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001240 (AR)
LICENSED CONTRACTORS DECLARATI (commencing with Section 7O of'Divi «and effect. ^License.0 as_s Lic u er — 'Dale _C a Contractor OWNER -BUILDER DECLARATION: I hereby affirm that I am exempt'from the Contractor's License Law for the following reason (Sec: 7031.5. Business and Professions Code: Any city or county which requires a permit to construct, alter, improve, demolish, or repair any structure, prior to its issuance, also requires the applicant for such permit to file a signed statement that he is licensed pursuant to the provisions of the Contractor's License Law (Chapter 9(commencing with section 7000) of Division 3 of the Business and Professions Code)or that he is exempt therefrom and.the basis for the alleged exemption. Any violation of Section 7031.5by any applicant for a permit subjects the applicant to a civil penalty of not more than five hundred dollars ($500.): o I, as owner of the property, or my employees with wages as their sole compensation, will do the work, and the structure is not intended or offered for sale (Sec. 7D44. Business and Professions Cade: The Contractor's License . Law does not apply to an owner of.property who builds, or improves thereon, acid who does such work himself or through his own employees, provided that such improvements are not intended or offered for sale. If, however, the building& i mprovemnt is sold within one year of completion, the owner -builder will have the burden of proving that he did not build or improve for the purpose of sale.). •% O I, as owner of the property, am exculsively contracting with licensed contractors to construct the project -(Sec. 7044. Business and Professions Code: The Contractor's License Law does not apply to an owner of property who • builds or improves thereon, and who contracts for such projects with,a contractor(s) licensed pursuant to the Contractor's License Law.). ❑ 1 am exempt under Sec. B. 8 P.C. (Attached Certificate). Date Owner WORKERS' COMPENSATION DECLARATION: I hereby affirm that 1 have a certificate of consent to self -insure, or a .. 'certificate of Workers' Compensation Insurance , or a certified copy thereof (Sec.•3800: Lab. C.). Policy.No. Company ❑ Certified copy is hereby furnished. ❑ Certified copy is filed with the City Building Inspection Department or City Department. Date Applicant PERMIT APPLICATION City of La Ouinta Department of Building and Safety This permit becomes void if work not commenced within 180 days from date of issuance. OR, if work has been suspended or abandoned for a period of 180 days. CERTIFICATE OF EXEMPTION FROM WORKERS' COMPENSATION INSURANCE: This section need not be completed if ON: -k. hereby affirm that I am licensed under. provisions of Chapter 9 the permit is for one hundred ($100) o, less. I certify that in the performance of the work for which this permit is - sion'3of the Business and Professions Code, and my license is in full force issued, I shall not employany person in any manner so as to become subject to the Workers'Compensation laws of t !.17 _ 1 C. California. APPLICANT NAME (L, F.,MQ �ya �truc �, AT Inc. • ADDRESS 40-19550 Starlight Lazie ' CITY/COMMUNITY/STATE/ZIPBenW& WIdS1 CA 92201 JOB SITE ADDRESS/SPACE 78-401 � 111 7�, CITY/COMMUNITY/STATE/ZIP ^ �ta, C • 92253 - L•� BOK PAG PRC C TNN FIND SE. S TRACT LOT. Elect. Fee 58.66 MOD SB Plumbing Fee TRACT NAME t8�� Ia S1�•ta ��++ OWNER NAME (L. F. MI) , CONTRACTOR -FIRM NAME �7 i.•,a tet •, , ADDRESS abme .. CITY/COMMUNITY/STATE/ZIP ' abwte . PHONE • 05. LICNC • ARC/ENG FIRM NAME ADDRESS CITY/COMMUNITY/STATE/ZIP PHONE a 625.64 LICNC / USE OF PERMIT Office space BL ZON FSB SSB SSB RSB OFC ZONE ORD I1.• •, LOT SZ _ ,. END SIDE. Date Applicant NOTICE TO APPLICANT: _1f ;alter making this Certificate of Exemption,.you should. become subject to the Workers' Compensation provisions of the Labor Code, you must forthwith comply with such provisions or this permit shall be deemed revoked. DIVISION OF INDUSTRIAL SAFETY PERMIT CERTIFICATION: . . 0 I hereby certify that no excavation five (5) or more feet depth into which a person is required to descend, will be made in connection with work authorized by this permit, and that no building structure, scaffolding, falsework, or demolition or dismantling thereof, will be more than thirty-six (36) feet high: (Chap 3.2, Grp 2. Art 2, Sec341, Title 8, C.A.C.) „ ♦ - ❑ As owner -builder, 1•will not employ anyone to do work which would require a permit from the Division of Industrial Safety, as noted above, unless such person has a permit to do such work from that division. .. w ❑ Division of Industrial Safety Permit No. Date' Applicant CONSTRUCTION LENDING AGENCY: I hereby affirm that there is a construction lending agencyforthe performance of the work for which this permit is issued (Sec. 3097, Civ. C.).. 6 Lender's Name Lender's Address I certify that I have read this application and slate-thatihe above information is correct.) agree to comply with all - city and county ordinances and state lawsAeelaling to building construction, and hereby authorize representatives oi,lh ss cl oulily to ente /upon`Ihe ab"ove `mentioned property for inspection purposes. Signature of Applicant-er<Agent Date CERTIFICATE OF COMPLIANCE AND AUTHORIZATION OF ENTRY. I certify I have read this application and statethat r the information given is correct. I agree.to comply�with all state laws and county ordinances relating to buidling construction, and authori� a a'repfesentaI o1 the City of La Ouinta Department of Building and Safety to enter upon the property for which I ha44e applied "for this permit for the purpose of making inspections. Signature of Applicant or.Agent Date Print Applicant/Agent Name APPUPRMT o n m 2 a n. 2 -DAG -85 BLDG.. Permit to ca nstruct apprmc. 2900 sq. tt. of® office space arra exit corridors as per approved plans. Mech. Fee 32.00 Plan Check Fee 219.16 •Omit. Fee 298.00 Elect. Fee 58.66 SM Fee 3.82 Plumbing Fee 14.00 PAID 05. TOTAL FEE • 625.64 VALUATION 4/000.00 BLDG. DEPT. NO. OPERATION DATE INSPECTOR NO. OPERATION DATE INSPECTOR BUILDING APPROVALS MECHANICAL APPROVALS 1 Set Back 33 Ventilation System 2 Ftgs & Frms 34 Plenums & Ducts 2A Slab Grade 35 Furnace Compart. 3 Steel 36 Inlets & Outlets 4 Grout Blocks 37 Combustion Air 5 Bond Beams / 38 Compressor 6 Roof Deck 39 Appl. Clearance 7 Framing�S' 40 Fire Damper 8 Vents 41 Smoke Detection Device 9 Garage Fire Wall 42 Commercial Hood 10 Fireplace P. L. F-143 Final 10A fireplace T.O. ❑ NON ADDITIONAL INFORMATION SEWAGE SYSTEM SIZE & LOCATION 11 Exterior Lath 12 Internal Lath 12A Drywall 13 Finish Grade INSULATION Thick R Value 7A Walls (Batts) 126 Ceiling (Batts) 12C Ceiling (Blown) 14 Final 5-3 PLUMBING APPROVALS 15 Ground Plumb 16 Water Piping 17 Rough Plumb 18 Vents 19 Sewage Disposal 20 Sewer 21 Water Heater 22 Water Softener 23 Water Service 24 Gas Test 25 Final Tank Pit L. Line ELECTRIC APPROVALS, REAR OF PROPERTY LINE P/L P/I 4 STREET NAME 26 Power Pole 27 Conduit 28 Service Entrance 29 Wiring 29A Grounding Wire 29B Bonding 30 Fixtures 31 Service / 32 Final ' #601LDfs 0 ENVELOPE SUMMARY B.utLD41 Gx ENVE '� LOPE COMPLIANCE lj P.ro'j,6ct`Des;igner: Wil~, �-a ``� Documented Project; Titl'.i--rs? 6 Project Ad.clress:_\ �Q -- `-�' °�� - Checked Form 1 (NR -8/81) by: 1` Date:— by: ate:— by: Date: Permit Application Number: • This form Provides space to Insert summary data on the building envelope. Form 1 Is used /n Con/unction with Form 2 and Form 3 worksheets to provide the necessary Information on building heating (U -Value) and cooling (OTfiV) design criteria compllancq. SITE DESCRIPTION (from Building Location Data) Location Code Number Latitude 2-_ Degree Days -heating. 3. Solar'Factor, S.F. 4, 1 Cooling Z�T, ASHRAE 5. (design temp. - 780F) HEATING DESIGN CRITERION Standard Uow .,»..... Proposed Uo w ...—._ 14. Uor.....».....» 1 S. - Uo t .»»..».». 12- -_.__. U o f .»......».» 18 . Maximum Proposed Allowable �2 "> z 4 Uoverall ..._13• _.._ Uoverali •»-• 17. Line 17 tRust not exceed Line 13 Note: Maximum Allowbie Uoverall and Proposed Uoverall are calculated on Page 4 of form 2. Note: For heated only buildings, Uor is Calculated for the proposed building from Form 2 (Heated Only Building.) using the value from Line 3e for the area of skylights and the value from Line 37 for the overall roof area. BUILDING DESCRIPTION (from plans) Occupancy Type Code Number 8. c) (from Occupant Ratings for Buildings and Rooms) Gross Conditioned Floor Area, ft2 7, `+ Number of Floors 8 Average Gross Conditioned Area per Floor, ft.2 8a. _ Average Wall Height per Floor,ft. 9. (facing conditioned space) "�- COOLING DESIGN CRITERION Standard OTTVw...... - 18. , ' • 1 3OTTV r 19. Q Standard OTTV.....».... 20. Proposed OTTVr.»».... 22. Proposed OTTV ...... ......23. 1 Line 23 must not exceed Line 20 Note: Standard OTTV and Proposed OTTV are calculated on Page 4 of Form 2. Note: For heated and cooled buildings, OTTVr Is calculated for the proposed building from Form 2 (Heated and Cooled Building) using the value from Line 25 for the area of skylights and the value from Line 27 for the overall roof area. The 5 Percent exemption does not apply to any- - cooled buildings: MATERIALS DATA FORM b BUILDING ENVELOPE COMPLIANCE ProJect 'VOW line 8 line? e. ,LA I Z Btu/hr-It2_0F Form 2 (NR -8/81) Dater HEATING DESIGN DESIGN CRITERION COOLING DESIGN CRITERION Wall Surface Winter MCF Surface Total Type Area. ft.2 U -Value Type ?�r� Btu/hr-°F Type 1 t �`v Btu/hr- Type1 Type 2 X v Type Type 3 �ws 'XgU+ 1} X X X x_ a X Z3 _ log! Type 4 x x i"' x x--`-�—_ sType 6 ----..X X�_ 4 n x Total ` Awall 1 I Type Total 2. i 3 Door Surface Winter MCF Total Awall Total Type Area' /t 2• U -Value Total 11. Btu/hr °F ' Type 1 ZC�Q 3i .y x Type 2 x _x = Type 3 _X_X Total . Adoor 3. ZLh '4. © Tot91 i j Glazing Surface Winter' Total Typo Area, it 2 U -Value Btu/hr-PF Type 1 x I ' n LA Type 2 x �, t Type 3 x o Total A 6: Total '8. window Total. Aow 7: ft2 Total Heating e. line 1+3+6 'line 244+6 'VOW line 8 line? e. ,LA I Z Btu/hr-It2_0F Form 2 (NR -8/81) Dater Door Surface Summer TDeq Type Area. I12 U -Value Type , ZL� x ,yk x 1)`i _ Type 2 —X—X—= Type 3 - —X—X—= Total Adoor 12. Total Btu/hr ,S4 Total 13. Glazing Surface COOLING DESIGN CRITERION Total .Wall Area, ft2 Surface Summer TReq Total Type ?�r� Area; it 2 U -Value ► x �1t�.t X,ZS+r i .iJ o Btu/hr- Type1 xL( x ).,-(—x—)]= ,; v Type 2 � X X x_ a X Z3 _ log! Type 3 i"' x x--`-�—_ Type 4 x x Type 6 x x = Total Awall 10• Total 11. Door Surface Summer TDeq Type Area. I12 U -Value Type , ZL� x ,yk x 1)`i _ Type 2 —X—X—= Type 3 - —X—X—= Total Adoor 12. Total Btu/hr ,S4 Total 13. Glazing Surface SF SC Summer AT Total Type Area, ft2 U-Value Btu/ hr Type 1 zza x�l'3 3 .�J i x +�� 6,C�f-> � � x�� ?�r� Type 2 ti t ► x �1t�.t X,ZS+r i .iJ o � ea Q�� (0 Topa 3 xL( x ).,-(—x—)]= Total. 1?�,iZ Awlndow4� (.�;� Total 15. Aow Total 16. i s f12. line 10+12+14 OTTVW = Z. Z"� r 1 l LO a line 17 line 16 Total t;ooling.l7. SZ -7 in 81170 1 rt73t16 Btu/hr-ft2 ' MATERIALS DATA FORM ,Heated and Cooled Building) Project Title: - Type 1 x v Type 2 x a Type 3 x = Total A 21. Total 22. skylight Total -'" Total Aor 23._ft2 Heating 24. line 19421 line 20f22 Uor 11ne24 1/he 23 Btu/hr-ttZ-AF 0 Page 2 of Form Date: �.-'�• HEATING DESIGN CRITERION CRITERION Roof Surface Winter Total Type Area, ft2 U -Valu• Btu/hr-OF Type i 1� ~r Btu/hr Type 1 x.o5`' _ x 4 1 x. 4� t� x EL -1c. x + .`J_ Type 2 'X-= Type 2 Type 3 x x = Type 4 x x Total Type 4 Aopaque 9. x Total .20. 4 roof x�I , Skylight Surface Winter Total Type Area. ft.2 U -Value Btu/hr °F Type 1 x v Type 2 x a Type 3 x = Total A 21. Total 22. skylight Total -'" Total Aor 23._ft2 Heating 24. line 19421 line 20f22 Uor 11ne24 1/he 23 Btu/hr-ttZ-AF 0 Page 2 of Form Date: �.-'�• COOLING DESIGN CRITERION Roof Surface Summer Ac Mc Total ; Type Area, ft2 U -Value Btu/hr Type 1 Z3. t5 x 4 1 x. 4� t� x EL -1c. x + .`J_ f I Type 2 x41 x x x = Type 3 x 41 x x x Type 4 x 41 x x x 4 Total x�I , - ;`�c). i i A 28. gpaQus Total. ,27. roott 11 Skylight Surface 8C Summer AT Total ! Type Area, ft .2 U -Value Btu/hr Type 1 x [{) 18. x )+( x ]_ Type 2 x [(L-18 x _) +( x Type 3 x•[(ti8x—)+( X-1 = Total 'f A 28. Total 28. s skylight Total i2 Total t E j' Aor 30. ft Cooling 31. line 26128 d' Une 27+29 F —7 OTTVro 32. line 31 line 30 Btu/hr-ft2 MATERIALS DATA FORM Pro)ect TItIe• 1-�- -C'TL� HEATING DESIGN CRITERION Floor Surface Winter Total Type Area. ft ? U -Value Btu/hr-9F Type 1 x _ - v Type 2 x a Type 3 x o Type 4 x �, Total Total Afloor44_ ft2 HeaUng45. Uof line 45 line 4 4 q 1 vol -C i f1�6 Btu/hr-rtz:OF Page 4 of Form 2 Date: Z� , LZ..--� x 51�8-1— Z1a--�,X, 443 d V n PROPOSED CONSTRUCTION ASSEMBLY BUILDING ENVELOPE COMPLIANCE Form". 3 (NR -8/81) Check one and write in construction assembly number below (e.g. Wall- f, Root -2, etc.) 131 Wali-)� ❑ Roof- . ,_...._:�. ❑ Floor- �. List of Construction Components R -Value 2 3, 4. 5. S. T. Sketch of Construction Assembly Framing type: If wood complete the following and ad/ust construction assembly for framing: Size: ' X .Spacing- O.C.. Indicate area, weight of construction assembly, and appropriate factors berow: ''Wall: Area ft2 Weight "1`2" Ib/ft3 MCF TDeq Roof: Area ft Weight Ib/ft3 Mc Ac Floor: Area ft 2 (raised only) Outside Surface Air Film Inside Surface Air Film Total Thermal Resistance (RT) U --Value (1/13T) ZS 3).T Cooling Heating' Joe, coo ing Heating Cooling Heathy .-�68 .3is Cony Heating Note: rota/ RT and U -Value must be adjusted for the effect of framing when appropriate. �~ PROPOSED CONSTRUCTION ASSEMBLY BUILDING ENVELOPE COMPLIANCE Check one and write In construction assembly number below (e.g. Wall -1, Roof -2, etc. ® Wall- 2_ ❑ Roof - El Fioor- List of Construction Components R -Value �y?j 2. L 3. 4. 5 Form-3 (NR -8/81) Sketch of Construction Assembly ' Framing type: It wood complete the following .and adjust construction assembly for framing: Size: X Spacing- 0. C.. r Indicate area, weight of 'construction assembly, and appropriate factors below: Wall:. Area ft2 Weight �)a... Ib/ft3 MCF TDeq Roof: Area f t 2 Weight _ Ib/ft3 Mc Heating Ac y� �-� Floor: Area ft 2 (raised only) Heating Outside Surface Air Film °� L> 17 Cooling Heating Inside Surface Air Film �9' . • 0 Coo !ng Total Thermal Resistance (R7) A'Li) CHeating �,1 , ,3 -!� Cooing Heating U --Value (1 /RT) y� �-� I Z- I Cooling Heating Note: Total RT and U -Value must be adjusted for the effect of framing when appropriate. PROPOSED CONSTRUCTION ASSEMBLY '.,`BUILDING ENVELOPE COMPLIANCE Form -3 '.' (NR -8/81) Check one and write in construction assembly number below (e.g. Wall -1, Roof -2, etc 4 Wall - 0 Roof - C1 Floor- ' Lis/t• of Construction Components R -Value 2. i�a CQ.-j►� 11,E 4. Sketch of Construction Assembly Framing type. If wood complete the following and adjust construction assembly for framing: Size: Z X 9 Spacing:____' O.C. Indicate area, welght of construction assembly,•and appropriate factors below: Wail: Area ft2 Weight lb/ft3 MCF TDe4 Roof: Area ft 2 Weight Ib/ft3 Mc Ac Floor: Area ft 2 (raised only) Outside Surface Air Film Inside Surface Air Film Total Thermal Resistance (RT) U -Value (1/RT) I (-Q!a Cooling Coo 11�6 Cooling Cooling Heating Heating Heating :day Heating. Note: Total RT and U -Value must be adjusted for the effect of framing when appropriate. PROPOSED CONSTRUCTION ASSEMBLY . BUILDING ENVELOPE COMPLIANCE Check one and write In construction assembly number below (e.g. Wall- 1, Roof -2, etc.) ❑ Wall - 0 Roof- y ❑ Floor- I lst of C t I Sketch of Construction Assembly Form 3 (NR -8/8 1) ons ruct on Components R -Value 1.. J _'T J RAS= I ► ` Z7 2..150 be - 3. z3. 1 t-1 S v L --.,A i 1 U ►-i 4. .mac) AC_.o3 5. 6. 7. 8. ��� ;�� , S Outside Surface Air Film Framing type: If wood complete the following Inside Surface Air Film and adjust construction assembly for framing: \ Size; Z X Total Thermal Resistance (R -T) Spacing • �` O.C_ T Indicate area, weight of cotrstrcict/on assembly, and appropriate factors below: Wall; Area ft2 Weight _ Ib/ft3 ' MCF TDe4 Roof: Area ft2 Weight Ib/ft3 Mc Ac Floor. Area ft2 (raised only) u -Value fes}- Ci. Z Coopng ,q z. cooling zz Cooling Cooling W Heating ,(�` Hosting -- 21 �a Heating Heating Note: Total RT and U -Value must be adjusted for the effect of framing when appropriate. a DOCUMENTATION FORM HVAC SYSTEMS COMPLIANCE (Complete for each system) Project Title l=C- yy � r _ Location h-�-"-� Ji i� ` y ..�- � CA Project Designer tom. ! FY�3" —) 1 V-1 L DESIGN CONDITIONS Form 4 (R-. 1 5/78) Documented by , Date Checked by Date Building occupancy type (Table 1 of Appendix 1) ........ ._a Project Latitude (Table 2 of Appendix 1) ........ Heating Degree Days (Table 2 of Appendix 1) ..... , ... , , (z ' -7— Outdoor Design Temperature, summer, dry bulb......... HEATING LOAD DOCUMENTATION (Attach calculations) OF Outdoor Design Temperature, summer, wet bulb......... -IS Outdoor Design Temperature; Winter ...... ,' 1 OF °F Indoor Design Temperature ...... . ................ G3 OF Transmission Heat Gain ... , ...:•µ�` Outdoor Air .. ........ ........ .. ... .. .... Stu/Hr• CFM Heat Loss From Outdoor Air........ •.............. ra`i t Btu/Hr. Btu/Hr. Temperature of adjacent unheated spaces .............. f OF Heat Gain for Process Air .. ............. Transmission Heating Losses ...................... ?� `-1 T ., Btu/Hr. 33 Infiltration Air ............................... I CFM Btu/Hr. Heat* Loss From Infiltration ....................... 81.1 1 Btu/Hr. Outdoor Air: Ventilation Air ............................... CFM Heat Loss From Ventilation ...................... (—U�t�t`a Btu/Hr. Outdoor Air for Special Processes. ........ .. _rr CFM Heat Gain From Outdoor Air ........... . . ... Heat Loss From Process Air. . , .. , , • , .. , . , , • , , , Btu/Hr. Btu/Hr. Other Heat Losses (describe) ....................... '`� Btu/Hr. Total Heat Losses ...... �'�`' Btu/Hi. COOLING LOAD DOCUMENTATION (Attach calculations) Outdoor Design Temperature, summer, dry bulb......... f,- OF Outdoor Design Temperature, summer, wet bulb......... -IS OF Indoor Design Temperature, summer, dry bulb .......... _A °F Indoor Design Temperature, summer, wet bulb .......... G3 OF Transmission Heat Gain ... , ...:•µ�` 1 Stu/Hr• Infiltration Air ............................... CFM Heat Gain From Infiltration ...................... 14r. Btu/Hr. Outdoor Air for Special Processes . .. .. .. .. .. .... .... CFM Heat Gain for Process Air .. ............. Btu/Hr. Solar Heat Gain Through Windows, etc ................ 33 Btu/Hr. Heat Gain From Lights, Equipment, People, etc.... ...... "< fa Btu/Hr. Heat Gain From Other Sources .................... Stu/Hr. Outdoor Air: Fixed Minimum Type System • CFM Per Person (Not to Exceed Tabulated Minimum Ventilation Rates) ... . , _ 1 CFM/Person Heat Gain From Outdoor Air ........... . . ... !� Btu/Hr. iv Page 2 of Form 4 i 't. j OLING LOAD DOCUMENTATION (Continued) System Utilizing Outside Air For Cooling CFM Per Person (Not to Exceed 33% of Tabulated Recommended Ventilation Rates) CFM/Person � 3 ,•' Heat Gain From Outdoor Air ...... .. .... .... Btu/Hr. Total Cooling Load ............. . Btu/Hr. .9• TEMPERATURE CONTROL :;,Attach manufacturer's data or other, give specification or drawing reference which shows in detail the following information: 3 REFERENCE x, (page or sheet No.) Ai �; s^ capability to sequence heating and cooling...... . „• temperature control device set point limits .................................. . - temperature set pont range between full heating and full cooling .......... . t o,_ setback and shutoff controls ........................... . • capability to terminate heating at 70°F and cooling at 78°F ... . , Indicate drawing or specification reference where the temperature control device requirements given below are documented. An automatic temperature control device shall be provided for: • • each separate HVAC system ..... I ..... • , . . ... 'o; each zone .................................'.................. ..... . SIMULTANEOUS HEATING AND COOLING The following requirements apply to the use of new energy and need not be complied with when recovered energy is used to control temperature. �In each case, when resetting hot and cold deck temperatures, one representative zone may be chosen to represent no more -than ten zones with similar heating or cooling requirements. Concurrent operation of independent heating and cooling systems serving common spaces must provide either or both of the controls given below. List reference specification page or drawing number where control requirements can be verified. REFERENCE • Sequential temperature control of heating and cooling systems ............... . • Automatic reset of heating temperature, to limit energy input only to that level to offset heat loss due to transmission and infiltration .......... Reheat systems — give reference specifications page or drawing number which will show compliance with the following when reheating 204' or more of the total air in the system, e When serving multiple zones, controls must automatically reset the cold air Supply to the highest temperature level of the zone requiring the most cooling .......... . e Single zone reheat systems shall be controlled to sequence heating and cooling ..... ..... . 'x C? -mac. 18 z 5,5o--1 v --1 01 k %4 N 7�4J- fes- b t. �v ->�� y ' ( '�.. �, �, 1 j 177)•-•---•-- ri; 72 0 Ci LL j 177)•-•---•-- ri; ti� C.�k �-c C-- :/ I.- '1. DUAL DUCT AND MULTIZONE SYSTEMS Page 4 of Form 4 Constant volume duct or multizone systems which utilize new energy to simultaneously heat and cool air streams which are subsequently mixed for temperature control are prohibited for buildings larger than 20,000 square feet of conditioned space. If used, the air leakage for dampers utilized for the mixing of heating and cooling air shall be limited to a maximum leakage of 3% of the total air quantity handled by the dampers when operating at the maximum system pressure to which the dampers will be subjected. Manufacturer's label or nameplate shall state leakage rates. REFERENCE Economizer Cycle — For each cooling fan system, for other than dual -duct or multizone systems, which serve zones having total cooling capacity greater than 134,000 Btu/hr or more than 5,000 CFM must have an economizer cycle unless one of the exceptions allowed is claimed. REFERENCE Electric Resistance Heating Systems — These systems shall not be used unless the total installed electric resistance heat does not exceed 10% (ten percent) of the annual heating energy requirement or a life cycle cost analysis, Form 8 (see Section 4.2 of this manual) shows an alternate system life cycle' cost exceeds that of the electric resistance system. Give reference if less than 10% or include Form 8 if calculating life cycle cost. REFERENCE MECHANICAL AND GRAVITY VENTILATION Mechanical ventilation — Dampers which are automatically interlocked and closed on fan shutdown are required. REFERENCE Gravity Ventilators — Either automatic or readily accessible manually operated dampers must be provided for all openings to the outside with the exception of combustion air openings. REFERENCE POWER CONSUMPTION IN FANS Constant volume system REFERENCE Total Supply Air Quantity ............................................. Z ~ CFM Total Pressure of Supply Fan ........................................... inches Water Total Supply Air Quantity Adjusted for Process Loads ........................... `�— CFM Total Gross Floor Area ................................................ f `� '` Sq. Ft. CA Net Fan Performance Index (FPI►......................................... Variable volume system Total Supply Air Quantity at Maximum Flow ................................. Total Pressure of Supply Fan at Maximum Flow • - Inches Water Total Gross Floor Area ................................................ Sq. Ft. Fan Performance Index at Maximum Flow (FPI m) .............. • , , .. , , , , • , , .. • , , CFM �} Variable Volume Adjustment Constant ...................................... Adjusted Fan Performance. Index, FPla.................................... . POW 6 of Form 4 i. PIPING AND DUCT INSULATION AND DUCT CONSTRUCTION ±' References to the piping insulation, duct insulation and duct construction requirements presented in Section 4.2 of the Energy Conservation Design Manual must be given below: _ REFERENCE _ ° ^. T w.�.. Cf� '`...., ter. . � • Y.J y� l'�. .� + � tQ... 7 Y ` ...+M µ��r'� �....� �..� MPJ �,.{ t~y I L✓ `� � a`1� x i J �—A p_ y `` 7% DOCUMENTATiON FORM Form 5 BUI LDING LIGHTING COMPLIANCE t Project Title Pro Documented by I Location L Date Project Designer Checked by. Date Room Room RCR Task Areas Note, Sq. Ft. No. So. Ft. Total Watts Allotted Design No. Sq. Ft. Ai)pl. /OCC. Occ. ,,rcsk Sq. Ft. '/Sq. Ft. Watts Watts Paqe Total -Sir CiZ F'T i J i—) J\, S J) C� 10 -zi S'- Z- Paqe Total iii w DOCUMENTATION FORM — LIGHTING COMPLIANCE PROJECT TITLE —_ Room Room RCR Task Areas Note Sq. Ft. No, Sq. Ft. Total Watts Allotted Design No. Sq. Ft. Aunl. /Occ_ (err_ /Task Sn Ft /Sn Ft Wath 1AI."t Page Total � . I-_-"6 -� Building Total Z `1 �L)c) (last'sheet only) L0OQ-\ 1 I i I I I I I . I I - I l-_ I I i I _ I I _ I I I I. I 1 I Page Total � . I-_-"6 -� Building Total Z `1 �L)c) (last'sheet only) DOCUMENTATION FORM f� + HVAC EQUIPMENT COMPLIANCE Form 6 References giving the specification page or drawing sheet nurnber or manufacturer's data must be submitted to demonstrate com- pliance with Division 6 of the standards. ELECTRICALLY OPERATED COOLING SYSTEM EQUIPMENT ABSORPTION WATER CHII._LING COOL -INC; SYSTEM EQUIPMENT COMBUSTION HEATING EQUIPMENT' (Oil and nas-fired comfort heating equipment-- ELECTRICALLY OPERATED HEATING HEAT PUMPS Standard rating capacity, Btu/hr MiniinurnaEER (COP) Reference Heat source (check one) Direct fired (gas -oil) Indirect fired (steam -hot water) Minimum EER (COP) Reference Minin L.101 combustion efficiency at inaximurn rated output Reference Minimum EER (COP) Reference Supplementary Heater Control Reference ELECTRICAL RESISTANCE SPACE REFERENCE FOR FULL -LOAD ENERGY HEATING EQUIPMENT INPUT AND OUTPUT. REQUIREMENT FOR MAINTENANCE FOR IMANUFACTURER'S MAINTENANCE AND, FULL AND PARTIAL_ CAPACITY AND STAND-BY INPUT(S) AND OUTPUT(S) SPECIFICATION REFERENCE OJ . v� J„.-t.�_.w..fw,.... .� • .-. .. .rr.Pt�-....a _...- ..•v ..v?.��», .,. t,�.- .., a„ . -<�a.r {r �,_F..,j.. �..., �t .l ,�er.`�.Ne�^'RC :�Y: jp"KFf_i ENGINEERING DATA 'GCS9 SERIES SINGLE PACKAGE UNITS COM�BNN STtON ALL SEASON - DX COOLING & GAS HEATING r------ —� ROOFTOP *34,000 to 55,000 Btuh Cooling Capacity Page 7 90,000 to 150,000 Btuh Input Heating Capacity September 15, 1982 *ARI Standard 210 Certified Ratings Supersedes 4-1-80 `. �.�--^r- `r-..�°'�' _,wry! ��t v't•�;f.��` * Highly Efficient All -Season Rooftop Units Provide Year -Round Energy Saving Total Comfort Systems The Lennox GCS9 series combination DX cooling and gas fired heating Separate supply and return air (double) duct or combination ceiling sup - units are provided in 3, 3-112, 4 and 5 on sizes with a choice of two heating ply and return air duct systems are applicable to the units. A choice of Q capacities. Application flexibility is virtually unlimited with the range of step-down or flush diffusers are available for combination ceiling supply heating -cooling capacities, voltages and accessories available. The insulated and return air distribution systems. single cabinet houses air cooled DX cooling, gas fired heating, powerful dual direct drive blowers driven by one high efficiency motor, cleanable air filters and optional POWER SAVER'" dampers or fresh air dampers. A01 Aluminized steel DURATUBE-' heat exchanger assures maximum service fife and heating efficiency. Gas power burner with automatic electric spark. ignition provides efficient and trouble free operation. Units are available for natural gas or LPG. Lennox augments its reliable operating components with a full complement of standard comfort and safety controls for both the heating and cooling systems. Thermostat must be ordered extra. Also available is a separate optional roof mounting frame that mates to the bottom of the GCS9 unit and when flashed into the roof permits weatherproof duct connection and entry into the conditioned area. No ad- ditional roof curbing or flashing is required. Rooftop Installation with Combination Ceiling Supply and Return Air System The design of the units are A.G.A. certified as combination heating -cooling units for outdoor installation. Heating ratings are according to Department of Energy (DOE) test procedures and Federal Trade Commission (FTC) label- ing regulations. Complies with ANSI safety codes. Cooling system has been thoroughly tested and rated in the Lennox environmental test room ac- cording to ARI Standard 210 Test Conditions and DOE test procedures. In addition, units have been sound tested in the Lennox reverberant sound test room according to ARI Standard 270 Conditions. Units coming within the scope of this Standard (135,000 Btuh or less) are certified under the ARI Certification Program. DOE covered products are rated under 65.000 Btuh with single phase power input. Units and components within are bonded for grounding 'to meet safety standards for servicing required by U.L. and NEC. Each unit is test operated at the factory to ensure proper and dependable operation and shipped completely assembled. Typical Applications Rsa NOTE -- Specifications, Ratings and Oimensinns suhi.xt to chanoe without notice Rooftop Installation with Double Duct Air Distribution System GCS9-510 AND GCS9-650 SPECIFICATIONS Model No. GCS9.511-120 GCS9-511-150 GCS9-651-120 GCS9-651-150 GCS9.513-120 GCS9-513-150 GCS9-653.120 GCS9.653-150 Heating capacity input (Btuh) 120.000 150,000 120,000 150,000 THeating capacity output (Btuh) 93,000 114,000 93.000 114,0)0 tA.F.U.E. 77.4% 76.1% 77.4 au 76.1% Gas piping connection mpt (in.) Natural 112 1!2 1 2 1/2 "LPG 1/2 1/2 1'2 1/2 Recommended gas supply pressure (wc - in.) Natural 6 6 6 6 "LPG 11 11 11 it "Optional LPG changeover kit LB -38727A LB -38727A * ARI Standard 270 SRN 21 Y0 'ARI Total cooling capacity (Btuh) 47,000 55,500 Standard Total unit watts 5800 6800 210 ttSEER (Btuh/Watts) — 1 phase models only 8.3 8.2 Ratings tttE.E.R. (Btuh/Watts) — 3 phase models only 8.1 8.15 Dehumidifying capacity 25% 27% Re'v:gerant IR -22) charge 10 lbs. 14 lbs. Evaporator Blower I Blower wheel nominal diam. x width (in.) (2) 10 x 6 (2) 10 x 6 Motor horsepower 3/4 3/4 Evaporator Coil Net face area (sq. ft.) 5.73 6.51 Tube diam. (in.) & No. of rows 1/2 — 3 1/2 — 3 Fins per inch 13 13 Condenser Net face area (sq. ft.) 15.0 15.0 Coil Tube diam. (in.) & No. of rows 3/8 — 2 3/8 — 3 Fins per inch 20 20 Diameter (in.) & No. of blades 24 — 4 24 — 4 Condenser Fan Air volume (cfm) (factory setting) 4000 4000 Motor horsepower 1/4 1/4 Motor watts (factory setting) 375 375 rj, nber & size of filters (in.) (2) 20 x 20 x 1 (2) 20 x 20 x 1 Condensate drain size mpt (in,) 3/4 3!4 No. of packages in shipment 1 1 Net weight of basic unit (lbs.) 785 835 Optional Roof Mounting Frame — (Net weight) RMFG9-65 044 lbs.) RMFGH9-65(220 lbs.) OD-ional Power Saver & Controls — (Net weight) PSDG9-65 (43 tbs.) 0o-�onal Ceiling Supply & Return Step -Down Diffuser — )Net weight) RTD965 (67 lbs.) Onttonal Ceil:ng Supply & Return Flush Diffuser — (Net weight) FD9-65 (33 lbs.) Optional Minimum Fresh Air Dampers (Automatic) — (Net weight) no. & size of filters (in.) OADG9.65 (53 lbs.) (1 — 26 x 31 x 1) Gotronal Minimum Fresh Air Damper (Manual) — (Net weight) OAD3.46/65 (7 lbs.) G�:,onal Ceiling Supply & Return Transitions — (Net weight) SRTG9-65 (25 lbs.) .S:,und Rating Number in accordance with ARI Standard 270. 'Rased in accordance with ARI Standard 210; 450 cfm (maximuml evaporator air volume per ton of cooling capacity, 95F outdoor air temperature and 80F db/67F wb ertering evaporator air. �G kit must be ordered extra for field installation. *Annual Fuel Utilization Efficiency based on DOE test procedures and FTC labeling regulations. r Seasonal Energy Efficiency Ratio based on DOE test procedures. t t lnergy Efficiency Ratio in accordance with ARI Standard 210. HIGH ALTITUDE DERATE Elevation Above Sea Level (Feet) Maximum Heating Value (Btulh') 5001 — 6000 900 4001 — 5000 950 3001 — 4000 1000 2001 --- 3000 1050 Sea Level --- 2000 1100 sn If the heating value of the gas does not exceed values listed in the table, derating of the unit is not required. Should the heating value of the gas exceed the table values, or if the elevation is greater than 6,000 feet above sea level it will be necessary to derate the unit. Lennox requires that derate conditions be 4% per thousand feet above sea level. Thus at an altitude of 4000 feet, if the heating value of the gas exceeds 1000 Btulh3, unit will require a 16% derate. Al AM r.. ELECTRICAL DATA GCS9410 AND GCS9-460 ELECTRICAL DATA Model No. GCS9-411 GCS9413 GCS9461 GCS9463 Line voltage data t208.230V 60hz/1ph 208.230V 60hzl3ph 460V 60hz13ph T208.230V 60hz'lph 208-230V 60hzi3ph 460V 60hz13ph Compressor Rated load amps 16.8 10.8 5.6 20.2 12.8 6.7 Locked rotor amps 75.8 65.0 32.0 93.0 74.0 41.0 Condenser Fan Motor Full load amps 1.9 1.9 1.9 1.9 1.9 1.9 Locked rotor amps 3.3 3.3 3.3 3.3 3.3 3.3 2 KVA Transformer (FLA) -•-- ---- 4.35 ---- ---- 4.35 Evaporator Blower Motor (230 volt) Full load amps 4.0 4.0 4.0 4.0 4.0 4.0 Locked rotor amps 7.8 7.8 7.8 7.8 7.8 7.8 Recommended maximum fuse size (amps) 40 30 15 40 30 15 Unit Power Factor .94 .87 .87 .91 .87 .87 *Minimum Circuit Ampacity 26.9 19.4 10.0 1 31.2 1 21.9 11.3 *Refer to National Electrical Code manual to determine wire, fuse and disconnect size requirements. NOTE - Extremes of operating range are plus and minus 10% of line voltage. tPlus 10% and minus 5% of line voltage. GCS9-510 AND GCS9-650 ELECTRICAL DATA Model No. GCS9-511 GCS9.513 GCS9-651 GCS9 653 Line voltage data t208 -230V 60hzllph 208-230V 60hz/3ph 460V 60hz13ph 1208-230V 60hz1ph 208-230V 60hz/3ph 460V 60hzl3ph Compressor Rated load amps 24.3 15.1 7.4 27.5 16.4 8.2 Locked rotor amps 95.4 78.2 38.7 1 145.0 120.0 60.0 Condenser Fan Motor Full load amps 1.9 1.9 1.9 1.9 1.9 1.9 Locked rotor amps 3.3 3.3 3.3 3.3 3.3 3.3 2 KVA Transformer (FLA) 4.35 ---- ---- 4.35 Evaporator Blower Motor (230 volt) Full load amps 6.0 6.0 6.0 6.0 6.0 6.0 Locked rotor amps 12.8 12.8 12.8 12.8 12.8 12.8 Recommended maximum fuse size (amps) 60 40 20 60 40 20 Unit Power Factor .95 .91 .91 .94 .91 .91 *Minimum Circuit Ampacity 38.3 26.8 13.2 42.3 28.4 14.2 'Refer to National Electrical Code manual to determine wire, fuse and disconnect size requirements. NOTE - Extremes of operating range are plus and minus 10% of line voltage.. tPlus 10% and minus 5% of line voltage. OPTIONAL OAD3-46/65 MINIMUM FRESH AIR DAMPER 15.718-1 t FRONT VIEW 314 I INCH- FIBERGLASS •' INSULATION / MANUAL \ DAMPER ASSEMBLY \ .� •. AIR t FLOW SIDE VIEW FIELD WIRING -------, i DISCONNECT THERMOSTAT i SWITCH I ►--- E1ro11fumishedlen 1 � L eT ) J seow PACKAGE UINT f-- --1 (OPTIONAL REMOTE I jSTATUS PANEL i L - - - - -- � A - 'Four Wire Low Voltage - (not furnished), 'If POWER SAVER and two stage cooling thermostat are used one additional wire is required. B - Two or Three Wire Power - (not furnished) See Electrical Data C - Seven Wire Low Voltage - (not furnished) NOTE - All wiring must conform to NEC and local electrical codes. r• 12 - C (10 DIMENSIONS (inches) CORNER WEIGHTS (Ibs.) Model No. A B C D GCS9.411-413 205 210 184 180 GCS9-461-463 210 207 199 202 GCS9-511-513 211 208 203 206 GCS9-651-653 217 207 222 232 NOTE - Corner weights are for,GCS9 unit with PSDG9.65 Power Saver installed. 1.1!4 © E 01 !© CONDENSER r r------ �� FAN GUARD '- BLOWER ,♦; ;, ' ,v1 / HEAT; OPTIONAL I � CONDENSER POWER SAVER ,.__Lam _ ' EXCnHANGER � c, � � %� INTAKE �O' ^I AIR i BLOWER i000 t!_U-1_'rj. CENTER` I� CONTROL ' GRAVITY BOX 8-1141 -ti CONDENSER -�-- I :' ' ' FAN --- � , ,r- --� 106 A VENT OUTLET 4-3.4 n 0 ; O jj if �-23-114 25-314--i18-112 CONDENSER LIFTING LUGS INTAKE PLAN VIEW AIR ELECTRICAL INLETS o — o RETURN AIR END VIEW 23-114 - 85 CENTER OF GRAVITY (in.) Model No. E F GCS9.411-413 45-3,8 20-14 GCS9-461-463 43-1!4 20-58 GCS9-511.513 44 20.5.8 GCS9-651.653 41 21 NOTE - Dimensions are for GCS9 unrt with PSDG9-65 Power Saver installed. 3 f3 3 -- 29 so 13-112 3.1!2 28 28 RETURN SUPPLY AIR AIR OPENING OPENING TOP VIEW -BASE SECTION r 1-1!4 4-314 19 64.3!4 CONDENSER 7 41 LIFTING LUGS VENT OUTLET gEXHAUST/\ . / Zf AIR 17 RETURN I01 rSUPPLY IU AIR AIR I IOPENINGI i0i1OPENINGi y LJ i' - "¢' 37.3!4._. I J¢I) I IZ OPTIONAL • ♦ BLOWERS r ---r Oi' ' w POWER SAVER ¢i4 CONDENSER �y; COMPRESSORI INTAKE \� tE ..... ..�. iZ AIR S X <=.,•.. BURNER r!'{iCONDENSATE 15-118 DRAIN 1 'FILTER � 6,3!4- J_~ '��J^ RETURN AIR � 11 A — CCS9410 OUTDOOR AIR —GAS SUPPLY 9—GCSS480 ' 19-114 INLET SUPPLY AIR 6',' GCS9-s10 4 3 1 fo 2 1—Gcs"50 CONDENSER END VIEW FRONT VIEW INSTALLATION CLEARANCES (inches) 360� a Am F_1,11z111ZL11A1 45 1 NOTE — Top Clearance Unobstructed. —13— TYPICAL FLASHING FOR RMFG9 ROOF MOUNTING FRAME GCS9 SIDE' PANEL MOUNTING FRAME (Extends around entire perimeter of GCS9 unit.) NAILER STRIP (furnished) COUNTER FLASHING-__----- (not LASHING/(not furnished) CANT STRIP (not furnished) , ROOFING MATERIALS �-2 BASE 14 RIGID - INSULATION (not furnished) RETURN I01 rSUPPLY IU AIR AIR I IOPENINGI i0i1OPENINGi y za rn I J¢I) I IZ FLCc U oa I I I I Igll t j �----1 LJL -- It \ CONDENSER COIL Am F_1,11z111ZL11A1 45 1 NOTE — Top Clearance Unobstructed. —13— TYPICAL FLASHING FOR RMFG9 ROOF MOUNTING FRAME GCS9 SIDE' PANEL MOUNTING FRAME (Extends around entire perimeter of GCS9 unit.) NAILER STRIP (furnished) COUNTER FLASHING-__----- (not LASHING/(not furnished) CANT STRIP (not furnished) , ROOFING MATERIALS �-2 BASE 14 RIGID - INSULATION (not furnished) C C 0 U* 19 COOLING RATINGS NOTE - To determine sensible capacity, leaving wet bulb and dry bulb temperatures not shown in the tables, see Miscellaneous Engineering Data section, Page 9. GCS9-411-413 COOLING CAPACITY GCS9-461-463 COOLING CAPACITY Outdoor Air Tem erature ntering Condenser Coil °F Condenser Coil (°F) Total Enter. 85 85 85 95 1 95 95 105 105 105 115 115 Enter. Wet Air Total Comp. Sensible Total Toial Comp. Sensible Comp. Total Comp. Sensible Comp. Total Comp. Sensible Bulb Vol. Cool Motor To Total Cool Motor To Total Cool Motor To Total Cool Motor To Total (°F) (cfm) Cap. Watt's Ratio S!T° Cap. Watts Ratio Cap. Watts Ratio (SIT) Cap Watts Ratio S!T Dr Bulb 1°F) IBtuhl Input Dr Bulb F (Btuh) Input Dr b (O Bulb f F (Btuh) Input Dr Bulb F) IBtuhl Input Dr Bulb 'F 80 84 1200 34,900 2910 76 .82 80 84 .95 1.001 33.000 3110 76 .84 80 84 .98 1.00 31.000 3310 76 .87 80 1.00 1.00 29,300 3530 76 .90 80 1 84 1.00 1.(X) 39.400 63 13501 35,600 2930 .85 .99 1.001 33,6W 3130 .88 1.00 1.CCj 1 31 300 3350 .91 1.00 1.00 30,100 3570 95 1.00 100 .85 150011 36,200 2950 .89 1.00 1.W 134, 3(A 3160 .92 1.00 I.W11 32,500 3380 .95 1.00 1.00 1.00 1140,900 1 3610 .99 1.00 1.On .W.' 39S00 4,16.88 1200 11 37.100 2970 .63 .76 .88 1 34.9W 3180 .65 .78 .9211 32,700 3390 .67 .1.001130,700 .81 .95 H 30.7(0)0 3500 .69 .84 .99 67 1350 27,600 2980 .66 .79 .93 1 35,30 3190 .67 .82 % 11 33,200 341 Q 69 .85 99 31,100 3620 .72 ..88 1.00 .82 1 .9611 1500 38,000 2990 .68 .82 .97 35 700 3210 70 .85 1.00 33,500 3120 .72 .89 1.00 31 400 3W 74 .92 1:CY? 33 » A 1200 39,600 3040 .47 .59 .71 37 200 3260 .48 .60 .73 35.000 3480 .48 .62 .75 32 700 3710 .49 64 .78 71 1350 40,100 3050 .48 .61 .74 37 600' 3270 .49 .62 .76 35,-300 3500 .50 64 .79 33 000 3730 .51 .66 .82 .49 1500 40 400 3060 ..49 .63 .77 38 000 3280 .50 .65 .80 35 600 3510 .51 .67 .83 33 300 3740 .52 .69 .86 GCS9-461-463 COOLING CAPACITY GCS9-511-513 COOLING CAPACITY Outdoor Air Temperature Enterinq Condenser Coil (°F) Enter. Total 85 85 1 1 95 95 1 105 105 115 Wet Air Total Comp. Sensible Total Total Comp. Sensible Total Comp. Sensible Sensible Total Comp. Sensible Bulb Vol. Cool Motor To Total Cool Motor To Total Cool Motor To Total Cool Motor To Total (°F) Icfml Cap. Watts Ratio S/T Ca p' Watts Ratio S/Tl Ca p' Watts Ratio (S/T) Cap. Watts Ratio (S/T) Cap. Watts IBtuhl Input Dr Bulb 1°F) (Btuh) Input Dr Bulb (°Fl IBtuhl Input D Bulb °F) IBtuhl Input pr Bulb (°F) ° (Btuh) Input D 76 80 84 Input ° D Bulb F 76 80 84 I Dr Bulb (°F) 76 80 84 76 80 84 1400 41,400 3340 .80 .93 1.00 39.400 3630 .82 .95 1.N 37,400 3900 .84 .98 11.00 35.200 4160 .87 11.00 1 r0 63 1575 1 42,200 3370 .83 .97 11.00.140,300 .80 3650 .85 .00 138.100 3910 .88 1.00 1.00 36 100 4210 .91 1.00 1.00 63 1750 42 700 3380 .86 1.00 1.00 1140,900 .99 3650 .89 .W.' 39S00 4,16.88 3980 .91 1.00 1.00H 37.000 4250 .95 1.00 1 0'0 42.200 1400 44,300 3430 .62 .74 .86 42 100 3730 .63 1139.700 4010 .65 .78 1 .91 1137,300 .87 4270 .67 .81 .95 67 1575 45,000 3450 .64 .77 .90 42 600 3750 .65 .79 .93 11 40,200 1 4030 .67 .82 1 .9611 37,K10 4290 .69 .85 .99 .74 .86 1750 45,600 3460 .68 .80 .93 43.200 3770 .69 .81 1.97 I 40,800 1 4070 .71 .86 1400 33 » A 4330 .72 .90 1.00 50,100 1400 47.600 3530 .46 .57 .69 45 100 3840 .47 .59 .70 42,500 4130 .47 .60 .73 39 900 44W .48 .62 .75 71 1575 48 300 3550 .47 .59 .72 45 700 3860 .48 .61 .73 43 000 4150 .48 .62 .76 40 300 4420 .49 .64 .78 1600 1750 48 700 3570 .48 .61 .74 4& 200 3870 .49 .63 .76 43 400 4170 .50 .64 .79 40,700 4440 .51 .66 .82 GCS9-511-513 COOLING CAPACITY GCS9-651-653 COOLING CAPACITY Outdoor Air Temperature Outdoor Air Temperature Enterinq Condenser Coil (°F 85 85 1 95 95 1 105 105 115 115 Total Air Total Enter. Total Air Total Comp. Sensible Sensible Total Comp. Sensible Total Total Comp. Sensible Total Comp. Sensible Wet Bulb Vol. Cool Motor To Total Cool Motor To Total Cool Motor To Total (°F) Cool Motor To Total (°F) (cfm) Cap. Watts Ratio IS/ Watts Cap. Watts Ratio IS/ Cap. Watts Ratio IS/T Input Cap. Watts Ratio (S/TI Dr Bulb (°F) IBtuhl Input Dr Bulb (F ° (Btuh) Input D ° Bulb (IF) IBtuhl Input ° D Bulb F IBtuhl Input Dr Bulb (°F) 76 76 76 76 80 1 84 2000 1 76 5060 .77 .89 1.110 54,2C0 76 >tn 84 .91 I.Lk)ll 1600 4dBOWO 4280 .78 .91 .99 46 200 4620 .80 .93 .99 43 800 4950 .83 .96 .99 4', 100 52 A 85 .99 .99 63 18W 44320 49.700 .81 .94 .99 47.200 4660 .84 .97 .99 44 500 4990 .86 .99 .99 42.200 5310 .89 .99 .99 1.00 1.00 1 2000 54340 .90 .84 .98 .99 47.900 4690 .87 .99 .99 45,600 5030 .89 .99 .99 -13.200 5:60 .93 .99 .99 6380 1600 54410 67 .61 .73 .84 49,4W 4760 .62 .74 .86 46 &N3 5090 64 .77 .89 43.800 5390 .65 .79 92 67 1800 54430 62,500 .63 .75 .138 ' 50,100 4780 64 .77 .90 47,300 5120 .56 SO 93 44,100 420 .68 83 .97 2000 2000 54360 .46 .65 .78 .91 50 700 4810 .66 S0 .94 47.800 5140 .68 .83 97 41800 5440 .70 .86 .99 5100 1600 54540 62 71X) .45 .56 .67 53.100 4900 .46 .57 .69 50 000 52.30 .47 .59 .71 46 800 5550 .47 .60 .73 71 1 54570 .48 .46 .58 .70 53 7CU 4930 a7 .59 .72 50,600 5270 .48 .61 .74 147,300 5570 .49 .fi3 77 2000 57,500 4590 .47 .60 .72 54,300 4950 48 .61 .75 51 1 5290 .49 .63 .77 .17 80() 5590 .65 .80 GCS9-651-653 COOLING CAPACITY Outdoor Air Temperature Entering Condenser Coil (°F 85 1 95 1 105 115 Enter. Total Air Total Comp. Sensible Total Comp. Sensible Total Comp. Sensible ' Total Comp. Sensible Wet Bulb Vol. Cool Motor To Total Cool Motor To Total Cool Motor To Total Cool Motor To Total (°F) Icfm) Cap" Watts Ratio S; T) Cap. Watts Ratio (S/T) Cap. Watts Ratio (S,'T) Cap. Watts Ratio ISM IBtuhl Input Dry Bulb °F (Btuh) Input Dr Bulb (°F) (Btuh) Input Dr Bulb (°F) (Stuh) Input Dry Bulb (°F) 76 76 76 76 80 1 84 2000 1 57,000 5060 .77 .89 1.110 54,2C0 5.3-30 .79 .91 I.Lk)ll 51.6W 5810 .81 .94 1.00 49.000 6170 .83 .97 I.CX). 63 2250 11 58.000 5110 .80 .93 I.QX-111 55 200 15490 1 .82 .95 t.Xv I 52.6W 1 5870 .84 .98 1.001 49.700 6220 .87 1.00 I.O() 250011 59,000 5160 .83 .9ti 1.00 % 200 55.30 .85 .99 I.00 I 53 40X) 5920. .88 1.00 1.00 1 51,000 6-310 .90 1.00 1.t>L) 2000 1 60,900 5260 .61 .72 .33 57 9(V 5640 .62 .73 .85 1 r,4.900 60'20 .63 .75 .87 52.200 6380 .64 .77 .9X) 67 2250 61 700 5300 .62 .7.1 .96 7CU 5ti30 a3 .76 U 55 700 ti0ti0 .65 . JS 91 52.900 6420 .66 .80 .94 25W 62,500 1,140 .6-1 .77 .90 59.4(X) 5720 .65 .79 92 400 6110 .67 .91 .95 1 ti.50k3 6160 69 .83 .9d 2000 65,000 5660 .46 .56 .67 tit 9 )0 5860 ..46 .57 .6i1 58 tvo ti25U d7 .58 .70 55 900 6610 .47 .5? 72 71 2250 65.900 5100 .46 .513 69 62 71X) S,,W .47 59 .71 5;) 6 011) 62�?V 47 bU 73 56 500 titi50 .48 .61 75 500 66 600 5730 .47 .59 .72 63 400 5930 .48 .61 .74 60 200 6320 .48 .62 .76 57 100 6f30 .49 .ts3 .79 1� IIF SSU,✓ CAB,ivE��� - !1 Zx1—x33xzo,000 C4. /;n x 3 ,_ . /3 %, x ,�¢ ,, L S = • zs %�T 3 l _ 1 I ( # �# I 4 IFIL 4. 14 A ,- 2: ALL HOLES DRILLED OR PUNCHED. f iA SOIL: i1:PE-SAND, 31LTEYSAND, CLAYEY SAND, 1� IIF SSU,✓ CAB,ivE��� - !1 Zx1—x33xzo,000 C4. /;n x 3 ,_ . /3 %, x ,�¢ ,, L S = • zs %�T 3 l _ 1 I ( # �# I rxrxWCOP .L wu&um . "mallo ft=.TM Si/E 6 % /tJC0VE,2 0 0 NCAETE PA D �oMPA�-TED /✓AT(i�'AL ADE CUSTOM HOMES BERNARD C. ADAMS civil engineer `tv \\# r C.E. 10183 �-11022 ACACIA PARKWAY ti y I O QUIA41"A SUITE E - (� ONCi2ET OTq..l." l...., ,.li(.r"i. 12640 Community DeV'e �opn�entl6dg. Ell'ft. Phone X71<) 636.029 tZ 1 ACCEPTED FOR CONSTRUCTION ..gRfR M M l.�.mlR MO M..tl MO'f K K/o0 1 SUBJECT TO INSTALLATION AS PER • - ma•.panM opmen *r.IL C. ADAMS, c _ - _ _ __-- - =•- PLA M VOID W"b01'•---_ — --- __.. INK SIGNATURE AND ALL -APPLICABLE CODES - DATE ' t -gy - •' • -; ;e..b S r-' _ y scum 6.0, - PIPE GRADE "B" A.S.T.M. A-53, TYPE L ` OR 3, OR A.P.I. STANDARD SL GRADE B. MIN- IMUM YIELD STRENGTH 35.000 P.S.I. 2: ALL HOLES DRILLED OR PUNCHED. f 3. SOIL: i1:PE-SAND, 31LTEYSAND, CLAYEY SAND, GRAVEL AND CLAYEY GRAVEL OR ROCY. _ 6. FOOTING -2,000 P.3.I. CONCRETE. i S. ALL STRUCTURAL STEEL A.S.T.M. A-36 MIN:-_ MUM YIELD. STRENGTH 36,000 P.S.I. ' 6. FABRICATION, ERECTION AND PAINTING OF STRUCTURAL STEEL SHALL CONFORM TO U.I.,% i STANDARD NO. 27-2-67. 7. WELDING WILL BE PERFORMED BY CERTIFIED _ WEL)ERS UNDER THE SUPERVISION OF A SPECIAL INSPECTOR OR'IN THE SHOP OF All APPBOVE1) FABRICATOR. 8. A CERTIFICATE OF FABRICATION FROM TEN:: SHOP PERFORMING THE WELDING OR A RE•• ti ?/ 1C Z„ X &T Y �qCEC PORT FROM THE SPECIAL INSPECTOR MUST BE FURNISaD TO THE JOB INSPECTOR PRCOR TO FRAMING APPROVAL. 1 9. FLAMNIB.ILITY OF PLASTIC UTERIAL ?N SIC`; l'_LL' COMPLY WITH THE U.B.C. STAN - s NcF-,7-IL-5'yN Cl19/i✓ET 10. DAiiD NO 52-2-58 AND SECTION 6202 (F). IDENTIFYING NUMBER AND WEIGHT OF SIGN WILL BE PLAINLY PLACED. ON EXTERIOR SURFACE OF SIGN BODY AS OUTLINED It: SECTION 6202 )I). 11. :EOVIDE TEMPOP.ARY' PEDESTRIAN PP.OTEC 1 TION AS OUTLIVED I1: CHAPT%R 44. .12. ALL STEEL 3/16” THICK AND UNDER MUST S•E % GALVANIZED. i/ 13. VEEIFY ALL CONDITIONS rxrxWCOP .L wu&um . "mallo ft=.TM Si/E 6 % /tJC0VE,2 0 0 NCAETE PA D �oMPA�-TED /✓AT(i�'AL ADE CUSTOM HOMES BERNARD C. ADAMS civil engineer `tv \\# r C.E. 10183 �-11022 ACACIA PARKWAY ti y I O QUIA41"A SUITE E - (� ONCi2ET OTq..l." l...., ,.li(.r"i. 12640 Community DeV'e �opn�entl6dg. Ell'ft. Phone X71<) 636.029 tZ 1 ACCEPTED FOR CONSTRUCTION ..gRfR M M l.�.mlR MO M..tl MO'f K K/o0 1 SUBJECT TO INSTALLATION AS PER • - ma•.panM opmen *r.IL C. ADAMS, c _ - _ _ __-- - =•- PLA M VOID W"b01'•---_ — --- __.. INK SIGNATURE AND ALL -APPLICABLE CODES - DATE ' t -gy - •' • -; ;e..b S r-' _ y scum 6.0, - Rvo Ala 1SV:)I1ddb 1111®N!tl �- _ poHtlM gion srrvia o :UrAiMS'- »3d St1 a`` NOUN a+a� » t+ww a.v tirn.or� su �o wso.� su m► nw„ A SIA" "m fr tarso xsu A' : '( ; r „ l l woo 1 (� t6zo-9E9 (tit! ZUQ4d '��', OYfL6 �!.A*1!i*a •O.?,i ■•pit D k 0 I i ~ AYNI)18Yd YI0YJ/ iLOTL '� - ) ---� N ) Z ESiOT '3'O ' ^ I 1 • laaUISUO j!A13 Swvdd M1VNb38 S3WOH V'101SI13 7y,)►n1bpv Q9171sdwo0 Q Fid( Vt 0 J ��i1 D J �7 oQ/ '7119 (�/ 19 3ryS I I N �� sz • = s ,, /� x bz �517 fit o), -t ' I 000'o'tx 6611-Z '?vv 2/S i�3 iii a i- _ i_ I r, T - �di� •Ql, •� �l� y SNOIZIa::00 17Y w3IM '(T • • 'a3ZIVYA71f7 :r3 I,StIU 2:QNn aNY ):oni 91/C 7331S 77Y 17-11 'qq H2ZdYr70 NI a3NI1I1no SY NOIZ J31OHd NYIH1,3a3d XU'riOdW3J, 3GIAOZr 'IT zoz9 I:0I103S !I a3aI'I.LnO SY XC09 NOIS 30 30YiUnS HOIU3ZX3 NO 'O30Y7d X7NIY'ld 39 'MA I+DIS dO LH0I31A aNY H3GwnN !)NIz3IZN2QI 'OI g/%, /1? /vE7S-7 f11-:31 N (3) ZOZ9 NOI103S aNY 95 -Z -Z5 ON m2va -NY.LS '0'9'n 3H.L HZII1 ,:oIs . X! iYIU3ZYU OILSY7d 30 JLLI7ISIUUY73 '6 "IYAOHddY ONIUYU3 OZ Holva UOZ03dSNI £Of 31Z OZ QMISIII'd(L3 33 TSnU 110103dSNI 7YI03dS Td.L UGH3 LUOJ •'3H Y HO ONIa'131A 3RZ ONIUUOSHU dOHS .::H.L UOSd NOI.LY0IH9Y3 30 3.LY31a_UH30 V. '8 'BOZYJIHflvs U"J__AOsJJY I;Y 30 dOHS 3HZ NI. UO U0103JEHI 'IYI03dS Y 30 NOISIAIMTOS 3U 23QNn S113a73A o3I3IZH30 x9 a3uwalf3d 39 17IA OHIa73A •� 'L9 -Z -LZ 'ON GUYCHYSS .:'' w n ox UU03N00 7'IYHS 'I331S 'IYUM311UZS JO ONIZNIYd aNY NOIZ03H3 'NOILY0I119Yd '9 •I•S'd 000'90 HZON31d.LS a73IJ Wnu :11a t 9C'Y 'W'Z' S' Y 'I331S 7YHI1LOnvxc 77Y 'S ' 2XTd3NOO ' I' S' d 000' Z�)IXZOOd .' '7(OOB NO 73AYU1 x31170 (THY Z3AY8O x31170 'CXYSx3Z7IS 'GHYS-3dx: 7I09 -C ' a3Homu Ii0 a3I7INa silo$ 77Y oz 'I'S'd 00050 UDH3IIZS MIX xnuI -HIR '9 3aY80 K a81aNYZS 'I'd•Y ao 's Ho 7 2JXX ''C5 -Y •1('Z'S'Y .6„ 3aYV0 3dId 7'LL__'1 S3Z0 I I N �� sz • = s ,, /� x bz �517 fit o), -t ' I 000'o'tx 6611-Z '?vv 2/S i�3 iii a i- _ i_ I r, T - �I -ir L- 9== �� ����FR C3 ")K �������% -T* I C3 P4ic� F -R e: #nk JOHN H. HACKER, CIVIL ENGINEER, PALM SPRINGS LATITUDE 33.8 WINTER TEMP. 31 DEG. SUMMER TEMP. 110 DEG . OWNER ------------------------------------ JOB SITE LOCATION AREA BLDG 1496 SQ. FT. PERIMETER 160 SQ. FT. INSULATION R VALUES ...SLAB 19 ...CEILING 38 ...WALL 5 ... AREA NORTH WINDOWS O BQ.FT. PERCENT'OF AREA0 ' AREA.EAST,WINDOWS 0 SQ.FT. PERCENT OF AREA 0 AREA SOUTH WINDOWS 0 SQ.FT. PERCENT OF AREA 0 AREA WEST WINDOWS 120 SQ.FT- PERCENT OF AREA 8.02139 AREA SKYLIGHTS 0 SQ.FT. PERCENT OF AREA 0 TOTAL WINDOW AREA 120 SQ.FT. PERCENT OF AREA e.0210 ' ' THE U VALUE OF THE WINDOWS IS 1.1 ( 65 DUAL PANE 1 1 , , = , . = SINGLE." PANE) � THE TOTAL S.C. OF THE WINDOWS IS 0.80 SOUTH OVERHANG LENGTH 8 INTERIOR THERMAL MASS AREA = 0 SO FT ATTIC AREA = 1496 SQ FT INFILTRATION (STD 0.00, MED 0.014, TIGHT 0.012) ' .014 HEATING LOSSES FOOTING LOSSES... 0 BTU CEILING LOSSES... 1477.06 BTU WINDOW LOSSES... 5148.BTU WALL LOSSES.... 6960 BTU INFILTRATION LOSSES... 6534.53 BTU TOTAL HEAT LOSSES BTU/HR... 20119.6 GAS FURNANCE SIZE 63080.9 BTU OR 45,000 BTU COOLING LOSSES FOOTING LOSSES... 0 BTU ' ^CEILING LOSSES... 1514.94 BTU WINDOW LOSSES... 10309.2 BTU WALL LOSSES.... 7138.46 BTU INFILTRATION LOSSES... 6702.08 BTU 60. OF'PEOPLE... 14 COOLING LOSAES...'5600 ~ ~ KITCHEN... 1500 BTU ' � DUCT LOSSES,INCLUDED IN TOTAL ' TOTAL COOLING LOSSES ~ 32764 7 BTU � � BTU w e•� T4ht 1 4 4aQ" 78-105 CALLE ESTADO — LA QUINTA, CALIFORNIA 92253 - (619) 564-2246 April 3, 1986 Steve Barrett, Vice -President Landmark Real Estate Company 74-399 Highway 111, Suite z Palm Desert, CA 92260 REGARDING: Plot Plan No. 85-210, Two Temporary Real Estate Signs at Plaza La Quinta Shopping Center Dear Mr.'Barrett: This letter is to report approval of the modification of the two temporary real estate signs located at Plaza La Quinta in accordance with the attached revised Exhibit "A". No building permit will be required for the mounting of the new signs. In addition, a six-month extension of time on the.expiration date for the plot plan approval has been approved. The new expiration date of Plot Plan No. 85-210 shall be October 8, 1986. If you have any questions regarding this matter, please contact our office. Very truly yours, 2 Sandra L. Bonner Principal Planner SLB:psn CC: Building Division Community Safety Department Joan Jacoby, DSL Corp. Janie Harding, Downey Savings. MAILING ADDRESS - P.O. BOX 1504 - LA QUINTA, CALIFORNIA 92253 6/ 3RECECITY 0 LA QUIN lt�EU COMMUN TV UEVEIOPMErNT DEPT ! a Vr-, �11-1- commu o CST Df V UEVEEOPMENT DEPT IEASING�- INFORMATION- Land marle- REAL ESTATE COMPANY COMMERCIAL%INDUSTRIAL/AGRICULTURAL oe0Q10__ ASK FOR 8RENT NFRGUIZ1 31rc IL ,�3la%N i OR.w-1 c F wh%ic bwlk6QouN: z facie. Rack .is c.v►.�-�E 3r_ckGc.�un� EXHIBIT REVISED CASE NO.Z- 1y. APPROVED By PLANNING "Isla DATE112218ti q a / /r 2�•EI V: Wwss- Y if� �� t \ " r Im l •l= -•�--^- g Nom' u 'a � c N O MMOl3 �` Q 11111 M (i A= w tt I vw1r, 1Mi1My .3 01 � < O 2FI I O w c �I 1 FI I o M n R 4P� ' �. ��.to �4• • � y ; �1 d �!Y ,,,,d 1,a � $ AAAAAA 6 � y c� -•�--^- g Nom' u 'a � c N O MMOl3 �` Q 11111 M (i A= w tt I vw1r, 1Mi1My .3 01 � < O 2FI I O w c 1 FI I o M n 4P� ' MQ¢HO r 88 8 0 y ; �1 $ AAAAAA 6 � y b 1 e MON t. ne.car� M. 4 � 6 i 't Z I /--� JAM 1N3Wdol3A3a A11NnWWoo VINIn00 Vl d0 Allo C33A6-74�51,511:5-11N 1d301N3WdQl3A30 A.UW WO v1Nl^:jio- 6 vi Cl jJ .W�� .� AV, of '14d. (Quinta This Certificate issued pursuant to the requirements of Section 306 of the Uniform Building Code certifying that at the time of issuance this structure was in compliance with the various ordinances of the City regulating building construction or use. For the following: BUILDING ADDRESS_ 78-401 Hwy 111 Use Classification Office Bldg. Permit No. 1240 Group B2 VN CPS Type Construction Fire Zone Use Zone VI 1. Owner of Building Plaza La Quinta Cit„ La Quinta, CA 92253 Building Official Address BY. Tom Graham Date; June 23, 1986 POST IN A 001019110141.101,111, PLACE I + — �..�rrrn� ■.I ..� r - --w P14 ELROD AX = r"a. &A 1 Mir = M PIANNING 2211 rM. 0ifflin Maim i oil r"r ,yp, F1,0A4!] r4-D �. �4 i - C4;NG-�IJ r.a. tr 57'L-to 5 � f -ko Ga I w W--.p d.11� � g r1 � � s -rn r••t or,-��,E 7. Tom• � �. L.. 1 mat 1-; .r F � i.rti ,I-�4 �-�{7 f Nr T IlE- 1-5114T A-6 110M I "q<KOR EB I CITY OF LA QUINTA Community Develop rnent/Bldg. Dept. C NDI" OVALLY ACCEPTED FOR CONSTRUCTION r .r AND ALL APFUCA$LE COdES Ovs 2� Y ■t L � y c 49 49 4 Q a Mir i:UOa .Jr •A%, - BI . o m ad 1z coa O E � � U l L2 ail C2k o Ln c � r cre 6J }-- C+} JV� Q RIC I DRAW CHNC KIED PRINTRIP 5HElT 4� A SHEETS s . REV .0. DATE 1 ' DESCRIPTION DWN I CHKD I EiNG A A J7 C) I I� _ F I r al "T'YFe X GYa ' I flora Q,p i� �T�•+ - -- - - — • � � �• �1.lS"t-Asss � ih! i � i b of f,'I rj oil ,,•�� r...L.. � � � i PA "I+ i 5 - L= I I ; 20 h4jlq. l ' KaYZD S5 f 0.. _ rxF4b $CX7- 111 gam -- - 1-i.�_-. •--- ----A f 30 o+��b ��� - � I Mol GQ� H A• L ' A'AI IZ-11 '}'.N ( t ' 1l, f �� s f i .+� TE>�Tf0I ]r Ff ca --- _ 13" 4 f O TES — FLOSH WOOD, o ll) CORE D DR ql►Y /4 A� f. Fr'-4 2 1 f D (BROWN MIDI. EE D) LA H 5ET 2.FLOOP TO ILIN6 V1C)r,5--j A4rl OL. PL. 1-LN ALU1_ "- CARPET- FLAT FOBBFP, BASE r1 COVED RUBBER .. ILII -- 4' AC005-11C TILE CL16 IN E P GRID 6- L 1 * T'I N (63 - ✓e f t. Y M J IJ� : � 2- 1 f 6 F 1). C) Y 3��� f! � 5 4+1 . ME + r f r D � +f C. 9. IYV�1" / �L }- � )IYL.J:. W TF ` TMEI 7-' LEV51-OR BL1 DS_F'V T f OU7-H SIDE PL L I f �' L f 0- C ()/V / T,5 PRO VIDEO 8 YOWNEIP— l 0 TONS RE OLIE ID -� DI TP . U 7-I A - 2 8144-A rC E ,BONE t ALL $ZOOMS rz Imo. cs).L-k < waM 13 C c}_ � E tS 7 C F- f 177 +> 41, 5 CITY OF LA QUINTA Community Development/814 Dept. CONDITIONALLY ACCEPTED F0Q CONSTRUCTION ■ MJLEat0 ?NSTALLATION AS Ffit 7c� — 4� / �4� y // I D c r�