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001695 (OFC)•4 64� P.O. BOX 1504 Buildinge 78-105 CALLE ESTADO Address 7ti"'060 011e Estado LA QUINTA, CALIFORNIA 92253 Owner Address P.O. DIM im City Zip Tel. La QUJZLa 9'.53 Contractor Address . _ . . . Zip Tela 0 92201 564-2= State Lic. City & Classif. Lic. # _ T 0� r✓ -Arch., Engr., Designer Address Tel. 45.275 Pew . 346-2223 City Zip State FTs1 C • 923 Licr# LICENSED CONTRACTOR'S DECLARATION , I hereby affirm that I am licensed under provisions of Chapter 9 (commencing with Section 7000) of Division 3 of the Business and Professions Code; and my license is in full force and effect. �.✓�,i' t.r . .. � ;r', .�,-- ...�. • { • - ..., _SIGNATURE-" DATE 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: An_y 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 7031.5 by 'any applicant for a permit subjects the applicant to a civil penalty of not more than five hundred dollars ($500)- • ❑ 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. 7044, Buisness and Professions Code: The Contractor's License Law does not apply to an owner of property who builds or improves thereon and 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 or improvement 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.) ❑ I, as owner of the property, am exclusively contracting with licensed contractors to con- struct 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. & P.C. for this reason Date Owner WORKERS' COMPENSATION DECLARATION I hereby affirm that I have 'a certificate of consent to self -insure, or a certificate of Worker's Compensation Insurance, or a certified copy thereof. (Sec. 3800, Labor Code.) Policy No. .' .Company ❑ Copy is filed with the city. ❑ Certified copy is hereby furnished. CERTIFICATE OF EXEMPTION FROM WORKERS' COMPENSATION INSURANCE (This section need not be completed if the permit is for one hundred dollars ($100) valuation or less.) -- - I certify that in the performance of the work for which this permit is issued, I shall not employ any person in any manner so as to become subject to the' Workers' Compensation Laws of California. Date Owner NOTICE TO APPLICANT: If, after making this Certificate or 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. No. 00.595 BUILDING: TYPE CONST. W; :OCC. GRP. $ 2 A.P. Number 769-101-4M/005/01% Legal Description Bljod° 10 .th;l3t # 1 Project Description Off i0a BuildiMOcepUm ZONE: BY: Minimum Setback Distances: Front Setback from Center Line Rear Setback from Rear Prop. Line CONSTRUCTION LENDING AGENCY Side Street Setback from Center Line' I hereby affirm that there is a construction lending agency for the performance of the work for which this permit is issued. (Sec. 3097, Civil Code.) Side Setback from Property Line Lender's Name Lender's Address OR This is a building permit when properly filled out, signed and validated, and is subject to FINAL DATE INSPECT - p_q.ECT expiration if work thereunder is suspended for 180 days. 6-2 /I-85 1 certify that I have read this application and state that the above information is correct. Issued by: Date Permit I agree to comply with all city and county ordinances and state laws relating to building construction, and hereby authorize representatives -of this city to enter the above- . mentioned property for inspection purposes. r Validated by: � r Signature of applicant A- A - l /" ✓✓ �• Date Mailing Address ' Validation: City, State, Zip A2421 8 27 3783,48 U HARD COPY Sq. Ft. Size 6549 No. Stories I No. Dw. Units 1 New 9 Add ❑ Alter ❑ Repair ❑ Demolition ❑ Vim SM1ir&1= X=dX11011 bV Deft. Estimated Valuation Cv PERMIT AMOUNT .Plan Chk. Dep. =col Plan Chk. Bal. 467.68 Const. 900.50 Mech. 5..00 Electrical 3-43.24 Plumbing 94.,00 S.M.I. Grading Driveway Enc. Infrastructure 2.100.00 4,033,4E 3,783.48 TOTAL X. REMARKS ZONE: BY: Minimum Setback Distances: Front Setback from Center Line Rear Setback from Rear Prop. Line CONSTRUCTION LENDING AGENCY Side Street Setback from Center Line' I hereby affirm that there is a construction lending agency for the performance of the work for which this permit is issued. (Sec. 3097, Civil Code.) Side Setback from Property Line Lender's Name Lender's Address OR This is a building permit when properly filled out, signed and validated, and is subject to FINAL DATE INSPECT - p_q.ECT expiration if work thereunder is suspended for 180 days. 6-2 /I-85 1 certify that I have read this application and state that the above information is correct. Issued by: Date Permit I agree to comply with all city and county ordinances and state laws relating to building construction, and hereby authorize representatives -of this city to enter the above- . mentioned property for inspection purposes. r Validated by: � r Signature of applicant A- A - l /" ✓✓ �• Date Mailing Address ' Validation: City, State, Zip A2421 8 27 3783,48 U HARD COPY CONSTRUCTION ESTIMATE NO. ELECTRICAL FEES NO. PLUMBING FEES IST FL. SQ. FT. ® $ UNITS ROUGH PLUMB. �� !?J BONDING HEATING (ROUGH) STORAGE TANK YARD SPKLR SYSTEM 2ND FL. SQ. FT. ® DUCT WORK ROCK STORAGE FOUND. REINF. MOBILEHOME SVC. BAR SINK POR. SQ. FT. ® REINF. STEEL nbj �i6 o� o GAS (FINAL) TEMP. POLE GAR. SQ. FT. ® POWER OUTLET ROOF DRAINS WATER HEATER SERVICE FINAL INSP. DRAINAGE PIPING CAR P. I SQ. FT. ® NATER SYSTEM GRADING cu. yd. $ plus WALL SQ. FT. LUMBER GR,r DRINKING FOUNTAIN SQ FT ® FINAL INSP. URINAL ESTIMATED CONSTRUCTION VALUATION $ WATER PIPING NOTE: Not to be used as property tax valuation VENTILATION FLOOR DRAIN MECHANICAL FEES WATER SOFTENER VENT SYSTEM FAN EVAP.COOL HOOD SIGN WASH ER(AUTO)(DISH) APPLIANCE DRYER GARBAGE DISPOSAL FURNACE UNIT WALL FLOOR SUSPENDED - LAUNDRY TRAY ' AIR HANDLING UNIT CFM KITCHEN SINK ABSORPTION SYSTEM. B.T.U. TEMP USE PERMIT SVC WATER CLOSET' COMPRESSOR HP POLE, TEMIPERM LAVATORY HEATING SYSTEM FORCED GRAVITY AMPERES SERV ENT SHOWER BOILER B.T.U. SQ. FT. ® c BATH TUB SQ. FT. ® c WATER HEATER MAX. HEATER OUTPUT, B.T.U. SQ. FT. RESID ® 11/4 c SEWAGE DISPOSAL FINAL INSPECTION SQ.FT.GAR @ 3/ac HOUSE SEWER CERT. OCC. GAS PIPING PERMIT FEE PERMIT FEE PERMIT FEE DBL TOTAL FEES MICRO FEE MECH.FEE PL.CK.FEE CONST. FEE ELECT. FEE SMI FEE PLUMB. FEE STRUCTURE PLUMBING ELECTRICAL HEATING & AIR GOND. SOLAR SETBACK r ROUND PLUMBINGR �� UNDERGROUND A.C. UNIT COLL. AREA SLAB GRADE ROUGH PLUMB. �� !?J BONDING HEATING (ROUGH) STORAGE TANK FORMS SEWER OR SEPTIC TAN ROUGH WIRING)Z hila DUCT WORK ROCK STORAGE FOUND. REINF. . GAS (ROUGH) METER LOOP HEATING (FINAL) OTHER APPJEQUIP. REINF. STEEL nbj �i6 o� o GAS (FINAL) TEMP. POLE GROUT WATER HEATER SERVICE FINAL INSP. BOND BEAM, NATER SYSTEM GRADING cu. yd. $ plus LUMBER GR,r FINAL INSP. / FRAMING �,i 1�,F� C'f FINAL INSP. ROOFING t� / REMARKS: VENTILATION FIRE ZONE ROOFING�� FIREPLACE - SPARK ARRESTOR GAR. FIREWALL LATHING MESH INSULATION/SOUND l?b2 FINISH GRADING FINAL INSPECTION CERT. OCC. FENCE FINAL INSPECTOR'S SIGNATURESIINITIALS. GARDEN WALL FINAL Q Z O H V W N Im Z O P V W fA COUNTY OF RIVERSIDE, DEPARTMENT OF HEALTH PERMIT APPLICATION FOR A SUBSURFACE DISPOSAL SYSTEM Applicant: Submit this form with three copies of a scaled plot plan drawn to county specifications required on the attached check list. A non refundable filing fee of $15 is required when the application is submitted. Check must be made payable to County of Riverside. Name Mailing Address City State 'Clry or Community Zip Code I Phone *Property Address *Legal Description of Property (Lot, Parcel Map, Tract) *Assessors Parcel No Water Serving Property From Lot size Signature of Applicant Date *The above information must be verified from Building Application Staff Use — Do Not Write Below This Line Initial Date WQCB Clearance required Yes ❑ •r'�No Soils feasibility report required Yes No ❑ _ Detailed boring report required Yes EJ No ❑ Detailed contour plot required Yes ❑ No Comments: Soils or boring report by . Date Approved by --. - Date Soils Map Page Soil Type Tract File -No. Other NimrtSCY-r6f Bt-drooms Septic Tank Size (gallon) Rate Required Type of System New Addition Replacement El 0 El Leach line sq. ft. of bottom area trench Leach bed (sq. ft. of bottom area bed) Seepage Pit Diameter Number of Pits Seepage Pit Depth B.I- Total t f Pit 5'❑ 6r11� Location of System f d[rf.� LR►s. x / (�{r t>>"r� rr, =r1v L it f �4 ,.f •--r Additional Requirements, A permit is approved denied forthe design of asubsurface disposal system as in on the accompanied plot plan using the`requirerhents set forth in Section B above. A building permit is necessary for the installation of the above designed system. Signature of Health Official - Date .4 /('t.�) /i i Receipt No. Issued By District: Riverside ❑ DISTRIBUTION: WHITE - Office File DOH SAN 122 (Rev 10/84) Indio ❑ Hemet ❑ YELLOW - Applicant Date - __ PINK - Building Dept. GOLDENROD - Pending File BUILDINGS ENVELOPE SUMMARY BUILOD1`NG ENVELOPE COMPLIANCE APPROVED Project Designer: CCIAQ,DI-yCl l _ N A SSS�e- Documented Ooject Title: aCF�C)= -&.)1L.1� 1 ►.ZeA Project Address: UA Checked • Cb. Form 1 PL"(NR-8181) by: _ Date:y)`J'i%� by: Date: Permit Application Number: This form provides space to Insert summary data on the building envelope. Form 1 Is used In conjunction with Form 2 and Form 3 worksheets to provide the necessary Information on building heating (U -Value) and cooling (OTTV) design criteria compliancea. SITE DESCRIPTION (from Building Location Data) r- 2.. 3 3. 4. S. _(_ Location Code Number Latitude Degree Days -heating. -- Solar Factor, S.F. Cooling LT, ASHRAE (design temp. - 789F) HEATING DESIGN CRITERION Standard �l _ Uo w 10. Uor....._.— 11 - . 1.0 Proposed 14. UoW.. - Uo r _......._ 15..0 7- Uof:_,,-12. Uof.----- --_16. Maximum Proposed Allowable ,Z.�1 ;ll Voverall....,.13. Uoverall----17. Line 17 must not exceed Line 13 Note: Maximum Allowblb Uoverall and Proposed Uaverall are calculated on Page. 4 of Form 2. to: For heated only buildings. Uor is Iculated for the proposed building from Form 2 (Heated Only Building) using the value from Line 39 for the area of skylights and the value from Line 37 for the overall roof area. BUILDING DESCRIPTION (from plans) _ Occupancy Type Code Number (from Occupant Ratings for Buildings and Rooms) Gross Conditioned Floor Area. it2 7. Zo 0 Number of Floors 8. Z Average Gross Conditioned Area per Floor. ft.2 88. Average Wall Height per Floor,ft. 9. R (facing conditioned space) COOLING DESIGN CRITERION Standard Proposed OTTVW....— 18. OTTVw........ 21. OTTVr,-*--19. `` OTTV r,._..,, 22:�� StandOTTV.—and 2Q. 1 �Z3 OTTV sed 23. Line 23 must not exceed Line 20 Note: Standard OTTV and Proposed OTTV are calculated on Page 4 of Form 2. PROFESSIONAL ENGINEER �I�� 1•i i:�iY r�,l �iC�Jri ROBERT' PAUL 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. MATERIAS DATA FORM . ' BUILDING ENVELOPE COMPLIANCE Pro)ecI Title: OF r-- cC 13�\)NVO Total. 7• Sq 2 Total' ow ft Heating B. line 1+3+6 'line 2+4+6 t/Ow.a \ vv' y �..•1 Vim' a 9. `.• �7V line 8 line $ Btu— /h j i Porm 2 (NRl8/81) Date: COOLING DESIGN CRITERION Wall Surface . Summer TQeq Total Type Area, ft 2 U -Value Btu/hr- Type1 �1.51�.-x.ogl x Type 2 x x = Type 3 —X—x = Type 4 —X—X—= Type 5 x x = Towall Total '' �' A 10. yJ14 ' Total 11. Door Surface Summer TDeq Type Area, f12 U-/V,alue ` Type 1 x .�� x L�l( Type 2 —X—X—= Type 3 x x = Total 1 y� Adoor 12. Total Btu/hr Z.g 9 Total 13. Z- l Glazing Surface SF SC Summer AT Total Type Area, 1`12 U -Value Btu/ hr Type 1 xCl.,Z1.X Qt \dio x1�= type• 2 x ! x 1;+\ x-1�3 Typo' ype 3 �Ct xi1(rz�.l x ;B `�r �5� x ,/]_ 1 L Total q 1 g I tv�`, 14. Total 16. Awindow Total 5 o �&O' 2. Aow 18, ft line 10+12+14 OTTVW _ line i7 line 16 Total Z�ZC� �� dodling.1T: line 11+13+16 r Btu/hr-ft2 HEATING DESIGN CRITERION Well Surface Winter . • MCF, jTotal Type Area. ft.2 U -Value .• Btu/hr-OF Type'1 x. �5\.oi- x 409 tlx Type 2 .—_ x x s Type 3. x x = Type 4 x . x Type 6 x x.��a Total 14 vrS :;`\ :1 1 i wall Total 2.. Door Surface Winter MCI= Total Type Area, ft 2• U -Value Btu/hr--9F Type 1' 1 �� x ,L-+ X,- -73 Type 2. x x = Type 3 x x = Total Adoor 3` ( Total 4: , 3 x, Glazing- Surface Winter Total Type Area, 11.2 U -Value Btu/hr-OF Type 1 T 1-�,j$ x' Type 2 .x Type 3 x o Total Awlndow Total e. Total. 7• Sq 2 Total' ow ft Heating B. line 1+3+6 'line 2+4+6 t/Ow.a \ vv' y �..•1 Vim' a 9. `.• �7V line 8 line $ Btu— /h j i Porm 2 (NRl8/81) Date: COOLING DESIGN CRITERION Wall Surface . Summer TQeq Total Type Area, ft 2 U -Value Btu/hr- Type1 �1.51�.-x.ogl x Type 2 x x = Type 3 —X—x = Type 4 —X—X—= Type 5 x x = Towall Total '' �' A 10. yJ14 ' Total 11. Door Surface Summer TDeq Type Area, f12 U-/V,alue ` Type 1 x .�� x L�l( Type 2 —X—X—= Type 3 x x = Total 1 y� Adoor 12. Total Btu/hr Z.g 9 Total 13. Z- l Glazing Surface SF SC Summer AT Total Type Area, 1`12 U -Value Btu/ hr Type 1 xCl.,Z1.X Qt \dio x1�= type• 2 x ! x 1;+\ x-1�3 Typo' ype 3 �Ct xi1(rz�.l x ;B `�r �5� x ,/]_ 1 L Total q 1 g I tv�`, 14. Total 16. Awindow Total 5 o �&O' 2. Aow 18, ft line 10+12+14 OTTVW _ line i7 line 16 Total Z�ZC� �� dodling.1T: line 11+13+16 r Btu/hr-ft2 j • " MATERIALMATA FORM (Heated and Cc)oleds Building) Protect Title: oV-471cV-- �y��lr�� ! O Pao 2 of Form Date: `4 JJ^IC �s HEATING DESIGN CRITERION Roof Surface Winter Summer Total Type Area. f12. U -Value Area, ft2 Btu/hr-OF `� 0 3S 2.t Type 1 $o Type 1 x..0 � Qz'Se Type 2 x Type 2 Type Type 3 x 4 1 x-0ZG0 x 7A x Type 3 Type 4 X I,0 x �•�� 1 � Type 4 Antal `� :�L)Total x o 3- 19 opaque . 20. L4 roof Skylight Surface Winter Surface Total Type Area, 112 U -Value Type Btu/hr-OF Type 1 x Btu/hr Type 1 Type 2 X a x ` ) Type.3 x a x Cil 18 x _) +i Total A 21. Total 22. Type 3 skylight x �(1 1 6 x_) +( x Total TotalQt� 'Tolal Heating 24. l \ 3 Aor 23.. "� it2 Total 29. skylight line 19421 Total line 20122 O Pao 2 of Form Date: `4 JJ^IC �s OTTV o H R OZ , i H R �Y a r line 31 11ne 30 32. .o,-1 Btu/hr-ft2 M COOLING DESIGN CRITERION Roof Surface Summer Ac Mc Total y Type Area, ft2 U -Value Btu/hr Type 1 d�1x41 xl`-`J —X—XX— x Type 2 Type I � z x 4 1 x-0ZG0 x 7A x Type 3 1 Dj x41"x OZ -5S x I,0 x �•�� 1 � Type 4 x41 x x x o Total AgpaQue 6. Total 27, L4 roof Skylight Surface Sc Summer AT Total Type Area, ft 2 U -Value Btu/hr Type 1 x �(t 18: x' )+( x ` ) Type 2 x Cil 18 x _) +i x Type 3 x �(1 1 6 x_) +( x Total A 28. Total 29. skylight Total `CLQ a2 Total Dl Aor 30• ft cooling 31. line 26+28 One 27+29 OTTV o H R OZ , i H R �Y a r line 31 11ne 30 32. .o,-1 Btu/hr-ft2 M MATERIALSTA FORM I . Project TItTb: a��C� �y��1►:14" 1 HEATING DESIGN CRITERION Floor Surface Winter �' Total Type Area, ft ? U -Value Btu/hr-PF Type x' Type 2 x o Type 3 x e>t Type 4 x d Total Total Afloor44.__ f12 Heating 45. Uof o _ line 45 line 44 BtuBtu/�oF t . ��► y�� -_�,'t.�g- LiLA Pe�p�t�ya 41.4 kDLk �. 44 4-\ ovs�>` r P,*4IfFomj�� Date: y J. f'4' . 2 �. ZjD sCk 33. k 9 PROPOSED CONSTRUCTION ASSEMBLY . BUILDfNG ENVELOPE COMPLIANCE heck one and write In construction ssembly number below (e.g. Wall -1,. Root -2, et 5J I ❑ Wall - 0 aII- ❑ Roof- ❑ Floor - Form 3 (NR -8/81) List of Construction Components R -Value 2.1.E Sketch of Construction Assembly framing type: If wood complete the foliowing and adjust construction assembly for framing: Size; Z - x \ AP .Spacing- I IQ O.C.. Indicate area, weight of construction assembly, and appropriate factors below: Wall: Area _ft2 Weight Ib/ft3 MCF TDeq Roof: Area ft2 Weight Ib/ft3 Mc Ac Floor: Area ft 2 (raised onlyl Outside Surface. Air Film Inside Surface Air Film Total Thermal Resistance (R.T) U -Value (14441 (} , »s lei\ .Z�; , I Cooling llHeating Cooling.. Heating Cooling Heating Co.oling Heating Note: Total RT and U -Value must be adjusted for the effect of framing when appropriate. V PROPOSED CONSTRUCTION ASSEMBLY BUILDING ENVELOPE COMPLIANCE Form 3 . (NR -8/81) Wseheck one and write In construction mbly number below (e.g. Wall -f, Roof -2, etc.) ❑ Wall- .Q Roof-� 1 ❑ Floor - List of Construction Components R -Value R 3 Sketch of Construction Assembly •raining type: w03b i2Qs'c If wood complete the following and adjust construction assembly -for framing. S IZ e; Z- X .Spacing, ZL4 O.C_ Indicate area, weight of construction assembly, and _appropriate factors below: Wall: Area ft2 Weight Ib/ft3 MCF TDeq Roof: Area ft2 Weight Ib/ft3 Mc Ac Floor: Area -2 2 (raised only) • 1. R,0_D{_ -1UL 2. 3. 4.. ,43b X21' Ls,1 Ll_ 5. 6. 7. 8. Outside Surface Air Film Inside Surface Air Film Total Thermal Resistance (R_T) U -Value le' ) Z'S ooling 17 co 42). Z$ Cooling .dZI.ZZ. Cooling 1—C Heating rre^^a t in g �l� Heating LA a 0 (,p Heating Heating Note: Total RT and U -Value must be adjusted for the effect of framing when appropriate. 7PROPOSED CONSTRUCTION ASSEMBLY BUILDING ENVELOPE COMPLIANCE efheck one and write In construction ssembly number below (e.g. Wall -1, Roof -2, etc.) ❑ Wall- Roof- 0 all-Roof-❑ Floor- List of Con t ti C 3 5ketch of Construction Assembly •raming type: t,300_DTQJSS If wood complete the following and adjust construction. assembly for framing: Size: Z X "A - Spacing_ -_ !2i_-. O.C.. Indicate area, weight of construction assembly,•and approprlate factors below: Wall: Area ft Weight Ib/ft3 MCF TDeq Roof: Area ft Weight 16/f t3 Mc Ac --- Floor: Area �ft 2 (raised only) Form 3 (NR -8/81) s ruc on omponents R -Value 2. 3. 1 ►�\ SJL1lZ"1J1J C�. �� 5. 6. 7. 8. Outside Surface Air Film Inside Surface Air Film Total Thermal Resistance (RT) Li -Value (tom) �I •��/G�r> Cooling Cooling Cooling C)Z-6.p Cooling Heating Heating Heating Heating Note: Total RT and U -Value must be adjusted for the effect of framing when appropriate. PROPOSED CONSTRUCTION ASSEMBLY BUILDING ENVELOPE COMPLIANCE 0 heck one and write In construc"t/on sembly number below (e.g. Wall -1, Roof -2, etc.) O Wali- ® Roof - 0 Fioor- I lst of Const ti C Sketch of Construction Assembly •raming type: If wood complete the following and adjust construction assembly "for framing: Size:- : ize: L � x • :•.Spacing• Z4 O.C.. Indicate area, weight of construction assembly, -and annroprlate factors below: Wall: Area ft2 Weight _Ib/ft3 MCF TDeq Roof: Area ft 2 Weight lb/ft3 Mc Ac Floor: Area ft 2 (raised only) • Form 3 (NR -8/81) ruc on ois, ponents R -Value i L� 2. fAIDQ.T yt- 3.�> >� 1�LY W o 0 D 10 tJ � 2 6. 7. 8. Outside Surface Air Flim Inside Surface Air. Film Total Thermal Resistance (RT) U --Value (14" Z� ,)- Cooling Heating Coo Heating "►o.�� Cooling ..Heating != O Z� Cooling Heating z 3 y Sketch of Construction Assembly •raming type: If wood complete the following and adjust construction assembly "for framing: Size:- : ize: L � x • :•.Spacing• Z4 O.C.. Indicate area, weight of construction assembly, -and annroprlate factors below: Wall: Area ft2 Weight _Ib/ft3 MCF TDeq Roof: Area ft 2 Weight lb/ft3 Mc Ac Floor: Area ft 2 (raised only) • Form 3 (NR -8/81) ruc on ois, ponents R -Value i L� 2. fAIDQ.T yt- 3.�> >� 1�LY W o 0 D 10 tJ � 2 6. 7. 8. Outside Surface Air Flim Inside Surface Air. Film Total Thermal Resistance (RT) U --Value (14" Z� ,)- Cooling Heating Coo Heating "►o.�� Cooling ..Heating != O Z� Cooling Heating Note: Total RT and U -Value must be adjusted for the effect of framing when appropriate. 1 DOCUMENTATION FORM HVAC SYSTEMS COMPLIANCE (Complete for each system) Project Title D C�, \ �D \ ', Location Project Designer �1��l��Zti�— vim\ la ,� Ss O C ; DESIGN CONDITIONS Form 4 (Rev.1 5/781 - Documented by \� Date Checked by Date Building occupancy type (Table 1 of Appendix 1) ........ .o S Project Latitude (Table 2 of Appendix 1) .............. Heating Degree Days (Table 2 of Appendix I) ........... . HEATING LOAD DOCUMENTATION (Attach calculations) Outdoor Design Temperature, Winter ................ 1 OF Indoor Design Temperature ....................... -70 OF: . Outdoor Air ....................... ... ..:.. ..� CFM Heat Loss From Outdoor Air ...................... O 3 Btu/Hr. Temperature of adjacent unheated spaces.............. 3 OF, Transmission Heating Losses ...................... -1 `1`t.g3 atu/Hr. Infiltration Air ............................... CFM j Heat Loss From Infiltration.. ...................... j t? Btu/Hr. Ventilation Air ............................ 7� CFM Heat Loss From Ventilation ...................... I O�`p Btu/Hr.. Outdoor Air for Special Processes. '� CFM Heat Loss From Process Air ....................... Btu/Hr. Other Heat Losses (describe) .................. $ Btu/Hr. Total Heat Losses ............................. 1 �'",3 Btu/Hr. COOLING LOAD DOCUMENTATION (Attach calculations) Outdoor Design Temperature, summer, dry bulb:.:...... - F` Outdoor Design Temperature, summer, wet bulb......... OF Indoor Design Temperature, summer, dry bulb .......... 75 OF Indoor Design Temperature, summer, wet bulb. °F Transmission Heat Gain ....... ................y �� Btu/Hr. Infiltration Air .......:....................... L4 V CFM Heat Gain From Infiltration .... (41 Z Stu/Hr. Outdoor Air for Special Processes.. .............:. $ CFM Heat Gain for Process Air ........................ Btu/Hr. Solar Heat Gain Through Windows, etc ................ 5-6 S 15 Btu/Hr. Heat Gain From Lights, Equipment, People, etc.......... Ct O Btu/Hr. Heat Gain From Other Sources .................... Btu/Hr. Outdoor Air: Fixed Minimum Type System CFM Per Person'(Not to Exceed Tabulated Minimum Ventilation Rates) ..... CFM/Person Heat Gain From Outdoor Air...:... ) O Z9 7 Btu/Hr. �• COOLING LOAD DOCUMENTATION (Continued) Peg• 2 of Form 4 • System Utilizing Outside Air For Cooling CFM Per Person (Not to Exceed 33% of Tabulated Recommended Ventilation Rates) CFM/Person Heat Gain From Outdoor Air................ Btu/Hr. Total Cooling Load ................ ........... Z'Z� Btu/Hr. TEMPERATURE CONTROL Attach manufacturer's data or other, give specification or drawing reference which shows in detail the following information: REFERENCE (page or sheet *No.) • capability to sequence heating and cooling ................. . . • temperature control device set point limits. ...................... . • temperature set point range between full heating and full cooling ................... . • 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. n automatic temperature control device shall be provided for: each separate HVAC system .................................. ....... 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 W 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 20% or more of the total air in the system. When serving multiple zones, controls must automatically reset the'cold air supply to the highest temperature level of the zone requiring the most cooling .......... . • Single zone reheat systems shall be controlled to sequence heating and cooling .......... . is o _ }r Z;j y S� Cao I iJ f7 1 2 tem M T("L.asM\sS t 'ci(..\ NCS% L"oSs Icy. wI\L- 0 � \,j -A �ID o �Z-s C�LILI Ss nc),z) ac, oPn,,�J7- SLA s-� D 'o vc_s o ?meq\)af R'Do�:- CkT– I \.–>,,�� LflS -� Oq I-) \4" 3 I N F -, rj3 P. IR LA ti . ' � �LIS� �es k 39� X- g`A V, l"r,) s� �,c I N F -, rj3 P. IR -1.L-! H � 3 F�:1-0lr� »7 -1.L-! H � 3 F�:1-0lr� I OF N L`irr—,a'i 1 O ►J .�t\ \ 2.. (s, e -,-0s-) 1 bZgZ s3�io+A 0ki>x I x �-7 = 1. t> 58 1 k-A�� COrAQJ CL C\L- A s� D o,D +�,s W A L- X- O i'.h 4�,)J • t y`1--� >�, .'O'R \ \ k —�`r. INC 'V 1-7 L} iuS3u��11>c�Z c C 1�J oG i �O�uz Z> C,,C� LA -� y I�iv N S Z�7Z� " Li Ck--A:T Z)z- \1�7,j \� �- DUAL DUCT AND MULTIZONE SYSTEMS Pegs 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% (ter, 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 REFERENCE Constant volume system Total Supply Air Quantity ....... ..................................... I C7 O. CFM Total Pressure of Supply Fan ........................................... `� Inches Water Total Supply Air Quantity Adjusted for Process Loads.......... -�' CFM Total Gross Floor Area ................................................ ) 2 1 Sq. Ft. Net Fan Performance Index (FPI)......................................... I �, 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(FPIm).............................. CFM Variable Volume Adjustment Constant ....................................... Adjusted Fan Performance Index, FPla.................................... . e- ----------------- S-z E 6 of Form 4 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 5, 00. L -zJ1 TZM VW- coc) 1.o �j LA l DOCUMENTATION FORM BUILDING LIGHTING COMPLIANCE Project Title 1 Location �' A OLQ N 14 T 1 C-4 Project Designer Form 5 Documented by Date Checked by Date Room Room RCR. Task Areas Note • Sq. Ft. No. Sq. Ft. Total Watts Allotted Design No. Sq. Ft. Appl. /Occ. Occ. /Task Sq. Ft. /Sq. Ft. Watts Watts. \ Page Total LQ Tns�. I 15J 8� �ofl o IF \(Z- -- L 3 (,o T ISO !2,0 Li 0o L y o "1'ASr �e >Jrcn 1 1 Oto Z, 0 21 Z � x.15 S � ►-Ing � 3 I � I 1115 I , o . 1 ZS . : `Z �: ; oq*p �.sr LA z�� I r>6 1 50 loo C,or1SQ�-A I 11..Qt Z Z 1 Z i sY— j I S� g�° Llama a z_ti o 1 13 I J LAO 6 I,o . 3,L I IIID to Zlo Z,yo Page Total DOCUME`NTATION FORM — LIGHTING COMPLIANCE PROJECT TITLE ORv--2r T. J \`71 I Room Room RCR No. Sq. Ft. 1.4 Task Areas Note Sq. Ft.. No. Appl. MCC. Occ Sq. Ft. Total Watts Allotted /Task Sq. Ft. /Sq. Ft. Watts Design Watts Page Total • L-1 -7 144 ' $ O o Building Total Vast'sheet only) Dc V-- J71 ►� Ido �� SJ'P�,?3 � I I IOb I ,y Iyo I Z� 1'�s� I I50 8;� yon GaLp 2�t� ZA 0 low I Cao cb g,o LA --oz, i o� Zo -2- 4 y 1 I 1 DC> .l Cam t lb g, Li sJ� i IIo� ZP Z4�, cis R -z 0 h � `� 1 S � � � �� c� i o � I ► a� � so I .. 3 C9 a (,�'��Rla.L I 113 Z4 ZCo,O Loo i I Page Total • L-1 -7 144 ' $ O o Building Total Vast'sheet only) 1� DOCUMENTATION FORM — LIGHTING COMPLIANCE PROJECT TITLE Room Room RCR No. Sq. Ft. Task Areas Note Sq. Ft.. No. Appl. MCC. Occ. Sq. Ft. Total Watts Allotted Design /Task Sq. Ft. /Sq. Ft. Watts Watts Page Total Building Total (last'sheet only) T TA sem. t ► 7?� ZZb Ito , Lk 1>10 1 ,A I I ►v6 ZJ z�Z Z2y -7 Z 1 G'° Ij STS I �-o � � I I � L� L.fa ► J l 144 �O I i I Page Total Building Total (last'sheet only) DOCUMENTATION FORM - LIGHTING COMPLIANCE PROJECTTITLE Room Room RCR Task Areas 1� No. Sq. Ft. Note Sq. Ft.. No. Sq. Ft. Total Watts Allotted Design Appl. MCC. Occ. /Task Sq. Ft. /SQ. Ft. Watts Watts 0 3Z,3 ;-r 0 1 I i �� 1U 2 L -O S} � \Z S S �3 lye S� C, -k A �.' I I �y� 1 z c s 1 i I .I I I I I I i I Page Total J5 J.;3 Zyvo Building Total I -1 (Zy 1 3 oo0 (last'sheet onlyi DOCUMENTATION FORM & ' HVAC EQUIPMENT COMPLIANCE J Form 6 References giving the specification page or drawing sheet number or manufacturer's data must be submitted to demonstrate com- pliance with Division 6 of the standards. ELECTRICALLY OPERATED COOLING Standard rating capacity, Btu/hr SYSTEM EQUIPMENT'. Minimum EER (COP) o, Reference ABSORPTION WATER CHILLING Heat source (check one) COOLING SYSTEM EQUIPMENT Direct fired (gas -oil) Indirect fired (steam -hot water) Minimum EER (COP) Reference COMBUSTION HEATING EQUIPMENT Minimum combustion efficiency at (Oil and gas-fired comfort maximum rated output . heating equipment— Reference ELECTRICALLY OPERATED HEATING HEAT PUMPS �A`i 4 1JtC,KT S"ZL_ 'F>C>NZ ELECTRICAL RESISTANCE SPACE HEATING EQUIPMENT Minimun SEER (COP) Reference Supplementary Heater Control Reference REFERENCE FOR FULL -LOAD ENERGY INPUT AND OUTPUT REQUIREMENT FOR MAINTENANCE FOR MANUFACTURER'S MAINTENANCE AND, FULL AND PARTIAL CAPACITY AND STAND-BY INPUT(S) AND OUTPUT(S) SPECIFICATION REFERENCE A, 'D S P it C � NL BUILDING DATA FORM BUILDING SERVICE WATER HEATING COMPLIANCE (Refer to Chapter 4.4 of the Energy Conservation Design Manual) r PROJECT TITLE Location L a G�o ` tA QA , Project Designer cE•�� 2 v `- ► P' s S O C. Form 7 �(Rev..1 5/78) " Documented By Date h i J 1J z �S Checked By Date SERVICE WATER HEATING SYSTEM DESCRIPTION Energy Source Type — Record 1 if gas, Z _ 2 if electric, 3 if oil, 4 if other ........................1 Occupants (Use Table 1 of Appendix 1).....: : • ...Y .2 Z3 Sq.Ft./Occupant Number of Occupants in Perimeter Zone ...ekda s ...... We 3 ' ... Weekends and Holidays 4 Number of Occupants in Core Zone ............ Weekdays 5 Z Weekends and Holidays 6 hrs. Occupancy (hours of use per day).................Weekdays 7 hrs. ... Weekends and Holidays 8 HW Demand Total Number of Occupants (Line 3 +Line 5)............ HW Demand Per Person, gal/day (From Table 1 of Appendix 5). 10 gal/day Total HW Demand for personal uses, gal/day (Line 9 x Line 10). 11 Z5 gal/day Equipment HW Demand (attach description list) Total HW Demand for equipment requiring 140° F HW (e.g., dishwashing and laundry equipment) ................... 12 gal/day Special equipment requirements (attach description list)...... 13 gal/day ......14 of ...... 15 gal/dav 16 °F Water Suppry T•emperatnre.(from local utility) ............ 17 0 °F AT for Personal HW Demand (Avg. 110° F — Line 17) ....... 18 �� OF AT for Equipment HW Demand (140°F — Line 17)......... 19 OF Personal Hot Water Usage, days per year ......1.......... 20 Z�O days/yr. -� Equipment Hot Water Usage, days per year .............. 21 days/yr. . PERSONAL HOT WATER USAGE (at 110° F) 8.34 x Total HW Demand (Line 11) x Days of Use Per Year (Line 20) xQ T (Line 18) = Annual Energy Consumption .......:.. 22 Z'(`�(�ZSO Btu ' Pspe 2 of Form 7 - EQUIPMENT HOT WATER USAGE (at 140°F) 8.34 x Total HW Demand (Line 12) x Days of Use per year (Line 21) xAT (Line 19) = Annual Energy Consumption ..........23 Btu SPECIAL USAGE (other service temperatures) Annual Energy Use for Special Applications ......... _ .:..241 Biu For HW uses requiring water temperatures other than 105' F- 115° F or 1400F, determine the appropriate ,&T and HW _ demand and calculate the annual energy use in the same manner as shown above. Refer to Table 18 of Appendix = _ 2. Document the special uses and corresponding calcula-. tions on an attached sheet. Total Building Annual Energy Use for Hot Water ' (Line 22 + Line 23 + Line 24) ....................... 25 Btu SOLAR WATER HEATING CREDIT (See Form 9, Line 86) 1� �L�9 A.0. SM�;�1LAS- S-T 2V N 4 n 26 Btu AUTOMATIC STORAGE WATER HEATERS Size: height in feet ............................... 27+ ft. diameter in feet ............................ 28 h. volume in gallons ........................... 29 gal Energy Storage Type — Record : 1 if gas, 2 if electric, 3 if oil, 4 if other ................................. 30 Record Test Methods Used ......................... 31 (a) for ANSI Z 21.10.3-74, Section 2.7 (gas or oil fired) (b) for ANSI C 72.1-72, Section 4.3.1 (elec.) (c) for other (list below) For Electric Total surface area of the storage tank .................. 32 ft2 Total watt-hours used over the test period ............... 33 watt/hrs. Duration of test period (in hours) ..................... 34 hours Standby heat loss performance, Sp ..................... 35 watts/ft2 Maximum allowable Sp ............................ 36 watts/ft2 Line 35 must be less than Line 36 for compliance Day&Night AirCondlllornng PACKAGED I HEAT PUMPS WOianapui,%. IN Cay OI Indur,l:y. CA MODEL 542EO30 ---. 7 7 7 I •'f i MODEL 542DO60 MOUNTED ON ACCESSORY ROOF -MOUNTING CURB Models 542D & 542E are our latest generation of packaged heat pumps for residential and commercial applications. These heat pumps are the result of our firm commitment to the design and de- velopment of the finest heat pumps modern technology can offer. Our commitment is backed by our advanced engineering, testing, and research laboratories; and our wealth of practical experience. Model 542E is designed in two basic cabinet sizes, features a side-by-side duct configuration, and ranges in size from 024 thru 060, with voltage options to meet most residential and commercial requirements. This model installs easily on a rooftop or a ground - level pad. Model 542D is used with an accessory roof -mounting curb and in- corporates a down-discharge/return-air plenum as an integral part of the unit: thereby, substantially reducing the installation time and cost. This model is offered in the 060 size with 3-phase voltage options. 542D & 542E FEATURES FACTORY -ASSEMBLED PACKAGE is a compact, fully self-con- tained, all -electric. combination heating/cooling unit that is pre- wired, prepiped, and precharged for minimum installation expense. RUGGED, EFFICIENT, COMPRESSORS are specifically de- gned for heat pump duty and high energy efficiency during heat - g and cooling operation. Each compressor is hermetically sealed against contamination to help promote longer life and dependable operation; and vibration isolated to provide quiet operation. During heating operation, these reliable compressors are designed for continuous operation down to extremely cold outdoor tempera- tures. All compressors have internal high-pressure and overcur- rent protection. Model 542E _ Sizes 024 thru 060 Model 542D060 INDOOR BLOWER MOTORS have been carefully selected to min- imize energy consumption and to withstand the heavy-duty, year - round operation required by heat pumps. These motors are de- signed to meet the requirements of a wide variety of residential and commercial applications. Belt -drive motors are used on 060 - size, 3-phase units—direct-drive, multispeed (except 460-V) PSC motors are used on all other units. DIRECT -DRIVE, PSC, OUTDOOR FAN MOTORS have been selected to help reduce energy consumption. Outdoor fan motors on all 3- phase units are two -speed and are thermostatically con- trolled to provide low -ambient cooling operation down to 407. Single-phase units are designed for cooling operation down to 55'F with field -installed 40°F low -ambient kits available as an option. BUILT-IN RELIABILITY COMPONENTS include a suction -tube accumulator that keeps liquid refrigerant from reaching the com- pressor, a low-pressure switch that stops the compressor if the re- frigerant pressure drops to an unsafe operating level, a crankcase heater to keep the compressor oil warm and free of refrigerant for maximum lubricity, compressor quick -start components on single-. phase units to improve starting characteristics, and a unique metering device to eliminate potential serviceability requirements of check valves and expansion devices. UNIT DESIGN—Indoor and outdoor coils are computer -designed for optimum heat transfer. Vertical outdoor fan discharge carries sound and air up and away. Heavy-duty base rails provide for ex- tra support and feature forklift slots (Model 542E only) for easier and safer handling before installation. The high-voltage inlet panel is designed to accommodate a field -installed electrical discon- nect. A low -voltage terminal block simplifies thermostat connec- tions. Refrigerant service connections make checking operating pressures easier. TIME/TEMPERATURE DEFROST system is used to increase heating cycle efficiency. This type of defrost system has proven to be very reliable. The time/temperature control "looks" for coil icing conditions only at preset time intervals, starts the defrost cycle only if the defrost thermostat senses icing conditions, and automatically ends the defrost cycle when the coil has warmed sufficiently to melt the ice. WEATHERIZED CABINETS are constructed of heavy-duty. phosphated. zinc -coated steel; and finished with corrosion -resist- ant, modified alkyd, fade -resistant. baked Malibu beige enamel. Interior surfaces of the blower section are insulated to help keep the conditioned air from being affected by the outdoor ambient temperature. ACCESSORIES & OPTIONS SUPPLEMENTAL ELECTRIC HEATERS that mount "inside 'ttie heat pump blower compartment are available in a variety of KW and voltage options. SINGLE -POINT WIRING KITS are available for use with most supplemental electric heaters to permit a single power supply for both the heat pump and the heater; thereby, reducing installation costs. A FULL LINE OF ROOFTOP SYSTEM ACCESSORIES is availa- ble for field installation, including: plenums (not required with the 542D), curbs, horizontal or plenum economizers, flexible duct packages, concentric diffuser boxes, barometric relief dampers. and filter racks. EFFICIENCY -ALARM CIRCUIT—This circuit locks out the com- pressor and lights up the room thermostat emergency -heat light if there is a compressor malfunction. This warning reduces the likelihood of high-cost heating bills by alerting occupants to the problem. This optional circuit also provides compressor protection by locking out the compressor if any of the other protection devices in the - system have detected a malfunction. The com- pressor and efficiency -alarm circuit can be manually reset with the room thermostat. ADDITIONAL ACCESSORIES & OPTIONS are available to meet the particular requirements of a variety of applications. See the System Accessories & Optional Equipment listings in this publica- tion.' Form No. PDS 542E.24.3D SPECIFICATIONS -MODEL 542E -SIZES 024 THRU 042 , MODEL 542E SIZE J024 J030 J036 P036 B042 P042 SERIES rt Volts -Phase (6JHZ) A 205-230- 1 A 208-230- 1 A 205-230- 1 2C6.230-3 A 230-1 208230-3 rating Voltage Range 197-253 197-253 197-253 187-253 20 -253 187-253 nit Ampacity for Wire Sizing 20.2 27.5 29.2 17.8 34.9 25.2 ,Minimum Wire Size (AWG)* 10 10 10 12 8 - 10 Total Unit Amps 16.7 22.7 23.9 14.8 28.7. 21.0 Compressor Rated Load Amps 14.2 19.7 20.8 11.7 24.4 16.7 Locked Rotor Amps 66 82 85 87 94 95 Outdoor Fan Motor. DD. PSC Wattst & Spds)' 190& 1 190& 1 190& 1 190& 2 155& 1 155& 2 Full Load Amps 1.0 1.0 1.0 1.0 0.9 0.9, Indoor Blower Motor. DD. PSC (HP & Speeds) 1 /§ & 2. 1/4 & 2 1/3& 2 1/3& 2 1/3& 2 1/3& 2 Full Load Amps 1.5 2.0 2.1 2.1 3.4 3.4 Max Branch Circuit Fuse Size (Amos) Rated Cooling Capacity'- 95`F (61uh)-- 30 24.200 45 29.400 45 25 35.400 35,400 50 40.000 4O0 40.000 SEER: 7.80 8.40 8.20 8.20 8.50 8.50 EERt - - - 7.63 - 7.93 Rated Heating Capacity; 47`F (Btuh) t 25.400 29.000 35.800 35.800 41,500 41,500 HSPF (Minimum -Region IV)t 6.00 6.10 6.30 6.30 6.30 6.30 COP: - - - 2.68 - 2.84 ARI Sound Ratino Number- UZI Compressor Type 19 19 19 1 19 ':. It Hermetic 18 1 18 Compressor Temp & Overcurrent Protection Standard (Internal Line Break Compressor Internal Pressure Relief Valve Standard Compressor Vibration Isolators Standard Vapor -Tube Accumulator Standard Two -Way -Flow Refrigerant Metering Device MET JET With Piston Low -Pressure Switch Standard Compressor Crankcase Heater Standard Compressor Quick -Start Components Standard -All Single -Phase Units Refrigerant Service Ports Standard Heat -Saving Reversing Valve Standard e -Temperature Defrost System Standard MPROTEC' Compressor Cycle Protection Optional Efficiency -Alarm Circuit Optional Vapor -Tube Filter -Drier Optional High -Pressure Switch Optional R-22 Refrigerant Amount (Factory Charge) • o • • • 's: _ Coil Face Area (Sq Ft) -No. Circuits 6lbs-4 oz ..r.,..r 3.67-3 6 lbs -10 oz .s•: -- 3.67-3 ! 8lbs-4 oz ,oma ..r 3.67-4 8lbs-8 oz -^-,;^•' j 4.67-5 Height x Width (In.) 24 x 22 24x22 24 x 22 24x 28 Rows & Fins Per Inch 3& 14 3& 14 4& 14 3& 14 Blower Wheel Diameter x Width In. 10 x 6 10 x 6 10 x 8 lox 10 Rated Cooling Airflow(Ft3/Min ttt 850 1050 1300 1535 External Static Pressure (In. wc)0 t 0.10 0.15 0.15 0.15 Recommended Min Filter Size Sq In. t Standard -Type 408 504 624 737 Cleanable- or High -Capacity -Type 265 328 406 - 479 Condensate Drain Connection •11 1.7-7-17YR-1i Coil Face Area (Sq Ft) -No. Circuits 3/4MPT 10.57-3 310APT 3/4MPT 10.57-3 10.57-4 3/4MPT 14.26-5 Height & Width (In.) 24 x 63.44 24 x 63.44 24 x 63.44 30x 68.44 Rows & Fins Per Inch 1.41 & 20 2& 20 2& 20 2& 20 Fan Diameter In.) Two -Speed, Direct -Drive Biower 18 18 18 Stannard 22 PSC Energy -Saving Blower Motor Standard Two -Speed. Direct -Drive Outdoor Fant Optional Optional Optional I Standard Optional Standard PSC Energy -Saving Outdoor Fan Motor Standard Computer -Designed Refrigerant System Standard Insulated Blower Compartment' Standard Low -Voltage Terminal Block Standard Heavy -Duty Base Rails w/Forklift Slots Standard GJUse only copper wire lot held connections to the unit Woe sizes are based on 60•G copper conductor at b6•F 130'CI ambient temperature and the ampacrty shown in table. if at net than 0•C copper conductor is used. if ambient temperature is above 86•F, or it voltage drop of wire exceeds 2'7o of unit total rated voltage, determine wire size from ampacily shown and the aU0nal Electrical Code All 3-Dhase units have a 2 -speed outdoor fan motor and are thermostatically controlled to provide low -ambient cooling operation down to 40'F. Single-phase units are designed for Cooling operation down to 551 with 40'F low -ambient controls available lot field installation. I Rated in accordance with ARI Standard 240-77 and/or U.S. Government DOE test procedures. -Rated in accordance with ARI Standard 270-75. "See the an delivery chart for blower performance application data r Recommended field -supplied filter sizes shown are based on a velocity of 300 FVMin at the ARI rated cooling airflow. Air filter pressure drop should not exceed 0 08 in. we for unit to produce the rated Cooling performance. "'Model 5420060 units are furnished with two standard -type air filters (20x20xt). HP -78 NO DIMENSIONAL DRAWING Model 542E—Sizes 024 thru 060 MEETS DOE RESIDENTIAL q ` U ; CONSERVATION SERVICES PROGRAM STANDARDS. 0 A 542E REQUIRED CLEARANCE (Inches) -Y... Top of unit ..................: 48 Blower access door end.... 30 ,....: Duct side of unit............End . 12 opposite blower FOR Compressor access door access end .............. 12 16 side......... ... 30 Bottom of unit above 60-3/16 anticipated snow level.... 6 LIFT NOTE: Provision must be made for fresh ambient air to reach the q� outdoor coil without recirculation of the air from the outdoor fan discharge. _ 7 6-7/8 516 036 60-3/16 CONTROL ACCESS DOORN 8 DIA 8 DIA HIGH-VOLTAGE COMPRESSORXINC W-VOLTAGE INLET WITH MULTIPLE ACCESS DOOR -\'LET KNOCKOUTS 3 r�34 17 A B 16 SLOTS BLOWER F FOR ACCESS DOOR 16 FORK 60-3/16 32-3/16 LIFT 5 _ 1 g 17 A B 16 163 BLOWER F G ACCESS DOOR 16 3 8 4 60-3/16 T 1+ T 1 2 � 1 DIA/ . JNNNN---- L 62 I 62 \ MPT DRAIN KNOCKOUT P 28 P . 4 CONNECTION G 10 is 542E DIMENSIONS (Inches) OUTLET_ I I --N A— ,,--RETURN-AIR r RETURN -AIR INLET R Cl —ELECTRIC HEAT HIGH-VOLTAGE INLET WITH Q MULTIPLE KNOCKOUTS (NOT USED WHEN SINGLE -POINT WIRING KIT IS USED) A79071 Size A B C D . E I F G H J 024 & 030 60-3/16 32-3/16 24-13/16 21 11-1/2 1 13-5/16 57 6-7/8 6-15/16 036 60-3/16 32-3/16 24-13/16 21 13-3/4 1 13-5/16 57 4-5/8 6-15/16 042,048,& 060 68-3/16 40-3/16 1 30-13/16 1 21 1 16-3/8 1 17-5/16 65 5-1/8 7-1/2 Sizes K L M N P R S I T I U V 024 & 030 18-1/8 1-1/2 1 15-3/32 1 12-9/16 14-1/2 1 28-9/16 37-1/8 1 2 1 7/8 27-7/8 036 18-1/8 1-1/2 1 15-3/32 1 12-9/16 14-1/2 1 28-9/16 37-1/8 1 2 1 7/8 27-7/8 042,048.& 060 25 1-1/2 20-3/32 1 15-1/8 1 18-1/2 1 34-9/16 44-1/4 2 1 7/8 35-3/16 SHIPPING WEIGHTS, OPERATING WEIGHTS, & WEIGHT DISTRIBUTION C Top View Model 542E �u 542E Size Shipping Wt Obs) Operating Wt (Ibs) Corner Wt Ibs A B I C D 024 320 310 78 75 77 80 030 334 324 81 78 81 84 036 348 338 85 82 84 87 042 453 443 111 107 110 115 048 465 455 1 114 110 113 118 060 490 480 120 1 116 120 124 A� IB A 79115-A HP -76 we] 542D & 542E DETAILED COOLING CAPACITIES ndoor OUTDOOR COIL ENTERING AIR TEMPERATURE `F Ccil AiP 85 95 105 115 Ftp Capacity Total Capacity Total Capacity Total Capxity Total per. °F MBtuh Sys MStuh Sys MBtuh Sys MBtuh Sys Min EWB Total Sens LDS LWB KW Total Sens LDB LW8 KW Total Sens LDB LWB KW Total Sens LDS LWB KW 42E024' 71 27.6 14.9 60.9 59.6 3.13 25.9 14.3 61.7 60.4 3.33 24.0 13.6 62.5 61.3 3.52 211 12.9 63.4 62.1 3.70 800 67 25.6 180 568 55.4 3.05 23.8 17.3 57.8 563 3.23 22.0 16.6 58.7 57.1 3.39 201 15.8 59.6 58.1 3.56 63 23.6 21.0 53.0 51.3 2.95 21.9 20.2 54.0 52.2 3.13 20.3 194 55.1 53.1 3.29 186 18.6 56.1 54.0 3.45 11 28.0 15.5 62.2 60.9 3.19 26.3 14.9 62.9 61.6 3.40 24.3 14.3 63.7 62.3 3.59 21.4 13.6 64.4 63.1 3.78 900 67 26.1 19.0 582 56.6 311 24.2 183 59.0 57.5 3.29 22.3 17.6 59.9 583 3.46 20 4 16.9 60.7 59.1 3.63 63 24.1 22.3 54.5 52.5 3.02 •22.4 21.5 55.4 53.3 3.20 20.7 206 56.5 54.1 3.36 191 19.1 57.6 54.9 3.53 71 281 16.1 63.5 , 61.9 3.24 26.5 15.6 64.0 62.5 3.46 24.6 14.9 64.6 63.2 3.64 22.7 14.3 65.3 63.8 3.83 1000 67 26.3 20.0 59.4 57.7 3.16 24.5 19.4 60.1 58.4 3.35 22.6 18.6 60.9 59.1 3.53 206 17.8 61.7 59.8 3.70 63 1 24.6 1 23.6 558 53.5 309 22.9 22.6 56.7 54.2 327 21.3 1 21.3 58.1 54.8 3.45 198 19.8 594 55.5 3.62 542EO30 71 32.7 17.7 61.5 60.1 3.57 31.0 17.1 62.1 60.7 3.82 29.1 165 62.8 61.4 4.04 27.1 15.8 63.5 62.1 427 950 67 30.8 21.7 57.3 55.7 3.51 28.9 21.0 58.0 56.5 3.73 268 20.2 58.9 57.3 3.93 24.7 19.4 59.7 58.1 4.13 63 28.5 25.4 53.4 51.5 3.43 26.7 24.5 54.3 52.4 3.63 24.8 23.6 55.3 53.2 3.82 22.9 22.7 56.3 54.0 4.01 71 33.0 18.5 63.3 61.6 3.64 31.5 18.1 63.7 62.1 3.89 29.5 17.5 64.2 62.7 4.12 27.6 16.9 64.8 63.3 4.35 1100 67 31.3 23.2 59.1 571 3.59 29.4 22.5 59.7 57.9 3.81 27.3 21.8 60.3 58.6 4.02 152 21.0 61.0 59.3 423 63 29.3 27.4 55.2 53.0 3.52 27.4 26.5 .56.1 53.7 3.72 25.5 25.3 57.1 54.4 3.92 23.5 23.5 58.2 55.1 4.12 71 33.1 19.2 64.7 62.8 3.71 31.7 19.0 64.9 632 3.97 29.8 18.4 65.4 63.7 4.20 27.9 17.9 65.8 64.2 4.44 1250 67 31.6 24.5 60.5 58.4 3.66 29.7 13.9 61.0 59.0 3.88 27.7 23.3 61.5 59.5 4.10 25.7 22.6 62.0 60.1 4.32 63 1 300 1 29.2 1 56.8 54.1 3.60 28.0 28.0 57.8 54.7 1 3:82 26.3 263 59.1 55.2 4.03 246 24.6 60.4 55.8 4.24 542EO36 71 40.0 22.2 61.6 60.5 4.44 37.7 21.4 622 61.2 4.70 35.3 20.6 62.9 61.8 4.94 32.8 19.8 63.6 62.5 5.18 1200 67 37.3 27.3 57.4 56.2 4.32 34.9 26.3 58.2 57.0 4.55 32.4 25.4 59.0 57.5 4.77 30.0 24.4 59.8 58.5 4.99 63 34.6 31.9 53.7 52.1 4.19 32.4 30.9 54.4 52.8 4.41 30.4 29.8 55.3 53.5 4.63 28.3 28.3 56.2 54.2 4.85 71 40.4 23.3 62.9 61.7 4.53 38.1 22.5 63.4 62.2 4.79 35.7 21.7 64.0 62.8 5.03 33.2 20.9 64.6 63.5 517 1350 67 37.8 28.9 58.7 57.4 4.41 35.4 28..0 59.4 58.1 4.64 32.9 27.0 60.1 58.7 4.86 30.4 26.0 60.8 59.4 5.09 63 35.3 34.0 55.0 53.2 4.29 33.2 32.8 55.9 53.8 4.52 31.2 31.2 57.1 54.4 4.75 29.1 29.1 58.3 55.0 4.98 J1 40.7 24.3 63.9 62.6 4.60F .5 23.6 64.4 63.1 4.81 35.8 21.7 64.9 63.] 5.11 331 21.9 65.5 64.3 5.36 1500 67 38.1 30.4 59.8 58.3 4.48.8 29.6 60.4 58.9 4.73 33.3 28.6 61.0 59.5 4.95 30.8 27.6 61.7 60.1 5.18 63 36.0 35.7 56.3 54.0 4.39.0 1 34.0 1 57.5 1 54.6 1 4.63 32.0 32.0 58.8 1 55.1 4.87 30.0 30.0 1 60.1 55.7 1 5.11 542E042 71 45.5 24.6 61.4 60.0 4.77 42.6 23.6 62.2 60.8 5.06 39.6 22.5 63.0 61.6 5.36 36.5 21.4 63.8 62.4 5.65 67 42.2 29.8 57.5 55.8 4.65 39.3 28.6 58.4 56.7 4.92 36.3 27.5 59.2 57.5 5.19 33.4 26.3 60.1 58.4 5.46 63 38.9 34.7 53.8 51.7 4.52 36.3 33.4 54.7 52.6 4.79 33.6 32.1 55.7 53.4 5.05 30.9 30.8 56.7 54.2 5.31 71 46.1 25.8 63.1 61.5 4.87 43.1 24.8 63.8 62.2 5.17 40.1 23.8 64.4 62.9 5.41 63.5 5.76 1500 67 43.0 31.9 59.1 57.3 4.77 40.0 30.7 59.9 58.0 5.04 36.9 29.5 60.7 58.8 5.3261.5 59.5 5.59 63 40.0 37.4 55.5 53.1 4.65 37.2 36.0 56.5 53.8 4.92 34.5 34.3 57.5 54.6 5.19 58.6 55.3 547 71 461 26.7 64.6 62.7 4.9643.3 25.9 65.1 63.3 5.27 40.3 24.9 65.6 63.8 5.57 H37.O22.865.1 66.264.4; 5.86 1700 67 43.6 33.9 60.4 58.4 4.88 40.6 32.7 61.1 59.0 5.16 37.4 31.5 61.8 59.7 5.43 62.5 60.3 5.71 63 40.8 39.7 57.1 54.2 4.11 38.1 37.9 58.1 54.8 5.05 35.6 35.6 59.4 55.4 5.34 60.8 55.9 5.63 542E048 71 53.5 29.4 62.0 60.6 6.13 50.2 28.3 62.7 61.3 6.52 46.6 27.0 63.4 62.1 6.89 43.0 25.8 64.2 61.8 116 1550 67 49.9 36.0 57.9 56.3 5.96 46.3 34.6 58.8 57.2 6.31 42.8 33.2 59.6 58.0 6.65 39.3 31.8 60.5 58.8 6.99 63 46.2 42.1 54.2 52.2 5.78 43.0 40.5 55.2 53.0 6.11 39.9 38.9 56.1 53.8 6.45 36.8 36.8 57.1 54.6 6.79 71 54.2 30.7 63.3 61.8 6.25 50.8 29.7 63.9 62.4 6.64 47.1 28.4 64.6 63.1 7.01 43.4 27.2 65.2 63.8 7.39 1750 67 50.5 38.1 59.3 57.5 6.08 47.0 36.8 60.0 58.3 6.44 43.5 354 60.8 59.0 6.78 39.9 34.0 61.5 59.7 7.12 63 47.2 44.8 55.7 53.3 5.92 44.0 43.0 56.6 54.0 6.26 40.9 40.9 57.8 54.7 6.61 37.9 37.9 58.9 55.4 6.% 71 54.6 32.0 64.4 62.7 6.36 51.1 30.9 65.0 63.3 6.75 47.5 29.8 65.5 63.9 7.13 43.9 28.7 66.0 64.5 7.51 1950 67 1 51.1 40.1 60.5 58.5 6.19 41.6 38.9 61.1 59.1 6.56 43.9 37.4 61.8 59.8 6.90 40.2 36.0 62.5 60.4 7.25 63 48.0 47.1 57.0 54.2 6.05 44.9 44.9 58.1 54.9 6.41 42.0 420 59.5 55.4 6.78 39.2 39.2 60.9 56.0 7.14 542DO60 & 542EO60 11 65.0 36.9 60.4 60.0 7.36 61.0 35.5 61.2 60.8 7.78 56.6 34.0 62.0 61.6 8.16 52.3 32.5 62.8 62.4 8.54 1900 67 60.5 44.7 56.3 55.7 7.11 56.4 43.1 57.2 56.6 7.48 52.4 41.5 58.0 57.4 7.83 48.4 39.9 58.8 58.2 8.18 63 56.3 520 52.5 51.6 6.86 52.6 50.3 534 52.4 7.21 49.0 48.3 54.4 53.2 7.56 45.4 45.4 55.4 54.0 7.92 71 66.0 38.9 61.8 61.2 143 62.0 37.6 62.4 61.9 7.85 57.6 36.1 63.1 62.6 8.24 53.2 34.7 63.8 63.3 8.64 2150 67 61.7 47.7 57.7 57.0 7.19 57.5 46.1 58.4 57.7 7.57 53.3 44.5 59.2 58.5 7.92 49.1 42.8 60.0 592 827 63 57.7 55.7 53.9 52.7 6.% 54.1 53.6 54.9 53.4 7.33 50.7 50.7 56.3 54.1 7.71 47.3 47.3 57.7 54.8 8.09 71 668 40.8 62.9 62.2 7.49 62.7 39.6 63.4 62.8 7.92 58.4 38.2 64.0 63.4 8.31 54.0 36.8 64.6 64.0 8.71 2400 67 62.8 50.1 58.8 1 580 1.27 58.4 49.0 59.5 58.6 7.64 54.2 47.3 60.2 59.3 8.00 49.9 45.6 60.9 59.9 8.35 63 59.1 588 1 554 53.7 7.05 55.7 55.1 56.1 54.3 7.45 52.3 52.3 58.1 548 7.84 48.9 48.9 59.5 55.4 I 24 NOTES: 1. Total and sensible capacities are net capacities. Blower motor heat has been subtracted. W,,ble heat capacdies shown are based on 80°F entenng air at the indoor -coif, For sensible capacities at other than 80°F, deduct 850 Btuh per 1000'ft3/min of indoor coil as for each degree w 80°F, or add 850 Btuh per 1000 h3/min of indoor coil air per degree above WE Total system KW includes compressor KW, outdoor fan motor KW, and indoor blower motor KW. HP -82 DETAILED HEATING CAPACITIES -Model 542E; Sizes 042, 048, & 060 -Model 542DO60 Outdoor C.Pil ' 6 Air Instantaneous Capacity (MBtuh) Integrated Capacity (MBtuh) Total Power input (KW) Instantaneous Capacity (MBtuh) Integrated Capacity (MBtuh) Total Power Input (KW) Instantaneous ' Capacity (MBtuh) Integrated Capacity (MBtuh) Total Power Input (KW) Temp Indoor Coil Air Temp (`F EDB) Indoor Coil Air Temp (`F EDB) Indoor Coil Air Temp (`F ED8) - (°F EDB) 65 1 70 75 1 65 1 70 1 75 165 70 1 71 65 1 70 1 75 1 65 1 70 1 15 1 65 1 70 1 75 65 1 70 1 75 1 65 1 10 1 75 1 65 1 70 1 75 Size Indoor Coil Airflow (Ft /Min) Indoor Coil Airflow (Ft -1, Min) .Indoor Coil Airflow (Ft3 Min) Oat 1300 1500 1700 62 51.8 506 495151.8 50.6 1 49.5 1 458 4.70 482 53.1 51.81 506153.1 51.6 5061 4.51 1 469 481 54.2 1 51.8 51.61 54.1 1 52 S 5161 4.581 4.701 4.82 57 484 47.3 462 484 47.3 1 46.21 4.44 4.55 466 496 48.4 147.2 149,6 484 4721 4 44 1 4.55 467 506 493 48.1 1 506 149.3 481 1 4.45 1 4.57 1 4.68 52 450 43.9 42.8 45.0 43.9 42.8 4.31 4.41 4.51 46.1 44.9 438146.1 44.9 43.5 4.31 4.42 4 52 47.0 45.8 44 7 47.0 45.5 44.7 4.33 4.44 4.54 47 41.6 40.5 394 41.6 405 394 4.17 4.27 4.36 42.6 41.5 Q 4 42.6 415 404 4.18 4.28 4.38 435 42 3 41.2 43.5 423 41.2 4.21 431 4.41 42 382 37.1 36.1 369 35.9 34.9 4.04 4.12 4.20 39.1 38.1 37.0 37.8 368 35.7 406 4.15 4.23 39.9 388 37.7 38.5 37.5 36.5 4.09 4.18 4.27 37 348 33.8 32.7 32.1 31.3 30.3 3.90 3.98 405135.6 34.6 33.5 33.0 32.1 31.1 3.93 401 4.09 363 353 34.2 33.6 32.7 31.7 3.97 4.05 4.13 31 31.4 30.4 29.3 17, 6 26.7 25.7 3.76 383 3.90 32.1 31 2 301 2S.2 27.3 26.4 3.50 388 3.94 31.7 31.8 30 8 28.7 27.9 27.0 3.85 3.93 4.00 27 _ 28.1 27.2 26.2 25.1 24.1 23.2 3.62 3.68 3.74 28.9 28 0 26.9 25.1 24.3 23.9 3 67 3.73 3 80 29 5 25.6 17.5 26.2 25.3 24.4 3.72 3.19 3.85 21 25.1 24.1 23.0 226 21.7 20.8 3.48 3.54 3.59 25.7 24.7 23 7 23.1 22.3 21.4 353 359 3.65 26.3 25.3 24.3 23.8 228 21.91 3.58 3.65 3.71 17 21.9 20.9 )9.91 20.1 192 18.3 3.33 3.39 3.4: 22.5 21.5 20.5 206 19.7 18.8 3.391 3.45 3.50 23.0 22.0 21.0 21.1 20.2 19.3 3.45 3.51 3.57 12 18.7 17.8 16.81 17.6 16.7 15.8 3.19 3.24 3.29 19.3 18.3 17.3 18.1 17.2 16.3 3.25 1 3.30 3.35 19.5 18.8 17.8 18.6 17.7 16.7 3.32 3.37 3.42 7 15.6 14.6 13.61 15.1 14.2 13.3 3.04 3.09 3.13 16.1 15.1 14.1 15.6 14.7 13.7 3.11 3.16 3.20 16.5 15.5 14.5 16.0 15.1 14.1 3.19 3.23 3.28 2 12.4 11.5 10.5 12.4 11.5 10.5 2.90 2.94 2.98 12.9 11.9 10.9 12.9 11.9 10.9 2.98 3.02 3.06 13.3 12.3 11.3 13.3 12.3 11.3 3.05 3.09 3.13 -3 9.23 8.31 7.381 9.23 8.31 7.38 2.76 2.79 2.83 9.671 8.671 7.691 9.67 8.67 7.69 2.84 2.87 2.91 100 9.00 8.02 10.0 9.00 8.02 1.92 2.95 2.99 -8 6.06 5.15 4.25 6.06 5.151 4.251 2.61 12.65 1 2.67 6.461 5451 4.491 6.46 5.45 4.49 2.70 2.13 1 2.76 6.761 5.73 4.76 6.761 5.73 476 2.79 12.82 2.85 -13 2.89 2w001 1.111 2.891 2.001 1.111 2.47 12.501 2052 1251 2.241 1.291 3.25 2.24 1.29 2.56 2.591 2.61 3.51 2.47 1.511 3.511 247 1.511 2.661 2.68 2.70 Size Indoor Coil Airflow (Ft3/Min) Indoor Coil Airflow (Ft3/Min) Indoor Coil Airflow (Ft3/Min) 048 1550 •1750 1950 62 59.3 57.9 56.7 59.3 1 57.9 1 56.7 5.82 5.97 6.13 60.4 59.91 57.7 60.4 59.9 1 57.7 5.80 5.96 6.11 61.4 60.0 58.6 61.4 60.0 58.6 5.80 5.96 6.12 57 55.8 54.5 53.2 55.8 54.5 53.2 5.60 5.74 588 569 55.5 54.2 56.9 55.5 54.2 5.59 5.73 5.88 57.8 564 55.1 57.8 56.4 55.1 5.59 5.14 5.89 52 52.3 51.0 49.8 523 51.0 49.8 5.37 5.51 5.64 53.3 52.0 50.7 53.3 52.0 50.7 5.37 5.51 5.64 54.1 52.8 51.6 54.1 52.8 51.6 5.38 5.52 5.66 47 48.8 47.6 46.4 48.8 47.5 46.4 5.15 5.27 5.40 49.7 45.5 47.3 49.7 48.5 47.3 5.16 5.28 5.41 50.5 49.3 48.1 50.5 49.3 48.1 5.18 5.31 5.43 42 45.3 44.2 43.0 437 42.7 41.5 4.93 5.04 5.15 46.1 45.0 43.8 44.5 43.4 42.3 4.94 5.06 5.17 46.8 45.7 44.6 45.2 44.1 43.0 4.97 5.09 5.20 37 41.8 40.8 39.6 388.7 37.7 36.6 4.70 4.81 4.91 42.6 41.5 40.4 39.4 38.4 37.4 4.73 4.83 4.94 43.2 42.2 41.1 40.0 39.0 38.0 4.76 4.87 4.97 32 38.3 37.3 36.21 33.6 32.7 1 31.8 4.48 4.57 4.66 39.0 380 36.9 34.2 1 33.3 32.4 4.51 4.61 4.70 39.6 38.6 37.6 34.7 33.9 30.0 4.55 4.65 4.75 27 34.9 33.9 32.1 1 31.0 30.1 29.1 4.26 4.34 1 4.42 35.5 34.5 33.4 31.6 1 30.6 29.7 4.30 4.39 4.47 361 35.1 34.0 32.0 31.1 30.2 1 4.34 4.43 4.52 21 31.5 30 4 29.3 28.3 27.4 26.4 4.04 4.11 4.19 32.1 31.0 29.9 28.9 28.0 25.9 4.08 4.16 4.24 32.6 31.6 30.5 29.4 28.4 27.5 4.13 4.21 4.29 17 280 26.9 25.8 25.7 24.7 23.7 3.81 3.88 3.95 18.6 27.5 26.4 26.2 25.3 24.2 3.86 3.94 4.00 29.1 28.1 26.9 26.7 25.7 24.7 3.92 3.99 4.06 12 24.6 23.5 22.4 23.1 22.0 21.0 3.59 3.65 13.42 3.71 25.1 24.0 22.9 23.6 22.6 21.5 3.65 3.71 3.77 25.6 24.5 23.4 24.1 13.0 21.9 3.71 3.77 3.83 7 21.2 20.0 18.9 20.4 19.4 18.3 3.31 3.48 21.7 20.6 19.4 20.9 19.9 18.8 3.43 3.49 3.54 22.2 21.0 19.8 21.4 20.3 19.2 3.50 3.55 3.61 2 17.7 16.6 15.4 17.7 16.5 15.4 3.14 3.19 3.24 18.2 17.1 15.9 18.2 17.1 15.9 3.21 3.26 3.31 18.7 17.5 16.3 18.7 17.5 16.3 3.28 3.33 3.38 - 3 14.3 13.1 12.0 14.3 13.1 12.0 2.92 2.96 3.01 14.8 13.6 12.4 14.8 13.6 12.4 3.00 3.04 3.08 15.1 14.0 12.7 15.2 14.0 12.7 3.01 3. I I 3.15 -8 10.9 9.65 8.52 10.9-1-M 8.52 2.70 2.73 2.77 11.3 10.1 8.85 11.3 10.1 8.85 2.78 2.81 1.84 11.7 10.5 9.19 11.7 10.5 9.19 2.86 2.89 2.92 -13 7.44 6.19 5.06 7 44 6.19 5.05 2.48 2.50 2.53 1.84 6.GU 5.3C 7.84 6.60 5.84 2.56 2.59 2.61 8.24 6.58 5.64 8.24 6.98 5.64 2.65 2.67 2.69 Size Indoor Coil Airflow (Ft3/Min) Indoor Coil Airflow (Ft3/Min) Indoor Coil Airflow (F13/Min) 060 1900 2150 2400 62 71.1 E9.5 67.91 71.1 69.5 67.91 6.89 7.04 7.18 72.5 70.S 69.3 1 72.5 1 70.9 69.3 1 6.90 7.05 7.20 73.7 72.1 70.5 73.7 72.1 70.5 6.93 7.09 7.24 57 66.8 55.3 63.8 66.8 65.3 63.8 6.66 6.80 6.93 68.2 66.5 65.0 68.2 666 650 6.68 6.82 6.96 69.3 67.7 66.2 69.3 67.7 66.2 6.72 6.86 7.01 52 62.5 161.1 59.6 62.5 61.1 59.6 6.43 6.56 6.69 63.8 62.3 60.8 63.8 62.3 60.8 6.46 6.59 6.72 64.8 63.3 61.9 64.8 63.3 619 6.50 6.64 6.77 47 583 56.9 55.5 58 3 56.9 55.5 6.20 6.32 6.44 59.4 58.0 56.6 59.4 58.0 56.6 6 24 6.36 6.48 60.4 59.0 57.6 60.4 59.0 57.6 6.29 6.42 6.54 42 54.0 52.7 51.3 52.1 50.9 49.5 5.97 6.09 6.19 55.1 53.7 52.4 53.2 1 51.9 1 50.6 6.02 6.14 6.25 56.0 54.6 53.3 54.0 52.7 51.4 6.08 6.20 6.31 37 49.7 1 485 47.1 1 46.0 44.8 143.6 5.74 5.85 5.94 50.7 494 48.1 46.9 1 45.7 44.5 5.80 5.91 6.01 515 50.3 48.9 47.7 468 45.3 5.86 5.97 6.08 32 45.5 144.3 43.01 399 38.8 37.7 5.52 5.61 5.70 46.3 4 5. 1 43.9 406 39.6 38.5 558 5.68 5.77 147.1 45.9 44.61 41.3 40.3 39.2 1 5.65 5.75 5.84 27 41.3 40.1 38.8 367 35.6 34.4 5.18 5.37 5.44 42.2 40.9 39.7 37.4 36.3 35.2 5115 1 5.44 5.52 42.9 41.7 40.4 1 38.1 37.0 35.8 5.43 5.52 5.60 22 37.2 35.9 34.6 33.5 32.4 31.2 5.05 5.12 5.19 38.0 36.7 35.4 34.2 33.1 31.9 5.13 5.20 5.27 138.7 37.4 36.1 34.9 33.7 32.5 5.21 5 2S 5.36 17 33.1 3i.8 30.4 30.3 29.2 27.9 4.81 4.88 4.94 33.8 32.5 31.2 31.0 19.9 28.6 4.90 497 5.03 34.5 33.2 31.8 31.6 30.5 29.2 4.99 5.061 5.12 12 28.9 127.6 26.2 27.2 25.9 24.6 4.58 4.64 1 4.69 29.7 28.3 26.9 27.8 26.6 25.3 4.67 4.73 4.78 30.3 29.0 27.6 28.4 27.2 25.9 4.77 4.83 4.88 7 248 23.5 12.0 24.0 22.7 21.4 4.35 242 227 24.6 234 22.0 4.45 449 4.54 26.1 14.7 23.3 25.2 239 22.6 4.55 4.60 4.64 2 20.7 193 17.9 20.J 19.317.9 4.11 21.3 2U.0 18.5 21.3 20U 18.5 4.22 4.26 4.29 21.8 20.5 19.0 21.8 10.5 190 4.33 4.37 4.40 -3 16.6 15.2 13.7 16.6 15.2 13.7 3.88 M14.4325.5 17.1 15.8 14.2 17.1 15.8 14.1 399 402 4.04 17.6 16.3 14.8 17.6 16.3 14.8 4.11 4.13 4.16 -8 114 110 9.48 124 11.0 9 48 3.64 13.0 11.6 10.0 13011.6 10.0 3.71 3.78 3.80 134 12.0 10.5 13.4 12.0 10.5 3.89 3.90 3.92 - 13 8 29 f °5 5.30 8 29 6.85 5.30 3.41 8.79 7.35 5.76 8.79 7.361 5 761 354 1 3.55 1 3.55 9.21 7.81 6231 9211 781 6231 367 1 3.67 1 3.68 NOTES: L Instantaneous heating capacity values shown include indoor blower motor heat. These values ignore the effect of outdoor coil frost buildup. 2. Integrated heating capacity values shown are net values t6 which effect has been subtracted. To obtain total system heating capacities, add the heating capacity of the supplemental electric heaters to the integrated capacities. 3. Total power input values include the compressor, outdoor fan, and indoor blower motors. • HP•84 . V/ W ' .. Specifications for your solid-state setback thermostat ELECTRICAL RATING: Heating: 24 volts 60 Hz. .15 to 1.0 amps Cooling: 1.5 amps max. @ 30V 60 Hz. max. HEAT ANTICIPATOR: Fixed for 0.1 to 1.2 amps COOL ANTICIPATOR: Fixed for 0 to 1.5 amps 30V max. TEMPERATURE SELECTORS: High temperature — Red Low temperature — Blue TEMPERATURE RANGE: 40°F to 90°F TIMER FUNCTION: ® Automatically raises or lowers room temperature to control points selected with Hi -Lo temperature selectors. One period every 24 hours. Minimum period which may be selected for either Hi or Lo temperature setting is 4 hours. ® Powered by automatic recharge able battery* (maintained at full charge by the normal 24 -volt ther- mosat circuit). e Dial turns counterclockwise. ® Dial reads AM/PM • Adjustable pins to select reset times: Hi (Red) for high temperature Lo (Blue) for low temperature MOUNTING: Wiring wall plate mounts on wall. Sub- base contains selector switches for sys- tem or fan functions. DIMENSIONS: 33/0" high, 6'/2" wide, 2'/a" deep. ACCESSORIES: Adaptor plate assembly: For mounting on vertical or horizontal outlet box. Replacement battery. 'Normal battery rife 6-10 years. Your independent Lennox dealer: Ask h 3 Y it=` ; about or"-quality products € •z U your Q+' 4 or system's ea ie[ at its b �•r.�•.'-ri .f^'��•!�-: •f. -•�.'a N. A•.a+c�, .7'r.;.�y,..�.wT� _ `„'�'4.!.�rf�!'; ,.t 'rV..S::':I..•;i..' :.T.±`5��"'^:'r•��. -..' aa7^..Jg!''.•'�•!'' _ �:1:��.' i.l.. -y, 1 _:a•`r•'•:••J(d' �1r`, ,_ism - `• � .'^.�j• - •1:, :r - _'ri„. .•.J. .. AIR CONDITIONING Y HEATING SST -771 -MIO (62A80) Litho USA 1731-A WALTER STREET • VENTURA, CALIFORNIA 93003 PHONE (805) 642-6727 August 26, 1985 B -15549-P1 85-8-351 Robert C. Monroe P.O. Box 5132 La Quinta, CA 92253 Project: La Quinta Executive Office Building La Quinta, California . Riverside County, CA Subject: Percolation Testing Dear Sir: As requested, we have performed the necessary drilling and testing for the sewage disposal .. feasibility report for the proposed office building in the La Quinta area of Riverside County, California. The scope of work was based on the current Riverside County guidelines as contained in their publication "Waste Disposal for Individual Homes, Commercial and Industrial", and on the tentative map submitted to our office. The property is located on Calle Estado and is legally known as Lots 3, 4 and 5, Block 10, Desert Club Tract, Unit No. 1, Map Book 19/75. It is proposed to develop this approximately 0.34 acre parcel with an office building. Septic tanks and seepage pit disposal systems are recommended for this property, due to the relatively flat nature of the site and the limited leaching area. The property is located in the field as being on the north side of Calle Estado, east of Avenue Bermudas, La Quinta, Riverside County, California. 4 One test•and logging hole was drilled on the property on August 23, 1985 using a 8" diameter hollow stem auger powered by a CME 45B drill rig. No water was detected in our boring which was drilled to a depth of fifty (50) feet below existing grade. The test hole was presoaked on August 23, 1985, and tested. The test and logging hole was excavated in the proposed area as indicated on the plot plan. The location of the boring was determined by pacing and sighting from the existing road and other prominent features. The location of the boring should only be considered accurate to the degree implied by this method. BAKERSFIELD (805) 327.5150 VENTURA LANCASTER (805) 642-6727 (805) 948.7538 SANTA BARBARA (805) 966.9912 PALM SPRINGS (714) 328-9131 SAN LUIS OBISPO (805) 544.6187 August 26, 1985 B -15549-P1 85-8-351 Percolation tests were performed by filling the hole with a garden hose and measuring the drop in the water surface at regular intervals. Water was added after each reading. Tests - were performed for approximately 60 minutes, with readings taken approximately every. ten minutes. Test results are summarized below: Test No. Rate 1 2.2 gal/ft2/day Seepage pits may be designed in the areas of the tests using an absorption rate of 2.2 gal/ft/-/day. The seepage pits should be located in the area of the tests except that the minimum setbacks should be as contained in the County Ordinance. All systems should operate by gravity flow. No grading should be necessary in the area of the seepage pits, which should be bottomed approximately thirty-five (35) feet to forty (40) feet below the existing ground surface. Because of the large lot size, it appears that there will be sufficient area for the disposal system and required expansion area, and an area for a swimming pool or other large structure. Based on the data presented in the report and using the recommendations set forth, it is the judgement of this engineer that there is sufficient area on the property in question to support individual sewage disposal systems that will meet the current codes and standards of the health department. Based on the data presented in the report and the testing information accumulated, it is the judgment of the engineer that the ground water table should not encroach within the current allowable limit set forth by County and State requirements, when the recommendations of this report are followed. Respectfully submitted, BUENA ENGINEERS, INC Reviewed and Approved ' Gam= 24ssz Craig S. Hill Raymond E. Brannen CE 38234 " CE 28966 CSH/RMB/ms X-1 PERC Copies: 6 - Monroe 2 - PS File 1 - VTA File BUENA ENGINEERS, INC. DATE 8/23/85 LOG OF BORING for La QuintaBa Ei1xxecc1utive Office BORINGgNO. 1 Job No. g -15549-P1 Report No. 85-8-351 LOCATION Per plan .0 c, 0 o V)o ;? 3 m DESCRIPTION }' 3 , �D °- L �Cv. >. ~ v0i c 0 (U V a L �Uf1. REMARKS AND ANALYSIS Tan silty very fine to fine sand Al Silt balls in cuttings from 10' - 50' 5 '10 15 20 25 30 35 40 45 7U Adie D Project Test Hol De Reading No. Time Time Interval Total Depth of Hole Ft Initial Water. Level F Final Water Level In Water Level Comments 1 .10 40.0 26.0 18.0 8.0 2 10 40.0 26.17 23.0 3.17 .3 10 40.0.. ..... 25.83.... .22.5 .3.33 4 10' 40.0 26.0 24.0 2.0 5 10 40.0 26.33 22.17 4.16 6 10 40.0 25.75 19.83 5.92 FINAL TEST DATA - SEEPAGE PITS Q = 9DR where = f L At Project: La Quinta Executive Office Building By: Remarks: Boring No. Dia.(ft) Depth Before Test Date: -8-23-85 Depth After Time Read (*fin) Time Interval (Min) Fall (Ft) Time Int.- (Hr) Rate Ft/ Hr. Wall 1 'Length Wall 2 Length Ave. Wall Length (ft) Q Gal/ sq ft/ day I 10 8.0. .17 '48.'G 26.00 22.0 _ 9.8 18. 10 3.17 .17 19.0 24.59 3.5 10 3:33 .17 19.98 25.8322.5 24.17 3.7 I 10 2.0 .17 12.0 26.0 25.0 2.2 24.0 10 - 4.16 .17 -24.96 26.33 24.25 4.6 22.17 10 5.92 .17 35.52 99-79 22.79 7.0 19.83 I I w v GAu� �Art P� ca P- TEI�Fa-IcriE Po[� i P- TEI�Fa-IcriE Po[� `•: � � �•'°i' � '4: CXr STING � U G?U � �= ',, - := - - - - ; ; , ` 'ice• - 7-7, e.; r 06 P- TEI�Fa-IcriE Po[� SEEPAGE N DESIGN MIH DIA. 4!-d MIN. COVER 18� i� i BUILDING PAPER a4O .v i 00 0 00A .. 0 O o ° o SOLID PIPING • ° °� 0 TO SEPTIC TANK • o D - o 0 �-3/4 TO 2 1/2'� c • :# ';, ;� CLEAN UNIFORMLY o • o,to _ , SIZED ROCK ° ° PERFORATED PIPE n "MIN. DIA. .0 F °o GROUND WATER 00 IS ENCOUNTERED s ° PIPE N TEL TE M AT ° TOP OF SAND.) :'• ''� 10-0" MIN; CLEAN COURSE.SAND IF ,• f; GROUND WATER IS ENCOUNTERED GROUND WATER E H-17 - 10 (REV.::10-84 HOUSE F-1 11 SEPTIC TANK / DISTRIBUTION BOX ;S 4 , I SEEPAGE PIT 2 MIN. a� I SEEPAGE I PIT Recommended Installation Techniques and Maintenance of Sewage Disposal Systems A. Problems Associated With Leachfield/Seepage Pit Construction. 1. Smearing of sidewall and bottom surfaces during construction reduces absorption . rate. 2. Bottom surface compaction by workers or equipment reduces absorption rate. 3. Silting of open excavation by rain, by crumbling of walls, or by windblown soil, reduces absorption rate. Recommended leachfield/seepage pit construction to minimize damage to soil: 1. Work should be scheduled only when infiltrative surfaces can be covered in one day because windblown silt or rain can clog the soil. 2. In clayey soils, work should be done when soil moisture content is low. 3. Bottom and sidewall areas should be left with a rough, open surface. Compaction, smearing and puddling occurs primarily in moist soils containing greater than 25% clay by weight. Any smeared or compacted surfaces should be scarified. 4. In clayey soils, shallow systems should be constructed to place infiltrative surfaces in more permeable horizons and to enhance evapotranspiration. 5. Bottoms of the trenches or beds should be level throughout to prevent localized effluent overloading. 6. Surface- runoff should be diverted around open trenches to limit siltation of bottom area. 7. Properly constructed distribution boxes or junction fittings should be installed to maintain equal flow to each trench. B. Recommended during construction to ease inspection and pumping tasks that must occur later: 1. Risers to the ground surface and manholes should be installed over the septic tank inspection ports and access ports. 2. Risers should be large enought to allow one person to stand over the access port and stir the tank contents as it is pumped to assure sludge and scum accumulations are removed. 3. Leachfields/seepage pits should include an inspection pipe to check the water level. �. Conventional on-site system maintenance. 1. Septic tanks for single. family dwellings or commercial discharges should be inspected at a frequency of every two to five years to determine sludge and scum depths. Septic tanks should be pumped every two years if garbage grinders or dishwashers discharge into the septic tank. 2. Conservation and reduction of solids generated are recommended. Solids generation can be reduced by putting food scraps and nonbiodegradable items in the. garbage and avoiding pouring grease and inorganic salts, such as detergents and drain cleaners into the sink. 3. If on-site water softener regeneration is necessary, minimum salt use in water softner is recommended. This can be accomplished by. minimizing regeneration time or limiting the number of regeneration cycles. 4. Caution should be excercized in the use of certain detergents which, over a period of time, will clog the soil. Possible Cause Inadequately Sized Tank High Groundwater Inadequate Depth of Bedrock Slow Percolation Rate Fast Percolation Rate System Located -"in Areas Subject to Flooding System Too Close to Cut, Embankment, or Steep Slope Excessive Terrain Slope Inadequate Sized Leaching System Improper Construction Improper Operation and Maintenance Abuse of System System Density Too High Atmosphere Conditions Trap Odors From Roof Vents Improperly Covered/Sealed Inspection and Pump -Out Ports Gravel Soils or Soil Channels, Cracks or Fissures Well/Surface Water Setback Distances Inadequate Reasons For Septic Tank System Problems Problem Odors Disease Ground- Surface . or Surfacing Plumbing Frequent Trans-- Water Water Nuisance Effluent Backup Pumping mission Pollution Pollution "X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X Q GUIMU Ennineers,lnc. DEC 21985 CITY OF LA OUINTA COMMUNITY DEVELOPMENT DEPT 1731-A WALTER STREET • VENTURA, CALIFORNIA 93003 • November 19, 1985 Rick Johnson Construction P.O. Box 2288 Indio, CA 92202 Project: -78-060 Calle Estado, La Ouinta Executive Office Lan Ouinta, CA Subject: Field Density Testing - Commericai Pad PHONE (805) 642-6727 B -15605-P1 85-11-319 Submitted 'herewith is a report of testing and intermittent observations performed during the grading of the above referenced project. Grading operations were performed by Dateland Construction using conventional heavy equipment. Testing performed as per authorization of Brick Johnson Construction. Test results are presented on the attached test report sheet with their estimated locations plotted on the accompanying plan. Compaction tests were performed in accordance with ASTM D 2922-81 and ASTM D 3017-78, Nuclear Test Method. Maximum density -optimum moisture was determined in accordance with ASTM D 1557-78, Method A, five (5) layer curve. Test results are as follows: Ken I� - 0 1 Light gray silty fine sand Tan silty fine sand VENTURA (805) 642.6727 109.2 pcf 12.4% 110.2 pcf 8.77 LANCASTER (805) 948-7538 BAKERSFIELD SANTA BARBARA PALM SPRINGS SAN LUIS OBISPO (805) 327.5150 (805) 966-9912 (619) 328.9131 (805) 544-6187 November 19, 1985 -2- B- 15605-P 1 85-11-319 Discussion: 1. The purpose of the testing was to verify compliance with the project specifications as well as those of the City of La Quinta. 2. Prior to grading the site was cleared of all trash and major vegetation. 3. The building area was then overexcavated two (2) feet below existing grade. The bottom was then scarified six (6) inches, watered and compacted to the. required compaction. 4. The 'previously removed soils. were then replaced in thin layers moisture conditioned and compacted. Fill material was then imported to raise pad elevations to finish grade. 5. A total of twelve (12) density tests were performed during the grading of the pad. 6.' Test results indicate that a minimum of ninety percent (90%) of relative compaction has been obtained within the areas tested. 7. Based upon intermittent observations and testing during the grading operations, from September 6, 1985 through- September 11, 1985 on this project, it is our opinion that the project specifications have been met. 8. We make no warranty, expressed or implied, 'except that our services were performed in accordance with engineering principles generally accepted.at this time and location. 9. As used herein, the term "observation" implies only that we observed the progress of the work we agreed to be involved with, and performed tests -on which together we based our opinion as to whether the work essentially complies with the job requirements. 10. With any manufactured product, there are statistical variations in its uniformity, and in the accuracy of tests used to measure its qualities. As compared with other manufactured products, field construction usually has wider fluctuations in both product and test results. Thus, even with very careful observation and testing, it cannot be said that all parts of the product comply with the job requirements. Therefore, 'our opinion, based on observing and testing the work, means only that we performed our services in such a manner as to have reasonable certainty that the work essentially complies with the 'job requirements. BUENA ENGINEERS, INC. November 19, 1985 -3- 8-15605-P1 85-11-319 13: Locations and elevations of in-situ Aests were determined in accordance with their importance and accuracy and proximity of provided survey control. Unless otherwise noted, their locations and elevations were determined in pacing and visual sightings. If there are any further questions, please do not hesitate to contact this office. Respectfully submitted, BUENA ENGINEERS, INC. Norman G. J ckson, Jr. NGJ/REB/kls F-2 Copies:.... 4 - Rick Johnson Const. 2 - City of La Quinta 2 -PS file 1 - VTA file Reviewed and Approved Ray and E. Brannen CE 28966 BUENA ENGINEERS, INC a REPORT OF RELATIVE COMPACTIONS �-• W=1 November 19, 1985 Job No. 85-11-319 CONTRACTOR: I DATE: /� Report NO. LOCATION:ADDRESS: JOB & LOCATION: La Quinta, CA TEST NO. DATE TESTED DESCRIPTION % MOISTURE IN PLACE DRY DENSITYRELATIVE IN PLACE COMPACTION MAXIMUM DENSITY 1 9-06-85 .3.0 from grade 'Per Plan 22.9 99.0rg 109.2 2 9-06-85 3.5 from grade Per Plan 15.0 107.0 109.2 3 9-06-85 3.5 from grade Per Plan 16.5 104.7 109.2 4 9-06-85 2.0 from grade Per Plan 17.0 102.7. 109.2 5 9-06-85 2.5 from grade Per Plan 16.7 104.7 109.2 6 9-06-85 2.0 from grade Per Plan 14.5 103.2 94 109.2 7 9-09-85 1.5 from grade Per Plan 9.3 103.3 93 1 10.2 8 9-09-85 1.0 from grade Per Plan 15.0 99.3 90 110.2 9 9-09-85 1.5 from grade Per Plan _ 13.0 101.8 92 110.2 10 9-11-85 Finish Grade Per Plan 10.0 103.5 93 110.2 1 I9-11-85 Finish Grade Per Plan -. 12.1 101.8 92 110.2 12 9-11-85 Finish Grade Per Plan 12.1 101.8 92 110.2 WE CERTIFY THAT THESE TESTS WERE PERFORMED IN CONFORMANCE WITH COPIES: -BUENA ENGINEERS, INC. C. C �3 L.L E �S T Ado BUENA ENGINEERS, INC. DATE: FILE NO.,6--4 Q6 -p#