002624 (SFD)P.O. BOX 1504 No
Building78-105 CALLE ESTADO
Address �� LA QUINTA, CALIFORNIA 92253
Todam t3ey
Mailing
Address 74—OM *.a'a"Rt7i Phis Cirrin
City Zip Tel.
Contractor
Address .. .. . . . . I
'
Sam
IZip - ITel'
State Lic. ]City
& Classjf. 248823 Lic. #
Arch.,'Engr., - -
Designer
Address Tel.
City Zip State
Lic. #.
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.
SIGNATURE % i r •-t - i DATE
OWNER -BUILDER DECLARATIONy
I hereby affirm that I am exempt from the Contractor's License Law for thefollowing
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 7031.5 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, Bulsness 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 or 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, ora certificate of
Worker's Compensation Insurance, or a certified copy thereof. (Sec. 3800, Labor Code.)
Policy No. Company
0 Copy is filed.with the city. O 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 thg 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.
CONSTRUCTION LENDING AGENCY
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.)
Lender's Name
Lender's Address
This is a building permit when properly filled out, signed and validated, and is subject to
expiration if work thereunder is suspended for 180 days.
I cartify.that I have read this application and state that the above information is correct.
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. 4 �
Signature of applicant " ► ,.S.fl r5 Date
Mailing Address t
City; State, Zip
002524
JILDING: TYPE -CONST. OCC: GRP.
P. Number 769 -143 -INS
egal Description Ia' X57
roject Description sft"18 falu3.ly G W=
a $N
VIM 3495
Sq -Ft.
Size GAR 492
Size _
�:D
New d Add ❑
No.
Stories
No. Dw.
Units
Alter ❑ Repair ❑
Estimated Valuation
S !!2_f4" _i'ti'>4
HARD COPY
T
Demolition ❑
PERMIT
AMOUNT
Plan Chk. Dep..
Plan Chk. Bal.
7 ac�A
Const.
445.50
Mech..
Electrical7.
Plumbing
107..00
S.M.I.
9.14
Grading
43 J)n
Driveway Enc.
20.0
Infrastructure
1.205.95
10 7 1.97624 CK
TOTAL
2. 22A _14 1.975.2A
REMARKS
ZONE:
BY:
Minimum Setback Distances:
Front Setback from Center Line
Rear Setback from Rear Prop. Line
Side Street Setback from Center Line
Side Setback from Property Line
FINAL DATE
INSPECTOR
Issued by:
Date:" Permit
Validated by:
Validation:
A64%9
10 7 1.97624 CK
CONSTRUCTION ESTIMATE
NO. ELECTRICAL FEES
NO. PLUMBING FEES
1ST FL. SQ. FT. ® $
UNITS
COLL. AREA
2ND FL. SQ. FT.
B GRADE /�
YARD SPKLR SYSTEM
POR. SQ. FT. ®
MOBILEHOME SVC.
BAR SINK
GAR. SQ. FT. ®
POWER OUTLET
ROOF DRAINS
CAR P. SQ. FT.
DUCT WORK
DRAINAGE PIPING
WALL SQ. FT.
FOUND. REINF.
DRINKING FOUNTAIN
SQ. FT. ®
HEATING (FINAL)
URINAL
ESTIMATED CONSTRUCTION VALUATION $
REINF. STEEL
WATER PIPING
NOTE: Not to be used as property tax valuation
FLOOR DRAIN
MECHANICAL FEES
GROUT
WATER SOFTENER
VENT SYSTEM FAN EVAP.COOL HOOD
SIGN
WASHER(AUTO)(DISH)
APPLIANCE DRYER
BOND BEAM
GARBAGE DISPOSAL
FURNACE UNIT WALL FLOOR SUSPENDED
GRADING
CU. yd.
$ plus x$
LAUNDRY TRAY
AIR HANDLING UNIT CFM
de
KITCHEN SINK
ABSORPTION SYSTEM. B.T.U.
TEMP USE PERMIT SVC
WATER CLOSET'
COMPRESSOR HP
POLE, TEM/PERM
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
SQ.FT.GAR ® 3/ac
HOUSE SEWER
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 COND. SOLAR
INSFEL; I UN'S WUNA I UNtJIINI IIALS
GARDEN WALL FINAL
SETBACK
GROUND PL MBIN
UNDERGROUND
A.C. UNIT
COLL. AREA
B GRADE /�
H PLUMB J ��
BONDING
HEATING (ROUGH)
STORAGE TANK
WIT"FORM
�/x �%
V
SEWER OR SEPTIC TANK
WIRING iZ /U /�!
Gv
DUCT WORK
ROCK STORAGE
FOUND. REINF.
GAS (ROUGH)
METER LOOP
HEATING (FINAL)
OTHER APP.IEQUIP.
REINF. STEEL
GAS (FINAL)
E OLE�D �6
GROUT
WATER HEATER
SERVICE
FINAL INSP.
BOND BEAM
WATER SYSTEM
17 1
GRADING
CU. yd.
$ plus x$
_$
LUMBER GR.
de
Vtqkt- INSP. E'
MING ?i A1146
r
FINAL INSP.
rr'
OFING S /�^
n
/,-v /
REMARKS:
ENTILATION
FIRE ZONE ROOFING
FIREPLACE
SPARK ARRESTOR
GAR. FIREWALL
MESH
42
ULATIONISOUND /
FINISH GRADING
FINAL INSPECTION
CERT. OCC.
FENCE FINAL
INSFEL; I UN'S WUNA I UNtJIINI IIALS
GARDEN WALL FINAL
D & G ELECTRIC
9870 Gilman Street
Banning, CA 92220
Phone 845-4966
State License No. 338808
Septmeber 29, 1986
Tucker Sattley Construction Co.
74-050 San Marino Circle
Palm'Desert, California 92260
Subject:.Electrical Load.Calculation
re: Proposed residence
Location:Calle Quinto
La.Quinta, CA.
1,500sq. ft.
@ 3watts per Sq.Ft.
4.5kva
2 20amp appliance circuit::@-1,500watts each
3.Okva
Laundry circuit
1.5kva
Range
12.Okva
Hot.water Heater
4.5:kva.
Dishwasher
1.4kva
Dryer
5.Okva
Space Heat
11.5kv.a
Total
43.3kva..
First 10kva
@ 100%
10.00kva
Remainder
@ 40% (33.4kva x .4)
13.36kva
23:36kva= 23,360va T 230v=
101.5amps Total
:2B.36kva
Use 125amp Service
Air conditioner (of 5.Okva
@125%) is smaller than Space
Heat
therefore not included.
REMARKS:
I
Signature
DENSITY READING
LOCATIOW,
MINE!
ONE
t ,^ yM,
mom
REMARKS:
I
Signature
•.: ..t.�.i?'• ... ..... � .:.i.. "�..u��t��.i�.�Y-�.vu.:i.•w.ra..Y.:v. u .......... ....� .. .. .....•.
-PROJECT DATA SUMMARY
7J C,C M 4. S
owner
project
-A\ .
system typ
L.. pLs
documentation author
I T - .
Community 9Cevblopf,ien i•bldg. Dept.
fJ
C4o. CONDITIONALLY
TE FOR Z ONSTRUCTION
DATE date
SITE INFORMATION
Heating Degree Day (from Appendix C) .......................................................... HDD
Outside Design Temperature (from Appendix C or Appendix G) ...................... Tow
PROPOSED BUILDING ENVELOPE INFORMATION
Gross Floor Area if Low -Rise (from Calculations) ............................................ Af
Gross Wall Area if High -Rise (from Calculations) ............................................ Aw
Designed Glazing Area (from Calculations)....................................................... Ag
Basic Glazing Area (16%of Line 3 if low-rise or 40%of Line 4 if high-rise)........ Abg
FM
1 I Z' 3 Z OF- day
2 ( of
3 ' y�S ft2
4 ft2
5 ) }t2
6 Z ft2
Descriptlon of Assembly
I X13
Glazing "'�
Ugl
7
Btu/ (hr •ft2 .OF)
U92
8
Btu/ (hr•ft2•°F)
Ug3
9
Btu/ (hr •ft2 .O.F)
_. Wall ST �� '1 \ /�t.l..
Uwl
10
Btu/ (hr •ft2 .OF)
U,,;r2
11
Btu/ (hr •ft2 .OF)
Uw3.
12
Btu/ (hr •ft2 .OF)
T1LF' \ L W��1�
Uw4
Ucl
13 _
14 ��
Btu/ (hr•ft2 .OF)
Btu/ (hr •ft2 •°F)
Ceiling/Roof
i-:;�
Uc2
15
Btu/ (hr •ft2 •°F)
Floor.
Ufl
16
Btu/ (hr .ft2 .OF)
'
Uf2
17
Btu/ (hr •ft2 .OF)
PROPOSED SPACE HEATING SYSTEM (Chapter 7•)
Gas Furnace
-Z QC)
Building Design Hourly Heat Loss (from Form 2) .....................................
qh
1
18—
Btu/hr
Maximum Allowed Bonnet Capacity, t-r.x Line 18 :..............................................
19
Btu/hr
Proposed Furnace
Make
Model Description
Rated Bonnet Capacity
Electric Resistance. Alone
Electric Resistance Life Cycle Cost (from Form'5)....................................
sLCCe
20
$
Lowest Life Cycle Cost of the Other Systems (from Form 5) ...................
sLCCIowest21
$
Non-Depletable Energy w/Electric Resistance Back -Up
Percentage of Annual Heat Loss Met by Non-bepletable Energy
Source (from Calculations)
...........
22
%
Heat Pump with Electric Resistance Supplementary Heat
s ....................................................................
(from Calculations) :..........
23
' PROPOSED WATER HEATING SYSTEM INFORMATION (Chapter 8)
Electric Resistance Alone
i Electric Resistance Life Cycle Cost (from Form 6) .........:.......................
wLCCe
24
$
Lowest ' Life. Cycle Cost of the Other Systems (from Form 6) ...................
wLCCbwest 25
$
1
PROPOSED SWIMMING POOL HEATING SYSTEM INFORMATION (Chapter
9)
Solar Life Cycle Cost (from Form 7)
Natural Gas Life Cycle Cost (from Form 71 ......................................................
i
pLCCng
27
$
HOURLY AND ANNUAL.
BUILDING HEAT .LOSS RATE
Check One: Proposed Oesign
Standard Design .
TY+ S � A 4� � � . S 1 h1(�L�. �� N 1L `( ��-L'.S 1�7 fs•J
owner orolect
protect locatt n system type
ts
documentation author date
Form 2R
Enforcement Agency Use Only
nut aing Permit number
CneCkea by
ate
SITE INFORMATION (� bL>
Heating Degree Day (from Appendix) . . . .. . . . . .. . . . . .. HOC)oF.•day
Outside Design Temperature (from Appendix) .. .. .. .. . ..... Tow
oF
Outside January Mean Temperature (from Appendix) . . . . .. . . . . .. . . TJan of
PROPOSED, BUILDING ENVELOPE INFORMATION , 2
Gross Floor Area (from plans)..... ......... ..... Af ft
Gross Wall Area. (from plans) .. .............. .... .... .. . Aw, S h2
Designed Glazing Ar"'(from plans) ........ .... .... .... ... A' ft2
Basic Glazing Area (16% of Af if low-rise or 40% of A. if high-rise) ... . • .Abd Z3 Q ft2
HOURLY HEAT LOSS .
e
DESIGN TEMPERATURE DIFFERENCE
For All Assemblies Other Than The Three Below ...TfF — of ilTh .1 of
Tow from above
For Insulated Floor Over.Vented Unheated Space ........... Line 1 -2 'LThi 2� of
For Uninsulated Floor Over Vented Unheated Space........ Line 2 - SOF - f,Thu 3 °F
For Slab -on Ground Floors ...' ......... 70aF — dF ' � ilThs 4 1 o f
Tian from above '
CONDUCTIVE HEAT LOSS Average U
of Assembly,
Area, ft2 or or FZ from GT
"
hourly most
Oescriotfon.of"Assembly Len th ft Graph 4-1 from above
1 �� 1 • 13
Qloss. Q
s �Sfl etu/hr_
Glazing , X x.
v
X
ZZ G?"�
Wal) X
X x
Csiling/Root 1 ..) O !� _ . X O Z % X
_ ►
X X
Floor O Z� X �� X
a 0 3
Other , lam/ (76- X $TU
U 131
volume Subtotal
5to/hr
um o the above Q
I LAg5 &6.0 g 1
S` 'F
INFILTRATION .... ft2 x ft x•C)1 X.
Af from above Weignted from Th .from
6
Average Table 3-7 Lina 1`7
Calling Heignt
Z(.�p t5o,
`to/hr
Subtotal
'
7
I ne • lineb
C)'
DUCT HEAT LOSS (Enter 0 if there are no ducts) ....... . OAS x Line 7
B
Z. � RD
TOTAL HOURLY HEAT LOSS, Q
Lline
9 to/hr
7 line
ANNUAL HEAT LOSS, OL
Z
Z / Z of -day/yr X ?� Q� Btu/hr X I P lx 24 hr/day } F.
10 Zz� 1 Btu/ya
HOD' Hourly Heat Lou C from Th from
!•r.n^:.tee hnm t.n• 9 T301e 1.8 Line 1
-
u Q a
y
�" �� �3 •Gds ,'� S U3
lLO �•g 3 -
S
R
List of Construction Components
2.
3.
4.
5.
6.
7. '
.8.
Inside Surface Air Film
cooling
heating
Sketch of Construction Assembly
Outside
—7
� S
t 7
WEIGHT: Ib/ft2.
Surface Air Film
.
`
cooling
heating
Check one:
Total Resistance Rt
,� CQ
'20 H
%s
Wall
cooling.
heating
Roof
U -Value Wa4
Floor ..
cooling
heating
List of Construction Components R
.0s
2. t5O
S.0 \-A
% L49
4. 7ZY
5.
6.
7.
Alft
8.
Inside Surface Air F
Z,
cooling
heating
Sketch of Construction Assembly
WEIGHT: lb/ft2
Outside Surface Air Film
cooling
heating
Check one:
Total Resistance R,
Wall
cooling
heating
Roof
U -Value t+,t)
Floor
cooling
heating
ip� �.. .-.5•t'e^:.:�: x...,, ,,.. t , , ,. . . .. ., � rr�..' lay✓. _ .. _ _ � _ :. .. .. .::...
. l�::au�a�rr�r�r Ir..�...�..��r.r.r+.eassee• �.`�l' ���_. ..e.�•"'r�mms�"sa:>±�3rai��
BUILDING DESIGN AND EQUIPMENT SUMMARY Fdr
page T of 2
Project title climate Lone.
project. acoress plan eneck/permit number
project owner cneckedby
n(jocuurn,intatlon autn\or date date
► �` z��"� C5" Enforcement Agency Use Only
comouance metnod (prescridtive or performance, dascribe)
BUILDING
ENVELDFE DESIGN Description of Item Dimension-
R
Point
Tl �� R
Type 2
�
Tota Floor
Area
ftZ
~ y
A o 1 v -%.)\ i� �
Fz 1
ft
Type 4
1. Floor.•
Slab Perimeter; Type 1
_
-A
Type 2 Fz '
-R-isad, Type t 2-C� T O A l i C p1!
;s
ft
' Type 2 GA 2 1 1 12 e. t:.
`A q
ftZ
c
2 Ceiling:
Type"!
ft L
Type 2
�A:TNa z
�_
3. Wall:T
YPe i
4k Glazing: '
Type 2
West, Type 1 S► ri'yl.� PA -.1.9%
�5. —
ftZ
ftZ
%
ft,
.
Type 2(
North, Type 1 1 Gus ? �.
`��% 1�0
ft= '
.
` p
C�
Type 2
East, Type. 1 1 (A A
_%
%
ftZ
1.4
Type 2
ft
South, Type
y;
ftZ
Type 2
Skylight, Type 1
_SC
ft=
N
Type 2 _
_SC
ftZ
Sc
S. Shading,
Coefficient: West
I1 _►, ►.lv
I.,
Sc
North , oI
X07 S 6
Sc
-�
East
Southy,-�
Sc
--- 1
6. Horizontal. South Overhang
ft
7. Movable Insulation ft
8. Infiltration Control
9. Thermal Mass:.
Type 1
R
Tl �� R
Type 2
�
a
Type 3
f�tL
ftZ
IL• � ? aJ
Type 4
_jt
1iG rK
Type 5
�e
—HG _MG
ft
c
.
Point Total This Page
�A:TNa z
�_
Z�U�
1/83 — 420 — CEC
'01. ii I-1 1'x•'1
SUMMARY ..
Form 2
page 2 of 2
�7� iti11 L`;S1i71��
I (ect titleclimate zone
oroject address
HEATING, VENTILATING, AIR CON D1T10NIN'G SYSTEM Points
10. Heating (fill in information on proposed system)
Central Gas Furnace %
brand, and model number SE
Btu/hr
rteattng capacity
Heat.Pump
brand and model number ACOP
S �OJo Btu/hr
meeting capacity at 47 F•
Active Solar
type (liquid or air) . collector brand and model number solar fraction
fta
Collector area - co5a=or orientation collector -tilt rated rated slope
y • Intercept '
Other
describe
11. Coo6g (fill in information on proposed system)
Electric Air Conditioner.
brandand mooet number seasonal -EER
Btu/hr
cooling capacity at 959 F
Electric. Heat Pump���
S es=fz
Btti/hr
cooling capacity at 95 F
Other
describe
12. Mechanical Ventilation
describe
DOMESTIC WATER SYSTEM
13. Heating (fill in information on proposedsystem)
C.
Gas Only - Gallons
brand and modet number tank size. -
Heat Pump w/Electric Backup
- brand and model number tank size.
Active Solar
collector brand and model number ated rated slooe solar fraction
y • intercept
fts
backup neater type, brand and model number collector area collector
orientation �.
Other
describe
Point. Total -from Page 1
Total Point Score + 3
1/03 •420 • CEC
+. AIA CONAIiIUNING ''-
=-- - Goettl
Self=-,'Cofitained
Heat �umps
Series GBHP
18,000 — 60,500 BTUH
❑ The most efficient method of cooling and
heating with electricity
❑ Energy savings due to high SEER ratings
❑ Provides high BTUH ratings in both
heating and cooling
❑ Can be installed on the roof or on a
concrete slab on the ground
C A
4.1
1f Trey At5'.
6 C�� i id d ull2
apa � ..
-c
r; SP
.Qq i'l
10 i630.r.-
N pq
CFM)`
ndard---"L--
•
;
?L em aPM0ok O' X
-E�Eb �n 6.06 Z� 6
W r t
-o- -;- .. 27
6 S'P!: 23,400 8DO.:=-I-3
:6&
0 715 35 '5
-"-
96q,.4 2;420 2,8 860
WIN.- AV, m WO w-Im- 7-m
A Qy.'� Z4 .49 U
ii
p.
MECHANICAL :DATA
---,UI,,•
ZM-�21� N�Q
3M 04
:.Riingerznt h#ge'
-fhh d*,o-,. , • 58n XMN
CFM)`
'5
s 2.jk�gfi :6. ��:60 W�6 3�
q
•
;
?L em aPM0ok O' X
Tx,� kfi,K ��M W 22JI-4."I. 11%
F aom5w
I -
0 715 35 '5
-7, ,., �-
WIN.- AV, m WO w-Im- 7-m
. V -S,
BI`adeDialn Ing' s'•MINNE-1 60 %Mft� MW,20WWC2ng ZM20A gotWW
1 0
V '6� '7 liir�
ft N NO
OutdoorMotor�M.
P IN
6�
64 2801
W� MWWcm
IWOW
M4 81t 8:60 w
00
A U I• ReR }z :2 X
IRM, 1�
N kol.,
-A WZ N'
jWheel ZtPVIMROIMM 16, MI N rQfTi ZN�- -6'6 2r
*
M A W;x'718 R-
�w M
#dllr:i'T-"5�1
'01M .1VON
, -
MNINM- A"/5- RUIAR." ft. M12i I Im M., ttsmir
-.16
-i
ELECTRICALDATAAT,230V
•,.tBased'on UL operating conditions.
AW" A
LockedR M
#-,p mww'w, IMS -11 'Ur MINI
�Fmg -A g 65n Y" W 6V,
r ss
- e
CFM)`
A
S F
NUMM.IWI
A* 630
M*.
Tx,� kfi,K ��M W 22JI-4."I. 11%
'866� '995.*j
I -
0 715 35 '5
-7, ,., �-
Mpg,
3!4
NVO 4--
Wle
FUIIT`6adM--%
pi,;O
OutdoorMotor�M.
jb5*;!"':` 3 00.`t-?,,- '2j066?--!;!`--'��
- 4
6�
64 2801
A U I• ReR }z :2 X
, '
-A WZ N'
#dllr:i'T-"5�1
'T,00,0 .1.8.R.. T.6"", —15 `27.2 T
-.16
Max e-z ze.-,,, .............
-------------6NO
-�
M, 4, F
-WO
Y
--p 25 5
.2 28nk`r31.,
�20& :2228
•,.tBased'on UL operating conditions.
AW" A
Atr Ar t, :M
utpu! u Output
Outputs
CFM)`
7`
920 c'�I.050
-Li
A* 630
765 , 890 1,025. `r--.:
'�506
'866� '995.*j
1,260.,f 1'.,535-;--
0 715 35 '5
-7, ,., �-
Z-'
8 950'�,`%
685 X,
O1
4� 2' 3b
jb5*;!"':` 3 00.`t-?,,- '2j066?--!;!`--'��
- 4
6�
64 2801
Specilications subjeci to change adthoul notice.-
F
tykkety
Page 4
-r -7 -
LINE VOLTAGE ENTRANCE-7-
44
28
CONDENSATE -DRAIN - 3/," NPT.
20
"P" TRAP REQUIRED
6
1
Yz
4
1
All dimensions in inches
t GSHP241C
431/4
32%
24
21
141/,
LINE VOLTAGE ENTRANCE-7-
GBHP 181C
431/4
28
24
20
141/,
6
1
Yz
4
1
21/,
t GSHP241C
431/4
32%
24
21
141/,
6
1
1
5%
1
23/4
301 C
GBHP 301
431/,,
32%
24
21
141/2
6
1
1
GBHP 181C
431/4
28
24
20
141/,
6
1
1
4
1
21/,
t GSHP241C
431/4
32%
24
21
141/,
6
1
1
5%
1
21/,
301 C
GBHP 301
431/,,
32%
24
21
141/2
6
1
1
5%
1
21/2
G BH P 361 C
491/,
333/4
30
21
201/2
6
1 1
1
6%
11/2
21/2
GBHP 421 C
491/,
333/4
30
21
201/,
6
6%
11/2
21/,
GBHP 481C-
573/4
44%
301/,,
21
191/2
7
1
1
113/,
13/,
23/,
GBHP 601 C
573/,
44%
341/,
34
231/,
7
1
1
53/16
1 �'/4
Outdoor
Air
(°F)
Cooling
Capacity
(BTUH)
Air
Flow
(CFM)
SMR
-
Input
Power •
(watts)
Compressor
Discharge
Current Pressure
(Amps) (Psig)
Suction
Pressure
(Prig)
95
105
33.300
30.000
1270
.89
3.350
14.2 277
78.5
.91 3.600 15.4 312
82.0
2152 28.600
.92 3.750 16.1 330
84.0
t t 27.000
.94 3.880 162 347
86.0
2.640 117 206
530
45 33.500
2.550 113 199
(indoor air at 80 db/67 wb)
P95
34.600
31500
1270
76
3.390
14.7 283
823
.78 3.50 "15.9 318
870
30200
79 3800 165 335
890.
28.600
.80 3.930 1 17.1 1 350
. 91,0
Outdoor
Air
IF1
Healmg
Catlarny
IBTUHI
Air
Flow
(CM
MODEL;GBHP 421Cri�s .(Indoor air at 80 db/
Compressor
Compressor
Discharge
Current Pressure
(Amps) (Psig)
Input Discharge
Power Current Pressure
(Watts) (Amps) (Psig)
Suction
Pressure
(Psig)
65
40 000 '
1.270
2.940
13 0
' rt.
636
60 385M
2.830 125 216
600
55 - 36.800
2 740 121 211
570
50 35200
2.640 117 206
530
45 33.500
2.550 113 199
'50 0
40 30.700
Outdoor
Air
IF1
Healmg
Catlarny
IBTUHI
Air
Flow
(CM
SHR
Compressor
Compressor
Discharge
Current Pressure
(Amps) (Psig)
Input Discharge
Power Current Pressure
(Watts) (Amps) (Psig)
Suction
Pressure
(Psig)
65
40 000 '
1.270
2.940
13 0
224
636
60 385M
2.830 125 216
600
55 - 36.800
2 740 121 211
570
50 35200
2.640 117 206
530
45 33.500
2.550 113 199
'50 0
40 30.700
2 460 108 194
46.0
35 282M
2.360 104 187
42.7
30 25.600
2.260 t 0 0 . 180
90-
390-_
25-
25+ 23.3M
2.170 96 175
350
20 20.700
2.070 9! 168
32 0
t 7 18 500
2.020 87 162
294
Outdoor
An
(°FI
'
Cooling
capacity
IBTUMI
Air
Flow
(CFMI
SHR
Input
Power
(Watts
Compressor
Discharge
Current Pressure
(Amps) (Psig)
..
Suction
Pressure
IPsig)
.95
37.800
1450
89
3.540
260
77 0
105 35,700
91 3.820 288
81534.600
533
q16,6
91 4.010 302
840
33.600
92 4.100 316
866,-
60(Indoor
525
40 34AM
(Indoor air at 80 db/67 wb)
95
105...
(indoorair at 80 db/67 wb)
95
39.000
1 450
_ 76
3.600
Isit; 273
-80.5
105 36.500
78 3.880 169 302
85.2
110 35.500
78 4.050 176 315
875
115 3x.200
80 4 tap 183 328
898
aMODEL'GBHP 48.1C (Indoor'air at 80 db/64 sub) 1
Outdoor Cooling
Air Capacity
(IF) (BTUH+
Air
Flow
ICFMI
'
SHR
Input
Power
(Watts)
Compressor
Discharge
Current Pressure
(Amps) (Psig)
Suction
Pressure
(Psig)
95
105
44 000
•• 39 000
1550
911
4.380
194 267
790
93 4.760 209 297
- 81 8
. !;1;0 � - 36.8M
94 4.930 216 312
533
t .. 34 500
95 5.060 224 327
-84 7
45 3733
�..
525
40 34AM
(Indoor air at 80 db/67 wb)
95
105...
46500
.2.000
1 SW
76
4,540
199- 273
83 0
78 x.860 215 304
85.5
110 39.800
79 5.060 222 317
567
115 ' • 9?.500
80 5220 230 333
878
. + 1
MODEL-GBHP 601C .- (Indoor air at 80 db /64wb) ?t (Iridoor air at 70° F1'.
Outdoor
Au
(IFI
65
Hea"
• Capawy
(BTtM)
43.700
Air
Flow
(CFM)
Input
Power
(Watts)
Compressor
Compressor
Discharge Suction
Pressure Pressure
!Psig) IPsig)
liiput Discharge
Power Current Pressure
(Watts) (Amps) !Psig)
3.130 137 226
Suction
Pressure
fpsig)
62.5
60
4220(1
1.450
-
3.070
133
221
60 0'
55 40.800
3.030 131 217
57 4
50 39.100
2.970 127 212
550
45 3733
'2.900 124 206
525
40 34AM
2.750 121 196
473
35 315M
2.630 118 188
42 6
30 28.400
2550 1 t 4 179
38 5
25 25.800
2500 110 172
34 5
20 23.000
2 450 10 5 168
3t 0
17 21.000 -
2.400 102 t6t
280
(Indoor air at 700 F)
Outdoor
Air
(FI
Healig
Capacity
(BTUHI
Air
Flow
(CFMI
Input
Power
(Watts)
Current
(Amos)
Compressor
Discharge Suction
Pressure Pressure
!Psig) IPsig)
65
:-,60 60
55.000
52500
1540
4.040
18 7
237
65.0
3.960 18.5 230
. 620
•'-55 495M
3.880 182 223
594
' _50 47.000
3.800 178 217
565
"•45 44.000
3710.. 174 212
535
. 40 39 SOD
3 440 167 203
48.2
. • 35 35500
3450 163 193
435
' 30 32380
3320 157 183
384
25 2950D
3200 150 175
337
20L 26300 1
.050 14 5 165
288
• • ' 17 1 24 OM
2.950 1 140 160
24 5
OutdooT.�Coohng
Airacity
(°F)UH)
Flow
AirV.87
(CFM)(Watts)
Air
Flow
(CFM)
Input
Power
compressor
Discharge
Current Pressure
'(Amps) fps -91
Suction
Pressure
(Psig)
95
592M
2-170
4420
5270
23.0 262
823105
60 633M
54.800
625
55 60..700
5.68D
248 295
87.0
110
52600
2170
4,000 175 192
5.890
25.6 132
88.7
115 50300
92 6.100. 265 330
91,0
466
30 42500
3.600 161. 173
42 2
(Indoor air at 80 db /67 wb)
95
105'
60•`•+00
56.400
2170
.77
5310
232 26D
85.0
-79 5.730 25.0 ' 297
88.1
110 54-100
80 593D '25B 315
90.0
_ 115 515..
dig cm M. 333
97.7
Outdoor
Art
IF{'1
Healing
Capac4l
(BTUH:
Air
Flow
(CFM)
input
Power
IWatCSI
Curren;
(Amps)
Compressor
Discnarge Sucion
Pressure . Pressure
IPshg) (F-wo
65
662W
2-170
4420
192
1 210
'6150
60 633M
43M 18.7 205
625
55 60..700
4230 183 201
60 0
50 57.8110
4.13D 179 197
575
45 54 900
4,000 175 192
545
40 SO -SW
3 x50 171 186
504
35 46508
3.700 167 t8()
466
30 42500
3.600 161. 173
42 2
25 38B00
3 520 15 6 168
38 6
20 :5208
3 430 75 0 tt,Z
34 5
17 32500
3370 746 157
320
M
1-.3 :�L } �-'y'r4 �1. ° -try >e'`:a,'i�-:+.�•.. i.>"� ,.-�•�: s., _ r
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----------'
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al:ited' *Silver Gra'y"Col'o''r '('Test results avai I a eon other co
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7.7
uest we Will furnis'l
dealers rn?lv`ourarea
TM
WATER HEATER
(INTEGRAL TANK MODEL)
General Description
The E -Tech Water Heater is a non -reversing (heating only)
air -to -water heat pump (WH HP). It is used instead of a
regular water heater in order to save energy.- It operates on the
heat pump principle-, i.e., a compressor operating in a non-
reversing refrigeration circuit extracting fteac.from the air and
expelling it through the condenser to the water.
The unit is designed for new construction.'; -replacement. or
wherever a suitable electric or gas water heaier�as not currently
in place. The heat pump is shipped attached, plumbed and
wired to an 82 -gallon electric water heater tank.
The heat pump section contains a compressor, air -to -
refrigerant evaporator coil, air fan, water circulating pump.
refrigerant -to -water condenser coil, expansion device. and
controls. Air is forced over the evaporator coil by the fan.
while water is circulated from the bottom of the hot water
storage tank through the condenser coil, and returned to the
tank by the circulating pump.
E -Tech Water Heaters have been thoroughly tested by utili-
ties, government agencies and independent laboratories. All
ratings and specifications are in accordance with standards
proposed by the Air Conditioning and Refrigeration Institute
or the Gas Appliance Manufacturers Association.
Installation and Operation
The Model R 102 Water Heater'is designed to be installed as
easilv as a standard electric water heater: hot and cold lines are
soldered to the stubs on the heat pump and a 25 amp. 230 volt
power supply is connected. The only additional steps required
are purging air from the heat pump water lines and running a
condensate line to a suitable drain.
The heat pump must be protected against freezing and
temperatures greater than 95°-115° F.* This will normally
exclude attic installations. The W H H P may be installed in
unconditioned, freeze -protected space or in conditioned
space. The space cooling effect of the W H H P may have some
impact on the heating and cooling requirements of the condi-
tioned space. The minimum sire closed space for installation is
750 cubic feet: less space is required if air flow is permitted.
such as with louvered doors. In low temperature situations
(from 45*-50*F depending on relative humidity and inlet
water temperature) the heat pump will automatically shut oil
and the resistance element in the tank will be activated. In
addition, there is a three -position switch to select the normal
heat pump mode. resistance heating only mode. orsystem off.
The R 102 Water Heater is designed such that it the heat
pump must be removed for service. the tank and household
plumbing may be lett undisturbed. Placing the selector s\\iteh
on "resistance heating" insures water heating during the ser-
vice period.
MODEL R102
Specifications
OUTPUT: Rated 12,100 BTU:'hr (3:5 kw)**
ENERGY FACTOR:
2.53 (COP) adjusted in accordance with the GAM A
standard when heat trap is used on connecting wa-er
lines.
RECOVERY: 18 gallons per hour at 135° F tank temperature"
25 gallons per hour at 115' F tank temperature"
COOLING & DEHUMIDIFICATION:
7900 BTU, hr and 1.6 pints hr**
WEIGHT: 320 lbs.
TANK CAPACITY: 82 Gallons.
WATER TEMPERATURE: Maximum-- 140°F(600C)**.
ELECTRICAL SPECIFICATIONS:
230 VAC @ 60 Hz
Maximum Amperage: 18 amps with resistance elements
@ 230 VAC. 25 amp fuses or circuit breakers required.
OPERATING TEMPERATURES:
40°-50° F (7°-10°C) Minimum air inlet depending t -n
relative humidity and inlet water temp.
*95°-1 15° F (350-46°C) Maximum air inlet
depending on outlet water thermostat setting.
**GA.MA rating point 75° F• DB 63' F Wil
0: Applied Research Laboratories Listed
ec3570 American Drive. Atlanta. Georgia .',0: 41 • (404) 458-6644
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