPB -101 FPB -208 ... Design cooling airflow (cfm) 1400 1300 1435 1980 1200 2000 Min cooling airflow (cfm) 420 385 430 580 350 600 ` Valve heating airflow (cfm) 420 385 430 580 1350 1 600 Cooling inlet diameter (in) 12.000 10.000 12.000 14.000 10.000 14.000 Cooling inlet velocity (ft/min) 1783 2384 1827 1852 2200 1871 APD @ cooling airflow (in H2O) 0.028 0.060 0.028 0.037 0.053 0.037 Fan airflow (cfm) 980 915 1005 1400 850 850 Downstream SP (in H2O) 0.300 0.300 0.300 0.300 0.300 0.300 Fan TSP (in H2O) 0.312 0.311 0.312 0.318 0.310 0.310 % of fan range ( %) 68.00 62.00 71.00 54.00 73.00 44.00 Fan power (hp) 0.333 0.333 0.333 1.000 0.333 0.500 Plenum EAT (F) 75.00 75.00 75.00 75.00 75.00 75.00 Primary EDB (F) 55.00 55.00 55.00 55.00 55.00 55.00 Operating weight (Ib) , 115.0 114.0 115.0 154.0 113.0 130.0 Unit heating airflow (cfm) 1400 1300 1435 1980 1200 1450 Coil heating capacity (MBh) 44.40 40.98 40.98 61.47 37.56 51.22 Room heat loss (MBh) 42.88 39.68 39.43 59.63 36.48 46.07 Room heating setpoint (F) 70.00 70.00 70.00 70.00 70.00 70.00 Coil EAT (F) 69.00 69.08 69.01 69.14 69.17 66.72 Unit LAT (F) 98.23 98.13 _95.33 97.75 98.02 99.28 Coil LAT (F) 98.23 98.13 95.33 97.75 98.02 99.28 Full load amps (A) 17.64 16.43 16.43 26.35 14.83 20.44 Min circuit ampacity (A) 22.05 20.54 20.54 32.94 18.54 25.55 Max overcurrent protection (A) 25.00 25.00 25.00 35.00 20.00 30.00 Electric heater kW (kW) 13.00 12.00 12.00 18.00 11.00 15.00 . Tags FPB -309 FPB -108 Design cooling airflow (cfm) 1230 1425 Min cooling airflow (cfm) 365 425 Valve heating airflow (cfm) 365 425 Cooling inlet diameter (in) 10.000 12.000 Cooling inlet velocity (ft/min) 2255 1814 APD @ cooling airflow (in H2O) 0.055 0.028 Fan airflow (cfm) 850 850 Downstream SP (in H2O) 0.300 0.300 Fan TSP (in H2O) 0.310 0.310 % of fan range ( %) 55.00 55.00 Fan power (hp) 0.333 0.333 Plenum EAT (F) 75.00 75.00 Primary EDB (F) 55.00 55.00 Operating weight (Ib) 114.0 115.0 Unit heating airflow (cfm) 1215 1275 Coil heating capacity (MBh) 40.98 47.81 Room heat loss (MBh) 39.65 45.50 Room heating setpoint (F) 70.00 70.00 Coil EAT (F) 68.99 68.33 Unit LAT (F) 100.08 102.89 ` Coil LAT (F) 100.08 102.89 Full load amps (A) 16.43 18.84 Min circuit ampacity (A) 20.54 23.55 FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 4 of 36 Others AH: TV&R May 05, 2010 Tags FPB -309 FPB -108 Max overcurrent protection (A) 25.00 25.00 Electric heater kW (kW) 12.00 14.00 .� 4 n FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 5 of 36 Others AH: TV&R May 05, 2010 • • Mechanical Specifications - Variable Air Volume Fan Powered Terminal Units Item: Al - A9 Qty: 9 Tag(s): FPB -204, FPB -207, FPB -208, FPB -210, FPB -305, FPB -306, FPB -101, FPB -309, FPB -108 General Unit Information Casing - The unit casing is 22 gauge galvanized steel. Outlet duct connection is flanged. Total metal encapsulation of all insulation edges. Hanger Brackets provided. Side access is provided. Filter - A filter is provided on the plenum inlet. Agency Listing - UL and Canadian UL listed as environmental air terminal unit. UL Control #9N65. All Trane terminal units are ARI 880 -98 certified. General Unit Clearance Leave a minimum of 36" on control box side of unit for adequate service access. Allow at least 12" on remaining sides for unit clearance. A minimum of one and one half duct diameters of straight duct work, upstream of the air inlet connection, should be present for optimum airflow measurement performance. Upstream duct work should be the same diameter as the primary inlet connection. 1/2" Matte - Faced Insulation The interior surface of the unit casing is acoustically and thermally lined with 1/2 ", 1.8 lb /cu. ft composite density glass fiber with high density facing. The insulation is UL listed and meets NFPA -90A and UL 181 standards. All insulation options will meet the 25/50 smoke developed and flame spread rating (per ASTM E 84 and UL 723 and CAN /ULC S102 -M88) Meets NFPA- 90B. The insulation R -value is 1.9. All cut edges of insulation are completely encapsulated in metal to prevent erosion. Air Valve & Fan Description (Parallel) (Series) The air inlet connection is an 18 gauge galvanized steel cylinder sized to fit standard round duct. A multiple point, averaging flow sensing ring is provided with balancing taps for measuring airflow within +/- 5% of unit cataloged airflow. Also provided with each unit is a calibration chart indicating airflow versus flow sensor pressure differential. The damper blade is constructed of a closed cell foam seal mechanically locked between two 22 gauge galvanized steel disks. The damper blade assembly is connected to a cast zinc shaft which rotates in a self lubricating bearing. The shaft is cast with a damper position indicator. The valve assembly includes a mechanical stop to prevent over stroking. Air valve leakage <1 % at 4 ". 1003SQ Air Valve /Fan Combination Size (Parallel) 10" Inlet designed for up to 1400.0 cfm. Fan is 1100.0 cfm for Std Motor and 1085.0 cfm for ECM Motor.. 1004SQ Air Valve /Fan Combination Size (Parallel) 10" Inlet designed for up to 1400.0 cfm. Fan is 1350.0 cfm for Std Motor and 1510.0 cfm for ECM Motor. 1204SQ Air Valve /Fan Combination Size (Parallel) 12" Inlet designed for up to 2000.0 cfm. Fan is 1350.0 cfm for Std Motor and 1510.0 cfm for ECM Motor. 1405SQ Air Valve /Fan Combination Size (Parallel) 14" Inlet designed for up to 3000.0 cfm. Fan is 1550.0 cfm for Std Motor and 1850.0 cfm for ECM Motor. 1407SQ Air Valve /Fan Combination Size (Parallel) 14" Inlet designed for up to 3000.0 cfm. Fan is 2025.0 cfm. Motor Single Speed, direct drive induction, permanent split capacitor type. Thermal overload protection provided. Motors will be designed specifically for use with an open SCR which is standard. Motors will accommodate anti - backward rotation 1 at start up. Motor and Fan assembly are isolated from terminal unit. 1 Transformer The 50 VA transformer is factory mounted in the fan control box to provide 24 VAC for controls. Fuse FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 6 of 36 Others AH: TV&R May 05, 2010 Any electric heat unit with a calculated MCA greater or equal to 30 will have a fan fuse provided. SCR- Variable Fan Speed Control Switch The SCR speed control device allows the operator infinite fan speed adjustment so the fan output may be modified to achieve exact CFM requirements. Electric Heat Coil Factory provided and mounted. UL recognized, resistance open -type heater, a disc -type automatic thermal primary safety device and manual reset load thermal secondary device. Heater element material is nickel- chromium. The heater . terminal box is provided with 7/8" knockouts for customer power supply. Terminal connections are plated steel with ceramic or phenolic insulators. All fan - powered units with electric reheat are single -point power connections. For 480 volt 3 phase and 575 volt 3 phase heaters a 4 wire (includes neutral) power supply is required. Electric Heat Coil Factory provided and mounted. Resistance open -type heater, a disc -type automatic thermal primary safety device and manual reset load thermal secondary device. Heater element material is nickel- chromium. The heater terminal box is provided with knockouts for customer power supply. Terminal connections are plated steel with ceramic or phenolic insulators. All fan - powered units with electric reheat are single -point power connections. For 480 volt 3 phase and 575 volt 3 phase heaters a 4 wire (includes neutral) power supply is required. Magnetic Contactor An electric heater 24 volt contact for use with Direct Digital Control (D.D.C.) or Analog Electronic VAV Controls. Power Disconnect Switch (for VSEF & VPEF) A factory provided interlocking door disconnect switch located on the electric heater control panel. Airflow Switch An air pressure device designed to disable the heater when the unit fan is off. Power Fuse A safety fuse located in the electric heater's line of power to prevent power surge damage to the electric heater. Slip & Drive Connection A slip and drive connection has two straight flanges on the top and bottom, and two drive connections on the left and right sides. The drive sides are straight flanges which form a "U" shape. The mating ductwork has a similar setup. The two top and bottom pieces are shaped like a compressed "S" with sealant in the hollow of the "S ". These pieces will slide over the top and bottom straight flanges. The top and bottom flanges of the mating ductwork will slide into the otherside of these pieces. The two side pieces are shaped like a "C" and are called "Drives ". These pieces will slide over the "U" shaped flanges so the connection can not be pulled apart. These pieces are usually hammered into place. No screws are required, and by removing the drives, the ducts may be disconnected. D.D.C. Actuator Trane 3 wire, 26 GA, 3.4 VA, 1.7W, 24 VAC, 50/60 Hz. with floating point control actuator with linkage release button. Running torque is 35 in -lb minimum and is non - spring return with 90 second drive time. Travel is terminated by end stops at fully opened and closed positions. An integral magnetic clutch eliminates motor stall when Trane controls are not provided. An integral 3 screw terminal is provided for field wiring. Operating temperature 32.0 F to 125.0 F. Direct Digital Controller The microprocessor based terminal unit controller provides accurate, pressure independent control through the use of a proportional integral control algorithm and direct control technology. The controller monitors zone temperature set points, zone temperature and its rate of change, and valve airflow, using a differential pressure signal. Optionally, the controller can monitor either supply duct air temperature or CO2 concentration via appropriate sensors. The controller and pressure transducer are installed and factory wired in an enclosure with 7/8" knockouts for remote control wiring. A Trane zone sensor is required. System Communications _ The Controller is designed to send and receive data from a Central Control Panel or other Tracer family products, or a Varitrac CCP. Current unit status conditions and set points may be monitored and /or edited via this data communication feature. The network type is a twisted wire pair serial communication. n . Override Commands The following override commands may be received by the Unit Control Module (U.C.M.) from the Tracer System. FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 7 of 36 Others AH: N &R May 05, 2010 Control Mode, Action, & Offset (1 thru 12) 1. Control Mode - The U.C.M. Control Mode may be edited from occupied to unoccupied to accommodate night setback/setup. 2. Control Action- The Control Action may be edited from cooling to heating, changing the primary air damper to a heating source. This will accommodate a cooling /heating changeover system. 3. Control Offset- Enabling Control Offset will increase the cooling temperature set point and decrease the heating temperature set point by a control offset value stored at the U.C.M. This function facilitates demand limiting in the occupied mode. 4. Drive damper fully open. 5. Drive damper fully closed. 6. Drive damper to maximum airflow set point. 7. Drive damper to minimum airflow set point. 8. Disable unit fan. 9. Disable unit heat. 10. Reset- Enabling the reset function forces the controller and the flow sensor to recalibrate. 11. Programmable hot water valve drive time. 12. Programmable air valve drive time. Following Unit Set points The following unit set points reside in the U.C.M. in nonvolatile memory. These set points are editable from the Command Unit or Tracer via the communications link. Set points in Nonvolatile Memory (1 thru 8) 1. Occupied cooling temperature set point 60.0 F - 80.0 F. 2. Occupied heating temperature set point 60.0 F - 80.0 F. 3. Unoccupied cooling temperature set point 60.0 F -100.0 F. 4. Unoccupied heating temperature set point 30.0 F -100.0 F. 5. Minimum cooling flow set point (0, 10 - 100% of unit equivalent cataloged airflow). 6. Minimum heating flow set point (0, 10 - 100% of unit equivalent cataloged airflow). 7. Maximum flow set point (0,10 - 100% of unit equivalent cataloged airflow). 8. Fan Control Offset - This determines at what operating point the fan in a parallel fan powered unit is energized. This can be specified as a function of temperature, degrees above heating set point, or primary airflow. 0.0 F -10.0 F or 0, 10 - 100% of unit equivalent cataloged airflow). Set points in Nonvolatile Memory (9 Thru 15) 9. Heating Set point Offset - This determines at what point the 1st. stage of reheat turns on. Expressed in degrees below cooling set point, only applicable when local thumb wheel is enabled. 10. Zone temperature, auxiliary temperature, and zone set point calibration corrections ( +/- 10.0 F). 11. Flow measurement calibration correction (50 - 150 %). 12. Cooling Set point Low Limit - Applies low limit to programmed occupied cooling set point or zone sensor cooling set point (30.0 F - 100.0 F). 13. Heating Set point High Limit - Applies high limit to programmed occupied heating set point or zone sensor heating set point (30.0 F - 100.0 F). 14. RTD / Thermistor - Determines what type of zone temperature sensor will be used. 15. Occupied and Unoccupied Outside Air Requirements - Determines the percent of outdoor air required in the zone for air quality requirements. Set points in Nonvolatile Memory (16 thru 21) 16. Series Fan Configuration- allows option of series fan powered box to shut off fan and close air valve when unit is unoccupied. Fan will operate in unoccupied mode if reheat is active. 17. Heating set point low limit. 18. Cooling set point high limit. 19. Local heating flow set point enable /disable & set point. 20. Auxiliary analog input mode select for either auxiliary temperature sensor or CO2 detector. 21. Binary input mode select for either generic or occupancy detector. Additional Status Information (1 thru 8) In addition to the above set points, the following status information can be transmitted to the Command Control Unit and Tracer. 1. Active cooling temperature set point. 2. Active heating temperature set point. 3. Current unit primary airflow. 4. Current zone temperature. FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 8 of 36 Others AH: TV&R May 05, 2010 5. Re -heat status (On /Off). 6. Auxiliary Air Temperature - Available only if the unit has an auxiliary temperature sensor. 7. Failure Indicators - The U.C.M. will indicate the following: *Temperature Sensor Failure *Flow Sensor Failure *Local Zone Sensor Set point Failure ^ 8. Ventilation Ratio. Additional Status Information (9 thru 12) 9. Fan Status (on /off) 10. Calibration Status (calibrating /not - calibrating) 11. BIP state 12. CO2 Concentration- available only if the unit has an auxiliary CO2 sensor. This mode and auxiliary air temperature are mutually exclusive. DDC Sequence of Operation The unit controller continuously monitors the zone temperature against its set point and varies the primary airflow as required to meet zone set points. Airflow is limited by minimum and maximum airflow set points. Parallel Unit Fan Energization As the zone temperature reaches the heating set point, the microprocessor controls airflow to the heating temperature set point and energizes the auxiliary fan when necessary. At or below the heating set point, reheat is energized. The heating minimum airflow set point is factory set, field adjustable, and is separate from the cooling minimum set point. Parallel unit fan energization is a function of primary airflow or zone temperature. 1. Primary Airflow - The fan energizes when primary airflow drops below the fan set point airflow. The fan automatically starts when the zone temperature drops to the heating temperature set point. 2. Zone Temperature - The fan energizes when the zone temperature drops to a selectable number of degrees above the heating temperature set point. DDC Controls Option DD04, DD14 & DD44 Basic Operation: On /Off Staged Electric Heat (Normally Open Outputs) (DDC /UCM) (Parallel Units) A voltage signal from the zone sensor indicates the zone temperature is used by the unit controller to determine an error from the set point. This error, as well as primary flow differential pressure, is used to determine damper position within ^ minimum and maximum cooling airflow set points. As the zone temperature drops to the heating set point, primary airflow is controlled to minimum heating flow set point. The fan operation is intermittent in both modes. Staged electric heat is energized. FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 9 of 36 Others AH: TV&R May 05, 2010 • •• Unit Dimensions - Variable Air Volume Fan Powered Terminal Units Item: Al, A4, A9 Qty: 3 Tag(s): FPB -204, FPB -210, FPB -108 Unit Size VPEF1204S0 Nominal 12' Dia. x 4' Depth \ Valve Size 8 Depth ` Nominal 04SC Fan Fen Size Filter Stze 16" x 20"x 1" (OTY 1) �• l TOP VIEW • 20" • "x1-12 "-1 s F r NOTES: AIRFLOW le X 1.30 I 1. Allow a minimum 6' plenum inlet clearance ... ..L , for un -0ucted installations. 2. Filter Is secured In fitter frame located in unit Inlet 32 1rz 3. For Motor access, remove bottom screws on hanger brackets to slide panel as shown In drawing. 4. See Installation Documents for exact hanger bracket location. 22' 5. Air valve centered between top & bottom panel 1 x 6. Heating coil uMrtsuletetl. External insulation may HEATER be field supplied and Installed as required. .. 6" 7. All high & low voltage controls have same -side ' PANEL SLIDES NEC Jumpback clearance. FOR MOTOR ACCESS 8. Allow 48' of straight duct downstream of AIRFLOW unit before first runout and inside of the duct should DISCHARGE OUTLET be equal discharge size. 9. Terminal box access door is side hinged. Allow for clearance. 10. A 4 wire power supply required for 48013 & 57513 5" —1 I. 40 —21 single point connection units. t El - T 16• 17/2" i Approximate 115.0 lb Dry Weight I I Weights reflected may vary 20" -- '1 ±5.0 lb based upon options DISCHARGE VIEW selected. FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 10 of 36 Others AH: TV&R May 05, 2010 Unit Dimensions - Variable Air Volume Fan Powered Terminal Units Item: A2, A3, A8 Qty: 3 Tag(s): FPB -207, FPB -208, FPB -309 Unit Size VPEF1004S0 Nominal 10' Dia. x 4' Depth \ '4111114100. Vdve Size 8 Depth ` - Nominal 04S0 Fan Fan Size niter Size 16'z2lYx1'(OTY1) .,� , • TOP VIEW • 20' ► '?o-10'—C1 s F 1 NOTES: AIRFLOW 1 ) 8.50 x 11.30 I 1. Allow a minimum 6' plenum inlet clearance _i___ \I/ for un -ducted installations. 2. Filter Is secured in filter frame located in unit inlet. 3 1/ 3. For Motor a cces s , remove bottom screws on 0 . hanger brackets to slide panel as shown in drawing . 4. See Installation D ocuments for exact hanger bracket location. 5 Air valve can tered between lop 8 bottom pond. 1 6. Heating coil un-insulated. External insulation may HEATER be field supplied and installed as required. 6. 7 All high Blow voltage controls have same-sIde ' PANEL SLIDES NEC jumpback clearance. FOR MOTOR ACCESS 8. Allow 48' of straight duct downstream of AIRFLOW unit before first runaut and Inside of the duct should DISCHARGE OUTLET be equal discharge size. 9. Terminal box access door Is side hinged. Allow for clearance. 10. A 4 wire power supply required for 48013 8 57513 5' 1 40' i single point connection units. T 18' 17 1/2' I Approximate 114.0 lb J Dry Weight Weights reflected may vary 20' ±5.0 lb based upon options DISCHARGE VIEW selected. FLD = Furnished by Trane U.S. Inc. I Installed by Equipment Submittal Page 11 of 36 Others AH: TV&R May 05, 2010 Unit Dimensions - Variable Air Volume Fan Powered Terminal Units Item: A5 Qty: 1 Tag(s): FPB -305 4. Unit Size VPEF1407S0 Nord 14' Dla x 4' Depth Valve Size 8 Depth Nominal 07SO Fen Fen Sire Filter Size 20' x 20' x 1' (QTY 1) `\ TOP VIEW s..s,".,...1/40-11%4Ige.'., . �` � 20• LOW VOLTAGE y CONTROL BOX\ '4* - 14 • AIRFLOW 16 1/2• / \11 NOTES: or 1. Mow a minimum 6' plenum inlet clearance for un -dueled Installations. T 2. Filter Is secured In filter frame located h unit inlet. 3. For Motor access, remove bottom screws on 22' / I hanger brackets to slide panel as shove In drawing. 4. See Installation Documents for exact hanger w bracket location. HEATER 6' 5. Air valve centered between lop 8 bottom panel. I 6. Heating coil uMnsulated. External insulation may 1 be field supplied and installed as required. PANEL SLIDES AIRFLOW FOR MOTOR ACCESS 7. All high & low voltage controls have same -aide DISCHARGE OUTLET NEC jumpback dearence. 8. Allow 48' of straight duct downstream of unit before first runout and inside of the duct should be equal discharge size. 512' xtx 40' 1 9. Terminal box access door is side hinged Allow for clearance. U 10.A 4 wire power supply required for 48013 8 575\3 single point connection units. 20' 81/4' 2112' 1_ 8_- Approximate 154.0lb Dry Weight 20' Weights reflected may vary - tom DISCHARGE VIEW ±5.0 lb based upon options selected. FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 12 of 36 Others • AH: TV&R May 05, 2010 . Unit Dimensions - Variable Air Volume Fan Powered Terminal Units Item: A6 Qty: 1 Tag(s): FPB -306 • Unit Size VPEF1003SQ - Nominal 10' Dia. x 4' Depth \ Valve Size 8 Depth ` Nominal 03SQ Fan Fan Size Fitter Size 16" x 20' x1" (OTY 1) TOP VIEW • 20' • ">.4-10 "--cl s AIRFLOW NOTES: 113.50X 11 ao 1 Allow a minimum 6' plenum Inlet dearance . I P for un -ducted installations. 1 . Filter is secured In fitter frame located In unit Inlet. 17 27 3. For Motor access, remove bottom screws on 1 hanger brackets to slide panel as shown In drawing. . . See Installation Documents for exact hanger bracket location. 1 . Alr valve centered between to 8 bottom penal. r 6542. Heating coil un-Insulated. External Insulation may HEATER be field su and installed as required. 6• 7. All high 8 low voltage controls have same-side NEC Jumpback clearance. ' PANEL SLIDES FOR MOTOR ACCESS 8. Allow 48" of straight duct downstream of AIRFLOW DISCHARGE OUTLET unit before first runcul and Inside of the duct should be equal discharge size. 9 Terminal box access door Is side hinged. Allow for clearance. 10. A 4 wire power supply required for 48013 8 57513 5' 1 r 40' ----1 single point connection units I D 1 16" 17 1/2" Approximate 113.0lb 4 Dry Weight Weights reflected may vary 20' - ±5.0 lb based upon options DISCHARGE VIEW selected. i J , FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 13 of 36 Others AH: TV&R May 05, 2010 •.• Unit Dimensions - Variable Air Volume Fan Powered Terminal Units Item: A7 Qty: 1 Tag(s): FPB -101 ' Unit Size V PEF1405S0 ' Nominal 14' Dia. x 4' Depth Valve Size 8 Depth Nominal 0550 Fen Fen Size Filter Size 16'x 20' x 1'(OTY 1) .` TOP VIEW . P0• . • - —14' -1 s — i NOTES: AIRFLOW 11350 X11.30 I 1 Allow a minimum 6' plenum Inlet clearance r for un -0ducted installations 2. Filter Is secured In filter frame located in unit Irdel. 32 1 /2' 3. For Motor access, remove bottom screws on . 1 hanger brackets to slide panel as shown In drawing. 4. See Installation Documents for exact hanger bracket location. 22' 5. Alr valve centered between top 8 bottom panel. 1 HEATER 6. Heating coil un- insulated. External Insulation may l be field supplied and Installed as required. 6' V 7. All high Blow voltage controls have same -side PANEL SLIDES NEC jumpback clearance. FOR MOTOR ACCESS 8 Mow 48- of straight dud downstream of AIRFLOW - unit before first runout and inside of the duct should DISCHARGE OUTLET be equal discharge size. 9. Terminal box access door Is side hinged. Allow for clearance. 10. A 4 wire power supply required for 480 \ 3 8 575\3 5' —1 I 40' r 1 single point connection units. I 16' 17 2' y Approximate 130.0Ib Dry Weight I Weights reflected may vary 20' ±5.0 lb based upon options , DISCHARGE VIEW selected. FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 14 of 36 Others AH: TV&R May 05, 2010 Accessory - Variable Air Volume Fan Powered Terminal Units - Item: Al - A4, A8, A9 Qty: 6 Tag(s): FPB -204, FPB -207, FPB -208, FPB -210, FPB -309, FPB -108 Notes: 1. When attenuator is required, add inlet attenuator pressure - to discharge static pressure for final fan performance. VPCF and VPEF maximum Minimum 1 -row coil maximum - • - - - -- - - 2 -row coil maximum Pa In. wg Parallel 04S0 —PSC 199 0.80 - 174 0.70 m 150 0.60 125 0.50 a 100 0.40 C 75 0.30 .SQ 50 0.20 25 0.10 *a 200 400 600 800 1000 1200 1400 1600 Ctm 94 189 283 378 472 566 861 755 Us Airflow FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 15 of 36 Others AH: TV&R May 05, 2010 • • Accessory - Variable Air Volume Fan Powered Terminal Units Item: A5 Qty: 1 Tag(s): FPB -305 - Notes: 1 1. When attenuator is required, add inlet attenuator pressure to discharge static pressure for final fan performance. VPCF and VPEF maximum Minimum 1 -row coil maximum - - - - - 2 -row coil maximum Pa q Parallel07S0 —PSC • 174 0.70- - ti ` ; . G _`\ N ` .,' —1—.-4.----4---4-------,----4-----1---.1--- --,-- ' - i•--- -- E .. , \ __ 150 0.60 - .- _... -- -- a 125 0.50 �;� ; :• . _... 2 e; 100 0.40 — ' r ca 75 0.30 \ w in \ .... ...... 50 0.20 �,, �.'' �. \ -i "R, 25 0.10 500 700 900 1100 1300 1500 1700 1900 2100 2300 Cfm 236 330 425 519 614 708 802 897 991 1086 Us Airflow 1 FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 16 of 36 Others AH: TV&R May 05, 2010 Accessory - Variable Air Volume Fan Powered Terminal Units Item: A6 Qty: 1 Tag(s): FPB -306 Notes: 1. When attenuator is required, add inlet attenuator pressure to discharge static pressure for final fan performance. - VPCF and VPEF maximum - Minimum 1 -row coil maximum - - - -• 2 -row coil maximum Pa In. wg Parallel Fan Size 03SQ —PSC 199 0.80 174 0.70 150 0.60 125 0.50 lE a E � • 100 040 ca P. ▪ 75 0.30 b • 50 0.20 25 0.10 • 200 300 400 500 600 700 800 900 1000 1100 1200 1300 Cfm 94 142 189 236 283 330 378 425 472 519 566 614 Us Airflow FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 17 of 36 Others AH: TV&R May 05, 2010 Accessory - Variable Air Volume Fan Powered Terminal Units Item: AT Qty: 1 Tag(s): FPB -101 Notes: 1. When attenuator is required, add inlet attenuator pressure to discharge static pressure for final fan performance. VPCF and VPEF maximum Minimum 1 -row coil maximum - - - - - - • 2 -row coil maximum Pa In. wg Parallel 0550 —P$C 199 0.80 --� 174 0.70 -� MINIM 150 0.60 g 3 8 125 0.50 St 100 0.40 co 75 0.30 11111 50 0.20 x � a ?? } 300 500 700 900 1100 1300 1500 1700 Cfm 142 236 330 425 519 614 708 802 Ua Airflow FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 18 of 36 Others All: TV&R May 05, 2010 _ Field Wiring - Variable Air Volume Fan Powered Terminal Units Item: Al - A9 Qty: 9 Tag(s): FPB -204, FPB -207, FPB -208, FPB -210, FPB -305, FPB -306, FPB -101, FPB -309, FPB -108 • 480 Volt, 3 Phase, 4 wire L3 L2 L1 N I I I i I I I I I I I I I I I I 1I I ■;■ N Heater Control Wiring ® WARNING HAZARDOUS VOLTAGE! DISCONNECT ALL ELECTRIC POWER INCLUDING REMOTE DISCONNECTS BEFORE SERVICING. FAILURE TO DISCONNECT POWER BEFORE SERVICING CAN CAUSE SEVERE PERSONAL INJURY OR DEATH ® CAUTION USE COPPER CONDUCTORS ONLYI UNIT TERMINALS ARE NOT DESIGNED Customer Notes: TO ACCEPT OTHER TYPES OF CONDUCTORS. 1. Factory Installed. FAILURE TO DO SO MAY CAUSE — — — — Optional or Installed by others. DAMAGE TO THE EQUIPMENT. FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 19 of 36 Others AH: TV&R May 05, 2010 •• - Field Wiring - Variable Air Volume Fan Powered Terminal Units Item: Al - A9 Qty: 9 Tag(s): FPB -204, FPB -207, FPB -208, FPB -210, FPB -305, FPB -306, FPB -101, FPB -309, FPB -108 , HEATER TERMINAL DAMPER BOX WIRING ACTUATOR FAN CONTROL • WIRING BOX WIRING _ ( ..----..A.---.... \ r rein Te2-0 TB3-3 TBS1 1--- 781-2 TB2s � TB3-2 � -- — _ I C -_ i 1 i 1; 1 - 6 6 6 6 6 6 6 2ND STO HEAT 11 10 7 B 3 2 1 >1 ~O - ,- f Z DIGITAL DISPLAY ZONE SENSOR 1ST STO MEAT ; _ = 0 ° W/ COMM JACK REMOTE MTD. I 0 CI CI • I I OPTIONAL FIELD INSTALLED L DIGITAL DISPLAY ZONE SENSOR - J R -FAN ' I F BR Y r TBI TB2-6 TB12� I I O TBSS I K 2 4VAC BL I I 1 I 4 m 661666 _ G doe 00 I n_ 2( +) 1(•J] 2 1 '� LJ n il � � �� ZONE SENSOR BIP OND 24V PRESSURE W/ COMM JACK TRANSDUCER REMOTE MTD. ADDRESS D.D.C. \U.C.M. QQ J3 SWITCH CONTROL BOARD R + OPTIONAL FIELD °Ji BK VOUT L INSTALLED ZONE SENSOR J BBBBBB _. ° - iQ iQ iQ iQ 160 .6p TEL G o iQ ill gQ go go Os (21 CO2 24V .. _ gel-1)24V (T1334)) OND ZONE OND SET AiCO2 ONO SENSOR ONO 0 - OUT v _ (TB34)A/CO2 OPTIONAL FIELD INSTALLED • L CO2 SENSOR D.D.C. \U.C.M. r 1 CONTROL BOX opr A Y / \ / WIRE LESS � ��/ �/ WIRELESS SHIELDED TWISTED PAIR • OPTIONAL FACTORY INSTALLED r 1HS5 - T r 713343 1 I I COMMUNICATIONS WIRING WIRELESS - 24VAC - - - I EIL I rE> RMOT).---- (TB1.1)24VAC 1 I v ° L C°r _ w ' °N L-- (TB4.1)BIP « E SU - (TBI- +)24VAC BK-LREIURN9 - -- (TBt -.2) OPTIONAL OND 24V Y L AU %TEMP SENSO -I W '�� NOT CONNECTED L OPTIONAL FIELD INSTALLED L OCCUPANCY SENSOR j NOTE: Al, WARNING 1. FACTORY WIRING HAZARDOUS VOLTAGEI FIELD WIRING - OPTIONAL OR ALTERNATE WIRING DISCONNECT ALL ELECTRIC POWER INCLUDING REMOTE DISCONNECTS 2 1/4- QUICK CONNECT REQUIRED FOR ALL FIELD CONNECTIONS. BEFORE SERVICING. ZONE SENSOR TERMINALS 1 ) AND 2 (+) REQUIRE FAILURE TO DISCONNECT POWER D (" ) IRE SHIELDED TWISTED PAIR WIRING FOR COMMUNICATIONS BEFORE SERVICING CAN CAUSE JACK EQUIPPED ZONE SENSOR OPTION. SEVERE PERSONAL INJURY OR DEATH NO ADDITIONAL WIRING REQUIRED FOR NIGHT SETBACK OVERRIDE (ON/CANCEL). ® CAUTION cl THE OPTIONAL BINARY INPUT CONNECTS BETWEEN TB4-1 (BIP) AND 24VAC (HOT) FROM USE COPPER CONDUCTORS ONLYI TRANSFORMER. INPUT CAN BE RECONFIGURED AS AN OCCUPANCY INPUT VIA THE COMMUNICATIONS UNIT TERMINALS ARE NOT DESIGNED INTERFACE. TO ACCEPT OTHER TYPES OF AS SHIPPED, THE AUX INPUT IS CONFIGURED AS AN AUX TEMP INPUT. THE AUX INPUT CAN BE CONDUCTORS. - RECONFIGURED AS A CO2 SENSOR INPUT VIA THE COMMUNICATIONS INTERFACE. FAILURE TO DO SO MAY CAUSE Q S TERMINAL NOT TO BE USED WITH VARITRANE. DAMAGE TO THE EQUIPMENT. ` ® ZONE SENSOR TERMINALS 6 AND 7 REQUIRE SHIELDED TWISTED PAIR ) WIRING FOR OPTIONAL USE OF COMMUNICATIONS JACK. FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 20 of 36 Others • AH: N&R May 05, 2010 . Tag Data - Low Height VAV Fan Powered Terminal Units (Qty: 24) • Item Tag(s) Qty Description Model Number B1 FPB -102 1 Low Height VAV Fan Powered Terminal Uni LPEF0808 - B2 FPB -103 1 Low Height VAV Fan Powered Terminal Uni LPEF0808 B3 FPB -104 1 Low Height VAV Fan Powered Terminal Uni LPEF0808 B4 FP]3 -105 1 Low Height VAV Fan Powered Terminal Uni LPEF1409 B5 FPB -106 1 Low Height VAV Fan Powered Terminal Uni LPEF1409 B6 FPB -107 1 Low Height VAV Fan Powered Terminal Uni LPEF1409 B7 FPB -201 1 Low Height VAV Fan Powered Terminal Uni LPEF1409 B8 FPB -202 1 Low Height VAV Fan Powered Terminal Uni LPEF0809 B9 FPB -203 1 Low Height VAV Fan Powered Terminal Uni LPEF1409 B10 FPB -205 1 Low Height VAV Fan Powered Terminal Uni LPEF1409 B11 FPB -206 1 Low Height VAV Fan Powered Terminal Uni LPEF1409 B12 FPB -209 1 Low Height VAV Fan Powered Terminal Uni L' 1 • B13 FPB -211 1 Low Height VAV Fan Powered Terminal Uni L' EF 1809 7 Lpte b r B14 FPB -212 1 Low Height VAV Fan Powered Terminal Uni 'EF•809 B15 FPB -213 1 Low Height VAV Fan Powered Terminal Uni LPEF1 '' • rte.cGs B16 FPB -301 1 Low Height VAV Fan Powered Terminal Uni LPEF0809 CA:kilh4-1 B17 FPB -302 1 Low Height VAV Fan Powered Terminal Uni LPEF0808 B18 FPB -303 1 Low Height VAV Fan Powered Terminal Uni LPEF1409 B19 FPB -304 1 Low Height VAV Fan Powered Terminal Uni LPEF1409 B20 FPB -307 1 Low Height VAV Fan Powered Terminal Uni LPEF0808 B21 FPB -308 1 Low Height VAV Fan Powered Terminal Uni LPEF1409 B22 FPB -310 1 Low Height VAV Fan Powered Terminal Uni LPEF1409 B23 FPB -311 1 Low Height VAV Fan Powered Terminal Uni LPEF1409 B24 FPB -312 1 Low Height VAV Fan Powered Terminal Uni LPEF1409 Product Data - Low Height VAV Fan Powered Terminal Units All Units Low height parallel fan powered with electric reheat 1/2" [13 mm] matte faced insulation Slip and drive connection 277/60/1 motor voltage DDC with on /off electric heat control Left hand connection Power fuse 480 volt, 3 phase 2 stages of heat - equal increments 24 volt magnetic contactors Disconnect switch Electric heater air flow switch 1st year labor warranty - whole unit Item: B1 Qty: 1 Tag(s): FPB -102 8" (203 mm) - 900 cfm 08 super quiet fan Single speed motor w /SCR 5.0.kilowatt Item: B2, B3, B17 Qty: 3 Tag(s): FPB -103, FPB -104, FPB -302 8" (203 mm) - 900 cfm 08 super quiet fan Single speed motor w /SCR 5.5 kilowatt Item: B4, B11, B12, B21 Qty: 4 Tag(s): FPB -105, FPB -206, FPB -209, FPB -308 8" x 14" (203x356mm) -1800 cfm - 09 super quiet fan Single speed motor w /SCR 11.0 kilowatt FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 21 of 36 Others AH: TV&R May 05, 2010 Item: B5, B6, B7, B15, B18 Qty: 5 Tag(s): FPB -106, FPB -107, FPB -201, FPB -213, FPB -303 8" x 14" (203x356mm) - 1800 cfm 09 super quiet fan ) Single speed motor w /SCR 10.0 kilowatt Item: B8 Qty: 1 Tag(s): FPB -202 8 "(203 mm) - 900cfm 09 super quiet fan Single speed motor w /SCR 6.5 kilowatt Item: B9, B10 Qty: 2 Tag(s): FPB -203, FPB -205 8" x 14" (203x356mm) - 1800 cfm 09 super quiet fan Single speed motor w /SCR 9.0 kilowatt Item: B13, B16 Qty: 2 Tag(s): FPB -211, FPB -301 8" (203 mm) - 900 cfm 09 super quiet fan Single speed motor w /SCR 8.0 kilowatt Item: B14 Qty: 1 Tag(s): FPB -212 8" (203 mm) - 900 cfm 09 super quiet fan Single speed motor w /SCR 7.0 kilowatt Item: B19, B22 Qty: 2 Tag(s): FPB -304, FPB -310 8" x 14" (203x356mm) - 1800 cfm 09 super quiet fan Single speed motor w /SCR 7.5 kilowatt Item: B20 Qty: 1 Tag(s): FPB -307 8 "(203mm)- 900cfm 08 super quiet fan Single speed motor w /SCR 6.5 kilowatt Item: B23 Qty: 1 Tag(s): FPB -311 8" x 14" (203x356mm) - 1800 cfm 09 super quiet fan Single speed motor w /SCR 8.0 kilowatt Item: B24 Qty: 1 Tag(s): FPB -312 8 "'x 14" (203x356mm) -1800 cfm 09 super quiet fan High eff. electrically commutated motor 9.0 kilowatt Performance Data - Low Height VAV Fan Powered Terminal Units Tags FPB -102 FPB -103 FPB -104 FPB -105 FPB -106, FPB -201 FPB -107 - . -) Cooling inlet diameter 8" 8" 8" 8" x 14" 8" x 14" 8" x 14" Cooling inlet velocity (ft/min) 1461 1662 1676 1504 1318 1498 Design cooling airflow (cfm) 510 580 585 1170 1025 1165 Min cooling airflow (cfm) 155 170 170 345 310 350 FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 22 of 36 Others AH: TV&R May 05, 2010 Tags FPB -102 FPB -103 FPB -104 FPB -105 FPB -106, FPB -201 FPB -107 Valve heating airflow (cfm) 155 170 170 345 310 350 - APD @ cooling airflow (in H2O) 0.066 0.086 0.088 0.300 0.232 0.297 Fan airflow (cfm) • 365 410 410 815 715 815 Downstream SP (in H2O) , 0.300 0.300 0.300 0.300 0.300 0.300 - Fan TSP (in H2O) 0.304 0.304 0.304 0.309 0.308 0.309 % fan range ( %) 68.00 84.00 84.00 87.00 66.00 87.00 Total fan power (hp) 0.333 0.333 0.333 0.333 0.333 0.333 Plenum EAT (F) 75.00 75.00 75.00 75.00 75.00 75.00 Primary EDB (F) 55.00 55.00 55.00 55.00 55.00 55.00 Operating weight (lb) 84.0 84.0 84.0 98.0 98.0 98.0 Unit heating airflow (cfm) 520 580 580 1160 1025 1165 Coil heating capacity (MBh) 17.08 18.78 18.78 37.56 34.15 34.15 Room heat loss (MBh) • 16.53 18.24 18.24 36.37 32.98 32.88 Room heating setpoint (F) 70.00 70.00 70.00 70.00 70.00 70.00 Coil EAT (F) 69.04 69.14 69.14 69.05 68.95 68.99 Unit LAT (F) 99.30 98.98 98.98 98.90 99.66 96.01 Coil LAT (F) 99.30 98.98 98.98 98.90 99.66 96.01 Full load amps (A) 8.51 9.12 9.12 15.73 14.53 14.53 Min circuit ampacity (A) 10.64 11.39 11.39 19.66 18.16 18.16 Max fuse size (A) 15.00 15.00 15.00 20.00 20.00 20.00 Electric heater kW (kW) 5.00 5.50 5.50 11.00 10.00 10.00 Tags FPB -202 FPB -203 FPB -205 FPB -206 FPB -209 FPB -211 Cooling inlet diameter 8" 8" x 14" 8" x 14" 8" x 14" 8" x 14" 8" Cooling inlet velocity (ft/min) 2005 1221 1260 1453 1112 2177 Design cooling airflow (cfm) 700 950 980 1130 865 760 Min cooling airflow (cfm) 210 285 295 320 255 225 Valve heating airflow (cfm) 210 285 295 320 255 225 APD @ cooling airflow (in H2O) 0.128 0.201 0.213 0.280 0.168 0.151 Fan airflow (cfm) 490 665 685 810 600 540 Downstream SP (in H2O) 0.300 0.300 0.300 0.300 0.300 0.300 Fan TSP (in H2O) 0.305 0.307 0.308 0.309 0.307 0.306 % fan range ( %) 17.00 55.00 59.00 86.00 41.00 28.00 Total fan power (hp) 0.333 0.333 0.333 0.333 0.333 0.333 Plenum EAT (F) 75.00 75.00 75.00 75.00 75.00 75.00 Primary EDB (F) 55.00 55.00 55.00 55.00 55.00 55.00 Operating weight (lb) 89.0 98.0 98.0 98.0 98.0 89.0 Unit heating airflow (cfm) 700 950 980 1130 855 765 Coil heating capacity (MBh) 22.20 30.74 30.74 37.56 37.56 27.32 Room heat loss (MBh) 21.44 29.70 29.65 36.75 36.67 26.59 Room heating setpoint (F) 70.00 70.00 70.00 70.00 70.00 70.00 Coil EAT (F) 69.00 69.00 68.98 69.34 69.04 69.12 Unit LAT (F) 98.23 98.82 97.88 99.97 109.53 102.03 Coil LAT (F) 98.23 98.82 97.88 99.97 109.53 102.03 Full load amps (A) 10.32 13.33 13.33 15.73 15.73 12.12 Min circuit ampacity (A) 12.90 16.66 16.66 19.66 19.66 15.15 Max fuse size (A) 15.00 20.00 20.00 20.00 20.00 20.00 Electric heater kW (kW) 6.50 9.00 9.00 11.00 11.00 8.00 Tags FPB -212 FPB -213 FPB -301 FPB -302 FPB -303 FPB -304 ) Cooling inlet diameter 8" 8" x 14" 8" 8" 8" x 14" 8" x 14" Cooling inlet velocity (ft/min) 2091 1119 2235 1676 1234 1029 Design cooling airflow (cfm) 730 870 780 585 960 800 FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 23 of 36 Others AH: TVBR Ma OY 5� Tags FPB -212 FPB -213 FPB -301 FPB -302 FPB -303 FPB -304 Min cooling airflow (cfm) 220 500 230 170 280 240 Valve heating airflow (cfm) 220 500 230 170 280 240 APD @ cooling airflow (in H2O) 0.139 0.170 0.160 0.088 0.205 0.144 ) Fan airflow (cfm) 510 570 550 415 680 560 , Downstream SP (in H2O) 0.300 0.300 0.300 0.300 0.300 0.300 Fan TSP (in H2O) 0.306 0.306 0.306 0.304 0.308 0.306 % fan range ( %) 21.00 34.00 30.00 86.00 58.00 32.00 • Total fan power (hp) 0.333 0.333 0.333 0.333 0.333 0.333 Plenum EAT (F) 75.00 75.00 75.00 75.00 75.00 75.00 Primary EDB (F) 55.00 55.00 55.00 55.00 55.00 55.00 Operating weight (Ib) 89.0 98.0 89.0 84.0 98.0 98.0 Unit heating airflow (cfm) 730 1070 780 585 960 800 Coil heating capacity (MBh) 23.90 34.15 27.32 18.78 34.15 25.61 Room heat loss (MBh) 23.09 29.10 26.56 18.27 33.28 24.74 Room heating setpoint (F) 70.00 70.00 70.00 70.00 70.00 70.00 Coil EAT (F) 68.97 65.65 69.10 69.19 69.17 69.00 Unit LAT (F) 99.15 95.07 101.38 98.78 101.95 98.51 Coil LAT (F) 99.15 95.07 101.38 98.78 101.95 98.51 Full load amps (A) 10.92 14.53 12.12 9.12 14.53 11.52 Min circuit ampacity (A) 13.65 18.16 15.15 11.39 18.16 14.40 Max fuse size (A) 15.00 20.00 20.00 15.00 20.00 15.00 Electric heater kW (kW) _ 7.00 . 10:00 8.00 5.50 10.00 7.50 Tags FPB -307 FPB -308 FPB -310 FPB -311 FPB -312 Cooling inlet diameter 8" 8" x 14" 8" x 14" 8" x 14" 8" x 14" Cooling inlet velocity (ft/min) 1762 1376 1029 1080 1196 Design cooling airflow (cfm) 615 1070 800 840 930 Min cooling airflow (cfm) 200 320 235 250 305 Valve heating airflow (cfm) 200 320 235 250 305 APD @ cooling airflow (in H2O) 0.097 0.252 0.144 0.159 0.193 . Fan airflow (cfm) 415 750 560 560 620 Downstream SP (in H2O) 0.300 0.300 0.300 0.300 0.300 Fan TSP (in H2O) 0.304 0.309 0.306 0.306 0.307 % fan range ( %) 86.00 73.00 32.00 32.00 49.00 Total fan power (hp) 0.333 0.333 0.333 0.333 0.500 Plenum EAT (F) 75.00 75.00 75.00 75.00 75.00 . Primary EDB (F) 55.00 55.00 55.00 55.00 55.00 Operating weight (Ib) 84.0 98.0 98.0 98.0 98.0 Unit heating airflow (cfm) 615 1070 795 810 925 Coil heating capacity (MBh) 22.20 37.56 25.61 27.32 30.74 RoomTheat loss (MBh) 21.19 36.43 24.83 26.29 29.13 Room heating setpoint (F) 70.00 70.00 70.00 70.00 70.00 Coil EAT (F) 68.50 69.02 69.09 68.83 68.41 Unit LAT (F) 101.76 101.37 98.78 99.91 99.03 Coil LAT (F) 101.76 101.37 98.78 99.91 99.03 Full load amps (A) 10.32 15.73 11.52 12.12 14.43 Min circuit ampacity (A) 12.90 19.66 14.40 15.15 18.03 Max fuse size (A) 15.00 20.00 15.00 20.00 20.00 Electric heater kW (kW) 6.50 11.00 7.50 8.00 _9.00 FLD = Furnished by Trene U.S. Inc. / Installed by Equipment Submittal Page 24 of 36 Others AH: TV&R May 05, 2010 Mechanical Specifications - Low Height VAV Fan Powered Terminal Units Item: B1 - B24 Qty: 24 Tag(s): FPB -102, FPB -103, FPB -104, FPB -105, FPB -106, FPB -107, FPB -201, FPB -202, FPB -203, FPB -205, FPB -206, FPB -209, FPB -211, FPB -212, FPB -213, FPB -301, FPB -302, FPB -303, FPB -304, FPB -307, FPB -308, FPB -310, FPB -311, FPB -312 • 1 General Unit Information _ / The unit casing is 22 gauge galvanized steel. Outlet duct connection is flanged. Total metal encapsulation of all insulation edges. Hanger Brackets provided. Side access is provided. - Filter - A filter is provided on the plenum inlet(s) and attaches to the unit with factory installed brackets. Agency Listing - UL and Canadian UL listed as environmental air terminal unit. UL Control #9N65. All Trane terminal units are ARI 880 - 98 certified. General Unit Clearance Leave a minimum of 36" on control box side of unit for adequate service access. Allow at least 12" on remaining sides for unit clearance. A minimum of one and one half duct diameters of straight duct, upstream of the air inlet connection, should be present for optimum airflow measurement performance. Upstream duct should be the same diameter as the primary inlet connection. 1/2" Matte - Faced Insulation The interior surface of the unit casing is acoustically and thermally lined with 1/2 "1.8 lb /cu. ft, composite density glass fiber with high density facing. The insulation is UL listed and meets NFPA -90A and UL 181 standards. All insulation options which meet the 25/50 smoke developed and flame spread rating ( per ASTM E 84 and UL 723 and CAN /ULC S102 -M88) meets NFPA -90B. The insulation R -value is 1.9. All cut edges of insulation are completely encapsulated in metal to prevent erosion. 0808SQ Air Valve /Fan Combination Size - Parallel 8" Inlet designed for up to 900.0 cfm. Fan is 640.0 cfm. 0809SQ Air Valve /Fan Combination Size - Parallel 8" Inlet designed for up to 900.0 cfm. Fan is 1100.0 cfm. 8 x 14 Air Valve /Fan Combination Size - Parallel Air Valve is 1800.0 cfm, 8" x 14" Inlet. - Fan is 1100.0 cfm. Motor Single Speed, direct drive induction, permanent split capacitor type. Thermal overload protection provided. Motors are designed specifically for use with an open SCR which is standard. Motors accommodate anti - backward rotation at start up. Motor and fan assembly are isolated from terminal unit. Transformer The 50VA transformer is factory installed in the fan control box to provide 24 VAC for controls. Fuse Any electric heat unit with a calculated MCA greater or equal to 30 will have a fan fuse provided. SCR Variable Fan Speed Control Switch The SCR speed control device is provided as standard and allows the operator infinite fan speed adjustment so the fan output may be modified to achieve exact CFM requirements. Slip & Drive Connection A slip and drive connection has two straight flanges on the top and bottom, and two drive connections on the left and right sides. The drive sides are straight flanges which form a "U" shape. The mating ductwork has a similar setup. The two top and bottom pieces are shaped like a compressed "S" with sealant in the hollow of the "S ". These pieces will slide over the top and bottom straight flanges. The top and bottom flanges of the mating ductwork will slide into the ) otherside of these pieces. The two side pieces are shaped like a "C" and are called "Drives ". These pieces will slide over the "U" shaped flanges so the connection can not be pulled apart. These pieces are usually hammered into place. No screws are required, and by removing the drives, the ducts may be disconnected. FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 25 of 36 Others AH: TV&R May 05, 2010 •• • Electric Coil Factory provided and installed. UL recognized, resistance open -type heater with air flow switch, a disc -type automatic thermal primary safety device and manual reset load thermal secondary device. Heater element material is nickel- chromium. The heater terminal box is provided with 7/8" knockouts for customer power supply.Terminal connections are plated steel with•ceramic or phenolic insulators. All fan - powered units with electric reheat are single -point power connection. Magnetic Contactor An electric heater 24 volt contact for use with Direct Digital Control (D.D.C.) or Analog Electronic VAV Controls. Power Disconnect Switch A factory provided interlocking door disconnect switch located on the electric heater control panel. Airflow Switch An air pressure device designed to disable the heater when the unit fan is off. • Power Fuse A safety fuse located in the electric heater's line of power to prevent power surge damage to the electric heater. Flanged Outlet Duct Connection A rectangular opening on the unit discharge to accept a 90 degree flanged duct connection. Slip & Drive Connection A slip and drive connection has two straight flanges on the top and bottom, and two drive connections on the left and right sides. The drive sides are straight flanges which form a "U" shape. The mating ductwork has a similar setup. The two top and bottom pieces are shaped like a compressed "S" with sealant in the hollow of the "S ". These pieces will slide over the top and bottom straight flanges. The top and bottom flanges of the mating ductwork will slide into the otherside of these pieces. The two side pieces are shaped like a "C" and are called "Drives ". These pieces will slide over the "U" shaped flanges so the connection can not be pulled apart. These pieces are usually hammered into place. No screws are required, and by removing the drives, the ducts may be disconnected. • D.D.C. Actuator Trane 4 wire, 28 GA, 3.4 VA, 1.7 W, 24 VAC, 50/60 Hz floating point control actuator with linkage release button. Running torque is 35 in -lb (4 Nm) minimum and is non - spring return with a 90 second drive time. Travel is terminated by end stops at fully opened and closed positions. An integral magnetic clutch eliminates motor stall. When Trane controls are not provided, an integral 3 screw terminal is provided for field wiring. Operating temperature is 20.0 F to 125.0 F. Direct Digital Controller The microprocessor based terminal unit controller provides accurate, pressure independent control through the use of a proportional integral control algorithm and direct control technology. The controller monitors zone temperature set points, zone temperature and its rate of change, and valve airflow, using a differential pressure signal. Optionally, the controller can monitor either supply duct air temperature or CO2 concentration via appropriate sensors. The controller and pressure transducer are installed and factory wired in an enclosure with 7/8" knockouts for remote control wiring. A Trane zone sensor is required. System Communications The Controller is designed to send and receive data from a Tracer Summit or VariTrac Central Control Panel. Current unit status conditions and set points may be monitored and /or edited via this data communication feature. The network type is a twisted wire pair serial communication. Override Commands The following override commands may be received by the Unit Control Module (U.C.M.) from the Tracer System. Control Mode, Action, & Offset (1 thru 10) 1. Control Mode - The U.C.M. Control Mode may be edited from occupied to unoccupied to accomodate night setback / setup. 2. Control Action - The Control Action may be edited from cooling to heating by changing the primary air damper to a heating source. This will accomodate a cooling / heating changeover system. ) 3. Control Offset - Enabling Control Offset will increase the cooling temperature set point and decrease the heating temperature set point by a control offset value stored at the U.C.M. This function facilitates demand limiting in the occupied mode. 4. Drive damper fully open. 5. Drive damper fully closed. FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 26 of 36 Others AH: TV&R May 05, 2010 6. Drive damper to maximum airflow set point. 7. Drive damper to minimum airflow set point. 8. Disable unit fan. 9. Disable unit heat. 10. Reset - Enabling the reset function forces the controller and the flow sensor to recalibrate. • Following Unit Set points The following unit set points reside in the U.C.M. in nonvolatile memory. These set points are editable from Tracer Summit or Central Control Panel via the communications link. Set points in Nonvolatile Memory (1 thru 8) 1. Occupied cooling temperature set point 60.0 F - 80.0 F. 2. Occupied heating temperature set point 60.0 F - 80.0 F. 3. Unoccupied cooling temperature set point 60.0 F - 80.0 F. 4. Unoccupied heating temperature set point 30.0 F - 100.0 F. 5. Minimum cooling flow set point (0, 10 - 100% of unit equivalent cataloged airflow). 6. Minimum heating flow set point (0, 10 - 100% of unit equivalent cataloged airflow). 7. Maximum flow set point (0,10 - 100% of unit equivalent cataloged airflow). 8. Fan Control Offset - This determines at what operating point the fan in a parallel fan powered unit is energized. This can be specified as a function of temperature, degrees above heating set point,or primary airflow. (0.0 F -10.0 F or 0, 10 - 100% of unit equivalent cataloged airflow). Set points in Nonvolatile Memory (9 thru 15) 9. Heating Set point Offset - This determines at what point the 1st. stage of reheat turns on. Expressed in degrees below cooling set point. Only applicable when local thumb wheel is enabled. 10. Zone temperature, auxiliary temperature, and zone set point calibration corrections +1 -10.0 F. 11. Flow measurement calibration correction (50 - 150%). 12. Cooling Set point Low Limit - Applies low limit to programmed occupied cooling set point or zone sensor cooling set point 30.0 F - 100.0 F. 13. Heating Set point High Limit - Applies high limit to programmed occupied heating set point or zone sensor heating set point 30.0 F -100.0 F. 14. RTD / Thermistor - Determines what type of zone temperature sensor will be used. 15. Occupied and Unoccupied Outside Air Requirements - Determines the percent of outdoor air required in the zone for air quality requirements. Set points in Nonvolatile Memory (16 thru 21) 16. Series Fan Configuration- allows option of series fan powered box to shut off fan and dose air valve when unit is unoccupied. Fan will operate in unoccupied mode if reheat is active. 17. Heating set point low limit. 18. Cooling set point high limit. 19. Local heating flow set point enable /disable & set point. 20. Auxiliary analog input mode select for either auxiliary temperature sensor or CO2 detector. 21. Binary input mode select for either generic or occupancy detector. 22. Programmable hot water valve drive time. 23. Programmable air valve drive time. Additional Status Information (1 thru 8) In addition to the above set points, the following status information can be transmitted to Tracer Summit or the Central Control Panel. 1. Active cooling temperature set point. 2. Active heating temperature set point. 3. Current unit primary airflow. 4. Current zone temperature. 5. Re -heat status (On /Off). 6. Auxiliary Air Temperature - Available only if the unit has an auxiliary temperature sensor. 7. Failure Indicators - The U.C.M. will indicate the following: *Temperature Sensor Failure *Flow Sensor Failure *Local Zone Sensor Set point Failure 8. Ventilation Ratio. Additional Status Information (9 thru 12) FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 27 of 36 Others AH: TV&R May 05, 2010 • 9. Fan Status (on /off) 10. Calibration Status (calibrating /not - calibrating) • 11. BIP state 12. CO2 Concentration- available only if the unit has a CO2 sensor. This mode and auxiliary air temperature are mutually exclusive. DDC Sequence of Operation The unit controller continuously monitors the zone temperature against its set point and varies the primary airflow as required to meet zone set points. Airflow is limited by minimum and maximum airflow set points. Parallel Unit Fan Energization As the zone temperature reaches the heating set point, the microprocessor controls airflow to the heating temperature set point and energizes the auxiliary fan when necessary. At or below the heating set point, reheat is energized. The heating minimum airflow set point is factory set, field adjustable, and is separate from the cooling minimum set point. Parallel unit fan energization is a function of primary airflow or zone temperature. 1. Primary Airflow - The fan energizes when primary airflow drops below the fan set point airflow. The fan automatically starts when the zone temperature drops to the heating temperature set point. 2. Zone Temperature - The fan energizes when the zone temperature drops to a selectable number of degrees above the heating temperature set point. DDC Controls Option DD04, DD14 & DD44 Basic Operation: On /Off Staged Electric Heat (Normally Open Outputs) (DDC /UCM) (Parallel Units) A voltage signal from the zone sensor indicates the zone temperature is used by the unit controller to determine an error from the set point. This error, as well as primary flow differential pressure, is used to determine damper position within minimum and maximum cooling airflow set points. As the zone temperature drops to the heating set point, primary airflow is controlled to minimum heating flow set point. The fan operation is intermittent in both modes. Staged electric heat is energized. Air Valve- Fan Description (Parallel) (Series) The air inlet connection is an 18 gauge galvanized steel cylinder sized to fit standard round duct. A multiple point, averaging flow sensing ring is provided with balancing taps for measuring airflow within +/- 5% of unit cataloged airflow. Also provided with each unit is a calibration chart indicating airflow versus flow sensor pressure differential. The damper blade is constructed of a closed cell foam seal mechanically locked between two 22 gauge galvanized steel disks. The damper blade assembly is connected to a cast zinc shaft which rotates in a self lubricating bearing. The shaft is cast with a damper position indicator. The valve assembly includes a mechanical stop to prevent over stroking. Air Valve leakage < 1% at 4 ". • FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 28 of 36 Others AH: TV&R May 05, 2010 • . Unit Dimensions - Low Height VAV Fan Powered Terminal Units Item: B1 - B3, B17, B20 Qty: 5 Tag(s): FPB -102, FPB -103, FPB -104, FPB -302, FPB -307 Unit Size LPEF0808SQ Nominal 8' Die. a 4' Depth Valve Size 8 Depth - Nominal 08SQ Fan Fan Size Filter Size 10'x 20'x 1" (CITY 1) ALTER `. . 0°.#°"7...././..4111 lid' /- 101/t • 1s F 20• N. AIRFLOW .34** -8 - -i PLENUM INLET 111111) - AIRFLOW H 2 17 1/2' a ly U V NOTES: j i 1. Allow a minimum 6" plenum Inlet clearance �, for un -ducted Installations. \ 33/4 / 1 2. Ranged discharge outlet accepts up to a 1' T I duct flange. 3 Filter Is secured In fitter frame located In unit inlet x og 4. Bottom access panel standard 20' c 5. Air valve centered between top 8 bottom panel. • / a In nI n 6 Hanger Bracket flange on unit adds 2' to width and HEATER length of unit 8• 7 Heating coil undnsulated. External Insulation may be field supplied and Installed as required. 8. All high 8 low voltage controls have same -side NEC jumpback clearance. TOP VIEW AIRFLOW 9 Albw 48' of straight duct downstream of DISCHARGE OUTLET unit before first runout and Inside of the duct should be equal discharge size. 10. Terminal box access door Is side hinged. Ali for dearance. 40' 1 T —I 7 11• I 9 1/2- _ i I —1_ Approximate Dry Weight 84.0 lb Weights reflected may vary ±5.0 lb based upon options - 19. — selected. DISCHARGE VIEW 1 FLD = Furnished by Trene U.S. Inc. / Installed by Equipment Submittal Page 29 of 36 Others AH: TV&R May 05, 2010 Unit Dimensions - Low Height VAV Fan Powered Terminal Units Item: B4 - B7, B9 - B12, B15, B18, B19, B21 - B24 Qty: 15 Tag(s): FPB -105, FPB -106, FPB -107, FPB -201, FPB -203, FPB -205, FPB -206, FPB -209, FPB -213, FPB -303, FPB -304, FPB -308, FPB -310, FPB -311, FPB-312 Unit Size LPEF14RTO9S0 N ^ : 8' x 14° Damper x 4' Depth - Valve Size 8 Depth Nominal 09S0 Fan Fan Size Filter Size 10' x 20' x1" (OTY 1) ::;•:::.::;:::::: ,...;::::::: ‘.:::,›- FILTER , \ `! 11 %01 1 5 20' 1/4" AIRFLOW 14' -a PLENUM INLET A AIRFLOW 17 1 /2' NOTES. 1 for u -ducted tnsfallalions.m inlet clearance 3 3/4' 2 Flanged discharge a outlet accepts up to a 1' duct flange. 3 Filter Is secured In filter frame located In unit inlet. ) 4 i T . 4. Bottom access panel standard. 20' J i 5. Air valve centered between top 8 bottom panel HEATER m '' m 6. Hanger Bracket flange on unit adds 2" to width and length of unit. 8• 7 Heating coil un- insulated. External insulation may be field supplied and Installed as required. 8. All high 8 low voltage controls have same -side v NEC jumpbaek clearance. TOP VIEW AIRFLOW 9. Allow 48' of straight dud downstream of DISCHARGE OUTLET unit before first runout and inside of the duct should be equal discharge sae. 10. Terminal box access door Is side hinged. Allay for clearance. f a-- 40' :1 11' I 91/2' Approximate I I Dry Weight 984 lb Weights reflected may vary . t5.0 lb based upon options 19' selected. ) DISCHARGE VIEW FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 30 of 36 Others AH: TV &R May 05, 2010 , Unit Dimensions - Low Height VAV Fan Powered Terminal Units Item: B8, B13, B14, B16 Qty: 4 Tag(s): FPB -202, FPB -211, FPB -212, FPB -301 Unit Size LPEF0809S0 Nominal 8' Dia x 4' Depth Valve Size & Depth Nominal 09S0 Fan Fan Size Filter Stu) 10"x20'x1•(OTY1) FILTER ` s 707/2 1 S. E - 20• AIRFLOW d4 -8•—C>1 PLENUM INLET , 1111111111 _ � kn - AIRFLOW " , - c 1712' 1 111 NOTES: 4 1 1. Albw a minimum 6 plenum inlet clearance 3 3/4' 30. for tm-ducted Installations. 2. Flanged discharge outlet accepts up to a t' /1 t I duct flange. . 3 Filter Is secured In filter frame located in unit inlet. x og 4. Bottom access panel standard. 20' 1 D c 5. Alr valve centered between top & bottom panel i 1 ° 7 6. Hanger Bracket flange on unit adds 2' to width and HEATER length of unit. r 7. Heating coil un nsulated. External insulation may be field supplied and Installed as required. 8. All high & low voltage controls have same -side NEC Jumpbac k clearance. • TOP VIEW AIRFLOW DISCHARGE OUTLET 9. Allow 48' of straight duct downstream of unit before first runout and Inside of the duct should be equal discharge size. 10. Terminal box access door Is side hinged. Allow for clearance. 40' 1 1? I 912• Approximate d Dry Weight 89.0 lb Weights reflected may vary ±5.0 lb based upon options . ..._- 1r selected. DISCHARGE VIEW FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 31 of 36 Others • AH: TV&R May 05, 2010 Accessory - Low Height VAV Fan Powered Terminal Units Item: B1 - B3, B17, B20 Qty: 5 Tag(s): FPB -102, FPB -103, FPB -104, FPB -302, FPB -307 - Notes: _) 1. When attenuator is required, add inlet attenuator pressure to discharge static pressure for final fan performance. LPCF and LPEF maximum ■■■•■ Minimum 1 -row coil maximum - •- •- • -• -• -• 2 -row coil maximum Pa In. wg Low- Height Parallel 08S0—PSC 160 0.60 , 4 ATAVi IV i E 125 0.50 l � ' r E `" diro ,, s �u�jk r 541 (� A. , l;r N '�j R $ ' , 1� '1 _ 1 ,, 1 '1, 1 i r_..�' -.� i' � 100 0.40 4 i �r1a. � t n ,n €x s' 1 u i i ee c4,' a�fG t l^ ! > }� { - !,t h 3� J�'k�?' } L� 3 i�° t.` -mil fl Sy '..�,, } - ,1 '�� ... - ' 76 0.30 4 4 �1;3' y1yp ,`�'-? �. , .4 - ` - . 1 e i4 1 , w q , _, " C �� ' � Y�Y T F AH t � :� C �' �' r . � .rr , r� •v 'W 'A+ ?. ta, 50 0.20 � �,`au �. � ? ` € �� ,f 1 n , ti 4 P 1 , }� l I : f � � a� `ail l ' �a 25 0.10 pip/VIM .,. •, r- iv" .' t 1 0 200 250 300 350 400 450 500 550 am 71 94 118 142 185 189 212 236 260 Us Airflow . l FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 32 of 36 Others AH: TV&R May 05, 2010 Accessory - Low Height VAV Fan Powered Terminal Units ., Item: B4 - B16, B18, B19, B21 - B23 Qty: 18 Tag(s): FPB -105, FPB -106, FPB -107, FPB -201, FPB -202, FPB -203, FPB -205, FPB -206, FPB -209, FPB -211, FPB -212, FPB -213, FPB -301, FPB -303, FPB -304, FPB -308, FPB -310, FPB -311 ) Notes: . 1. When attenuator is required, add inlet attenuator pressure to discharge static pressure for final fan performance. LPCF and LPEF maximum Minimum 1 -row coil maximum - -•- - - -. 2 -row coil maximum Pa in. wg Low - Height Parallel 09SQ —PSC 199 0.80 � ,, 4T l tt aYi�f F 5 '� to {fit t 174 0.70 e 3 to 1 „ . ,, , , ii w : ^ a , , ,P ei� �Ik ” W M i dal F t E 150 0. l= f a ~ w - ° 4 ` d N : + 1 g. t2 ...... , 1 ;.� s�; m *I fib+ mtv� f u 1 -P eve >a ri ' f � _ 5Y,,,i. 1`C � m T s u�,� #7t" y aks r w.T 5"C�:� 125 0.50 RR , ' � 1 � ,t x 'A1 5 ` � ¢¢ t. 4YA . . Lr y -A r .' 2 k .. _ .... O U) 100 0.4 3a t -. fif A 7 ' ,4 ai dr S .( '' 'f `,v r�1 ' + n i 1 .7: t r s v +F €r r,, ilk` 7 k � 7 ` k Xa , ) } _ °,t^ �Tf {y YC u 1 i s 8. 1 . ,. � 76 0.30 s rt k � a 9� � d - ;' . i-.••,-, k $ . � a3 �►. i5 � • '• , • ti lF Si t . � Y U , ' tu 4 r • 5 � �. w.... f ,asya`'y ,. 1 .1� v ,uo- . �. 50 0.20 ., "� 6 � & a x.P ,4�.a; ,. ` 1 .•. i ,: .i: i =^ F - ''. - r +tom , a ask, 3 . L , r te _+Y ; - f ea 25 0.10 . ! :° 34 400 500 600 700 800 900 1000 am 189 236 273 330 378 425 472 Us Airflow FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 33 of 36 Others AH: TV&R May 05, 2010 Accessory - Low Height VAV Fan Powered Terminal Units Item: B24 Qty: 1 Tag(s): FPB -312 • - _ Notes: 1. When attenuator is required, add inlet attenuator pressure to discharge static pressure for final fan performance. 2. ECMs (Electrically Commutated Motors) are ideal for systems seeking maximum motor efficiency. LPCF and LPEF maximum Minimum 1 -row coil maximum - • -• -.- - • -. 2 -row coil maximum Pa In. wg LPxF 09S0 —ECM 125 0.60" "7,�(N ir' *Cc' -� 4 �J. �' � R4r� ° ��',`gt q +� Na � '� va nrr��.� �yy�n�> i"� �+� C +.� T � ,s kk `'I,� 1 . C .R,� c� , 1 ,1 tit ' � F 100 0.40 !fi 7 m4 .0 t t fi g` ' t- , � �' t , P. At � - ". Y 1 'u... - , . . yet ^- �-, ' � . 'i' ` .y. c c {? 1;4.4, �, 4 } , rd`�T4 �l� �` .,+' 9 t'. 5 5 + p �' a�fi`4 r a d , r- r,t t o rs ��t�r.2''d 1. 4 " y�.�v . ;,k ,, �"{ L , e Y • . t ' TAT � �' , ,A Y' A r U 4 y .,71�` 4 { O. �, _ � r S ' � �i h'1 r ' sr`f c�rxl �5� !? r � 76 0.30 C� T zr j. _, '. - r i p ^ 3 k a ti ` 'l 1 F 1 t TTI..f.-,-kAte,;:itt P t W t 4 R5p5E n( y C } . � •t 5 g , N rF t _ a :` rer r e c '� ,,wm pti*- '` SM- 4' �-- T+• ' � c 50 0.20 ` . ."` tw °M ` "t 7 c , xa } 'a,�4 'A"� " €k " ' ' '�� Ft,� E Y � a �� y2 a s f� 25 0.10 ,, . r 6,,, 1.. ti �' S`,�,..� -1 _ ✓'.`t` 200 300 400 600 600 700 800 900 1000 1100 Cfm 94 142 189 236 283 330 378 426 472 519 Vs Airflow ) FLO = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 34 of 36 Others AH: TV&R May 05, 2010 Field Wiring - Low Height VAV Fan Powered Terminal Units Item: B1 - B24 Qty: 24 Tag(s): FPB -102, FPB -103, FPB -104, FPB -105, FPB -106, FPB -107, FPB -201, FPB -202, FPB -203, FPB -205, FPB -206, FPB -209, FPB -211, FPB -212, FPB -213, FPB -301, FPB -302, FPB -303, FPB -304, FPB -307, FPB -308, FPB -310, FPB -311, FPB -312 480 Volt. 3 Phase L3 U L1 N T I I I I I — 1� N Heater Control Wiring A WARNING HAZARDOUS VOLTAGEI DISCONNECT ALL ELECTRIC POWER INCLUDING REMOTE DISCONNECTS BEFORE SERVICING. FAILURE TO DISCONNECT POWER BEFORE SERVICING CAN CAUSE SEVERE PERSONAL INJURY OR DEATH L CAUTION USE COPPER CONDUCTORS ONLY! Customer Notes: UNIT TERMINALS ARE NOT DESIGNED TO ACCEPT OTHER TYPES OF 1 Factory installed CONDUCTORS. FAILURE TO DO SO MAY CAUSE — — — — Optional or Installed by others. DAMAGE TO THE EQUIPMENT. • FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 35 of 36 Others AH: TV&R May 05, 2010 • Field Wiring - Low Height VAV Fan Powered Terminal Units Item: B1 - B24 Qty: 24 Tag(s): FPB -102, FPB -103, FPB -104, FPB -105, FPB -106, FPB -107, FPB -201, FPB -202, FPB -203, FPB -205, FPB -206, FPB -209, FPB -211, FPB -212, FPB -213, FPB -301, FPB -302, FPB -303, • - FPB -304; FPB -307, FPB -308, FPB -310, FPB -311, FPB -312 • HEATER • TERMINAL DAMPER FAN CONTROL BOX WIRING ACTUATOR BOX WIRING WIRING r 1"-----\ TB,•7 T 7 7' 18 1.2 i T82.5 i TB3-2 I -- - -C C == 1 I I / /1 YJ II /I I 1 2N YJ DSTO HEAT 6 6 'V 6 1 m = 11 10 7 8 S 2 1 O DIGITAL DISPLAY ZONE SENSOR 1ST STO HEAT W/ COMM. JACK O REMOTE M7D Q OPTIONAL FIELD INSTALLED L DIGITAL DSPLAY ZONE SENSOR J RFAN BR Y r TBI TB2-0 iBY2 I o T13134 i I 24VAC BL _ j I I I I �C t o f {14C J,ILDOLOOI, A] q 2(4) ON E S 2 , L L 1 ACT PRESSURE W /Caw . JACK SIP OND 24V REMOTE MTD TRANSDUCER ADDRESS D.D.C. \U.C.M. aQ J3 SWITCH CONTROL BOARD — R O PTIONAL FIELD , • e l „ a lac VOUT L INSTALLED ZONE SENSOR J BOBBIE — 1 qq 1 r Q ;i ki � Q qqg FT4 ppq F� FO� i� � � �S 24V . _ BSI-1)24V (TB�A) OND ZONE ONO SET AICO2 OND SENSOR OND 0 OUT V _ (T834)MCO2 OPTIONAL FIELD INSTALLED L CO2 SENSOR J D.D.C. \U.C.M. r 1 CONTROL BOX OPTIONAL �J IFFACTLLED -- .. OPTIONAL FACTORY INSTALLED WIRELESS I I SHIELDED TWISTED PAIR WIRELESS . I COMMUNICATIONS WIRING _ - r / � p 1 r T834 1 I TES! 1 24VAC — — • 1l R M� - - -- (T81.1)24VAC I I DLDD. — ielL _ - (794.013/p ,'1 � , 7 ' 101 OR MC CONTACT) - (181 -1) 24VAC BL !URN — _ 0Bt-2)oNo ED .. B 0881 2WV Y - NOT CONNECTED L J OPTIONAL FIELD INSTALLED OPTIONAL L OCCUPANCY SENSOR J L AUX TEMP SENSOR J , ® WARNING NOTE: HAZARDOUS VOLTAGE] DISCONNECT ALL ELECTRIC POWER 1. FACTORY WIRING INCLUDING REMOTE DISCONNECTS FIELD WIRING BEFORE SERVICING. — - - — OPTIONAL OR ALTERNATE WIRING FAILURE TO DISCONNECT POWER 2. 1/4 QUICK CONNECT REQUIRED FOR AU. FIELD CONNECTIONS. BEFORE SERVICING CAN CAUSE SEVERE PERSONAL INJURY OR DEATH Q ZONE SENSOR TERMINALS 1 ( -) AND 2 (f) REQUIRE SHIELDED TWISTED PAIR WIRING FOR COMMUNICATIONS JACK EQUIPPED ZONE SENSOR OPTION. e CAUTION NO ADDITIONAL WIRING REQUIRED FOR NIGHT SETBACK OVERRIDE (ON/ CANCEL). USE COPPER CONDUCTORS ONLYI cj THE OPTIONAL BINARY INPUT CONNECTS BETWEEN TB4 -1 (BIP) AND 24VAC (HOT) FROM UNIT TERMINALS ARE NOT DESIGNED ACCE TRANSFORMER. INPUT CAN BE RECONFIGURED AS AN OCCUPANCY INPUT VIA THE COMMUNICATIONS TOE OTHER TYPES OF CONDUCTORS. INTERFACE FAILURE TO DO SO MAY CAUSE Q AS SHIPPED. THE AUX INPUT IS CONFIGURED AS AN AUX TEMP INPUT. THE AUX INPUT CAN BE DAMAGE TO THE EQUIPMENT. • RECONFIGURED AS A CO2 SENSOR INPUT VIA THE COMMUNICATIONS INTERFACE. ) Q7. S TERMINAL NOT TO BE USED WITH VARITRANE. - l 1 © ZONE SENSOR TERMINALS 6 AND 7 REQUIRE SHIELDED TWISTED PAIR WIRING FOR OPTIONAL USE OF COMMUNICATIONS JACK. FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 36 of 36 Others i e 4 TRANS' Submittal RECEIVED ) MAY 262010 Prepared For: Date: May 05, 2010 Brian @ AH CITY OF TIGARD BUILDING DIVISION Job Name: AH: TV &R Trane U.S. Inc. is pleased to provide the enclosed submittal for your review and approval: Product Summary Qty Product 12 Variable Air Volume Single Duct Terminal Units The attached Information describes the equipment we propose to furnish for this project, and is submitted for your approval. Greg Korkowski Trane 7257 SW Kable Lane Portland, OR 97224 -7181 Phone: (503) 620 -8031 Fax: (503) 639 -1454 J:IJOBS1124143223121Trane VAV submittal for TV &R.doc Table Of Contents Product Summary 1 Variable Air Volume Single Duct Terminal Units (Items Al - Al2) Tag Data 3 Product Data 3 • Performance Data 3 Mechanical Specifications 5 Unit Dimensions 9 Field Wiring 9 ) r ' AH: TV &R May 05, 2010 • Tag Data - Variable Air Volume Single Duct Terminal Units (Qty: 12) Item Tag(s) Qty Description Model Number Al VAV -101 1 Variable Air Volume Single Duct Terminal VCCF10 . A2 VAV -102 1 Variable Air Volume Single Duct Termina VCCF06 ) A3 VAV -103 1 Variable Air Volume Single Duct Termina VCCF10 A4 VAV -201 1 Variable Air Volume Single Duct Termina VCCF10 A5 VAV -202 1 Variable Air Volume Single Duct Termina VCCF10 A6 VAV -203 1 Variable Air Volume Single Duct Termina VCCF10 A7 VAV -204 1 Variable Air Volume Single Duct Termina • VCCF12 A8 VAV -301 1 Variable Air Volume Single Duct Termina VCCF10 A9 VAV -302 1 Variable Air Volume Single Duct Termina VCCF10 Al0 VAV -303 , 1 • Variable Air Volume Single Duct Termina VCCF08 All VAV -304 1 . Variable Air Volume Single Duct Termina VCCF10 Al2 VAV -305 1 Variable Air Volume Single Duct Termina VCCF10 Product Data - Variable Air Volume Single Duct Terminal Units All Units Single duct cooling only terminal Matte faced insulation - 1/2" (13 mm) DDC without remote heat - cooling only Standard actuator Left hand 8/or same side connection (control &/or hot water coil) 1st year labor warranty whole unit Item: Al, A3, A4, A5, A6, A8, A9, All, Al2 Qty: 9 Tag(s): VAV -101, VAV -103, VAV -201, VAV -202, VAV -203, VAV -301, VAV -302, VAV -304, VAV -305 10" inlet size, 1400 cfm (254mm inlet, 661 Ws) Item: A2 Qty: 1 Tag(s): VAV -102 6" inlet size, 500 cfm (152mm inlet, 236 Vs) Item: A7 Qty: 1 Tag(s): VAV -204 • 12" inlet size, 2000 cfm (305mm inlet, 944 Ws) Item: Al 0 Qty: 1 Tag(s): VAV -303 8" inlet size, 900 cfm (203mm inlet, 425 Ws) Performance Data - Variable Air Volume Single Duct Terminal Units Tags VAV -101, VAV -102 VAV -103 VAV -202 VAV -203 VAV -204 VAV -201 Design cooling airflow (cfm) 900 280 420 730 800 1230 Min cooling airflow (cfm) 300 • 90 165 220 240 375 Valve heating airflow (cfm) 300 90 165 220 240 375 Cooling inlet diameter 10" 6" 10" 10" 10" 12" Cooling inlet velocity (ft/min) 1650 1426 770 1338 1467 1566 APD @ cooling airflow (in H2O) 0.010 0.065 0.010 0.010 0.010 0.010 Operating weight (lb) 22.0 16.0 22.0 22.0 22.0 27.0 Room heating setpoint (F) 70.00 70.00 70.00 70.00 70.00 70.00 Primary EDB (F) 55.00 55.00 55.00 55.00 55.00 55.00 Unit LAT (F) 55.00 55.00 55.00 55.00 55.00 55.00 Electric heat kW (kW) 0.00 0.00 0.00 0.00 0.00 _ 0.00 Tags VAV -301 VAV -302 VAV -303 VAV -304 VAV -305 Design cooling airflow (cfm) 1075 840 700 1100 1170 . 1 Min cooling airflow (cfm) 325 255 210 330 350 Valve heating airflow (cfm) 325 255 210 330 350 Cooling inlet diameter 10" 10" 8" 10" 10" Cooling inlet velocity (ft/min) 1971 1540 2005 2017 2145 FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 3 of 12 Others AH: TV&R May 05, 2010 • Tags VAV -301 VAV -302 VAV -303 ' VAV -304 VAV -305 APD @ cooling airflow (in H2O) 0.010 0.010 0.050 0.010 0.010 Operating weight (lb) 22.0 22.0 16.0 22.0 22.0 . Room heating setpoint (F) 70.00 70.00 70.00 70.00 70.00 Primary EDB (F) 55.00 55.00 55.00 55.00 55.00 Unit LAT (F) 55.00 55.00 55.00 55.00 55.00 Electric heat kW (kW) 0.00 0.00 0.00 0.00 0.00 ) ) FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 4 of 12 Others I . AH: TV&R May 05, 2010 • Mechanical Specifications - Variable Air Volume Single Duct Terminal Units Item: Al - Al2 Qty: 12 Tag(s): VAV -101, VAV -102, VAV -103, VAV -201, VAV -202, VAV -203, VAV -204, VAV -301, VAV -302, VAV -303, VAV -304, VAV -305 General Unit Information The unit casing is comprised of 22 gauge galvanized steel. Outlet connection is slip and drive. Agency Listing - The unit is UL and Canadian UL listed as a room air terminal unit. UL Control # 9N65. All Trane terminal units are ARI 880 - 98 certified. General Unit Clearance Allow adequate clearance to meet NEC on control box side of unit to meet NEC. A minimum of one and one half duct diameters of straight duct work, upstream of the air inlet connection, should be present for optimum airflow measurement performance. Upstream duct work should be the same diameter as the primary inlet connection. 1/2" Matte - Faced Insulation The interior surface of the unit casing is acoustically and thermally lined with 1/2" 1.50 lb.cu. ft. [24.00 kg. /cu. m.] composite density glass fiber with 4.0 lb. cu.ft. [64 kg. /cu. m.] high density facing. The insulation is UL listed and meets NFPA -90A and UL 181 standards. The insulation R -value is 1.9. All cut edges of insulation are completely encapsulated in metal to prevent erosion. Air Valve Round The air inlet connection is an 18 gauge galvanized steel cylinder sized to fit standard round duct. A multiple point, averaging flow sensing ring is provided with balancing taps for measuring within +/- 5% of unit cataloged airflow. An airflow versus pressure differential calibration chart is provided. The damper blade is constructed of a closed cell foam seal mechanically locked between two 22 gauge galvanized steel disks. The damper blade assembly is connected to a cast zinc shaft supported by self lubricating bearings. The shaft is cast with a damper position indicator. The valve assembly includes a mechanical stop to prevent over stroking. At 4.0" w.g. air valve leakage does not exceed 1% of cataloged airflow. Air Valve Size - 06 Air Valve is 500.0 cfm 6 "inlet. Air Valve Size - 08 Air Valve is 900.0 cfm 8" inlet. Air Valve Size - 10 Air Valve is 1400.0 cfm 10" inlet. • Air Valve Size -12 Air Valve is 2000.0 cfm 12 "inlet. Slip & Drive Connection A slip and drive connection has two straight flanges on the top and bottom, and two drive connections on the left and right sides. This is a standard option on all VAV single duct terminal units. D.D.C. Actuator Trane 3 wire, 26 GA, 3.4 VA, 1.7 W, 24 VAC, 50/60 Hz floating point control actuator with linkage release button. Running torque is 35 in -lb (4 Nm) minimum and is non - spring return with a 90 second drive time. Travel is terminated by end stops at fully opened and closed positions. An integral magnetic clutch eliminates motor stall. When Trane controls are not provided an integral 3 screw terminal is provided for field wiring. Operating temperature is 32.0 F to 125.0 F. Direct Digital Controller The microprocessor based terminal unit controller provides accurate, pressure independent control through the use of a proportional integral control algorithm and direct digital control technology. The controller monitors zone temperature set points, zone temperature and its rate of change, and valve airflow using a differential pressure signal. Optionally, the controller can monitor either supply duct air temperature or CO2 concentration via appropriate sensors. The controller is provided in an enclosure with 7/8" knockouts for remote control wiring. A Trane zone sensor is required. . ) System Communications The controller is designed to send and receive data from a Tracer Summit or other Trane Controllers, or a Varitrac Central Control Panel. Current unit status conditions and set points may be monitored and /or edited via this data communication feature. The network type is a twisted wire pair serial communication. FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 5 of 12 Others • AH: TV&R May 05, 2010 • • Override Commands The following override commands may be received by the Unit Control Module (U.C.M.) from the Tracer System. Control Mode, Action, Offset & Commands * Control Mode - Occupied or Unoccupied * Control Action - Heating or Cooling * Control Offset - Enabling Control Offset will increase the cooling temperature setpoint and decrease the heating temperature setpoint by a control offset value. * Drive damper fully open. * Drive damper fully closed. * Drive damper to maximum airflow setpoint. * Drive damper to minimum airflow setpoint. * Disable unit heat. * Reset - Enabling the reset function forces the controller and the flow sensor to recalibrate. Editable Set points and Functions Occupied and unoccupied cooling temperature set point 30.0 F -100.0 F. Occupied and unoccupied heating temperature set point 30.0 F -100.0 F. Maximum flow set point (10 -100% of unit equivalent cataloged airflow) Minimum heating and cooling flow set point (0, 10 -100% of unit equivalent cataloged airflow) Cooling set point low and high limit Low 30.0 F -100.0 F. High 30.0 F -102.0 F. Heating set point high and low limit 30.0 F -100.0 F. Hot water valve drive time Air valve drive time Fan Control Offset - determines at what point a parallel fan is energized. This can be a function of temperature (degrees above heating set point) or primary airflow Series Fan Configuration - allows series fan powered to shut off fan and close air valve when unit is unoccupied. Fan will operate in unoccupied mode if reheat is active. Local heating flow set point enable /disable and set point Analog input mode - auxiliary temperature sensor or CO2 detector Binary input mode - generic or occupancy detector - Zone temperature, auxiliary temperature, and zone set point calibration corrections (± 10 ° F) [± -12 °C] Flow measurement calibration correction (60 -150 %) Additional Status Information Available Active cooling set point Active heating set point Current unit primary airflow Current zone temperature Reheat status (on /off) Fan status (on /off) Calibration status (calibrating/not calibrating) Auxiliary air temperature (if unit has auxiliary temperature sensor) Not available if CO2 sensor used. CO2 concentration (if unit has CO2 sensor) Not available if auxiliary temperature sensor used. Ventilation ratio BIP state Failure indicators • Temperature sensor failures • Flow Sensor failure • Local zone sensor set point failure DDC Sequence of Operation FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 6 of 12 Others AH: TV &R May 05, 2010 • The unit controller continuously monitors the zone temperature against its set point and varies the primary airflow as required to meet zone set points. Airflow is limited by minimum and maximum airflow set points. • DDC Controls Option DD01, DD11 & DD41 Basic Operation: Cooling Only Control (No Remote Heat) (DDC /UCM) A voltage signal from the zone sensor indicates the zone temperature is used by the unit controller to determine an error from the set point. This error, as well as primary flow differential pressure, is used to determine damper position within minimum and maximum cooling airflow set points. As the zone temperature drops to the heating set point, primary airflow is controlled to minimum heating flow set point. FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 7 of 12 Others • AH: TV&R May 05, 2010 • Unit Dimensions - Variable Air Volume Single Duct Terminal Units Item: Al, A3 - A6, A8, A9, All, Al2 Qty: 9 Tag(s): VAV -101, VAV -103, VAV -201, VAV -202, VAV -203, VAV -301, VAV -302, VAV -304, VAV -305 . 2 3/4' < X 10' -� �5 12'- CONTROL BOX \ \ — 4' T AIR VALVE s 1/r v V II A AIR FLOW ACTUATOR 12' 1, g v SLIP a DRIVE CONNECTION 12' TOP VIEW Customer Notes 1512' 1. Alr Inlet Is centered In unit front panel. 14' 2. Slip 8 Drive discharge outlet standard. -�� 3. Mlnunum of 1.5 duct diameters of straight duct required at Inlet for proper flow reading 4 Mow 1? on control side for senAdng. 5. Unit Is fieldconvertable from a left-hand connection (shown) to a nght-hand by 8 1 f4• = 1Y 1311? rotating unit. Approximate 22.0 lb BACK VIEW Dry Weight Weights reflected may vary t5.0 lb based upon options selected. FLD = Furnished by Tian U.S. Inc. / Installed by Equipment Submittal Page 8 of 12 Others V AH: TV &R May 05, 2010 Unit Dimensions - Variable Air Volume Single Duct Terminal Units Item: A2 Qty: 1 Tag(s): VAV -102 2 3l4 CONTROLBOX��512' —a 4 C D{ AIR 8 2. VALVE AIR FLOW , ACTUATOR 11 1/2• O I SLIP & DRIVE _• 12' I CONNECTION TOP VIEW 11 12• • 5' 10• Customer Notes 1. Air Inlet is centered In unit front panel. 2. Slip & Drive discharge outlet standard v 3. Minimum of 1.5 dud diameters of straight duct required at Inlet for proper flow reading. 4. Allow 17 on control side for servicing 8 1 4• — 9• g 12• 5. Unit is fleld -cone table from a left-hand connection (shown) to a right -hand by rotating unit. Approximate 16.0 lb Dry Weight BACK VIEW Weights reflected may vary ±5.0 lb based upon options selected. • FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 9 of 12 Others AH: TV&R May 05, 2010 • Y • Unit Dimensions - Variable Air Volume Single Duct Terminal Units Item: Al Qty: 1 Tag(s): VAV -204 31/4• --max 12• —� - —5 1/2" CONTROL BOX\ AIR I • VALVE s 1 I I V n / AIR FLOW ACTUATOR / . 13' 1 SLIP 8 DRIVE CONNECTION 12' TOP VIEW Customer Notes 1. Air Inlet Is centered In unit front panel. 2 Slip 8 Drive discharge outlet standard. 3. Minimum of 1.5 duct diameters of straight duct required at Inlet for proper flow reading. 4. Allow 12• on control side for servicing. 5. Unit Is fleldconvertablefrom a left-hand connection (shown) to a right -hand by rotating unit. 18 12' > { 17' o-4 12 A A 8 /a• 1 4 • 1512• Approximate Dry Weight 27.0 lb Weights reflected may vary ±5.0 lb based upon options selected. V V ` BACK VIEW J FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 10 of 12 Others AH: TV&R May 05, 2010 Unit Dimensions - Variable Air Volume Single Duct Terminal Units Item: A10 Qty: 1 Tag(s): VAV-303 2 1/4' < > c 8• —� a-5 1n• —D CONTROL BOX\ 1 AIR 4' VALVE b I v AIR FLOW ACTUATOR , 11' a t SLIP & DRIVE CONNECTION 1R' TOP VIEW • C 12 12' 5 12' —fl 11' Customer Notes 1. Air Inlet is centered in unit front panel 2. Slip & Drive discharge outlet standard. 3. Minimum of 1.5 duct diameters of straight duct required at Inlet for proper flow reading. 814• 10' 1112' 4. Allow 12' on control side for servicing. 5. Unit is fleid<onverable from a left-hand connection (shown) to a right-hand by rotating unit. V V Approximate Dry Weight 18.0 lb BACK VIEW • Weights reflected may vary ±5.0 lb based upon options • ` selected. FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 11 of 12 Others Ali: TV&R May 05, 2010 • Field Wiring - Variable Air Volume Single Duct Terminal Units Item: Al - Al2 Qty: 12 Tag(s): VAV -101, VAV -102, VAV -103, VAV -201, VAV -202, VAV -203, VAV -204, VAV -301, VAV -302, VAV -303, VAV -304, VAV -305 • 24VAC 60HZ 1,PTIONrJ. FUSE. DISCONNECT I -I GREEN D _ NEC CLASS - a TRANSFORMER CONTROL CIRCUIT ) € 1 h T GROUND I 1 SCREW ' LOAD = 12VA I I lip (WITHOUT HEAT) I N>P110wu I . I DISCONNECT !OPTIONAL POWER EL I I FUSE 1 TRANSFORMER (SOVA) 11 Y I I r 1 I ill I L___ TO JO ON OFF - - UCM a El Boyd NV WATER VALVE 70 .15 24 VAC 12VA MAX OPTIONAL FELD INSTALLED T 7924 7811 IN-OFF WATER VALVE L J I 71326 7632 I r J I r J 1 I I I 1 rrrlll I , 1 b 6 le 6 6 ;D g. rrr,,••••111111 1 R9 FrrIn•--,,,, 1..1 R J I J1 10 O O O O 0 I7 � i ll I S' I 2I.) 1I•)J 7 2 1 11....11 ILJI ILJI ZONE SENSOR ACT WI COMM JAOC BP O D 24V REMOTE MTD ADDRESS D.D.C.\U C.M. Q Q a SWITCH CONTROL BOARD a NPTIOALFIELD 888888_ L INSTALLED ZCNE SENSOR J r n 1 2ND DIG HEATER STAGE _ TO J70 TO JO g � ��T gryr 9 El- ORN q yg in O TO JO _ 1S OPTIONAL 24VAC, 12VA B) • F4 • i t • • J C C ❑ ifj Clj C in 1 1 1 Z MAXIMAL DMIE 0533 BET UCOx OND L ELECTRIC HEATER J ) r • T k W MOT/ PROP S E b role BI L(ODSE) - WATER k‘..--.4-.„...----.41 v �J ro s R(OPEln VALVE SHIELDED TWISTED PAIR OPTIONAL FACTORY INSTALLED COMMUNICATIONS WIRING WIRFI FS$ L P TTO ELW T VALV J r r , o 1 7/134 - 1 r TBx-0 G R (110 TL---- 017,4)x.vAC I I 1 a r 781•, 7Dxa 7Baa ,811 C ° E °1O °J--- (Te.a)BP x � v , _ D834 I 1 7Bxe I tei2 I ORONCOOR'Cn- iH1 x I . I I I _ • (TBI4IZAYAC CO2 I I I BI `ES T --- N,B,.x)oNG SENSOR GAD o �a)0ND I I I I I Y - NOT COMMIS) OUT V- sT88-0)AXX72 1 y 1 (10 y 6 1 OP710NAL RELD INSTALLED OPTIONAL (11 ( OCCUPANCY SENSOR tIONAL FIELD INSTALLED cn it 10 7 1 (� (� ( 7 S 7 2 1 L J L AUX lEAP SENSOR J L COx SEIGOR J DIGITAL DISPLAY ZONE SENSOR WI COLOR JACK I- 1 REMOTE MiD W. OPTIONAL f Q Q FACTORY INSTALLED V WIRELESS OPTIONAL FIELD INSTALLED I L OORAL DISPLAY ZCNE SENSOR J I ___ YI 24VAC - _ — ( �T OL ®WARNING °u � HAZARDOUS VOLTAOEI OA 24V DISCONNECT ALL ELECTRIC POWER W530 54441 INCLUDING REMOTE DISCONNECTS L J BEFORE SERVICING FAILURE TO DISCONNECT POWER NOTE' BEFORE SERVICING CAN CAUSE SEVERE PERSONAL INJURY OR DEATH 1. FACTORY WIRING FIELD LIOG CAUTION OPTIONAL OR ALTERNATE WIRING USE COPPER CONDUCTORS ONLY, UNIT TERMINALS ARE NOT DESIGNED TO ACCEPT OTHER TYPES OF Q ZONE SENSOR TERMINALS I ( - ) AND 2 ( +) REQUIRE SHIELDED TWISTED PAIR WIRING FOR CONDUCTORS FALURE TO 0080 WY CAUSE COMMUNICATIONS JACK EQUIPPED ZONE SENSOR OPTION. • DAMAGE TO THE EDUPYENT Q NO ADDITIONAL WIRING REQUIRED FOR NIGHT SETBACK OVERRIDE (ON /CANCEL) . ® ZONE SENSOR TERMINALS 6 AND 7 REQUIRE SHIELDED TWISTED PAIR WIRING FOR OPTIONAL USE OF COMMUNICATIONS JACK • FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 12 of 12 Others TRANE° Submittal RECEIVED MAY 2 6 2010 CITY OF TIGARD • Prepared For: Date: May 05, 2010 BUILDING DIVISION Brian Shea @ American Heating Job Name: AH: TV &R Trane U.S. Inc. is pleased to provide the enclosed submittal for your review and approval. Product Summary Qty Product 1 Commercial Rooftop Air Conditioning Units (Midrange) The attached Information describes the equipment we propose to furnish for this project, and is submitted for your approval. Greg Korkowski Trane 7257 SW Kable Lane Portland, OR 97224 -7181 Phone: (503) 620 -8031 Fax: (503) 639 -1454 J :IJOBSI124143223111Trane RTU submittal for TV &R.doc Table Of Contents Product Summary 1 • Commercial Rooftop Air Conditioning Units (Midrange) (Item Al) • Tag Data 3 Product Data 3 Performance Data 3 Mechanical Specifications 7 Unit Dimensions 12 Fan Curve 24 Weight, Clearance & Rigging Diagram 25 Field Wiring 31 Field Installed Options - Part/Order Number Summary Commercial Rooftop Air Conditioning Units (Midrange) 43 • AH: TV&R May 05, 2010 Tag Data - Commercial Rooftop Air Conditioning Units (Midran e) (Qty: 1) Item Tag(s) Qty Description Model Number Al RTU -2 1 30 Ton Packaged Industrial Rooftop SFHLF304 • ) Product Data - Commercial Rooftop Air Conditioning Units (Midrange) • I Item: Al Qty: 1 Tag(s): RTU -2 DX Cooling With Natural Gas Heat R410A Development Sequence • 30 Ton Unit 460 Volt -60 Hertz -3 Phase 2 Stage Low gas heat capacity 100% Exhaust - 71/2 Hp with Statitrac 900 rpm - Exhaust/return fan 0 -100% Economizer Economizer Control w /dry bulb Extended grease lines 2.00" [51 mm] Spring isolators Throwaway filters 20 Hp - Supply motor 1200 rpm - Supply fan VAV- Discharge Temp Ctrl -Supply and Exhaust/Return Fan with VFD with Bypass Standard ambient control cULus Nonfused Unit Disconnect Switch Low leak fresh air damper High - Efficiency Motors (Supply and Exhaust/Return) Temperature sensor (Fld) Access doors Trane communication interface module Factory- Powered 15A GFI Convenience Outlet Year 1 Labor Warranty Heating & Cooling Refrigerant Warranty First Year Only Seismic spring curb (Rd — not included in this submittal) • Envisor Screen (Fld — not included in this submittal) Start-up Notes: LESS: Fused disconnect or overcurrent protection, smoke detector. Performance Data - Commercial Rooftop Air Conditioning Units (Midrange) Tags RTU -2 Design airflow (cfm) 12000 Exhaust Airflow (cfm) 12000 Cooling EDB (F) 79.00 Cooling EWB (F) 64.00 Ent air relative humidity ( %) 44.02 Ambient temp (F) 95.00 Leaving Coil DB (F) 55.03 Leaving Coil WB (F) 53.90 Leaving Unit DB (F) 58.71 Leaving Unit WB (F) 55.39 Gross total capacity (MBh) 354.77 Gross sensible capacity (MBh) 313.17 Gross latent capacity (MBh) 41.61 Net total capacity (MBh) 310.56 Net sensible capacity (MBh) 268.96 Net sensible heat ratio ( %) 86.60 . ) Input htg capacity (MBh) 350.00 Output htg capacity (MBh) 287.00 Output htg capacity w /fan (MBh) 325.46 Heating EAT (F) 58.00 FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 3 of 20 Others AH: TV&R May 05, 2010 . Tags RTU -2 Heating LAT (F) 80.04 Heating delta T (F) 22.04 Supply duct static pressure (in H2O) 2.000 ) Return duct static pressure (in H2O) 0.750 • • Component S.P. drop (in H2O) 1.250 Total static pressure (in H2O) 4.000 Supply motor BHP calculated (bhp) 15.10 Supply fan RPM calculated (rpm) 1211 Exhaust static pressure (in H2O) 0.750 Exhaust motor BHP calculated (bhp) 5.53 Exhaust fan RPM calculated (rpm) 864 System power (kW) 43.14 EER @ ARI (EER) 10.2 IPLV @ ARI (IPLV) 13.1 Minimum circuit ampacity (A) 93.48 Maximum overcurrent protection (A) 110.00 Minimum disconnect switch size (A) 100.00 Recommended dual element (A) 100.00 Compressor 1 count (Each) 2.00 Compressor 1 RLA (A) 22.20 Supply fan motor FLA (A) 25.50 Supply fan count (Each) 1.00 Condenser fan FLA (A) 5.40 Exhaust fan motor FLA (A) 9.80 Other FLA (A) 2.00 Evaporator face area (sq ft) 25.50 Evaporator fin spacing (Per Foot) 168 Evaporator rows (Each) 5.00 Condenser rows (Each) 4.00 Condenser fin spacing (Per Foot) 168 Min. unit operating weight (Ib) 4800.0 Max. unit operating weight (Ib) 6786.0 Fan motor heat (MBh) 44.21 Discharge duct - 63 Hz (dB) 94 Discharge duct - 125 Hz (dB) 92 Discharge duct - 250 Hz (dB) 86 Discharge duct - 500 Hz (dB) 85 Discharge duct - 1 kHz (dB) 84 Discharge duct - 2 kHz (dB) 80 Discharge duct - 4 kHz (dB) 77 Discharge duct - 8 kHz (dB) 73 Return duct - 63 Hz (dB) 85 Return duct - 125 Hz (dB) 85 Return duct - 250 Hz (dB) 79 Return duct - 500 Hz (dB) 75 Return duct -1 kHz (dB) 75 Return duct - 2 kHz (dB) 73 Return duct - 4 kHz (dB) 65 Return duct - 8 kHz (dB) 62 Run acoustics Yes Exhaust fan - 63 Hz (dB) 75 Exhaust fan - 125 Hz (dB) 76 Exhaust fan - 250 Hz (dB) 75 Exhaust fan - 500 Hz (dB) 73 Exhaust fan - 1 kHz (dB) 70 Exhaust fan - 2 kHz (dB) 68 FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 4 of 20 Others AH: TV&R May 05, 2010_ /. Tags RTU -2 Exhaust fan - 4 kHz (dB) 65 Exhaust fan - 8 kHz (dB) 59 Calculate weights? Yes Installed point load 1 (Ib) 746.6 Installed point load 2 (Ib) 723.1 Installed point load 3 (Ib) 788.2 Installed point load 4 (Ib) 764.6 Installed point load 5 (Ib) 823.6 Installed point load 6 (Ib) 800.0 Installed point load 7 (lb) 837.1 Installed point load 8 (Ib) 813.5 Total weight (Ib) 6296.8 First X dimension (ft) 13.27 First Y dimension (ft) 3.74 Installed point load 1 - X (in) 4.000 Installed point load 1 - Y (in) 4.000 Installed point load 2 - X (in) 124.000 Installed point load 2 - Y (in) 87.000 Installed point load 3 - X (in) 226.000 Installed point load 4 - X (in) 265.000 Rated capacity at ARI (tons) 29.17 . ) FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 5 of 20 Others AH: TV&R May 05, 2010 i. Mechanical Specifications - Commercial Rooftop Air Conditioning Units (Midrange) Item: Al Qty: 1 Tag(s): RTU -2 • General - R410A Units shall be specifically designed for outdoor rooftop installation on a roof curb and be completely factory assembled and tested, piped, internally wired, fully charged with R-410A compressor oil and shipped in one piece. Units shall be available for direct expansion cooling only, or direct expansion cooling with natural gas, electric, hot water or steam heating. Filters, outside air system, exhaust air system, optional non -fused disconnect switches and all operating and safety controls shall be furnished factory installed. All units shall be cULus approved and factory run tested. Cooling capacity shall be rated in accordance with ARI Standard 360. All units shall have decals and tags to aid in service and indicate caution areas. Electrical diagrams shall be printed on long life water resistant material and shall ship attached to control panel doors. Casing Exterior panels shall be zinc coated galvanized steel, phosphatized and painted with a slate grey air -dry finish durable enough to withstand a minimum of 500 hours consecutive salt spray application in accordance with standard ASTM B117. Screws shall be coated with zinc - plus -zinc chromate. Heavy gauge steel hinged access panels with tiebacks to secure door in open position shall provide access to filters and heating sections. Refrigeration components, supply air fan and compressor shall be accessible through removable panels as standard. Unit control panel, filter section, and gas heating section shall be accessible through hinged access panels as standard. Optional Double Wall Construction hinged access doors shall provide access to filters, return /exhaust air, heating and supply fan section. All access doors and panels shall have neoprene gaskets. Interior surfaces or exterior casing members shall have 1/2" Tuf -Skin fiberglass insulation. Unit base shall be watertight with heavy gauge formed load bearing members, formed recess and curb overhang. Unit lifting lugs shall accept chains or cables for rigging. Lifting lugs shall also serve as unit tiedown points. Compressors - R410A The Trane 3 -D Scroll compressors have a simple mechanical design with only three major moving parts. Scroll type compression provides inherently low vibration. The 3 -D Scroll provides a completely enclosed compressor chamber with optimized scroll profiles which leads to increased efficiency. The 3 -D Scroll includes a direct - drive, 3600 rpm, suction gas cooled hermetic motor. Dependent on the compressor model, motor protection is provided by either a patented motor cap and integral line break motor protector or an external 24 VAC module which provides protection against incorrect phase sequence, excess motor temperatures, over current protection, and phase loss. Trane 3 -D compressor includes centrifugal oil pump, scroll tips seals, internal heat shield that lowers the heat transfer from discharge and suction gas, oil level sight glass and oil charge valve. Some compressor models also provide a dip tube that allows for oil draining, in addition to a low leakage internal discharge check valve to help prevent refrigerant migration. Each compressor shall have a crankcase heater installed, properly sized to minimize the amount of liquid • refrigerant present in the oil sump during off cycles. Phase and Voltage Monitor R410A Standard on all IntelliPak R410A units. Protects 3 -phase equipment from phase loss, phase reversal, and low voltage. Any fault condition will produce a Failure Indicator LED, and send the unit into an emergency stop condition. cULus approved. Phase and Voltage Monitor R410A Standard on all IntelliPak R410A units. Protects 3 -phase equipment from phase loss, phase reversal, and low voltage. Any fault condition will produce a Failure Indicator LED, and send the unit into an emergency stop condition. cULus approved. Condenser Coil - R410A Configured aluminum fin fin secondary surface shall be mechanically bonded to primary surface of 5/16" O.D. internally enhanced copper tubing for extra corrosion resistance. Subcooling circuit(s) shall be provided as standard. All coils shall be factory pressure tested and vacuum dehydrated. Condenser Fans and Motors All condenser fans shall be vertical discharge, direct drive fans, statically balanced, with steel blades and zinc plated steel hubs. Condenser fan motors shall be three -phase motors with permanently lubricated ball bearings, built -in current and thermal overload protection and weathertight slingers over motor bearings. ' ) Supply Fan All supply fans shall have two double inlet, forward- curved fans mounted on a common shaft with fixed sheave drive and shall be dynamically balanced and tested in factory. Supply fan shall be test run in unit as part of unit test and unit shall reach rated rpm before the fan shaft passes through first critical speed. Fan shaft shall be mounted on two grease FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 6 of 20 Others AH: TV&R _ May 05, 2010 lubricated ball bearings designed for 200,000 hours average life. Optional extended grease lines shall allow greasing of bearings from unit filter section. Fan motor and fan assembly shall be mounted on common base to allow consistent belt tension with no relative motion between fan and motor shafts. Entire assembly shall be completely isolated from unit and fan board by double deflection rubber -in shear isolators, or by optional 2" deflection spring isolation. All supply fan motors meet the U.S. Energy Policy Act of 1992 (EPACT). Unit Controller DDC microprocessor controls shall be provided to control all unit functions. The control system shall be suitable to control CV or VAV applications. The controls shall be factory- installed and mounted in the main control panel. All factory- installed controls shall be fully commissioned (run tested) at the factory. The unit shall have a Human Interface Panel with a 16 key keypad, a 2 line X 40 character clear English display as standard to provide the operator with full adjustment and display of control data functions. The unit controls shall be used as a stand -alone controller, or as part of a building management system involving multiple units. 1 The unit shall be equipped with a complete microprocessor control system. This system shall consist of temperature and pressure (thermistor and transducer) sensors, printed circuit boards (modules), and a unit ounted Humanlnterface Panel. Modules (boards) shall be individually replaceable for ease of service. All microprocessors, boards and sensors shall be factory mounted, wired and tested. The microprocessor boards shall be stand -alone DDC controls not dependent on communications with an on -site PC or a Building Management Network. The icroprocessors shall be equipped with on -board diagnostics, indicating that all hardware, software and interconnecting wiring are in proper operating condition. The modules (boards) shall be protected to prevent RFI and voltage transients from affecting the board's circuits. All field wiring shall be terminated at separate, clearly marked terminal strip. Direct field wiring to the I/O boards is not acceptable. The microprocessor's memory shall be non - volatile EEPROM type requiring no battery or capacitive backup, while maintaining all data. 2 Zone sensors shall be available in several combinations with selectable features depending on sensor. 3 The Human Interface Panel's keypad display character format shall be 40 characters x 2 lines. The character font shall 1 be 5 x 7 dot matrix plus cursor. The display shall be Supertwist Liquid Crystal Display (LCD) with blue characters on a ray /green background which provides high visibility and ease of interface. The display format shall be in clear English. Two or three digit coded displays are not acceptable. 4 The keypad shall be equipped with 16 individual touch - sensitive membrane key switches. The switches shall be divided into four separate sections and be password protected from change by unauthorized personnel. The six main menus shall be STATUS, SETPOINTS, DIAGNOSTICS, SETUP, CONFIGURATION and SERVICE MODE. Throwaway Filters Filters are 2" thick, UL Class 2, glass fiber type. Filters rated at 80% average synthetic dust weight arrestance when tested in accordance with ASHRAE 52 -76 and 52.1 test methods. Filters mounted in galvanized steel rack. Modulating 100 Percent Exhaust Fan with Statitrac ControlTwo, double - inlet, forward -curved fans shall be mounted on a common shaft with fixed sheave drive. All fans shall be dynamically balanced and tested in factory before being installed in unit. Exhaust fan shall be test run as part of unit final run test. Unit shall reach rated rpm before fan shaft passes through first critical speed. Fan shaft shall be mounted on two grease lubricated ball bearings designed for 200,000 -hour average life. Optional extended grease lines shall be provided to allow greasing of bearings from unit filter section. Fan motor and assembly shall be mounted on common base to allow consistent belt tension with no relative motion between fan and motor shafts. Entire assembly shall be completely isolated from unit and fan board by double deflection, rubber in shear isolators or spring isolation on motor sizes larger than five hp. For both CV and VAV rooftops, the 100 percent modulating exhaust discharge dampers (or VFD) shall be modulated in response to building pressure. A differential pressure control system, (Statitrac), shall use a differential pressure transducer to compare indoor building pressure to outdoor ambient atmospheric pressure. The FC exhaust fan shall be turned on when required to lower building static pressure setpoint. The ( Statitrac) control system shall then modulate the discharge dampers (or VFD) to control the building pressure to within the adjustable, specified dead band that shall be adjustable at the Human Interface Panel. All exhaust fan motors meet the U.S. Energy Policy Act of 1992 (EPACT). 0 -100 percent modulating economizer Operated through the primary temperature controls to automatically utilize OA for "free" cooling. Automatically modulated return and OA dampers shall maintain proper temperature in the conditioned space. Economizer shall be FLD = Furnished by Trans U.S. Inc. / Installed by Equipment Submittal Page 7 of 20 Others AH: TV&R May 05, 2010 equipped with an automatic lockout when the outdoor high ambient temperature is too high for proper cooling. Minimum position control shall be standard and adjustable at the Human Interface Panel or with a remote potentiometer or through the building management system. A spring return motor shall ensure closure of OA dampers during unit shutdown or power interruption. Mechanical cooling shall be available to aid the economizer mode at any ambient. Low leak economizer dampers shall be standard with a leakage rate of 2.5 percent of nominal airflow (400 CFM /ton) at 1" wg. static pressure. Ultra low -leak economizer dampers Standard low leak dampers shall be provided with chlorinated polyvinyl chloride gasketing added to the damper blades and rolled stainless steel jamb seals to the sides of the damper assembly. Ultra low -leak economizer dampers shall have a leakage rate of one percent based on testing data completed in accordance with AMCA Standard 500 at AMCA Laboratories. Economizer Control with Dry Bulb Used with the fresh air economizer, an outdoor temperature sensor is included for comparing the outdoor dry bulb temperature to a locally adjustable temperature setpoint. The setpoint is programmed at the human interface, or remote human interface, to determine if outdoor air temperature is suitable for economizer operation. Gas -fired heating option, Staged All gas -fired units shall be completely assembled and have a wired gas fired heating system integral within unit. Units shall be cULus or CSA approved specifically for outdoor applications downstream from refrigerant cooling coils. All gas piping shall be threaded connection with a pipe cap provided. Gas supply connection shall be provided through the side or bottom of unit. All units shall be fire tested prior to shipment. Heat Exchanger shall be tubular two pass design with stainless steel primary and secondary surfaces. Free floating design shall eliminate expansion and contraction stresses and noises. Gasketed cleanout plate shall be provided for cleaning of tubes /turbulators. Heat exchanger shall be factory pressure and leak tested. Burner shall be a stainless steel industrial type with an air proving switch to prevent burner operation if the burner is open for maintenance or inspection. Ceramic cone shall be provided to shape the flame to prevent impingement on sides of heat exchanger drum. Burner assembly shall house ignition and monitoring electrode. Combustion Blower shall be centrifugal type fan to provide air required for combustion. Fan motor shall have built -in • thermal overload protection. Gas Safety Controls shall include electronic flame safety controls to require proving of combustion air prior to ignition sequence which shall include a 60 second pre -purge cycle. Direct spark ignition shall be provided on 235 and 350 MBh heat exchangers and pilot ignition shall be provided on 500, 850 and 1000 MBh heat exchanger units. Sixty second delay shall be provided between first and second stage gas valve operation on two -stage heaters. Continuous electronic flame supervision shall be provided as standard. Temperature Sensor Bullet or pencil type sensor that could be used for temperature input such as return air duct temperature. Trane Communication Interface Module (TCI) Provides interface to Trane's Integrated Comfort system (ICS), which allows control and monitoring of the rooftop by a Tracer building management system. BAYSENS016 - Temperature Thermister The temperature thermister is used to communicate temperature changes in either the Zone, Return Air, Supply Air or Outside Ambient. - FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 8 of 20 Others • • . S . . . O - 11 .+ C mo y ti NOTES : D v 3 -- 1 LOW AMBIENT DAMPER ONLY COMES WITH SELECTED UNIT . • 3 fl° m iii Q. 1 ' . [ D y 0 0. - 93 7/8• y • co DJ CD ) • i N P — -te ■ / OPTIONAL LOW - A , 30 TON PLAN VIEW AMBIENT DAMPER- C 4• Co LIFTING POINTS X4-/ W m r -- - -, 0 Q. I D 1 II 1 I 94 3/16• 87 1/4. 1/16• 58 5/16• 57 5116 I 0 n1 7 C. II 1 V 3 I I I ' [ [ 0 l °{ 22 13/8' DRAIN HOLES x°--88 7/8' ^{ Ca C 1 NPT-F CONDENSATE !0 3/8' (BOTH SIDE) - •3 7/8• C 3 DRAIN (BOTH SIDE 130 5/16• •- a. m 162 3B• 30 TON FRONT VIEW CO 289 3/8• E a 30 TON LEFT SIDE VIEW Di . 7 1 1/8• CONDUIT co 61/16• SUPPLY D C CONTROL CIRCUIT 0 1 - 1 118• CONDUIT CCC A.0 CONTROL CIRCUIT CONN. EU I I BASE SE FOR POWER SUPPLY 6r 1 1/8• CONDUIT AC 8 _ DC CONTROL CIRCUIT 40 3/8• RETURN - 1/ 8 3/8• 7 3/8' V 811/16• . 5/ (i i 4 4 1R • m 5 13116• •78 7/8• •13 11/16• a 15 11/16 m 1991/8• - 233118• - - 181/18• 91 0 ., f 19 9116• N h.) O 0 30 TON PLAN VIEW OF UNIT 0 AH: TV&R May 05, 2010 ✓ . Unit Dimensions - Commercial Rooftop Air Conditioning Units (Midrange) Item: Al Qty: 1 Tag(s): RTU -2 T. C W z Z W 0 z c8 z_ c i • i E' er LL o f c33 W • • F - x Y w Z o N O C 8 1 11 t t • z z z O Q Z m Z O W W � W r O 0 0 • H O Z f c • l - ) FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 10 of 20 Others • AH: TV&R May 05, 2010 Unit Dimensions - Commercial Rooftop Air Conditioning Units (Midrange) Item: Al Qty: 1 Tag(s): RTU -2 . / - W - o N O S 0 C7 c a.O Z a • gy i t 7 t U • ti - W 1 � ' Z � o 1= =1 1=1 m c / f o N f C Q _ Z H LL Z 0 iD LL N W ' 0 ao 0 W ° 0 N W F I ° c z _ cc • 1 FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 11 of 20 Others AH: TV&R May 05, 2010 Unit Dimensions - Commercial Rooftop Air Conditioning Units (Midrange) Item: Al Qty: 1 Tag(s): RTU -2 ELECTRICAL / GENERAL DATA TONS GAS HEATING - PERFORMANCE Model (Tonnage) SFHLF30 (30Ton) Heating Input 235.0 Unit Operating Voltage Range 414 -506 Heating Output 192.7 Unit Primary Voltage 460 Capacity Steps 2 Unit Hertz 60 Unit Phase 3 HEATING - GENERAL DATA Gas inlet pressure 1 1/4' EER / IPLV 10 2 EER / 131 IPLV Gas Pipe Connection Size T we - 14' we COMPRESSOR ELECTRIC HEATER Number 2 Electric Heater Kw Tons (Each) 13.5 Electric Heater Full Load Amps Compressor Rated Load Amps (Each) 22 2 Locked Rotor Amps (Each) 158.0 SUPPLY FAN MOTOR CONDENSER FAN MOTOR Number 1 Number 3 Horsepower (Each) 20.0 Horsepower (each) 1.0 Supply Fan Motor Full Load Amps 25.5 Condenser Fan Motor Full Load Amps 5 4 EXHAUST / RETURN FAN MOTOR FILTERS - TYPE Number 1 Type: Throwaway Horsepower (Each) 7.5 Furnished YES Exhaust Fan Motor Full Load Amps 9.8 Number 16 Recommended Size 20'x 20'x 7 REFRIGERANT TYPE Charge Type: R 410A FR Furnifished shed RS Factory Charge (Circuit #1): 58.5 lb Number Factory Charge (Circuit #2)• N/A Recommended Size Notes: 1. LOAD 1= Current of the largest motor (compressor or fan motor); LOAD 2 Sum of the currents of all remaining motors; LOAD 3 = Current of electric heaters LOAD 4 = Control Power Transformer (20-40 ton units add 3 FL amps for wire sizing formula, 50 -75 ton units add 6 FL amps) 2. For Electric Heat MCA, MOP, RDE values, calculate for both cooing and heating modes. (When determining LOADS, the compressors do not operate when the unit is In heating mode) (On 70-75 ton single source units, heating Load 4 = 12 amps on 200,230 volt units and 9 amps on 460,575 volt units) 3. If selected Max Over Cur Is less than the Min Clr Amp, then select the lowest maximum fuse size which Is equal to or larger than the Min Or Amp, provided the selected fuse size does not exceed 800 amps 4. If the selected Recommended Dual Element fuse size Is greater than the selected Max Over Cur Protection value, then select the Recommended Dual Element fuse size value to equal the Max Over Protection value. 5. Compressor KW at ARt rating conditions of 80/67 -95 6. Refrigerant charge is an approx. value. For more precise value, see unit nameplate and service Instructions ) FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 12 of 20 Others AH: TV&R May 05, 2010 I . Fan Curve - Commercial Rooftop Air Conditioning Units (Midrange) Item: Al Qty: 1 Tag(s): RTU -2 S HF30 ^ 17i�RFM UnI&e: Q cperatnoidc vvoolo0ch ■ C " 10 CperafngSatCRessua,00In1 - QO MEM O;eralnp 1211E0 I C eratnpBakeHarseReer15.10bhp 40 : EP N61rde:0 de:ODO • C 9 1111 DesbnTerp79DOF Z. in. WAWA 6098A0 Dal3:5510 IMMIWM ralliWM 0) 7 4°° iV ME 131 � ��i 1�� 7018/11) 0 _ 6 _ �� co loolMIWAIWArlaltill 80 MAO co 4 100oR �`_ =►�� I . ....b•WAVAMIWA=MIP c. •..7• ■ ... ° *j ME11■00---.40111/■■Yr -rer=piiii 2 mi., --...riftimp■--""■‘1Witalli10111111111111/ A te.. 0 5000 10000 15000 20000 25000 30000 36000 40000 45000 50000 56000 Airflow (cfm) - ) FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 13 of 20 Others AH: TV &R May 05, 2010 J. Weight, Clearance & Rigging Diagram - Commercial Rooftop Air Conditioning Units (Midrange) Item: Al Qty: 1 Tag(s): RTU -2 ) w 1 a4• • 1 / ..................- 4 ./ _ 4 0 Air 1 ,„, 1 . 1 1 ; 1 �\ 4 ..............„, 1 114 .L' ...................... ...4.::::::::::::..:.... . :....... ..... ......... :....•.• :. : :. ••: : •... : : :. : . ;: : : : : : : : :.• :.• : :: :::::::::::::.:*::::::: o:•:•:. : .•. 'r4 •' O•:•:• 111 :o ' ::: KIIIIIIIIIII:: g'j. *-:::::::§§g1:, .3::::::::::::: hi ... , v 1 :::::::::::::* 4 ...::::::::::.. 1.1 .:.:.:.:.::::. ..::::::::::: _....._ :::::::::.. .:::::*:..... . 3::::,> .,..:.::::.:+::::.:.:.:.:.:.:.. . ..:.:.:!.!.!........ • FLD = Furnished by Trane U.S. Inc. /Installed by Equipment Submittal Page 14 of 20 Others All: TV&R May 05, 2010 �. Weight, Clearance & Rigging Diagram - Commercial Rooftop Air Conditioning Units (Midrange) Item: Al Qty: 1 Tag(s): RTU -2 l ! Il«l4; • - • lI6tL1,,: �1 . . . . . . .. . .. . .. . .. r, _ u 84' x n 151/2• - Center of Gravity X. 13.27 ft Center of Gravity Y: 3.74 ft Point Load 1: 746 6 lb Point Load 2: 723.1 lb Point Load 3: 788.2 lb Point Load 4: 764.6 lb Point Load 5: 8.b Pant Load 6. 8000Ib Point Load 7: 83737.1 1 lb Point Load 8: 8135 lb Point Load 9: WA Point Load 10: WA Total Weight' 6296.8 lb 0.0 14i Added Weight IRU: N/A ........��\ Double wall : ( °I N/A Notes: 1. The actual weight Is stamped on the unit nameplate. 2. The weight shown represent the typical unit operating weights for the unit selected 3. Add weight to the total unit weight PL2 PL4 PL6 PL8 Ij o • • �: �- EZ )\ X11 % f PL 1 PL 3 PL 5 PL 7 CENTER OF GRIVTY AND INSTALL WEIGHT X -Y POINTS FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 15 of 20 Others Ali: TV&R May 05, 2010 l . Field Wiring - Commercial Rooftop Air Conditioning Units (Midrange) Item: Al Qty: 1 Tag(s): RTU -2 • DEVICE PREFIX LOCATION CODE AREA LOCATION 1 INSIDE UNIT CONTRA'. BOX 2 CONDENSER SECTION ] AR HANDLER SECTION HEATING 4 HEATING SECTION SECTION 6 EXTERNAL FIELD MONIED DEVICE 4 ECT1CN 4U11 CIRCUIT R CROAT Si HYDROIIC HEAT ACTUATOR ELECTRIC HEAT MAIN UNIT CONTROL WW. os awns! MA N. lads UNITS DOLT Wee muacaru b as who b to m. by Po amoaner O 0 O 0 0 0 37Y ]GAL 11 116 III 1 2 3 4793.4916 1781 OR 1514 IIM LI 1.2 1.3 1 LI U U r 9 4 4 1 4 4 4 I I I 1 1 it it 11 = 0 - insiil \-,- T p I N]A LI U U LI U U 4114A. LINE VOLTAGE LINE VOLTAGE CUSTOMER CONNECTION WIRE RANGE ) UNITS WITH MAN POWER TERMINAL BLOCK (ALL VOLTAGES) UNTIE WITH MAIN POWER DISCONNECT SWITOI BLOCK SIZE WIRE OTY CCNECTOR WOE RANGE DISCONNECT SIZE MME OTY COOECTCR WIRE RANGE 175 AAP 1 613418 100 ALP 1411.1/0 310 AMP I 00a001ACY no AMP nJ00 MCII Q 600 A 2 (1 Ja6e00 MOM 6 (,peaco MOU 400 AMP 14310 MCA) x3.600 RCM) • WARNING MP 550 AMP 2 IN-003 ALCM 400 MP (4,0 MCA) 50460 ALKALI a 0 AMP 2 1124S0 RCM 500 A 250-5C0MO1 HAZARDOUS VOLTAGE) MCM NOTES B TROMP 600 00IACM DISCONNECT ALL ELECTRIC POWER - ABLODX SIZE 6D cDNIECTSIZEI1 INCLUDING REMOTE DISCONNECTS CALCULATED BY SELECTING THE SIZE B 400 ALP DISCONNECT SELECTED BY BEFORE SERVICING. GREATER THAN OR EQUAL TO 116X EQUA710N GIVEN IN NOTE A, AND BY (SUM OF UNIT LOADS). SEE UNIT TIE UNIT UCA VALUE SEE LITERATURE FOR UNIT LOAD VALUES LITERATURE FOR APPROPRIATE MCA FAILURE TO DISCONNECT POWER L EQUATIO4 BEFORE SERVICING CAN CAUSE TR -1 VARIABLE FREQUENCY DRIVE FACTORY SETTING SUMMARY SEVERE PERSONAL INJURY OR DONOT ENERGIZE MENU PARAMETER ADJUSTMENT DESCRIPTION DEATH. UNIT CHECNOUT PROCEDURE MACRO CFO VT SET FOR VA A AVE RTISSEMENT AND I T RI TIPPROCEDIRL 1 alE TORQUE HAS BEEN COMPLETED I IFI DISPLAY DUrPtTrFREQUENCY VOLTAGE HASARDEUX) 2 ACC 30 m SECONDS ACCELERATION DECONNECTEZ TOUTES LES SOURCES NOTE Check to nuke sure Oa MO Hz aNecbr.Mldt lmWd n/le loft at 2 dEC 30 30 SECONDS CECELARATXOI ELECTRIQUES INCLUANT LES Nebyped Icos001 N1dWow ea 2 LSP 33 22 HERTZ DISJONCTEURS SITUES A DISTANCE dlgna0e LEDs I. eel In Oa 60 Hz poY VP). tlan(to VP). 3 SFI MR SELECT HIGH SWITCH FRED AVANT D'EFFECTUER L'ENTRETIEN 3 SFr a eMHZ SWITCHING FREQ FAUTE DE DECONNECTER LA SOURCE ELECTRIQUE AVANT D'EFFECTUER 6 CU 11X Motor FLA ILATE MAX. CURRENT TOMOTGR L'ENTRETIEN PEUT ENTRAINER DES 3 nCr Manx NPFLA SETS ACTOR RARAMO FOR acALOJLAnOR BLESSURES CORPORELLES SEVERES 2 Hap 60 Hz SETS MAXYUM OUTPUT FREQUENCY OU LA MORT. 4 tC ° 3W SELECT 3 WIRE 00H1ROl n CAUTION 4 (CI LEL SWINE CONTROL MAINTAINED 6 113 NET FREEWHEEL STOP WHEN LGOPEN USE COPPER CONDUCTORSONLYI 6 LI3 NO NO ASSIGNMENT UNIT TERMINALS ARE NOT DESIGNED TO ACCEPT OTHER 6 Lid NO NO ASSIGNMENT TYPES OF CONDUCTORS. 5 R3 RUN R3 SET FOR DRIVE RUNNING 6 FLA YES ENABLE CATCH-ON-THE-FLY FAILURE TO DO SO MAY CAUSE DAMAGE 70 THE EQUIPMENT. 0 AS YES ALLOWSREBTART - a IPL NO DISABLES DRIVE INPUT RASE LOSS DETECTOI 1 0 OPL NO DISABLES DRIVE QUTPVT PHASE LCG9 DETECTION • J FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 16 of 20 Others . I1 !—1 ..� o, 3 m o _ CD O V y' I ii' r -I n � 1 Z �L - n I X -1- , 3 co I d 3 A KO - 2 OO1OAON 097, 0.907 „ 0 CO / \ WARNING � • 410 - r 3 STOP SWITCH © ° (fFRfS ITC 9 Tic A n HAZARDOUS VOLTAGE! u - I- •MODE I �— 7 1 - -.�0 - _ j ■.. DSCONNECT ALL ELECTRIC INCLUDING REMOTE DISCONNECTS r • • 11 C— 0 s HEARNO _ , I 7 I— ( I — r —I C O CO BEFORE SERVICING. I w ur .9. 430 I V 0 to FAILURE TO DISCONNECT POWER I I I O 4 BEFORE SERVICING CAN CAUSE I I I I SEVERE PERSONAL INJURY OR I I 1TB4 I I D DEATH. rrE 07 Q , •a - -- Ell 0CM m - - -I— A AVERTISSEMENT " Z OMDD --{ ri 0 VOLTAGE HASARDEUXI i - T - - - CI MCI — J a DECONN TOUTES LES SOURCES 1` o ® © m — — }- — — 1- _ — — J , ELEC TRIO UES INCLUANT LES V f — El ®0�� — — — O r DIS JONCTEURS SITUES A D ( ` - f r 0 ® ©m I - t 3 G AVANT D'EFFECTUER L'ENTRETIEN. Yom ri®ca� - I I n a FAUTE DE DECONNECTER LA SOURCE ( 11 m��© ^I I I I (3 m ELECTRIQUE AVANT D'EFFECTUER 1111:131:11:1 — I I C a L'ENTRETIEN PEUT ENTRAINER DES I J I I 3 BLESSURES CORPORELLES SEVERES I h 435 , I G OU LA MORT I-` A TE 7 u7 - . 3 - L c 2 � � L� E A\ CAUTION r I _ - -I I-�-' a USE COPPER CONDUCTORS ONLYI I. r--- + m.E TEMP _ c = 1U 01 UNIT TERMINALS ARE NOT Q I I •° — ' COMMON UNOCCUPIED 77 DESIGNED TO ACCEPT OTHER I i •10 . — S9Acp v TYPES OF CONDUCTORS. NEAT 7 - 419 - I 1 FAILURE TO DO SO MAY CAUSE CCCLa - - •,• — —1 •1 • — •704D r 7 DAMAGE TO THE EQUIPMENT. L • •17 7 — 6 GPO J +aI fi SYS ONO 3- I-.0 - --A L 537 I IMPORTANT! - I — • ' S • — 71 EA T I � SERVICE 10 DO NOT ENERGIZE I n• .— 5COOL F- — --. I-C J, CaAYN.Glla/9 HRH UNIT UNTIL CHECK -OUT (.- -1-c $1 CND 11 }-I 4 + 7 — -- I 1 •10 — YSTSON .m _ I J2•1 1 1 "� DIAE AND START -UP PROCEDURE L - I--C 52 ,,,,,,,,:f -1 - •1. - -I 2 4 /AC CaaYREC JI D ARCM ONE UNIT( HAS BEEN COMPLETED I J L 410 • — 10 SERVICE .,, + C J2-2(A ,N 24 VAC 14 - .0— MOO EARTH DEVICE PREFIX LOCATION CODE GROUND _ REMOTE PANEL Q I PANEL L J WRIT NM AREA LOCATION 1 INSIDE UNIT CONTROL BOX 2 CONDENSER SECTION 3 AIR HANDLER SECTION N CO 4 HEATING SECTION •-c V 5 EXTERNAL FIELD MOUNTED DEVICE C a JI 0 -.. O N 0 0 r —_, r__, H —_ - 3 01 _ TES"' go 0. a I X o m II -1 3 CO 4D WARNING v 0• zr n HAZARDOUS VOLTAGE! DISCONNECT ALL ELECTRIC POWER N 0 co INCLUDING REMOTE DISCONNECTS N BEFORE SERVICING. 1TB5 0 a FAILURE TO DISCONNECT POWER + .ea 42e +: .0 Cr BEFORE SERVICING CAN CAUSE 2 M O 413 13 SEVERE PERSONAL INJURY OR 3 eta e6e 1' D IT DEATH • 624 525 1e ^ e 025 530 to AVERTISSEMENT 27 � 15 e 44e 533 fo O. VOLTAGE HASARDEUXI , a eso e34 m 1 DECONNECTEZ TOUTES LES SOURCES 10 427 443 21 C m d ELECTRIQUES INCLUANT LES 11 420 444 3 G DISJONCTEURS SITUES A DISTANCE 7 3 AVANT D'EFFECTUER L'ENTRETIEN. 40 FAUTE DE DECONNECTER LA SOURCE C w ELECTRIQUE AVANT D'EFFECTUER y L'ENTRETIEN PEUT ENTRAINER DES e th CC BLESSURES CORPORELLES SEVERES C OU LA MORT. 3 CAUTION a d USE COPPER CONDUCTORS ONLY! UNIT TERMINALS ARE NOT CD a DESIGNED TO ACCEPT OTHER TYPES OF CONDUCTORS. FAILURE TO DO SO MAY CAUSE 534 ea DAMAGE TO THE EQUIPMENT. TRACER COMMUNICATIONS <1 11 IMPORTANT! DO NOT ENERGIZE UNIT UNTIL CHECK -OUT AND START -UP PROCEDURE HAS BEEN COMPLETED DEVICE PREFIX LOCATION CODE AREA LOCATION I INSIDE UNIT CONTROL BOX 2 CONDENSER SECTION N 3 AIR HANDLER SECTION CD 4 HEATING SECTION IS v 5 EXTERNAL FIELD MOUNTED DEVICE O 1 0 N ha o O • �� 0 3 - x > 1 - ___ D Li. x i y "mom ? [I CD Q. ` � 13 ALARM OUTPUT (-NO — 448 -- Cr (24 VAC MAX) 1 COM -449 - - (7 y — NC - 450 - - O X m 3 II => VAV BOX RELAY NO - 445 - - - 1 54 / \ WARNING ®24 VAC MAX COM- 446 - -- .. n. NC 447 \ HAZARDOUS X al 7 DISCONNECT ALL ELECTRIC POWER C O N INCLUDING REMOTE DISCONNECTS N CO N BEFORE SERVICING. 0 y FAILURE TO DISCONNECT POWER 1TB16 I - C e BEFORE SERVICING CAN CAUSE D SEVERE PERSONAL INJURY OR 1 507 445 12 - - - -1 DEATH 2 508 446 13 - - - J n VOLTAGE A AVERTISSEMENT r 3 509 448 74 - - - a HASARDEUXI 76: DECONNECTEZ TOUTES LES SOURCES 5 542 449 16 _....I 0 d ELECTRIQUES INCLUANT LES 6 543 450 17 3 DISJONCTEURS SITUES A DISTANCE 7 544 614 18 3 1 AVANT D'EFFECTUER L'ENTRETIEN. 8 545 615 19 CO S FAUTE DE DECONNECTER LA SOURCE 9 506 616 20 C a ELECTRIQUE AVANT D'EFFECTUER 3 L'ENTRETIEN PEUT ENTRAINER DES 10 612 21 Q BLESSURES CORPORELLES SEVERES 11 613 22 .-. 3 OU LA MORT A\ C AUTION USE COPPER CONDUCTORS ONLY] 3 UNIT TERMINALS ARE NOT CO DESIGNED TO ACCEPT OTHER TYPES OF CONDUCTORS FAILURE TO DO SO MAY CAUSE DAMAGE TO THE EQUIPMENT IMPORTANT! DO NOT ENERGIZE UNIT UNTIL CHECK -OUT AND START -UP PROCEDURE HAS BEEN COMPLETED DEVICE PREFIX CATION CODE 1...-- NO IX L - COM DIRTY FILTER (B01) CD AREA LOCATION NC 25 I INSIDE UNIT CONTROL BOX 2 CONDENSER SECTION N 3 NR HANDLER SECTION O 4 HEATING SECTION O] co C, 5 EXTERNAL FIELD MOUNTED DEVICE o 0 o N N O 0 0 Q • AH: TV&R May 05, 2010 I Field Installed Options - Part/Order Number Summary ,., This is a report to help you locate field installed options that arrive at the jobsite. This report provides part or order numbers for each field installed option, and references it to a specific product tag. It is NOT intended as a bill of r ) material for the job. Product Family - Commercial Rooftop Air Conditioning Units (Midrange) I Item Tag(s) Qty Description Model Number Al RTU -2 1 30 Ton Packaged Industrial Rooftop SFHLF304 Field Installed Option Description Part/Ordering Number Temperature sensor ) FLD = Furnished by Trane U.S. Inc. / Installed by Equipment Submittal Page 20 of 20 Others . + I' r • FEATURES FULL PERIMETER VIBRATION ISOLATION CURB SELECT BASE CURB 1 - SHIPPED FULLY WELDED AND ASSEMBLED. HEIGHT CANFAB PART# HEIGHT 2 - FULL PERIMETER BASE CURB, WOOD NAILER, END OF UNIT. RAIL,FLASHING AND WATER AND AIR BARRIER. 1 `., - SEE NOTE #7. El 60 * *B -FIC08A Or - SPRING ISOLATION WITH 2 STATIC DEFLECTION / El 60 * *B -FlC11A 11" AND EARTHQUAKE RESTRAINTS (OSHPDAPPROVED). H / 4 - WEATHER TIGHT ACCESS DOORS AT EACH ISOLATOR El 60 * *B -FlC14A 14' LOCATION FOR ADJUSTMENT. ` •)5 5 - SLOPED DRAIN PAN. �� p ❑ 60 * *B- FIC18A 18' 6 - OTHER AVAILABLE OPTIONS INCLUDE EXTERNAL f� �/ • INSULATION, SINGLE PITCH, COMPOUND PITCH / i� ❑ 60 * *B -FlC24A 24* ' AND CUSTOM HEIGHT. GCS 7 - CONDENSOR END OVERHANGS CURB P 8 V� � 1:3 60 * *B -FlC36A 36 FOR ELECTRICAL ENTRY THROUGH . L 2 5 0 G � NOTE: FINISH HEIGHT IS 13.5' TALLER BASE OF UNIT. 1. 5 THAN THE BASE CURB HEIGHT. F , \ SELECT * ALL DIMENSIONS ARE I.D. OF CURB * D. 0 -� iI END OF UNIT. CONSTRUCTION . \ %% / SUPPLY SEE NOTE #7. El A= STANDARD WELDED CONSTRUCTION G % 1-- K ; { �- o E= STANDARD WELDED CONSTRUCTION _ ; ; 3 T � , j.. i � I EXTERNALLY INSULATED. #4. � RETURN I i i 1. r El C= CUSTOM CONSTRUCTION. i� I 2 �_/ C DI T I- 3 SELECT IF PITCHED(INCLUDE PITCH j F TYP. A R ORIENTATION FORM) >A... SIDE VIEW ❑ PITCHED NOTE: * "J" DIMENSION IS 66" ON 60,70,75 TON SEHF (UNITS WITH ELECTRIC HEAT) * * ° H" DIMENSION IS 29.125 ON 60,70,75 TON SEHF (UNITS WITH ELECTRIC HEAT) SELECT CANFAB PRODUCT PART# TONS MODEL A B C D E F G H J K L M ❑ 6024B- FIC * *A 20,25,30 SAHF 191.9375 80.875 24 35.3125 68.8125 22.625 6 5.6875 69.5 27.3125 1.6875 234.50 ❑ 6026B -F1C * *A 20,25,30 S *HF 219.5625 80.875 24 35.3125 68.8125 22.625 6 1 67.375 27.3125 1.6875 262.125 ❑ 6028B- FIC * *A 40 SAHF 226 80.875 24 48 68.8125 22.625 6 5.6875 69.5 29.9375 1.5 296.5625 ❑ 6030B- FIC * *A 40 S *HF 264.5 80.875 24 48 68.8125 22.625 6 2.25 67.375 29.9375 1.5625 335.4375 ❑ 6044B -FIC * *A 50,55 SAHF 226 80.875 24 48 68.8125 22.625 6 5.6875 69.5 29.9375 1.5 328.5625 ❑ 6046B- FIC * *A 50,55 S *HF 264.5 80.875 24 48 68.8125 22.625 6 2.25 67.375 29.9375 1.5625 367.4375 ❑ 60329- FIC * *A 60,70,75 SAHF 226 106.375 24 48 94.3125 22.625 6 11.1875 83.875 29.9375 1.5 296.5625 n 60349- FIC * *A 60,70,75 S *HF 264.5 106.375 24 48 94.3125 22.625 6 * *2.375 *92.75 29.9375 1.5625 _ 335.4375 _ FOR: TRANE SAHF, S *HF INTELLIPAK UNITS (((CanFab 25-75 TONS CANNON FABRICATN INC NO: 60 * * - *IC* PROJECT: 182 GRANITE STREET SLATE 101, CORONA, CA 92879 ENGINEER: DISTRIBUTOR: PHONE(951)278 -1830 FAX( 951 )278 -8444 m.cirab.com ca,raneoa,1a.com DRAWING NO: 6024TR.DWG rb /MR 03.24.08 DATE: APPROVED BY: DATE: / / I • • •• a • . • FEATURES FULL PERIMETER VIBRATION ISOLATION CURB SELECT BASE CURB 1 - SHIPPED FULLY WELDED AND ASSEMBLED. HEIGHT CANFAB PART# HEIGHT 2 - FULL PERIMETER BASE CURB, WOOD NAILER, REV: C END OF UNIT. RAIL,FLASHING AND WATER AND AIR BARRIER. 1 ' SEE NOTE #7. 0 60 * *C- F1C08A 08" 3 - SPRING ISOLATION WITH 2 "STATIC DEFLECTION / 6 El 60**C -FIC11A 11' AND EARTHQUAKE RESTRAINTS (OSHPDAPPROVED). H / 4 - WEATHER TIGHT ACCESS DOORS AT EACH ISOLATOR O 60 **C- FIC14A 14" LOCATION FOR ADJUSTMENT. 1g :: ❑ 5 - SLOPED DRAIN PAN. ,� lYp 60 * *C- FIC18A 18" 6 - OTHER AVAILABLE OPTIONS INCLUDE EXTERNAL INSULATION, SINGLE PITCH, COMPOUND PITCH ��: 0 60 * *C- FIC24A 24" AND CUSTOM HEIGHT. , ,GC ' \ El , 60 * *C- FIC36A 36 7 - CONDENSOR END OVERHANGS CURB P B p pV � �� , FOR ELECTRICAL ENTRY THROUGH 2 5 � NOTE: FINISH HEIGHT IS 13.5' TALLER BASE OF UNIT. ■ THAN THE BASE CURB HEIGHT. f . ��.�*. - SELECT * ALL DIMENSIONS ARE I.D. OF CURB * /� END OF UNIT. CONSTRUCTION - ��/ SUPPLY SEE NOTE #7. A= STANDARD WELDED CONSTRUCTION G . � 1.--Kj--L O E =STANDARD WELDED CONSTRUCTION • '' 3 I L' I EXTERNALLY INSULATED. RETURN . 1 ; 1. 0 C =CUSTOM CONSTRUCTION. i I P qt--C-2/ i C ,,-- ] C D r r TYP. SELECT IF PITCHED(INCLUDE PITCH I F ORIENTATION FORM) �>�/ A R SIDE VIEW o PITCHED NOTE: * "J" DIMENSION IS 66" ON 60,70,75 TON SEHF (UNITS WITH ELECTRIC HEAT) * * "H" DIMENSION IS 29.125 ON 60,70,75 TON SEHF (UNITS WITH ELECTRIC HEAT) SELECT CANFAB PRODUCT PART# TONS MODEL A B C D E F G H J K L M O 6024C- F1C * *A 20,25,30 SAHL 191.9375 80.875 24 35.3125 68.8125 22.625 6 5.6875 69.5 27.3125 1.6875 234.50 O 6026C- FIC * *A 20,25,30 S *HL 219.5625 80.875 24 35.3125 68.8125 22.625 6 1 67.375 27.3125 1.6875 262.125 O 6044C- F1C * *A 40,50 SAHL 226 80.875 24 48 68.8125 22.625 6 5.6875 69.5 29.9375 1.5 328.5625 ❑ 6046C- FIC * *A 40.50 S *HL 264.5 80.875 24 48 68.8125 22.625 6 2.25 67.375 29.9375 1.5625 367.4375 O 6032C- FIC * *A 60,70,75 SAHL 226 106.375 24 48 94.3125 22.625 6 11.1875 83.875 29.9375 1.5 328.5625 o 6034C- FIC * *A 60,70,75 S *HL 264.5 106.375 24 48 94.3125 22.625 6 * *2.375 *92.75 29.9375 1.5625 367.4375 FOR: TRANE SAHL, S *HL INTELLIPAK UNITS (((CanFab 25-75 TONS CANNON FABRICATION INC NO: 60 * * * - *IC* PROJECT: 162 GRANITE STREET, SUITE 101, CORONA, CA 92879 ENGINEER: DISTRIBUTOR: PHONE(931)278 -1830 FAX:(951)278 -8444 Inincoonfab.com canraeoca,1o. DRAWING NO: 6024TR.DWG rb /MR /SB 06.25.09 DATE: APPROVED BY: DATE:. / / . 20 /o - CI //? 6 / 70 " ,4v TVF &R COMMAND CENTER HVAC .‘, • TIGARD, OR 97223 • STRUCTURAL CALCULATIONS MECHANICAL UNIT SUPPORT AND ATTACHMENT MAA I - VAV BOXES, FAN POWER BOXES, DUCTWORK DTI -DT20 (50 PAGES TOTAL INCLUDING COVER SHEET) 19NCT1•k CEIVED S��E P 4 4 JUL 01 7010 � i _ E CITY OF TIGARD GO,N BUILDING DIVISION G t S D. GP EXP 3 -z' June 11, 2010 CIDA PROJECT NUMBER: 100065.01 15895 SW 72" AVE, SUITE 200 PORTLAND, OREGON 97224 (503) 226 -1285 3 fax (503) 226 -1670 E -MAIL: info @cidainc.com 1, COMMERCIAL INDUSTRIAL DESIGN ARCI- IITEC°I UR[ P.C. CIDA INC. ,.. 7.1 i ri," Tiii-A // 4445 SW BARBUR BLVD., SUITE 200 PROIFC7 NAME: PROJ No. /0000•0/ n/ A I SHEET PORTLAND, OREGON 97239 efrO 40,9 TEL: 503.226.1285 FAX: 503.226.1670 TITLE n By: _AR: E-MAIL: info@cidainc.com r i 1 -- 1 ]- I 1- -i 1 1 1 I - .. 111 . - 1 .. e?/ I -Fe]r /4 r i 1 i i lit I I i - - - , _ __ 1 i 1 _— -T - - - H- 1 - - - -- "-- _ __ __ . __ _ _,go 7‘14- ie /=// 1 * Y / n ni le, k‘ i4 4•-• ' Can 1 I 1 i 4_ 1 I I 1 I - I 9 817 + l e 46- , __---f , -- - ,-- ------ .-- r - • 1-- I- r - I ---• - - ---- - ---- ---- --- - --- --- — I --F t __ 1 -1- I — -- Hi — +- - - ---- --- 1 ' 1_71 _i_ - I ______ 1 1 I I . 1 1 1 1 T r - 4 _. __._. 1 — l I ■ i -- t- 1 ---- r --- 1 -- 1 Itunms --- e 2/.0 1 071 - a - I - T - 1 ----- f - 1 --- " -- -- - ---- -- 1/17 - - - hp" -- , -- 1,7; - - - - I. - I— ] !- , . - III 1 , 1- I --- - -- 1- ---- 1 ---- , --- ------- - — ---- -- -- - I -- ---- -- -I- -- - - I ' roff. : I ! tic [ vAle 01%4 iv *ir - - - - - - — 7fe i 455r /Al* + 4 7-4± • 1 - __ 1 -.4 I /foo Pp' 8/CIAe> e -- , ; r , f ,, - - 1 - -- - - - ] , , , i I i ri I I T -4-- 1. 1 1- 1 . 1 .. _! ! F I . 1 . _t . _ L ___ _ 1 __ ___ _ r __ _ j __ ___ _ ...___.. ..._ _ , i 1 _ iA ---, i _ , 1- 1 _ i — I - - 1 t ___1 _ _ .-_-- _1 - --. ,___ -- r 1 , , 1 I r I 1 -1--- 1 1 ---- - — 7 - — - ___1 J ARCHITECTURE • ENGINEERING • PLANNING • INTERIORS • LANDSCAPE CIDA Mechanical Unit Attachment CDG Z TEL: (503) 228 -1285 TVF &R Conmand Center 8/11/2010 FAX: (503)228 1870 Tigard Oregon 100065.01 MECHANICAL UNIT ATTACHMENT - LATERAL FORCES Trane SFHLF 304 30-ton unit W := 62971b Weight of unit K:= 600lb Weight of curb W Wp + We Wt = 6897 lb L := 289in Length w m • 94in Width of unit h 87.in Height of unit at fan coils L Length of taller coils m := Lk : = 60in h := 58in Height of unit typ L := L - Lk L = 19.08 ft Length of typical ht h := 21.5.in Height of curb/base (spring isolation curb) • w := 8I in Width of base hmc hm + he h mc = 108.5 in Total height of unit on curb SEISMIC PARTS AND PORTIONS (Tigard, OR 97223) Design SDS := 0.73 SDS = 0.73 Per project specifications h := 30ft 1 := 1.5 a := 2.5 R P := 2 • := h Air side HVAC component Vibration Isolated 0.4.a p SDS'lp z Fp R •I 1 + 2' h j•W p Fp = 1.03 x le lb 0.7•Fp = 7239.98 lb Total seismic p \ JJ Controls over wind 0.2•SDS = 0.15 r WIND LOAD: BASED ON 2006 IBC/ 2007 OSSC Va := 94.5 Exposure B I := 1.15 Kd := 0.85 Kh := 0.70 G := 0.85 K 1.0 Cr := 1.3 q 0.00256•Kh•K F := G•CrgZ I F = 19.88 psf Pwind_unit F•(Lf + •hm2) Pwind_unit = 2554.08 lb Wind on mech unit kind := Pwnnd unit + F'L'hc Pwind = 3411.81 lb Total wind E:ladcadd110\TVF &R Hvac UBteraIMEC HTrane. mcd h)3 CIDA Mechanical Unit Attachment CDG TEL: (503) 226-1285 TVF&R Conmand Center 6/11/2010 FAX: (503)228 1870 Tigard Oregon 100085.01 OVERTURNING -Trans SFHLF 30 Ton HVAC UNIT )_C # 7 0.6D +0.7R Overturning at unit to curb h M := 0.7Fp.— M = 2.62 x 10 M M := W w M rc , = 2.35 x JO4 lbft = 0.9 M (Mot - 0.5.M w - 2in Fops = 1888.77 lb Uplift ATTACHMENT Design attachment of unit to curb for 2555Ib sliding and 1582Ib uplift - 18aa curb Try 7ft long 18ga Z-clip ea side w/ (20) Screws to unit and (20) #10 screws to curb (screws at 4" o.c.) 0.7Fp Vallow clip= 2081b.20 Vclip 2 F„ = 1888.77 lb V = 3619.99 lb Per Clip 0.7Fp = 7239.98 lb clip = Use minimum of 84" lona 18aa clip ea. side w/ #10 sms at 4" o.c. full lenath- U := Clip U = 0.87 Note: uplift is resisted by clip on Iona side while shear Vallowclip js taken by clip on each end Overturning at base of curb from wind 1.0E +0.9D for LRFD conc. anchoraae h_c Mot Fp. 2 M = 4.68 x l 04 lb ft wc M ies := W c M =2.33 1 0 4 lbft M =0.5 M M - 0.75.M F„ ._ • 1.3 F„ = 5642.99 lb Uplift w ATTACHMENT Note: loads increased by 1.3 per ASCE 7 -05 section 13.4.2a Design attachment for 11101b slidina and 882Ib uplift at curb to roof connection Try Simpson TITEN HD screw anchors at 18" o.c. (14) each long side, (5) each short side F„ p , = 5642.99 lb 1.3Fp = 1.34 x 10 1.3•Fp F ps Vanchor := 38 Vanchor = 353.83 lb Tooth°, := 14 ; floor = 403.07 lb Use 1/2" dia Simpson Titen HD anchors at 18" o.c. (38) total U= 0.57 <1.0 OK r• E :\adcadd \101TVF &R Hvac • UateralMECHTrane.mcd Page 1 of 7 Anchor Calculations Anchor Designer for ACI 318 (Version 4.2.0.2) Job Name : TVF &R command center Date/Time : 6/11/2010 3:13:39 PM 1) Input Calculation Method : ACI 318 Appendix D For Cracked Concrete Calculation Type : Analysis a) Layout Anchor : 1/2° Titen HD Number of Anchors : 1 Embedment Depth : 4 in Built -up Grout Pads : No �x1 cx2 f Y C y2 b 1 V - -` Mux h Vuax b b C yl 1 ANCHOR 'NUN IS POSITIVE FOR TENSION AND NEGATIVE FOR COMPRESSION. + INDICATES CENTER OF THE ANCHOR Anchor Layout Dimensions : c : 3 in c c : 12 in c y2 • 12 in b : 1.5 in bx2 • • 1.5 in by : 1.5 in b b) Base Material about:blank 6/11/2010 Page 2 of 7 Concrete : Normal weight f c : 4000.0 psi Cracked Concrete Yes `P • 1.00 Condition : B tension and shear O F : 2210.0 psi Thickness, h : 18 in Supplementary edge reinforcement : No c) Factored Loads Load factor source : ACI 318 Section 9.2 N : 451 lb V uax : 0 lb V uay • • 354 lb M ux : 0 Ib *ft Muy • • 0 lb*ft e : 0 in e Moderate/high seismic risk or intermediate/high design category : Yes Apply entire shear load at front row for breakout : No d) Anchor Parameters From C- SAS -2009: Anchor Model = THD50 d = 0.5 in Category = 1 h et = 2.99 in h min = 6.25 in c agy = 4.5 in c min = 1.75 in s min = 3 in Ductile = No 2) Tension Force on Each Individual Anchor Anchor #1 Nuai = 451.00 lb Sum of Anchor Tension IN = 451.00 lb a 0.00 in a1 = 0.00 in e' = 0.00 in e' = 0.00 in 3) Shear Force on Each Individual Anchor Resultant shear forces in each anchor: Anchor #1 Vuai = 354.00 lb ( = 0.00 lb , Vuai = 354.00 lb ) Sum of Anchor Shear E Vuax = 0.00 lb, EV = 354.00 lb e'Vx = 0.00 in about:blank 6/11/2010 Page 3 of 7 P1 l e' = 0.00 in 4) Steel Strength of Anchor In Tension [Sec. D.5.1] N = nAsefuta [Eq. D -3] Number of anchors acting in tension, n =1 N = 20130 lb (for a single anchor) [C- SAS -2009] = 0.65 [D.4.4] ,Nsa = 13084.50 lb (for a single anchor) 5) Concrete Breakout Strength of Anchor in Tension [Sec. D.5.2] N cb = ANciANcotVed,N ''c,Ngicp,NNb [Eq. D Number of influencing edges = 2 h = 2.99 in ANcc = 80.46 in [Eq. D-6] AN = 53.82 in Smallest edge distance, c a,min = 3.00 in ed,N = 0.9007 [Eq. D -10 or D -11] Note: Cracking shall be controlled per D.5.2.6 '1 'c,N = 1.0000 [Sec. D.5.2.6] cp,N = 1.0000 [Eq. D -12 or D -13] Nb = k f ' c het1.5 = 5558.86 lb [Eq. D -7] k = 17 [Sec. D.5.2.6] N = 3348.96 lb [Eq. D-4] = 0.65 [D.4.4] 4 )seis = 0.75 @N = 1632.62 lb (for a single anchor) 6) Pullout Strength of Anchor in Tension [Sec. 0.5.3] Pullout does not occur, and is therefore not applicable. 7) Side Face Blowout of Anchor in Tension [Sec. D.5.4] • Concrete side face blowout strength is only calculated for headed anchors in tension close to an edge, cal < 0.4h Not applicable in this case. 8) Steel Strength of Anchor in Shear [Sec D.6.1] V = 4790.00 lb (for a single anchor) [C- SAS -2009] = 0.60 [D.4.4] about:blank 6/11/2010 Page 4 of 7 m9 ( V = 2874.00 lb (for a single anchor) 9) Concrete Breakout Strength of Anchor in Shear [Sec D.6.2] Case 1: Anchor checked against total shear load In x- direction... V cbx = A vcx /A vcox' Y ed,V' 'c,VVbx [Eq. D-21] c = 3.00 in A vcx = 40.50 in A vcox = 40.50 in [Eq. D -23] `t'ed,V =1.0000 [Eq. D -27 or D -28] Y`c,V = 1.0000 [Sec. D.6.2.7] Vbx = 7(l /d d 'd fc(ca1)l.5 [Eq. D -24] l = 2.99 in Vb = 2326.14 lb V cbx = 2326.14 lb [Eq. D -21] =0.70 •seis = 0.75 OV = 1221.22 lb (for a single anchor) In y- direction... V cby = AvciAvcoy'Ped,V'11c,vVby [Eq. D-21] c =12.00 in A vcy = 108.00 in A vcoy = 648.00 in [Eq. D -23] ' = 0.7500 [Eq. D -27 or D -28] = 1.0000 [Sec. D.6.2.7] Vby = 7(0 d o fic(ca1 [Eq. D -24] l = 2.99 in V = 18609.09 lb V cby = 2326.14 lb [Eq. D -21] = 0.70 •seis = 0.75 1221.22 lb (for a single anchor) $V = about:blank 6/11/2010 Page 5 of 7 '14, Case 2: This case does not apply to single anchor layout Case 3: Anchor checked for parallel to edge condition Check anchors at cx1 edge V cbx - Avcx/Avcox'Yed,v`}'c,vVbx [Eq. D c al = 3.00 in A vcx = 40.50 in Avcox = 40.50 in [Eq. D -23] 'Ped,v = 1.0000 [Sec. D.6.2.1(c)] T = 1.0000 [Sec. D.6.2.7] Vbx = 7(l /d do,/ fc(ca1)l.5 [Eq. D -24] l = 2.99 in Vb = 2326.14 lb V cbx = 2326.14 lb [Eq. D-21] V cby = 2 * Vcbx [Sec. D.6.2.1(c)] V cby = 4652.27 lb =0.70 •seis = 0.75 ,Vcby = 2442.44 lb (for a single anchor) Check anchors at c edge V cby = A vcy /A vcoy W ed,V '1I c,V V by [Eq. D - 21] c al = 12.00 in Avc1 108.00 in2 lv = 648.00 in [Eq. D -23] '1' ed,v = 1.0000 [Sec. D.6.2.1(c)] 4, c,v = 1.0000 [Sec. D.6.2.7] V = 70 J do 4 f'c(cai )1.5 [Eq. D -24] l = 2.99 in V by = 18609.09 lb Vcby = 3101.52 lb [Eq. D -21] V cbx = 2 * Vcb [Sec. D.6.2.1(c)] V cbx = 6203.03 lb 4 = 0.70 about:blank 6/11/2010 Page 6 of 7 ( Pads = 0.75 • = 3256.59 lb (for a single anchor) • Check anchors at c edge V cbx = AvcJAvcox`Ped,V''c,VVbx [Eq. D c al = 3.00 in A vcx = 40.50 in A vc . ex = 40.50 in [Eq. D -23] ` 'ed,V = 1.0000 [Eq. D -27 or D -28] [Sec. D.6.2.1(c)] `11 c,V = 1.0000 [Sec. D.6.2.7] V = 70 e /d o )o.2 ,I d / f c(cai )1.5 [Eq. D -24] l = 2.99 in V = 2326.14 lb V cbx = 2326.14 lb [Eq. D -21] V cby = 2 * Vcbx [Sec. D.6.2.1(c)] V cby = 4652.27 lb = 0.70 •leis = 0.75 $V = 2442.44 lb (for a single anchor) Check anchors at c edge V cby = AvciAvcoy`I'ed,V`i`c.vVby [Eq. D - 21] c al = 12.00 in A vcy = 108.00 in A vooy = 648.00 in [Eq. D -23] `Y ed,V = 1.0000 [Sec. D.6.2.1(c)] c,v = 1.0000 [Sec. D.6.2.7] Vby = 7(I j d f'c(ca1)1.5 [Eq. D -24] l = 2.99 in V by = 18609.09 lb V cby = 3101.52.Ib [Eq. D V cbx = 2 * V [Sec. D.6.2.1(c)] V cbx = 6203.03 lb about:blank 6/11/2010 r agv pi4 la = 0.70 .seas = 0.75 $ = 3256.59 lb (for a single anchor) 10) Concrete Pryout Strength of Anchor in Shear [Sec. D.6.3] Vc, k cp N cb [Eq. D -29] k = 2 [Sec. D.6.3.1] N = 3348.96 lb (from Section (5) of calculations) Vc, = 6697.92 lb • = 0.70 [D.4.4] •leis = 0.75 O = 3516.41 lb (for a single anchor) 11) Check Demand/Capacity Ratios [Sec. D.7] Tension - Steel : 0.0345 - Breakout : 0.2762 - Pullout : 0.0000 - Sideface Blowout : N/A Shear - Steel : 0.1232 - Breakout (case 1) : 0.2899 - Breakout (case 2) : N/A - Breakout (case 3) : 0.1449 - Pryout : 0.1007 T.Max(0.28) + V.Max(0.29) = 0.57 <= 1.2 [Sec D.7.3] Interaction check: PASS Use 1/2" diameter Titen HD anchor(s) with 4 in. embedment ..,..---1 I r-ki d.opt, 44f/ 4445 SW BARBUR BLVD., SUITE 200 PROIECT NAME: Pao'. No. SHEET PORTLAND, OREGON 97239 TEL: 503.226.1285 FAX: 503.226.1670 TITLE:. By: DATE: E-MAIL: info@cidainc.com 7 -1 ___ _ I —1 -1- f 7 _l___ _. _I .._ .._.]._ i____ __] _ .__. 1 , . 1_ _., _ __ _ _ . _ _ . ___ _ ...i_ I___ . H._ _1. _ . • - • - - • - - -7- - — _,__ __ 1 I I li . 1 - I - ---- 54 . 1 ---- -- ---------------- --'----- - -- -- A - -/Y r z, 4 - -- 1 _[__ . I_ . 1 1 1 I I 1 Mr _ — r i dr ' ° 1 1 1 I A V witc r I d h --1 ri Li _........__. ._ . _ 4 I W /4 31 / 3 I 1: 1) r - /• (, 1 1 113 , — ---- - I i i 1 1 i _J . • . 1- 1 1 r 1 /iiii,-- _L_ I._ ie,„..., _, _ _ -F--f , , ! _ _._ 1.,,.. _ — : ..__ 3/ _, -----I -- - -f - !. _ __. __ _ I_ ..___I_ 1_._. . _ ._ _ _ ._ --- 1 - - - - i I , szi: q/-5 , , _...1_ _i _;_. _ ,._ _; ___i__ _ T_ H il.r_ . . - , , , , ! - 1 • 1 - r F ilill• 1--- - 1 __i__ I [--- -E l 4 r 3 ti - 1 - 1--- , . L _ I 1 1 1 ‘ [ I_ _ .. i. - i - ll : 0 452- i 1 I (-1) -2 I/ je07 >X TAX A ,4,4 4- 1 I 17 d I 1 1 I 1 -------- ,/./ -L D 4 1 1 —I 1--- Mi - _ IIIJ ii vs)= -- i, Or' .4- i 5 47 4 f j • = 2 P/ - 1 1 1 1 , , 1 1 _ t_. T . ________ i ; 1 7- I 1 -h- i ____ ___ ______ III ---- 'Mil__ MI II MR III ARCHITECTURE • ENGINEERING • PLANNING • INTERIORS • LANDSCAPE CIDA Mechanical Unit Attachment cd (503) 228 -1285 TVF&R Conmand Center FAX: (503)226 Oregon Tigard Ti and O 100 8/111/2011/2010 MECHANICAL UNIT ATTACHMENT - LATERAL FORCES Mitsubishi Electric PUY- A36NHN PUYaA3OHNA units on wood platforms W P := 163Ib Weight of unit L := 37.Sin Length We 150Ib Weight of curb W := W + W W = 313 lb w := 14.5in Width of unit w := 24in Width of base h := 37•in Height of unit h c := 12.in Height of curb 2x12 wood platform with plywood cap hmc := h + h h mc = 49 in Total height of unit on curb SEISMIC PARTS AND PORTIONS (Tigard, OR 97223) Damian S� := 0.73 Sps = 0.73 Per project specifications h := 30ft I := 1.5 a P := 2.5 R P := 6 z := h Air side HVAC component 0.4 ap SDS' Ip (( Z Fp := R I 1 + 2• h I•W Fp = 171.371b 0.7•Fp = 119.96 Total seismic ` J 0.2S = 0.15 WIND LOAD: BASED ON 2006 IBC/ 2007 OSSC V3, := 94.5 Exposure B I := 1.15 K := 0.85 Kh := 0.76 G := 0.85 K := 1.0 Cf := 1.3 9z 0.00256• Kh•K�•Kd•Iw V3, F := G•Crc I F = 21.58psf Pwind_umt F•L•hm Pwind unit = 207.95 lb wind on unit Pwind F•L•hmc Pwind = 275.4 lb Total wind Controls over seismic E :ladcadd1101TVFBR Hvaclhvac dwgs VateraIMECH CU1 -3 small.mcd CIDA Mechanical Unit Attachment /vjcdg TEL: (503) 226-1285 TVFBR Conmand Center 100065.01 FAX: (503)226 1870 Tigard Oregon 6/11/2010 OVERTURNJNG- LC # 7 0.6D +W Overturnina at base of unit from wind h M01 pwit'a unit' 2 M = 320.59lbft M p := W we M = 163 lb ft M- = 0.51 2 Mot Mot – 0.64M F F„ = 111.41b w ATTACHMENT Design attachment for 208Ib sliding and 1121b uplift at unit to platform connection Try #12 Screws to side of platform V 171Ib F = 111.4Ib Per Screw U := pw" °n" + Pupw U = 0.21 < 1.0 therefore okay 12 •Vallow 6 Vallow Use (2) attachment plates w/ (3) #12 screws to platform ea. side of unit (4j plates total Overturning at base of curb from wind W +0.6D hmc Mot Pwind' 2 M = 562.27lbft Mt. Wt. we !Ares = 313 lb ft hires = 0.56 2 Mot (M – 0.6•M�) F ° P a ' N , F = 187.23 lb Uplift c ATTACHMENT Design attachment for 2781b sliding and 1881b uplift at curb to roof connection Try Simpson A35 clips with screws to roof deck Tallow 250113 Vallow 670 lb F„ = 187.23 lb Per Clip Per Clip F = 275.4 lb U := wind + F Ws U = 0.477 4 Vailow 2Tall0w Use minimum of (2) Simpson A35 clips ea. Long side E:ladcadd110\TVF&R Hvaclhvac dwgs VateraIMECH CU1 -3 small.mcd /114/3 4445 SW BARBUR BLVD., SUITE 200 PEtopEci NAME: Pao'. No. SHEET PORTLAND, OREGON 97239 • TEL: 503.226.1285 FAX: 503.226.1670 TITLE: Br. DATE: E-MAIL: info@cidainc.com 1-7-1— --11-- TT-- --, -r---1- 1 , r [ T _ - - ---1____ -- - --i--- 1 - • __ _,I_ A ..i..._ _ .. _ 1 ' /4 P - - Vi - - - - - - - r - 1 I I_ _I __ i_ _ i_ I i kz 1 ---- i --- ay - r - p-, 4 - .-4: • ---- TJA2mwr ,-;-,,, /5 1 1 1 I I : - --- --- : ki -, fr 3 _ - 1 i ___ __. __ _ ____ ___ ._4 w., , -- i - 1 -- ---- : fv yptg _ . . _ 1 I __ 1 ______F - - _.1.. - ---- -- --- ---'-. 1 I __I_ 1 1 - 1 ----- ewi-v--- -v,...) -- --i ---p-i„--- ,,- ,,-pv - i7,47/f ,..1 _ _ .. 1_ ._. I. 47 _ 1 _4. 7 _.:f 1 . . - - I 1 .1. __ '.? Vr- 21.17 r - t 6 jkir 4 _ _4 , H 1 _ 1 . 1 i , 1 _ _ _..t__ I._ _. _ .... 1 w 11,317 47, /F _12,1 P-1' -1 _ . T 1 I - --+ --I --i‘ ' 1-- 0 A -1-1L__ - - - - ILI i k ; 1 j • 1._ L. 11.1.__4_.__4___ I.J.- 1 ) ? 171,1 -- .---/ - - 11/4 I _ ._ i__ _ _ k_ _f_ r L i f__ I- - -I 1 , 1 I - -- - _ - T 1 1 71 - )q - /r1 Arl 1 1 . . 17' - ? - ;I Mt - 4r/3V li-k1 ),,,,,,,,,_.--,r, 4, _._ ________L__,_._ i I ie 7- 1 /117k H ___i T 1 - T --- ' -- 1 - I - 1 I EN 471 " 7.- -- 1 --- __ _ _ _ . _I. __ . ___ __ ___ ___ _ _ _ ' I 1-- _ --1-7 ..1 ._i_ I 41 - 1 - 1- --- 1,-------111--- . --1 - - - - - -- -- - 1 I - 1 -- - -- - - - .- - — 7-- -- -1- .-- - 1- - d _l___ .11_ -- 1 4- 1 --- , Il L iii • r. ______ .. • NI ARCHITECTURE • ENGINEERING • PLANNING • INTERIORS • LANDSCAPE CIDA Mechanical unit Attachment cdg TEL: (503) 226 -1285 Condenser unit 6/11/2010 FAX: (503)226 1670 TVFBR Conmand Center 100065.01 Tigard Oregon MECHANICAL UNIT ATTACHMENT - LATERAL FORCES Liebert Air Cooled Condenser unit (2) fan unit CSF -205 W := 495lb Weight of unit W := 501b Weight of sleepers W := W + W W = 545 lb L := 84in Length w := 43.5in Width of unit w := 39in Width of base h := 20.in Height of unit h := 18•in Height of legs h„, := h + ti h = 38 in Total height of unit SEISMIC PARTS AND PORTIONS (Tigard, OR 97223) Desian Sp := 0.73 Sos = 0.73 Per project specifications h := 30ft I := 1.5 a := • 2.5 R p := 6 z := h Air side HVAC component 0.4• ap•Sps 1 p ( z l Fp := I 1 + 2• h I• W Fp = 298.39 lb 0.7•Fp = 208.87 lb Total seismic p l J 0.2Sps = 0.15 WIND LOAD: BASED ON 2006 IBC/ 2007 OSSC Va := 94.5 Exposure B l w := 1.15 K := 0.85 Kh := 0.7 G := 0.85 K, := 1.0 Cr := 1.3 9z := 0.00256. Kh•K z rKd•Iw V3 F := G• Cr q 1 F = 19.88 psf Pwind unit := F•L•hm Pwmd.unit = 231.91 lb wind on unit Pwind j F L hm Pwind tot = 440.63 lb Total wind Controls over seismic E: ladcadd110\TVF&R HvadlateralMECH Liebert condenser.mcd CIDA Mechanical unit Attachment �h� /S TEL: (503) 226 -1285 Condenser unit W11201 FAX: (503)226 1670 TVF&R Conmand Center 100065.01 Tigard Oregon . OVERTURNING- LC #7 0.6D +W Overturning at base of unit from wind Mot Pwind tor-- M = 697.67 lb ft M, := W,• 2c M = 885.62 lb ft M = 1.27 M Mot — 0.6.M) Fupw3 w e F upw3 = 51.171b ATTACHMENT Peslan attachment of unit to sleeper for 441lb sliding and 52Ib uplift - 16aa leas Try 1/4 LAG SCREWS - (1) Screws Ea. Leg Tallow := 225 lb Vallow := 1601b F„ = 51.17 lb Per Screw Per Screw ki to , = 440.63 lb � F 3 U := + U = 0.802 Use minimum of (1) 1/4" Lao screws ea. leq 4 4 • Vallow 2 Tellow Design attachment_of sleeper to roof for 441Ib sliding and 52Ib uplift - 16aa legs Try Simpson A34 with screws to deck ea. end of sleeper Tallow := 225Ib Vallow := 395Ib F 3 = 51.17Ib Per Screw Per Screw P wind tot = 440.63 lb Pwind tot Fupw3 U :_ + U = 0.393 Use minimum of (1) A34 ea. end of sleeper 4 'Valbw 2 Tellow E:ladcadd1101TVF&R HvacUateralMECH Liebert condenser.mcd CIDA, INC. 15895 SW 72nd Ave. Suite 200 Dsgenr Job 0 M Q / b Portland, OR 97224 Project Desc.: ' I 503226.1285 Project Notes : 503-226-1670 Fax 1,00 I1 JUN 2010 5 ..141 Steel Beam Design FYe: eladoadd11011VF &RHeNwecdogbypra , 9 ENERCALC, INC. 10638010, Vac 6.1.03, Im mo Llc. N : KW - 06006855 License Owner : CIDA INC. Description : roof joist at CU 1 -CU3 Material Properties Cakuletions per IBC 4008, CBC 2007,13 n r AMC Analysis Method : Allowable Stress Design Fy : Steel Yield 50.0 ksi Beam Bracing : Beam is Fully Braced against lateral torsion buckling E: Modulus : 29,000.0 ksi Bending Axis : Major Axis Bending Load Combination 2006 IBC & ASCE 7 -05 nll) i)" I on2bl Sin 1 fr,2f l Span a 34.50 ft W 16X31 Applied Loads Service loads entered. Load Factors will be applied for calculations. Beam self weight calculated and added to loads Load for Span Number 1 Uniform Load : D = 0.0170, S = 0.0250 kst, Tributary Width = 6.250 ft Uniform Load : D = 0 0550 k/fl, Extent = 12.750 - -» 21.750 ft, Tributary Width = 1.011. (Unused) DESIGN SUMMARY Desi • n OK Maximum Bending Stress Ratio = 0.352: 1 Maximum Shear Stress Ratio = 0.061 : 1 Section used for this span W16X31 Section used for this span W16X31 Mu : Applied 47.391 k -ft Vu : Applied 5.312 k Mn / Omega : Allowable 134.731 k -ft Vn/Omega : Allowable 87.450 k Load Combination +D +S +H Load Combination +D +S +H Location of maximum on span 17.250ft Location of maximum on span 0.000 ft Span U where maximum occurs Span fl 1 Span U where maximum occurs Span ff 1 Maximum Deflection Max Downward L +Lr+S Deflection 0.462 in Ratio = 896 Max Upward L+Lr +S Deflection 0.000 In Ratio = 0 <360 Max Downward Total Deflection 0.933 in Ratio = 443 Max Upward Total Deflection 0.000 In Ratio = 0 <180 Maximum Forces & Stresses for Load Combinations Load Combination Max Stress Ratios Summary of Moment Values Summary of Shear Values Segment Length Span 4 PA V Mmax + Mmax • Ma - Max Max MnxlOmega Cb Rm Va Max Vnx Vnx/Omega Overall MAXknum Envelope - - - -- - '- - - - - +D Dsgn. L = 34.50 fl 1 0.352 0.061 47.39 47.39 225.00 134.73 1.00 1.00 5.31 131.18 87.45 + Dsgn. L = 34.5011 1 0.179 0.030 24.14 24.14 225.00 134.73 1.00 1.00 2.62 131.18 87.45 D+L+H Dsgn. L = 34.50 fl 1 0.179 0.030 24.14 24.14 225.00 134.73 1.00 1.00 2.62 131.18 87.45 +D+Lr +H Dsgn. L = 34.50 fl 1 0.179 0.030 24.14 24.14 225.00 134.73 1.00 1.00 2.62 131.18 87.45 +D+S+H Dsgn. L = 34.50 ft 1 0.352 0.061 47.39 47.39 225.00 134.73 1.00 1.00 5.31 131.18 87.45 +D+0.750L+0.750S+H Dsgn. L = 34.50 fl 1 0.309 0.053 41.58 41.58 225.00 134.73 1.00 1.00 4.64 131.18 87.45 +D+0.750L+0.750S+0.750W +H Dsgn. L = 34.50 ft 1 0.309 0.053 41.58 41.58 225.00 134.73 1.00 1.00 4.64 131.18 87.45 +D+0.750L+0.7506+0.5250E +H Dsgn. L = 34.50 ft 1 0.309 0.053 41.58 41.58 225.00 134.73 1.00 1.00 4.64 131.18 87.45 . Overall Maximum Deflections - Unfactored Loads Load Combination Span Max. =° Dell Location in Span Load Combination Max. ' +' Dell Location In Span D+L +S " -- 1 0.9330 17.423 0.0000 0.000 . Maximum Deflections for Load Combinations - Unfactored Loads _ _ Load Combination Span Max. Downward Dell Location In Sp an Max. Upward Dell Location In Span D Only _______ -- 1 0.4714 17.423 0.0000 0.000 S Only 1 0.4616 17.423 0.0000 0.000 D+L +S 1 0.9330 17.423 0.0000 0.000 Q II.1. 1 I rini‘dospi ihiti? 4445 SW BARBUR BLVD., SUITE 200 PROJECT NAME: PROJ. NO. SHEET PORTLAND, OREGON 97239 TEL: 503.226.1285 FAX: 503.226.1670 TITLE: By: DATE: E-MAIL: Info@cidainc.com r --- r ------- 7 - -- - 1 r 7 -- 7 - 7 --- ---- i fr /4, 1 1 _ _ _ I _ __ .__ ____L_ _ ! 1 .4 i h)-1-- 1 , .._ _ _ . ___,_ _ ,, ff,' 1 7,, t I 4 1 I I" & MI 1 _ 11 r --. - -- -- - - -- - - ' - . ' IL I/ _ al -d-fr _ . _____ __ _ r 1 1 4i _t T1 Ir _ _ _ , ! --1 I- I 1 1 1 ---.- _ __ ____ . • --te- .,.__4_ ' 1 . .__,_ „ . , 1 - 1 ' --1 T cfri- Jv- 'f' _ , .. IFie. 1 _ . _.._ 1. ___ i ...__, I 1 1 1 i_i , ! _.._. -! ,_-- Lk )4- ---'- • - -,- - .-- - - if, - ,..• - r e , t 4 1 r , e74 ; 4 0/1 . . _ ... I ; _ • j / 'ild141 -- 76:r 1 I 14 - • -- - -. -- __ ___ __ Iri: lif L. 1 . S571 -- /fra , t , _ _ • 1 . _ I it 0 1 i ; I t - - - . - _,.- _,,, - ste _ 42._ ... _i 1 -1- 1 1 1 _ _ 1 i 1 - I i 1 1 1 _1 1 • f i-- 1-- I___t _i_ ___ [ III ' III —r-- _ _J___ _ -- IIII __. 1_ I I 1 11111.1111. -- III - INOUE _ _ 111 IIIIIII••IMIll _ III .1 11111111111.1111.111 ARCHITECTURE • ENGINEERING • PLANNING • INTERIORS • LANDSCAPE CIDA Mechanical Unit Attachment 1 , 7 cd If TEL: (503) 226 -1285 TVF &R Conmand Center 100085.01 FAX: (503)226 1670 Tigard Oregon 6/11/2010 MECHANICAL UNIT ATTACHMENT - LATERAL FORCES Cook exhaust fans on 18ga curbs W := 109lb Weight of unit L := 28in Length W e 311b Weight of curb W := W + W W = 140 lb vi := 28in Width of unit w := 18 Width of base h := 27•in Height of unit h c := 8.in Height of curb prefabricated metal curb h := h + h h = 35 in Total height of unit on curb SEISMIC PARTS AND PORTIONS (Tigard, OR 97223) Design SDS := 0.73 SDS = 0.73 Per project specifications h := 30R I := 1.5 a , := 2.5 R .= 6 z := h Air side HVAC component 0.4•a P SDS•Ip // z l Fp := •I 1 + 2 h I• W Fp = 76.65 lb 0.7•Fp = 53.65 lb Total seismic R p \` J 0.2SDS =0.15 WIND LOAD: BASED ON 2006 IBC/ 2007 OSSC va := 94.5 Exposure B I := 1.15 Kd := 0.85 K := 0.76 G := 0.85 K := 1.0 Cf := 1.3 q 0.00256•Kh•KZ1•Kd•1w V3s2.psf F := G•Cf•g ] F = 21.58 psf pwind unit F L hm 1 'wind_unn = 113.31 lb wind on unit wind F•L hmc 1 'wind = 146.88 lb Total wind Controls over seismic E: ladcadd\101TVF &R Hvaclhvac dwgs VateraIMECH fans.mcd CIDA Mechanical Unit Attachment c g i TEL: (503) 226-1285 TVFBR Conmand Center 100065.01 FAX: (503)226 1670 Tigard Oregon 6/112010 OVERTURNING- : LC # 7 0.6D +W Overturning at base of unit from wind h Ma pwittd_unit' 2 M = 127.47Ibft M := W w- M = 84.02 Mm = 0.66 2 Mot Mot - 0.6•M F .= F„ = 49.981b w e ATTACHMENT Peskin attachment for 147Ib slidina and 50Ib uplift at unit to platform connection Try #10 Screws to curb Vallow 208Ib Tallow 87Ib F„ = 49.98 lb Per Screw U := + pwind - unit FWu' U = 0.423 < 1.0 therefore okay 4 •Vallow 2 Tallow Use (1) #10 screw to curb ea. corner of unit (4) total • Overturning at base of curb from wind W +0.6D h„,� Mot Pwind' 2 M = 214.21bft Mm Wt• We Mres = 107.92lbft M- = 0.5 2 Mot (M - 0.6•M F° ' • qr F„ = 96.94 lb Uplift ATTACHMENT Design attachment for 147Ib sliding and 971b uplift at curb to roof connection Try #12 screws to roof deck Tallow 75Ib Vailow = 1491b F„ ps = 96.94 lb Per screw Per screw pwind = 146.88 lb U := P "'� + Fa>s U = 0.893 4 Vallow 2Tallow Use (1) #12 screw to deck ea. corner of unit (4) total • E:ladcadd\10\TVF&R Hvaclhvac dwgs \lateraIMECH fans.mcd 6 1 1.1./ 1 I I N U 4445 SW BARBUR BLVD., SUITE 200 PROJECT NAME: PROI. No. SHLE PORTLAND, OREGON 97239 TEL: 503.226.1285 FAX: 503.226 1670 TITLE: By: DATE: E-MAIL: info@cidainc.com — 1 i --- 1 --- 1 T • 7 1 1 I - - T -I- j ----- --- ---- - --1; --1-- --.1---t-- d - I 1 51 F , 1 i i nfrA ho- Iii/44115 1 -I I 1 I I • i f " ' I I 1 I _I _ I _ _ _l____ 1 1 t kir r 4 , r i 4• i ' I Li I 1 1 I _j 1_ I__ _. I I 1 I .1 1 I 1 _J 1 1 _, --1 -- — 1 ----- 1 I 1 T ' 1 1 1 : - 9 1 ' - 11 - 17 3 = 1 ? - 5 7 * - i I i _ _ _ f _I -I- - . --:----- -4.44-1 - - 1 - - I 1 , ! I i 1 1 IT [ simm ....1____ 1 /x 1 , - i -- -- i -- I -- 1--1- __ _ 1 -- --- - --I- 1----- -1----- -- --1 --- --I ---! --- ---- --- 4 — 'Le' ---- --- 1 _ 1 i ___ 1 i . . I 1 1 1, i.. 7- _, 1 , • , I 1- I i i 1 1 I 1: ' r ! 1 1 f 1 1 -- 1 -1. 1 F ! .L. 1 LF.1_ - I i r -- I 1 , 1 --- - 1 - 1 1 . -I- i 1 1 ! 1 1 - "' I 1 I I , I 1 1 1 I .! - . LL IL - -- . .1._ 4_ _J_ .. 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I 4_ I + , ' ,_ [ 1 ! 1 t 1 H 1 1 1 i 1 1 H 1 i 1 1 , 1 . -- -- r -- I 1 1 , ] I III • h i I i III _ 1______ 111M111111 ARCHITECTURE • ENGINEERING • PLANNING • INTERIORS • LANDSCAPE CIDA Mechanical Unit Attachment MAL/ TEL: (503) 226 -1285 TVF &R Conmand Center 100065 01 FAX: (503)226 1670 Tigard Oregon 8/112010 MECHANICAL UNIT ATTACHMENT - LATERAL FORCES Mechanical Unit #1 Liebert split system W := 1780Ib Weight of unit Vi := 100lb Weight of curb W, := W + We W, = 1880 lb L := 85in Length w := 35in Width of unit w := 33in Width of base h := 76•in Height of unit h� := 18. in Height of curb/base hmc := h + h hmc = 94 in Total height of unit on curb = 91 psf < 100psf Load to floor is less than allawable live load OK L SEISMIC PARTS AND PORTIONS (Tigard, OR 97223) Design Sin := 0.73 SDS = 0.73 Per project specifications h := 30ft I := 1.5 a := 2.5 R := 6 z := h Air side HVAC component 0.4•ap SDS 1 p Z Fp := •I 1 + 2 I W, Fp = 1029.3 lb 0.7•Fp = 720.51 lb Total seismic R D ` J F := 0.3• Sin* IP W, F 617.58lb 0.7.F 432.31 lb Total seismic pmm= pmin= 0.2SDS = 0.15 0 . 2 •S DS' W p = 259.88 lb E :ladcadd1101TVF &R Hvaclinterior meth 1. mcd CIDA Mechanical Unit Attachment fil322. TEL: (503) 226 -1285 TVF &R Conmand Center 100065.011 FAX: (503)226 1670 Tigard Oregon 8/11/2010 OVERTURNING LC # 7 0.6D +0.7E Overturning at base of unit from seismic h M := 0.7 Fp• 2 M = 2281.61 lb fl M := (W — 0.7.0.2•Sos•Wp)• 2c h res M = 2334.87lbfl M— = 1.02 a _ (M — 0.6•M F° w F = 320.25 lb LC # 7 0.9D +1.0E Overturning at base of curb from seismic LRFD for attach to conc. hmc M ot = Fp 2 M = 4031.42 Ibft Mrc3 W = 0.58 M :_ (W — 0.2•Sps• WO. 2 — M • = 2227.66 lb ft Mot (M — 0.9•M F . = w F ops = 736.92 lb ATTACHMENT Pesian attachment for 721Ib slidinn and 321Ib uplift at unit to stand Try #10 SCREW @ 18" O.C. (6) Screws Ea. Long Side 0.7•Fp = 720.51 lb Tallow 871b Valtow 208Ib F = 320.25 lb Per Screw Per Screw 0.7•Fp Fupst U:_ + U =0.902 12 Vattow 6Tattow Use minimum of #10 screws at 18" O.C. ea. Long side Design attachment for 1340Ib sliding and 958Ib uplift at stand to floor 1.3F„ = 957.991b 1.3.Fp = 1338.0916 Note: loads increased by 1.3 per ASCE 7 -05 section 13.4.2a (4) legs per stand Try (1) 3/8 "dia Titen HD anchor at each leg Voodoo. 4 v = 334.52 lb Tenchor F ops doo. T = 368.46 lb • Use 3/8" dia Simpson Titen HD anchors ea. leg (4) total U =0.27 <1.0 OK E:ladcadd1101TVF &R Hvaclinterior mech1.mcd Page 1 of 7 Anchor Calculations Anchor Designer for ACI 318 (Version 4.2.0.2) Job Name : TVF &R command center Date/Time : 6/11/2010 7:03:00 PM 1) Input Calculation Method : ACI 318 Appendix D For Cracked Concrete Calculation Type : Analysis a) Layout Anchor : 3/8" Titen HD Number of Anchors : 1 Embedment Depth : 3 in Built -up Grout Pads : No ex1 cx2 V Cy2 MuY �`l,a bye 1 V I V M i h yl uax bx1 bx2 Cyl 1ANCHOR 'Num IS POSITIVE FOR TENSION AND NEGATIVE FOR COMPRESSION + INDICATES CENTER OF THE ANCHOR Anchor Layout Dimensions : cx : 48 in c, : 48 in C : 48 in c y2 : 48 in b : 1.5 in b, b : 1.5 in b ye • 1.5 in • b) Base Material about:blank 6/11/2010 Page 2 of 7 M4 Z'? Concrete : Normal weight tic : 4000.0 psi Cracked Concrete : Yes `1' : 1.00 Condition : B tension and shear OF : 2210.0 psi Thickness, h : 5 in Supplementary edge reinforcement : No c) Factored Loads Load factor source : ACI 318 Section 9.2 N : 367 lb V uax : 0 lb V uay : 335 lb M ux : 0 Ib *ft M : 0 Ib`ft e 0 in e Moderate/high seismic risk or intermediate/high design category : Yes Apply entire shear load at front row for breakout : No d) Anchor Parameters From C- SAS -2009: Anchor Model = THD37 d = 0.375 in Category = 1 het = 2.19 in h min = 4 .583 in c agy = 3.3125 in cmin = 1.75 in smin = 3 in Ductile = No 2) Tension Force on Each Individual Anchor Anchor #1 Nuai = 367.00 lb Sum of Anchor Tension EN = 367.00 lb a x — in a = 0.00 in e' = 0.00 in e' = 0.00 in 3) Shear Force on Each Individual Anchor Resultant shear forces in each anchor: Anchor #1 V uai = 335.00 lb (Vuaix = 0.00 lb , V uaiy = 335.00 lb ) Sum of Anchor Shear EV = 0.00 lb, EV = 335.00 lb e' about:blank 6/11/2010 Page 3 of 7 R4 e' 0.00in 4) Steel Strength of Anchor in Tension [Sec. D.5.1] N = nA se f uta [Eq• D - Number of anchors acting in tension, n =1 N = 10890 lb (for a single anchor) [C- SAS -2009] 4) = 0.65 [D.4.4] 4)Nsa = 7078.50 lb (for a single anchor) . 5) Concrete Breakout Strength of Anchor in Tension [Sec. D.5.2] N cb = ANc/ANco'Ped,N`Pc,N'I'cp,NNb [Eq. 0-4] Number of influencing edges = 0 h =2.19 in ANco = 43.16 in [Eq. D -6] A = 43.16 in Smallest edge distance, ca,min = 48.00 in ` = 1.0000 [Eq. D -10 or D -11] Note: Cracking shall be controlled per D.5.2.6 P c,N = 1.0000 [Sec. D.5.2.6] cp,N = 1.0000 [Eq. D -12 or D -13] N = k f ' c h = 3484.54 lb [Eq. D -7) k = 17 [Sec. D.5.2.6] N = 3484.54 lb [Eq. D-4] = 0.65 [D.4.4] •seis = 0.75 eN = 1698.71 lb (for a single anchor) 6) Pullout Strength of Anchor in Tension [Sec. D.5.3] N = 22121b (f' psi) = 2797.98 lb = 0.65 �seis = 0.75 eN = 1364.02 lb (for a single anchor) 7) Side Face Blowout of Anchor in Tension [Sec. D.5.4] Concrete side face blowout strength is only calculated for headed anchors in tension close to an edge, c < 0.4h Not applicable in this case. about:blank 6/11/2010 Page 4 of 7 m4zL 8) Steel Strength of Anchor in Shear [Sec D.6.1] V = 2855.00 lb (for a single anchor) [C- SAS -2009] = 0.60 [0.4.4] 4 V eq = 1713.00 lb (for a single anchor) 9) Concrete Breakout Strength of Anchor In Shear [Sec D.6.2] Case 1: Anchor checked against total shear load In x- direction... V cbx = Avcx/Avcox`i'ed,Vli'c,VVbx [Eq. D C = 32.00 in (adjusted for edges per D.6.2.4) fi\tcx = 480.00 in A vcox = 4608.00 in [Eq. D -23] til = 1.0000 [Eq. D -27 or D -28] 'i'c,v = 1.0000 [Sec. D.6.2.7] Vbx = 70e/do, d o fc(cai )1.5 [Eq. D -24) 1 =2.19 in V = 69847.55 lb V cbx = 7275.79 lb [Eq. D $ =0.70 •seis = 0.75 O = 3819.79 lb (for a single anchor) In y- direction... V cby = AvcJAvcoy`I'ed,v4`c,VVby [Eq. D c = 32.00 in (adjusted for edges per D.6.2.4) A vcy = 480.00 in Avery = 4608.00 in [Eq. D -23] = 1.0000 [Eq. D -27 or D -28] c,v = 1.0000 [Sec. D.6.2.7] Vby = 7(le/d0)0.2 do fic(c81)l.5 [Eq D -24] 1 =2.19 in V by = 69847.55 lb V cby = 7275.79 lb [Eq. D about:blank 6/11/2010 Page 5 of 7 !7427 = 0.70 •seis = 0.75 •Vcby = 3819.79 lb (for a single anchor) • Case 2: This case does not apply to single anchor layout Case 3: Anchor checked for parallel to edge condition Check anchors at c edge V cbx = AvciAvcox`I'ed,V`I'c,VVbx [Eq. D c al = 32.00 in (adjusted for edges per D.6.2.4) A vcx = 480.00 in A vcox = 4608.00 in [Eq. D -23] ; cot = 1.0000 [Sec. D.6.2.1(c)] c,V = 1.0000 [Sec. D.6.2.7] Vbx = 7(l /d do '1 t [Eq. D -24] l =2.19 in Vb = 69847.55 lb V cbx = 7275.79 lb [Eq. D -21] V cby = 2 * Vcbx [Sec. D.6.2.1(c)] V cby = 14551.57 lb • = 0.70 •seis = 0.75 •Vi = 7639.58 lb (for a single anchor) Check anchors at c y1 edge V = Avcy/Avcoy`I'ed,V41c,VVby [Eq. D c al = 32.00 in (adjusted for edges per D.6.2.4) A„ = 480.00 in Avcoy = 4608.00 in [Eq. D -23] 'I' ed,V = 1.0000 [Sec. D.6.2.1(c)] T c,V = 1.0000 [Sec. D.6.2.7] " = 7(le/do)0.2, do 4 f'c(cai )1.5 [Eq. D -241 l = 2.19 in V = 69847.55 lb about:blank 6/11/2010 Page 6 of 7 Ana V cby = 7275.79 lb [Eq. D-21] V cbx = 2 * V cby [Sec. D.6.2.1(c)] • Vcbx = 14551.57 lb = 0.70 Oseis = 0. • = 7639.58 lb (for a single anchor) Check anchors at cx2 edge V cbx = A vcx AvcoxPed,V'Pc,VVbx [Eq. D c = 32.00 in (adjusted for edges per D.6.2.4) A vcx = 480.00 in Avcox = 4608.00 in [Eq. D -23] "ed,V = 1.0000 [Eq. D -27 or D -28] [Sec. D.6.2.1(c)] 'Pc,V = 1.0000 [Sec. D.6.2.7] Vbx = 7(le/do)o.2 do- pc(cal)1.5 [Eq. D -24] l =2.19 in V = 69847.55 lb V cbx = 7275.79 lb [Eq. D-21] V cby = 2 * Vcbx [Sec. D.6.2.1(c)] V cby = 14551.57 lb 4)=0.70 •seis = 0.75 4)Vcby = 7639.58 lb (for a single anchor) Check anchors at c edge V cby = Avcy/Avcoy`Ped,V'Pc,VVby [Eq. D c = 32.00 in (adjusted for edges per D.6.2.4) A vcy = 480.00 in Avcoy = 4608.00 in [Eq. D -23] ''ed,V = 1.0000 [Sec. D.6.2.1(c)] ` = 1.0000 [Sec. D.6.2.7] Vby = 7(l d q pc(cal)i.5 [Eq. D -24] 1 =2.19 in about:blank 6/11/2010 Page 7 of 7 /gill Z ? V by = 69847.55 lb V cby = 7275.79 lb [Eq. D-21] V cbx = 2 * Vcby [Sec. D.6.2.1(c)] V cbx = 14551.57 lb 0 = 0.70 Oseis = 0.75 $ = 7639.58 lb (for a single anchor) 10) Concrete Pryout Strength of Anchor in Shear [Sec. D.6.3] V cp = kcpNcb [Eq. D -29] kcp =1 [Sec. D.6.3.1] N = 3484.54 lb (from Section (5) of calculations) V = 3484.54 lb • = 0.70 [D.4.4] •leis = 0.75 V = 1829.38 lb (for a single anchor) 11) Check Demand/Capacity Ratios [Sec. D.7] Tension - Steel : 0.0518 - Breakout : 0.2160 - Pullout : 0.2691 - Sideface Blowout : N/A • Shear - Steel : 0.1956 - Breakout (case 1) : 0.0877 - Breakout (case 2) : N/A - Breakout (case 3) : 0.0439 - Pryout : 0.1831 V.Max(0.2) <= 0.2 and T.Max(0.27) <= 1.0 [Sec D.7.1] Interaction check: PASS Use 3/8" diameter Titen HD anchor(s) with 3 in. embedment BRITTLE FAILURE GOVERNS: Governing anchor failure mode is brittle failure. Per 2006 IBC Section 1908.1.16, anchors shall be governed by a ductile steel element in structures assigned to Seismic Design Category C, D, E, or F. Alternatively the minimum design strength of the anchor(s) shall be at least 2.5 times the factored forces or the anchor attachment to the structure shall undergo ductile yielding at a load level less than the design strength of the anchor(s). Designer must exercise own judgement to determine if this design is suitable. about:blank 6/11/2010 CIDA Standard Mechanical unit Attachment � d cdg TEL: (503) 226 -1285 Fan Power Box 6/11/2010 FAX: (503)226 1670 MECHANICAL UNIT ATTACHMENT - LATERAL FORCES Fan Power Box Hung below floor framing W := 250Ib Weight of unit L := 24in Length w := 24in Width of unit h := 18•in Height of unit SEISMIC PARTS AND PORTIONS (Tigard, OR 97223) Desion SpS := 0.73 Sp = 0.73 Per project specifications Values for air side HVAC per table 13.6 -1 ASCE 7 h := 30ft I := 1.5 a := 2.5 R := 6 z := h Fp := 0 4 a Ip + 2• h I W p Fp = 136.88 lb 0.7.Fp = 95.811b Total seismic P II `\ //l 02SpS = .5 Fp := 0.4.8p. Sps Ip (1 + 2 h W Fp = 136.88 lb 0.7•Fp = 95.81 lb Total seismic p \ F := 0.3 Sps 1P Wp F = 82.13 lb 0.7. = 57.49Ib Total seismic pmm pmin — 0.2•Sps•W = 36.5 lb h 2 CIDA Standard Mechanical unit Attachment r cdg TEL: (503) 228 -1285 Fan Power Box 6/11/2010 FAX: 003)228 1870 VERTICAL ATTACHMENT OF FAN POWER BOX TO UNDERSIDE OF CONCRETE OVER METAL DECK Pcorner 4 p Pcomer = 62.5 lb Vertical load to corner support from dead load h M„ := Fp• 2 Mot P s"s w 2 P = 25.66 lb Vertical load to corner m support from seismic overturning ASD loads for attachment to unit 1.0dD+0.7E, 0.6D -0.7E r0.2Spg•W P1 := P + O. + P PI = 86.85 lb Maximum vertical load 4 (0.2. Sin. Wp P2 := 0.6•P - 0.7. 4 + P P2 = 13.15Ib Minimum vertical load > 0 no compression in vertical support Try (1) #10 SMS at box (2Oaa minimum 22aa hanaing strap ) Vellow := 1041b PI <1.0 OK Use hanging U := U = 0.84 (1) #10 SMS at unit for vertical han in Valtow strap attachment— Alternate: use 3/8 "dia threaded rods for vertical support attach to unit per manufacturer LRFD loads for attachment to concrete 1.2D +1.0E, 0.9D -1.0E \ Pluu := 1 . 2 •Pcrner + 1.0•C 4 0.2• Sps•WP + Pseis) • 1.3 Plult = 142.73 lb Maximum vertical load rr ( 0.2•SDS•W P P2ult := [0.9•P — 1.0 I 4 + Pais •1.3 P2 27.9 lb Minimum vertical load > 0 no ll J compression in vertical support Note: loads increased by 1.3 per ASCE 7 -05 section 13.4.2a Try 3/8 "x 1 1/2" embed Simpson Titen HD anchor at su000rt N := 580lb Pullout resistance (conc. on metal deck - cracked) V := 22401b steel strength in shear (conc. on metal deck-cracked) U Plolt U = 0.5 <1.0 OK use 3/8 "dia Simpson Titen HD anchor w/ 0.75.0.65.N 1 1/2" min embed at each support— install per ESR 2713 17 CIDA Standard Mechanical unit Attachment cdg TEL: (503) 226 -1285 Fan Power Box 6/11/2010 FAX: (503)228 1670 LATERAL BRACING OF FAN POWER BOX Box is braced by splay wires at 45degrees vertical and horizontal each corner (4) total. T wrere := Zp •�• f2 ;i = 136.88 lb LRFD for attachment to concrete T := T 1.3 T = 177.94 lb 1.0E load Increased by 1.3 per ASCE 7 -05 section 13.4.2a V eit : =` V ert = 125.82 lb Vertical component of wire force • Tult H :_ H = 125.82 lb horizontal component of wire force Try 3/8 "x 1 1/2" embed Simpson Titen HD anchor at each wire N P „ .= 58016 Pullout resistance (conc. on metal deck - cracked) V := 224016 steel strength In shear (conc. on metal deck - cracked) Vert Horiz U :_ + 0.75•0.65•N U = 0.57 <1.2 OK use 3 /8 "dia Simpson Titen HD anchor w/ °� 0.75.0.60.V it 1 1/2" min embed at each wire— install per ESR 2713 ASD for attachment to unit (0.7E1 TASD T TASD = 95.811b Ven asd :— TASD Ven asd = 67.75 lb Vertical component of wire force TASD = 67.75 lb horizontal component of wire force H as d := Hari, asd = P Try (2) #10 SMS at box (20oa minimum) \tallow 140Ib T := 66Ib U := Vey � + HOf asd U = 0.76 <1.0 OK Use (2) #10 SMS at unit for wire attachment 2 Vailow 2 Tallow Try 120a wire A := 0.0088in Tallow wire := 0.9. A 33000psi Tallow wire = 261.36 lb TASD U "' re U 0.37 <1.0 OK Use #12 wire braces Tanow wire wire = CIDA Standard Mechanical unit Attachment cdg TEL: (503) 226 -1285 Fan Power Box 6/112010 FAX: (503)226 1670 Alternate anchors: 1/2" dia Simpson Stronabolt w/ 2 3/4 "embed ESR 1771 N := 1335lb Pullout resistance (conc. on metal deck- cracked) V := 44051b steel strength in shear (conc. on metal deck - cracked) 3/8" dia Powers Snake+ w/ 1 5/8 "embed ESR 2272 N := 107SIb Pullout resistance (conc. on metal deck - cracked) V := 770Ib steel strength in shear (conc. on metal deck - cracked) 3/8" dia Powers Stud+ SD1 wl 2 3/8 "embed ESR2818 N := 1375Ib Pullout resistance (conc. on metal deck - cracked) v := 2I2Olb steel strength in shear (conc. on metal deck - cracked) 3/8" dia Powers Wedoe Solt+ w/ 2 1/8"embed ESR2526 N := 14251b Pullout resistance (conc. on metal deck -cracked) V := 16401b steel strength in shear (conc. on metal deck - cracked) • CIDA Mechanical unit Attachment c g cxi TEL: (503) 226-1285 Fan Power Box at roof deck 8/112010 FAX: (603)228 1670 MECHANICAL UNIT ATTACHMENT - LATERAL FORCES Fan Power Box Hung below roof deck WP := 250lb Weight of unit L := 24in Length w := 24in Width of unit h := 18•in Height of unit SEISMIC PARTS AND PORTIONS (Tigard, OR 97223) Design SDS := 0.73 S = 0.73 Per project specifications Values for air side HVAC per table 13.6 -1 ASCE 7 - 05 h := 30ft I := 1.5 a := 2.5 R := 6 z := h Fp := 0.4 R SDS IP I 1 + 2 h I•W Fp = 136.881b 0.7•Fp = 95.811b Total seismic D J 0.2SDS = 0.15 0.4•aP Sps• ( z Fp := I 1 + 2 h i W Fp = 136.88 lb 0.7.Fp = 95.81 lb Total seismic p l /J • FPm;n := 0.3 SDs •lP WP F 82. lb 0.7.F = 57.49 lb Total seismic Pm = 0.2•SDS• W = 36.5 lb E :\adcadd1101TVF &R Hvac\lateral fan power box at roof.mcd iii.. ..--ii 1 r-,4.4 Pg' / 1/ 1 /0494- H/6- a( ..., 4445 SW BARBUR BLVD., SUITE 200 PROJECT NAME: PROI. No. SIIIIT PORTLAND, OREGON 97239 i 1 "ine neeiR /),,,v( TEL: 503 226.1285 FAX: 503.226.1670 Tim: B y: DATE: . . • E-MAIL: nfo@cidainc.com . --- --- - --.— -- ---r -- . _ 1 I 1 i [ - /.01 --1 7 T - 1 - 1 ; I - - 4 #4 # mbi -- 0 -- - -- ow (---- -- 44 - ' - -------1--- - .-- --- -: - --- - - - p I ... , 44 ._ ,.. _. .. )._ ,i5 . 4 ._1_..__ op ____ 1 _ 1 ... ...._____ .. _. . __ . _ . _ . .! n I , _J . L . _ - -- ---- --- --I. I 1 — — — --- ---' I__ 4_ . . -1-1 i''' • 2 I- r I 4 1 , J , 7 ____ ___ • 1, 7 4 I IeS k 7 49. So i . 7_ SS . ___ _ 5 i • . II t NI 11 iT 1 1 • _ . ....,,_ .._ 1111 ___ I__ _ , , , 7 c › . I, 4 ,,b - I 1 inA \ r - = - 11 - fla • 1 1 i f j I_ - ... ..L ..i' .1 l iS 64 ' = ji T 1 if '4) a .. —I-- III h .._ ..._____. • _ t Avg , 6/>- 4 0 ..s. 0 4 Y.Pr71 Sit / 7 i PA/1 ' after _ — - -- __ — Ill ____ z _____ .. ________ _ Il II iga /z 64 A-iez n III RN II -_ ova 61 0(33 ect) - ‘1 4 .4 .— >. 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ARCHITECTURE • ENGINEERING • PLANNING • INTERIORS • LANDSCAPE #77) CIDA Standard Mechanical unit Attachment cd TEL: (603) 226 -1285 VAV Box 6/112010 FAX: (503)226 1670 MECHANICAL UNIT ATTACHMENT - LATERAL FORCES VAV Box Hung below floor framing W,:= 150Ib Weight of unit L := 24in Length w := 18in Width of unit h := 18.in Height of unit SEISMIC PARTS AND PORTIONS (Tigard, OR 97223) Design SDS := 0.73 SDS = 0.73 Per project specifications Values for air side HVAC per table 13.6 -1 ASCE 7 -05 h := 302 1 := 1.5 a := 2.5 R .= 6 z := h 0.4•aRSDS•IP hl Fp :_ 1 + 2 — W Fp = 82.1316 0.7.Fp = 57.4916 Total seismic 0.2SDS = 0.15 0.4• SDS•Ip z I •W Fp 1 + 2 h P Fp = 82.13 lb 0.7•Fp = 57.49 lb Total seismic Fpmin := 0.3•6Ds.lp. Wp FPm• e = 49.28 lb 0.7•F • = 34.491b Total seismic 0.2•SDS• W = 21.9 lb E:ladcadd1101TVF &R HvacUateral VAV box.mcd Dr // CIDA Standard Mechanical unit Attachment cd TEL: (503) 226 -1285 VAV Box 6/11/2010 FAX: (503)226 1670 VERTICAL ATTACHMENT OF VAV BOX TO UNDERSIDE OF CONCRETE OVER METAL. DECK W Pco mtt := 4P Pcon,er = 37.5 lb Vertical load to corner support from dead load h M := F1 2 Mot P Se1S • w 2 P = 20.53 Vertical load to corner m support from seismic overturning ASD loads for attachment to unit 1.0dD +0.7E, 0.6D-0.7E 1 0.2Sps WP / PI := Pcomer + 0• 4 + P �; S P I = 55.7 lb Maximum vertical load 0.2• S W P2 := 0.6•P� - 0.7 4 + P�; P2 = 4.3 lb Minimum vertical load > 0 no compression in vertical support Try (1) #10 SMS at box (20aa minimum 220a hanaina strap V.II °W := 10416 P U := <1.0 OK Use (1) #10 SMS at unit for vertical hanging U =0.54 g g Vanow strap attachment- Alternate: use 3/8 "dia threaded rods for vertical support attach to unit per manufacturer LRFD loads for attachment to concrete 1.2D+1.0E, 0.9D -1.0E 0 . 2 • SDs• W Pluit 1.2•Pcomer + 1.0•( 4 + P J • 1.3 Plult = 92.31 lb Maximum vertical load ( 0.2• S W P2ult := 0.9•P - 1.0 I + P�;S 13 P 2ult = 10.071b Minimum vertical load > 0 no 4 compression in vertical support Note: loads increased by 1.3 per ASCE 7 -05 section 13.4.2a Try 3 /8 "x 1 1/2" embed Simpson Titan HD anchor at support N := 5801b Pullout resistance (conc. on metal deck - cracked) V := 22401b steel strength in shear (conc. on metal deck - cracked) Plult U U = 0.33 <1.0 OK use 3/8 "dia Simpson Titen HD anchor w/ 0.75 0.65 N P„ 1 1/2" min embed at each support - install per ESR 2713 E:1adcadd\10\TVFBR Hvac lateral VAV box.mcd Pt/.5" CIDA Standard Mechanical unit Attachment cdg (503) 226 -1285 VAV Box 6/11/2010 FAX: (503)226 1670 LATERAL BRACING OF VAV BOX Box is braced by splay wires at 45degrees vertical and horizontal each corner (4) total. p Twice := 2 Twire = 82.13 lb RFD for attachment to concrete Tuit := Twire' 1.3 T = 106.76 lb 1.0E load increased by 1.3 per ASCE 7 -05 section 13.4.2a Vert := To Vert = 75.49 lb Vertical component of wire force Horiz := Tula H onz = 75.49 lb horizontal component of wire force Try 3/8 "x 1 1/2" embed Simpson Titen HD anchor at each wire N := 580Ib Pullout resistance (conc. on metal deck -cracked) V := 2240lb steel strength in shear (conc. on metal deck - cracked) Vert H oriz U :_ + Simpson U = 0.34 <1.2 O K use 3 /8 "dia Sim Titen HD anchor w/ 0.75.0.65•N 0.75.0.60•V p 1 1/2" min embed at each wire— install per ESR 2713 ASD for attachment to unit (0.7E) TASD := Twire' TASD = 57.49 lb Vert_asd := TASD Vert asd = 40.65 lb Vertical component of wire force • TASD H a :_ - Horiz asa = 40.65 lb horizontal component of wire force Try (1) #10 SMS at box (20aa minimum) Vallow := 1401b Tallow := 661b V �`� U:= + U =0 .91 <1.0 OK Use (1) #10 SMS at unit for wire attachment Vallow Tallow Try 12aa wire Awire := 0.0088in2 Ta►low_wire := 0.9 Awiie•33000psi Tallow wire = 261.36 lb _ TASD Uwrre T Uwire = 0.22 <1.0 OK Use #12 wire braces allow wire E :ladcadd1101TVF &R Hvac\lateral VAV box.mcd CIDA Standard Mechanical unit Attachment cdg (503) 226 -1285 VAV Box 6/112010 FAX: (503)226 1670 Alternate anchors: 1/2" dia Simoson Stronaboit w/ 2 3/4 "embed ESR 1771 N := 1335Ib Pullout resistance (conc. on metal deck- cracked) V := 44051b steel strength in shear (conc. on metal deck 3/8" dia Powers Snake+ w/ 1 5/8 "embed ESR 2272 N := I 0751b Pullout resistance (conc. on metal deck - cracked) V := 770Ib steel strength in shear (conc. on metal deck- cracked) 3/8" dia Powers Stud+ SD1 w/ 2 3/8 "embed ESR2818 N := 1375Ib Pullout resistance (conc. on metal deck - cracked) := 21201b steel strength in shear (conc. on metal deck - cracked) 3/8" dia Powers Wedge Bolt+ w/ 2 1/8"embed ESR2526 N := 14251b Pullout resistance (conc. on metal deck- cracked) V 164011) steel strength in shear (conc. on metal deck- cracked) • E:ladcadd11OVTVF &R Hvacllateral VAV box.mcd 121/7 CIDA Duct supports cdg TEL: (503) 226 -1285 6/11/2010 FAX: (503)226 1870 MECHANICAL UNIT ATTACHMENT- LATERAL FORCES • 6" to 16" Round Duct Hung below roof framing 6 " -10" Duct W := 3.4pIf•30ft W = 102 lb Weight of duct (lateral supports at 30' -0" o.c.) Wpg := 3.4plf• 12.5ft Wpg = 42.5 lb Weight of duct (Vertical supports at 12'-6" o.c.) 12 " -14" Duct W := 4.8plf .20ft W = 96 lb Weight of duct (lateral supports at 20' -0" o.c.) W := 4.8plf • 12.5ft Wpg = 60 lb Weight of duct (Vertical supports at 12' -0" o.c.) 16" Duct W := 5.5pif • 18ft W = 99 lb Weight of duct (lateral supports at 18' -0" o.c.) W := 5.Splf. I2.5ft Wpg = 68.75 lb Weight of duct (Vertical supports at 12'-6" o.c.) w := Oin Width of unit h := 16•in Height of unit Duct hung from single cable hangers SEISMIC PARTS AND PORTIONS (Tigard, OR 97223) Design SDS := 0.73 S = 0.73 Per project specifications h := 30ft I := 1.5 z := h a := 2.5 R P • = 6 Values for' Ducts with joints other than welded per table 13.6 -1 ASCE 7 -05 0.4a RSDS •Ip ( Fp :_ 1 + 2•— z • W Fp = 54.216 0.7•Fp = 37.9416 Total seismic P F pmin := 0.3•S W F pm;n = 32.52 lb 0.7•F = 22.77 lb Total seismic 0.2•S W = 14.45 lb E :ladcadd\101TVF &R Hvac\lateral • duct.mcd CIDA )) 7/ Dud supports cdg TEL: (503) 226 -1285 6/11/2010 FAX: (503)226 1670 VERTICAL ATTACHMENT OF HORIZONTAL DUCT TO UNDERSIDE OF METAL DECK P := Wpg P = 68.75 lb Vertical load to support from dead load Pseis Fp Pseis = 54.2 lb ASD loads for attachment to duct 1.OdD+0.7E. 0 . 2 SDs• W l P1 := P + 0. ° + P P = 109.22 lb Maximum vertical load 4 (0.2.8Ds•W P2 := 0.6•P — 0.7• 4 + P P2 = 0.78 lb Minimum vertical load > 0 no compression in vertical support Use cable / rod / strao hanger with t000le at metal roof deck or #12 screw Tallow 1401b Pallow 851b Maximum allowable point load to deck in addition to dead and snow load P U := U = 0.81 <1.0 0K Pallow LATERAL BRACING OF DUCT Duct is braced by splay wires at 45degrees vertical each side at each hanger T := Fp• f2 T = 76.65 lb ASD for attachment to deck TTeck := 0.711 Tdeok = 53.66 lb 0.7E load Td V := y = 37.94 lb Vertical component of wire force Teak Horiz := H = 37.94 lb horizontal component of wire force Try (1) #10 SMS at deck (20oa minimuml yellow 1401b Tallow 661b U := yen + Hord U = 0.85 <1.0 OK Use (1) #10 SMS at deck for wire attachment yellow T a11ow (Alternate: use toggle end on cable) Try 10aa wire Use #10 wire braces 0.0088in T := 0.9 A 33000 si T = 261.36 > Ti alternate use Gripple wire allow wire •= wire p allow wire = wire No2 cables 100Ib working strength) E:\adcadd 110 \TVF&R HvacIlateral duct.mcd CIDA Duct supports cdg TEL: (503) 226 -1285 FAX: (503)226 1870 8/112010 MECHANICAL UNIT ATTACHMENT- LATERAL FORCES • Rectangular Duct Hung below roof framing Rectangular W := 12plf • 12.258 W = 147 lb Weight of duct (lateral supports at 12 o.c.) Duct less than 12plf Wpg := I 2plf • 12.25ft Wpg = 147 lb Weight of duct (Vertical supports at 12'-6" o.c.) I 6in Width of unit h := 16.in Height of unit Duct hung from double strap hangers SEISMIC PARTS AND PORTIONS (Tigard, OR 97223) SDS := 0.73 Sos = 0.73 Per project specifications h := 30ft 1 := 1.5 z := h a := 2.5 R := 6 Values for Ducts with joints other than welded per table 13.6 -1 ASCE 7 -05 0.4•ap.Sps.IP l h Fp :_ 1 + 2•— •W R Fp = 80.48 lb 0.7 Fp = 56.34 lb Total seismic P Fpmin := 0.3•Sps•lP W F i = 48.291b 0.7•F = 33.8 lb Total seismic 0.2•S = 21.46lb E :ladcadd110\TVF&R Hvadlateral duct RECT.mcd CIDA Duct supports vr g TEL: (503) 228 -1285 6/112010 FAX: (503)228 1870 VERTICAL ATTACHMENT OF HORIZONTAL DUCT TO UNDERSIDE OF METAL DECK Prod := 2 Prod = 73.5 lb Vertical load to support from dead load PE := Fp P SC19 = 80.48 lb ASD loads for attachment to duct 1.0dD+0.7E. 0.13D - 0.7E r 0.2Spg •W 1 P := Prod + 0.71 2 + P 6etS J P = 137.35 lb Maximum vertical load Use cable / rod / strap hanger with toggle at metal roof deck or #12 screw Tallow 1401b Pallow := 85113 Maximum allowable point load to deck In addition to dead and snow load P rod <1.0 0K U := U = 0.86 Pallow LATERAL BRACING OF DUCT Duct Is braced by splay wires at 45degrees vertical each side at each hanger Twire := FP•f ;ire = 113.82 lb ASD for attachment to deck Tdock := 0.7T1 Tdook = 79.67 lb 0.7E load Vert := f V ert = 56.34 lb Vertical component of wire force Tdeck H :_ H = 56.34 lb horizontal component of wire force Try (2) #10 SMS at deck (20aa minimum) Vallow := 14016 Tao, 661b U := Ven + • 012 U = 0.63 <1.0 OK Use (2) #10 SMS at deck for wire attachment 2 Vailow 2 Taiiow (Alternate: use toggle end on cable) Try 10ca wire Use #10 wire braces A - 0.0088in Tallow '- 0.9 A 33000 si T = 261.36 > Twire use Cripple wire llow wire - wire' P allow wire - wire No2 cables 100lb working strength) E:ladcadd1101TVF &R HvacUateral duct RECT.mcd 5 ( I Q O L T ` auer 0 0 0 p O 0 c l- 4 1 at ��VQ /� (N) 4.8 FLAT SLEEPERS 4.4 ♦� NOTE PROVIDE FL ZING FULL.. LENGTH OF SLEPERS I OMNI PUY n I W/ TRANE 30TON UNIT MITSUBISHI I UNI S DRANRGE -RICKETS AS RBOO FOR O. timi TTa , p� SEE 2/5K ��JJ/'� ] /SK -T I AS D• FED • 1.A us r— p b cf " lY "EE ■: 1m ala I ■ ll =m EXPIRES: a k - i r 1 ,' 49NB CONDENSING I l MECH IT METAL CURB ON WOOD SLE �' I ' J r (E) CONE CURB BY OTHERS II _ , -1 i6 •LB CONDENSING tors _____ •N FIELD FABRII TED • " P TFORM- -2.12 BOX t I _-� m Z Z W / 9/32' PLYW00� UD 1 ` -1 Q UERBERT CONDENSING UNITS • ��' ' SEE 4/S I J 0 - MMUS FAN we ._ - .. m m i us ell ; ; ' G SEE 5 /5K / ; ; A 6.30018 MAX WEIGH MECH UNIT J //�- ® "+ W W ; V EXISTING CONC OVER METAL DECK J W p 0 w o a m AT MECHANICAL UNIT AREA O — ] w e KEY PLAN O MECH UNIT AT (E) CONC. CURB O MECFL UNIT FRAMING CU -1 TO CU-3 Oa MECa UNIT FRAMING ACCT AND ACC2 t N T S 3/16' = 1' -0' (1) 3 /6"• THREADED STUD Al END OF UNIT (2) 3/B•0 THREADED O D AT CENTER PLATES imini .... m 4. • •. OMIT L 3x3 IF EDOE MECH UNIT -- 6,30018 MM NT F OR REO'Ok. �D15T LL55 TIHAN 1' -0• FAN UNIT 110 YO • RCHIIECTURE 19 MAX Wf �� 1 1/2" �Y CONDENSER UNIT ENGINE ERINC I= DECK PENETRATION- -16 %1r '� IB CU 2 -CUP LEN -8/• w/ F • ' +'+ I r+ L iW� (OR 1601) OR LESS . 10 5015 EA. FLANGE AT 1' OC 10) TOTAL U (1 U CPS R D DE LOIN INAL• I r: 1[ R I O F S �, = w11.112111=1 1/2• E1211AN SPACED PE AN D ( 1 ) PER SIDE RI /B BENT PLATE W/ 3/8'0 THREADED - 1 /2 TRANSVERSE. (4) TOTAL ON UNIT SPUD ON TOP FOR UNIT ATTACHMENT AND LANDSCAPE �� —_— L A I /1' EACH SIDE (J) 11 2.2 • SCREWS ro PLATFORM METAL LEG +e1560 . . 72612 AVE SUITE 200 — OF Jt PEN LyRAT10N VIBRATION ISOLATION CURB BY OTHERS AT EACH END AND AT YIDOLE OF UNI •72 22 ATTACH CURB TO CONC STEM WALL W/ (6) TOTAL PER UNR- - O F TOP ((1) I //1 lA; ?o•r.•x 0. o.t•o. � t l : � 01 SIMPSON TITEN -HD 0 18'0C FLANGE OF BENT PLATE AS REVD TO SCREVT YIN .J• P L R LEG c • • 0 3 2 t • 1 2 6 5 ��L 1►;�� 1 /2 PROVIDE FULL BEARING FOR UNR .. C o> > t s + • r o ��,Tm / M .4•• ∎� 1' MN 163LB CONDE SLEEPER PER PUN • c I o . I x c c o id a - -� EXTEND 2'-0 BEYOND EACH SIDE EMBED UNITS BY OTHERS SUPPORT RAIL = tM �� A OF PENETRATION .,', A �auiC�0in�� (3) IRA EA END OF 22B �\'G�w'/�� ■ S . ro�� r` 3• MIN 2.12 EACH SIDE OF UNIT -- Ar �: ® EDGE DSi _ - - NAIL CORNERS W/ (3) 16E MIN - il i ■ (E) CONE CURB till ASS FAIN SIDE OF PLATFORM � USE /10 SCREWS INS OF NATLS t SIMPSON ATTACH SLEEPER TO JOIST W • • �ESEa VA■II■IMINM MO .� (1) A31 G SIDE. FA END 1) 112 SELF TAPPING SCREW TOTAL PEA SLEEPER - - AT EACH DECK USE 110 SCREWS INSTEAD P'� VALLEY -- IMP 2o6 MT AT OF NAILS I,�I ( DECK eO MECH UNIT ATTACHMENT NT TO CONC. CURB UNIT LEGS SUPPORTS / SL 1 1/2 • = 1' -0 (E) 20CA t t /2' H58 ,T ) STEEL JOISTS AT -3 OC. . _ (E) JOIST g 1/8'0 LOOS 19/32 PLYWOOD PLATFORM -- I I I W UNISIRUT NAIL TO 2. W/ ROE AT 6' O.0 ALL EDGES - 1 SECTION A -A Z HVAC STAND Q CONDENSING UNIT ATTACHMENT CONDENSER UNIT ATTACHMENT W e FAN UNIT ON STEEL ROOF DECK y CROSS MEMBER Z S UNI$ P1 CUP `•11 1 . 1' -0• 1 1'-0� V > _ 0 O I/2 = 1 . -O . 8 0 O -- LEG ANGHORA :F Nis N D 0 IX i10LB MAX WT EXHAUST FAN-/ N Q HVAC UNIT B OTHERS t it 0 1780L8 MAX rrt CO m v U > '- IB'f TALL UNIT STAND BY OTHERS N ATTACH FAN TO CURB W/ (1) ATTACH UNIT TO STAND W/ 010 SCREWS N 110 SCREW FA CORNER AT 18' 0 C AT PERIMETER -r IBGA CURB BY OTHERS ATTACH CURB TO DECK W/ (I) 1 5 /8 UNISTRUT SECTION 112 SCREW FA CORNER (2) LOCATIONS co, SIDE (4) TOTAL ACCESS FLOOR SYSTEM BY OTHERS ) 3/8 SIMPSON TIIEN HD ANCHOR W/ 3 EMBED (1) LOCATIONS 13x3 EA SIDE OF OPENING 1■0■1011■■• '-IN ROOF DECK �1 DETAILS (E) JOIST 1 l� —01 ��Ei� 811 03 EXHAUST FAN ATTACHMENT O HVAC UNIT AT (E) CONCRETE FLOOR DECK JDB IC 09007402 1 • 1' -0• © N. m1 •cm mom Im•m kr—C-71 111 -r —v^--,- T I I 4S1t7•' o 0 _ 3 I ■ • ■ t� TYP VAV BOX TYP FAN POWERED BOX STEEL STRAP HANGERS 24.;•: INSTALLATION LESS TIP VAV BOX INSTALATION LESS TITAN 250LB PER ELEVATION TH I S D. 00' AN 150LB STEEL STRAP HANGERS INSTALLATION LESS TIP VAV BOX 20 A MINIMUM 20GA YIN PER ELEVATION TITAN 15018 VERTICAL R00 RANGERS INSTALLATION LESS 0 G1 CUP & (2) /10 Iv'.I:•>�.I '[� 200A YIN. PER ELEVATION ATTACH THAN 150LB STEEL STRAP KAN.'ERS SYS • EA WIRE ATTACH WIRE TO UNIT TO UNIT PER MNIR 20CA MIN PER ELEVATION W/ (I) /10 SAPS ATTACH WIRE TO UNIT W/ (1) /10 sus ATTACH W UNUNIT ■ • - - � . ' , C W/ (I) 010 10 SIA M$ 2526 POWERS WEOGEROLT PER E 1 Vii- I I I ALTERNATE CONCRETE ANCHORS L L • • L - - -- J I I - - - - ;r, _ _ B'.2 /8' SR I I - - - - 1L ] /3/W42 1/2' POWERS POWER SAD+ SDI PER ESR 2818 1/2 J 7 C ] / ^ .2 3/4' SIMPSON STRONGBOLT PER ESR 1771 l — — — — V 3/W4 15 /8' EMBED POWERS SNAKE+ PER ESR 2272 �� ALTERNATE CONCRETE ANCHORS PLAN 3/8 1 2 EMBED SIMPSON TITER HD PER (SR 2713 3/6 1 /B' POWERS WEDGE130LT PER ESR 2526 20 GA CUP W/ (2) 20 CA CLIP W/ (1) / PI AN 3/8'x2 I/2' POWERS POWER STUD+ SDI PER ESR 2818 010 SAWS TO DECK 0 /10 SMS TO DECK - 122 3/4' SIMPSON STRONGBOLT PER ESR 1771 EA WIRE YIN 0 EA WIRE DUSTING CONCRETE 3 /BY POWERS SNAKE+ SCREW ANCHORS W/ / EXISTING 1 1/2' 8 DECK EXISTING 1 I/2' 'x 15/6' EMBED POWERS SNAKE+ PER ESR 2272 ATTACH RANGER TO MAX SPAN • 7' -0' FOR 20GA DECK 17ACH HANGER TO DECK W/ MAK SPAN • 7' -0' FOR 22GA DECK O V E R METAL DECK 1 5/6' EMBED O EA ROD PER ESR 2272 EXISTING CONCRETE 3/8'x1 1/2' EMBED 9YPSON TI TEN LID PER ESR 2717 DECK W/ (2) /10 SMS MAX SPAN . 9' -0' FOR 18GA DECK (1) 110 SMS YIN. AT INCA DECK MAX SPAN = 7' -0' FOR 20GA DECK ORER METAL DECK YIN PRIDE 20 CA 2 -SPAN YIN IAYUP REQUIRED W (2) /10 SL15 MIN. AT 22CA A LIAR SPAN . 9' -0' FOR 18CA DECK YIN. CLIP IF REO'D 20GA DECK -- PROVIDE 20 GA MIN 2 -SPAN IN UIUP REQUIRED CUP IF REVD e MIN ND SCREW ANCHOR , SIMPSON THEN HO SCREW r o 3 ANCHOR '' - - 7 moray ' SIMPSON R I 12 EMBED PER Awl", 3 B'h1 1 2' EMBED PER ESR - - -- — /B / ESR / / a 2713 O EA BRACE WIRE — 2713 O EA BRACE WIRE & E& r „---, ,---, / ` \\ 12 GA. WIRE TO BRACE UN -TIP I I T \ 12 C8 WIRE TO BRACE UNIT- -TIP 3 ° \ 12 GA WIRE i0 BRACE / \ 12 GA WIRE TO BRACE UNIT - -TYP / 1 i I UNIT- -TIP EA. CORNER 1 IN I EA CORNER T INLET 1 EA CORNER ° I FILTER 1 I INLET N EA CORNER _ WHET ° I \ /) 2208 STEE STRAP ° I \ / 3/8' THREADED ROD - -IMP ° I / 1 1/2' ■ a 22CA STEEL STRAP I I \ \ , 22GA STEEL STRAP \ \ — — , HANGERS- -TIP. FA CORNER \ \ , EA CORNER \ ` , NAICERS - -TYP EA CO RNER L — — — — J , — MANGERS- -IMP EA CORNER Q a.• } L I , LL IL LL L D> E L pt�� 9 NADQN _ FI AARON Fl NATION Fl NATION LIy : 150# VAV BOX @ METAL ROOF DECK 2 150# VAV BOX @ CONCRETE OVER METAL DECK 3 150# VAV BOX @ CONCRETE OVER METAL DECK FAN POWER BOX AT ROOF DECK " " c3 ' v I• I. -0. ® a 1• 1 -0' ENGINEERING U P La NNI NIL RIO RS S LANDSC• PE 15555 SS 72ND AVE SUITE 200 P0011•M0. 00(CGM 57235 2"f —,--,/,--r-()\ TEL 103 220 WS n 7,42 003 222 1570 T�V' O•IMC 000 . I I FM FAN POWERED BOX I— —4 - INSTALLATION TYP FAN LESS DWI VERTICAL ROD HANGERS POWERED BOX 250L8 PER ELEVATION ATTACH INSTALLATION STEEL STRAP HANGERS 20GA MINIMUM TO UNIT PER YNFR LESS THAN PER ELEVATION ATTACH WIRE TO UNIT 25018 W/ (2) /10 SUS 20CA MINIMUM ATTACH WIRE TO UNIT 1 • I ttA � W/ (2) /10 SOS S --- - - -- -T I I I r N ALTERNATE CONCRETE ANCHORS - - - 3/8'.2 I/8' POWERS WEDGEBOLT PER ESR 2526 L uN__)_ 3 /6'a2 1/Y POWERS POWER STUD+ SD1 PER ESR 2818 U I/2'a2 3/4' SIMPSON S(RONKIEOLT PER ESR 1771 PuN ALTERNATE CONCRETE ANCHORS E W 3 /8'a 1 5 /6' E01050 POWERS SNAKE+ PER ESR 2272 3/8'x2 1 /B' POWERS WEDGEBOLT PER ESR 2526 Z 3/8'(1 1/2' EMBED SIMPSON SIGN HD PER ESR 2713 3/6 g 1 2 1/2' POWERS POWER STUD+ SDI PER ESR 2818 W 1/2'x2 3/4. SIMPSON STRONGBOLT PER ESR 1771 Z EXISTING CONCRETE 3/6 0 POWERS SNARE+ SCREW ANCHORS W/ EXISTING CONCRETE 3 /8'( 15 /B' EMBED POWERS SNARE+ PER ESR 2272 OVER METAL DECK 1 5/8' EMBED 0 EA. ROD PER ESR 2272 OVER METAL DECK 3/811 1/2' EMBED SIMPSON TITER HD PER ESR 2713 NJ Q W 0 • < 0 W O o re iitilk I , . PSON TIIEN HD SCREW ANCHOR SIIIIIIMIIII , SIMPSON TITER HD SCREW ANCHOR 1.n Cr 3/8'0o1 1/2' EMBED PER ESR 2713 3/8%1 1/2' EMBED PER ESR 2713 ifi O FA BRACE WIRE & EU HANGER — — 0 FA BRACE WIRE EA HANGER ��// (' 1 I / \ I I / \ H I I ) 12 GA WIRE TO BRACE UNIT- -TYP I I ! 12 GA. WIRE TO BRACE UNIT - -TIP CD ° I FILTER I I INI FT 1 EA CORNER ° I FILTER I I INLET i EA. CORNER U I I \ � / 3/8'5 THREADED ROD 1 I \ \ i / 1 1/2' x 22GA STEEL (fl L — — — — J — H ANGERS- -TIP EA CORNER L — — — — J ' — — STRAP HANGERS - -TIP EA N CORNER ATTACH TO UNIT W/ Jr. b> D L 4. b> d L (2) 010 SMS I I NATION 4 FINATION ,T FAN POWER BOX ®e FAN POWER BOX 1' - 1.-o- . DETAILS 812 JOB NO 09007402 ID no a Pr4a. ma on ono DUCT SIZE SPLAY BRACING SPACING DUCT SIZE SPLAY BRACING SPACING DUCT SIZE SPLAY BRACING SPACING ,•i3 ►, 7 .AED PAOFF 9 6' (70 PLF) !0 -0' OC 6" (20 PLF) 30 -0' OC 14 ".8" (48 PLF) AT EA. VERTICAL SUPPORT 4 St. ' e' (z.aPLY) 3a' -o' oc e' (28PLF) .30 � D' -O' oc 14 (62P1� AT U vERnat AIRPORT I � j e 10' (! Pt!) !0 -0" OC 10' (J PLF) 30 O C 16'x8' (5.3 PLF) AT EA VERTICAL SUPPORT ALTERNATE CONCRETE ANCHORS 12' (4 I PLF) 20' -0' 0 C 11' (4 1 PLO 20 0 C 3/8 I /8" POWERS WEDGEBOLT PER ESR 2526 II l'14. 24'xl2' ( 7.9 Pt!) AT FA VERTICAL SUPPORT 3/8•.2 1/2" POWERS POWER STUD. SDI PER ESR 2818 I/2 "x2 3/4 SIMPSON STRONGBOLT PER ESR 1771 • 14 (4 B PLF) 70' -0' 0 C N' (4 8 PLF) 20' -0' 0 C. 24'x16' (8 8 PLF) AT EA. VERTICAL SUPPORT 3/8"x 1 5/8' EMBED POWERS SNAKE+ PER ESR 2277 =pu68: % awn 3/8'.1 1/2' EMBED SIMPSON 71TEN HD PER ESR 2717 16" (55 PCT) 18' -0' OC 18' (55 PLY) 18 -0' OC (11.5 PLF, AT EA. VERTICAL SUPPORT 38 20 GA CUP w/ (I) 3/8'1 •. CRETE ANCHOR ATTACH SPLAY 3/8 "0 POWERS SNAKE+ SCREW ANCHORS W/ . /10 SYS TO DEECK CK MIN W/ (1) N ATTACH SPLAY BRNNG W/ (1) ATTACH SPLAY BRAING W/ (I) 1 5/8" EMBED O EA. ROD PER ESR 227 •R STANDARD A TOGGLE END ON 110 SAPS TO DECK MIN j10 SUS TO DECK YIN CRIPPLE ATTACH TO DECK WITH T 1 0GGLE END WITH EYELET FOR GYRE TTACH STRAP TO DECK WITH /12 9A5 ATTACH STRAP TO DECK W DR /12 SUS SAMMY XP20 HA NGER FOR RODS N � Illt9 ` E%ISfING CONE OVER METAL DECK <I 20 CA MINIMUM 1 1 /1" B ZO fA YIMYUU 1 1/2" B 20 GA MINIMUM 1 1/2' B AIWA e ` , > DECK WRAP 8' -6' MA%IYUM SPAN ♦ p 1 DECK WITH 8' -6' MAXIMUM $PAN ` OECK WON B' -6" YAXIYUN SPAN • 12 CA WIRE 10 BRACE DUCT C � [[ C SPACE PER SCHEDULE ON 1 51.3 SPLAY BRACING AT SPACING PER /10 WIRE SPLAY BRACING AT 110 WIRE SPLAY BRACING AI EA ROUND 11VAC DUCT HANGER WTM 3/8" THREADED ROD TABLE /10 WIRES OR GR'PPLE ROUND HVAC DUCT SPACING PER TABLE HANGER AT 12' -6' MAX • \ CABLES RECTANGULAR WIC DUCT ROUND HVAC DUCT - HANGER Al 12 -6 0 C MAX 20CA STRAP HANGER AT 12' 6'O C � WCf 20CA STRAP HANGER Al 12 -6 0.C. a CRIPPLE /2 CABLE. 20GA STRAP. OR MAX YAK -- ATTACH 70 DUCT W/ (2) o u 3/8' ROD /ID 585 Q 6' TO 16' HVAC DUCT SUPPORT AND BRACING O 2 6' TO 16' HVAC DUCT SUPPORT AND BRACING ® HVAC DUCT SUPPORT AND BRACING ® a 6' TO 16' HVAC DUCT SUPPORT AND BRACING I Q Ri ARCHITECTURE MI C vGIH EE R.HG ALTERNATE CONCRETE ANCHORS (51511NG CONC EXISTING CONC 3/8 1/8' POWERS WEDGEBOLT PER ESR 2526 OVER METAL DECK OVER METAL DOCK POWERS POWER I/2' STUD. 501 PER (SR 2818 ALTERNATE CONCRETE ANCHORS. F11_51.1,11,6 1/2'.2 3/4' SIMPSON STRONG90L1 PER (SR 1771 3 /8 I/8' POWERS WEDGEBOLT PER ESR 2526 L' 1. R10 R5 ik, 3/B1 1 5/8' EMBED POWERS SHAKE. E PER ESR 2272 !/8".2 1/2" POWERS POWER STUD. 501 PER ESR 2818 L', DSC• PE 1/2'.2 3/4' SIMPSON STRONGBOLT PER ESR 1771 3/8 %1 1/2' EMBED SIMPSON THEN HD PER ESR 7713 II ! /8'. 1 5 /8' EMBED POWERS SNAKE+ PER ESR 2272 15105 s• 72120 AVE SUITE Tao TIR 3 3 i / 8 8:x 0 1 8'.I 1 2' EMBED S IMP $ON TITE HD PER ESR 2713 011E00. •rax• 20 CNEE ANCHOR SIMPSON HD SCREW ANCHOR /e'1 / / TEL Lx ala Xxe 1070 ,—CONCRETE ANCHOR THEN • • 3/8 I/2' EMBED PER ESR 77130 EA BRA WIRE & FA. / HANGER 20NCRETEP 3/8"1 SIYPSpN TREN XD SCREW ANCOR Y '/ • / 273 ~ O FA BRACE WIEA FA an ,'_. HANGER EXISTING CONC _ p/n / w OVER META DECK ~�/ rill ...74 i 20 GA MINIMUM I 1/10 B / t2 G WIRE TO BRACE DUCT 12 GA WIRE 10 BRACE DUCT 12 GA. WIRE TO BRACE DUCT DECK WITH 8' -6' MAXIMUM SPAN ROUND 141/AC DUCT • SPACE PER SCHEDULE ON I /513 ROUND AVM. DUCT 41111 Nils SPACE 1/51.3 RECTANGULAR ANCHOR AT DECK LTANR AT u SUPPORT- -SEE 7 /S13 20CA STRAP HANGER AT 12' -6" 20CA STRAP HANGER A7 12• -6' 010 WIRE SPLIT BRACING AT EA HVAC DUCT 20CA STRAP HANGER Al 12' -6' MAX, MAX. WRAP AROUND BOTTOM CHORD HANGER 11AX WRAP AROUND BOTTOM CHORD • OF JOIST AND ATTACH 70 SELF WITH RECTANGULAR I OF JOIST AND ATTACH TO SELF WITH (2) /I MS MIN. HVAC DUCT (1) 1105105 MIN - - -- ATTACH TO 20CA STRAP HANGER AT 12' -6 "0C DUCT W/ (2) TO SAPS Z MAX -- ATTACH TO DUCT W/ (2) _ /10 SUS L1J 6' TO 16' HVAC DUCT SUPPORT AND BRACING ®e 6' TO 16' HVAC DUCT SUPPORT AND BRACING ( HVAC DUCT SUPPORT AND BRACING ® a 6' TO 16' HVAC DUCT SUPPORT AND BRACING = > Z C9 =� = N O 2 cc 3 o H ct z o6 in 0 03 O3 H c> i / N DETAILS S13 •OB ND 090074.02 © OW NA War Al was wan 1 .,,,i0" y0 2 7 O ] 4� 0 0 B O B7 10 1 1 , 1 D69E5 ll/]1/11 I II I I I I I I I I I II • �_l . -- - 1� f I i I I ^' �,��`�� o o x 0, -� `- I �` D o V,I , ITS ©I I �� I o 6 I I I I PECK © SMILE Y U - -- I -- � — � I -- - - �� ° - o E T T L 1 N Bs - - , �� I T I I P5 ' -- I I--'--- - ----- I ' 1 �� I ---------------- --- -- - -- -- --- -- - -- - -- -- I architects leil �_ v Lit 1017 SW CDRBETTAYE 87; I F -_ - iiimi _______CBI YORMMD. aREfAN9T7B1 . PHONE (503) 7A134170 i — _ ( � 1 L� —L _ 1 _ — — — — — — — — — I— — — — — -I — — — j- { I, ° ° . I I E' i:711 I I I I co 4111 0 ca wr ‘7 CO i I ° ' `r' Q N C Y O) G� ^— — — — — — — — — — — -- O E —1.-.., -- - - - - - 0 a''�/^� ° • •a VJ S bo 6 7 b 0 0 o b ,B „ E ® ROO1 /BeTF Q- PLAN - MECHANICAL I F U CC I LL GENERAL NOTES NOTES THIS SHEET A. FOR CL A SINGLE LINE HAS BEEN USED TO REPRESENT OI REFRIGERANT PIPE UP FROM BELOW. COORDINATE ROOF MOUNTING MULTIPLE RE RE FRIGERANR PIPES ON 11115 DRAWING. ACTUAL PIP METHOD WITH ARCHITECT TO MAINTAIN EXISTING ROOF INTEGRITY. SEE 100% CONSTRUCTION 6 QUANTITY AND SIZE SHALL BE DETERMINED DURING PIPE SIZING TO SHEET 1I7.1 FOR SIZING REQUIREMENTS. 3 MANUFACTURER'S RECOMMENDATIONS. DOCUMENTS A B. ABOVE THE CEILING ARE AAECEI CEILING RETURN RETURN PLENUMS. ALL AREAS O SEE DEf�4 /14143.1 AND 2/M3.1. PIPING. ETC LOCATED ABOVE THE CEILING MUST BE PLENUM RATED ROOF PLAN AND CONFORM TO A REQUIREMENTS OF DN 16 AND REGULATIONS SEE DETAIL 3/143.1. ROUTE REFRIGERANT PIPING SIZED PER A FOR INSTALLATION IN A PLENUM IN A CRITICAL FACILITY. IANUFACIURER'S RECOMMENDATIONS IN CONCEALED S TO e MECHANICAL E OS oI F COIL UNIT. 1 Rees END SEE DETAIL B /14.3.1. Q ass PIP ® eac MI 76700% CDS - ovzlro 1 g B M2.4 1 i RIM CM 7333719 ENGINEERING. INC.' s 011...111 1p d ml � ° .1 l mm 1 10 x1,106 e 0 • Robed to 11wdAn Exchange Cl WA Inc. Tw usage ConiOn AyeeneN see wow Sawa corn Abys Vety Sale AC UNIT . t •.� i CHANNEL INTEGRAL TO '/ y C BASE C UNIT 3 / � 1 � .1I MAOIST FAN. / . j 2- STATIC DEFLECTION DOWN BLAST L ISOLATOR 8 SEISMIC RESTRAINT ( UP BLASE SHEET METAL BOOT W/ 1- ` stA V - D SIMILAR NAILER STRIP DUCT UNER. PANT INSIDE FACE WSW 12/31/11 • OF DUCT UNER BLACK. 1 -111 PREMANUFAC ASS ' FIAFLASHING RECENER THICK FIBERGLASS DUCTBOARD ' NRED CURB NEOPRENE ASSEMBLY PROVIDED BY MFR. APPROVED. PAINT BLACK ' RIGID INSULATION L RINSFKANf CURB W , FASTEN FAN TO g • couNTER FLASHING Il 11- TH 1 / x 3/4- LAG n TO RETURN � CONNECTION DETAIL GRIT STRIP r� � r ', JJ 3 -1 2• FF SCREWS. ONE \ u{ �j AIR PLENUM ` (SEE STRUCTURAL) LAP SEALANT r � l MIN �' EACH SIDE FLASHING MEMBRANE 1i - ROOF % � CONCRETE TUB FASTEN FROM 2 x 8 MIN OR % / 12- eO BELOW NIN B PREMANUFACTURED I P E C K MULTIPLE -PLY MEMBRANE PLACES cuRB SMILE Y BASE FIASHWG TRANSmON DUCT BACKDRAFT DAMPER ro FIT M IN INLET CEILING E T T L I N RIGID INSULATION W/ REQUIRED. a r c h I t PROTECTION BD. 1. RB AS REQUIRED FOR LEVEL INSTALLAION. C SRN NR r u uuiiuiiiui/ :� P F EXHAUST FAN DETAIL RETURN AIR ACOUSTIC BOOT 4412 -__ -- 0 ROOF NOT TO SCALE DETAIL NOT TO SCALE w- tmn- �w -emr�t P O® 17 FAIL 4503) 241-0tt3 METAL DECK L METAL DEOK _ ACOUSTICAL UNER III JOIST BEAM (SEE MIN. STRAIGHT LENGTH STRUCTURE W/ HANGER COM. OVER TUB STRUCTURAL) OF INLET OPENING TO STRAPS. SECURELY BE 1.5 x INLET SIZE FASTEN (BOLT) TO UNIT OR PER MFRS AND STRUCTURE RECOMMENDATION. 1111111.111111MI ROOF CAP DUCT SIZE SAME AS 3' -D Mw (VAV) a) ® ROOF CURB DETAIL INLET OPENING OF 4' -0 MIN (FRB) LAP SEALANT t /B- x 1-1/2 - VAV TERMINAL TO FIRST OUTLET NEOPRENE NOT TO SCALE SEE SIZE. PLAN FOR FLASHING IL III • m FASTEN CAP TO CURB 0 N • TRANSITION ROUND ADHESIVE 1 0 • 3/ LAG CO DUCT CT 1O TO PLENUM AS1 � CO � SCRENE EACH � REOUIR S PLENUM CANT STRIP .` - �I • ORE THAN ROUND LAP SEALANT ROOF 0 GHT 6 NOT 2 DUCT SIZE. 4:2 TRANSITION DUCTWORK PLENUM. _ I 1- SIZE TO FIT UNIT. m HEATING COIL (SEE FASTEN E MIEN FROM 2 P RE] RNLUFFA • O THREADED CLEANOUi � VENT VAV TERMINAL UNIT. PLACE CURB N 1 ►' (SEE SCHEDULES) TRANSITION DUCT CO < CV IF HVAC EQUIPMENT TO FR CAP INLET In t PROVIDE UNSTRUT. 4! 1 AS REQUIRED. a) .° (3) ANCHOR TO HVAC SUPPORT. �� 7,-.00111 0 V D A o TERMINAL DETAIL n o � CC di DISCHARGE TO 1. C � AM �CURB AS REQUIRED FOR LEVEL INSTALLATION. ' O %� �7 � NEAREST ROOF DRAIN m • f. / ' 03 Q' 0 ROOF CAP DETAIL z I BE AS R TEA SRE SIZE MMEN RECOMMENDED USE ELBOW SPACE 1 NOT TO SCALE RECOMMENDED • FOR SIZE OF UNIT BY ALLOWS C r i CLAMP, UNIT s UNIT YFR FLEX DUCTWO FOR J 1111 I FLOOR PLAN E FOR DUCT a) TYP 5' -0' MAX. LONG D IAMETER SEE ELBOW AND FINAL AUGNMENT ONLY 0 $ NOgs: PANDUIT 0 I. TRAP PIPING TO BE SAME SIZE AS AC UNIT DRAIN. UL LASTED FLEXIBLE I� PROVIDE TWO TRAPS (ONE EACH SIDE) ON UNITS. -' DUC SUPPORT 11 Ct 20 TONS AND LARGER. llll c a _ • fillj CONDENSATE TRAP DETAIL DI UNG LcouNC I NOT TO SCALE +• mo - +.*bJ j i ELBOW ENTRY ___ _.._ INTERNALLY UNLD 500 kW GENERATOR Q ,OD: CONSTRUCI1DM ■ r , `- PLENUM FINAL DC RK I SEE ELECTRICAL O S TR EATED 4 x R U�RE MINN FASTEN 2 PLACES 1 MAX FOR r ALIGNMENT ONLY , i U I COUNTERSINK BOLT I ADHESIVE J ESIVE FLUSH WITH TOP illilli iLAP OF SLEEPER. FOR DUCT ` E gECHANICAL SEALANT ". FLASHING m z MECHANICAL DETAILS ' ' - . _ CANT STRIP FLOOR PLAN z _ 3 - � . , 1� es. •• PANDUR m NP I ATTACH PLENUM TO 1 S U MUSE BE CLEAN AND SMOOTH. FREE r. j IFFIFSER /GRILLE AND SEAL ® EC VIEW NDTFC- ma EC $ FROM WATER. OIL AND LOOSE MATERIAL CENNG CEILING tso 2. CANT CURB AS REQUIRED FOR LEVEL. INSTALLATION. DIFFUSER /GRILLE O PROVIDE r -O- WIDE • 5' -0 HIGH BACXDRAFT DAMPER IN QLOOS an - OYlUb 8 3. LOCATE SLEEPERS IN OPPOSITE DIRECTION OF ROOF ENCLOSURE WALL. SEE ARCHITECTURAL MPE SI I AR DRAWINGS RISK FOR • 7 SLOPE TO AVOID CREATING A WATER Mt PI ENUM ENTRY LOCATION. BACKDRAfT DAMPE SIMILAR TO RusKw i3D2 /A2. 4. COORDINATE WITH ROOFING WARRANTY HOLDER TO NOTE: USE PLENUM ENTRY WHERE SPACE 006 NOT ALLOW FOR ELBOW ENTRY. VERIFY THAT ROOFING WARRANTY WILL NOT BE VOIDED. PARTIAL GENERATOR • I ROOF CURB DETAIL DIFFUSER / GRILLE DETAIL ENCLOSUJ2E PLAN - MECHANICAL „ NOT i0 SCALE 111.-e011-0.111.-01 NOT TO SCALE re.WV-C ... cw.rJ4•rr SCALE: ,,B 1��V Ono= .>a M3.1 ENGINEEJUNG, INC. 1 ‘. NM asap -110, 3211010.101 CM= 1010091 WOW 2 Q Prowled 00 IAntlne EsweVn 01 WA.:nc For wage Con:Jena Agreement on wa. Iswa Corn AM1s Ye- y `- [Page Too Large for OCR Processing] [Page Too Large for OCR Processing] [Page Too Large for OCR Processing] [Page Too Large for OCR Processing] [Page Too Large for OCR Processing] [Page Too Large for OCR Processing] [Page Too Large for OCR Processing]