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Specifications TWINE. RECEIVED JAN 18 2012 /'� q T(� Model Number YSC072E3RM * * *D00 *C * * *0 ,9T\' rZr T11 . Nl Customer : Project : Name : Oregon Heating - Gentle Dental 3 -10 Ton R410A PKGD Unitary Gas /Electric Rooftop General Unit function DX cooling, gas heat Unit efficiency Standard efficiency Airflow Convertible configuration Airflow Application Downflow Design Airflow 2400cfm Fresh air selection Econ -dry bulb 0 -100% w/ bar relief 3ph Tonnage 6 Ton Cooling Entering DB 80.00F Cooling Entering WB 67.00F Ambient Temp 95.00F Heating capacity Medium gas heat 3ph Heating EAT 70.00F Voltage 208- 230/60/3 Design ESP 0.500in H2O Major design sequence E - R -410A DX Cooling, Gas Heat 3 -10 Ton Unit controls Microprocessor controls 3ph Through the base provisions Through the base gas & electrical 3ph CITY OF TIGARD Approved tb!- 4+rr [ Conditionally Approved [ ] See Letter to: Follow [ ] Attached Permit Number: MFG2I(2 —+ O As I - • r'CC J. rsl.ila1 By: sin Date: ei OFFICE COPY page . 0 TR NE / ---TOP PANEL EVAPORATOR SECTION ACCESS PANEL --\\ CONDENSER FAN CONDENSATE DRAIN (ALT) ge 3/d'•14 NPT DIA. HOLE -� \.. `` 1 y f - --- CONDENSER COIL I 41N I I ! NIT CONTROL WIREI/B'DIA HOLE 477R' I . � ERVICE GAUGE PORT ACCESS 1 3!0' DIA. HOLE ' NIT POWER WIRE T12' NPT GAS CONNECTION ONTROLAND COMPRESSOR ACCESS PANEL (BOMBH 6 120MBH) 314' NPT GAS CONNECTION (150MBH.200MBH 6 2SOMBH) THROUGH THE BASE 27 59' � CONDENSATE _ {I S . NOTES (' 1 THRU -THE -BASE ELEC TRI CAL AND GAS IS NOT STANDARD ON t ;I • ALL UNITS 2. VERIFY WEIGHT. CONNECTION, AND ALL DIMENSION WITH INSTALLER DOCUMENTS BEFORE INSTALLATION g X 11 ravi 33' 32 118' SUPPLY RETURN __1___ __ 1__ - 4 1712' 97M' 1712' I 35S' PLAN VIEW UNIT 111+++ DIMENSION DRAWING - r - -,. " ^ x RETURN 32114• 40 7,9' G t HORIZONTAL SUPPLY 23718' I AIRFLOW 1612' f ; O 9 510• o OO C.---1 l� J 0 0 I 4 3!4' ! f 1 LL.---.3 +19 114 / 93A' •- 16314' -� 3 41M' r■- CONDENSATE 558' ----- 7 516 - - 543' 53114' PACKAGED GAS !ELECTRIC AL • DIMENSION DRAWING • TIMPIE ELECTRICAL /GENERAL DATA GENERAL (2)(4X61 HEATING PERFORMANCE Model YSC072E Oversized Motor HEATING - GENERAL DATA Unit Operating Voltage: 187.253 MCA: N/A Unit Prim ary Voltage 208 MPS: N/A Heating Model Medium Unit Secondary Voltage 230 MCB. NIA Heating Input(8tu): 120,000 • UnitHert: 60 Heating Output (Btu) 97,200 Unit Phase. 3 No. Burners 3 EER No. Stages 1 Standard Motor FMld Installed Oversized Motor Gas Inlet Pressure MCA: 36 MCA: N/A Natural Gas (MinMix) 4.5114 MFS 50.0 MFS: N/A LP (Min/Max) 10.0/14.0 MCB. 50.0 MCB: N/A Gas Pipe Connection Size: 1/2' INDOOR MOTOR Sandard Motor Oversized Motor Field Installed Oversized Motor Number. 1 Number N/A Number NIA Horsepower 10 Horsepower: N/A Horsepower. N/A Motor Speed (RPM) — Motor Speed (RPM): NIA Motor Speed (RPM). N/A Phase 3 Phase NIA Phase N/A Ful Load Amps 5.00 Full Load Amps. N/A Full Load Amps N/A Locked Rotor Amps: 321 Locked Rotor Amps: N/A Locked Rotor Am N/A COMPRESSOR Circuit 1(2 OUTDOOR MOTOR Number 1 Number: 1 Horsepower' 5.8 Horsepower 0 7 Phase' 3 Motor Speed (RPM ). 1100 Rated Load Amps' 22.4 Phase. 1 Locked Rotor Amps. 1490 Full Load Am ps 3.85 Locked Rotor Amps 9 POWER EXHAUST ACCESSORY (s) FILTERS REFRIGERANT (2) (Field Installed Power Exhaust) Type R -410 Phase N/A Typo Throwaway Horsepower N / A ib Yes Factory Charge • Motor Speed (RPM): N/A Numar Ciruit #1 10.5 lb Full Load Amps: 14 /A Recommended 18'x25•x2' Ciruit #2 N/A Locked Rotor Amps: N/A NOTES: 1 Maximum (HACR) Circuit Breaker sizing is for installations in the United States only. 2. Refrigerant charge is an approximate value. For a m ore precise value, see unit nameplate and service instructions 3 Value does not include Power ExhaustAccessory 4 Value includes oversized motor. 5. Value does not include Power Exhaust Accessory. 6 EER is rated atAHRI conditions and in accordance with DOE test procedures. Page 5 . 9 TRANS INSTALLED ACCESSORIES NET WEIGHT DATA ACCESSORY I WEIGHTS ECONOMIZER 36.0 lb ' MOTORIZED OUTSIDE AIR DAMPER C A I MANUAL OUTSIDE AIR DAMPER BAROMETRIC RELIEF OVERSIZED MOTOR tip 0 ..... BELT DRIVE MOTOR ,d,„ 1 i1 ` POWER EXHAUST I „.......... THROUGHTTHEBASEELECTRICAL (FIOPS) 50lb ktso �/ UNIT MOUN TED CIRCUIT BREAKER (FlOPS) � UNIT MOUN TED DISCONNECT (FIOPS) POWERED CONVENIENCE OUTLET (FlOPS) ilr ___ HINGED DOORS {FlOPS) 0 l_.� HAIL GUARD 1 SMOKE DETECTOR, SUPPLY /RETURN I PACKAGED GAS /ELECTRICAL NOVAR CONTROL CORNER WEIGHT STAINLESS STEEL HEAT EXCHANGER REHEAT ROOF CURB I BASIC UNIT WEIGHTS CORNER WEIGHTS I CENTER OF GRAVITIY SHIPPING NET I ( II 304.0b II ©I 2190b (E)LENGHT (F)WIDTH DBDIb 793.0b `✓ 146.0b + ©I 124.0b I 41' 23' NOTE 1. CORNER WEIGHTS ARE GIVEN FOR INFORMATION ONLY. 2 10 ESTIMATE SHIPPING WEIGHT ADD 5LBS TO NET WEIGHT 3 BASIC UNIT WEIGHT DOES NOT INCLUDE ACCESSORY WEIGHT TO OBTAIN TOTAL \ WEIGHT, ADD ACCESSORY NET WEIGHT TO BASIC UNIT WEIGHT. d WEIGHTS FOR OPTIONS NOT LISTED ARE >5 LBS. ■ ''''' , ''',,,,,, -' Ii i;‘ s‘ •,... :''Ill'''''' 1°.>.' .1 ). ..."-------. --, .:- - 4r N I 4k: E ti . I1� F PACKAGED GAS / ELECTR (CAL ' RIGGING AND CENTER OF GRAVITY 1•a-t 6 easier to clean. Coils shall be leak tested at the factory to ensure the pressure integrity. The evaporator coil and condenser coil shall be leak tested to 600 psig. The assembled unit shall be leak tested to 465 psig. The condenser coil shall have a patent pending 1 +1 +1 hybrid coil designed with slight gaps for ease of cleaning. A removable, reversible, double - sloped condensate drain pan with through the base condensate drain is standard. Controls Unit shall be completely factory-wired with necessary controls and contactor pressure lugs or terminal block for power wiring. Unit shall provide an external location for mounting a fused disconnect device. A choice of microprocessor or electromechanical controls shall be available. Microprocessor controls provide for all 24V control functions. The resident control algorithms shall make all heating, cooling, and /or ventilating decisions in response to electronic signals from sensors measuring indoor and outdoor temperatures. The control algorithm maintains accurate temperature control, minimizes drift from set point, and provides better building comfort. A centralized microprocessor shall provide anti -short cycle timing and time delay between compressors to provide a higher level of machine protection. 24 -volt electromechanical control circuit shall include control transformer and contactor High Pressure Control All units include High Pressure Cutout as standard. Phase monitor Phase monitor shall provide 100% protection for motors and compressors against problems caused by phase loss, phase imbalance, and phase reversal. Phase monitor is equipped with an LED that provides an ON or FAULT indicator. There are no field adjustments. The module will automatically reset from a fault condition. Refrigerant Circuits Each refrigerant circuit offer thermal expansion valve as standard. Service pressure ports, and refrigerant line filter driers are factory- installed as standard. An area shall be provided for replacement suction line driers. Gas Heating Section The heating section shall have a progressive tubular heat exchanger design using stainless steel burners and corrosion resistant steel throughout. An induced draft combustion blower shall be used to pull the combustion products through the firing tubes. The heater shall use a direct spark ignition (DSI) system. On initial call for heat, the combustion blower shall purge the heat exchanger for 20 seconds before ignition After three unsuccessful ignition attempts, the entire heating system shall be locked out until manually reset at the thermostat /zone sensor. Units shall be suitable for use with natural gas or propane (field- installed kit) and also comply with the California requirement for low NOx emissions (Gas /Electric Only). Economizer This accessory shall be available with or without barometric relief. The assembly includes fully modulating 0 -100 percent motor and dampers, minimum position setting, preset linkage, wiring harness with plug, spring return actuator and fixed dry bulb control. The barometric relief shall provide a pressure operated damper that shall be gravity closing and shall prohibit entrance of outside air during the equipment off cycle. Optional solid state or differential enthalpy control shall be available for either factory or field installation. The economizer arrives in the shipping position and shall be moved to the operating position by the installing contractor. Through the Base Gas Piping The unit shall include a standard through the base gas provision. This option shall have all piping necessary including, black steel, manual gas shut -off valve, elbows, and union. The manual shutoff valve shall include a 1/8" NPT pressure tap. This assembly will require minor field labor to install. Through the Base Electrical Access An electrical service entrance shall be provided allowing electrical access for both control and main power connections inside the curb and through the base of the unit. Option will allow for field installation of liquid -tight conduit and an external field - installed disconnect switch. • TRNVE General The units shall be convertible airflow. The operating range shall be between 115 °F and 0 °F incooling as standard from the factory for units with microprocessor controls. Operating range for units with electromechanical controls shall be between 115 °F and 40 °F. Cooling performance shall be rated in accordance with ARI testing procedures. All units shall be factory assembled, internally wired, fully charged with R -410A, and 100 percent run tested to check cooling operation, fan and blower rotation, and control sequence before leaving the factory. Wiring internal to the unit shall be colored and numbered for simplified identification. Units shall be cULus listed and labeled, classified in accordance for Central Cooling Air • Conditioners. Casing Unit casing shall be constructed of zinc coated, heavy gauge, galvanized steel. Exterior surfaces shall be cleaned, phosphatized, and finished with a weather resistant baked enamel finish. UnitLs surface shall be tested 672 hours in a salt spray test in compliance with ASTM B117. Cabinet construction shall allow for all maintenance on one side of the unit. Service panels shall have lifting handles and be removed and reinstalled by removing two fasteners while providing a water and air tight seal. All exposed vertical panels and top covers in the indoor air section shall be insulated with a cleanable foil- faced, fire - retardant permanent, odorless glass fiber material. The base of the unit shall be insulated with 1/8 inch, foil- faced, closed -cell insulation. All insulation edges shall be either captured or sealed. The uniti.s base pan shall have no penetrations within the perimeter of the curb other than the raised 1 1/8 inch high downflow supply /return openings to provide an added water integrity precaution, if the condensate drain backs up. The base of the unit shall have provisions for forklift and crane lifting, with forklift capabilities on three sides of the unit. Unit Top The top cover shall be one piece construction or, where seams exist, it shall be double- hemmed and gasket - sealed. The ribbed top adds extra strength and enhances water removal from unit top. Filters Throwaway filters shall be standard on all units. Optional 2 -inch MERV 7 and MERV 13 filters shall also be available. Compressors All units shall have direct - drive, hermetic, scroll type compressors with centrifugal type oil pumps. Motor shall be suction gas - cooled and shall have a voltage utilization range of plus or minus 10 percent of unit nameplate voltage. Internal overloads shall be provided with the scroll compressors. Crankcase heaters shall be included on 6 -10 ton units. Dual compressors are outstanding for humidity control, light load cooling conditions and system back -up applications. Dual compressors are available on 71/2-10 ton models and allow for efficient cooling utilizing 3- stages of compressor operation for all high efficiency models. Indoor Fan The following units shall be equipped with a direct drive plenum fan design (T /YSC120E, T /YHC092,102, 120E). Plenum fan design shall include a backward -curved fan wheel along with an externalrotor direct drive variable speed indoor motor. All plenum fan designs will have a variable speed adjustment potentiometer located in the control box. 3 -5 ton units (standard efficiency 3 -phase or high efficiency 3 -phase with optional motor) are belt driven, FC centrifugal fans with adjustable motor sheaves. 3 -5 ton units (1 -phase or high efficiency 3- phase) have multispeed, direct drive motors. All 6 -81/2 ton units (standard efficiency) shall have belt drive motors with an adjustable idler -arm assembly for quick- adjustment to fan belts and motor sheaves. All motors shall be thermally protected. All 10 tons and 71/2-8 (high efficiency) have variable speed direct drive motors. All indoor fan motors meet the U,S. Energy Policy Act of 1992 (EPACT). Outdoor Fans The outdoor fan shall be direct - drive, statically and dynamically balanced, draw - through in the vertical discharge position. The fan motor shall be permanently lubricated and shall have built -in thermal overload protection. Evaporator and Condenser Coils Internally finned, 5/16" copper tubes mechanically bonded to a configured aluminum plate fin shall be standard. The microchannel type condenser coil is standard for the T /YSC 10 ton models and 71/2 ton high efficiency models. The microchannel type condenser coil is not offered on the 7 ton dehumidification model. Due to flat streamlined tubes with small ports, and metallurgical tube -tofin bond, microchannel coil has better heat transfer performance. Microchannel condenser coil can reduce system refrigerant charge by up to 50% because of smaller internal volume, which leads to better compressor reliability. Compact all- aluminum microchannel coils also help to reduce the unit weight. All- aluminum construction improves re- cyclability. Galvanic corrosion is also minimized due to allaluminum construction. Strong aluminum brazed structure provides better fin protection. In addition, flat streamlined tubes also make microchannel coils more dust resistant and •TR General Data Table 3. General data - 6 -7 tons - standard efficiency 6 Tons 7 Tons 71 Tons T /YSC072E3,4,W T /YSC090E3,4,W T /YSC092E3,4,W Cooling Performance(a) Gross Cooling Capacity 75,000 89,000 94,000 EER(d) 11.2 11.2 11.2 Nominal cfm /ARI Rated cfm 2,400/2,100 3,000/2,400 3,000/2,625 ARI Net Cooling Capacity 71,200 83,000 89,000 IEER(C) 13.0 12.2 13.0 System Power (kW) 6.36 7.48 7.97 Compressor Number/Type 1 /Scroll 1 /Scroll 2/Scroll Sound Outdoor Sound Rating (dB)(d) 89 89 91 Outdoor Coil - Type Lanced Lanced Lanced Configuration Full Face Full Face Intertwined Tube Size (in.) OD 0.3125 0.3125 0.3125 Face Area (sq. ft.) 17 17 17.5 Rows /FPI 3/16 3/16 3/16 Indoor Coil - Type Lanced Lanced Lanced Configuration Full Face Full Face Face -Split Tube Size (in.) 0.3125 0.3125 0.3125 Face Area (sq. ft.) 9.89 9.89 12.36 Rows /FPI 3/16 4/16 3/16 Refrigerant Control Thermal Expansion Valve Thermal Expansion Valve Thermal Expansion Valve Drain Connection Number /Size (in.) 1 NPT 1 NPT Pk NPT Outdoor Fan - Type Propeller Propeller Propeller Number Used /Diameter (in.) 1/26 1/26 1/26 • Drive Type /No. Speeds Direct/1 Direct/1 Direct/1 cfm 6,037 6,037 6,610 Motor hp 0.7 0.7 0.75 Motor rpm 1,100 1,100 1,100 Indoor Fan - Type FC Centrifugal FC Centrifugal FC Centrifugal Number Used /Diameter (in.) /Width (in.) 1/12x12 1/12x12 1/15x15 Drive Type /No. Speeds /rpm Belt /Variable /1,750 Belt/Variable /1,750 Belt/Variable /1,750 Motor hp (Standard /Oversized) 1.0/2.0 1.0/3.0 1.0/3.0 Motor Frame Size (Standard /Oversized) 56/56 56/56 56/56 Filters(e) Type Furnished Throwaway Throwaway Throwaway Number Size Recommended (4) 16x25x2 (4) 16x25x2 (4) 20x25x2 Refrigerant Charge ( Pounds of R-410A 10.5 11.8 6.9/6.2 continued on next page 28 RT- PRCO23 -E N . . TIMM• Weights Table 168.Maximum unit & corner weights (Ibs) and center of gravity dimensions (in.) - cooling models Maximum Model Unit Weights(a) Corner Weights(b) Center of Gravity (in.) Tons Model No. Shipping Net A B C D Length Width 3 TSCO36E 555 481 157 122 95 107 31 19 4 TSC048E 586 511 167 129 101 114 31 19 5 TSC060E 636 561 183 142 111 125 31 19 6 TSC072E 815 720 231 187 135 167 40 22 71/2 TSC090E 834 739 235 196 140 168 40 22 71 TSC092E 992 849 354 147 252 96 42 22 81 TSC102E 1048 905 359 161 265 120 42 23 10 TSC120F 1058 960 320 218 233 189 40 24 3 THCO36E 614 544 163 144 111 125 33 19 4 THC048E 787 692 220 178 132 163 40 23 5 THC060E 841 746 241 193 139 173 39 22 6 THC072E 915 818 252 224 161 181 42 22 7 THC092E 1421 1227 346 330 269 282 49 28 71/2 THC092F 1026 928 315 209 224 180 40 24 8 THC102E 1436 1242 360 337 268 287 48 28 10 THC120E 1446 1252 355 334 268 285 48 28 (a) Weights are approximate. (b)Comer weights are given for information only. CENTER OF GRAVITY LENGTH A a CENTER E � - - -- - WIDTH 0 C CENTER OF GRAVITY Table 169.Maximum unit & corner weights (lbs) and center of gravity dimensions (in.) - gas /electric models Maximum Model Unit Weights(') Corner Weights(b) Center of Gravity (in.) Tons Model No. Shipping Net A B C D Length Width 3 YSCO36E 607 532 165 137 95 134 31 19 4 YSC048E 638 563 175 145 101 142 31 19 5 YSC060E 688 613 190 158 110 155 31 19 6 YSC072E 936 793 304 146 219 124 41 23 71/2 YSC090E 916 821 256 222 159 183 41 22 7 YSC092E 1042 899 366 160 265 108 42 22 continued on next page 218 RT PRCO23 -E N • TR41 I' Weights Table 169.Maximum unit & corner weights (Ibs) and center of gravity dimensions (in.) - gas /electric models (continued) Maximum Model Unit Weights(a) Corner Weights(b) Center of Gravity (In.) Tons Model No. Shipping Net A B C D Length Width 8 YSC102E 1096 953 371 173 277 132 42 23 10 YSC120F 1156 1058 345 242 258 213 41 23 3 YHCO36E 676 606 178 162 126 139 33 19 4 YHC048E 858 763 238 200 148 176 40 23 5 YHC060E 917 822 261 218. 156 187 40 22 6 YHC072E 997 900 274 250 180 196 42 22 71 YHC092E 1528 1334 373 368 295 299 50 28 7 YHC092F 1124 1026 340 233 249 204 41 23 81/2 YHC102E 1553 1359 387 375 294 303 49 28 10 YHC120E 1563 1369 386 379 299 305 49 28 (a) Weights are approximate. (b) Comer weights are given for information only. Table 170.Factory installed options (fiops) /accessory net weights (Ibs) T /YSC072E- T/YSCO36E-060E T /YHC048E- 102E T /YSC120F T /YHC102E- T/YHCO36E 060E T /YHC072E T /YHC092F 120E Net Weight Net Weight Net Weight Net Weight Net Weight Accessory 3 -5 Tons 4 -5 Tons 6 -10 Tons 7V2, 10 81/2-10 Barometric Relief 7 10 10 10 10 Belt Drive Option (3 phase only) 31 31 — — — Coil Guards 12 20 20 20 30 Economizer 26 36 36 36 36 Electric Heaters(c) 15 30 30 40 40 Hinged Doors 10 12 12 12 12 Manual Outside Air Damper 16 26 26 26 26 Motorized Outside Air Damper 20 30 30 30 30 Novar Control 8 8 8 8 8 Oversized Motor 5 8 8 — — Powered Convenience Outlet 38 38 38 38 50 Powered Exhaust 40 40 80 80 80 Reheat Coil 15 25 — — 53 Roof Curb 61 78 78 78 89 Smoke Detector, Supply 5 5 5 5 5 Smoke Detector, Return 7 7 7 7 7 Stainless Steel Heat Exchanger(d) 4 6 6 6 6 Through the Base Electrical 8 13 13 13 13 Through the Base Gas 5 5 5 5 5 Unit Mounted Circuit Breaker 5 5 5 5 5 Unit Mounted Disconnect 5 5 5 5 5 (a) Weights for options not listed are <5 Ibs. (b) Net weight should be added to unit weight when ordering factory- installed accessories. (c) Applicable to Cooling units only. (d) Applicable to Gas /Electric units only. RT PRCO23 -EN 219 'i1 E'C20I 2- 0-00 38' RECEIVED JAN 18 2012 CITY OF TIGARD BUILDING DIVISION STRUCTURAL CALCULATIONS FOR PROFORMA 7900 SW PFAFFLE ST TIGARD, OR 97223 -- ROOF MECHANICAL UNIT -- oz PROFF 2,187 P ilik OR GON '',0 �G< Y 1 5 . 9g9 � yN \ E. NO I EXPIRES: 12 / 31 / ZIP Contents Details A - B D1 - D2 Gravity Calculations G1 - G3 Lateral Calculations L 1 - L2 Contact Person: John E Nordling, PE Enclosures E 1 - E3 NORDLING Proj. No.: 11 -372 STRUCTURAL PROFORMA 1 ` � ENGINEERS, LLC OREGON HEATING & AIR CONDITIONING 6775 SW 111th, Suite 200 Beaverton OR, 97008 Date: JAN 2012 By: JEN Sheet No.: COVER + • 1 0 0 3 0 0 59.e 74 IV VW Tf• -e Ta -a Tf• -la ve ■ I . I I O ,,,, , 0 0 0 0 0 O-, 0 ,^. LQyDaO © 0 - _ O I ` _ .••., w 0 n s•.,a A � b1, ' 0 • P -F i �' I t a ',.. 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Suite 200 • Beaverton OR, 97008 Date: JAN 2012 By: JEN Sheet No.: 71 (4) STEEL BRACKETS W/ (4) "10 x 1/2' 41111111411 TEK SCREWS TO CURB d (4) "10 x 1/2' TEK SCREWS TO UNIT BASE RAIL • MECHANICAL UNIT —UNIT BASE RAIL (4) "10 SCREWS . „ —(4) "10 SCREWS STEEL BRACKET / J "12 WOOD SCREWS 612' o/c CURB ------_, FLASHING 4 ROOFING BY OTHERS LEVELING CURB (AS REQ'D) i . ECM isym f : - --- - - I 4x6 4 rPLYW FILL SIMPSON 'U46' - - - - -- -.. -------------------- Li 1.'87 l (40.4.... !4`. OREGON , ✓ ✓ y 1 5 , ,90 �� 5 tiN F. NOR \ I EXPIRES: 12 / 31 / I NORDLING Proj. No.: 11 -372 STRUCTURAL PROFORMA ENGINEERS LLC OREGON HEATING & AIR CONDITIONING 6775 SW 111th, Suite 200 • Beaverton OR. 57008 Date: JAN 2012 By: JEN Sheet No.: D2 4 , 0 0 0 0 , ti' -19 UB' 74•.p• +II 74' -p' 74' -10 VD' I • r.. $111 I I A . 1 i , 1 O a ,n 0 0 0 0 0 0. � . 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No.: 11 -372 STRUCTURAL PROFORMA J ENGINEERS, LLC OREGON HEATING & AIR CONDITIONING 6775 SW 111th Suite 200 • Beaverton OR. 97008 Date: JAN 2012 By: JEN Sheet No.: Nordling Structural Engineers, LLC 6775 SW 111th #200 Beaverton, OR 97008 Date: 01113112 Page: MULTI -SPAN TIMBER BEAM DESIGN PROFORMA • B -(DL) B -(LL) B -(TL) B- (MECH) B- (COMB) GENERAL DATA - 1 2 3 4 6 All Spans Simple Support ?? : YES Spans Length ft : 24.67 24.67 24.67 24.67 24.67 End Fixity: : Pin:Pin Pin:Pin Pin:Pin Pin:Pin Pin:Pin Beam Width in : 5.125 5.125 5.125 5.125 5.125 Beam Depth in : 24.00 24.00 24.00 24.00 24.00 CALCULATED VALUES -OK- -OK- -OK- -0K- -OK- F'b- Modified Allow. psi : 2555.4 2555.4 2555.4 2555.4 2555.4 fb - Actual. psi : 510.3 1113.3 1623.6 150.4 1773.9 F'v- Modified Allow. psi : 218.5 218.5 218.5 218.5 218.5 fv (actual) ' 1.5 psi : 34.7 75.8 110.6 6.1 116.7 Moment @ Left k -in : 0.0 0.0 0.0 0.0 0.0 Moment @ Right k -in : 0.0 0.0 0.0 0.0 0.0 Max. Mom. @ Mid -Span kin : 251.1 547.7 798.8 74.0 872.8 X -Dist ft : 12.33 12.33 12.33 12.33 12.33 Shears: Left k : 3.39 7.40 10.79 0.50 11.29 Right k : -3.39 -7.40 -10.79 -0.50 -11.29 Reaction @ Left DL k : 3.39 0.00 3.39 0.00 3.39 LL k : 0.00 7.40 7.40 0.50 7.90 Total k : 3.39 7.40 10.79 0.50 11.29 Reaction @ Right DL k : 3.39 0.00 3.39 0.00 3.39 LL k : 0.00 7.40 7.40 0.50 7.90 Total k : 3.39 7.40 10.79 0.50 11.29 Max. Defl. @ Mid Span in : .0.216 .0.471 -0.686 -0.051 -0.737 X -Dist ft : 12.33 12.33 12.33 12.33 12.33 DESIGN DATA Le: Unsupported Length ft : 0.00 0.00 0.00 0.00 0.00 Fb:Basic Allowable psi : 2400.0 2400.0 2400.0 2400.0 2400.0 Fv:Basic Allowable psi : 190.0 190.0 190.0 190.0 190.0 Elastic Modulus ksi : 1800 1800 1800 1800 1800 Load Duration Factor 1.15 1.15 1.15 1.15 1.15 APPLIED LOADS Use Live Load on This Span ? Yes Yes Yes Yes Yes Uniform DL plf : 275.0 0.0 275.0 0.0 275.0 LL plf : 0.0 600.0 600.0 0.0 600.0 Point DL N : LL N : 1000.00 1000.00 X -Dist. ft : 12.33 12.33 QUERY VALUES Location ft : 0.00 0.00 0.00 0.00 0.00 Shear # : 3.39 7.40 10.79 0.50 11.29 Moment k -in : 0.00 0.00 0.00 0.00 0.00 Deflection in : 0.000 0.000 0.000 0.000 0.000 • CI 2 V4.4B2 (c) 1983.95 ENERCALC Bruce W. Kenny, KW060914SL -A i ��1 j '� Project: Project Location: Type: Type ir.+4 f "i i µ Folder: Folder Date: 1/13/12 2:21 PM RedSpecTM by RedBuiltTM Designer: v7.0.13 Comment: 16" Red -I65TM @ 24" 0/C This product meets or exceeds the set design controls for the application and loads listed DESIGN CONTROLS % Allow. Design Allow. DOL - Control Pass /Fail Shear (Ib) 31% 1018 3232 115% - All Loads PASS Positive Moment (ft -lb) 51% 5394 10592 115% - All Loads PASS DEFLECTIONS (in) % Allow. Design Allow. Design Allow. Pass /Fail Span Live 36% 0.417 1.163 L / 669 L / 240 PASS Span Total 41% 0.641 1.550 L / 435 L / 180 PASS SUPPORTS Support 1 Support 2 Live Reaction, Critical (lb) (DOL%) 718 (115) 594 (115) Dead Reaction (Ib) 300 408 Total Reaction (Ib) (DOL %) 1018 (115) 1002 (115) Bearing Bottom Bottom Support Wall Wall SPANS AND LOADS Dimensions represent horizontal design spans. Member Slope: 0/12 23'- 3.0" APPLICATION LOADS Type Units DOL Live Dead Partition Tributary Member Type Uniform psf Snow(115 %) 25 12 0 24" Snow Roof Joist ADDITIONAL LOADS Type Units DOL Live Dead Location from left Application Comment Tapered psf Snow(115 %) 25 to 0 0 to 0 0' -0.0" to 6' -0.0" Adds To Drift Point lbs Floor(100 %) 0 150 20' -0.0" Adds To Mechanical NOTES • Building code: IBC. Methodology: Allowable Stress Design • Min end bearing = 1.75 inches, web stiffeners not required. • Continuous lateral support required at top edge. Lateral support at bottom edge shall be per RedBuilt recommendations. C: r1 C: \Documents and Settings\Jonathan H Walters \My Documents \RedSpec \x.red Page 1 of 1 • The products noted are intended for interior, untreated, non - corrosive applications with normal temperatures and dry conditions of use, and must be installed in accordance with local building code requirements and RedBuilt'" recommendations. The loads, spans, and spacing have been provided by others and must be approved for the specific application by the design professional for the project. Unless otherwise noted, this output has not been reviewed by a RedBuilt'" associate. PRODUCT SUBSTITUTION VOIDS THIS ANALYSIS. RedBuilt' ", RedSpec' ", Red -IT ", Red- I45 " ", Red- I65 " ", Red- I65T " ", Red- I90" ", Red- 190H " ", Red- I90HS' ", Red -L' ", Red-LT"", Red -WT ", Red -S' ", Red -MT ", Red -HT ", RedLam' ", FloorChoice'" are trademarks of RedBuilt LLC, Boise ID, USA. Copyright © 2010 -2011 RedBuilt LLC. All rights reserved. �� USGS Earthquake Hazards Program 2005 ASCE 7 Standard Location 45° 26' 16.61" N Ss and SI = Mapped Spectral Acceleration Values 122° 45' 31.12" W 7900 SW Pfaffle St, Tigard, OR 97223 Ground Motion Ss 0.951 Si 0.340 Occupancy Category II Site Coefficients Fa 1.12 Site Class D F,- 1.72 Importance Factor 1.00 Height of Structure 20.0 ft SMS Fa * Ss 1.065 SM1 Fy * Si 0.585 Design Category (SDC) D SDS (2/3) SMs 0.71 SDI (2/3) SMi 0.390 Air Side HVAC Eq = 0.265W + 0.2 SDS W ap 2.50 R 6.00 W : Weight of Unit 0.4 a RS 1 11+2.-1•W, z= 20.011 ASD FP = 0.35 Wp -> * 0.7 02 - t8 z= 22.Oft FP = 0.38 Wp -> * 0.7 0.265 FP \IIN = 0.3 SDS IP WP = 0.213 WP - >* 0.7 0.149 FP MAX 1.6 SDS IP WP = 1.14 WP -> * 0.7 0.795 NOROLING Proj. No.: 11 -372 STRUCTURAL PROFORMA ENGINEERS, LLC OREGON HEATING & AIR CONDITIONING 6775 SW 1 1 1 t h . Suite 200 • Beaverton OR. 97008 Date: JAN 2012 By: JEN Sheet No.: L 1 44); 121 VEQ 4 bs s a50 lbs Height 40" Weight 850 lbs Length 88" Width 53" Curb 14" VEQ = 0.265 * 850 lbs 2 * 0 * 850 lbs vEQ = 225 lbs + 121 225 lbs T= 225 lbs * (4" 11 PP° + 121 Ibs / 2 - 0.6 * 8501bs / 2 C: 110 lbs _ -110 lbs [ 0 Net Uplift ] V= 225 lbs (4) "MI-I-PRC- HOLD" 16 Ga GALVANIZED STEEL BRACKET W/ (4) "I0 x lip" TEK SCREWS TO ROOF CURB 4 (4) "I0 x 1/2" TEK SCREWS TO UNIT BASE RAIL -ok- "I2 *I2" o/c SCREWS TO EXISTING CURB BELOW -ok- NORDLING Proj. No.: 11 -372 STRUCTURAL PROFORMA k ENGINEERS, LLC OREGON HEATING & AIR CONDITIONING 6775 SW 111th, Suite 200 - Beaverton OR, 97008 Date: JAN 2012 By: JEN Sheet No.: L2 F Y T {t / TOP PANEL • EVAPORATOR, /\ \��\ \\ SECTION ACCESS PANEL— (` ` \��\ ' \�� \ CONDENSER FAN \` \ \\ _ • CONDENSATE DRAIN (ALT) \ q) �� 3/4' -14 NPT DIA. HOLE ---., ( `` `� ",` \ \\ �\ ��� '_� ~ =� z r CONDENSER COIL N . -,,, f 4 114' 1111111 27 5M3\ 47 7113' UNIT CONTROL WIRE 716' DIA. HOLE t \ SERVICE GAUGE PORT ACCESS 1 318' DIA. HOLE �\ / 11T NPT GAS CONNECTION ONTROLAND NIT COMPRESSOR POW ER WIRE ACCESS PANEL (SEMEN S 120MBH) 3J4' NPT GAS CONNECTION (150MBH,200MBH 8 250MBH) THROUGH THE BASE 27 SIB CONDENSATE -4 1 43 . NOTES: (.1' �4,., • 1 THRU - THE - BASEELECTRICALANDOASISNOTSTANDARDON r ` t ALL UNITS 2. VERIFY WEIGHT, CONNECTION, AND ALL DIMENSION WITH INSTALLER DOCUMENTS BEFORE INSTALLATION wij 33' � 32 t43' SUPPLY I RETURN .. I I I j X 17 I/2• 9 718 17 1 /1 1 PLAN VIEW UNIT DIMENSION DRAWING • I RETURN 32114' 40 7/8' t • SUPPLY 237113' i I 18 1n' ¢ i HORIZONTAL AIR FLOW i . 5 518' ( C< O L-1 ( / ) O p 1 - 4 314' ¢ d 5 t I� 19114' 93 16 314' -4- 3 41J4'� CONDENSATE 5518• — 88 5R' 7 575' 53 114' PACKAGED GAS IELECTRICAL DIMENSION DRAWING 1 f .�. f. , .,. y tom: l.: ::L••= INSTALLED ACCESSORIES NET WEIGHT DATA ACCESSORY WEIGHTS ECONOMIZER 36.0 lb I MOTORIZED OUTSIDE AIR DAMPER C {Q I MANUAL OUTSIDE AIR DAMPER I BAROMETRIC RELIEF OVERSIZED MOTOR 0 4:- `` BELT DRIVE MOTOR o. '--4 ��Vn ,111 POWER EXHAUST � THROUGHTTHEBASEELECTRICAL (FIOPS) 5.01b ■ a � /// UNIT MOUN TED CIRCUIT BREAKER (FIOPS) UNIT MOUNTED DISCONNECT (FIOPS) POWERED CONVENIENCE OUTLET (FIOPS) I l °J( HINGED DOORS (FIOPS) r^{ `l \/;� HAIL GUARD I 1 :J 11 SMOKE DETECTOR, SUPPLY /RETURN I 1 PACKAGED GAS /ELECTRICAL NOVAR CONTROL I CORNER WEIGHT STAINLESS STEEL HEAT EXCHANGER REHEAT I I ROOF CURB I I BASIC UNIT WEIGHTS CORNER WEIGHTS I CENTER OF GRAVITIY I SHIPPING I NET I V 304.010 © 1 219010 (E)LENGHT (F)WIDTH I 936 010 93.0 b '� 8) I 146.0113 1:01 124.0 Ib 41' 23' NOTE: `` 1. CORNER WEIGHTS RE GIVEN FOR INFORMATION ONLY 2. TO ESTIMATE SHIPPI G WEIGHT ADD 5 LBS TO NET WEIGHT J 3 BASIC UNIT WEIGHT OES NOT INCLUDE ACCESSORY WEIGHT. TO OBTAIN TOTAL WEIGHT, ADD ACC SDP .Y NET WEIGHT TO BASIC UNIT WEIGHT. 4. WEIGHTS FOR 0 IONS NOT LISTED ARE >5 LBS. 4 ! 4I. , _ / � yy • ,I , kk E ,� 4100;1 F PACKAGED GAS /ELECTRICAL RIGGING AND CENTER OF GRAVITY I 9 TRAMS' Weights Table 168.Maximum unit & corner weights (Ibs) and center of gravity dimensions (in.) - cooling models Maximum Model Unit Weights(a) Corner Weights(b) Center of Gravity (In.) Tons Model No. Shipping Net A B C D Length Width 3 TSCO36E 555 481 157 122 95 107 31 19 4 TSC048E 586 511 167 129 101 114 31 19 5 TSC060E 636 561 183 142 111 125 31 19 6 TSC072E 815 720 231 187 135 167 40 22 71/2 TSC090E 834 739 235 196 140 168 40 22 71 TSC092E 992 849 354 147 252 96 42 22 81 TSC102E 1048 905 359 161 265 120 42 23 10 TSC120F 1058 960 320 218 233 189 40 24 3 THCO36E 614 544 163 144 111 125 33 19 4 THC048E 787 692 220 178 132 163 40 23 5 THC060E 841 746 241 193 139 173 39 22 6 THC072E 915 818 252 224 161 181 42 22 72 THC092E 1421 1227 346 330 269 282 49 28 71/2 THC092F 1026 928 315 209 224 180 40 24 8 THC102E 1436 1242 360 337 268 287 48 28 10 THC120E 1446 1252 355 334 268 285 48 28 (a) Weights are approximate. (b) Corner weights are given for information only. CENTER OF GRAVITY LENGTH A C e CEN - WIDTH 0 0 CENTER OF GRAVITY Table 169.Maximum unit & corner weights (Ibs) and center of gravity dimensions (in.) - gas /electric models Maximum Model Unit Weights(a) Corner Weights(b) Center of Gravity (in.) Tons Model No. Shipping Net A B, C D Length Width 3 YSCO36E 607 532 165 137 95 134 31 19 4 YSC048E 638 563 175 145 101 142 31 19 5 YSC060E 688 613 190 158 110 155 31 19 • `* 6 Y5C072E 936 r 793 304 146 219 124 41 23 71 YSC090E 916 811 256 222 159 183 41 22 7 YSC092E 1042 899 366 160 265 108 42 22 continued on next page 218 RT PRCO23 -EN Sputhwt st Pfaff le Street, Tigard, OR - Google Maps Page 1 of 2 f � j ' j RECEIVED To see all the details that are visible on the JAN 18 2012 screen, use the "Print" link next to the map. I Go i. )gle CITY OF TIGARD BUILDING DIVISION 1 " 414111k 1014. 00 - _ , ., =Pfa * St N +I .fly 3 vi ? MCI • I �,� de r/ ✓ >(� � stu- •mow ;. • •N• ,� Oregon Heating" & Air Conditioning GAS Per OMSC Tabel C402.4(3) 2Psi inlet pressure @ 1.0 Psi pressure drop Load — RTU1 @ 150,000 Btu Total = 150,000 Btu 200' developed length %" pipe adequate for 642,000 Btu ■•••••• .c..• .aa., /clime -- --- -- -- RTU1 Trane YSC072E3- 208/3/60. 36.9 MCA, 50 MOCP. 13 seer, 2400 cfm, 72,000 Btu cooling. 150,000 Btu gas input. 860#. EF1 Nutone QT80- 80 cfm @ 0.25 SP. On switch. Oregon Heating -'t i cr:e QT 150- 150 cfm it 0.25 SP. On switch. IT on line voltage thermostat. & Air Conditioning Scope of work . nregon Heating and Air Conditioning will perform the following scope of work: 1. Provide and install new rooftop HVAC 6 -ton unit with economizer and smoke detector. 2. Provide and install (3) exhaust fan with ducting from restrooms and IT closet. I ■■ _ 1 3. Ducting and air - distribution as drawn. ■.■.�.■■. -- III 4. Gas piping from meter to RTU. IIPAIIIIIIIIIIIiill 1141 . 7 1111 I V . Ventilation Requirements- based on 2010 OMSC table 43.3 �MEM � w•� lippi i - I) RTU1 -multi -zone lir �'■ c Office- 1950 sft breathable zone liii . ... � �� N Reception- 200 sft breathable zone .-� G Ez = 0.8 (supply and return in ceiling) � , , N ■■ � — � — = 40 cfm Pz= 8 U � U Vbz 30 cfm / Voz3 cfm r :' r 4= ' � �►;/ �� ���� r , Mr IF 1111 Net 130 sft conf �� No _ � .O � _ „7; Persons -5cfm X SOp /tOOOsft = 35 cfm Pz =7 ` ' _ - ., l � +, , I _ ' — OIL Vbz = 43 cfm : mil �� _ Voz= 54 cfm • ..�-1 ►.� , • Zp =0.022 FA '��,/l' i Area 0.06 cfm /sft = 8 cfm n U I Net 200 sft recept- 1��{{, i �� ■ 4111111111fil I \ s., `v •� ( r Persons -5cfm X 30p /1000sft = 30 cfm Pz - _ i Q Area- 0.06 cfm /sft = 12 cfm11 '� 4 0 ` Vbz =42 cfm Voz = 53 cfm • d i 41111•11117.--1 ¢ , .- Zp= 0.022 -- , ; 1I IIi L` O Ev = 1 ■■■■i' Uncorrected OAI- ,iii. D = ,1121 Q Vou= 105 +110 =215 cfm 1111141LP G I '( � / Q Vot = 269 cfm o _ SA = 2400 cfm � • - 71 RA = 300 cfm Q OSA =2100 cfm �- ► .4 A �� l am; A ■ o °~ I■ ■„�:�I �,, mow .. ' Mechanical General Notes: 1. All steel ducting will be 26 ga minimum galvanized. 2. Heating and cooling ducting to be designed to not exceed 0.5 wc positive (supply) and 0.5 wc negative (return). 3. Provide programmable thermostat. 5 degree deadband minimum. 7 day. Microprocessor. Set program for night energy savings. — i.� - �) 4. Seal ducting with UL listed mastic or mastic tape. ile �S r , 5. Max leakage rate of OSA or exhaust dampers to be 4 cfm /sft @ 1.0 sp. c/� 6. Insulate all supply and return duct min. R4 foilback. I 7. Support duct every 8' max or within 2' of direction change with minimum 24ga strap or 12ga wire. / / P 8. Install flex per manuf specs. - f 4C (�tA -) 9. Provide 0 and M to building owner. i\J t i‘, i- / fO ,!'”