Sanyo KMH0912W, KMH0912X, CMH1812 Service Manual

Page 1

18KMH12W 18KMH12X

Page 2

Table of Contents

Lago
1. SPECIFICATIONS . 1
1) Unit Specifications . 1
2) Major Component Specifications 2
3) Other Component Specifications 3
2. OPERATING RANGE 5
3. CONSTRUCTION OF THE UNIT 6
4. DIMENSIONAL DATA 7
5 CAPACITY 8
2. 1) COOLING CAPACITY 8
2) HEATING CAPACITY 10
6 OPERATING INSTRUCTIONS 12
0. Controls and Indicators 12
Operation Thumbrails 12
Appration 14
1) Cooling 14
1) COUTING 14
A. Manual Cooling 14
D. Eller gy Saving Modes 12
DI. Ellergy Saver mode in cooling 10
52. Wight SetDack mode in cooling 10
10
10
10
3) Fan Univ 117
4) USING the limer 17
A. IIMER UFF MODE 117
B. HMER UN Mode 11
5) Heating 18
A. Manual Heating 10
B. Energy Saving Modes 19
BI. Energy Saver mode in heating 19
B2. Night Setback mode in heating 19
6) Adjusting the Air Flow Direction 20
A. Horizontal 20
B. Vertical 20
Care and Cleaning 21
7. FUNCTION 22
1) Temperature control 22
2) Energy Saver Mode Timing Chart 24
3) Night Setback Mode Timing Chart 25
20
4) Freeze Prevention (Cooling) 26
5) Overload Prevention (Heating) 21
6) Cold Draft Prevention (Heating) 28
7) Defrosting Mode (Heating) 29
Page 3
8. INSTALLATION INSTRUCTIONS 31
1) Installation Site Selection 31
2) Connecting Pipes between Indoor and Outdoor Units 33
3) Insulation of Refrigerant Piping 33
4) Wiring Instructions 34
5) Air Purging 35
6) Test Run 37
9. REFRIGERANT FLOW DIAGRAM 38
10. ELECTRICAL DATA 39
•Schematic Diagram 39
•Electrical Wiring Diagram 40
• Electrical Characteristics 41
• P.C.B. Ass'y (Printed Pattern) 42
11. TROUBLESHOOTING 44
12. CHECKING AND REPLACING ELECTRICAL COMPONENTS 60
13. DISASSEMBLY PROCEDURES 68
14. PARTS LIST 73
Page 4

1. SPECIFICATIONS

1) Unit Specifications

Model No. 18KMH12W / 18KMH12X
Unit Model No. Indoor unit - Outdoor unit KMH0912W / KMH0912X - CMH1812
Indoor Unit No. 1 - Unit 2 - Units
PERFORMANCE Cooling Heating Cooling Heating
Capacity BTU/hr. 8,500/8,300 9,700/9,500 16,800/16,600 19,200/18,900
Air circulation (High) cu.ft./min. 220 / 210 440 / 420
Moisture removal (High) Pints/hr. 2.2 / · 2.1 4.4 / 4.2
ELECIRICAL RATING
Frequency Hz 60
Phase Si ngle
Voltage rating V 230 / 208
Available voltage range V 187 ~ 253
Running amperes A 4.4 / 4.5 4.4 / 4.5 8.8 / 9.0 8.5 / 8.5
Power input W 960 / 900 960 / 900 1,900 / 1,820 1,800 / 1,700
Power factor % 95 / 96 95 / 96 94 / 97 92 / 96
S.E.E.R. BTU/Whr. (COP) 9.0 / 9.2 (2.95/3.10) 9.0 / 9.2 (3.10/3.25)
Heat element kW - HSPF 1.0 / 0.82 - 6.6 / 6.6 2.0 / 1.64 - 6.6 / 6.6
FEATURES
Controls Microe omputer
Control switch Remote control
Temperature control IC The rmostat
Timer ON/OFF , 12-hours
Fan speeds Indoor fan / Outdoor fan 3, / 1
Air deflection Horizontal / Vertical Manual , / Manual
Air filter Washable, easy access
Compressor Rotar ту
Refrigerant (R-22) amount 1bs.(g) { 2.54(1,1) 50) + 0.088(40) (for quick air ) purge)}×2
Refrigerant control Capilla ary tube
Operation sound In-Hi/Me/Lo dB-A 40 / 3 35 / 30
Out-Hi dB-A 54
Refrigerant piping connections Flare e type
Max. allowable piping length ft.(m) 33 (10) (Refe er to Page 31)
Max. elevation 16 (5) (Refe r to Page 31)
Defrigement pipe Nerrow pipe in (mm) 1/4 (6.35 ) 2-Sets
diameter o d Wide pipe in (mm) 3/8 (9.52 2) 2-Sets
Refrigerent nining kit Optic nal
Accessories Hanging wall bracker
DIMENSIONS & WEIGHT Indoor unit Outdoor unit
Height in (mm) 13-19/32 (345) 24-13/16 (630)
Width in (mm) 31-1/2 (800) 32-11/16 (830)
Depth in. (mm) 7-3/32 (180) 12-13/32 (315)
Net weight lbs. (kg) 24 (11) 134 (60.8)
Shipping volume cu.ft. (cu.m) 3.3 (0.093) 10.34 (0.96)
Shipping weight (Approx.) 1bs (kg) 29 (13) 140.8 (63.9)
Remarks: Rated conditions ; Cooling, Outdoor
Indoor
Heating, Outdoor
Indoor
DAT.
Unit entering
Unit entering
Unit entering
Unit entering
A SUBJECT TO C
air temperatu:
air temperatu:
air temperatu:
air temperatu:
HANGE WITHOUT NO
re 95°F D.B. /75°
re 80°F D.B. /67°
re 47°F D.B. /43°
re 70°F D.B.
TICE.
F W. B.
F W. B.
F W. B.
F W. B.
Page 5

2) Major Component Specifications

Unit Model No. КМН0912W / КМН0912X
Controller P.C.B. POW-KM10912
Control circuit fuse 250V - 3A
Remote control unit RCS-KMH2412W / RCS-KMH2412X
Electric heater АН-КН0912
Heater element 230V 1kW
Unit Model No. CMH18 312
Defrost controller POW-18 POW-186CMH
Compressor Hermetic Ro otary Type
Compressor model No. C-R70H6 5V × 2
Source 230/208V.60Hz, Single phase
Pole 2
Nominal output W(H.P.) 700 (1) × 2
Compressor oil 30 500 × 2 (Special oil fo r Rotary Compressor)
Coil resistance 0 C - R : 2. 51
(Ambient temp. 77 °F) 52 C - S : 5. 58
Protective Devices, Comp Protective Devices, Compressor External line type
Overload relay model MRA98735-9201 × 2
Operating temp. Open 'F - 311 ± 9
Close 'F - 156 ± 20
Operating amperes Trip in 6~16 sec.
(Ambient temp. 77'F) _ at 24.0 A
Run capacitor 17.5 × 2
VAC 370
Crankcase heater V - W
Unit Model No. KMH0912W / KMH0912X CMH1812
Fan Cross-flow Propeller
Numberdia. (length) ma 1 ¢ 90, (L626) 1 ¢ 400
Fan motor model SV4T-11D6P SG6S-51C6P
Source 230/208V.60Hz. Single phase
No. of polerpm. (230/2 208V) 41,518/1,455(Hi) 61,000/953
Nominal output W 10 50
Coil resistance 0 WHI - GRY : 464.8 WHI - BRN : 85.9
(Ambient temp. 68°F) 22 WHT - VLT : 209.8 WHT - YEL : 73.7
VLT - YEL : 93.4 YEL - PNK : 59.6
YEL - PNK : 539.6
Safety Devices
Fan motor, internal type Open ۰F 266 ± 18 266 ± 18
Operating temp. Close •F 174 ± 27 174 ± 27
Run capacitor Run capacitor 0.6 2
VAC 440 440

DATA SUBJECT TO CHANGE WITHOUT NOTICE.

Page 6
3) Other Component Specifications
Relay (Heater relay) G4E-2123T-US
Coil rated DC 24V
Coil resistance \Omega (at 68 °F) 533 ± 15%
Contact rated (2a) AC 240V : 15A
Unit Model No. KMH0912W/X
Relay (Power relay) DFU24D1-F(M)
Coil rated DC 24V
Coil resistance \Omega (at 68 °F) 650 ± 10%
Contact rated (1a) AC250V. { FLA 20A
LRA 60A
20A 265VAC, 275VAC
2 HP 240VAC, 265VAC
Unit Model No. CMH1812
Thermistor (PTC) TDK 101YV
Rated max. volt. age AC 400V
max. amper re 11. 5A
Resistance Ω (at 77°F) 100 ± 25%
Unit Model No. CHM1812
Thermister (Indoor coil temp. sensor) PTC-51H-S3
Resistance kΩ 32°F 185.5 ± 5% 86°F 45.1 ± 5%
50°F 112.2 ± 5% 104°F 29.7 ± 5%
68°F 70.1 ± 5% 122°F 20.0 ± 5%
Unit Model No. KMH0912W/X
Thermister (Outdoor coil temp. sensor) PBC-41E-S15
Resistance kΩ 14°F 23.7 ± 5% 77°F 5.3 ± 5%
32°F 15.0 ± 5% 86°F 4.4 ± 5%
50°F 9.7 ± 5% 104°F 3.1 ± 5%
68°F 6.5 ± 5%
Unit Model No. CMH1812
Transformer ATR-J122U
Rating Primary AC 220V 60HZ
Seconda ry 19V .0.63A
Capacit y 12VA
Resistance O Primary (WHT - WHT): 143.5
(Ambient temp. 79 °F ) Secondary (BRN - BRN): 1.2
Thermal Cutoff 259 °F 2A 250V
Unit Model No. KMH0912W/X
Page 7
Other Component Specifications
Solenoid Valve (4-way valve) CHV-01AQ020UA1(Coil), CHV-01U1(Valve)
Rating AC 208~240V , 60HZ , 6W
Coil resistance \Omega (at 68 °F)
Unit Model No. CMH1812
Heater Protector
Unit Model No. Thermosta Fuse
S334 Rating AC 240V . 15A SF169U
KMH0912W/X (AH-KH0912) Operating Temps. OFF 131 ± 5°F Cupoff 226 12 -5°E
ON 111 ± 9°F ULCII 550 +2, -5 F
Page 8

2. OPERATING RANGE

Temperature Indoor air intake Outdoor air intake
Cooling Maximum 95°F DB / 71°F WB 115°F DB
COOMING Minimum 67 0 F DB / 57 0 F WB 67°F DB
Heating Maximum 80°F DB / 67°F WB 75°F DB / 65°F WB
ricating Minimum - DB/- WB 17°F DB / 15°F WB
Page 9

3. CONSTRUCTION OF THE UNIT

INDOOR UNIT КМН0912W, КМН0912X

OUTDOOR UNIT CMH1812

  • 1. Air intake
  • 2. Air filter (slide-out)
  • 3. Evaporator (=Indoor heat exchanger)
  • 4. Indoor fan
  • 5. Heater ass'v
  • 6. Electrical component box 7. PCB ass'y
  • 8. Casing
  • 9. Remote control unit
  • 10. Fan motor 11. Drain hose
  • 12. Refrigerant piping 13. Air outlet

  • 1. Casing
  • 2 Fan motor
  • 3. Condenser (= Outdoor heat exchanger)
  • 4. Compressor
  • 5. Electrical component box
  • 6. Service valve (Narrow pipe)
  • 7. Service valve (Wide pipe) 8. Outdoor fan
  • 9. Fan guard
Page 10

4. DIMENSIONAL DATA

Indoor Unit: KMH0912W, KMH0912X

Outdoor Unit: CMH1812

Page 11

5. CAPACITY

1) COOLING CAPACITY

1PHASE 60Hz 230 V MODEL NAME : 18KMH12W-18KMH12X

RATED CAPACITY : 8,500 BTL J~H AIR FLOW RATE : 220 CFM
EVAPORF ATOR CONDENSER
ENTERI NG TEMP °F(°C) AMBIENT TEMP °F(°C)
H.B D.B 75(23.9) 85(29.4) 95(35) 105(40.6) 115(46.1)
ТС
КМ
8,420
0.67
8,030
0.73
7,650
0.80
7,220
0.87
6,630
0.95
59
(15.0)
72 ( 22.2 )
76 ( 24.4 )
80 ( 26.7 )
84 ( 28.9 )
88 ( 31.1 )
SHC
SHC
SHC
SHC
SHC
6,040
6,780
7,560
8,300
8,420
5,840
6,580
7,360
8,030
8,030
8,030
5,640
6,390
7,160
7,650
7,650
7,650
5,430
6,170
6,940
7,220
7,220
7,220
5,140
5,880
6,630
6,630
6,630
6,630
ТС
КН
8,700
0.68
8,430
0,74
8,100
0.81
7,660
0.88
7,060
0.97
63
(17.2)
72 ( 22.2 )
76 ( 24.4 )
80 ( 26.7 )
84 ( 28.9 )
88 ( 31.1 )
SHC
SHC
SHC
SHC
SHC
5,100
5,840
6,620
7,360
8,100
4,970
5,710
6,490
7,230
7,970
4,820
5,560
6,330
7,070
7,820
4,610
5,350
6,130
6,870
7,610
4,340
5,080
5,850
6,600
7,060
TC
Kh
B,940
0.68
8,800
0.75
* 8,500
0.82
8,030
0.89
7,480
0.99
67
(19.4)
72 ( 22.2 )
76 ( 24.4 )
80 ( 26.7 )
84 ( 28.9 )
88 ( 31.1 )
SHC
SHC
SHC
SHC
SHC
4,140
4,880
5,650
6,390
7,140
4,070
4,810
5,590
6,330
7,070
3,940
4,690
5,460
6,200
6,940
3,740
4,490
5,260
6,000
6,740
3,510
4,260
5,030
5,770
6,510
TC
Kh
9,220
0.69
9,070
0.76
8,840
0.83
8,440
0.92
7,950
1.01
71
(21.7)
72 ( 22.2 )
76 ( 24.4 )
80 ( 26.7 )
84 ( 28.9 )
88 ( 31.1 )
SHC
SHC
SHC
SHC
SHC
3,140
3,880
4,660
5,400
6,140
3,080
3,820
4,600
5,340
6,080
2,990
3,730
4,510
5,250
5,990
2,840
3,580
4,350
5,090
5,840
2,650
3,390
4,170
4,910
5,650
ТС
КН
9,400
0.71
9,300
0.77
9,100
0.84
8,770
0.94
8,420
1.04
75
(23.9)
76 ( 24.4 )
80 ( 26.7 )
84 ( 28.9 )
88 ( 31.1 )
SHC
SHC
SHC
SHC
2,890
3,670
4,410
5,150
2,850
3,630
4,370
5,110
2,780
3,560
4,300
5,040
2,670
3,450
4,190
4,930
2,550
3,320
4,060
4,810

IC:Total Cooling Capacity (BTU/H) SHC:Sensible Heat Capacity (BTU/H) KH:Compressor Input (KW) Rating conditions(*MARK) are :Outdoor Ambient Temp.95°F D.B. :Indoor Unit Entering Air Temp.80°F D.B./67°F W.B.

Page 12

COOLING CAPACITY 1PHASE 60Hz 208 V MODEL NAME : 18KMH12W/18KMH12X

RATED CAPACITY : 8,300 BTU ≻H AIR FLOW RATE : 210 CFM
EVAPORA TOR CONDENSER
ENTERIN G TEHP °F(°C) AMB IENT TEMP °F(°C)
. В D. B 75(23.9) 85(29.4) 95(35) 105(40.6) 115(46.1)
TC
KH
8,220
0.64
7,840
0.69
7,470
0.75
7,050
0.82
6,470
0.90
59
(15.0)
72 ( 22.2 )
76 ( 24.4 )
90 ( 26.7 )
94 ( 28.9 )
88 ( 31.1 )
SHC
SHC
SHC
SHC
SHC
5,880
6,590
7,340
8,050
8,220
5.680
6,400
7,140
7,840
7,840
7,840
5,490
6,200
6,950
7,470
7,470
5,280
5,990
6,740
7,050
7,050
5,000
5,710
6,450
8,470
6,470
TC
KW
8,500
0.64
8,230
0.70
7.910
0.77
7.480
0.83
6,890
0.92
63
(17.2)
72 ( 22.2 )
76 ( 24.4 )
80 ( 26.7 )
84 ( 28.9 )
88 ( 31.1 )
SHC
SHC
SHC
SHC
SHC
4,980
5,690
6,430
7,150
7,860
4,850
5,560
6,310
7.020
7,730
4,690
5,410
6,150
6,870
7,580
4,490
5,210
5,950
6,670
7,380
4,230
4,940
5,680
6,400
8,890
TC
KH
8,730
0.65
8,590
0,71
* 8,300
0.78
7,840
0.84
7,300
0,94
67
(19.4)
72 ( 22.2 )
76 ( 24.4 )
80 ( 26.7 )
84 ( 29.9 )
88 ( 31.1 )
SHC
SHC
SHC
SHC
SHC
4,040
4,760
5,500
6,210
6,930
3,980
4,690
5,440
6,150
6,860
3,850
4,570
5,310
6,030
6,740
3,660
4,370
5,120
5,830
6,540
3,430
4,150
4,890
5,600
6,320
tc
Kh
9.010
0.65
8,860
0.72
8,630
0.79
8,240
0.87
7,760
0.96
71
(21.7)
72 ( 22.2 )
76 ( 24.4 )
90 ( 26.7 )
84 ( 28.9 )
88 ( 31.1 )
SHC
SHC
SHC
SHC
SHC
SHC
3,080
3,800
4,540
5,250
5,970
3,020
3,740
4,480
5,190
5,910
2,940
3,650
4,390
5,110
5,820
2,780
3,500
4,240
4,960
5,670
2,600
3,310
4,060
4,770
5,480
TC
Kh
9,180
0.67
9,080
0.73
8,880
0.80
8,570
0.89
8,220
0.98
75
(23.9)
76 ( 24.4 )
80 ( 26.7 )
84 ( 28.9 )
88 ( 31.1 )
SHC
SHC
SHC
SHC
2,840
3,580
4,300
5,010
2,800
3,550
4,260
4,970
2,730
3,480
4,190
4,900
2,620
3,370
4,080
4,790
2,500
3,250
3,960
4,670

IC:Total Cooling Capacity (BIU/H) SHC:Sensible Heat Capacity (BIU/H) KW:Compressor Input (KW) Rating conditions(*MARK) are :Qutdoor Ambient Temp.95°F D.B. :Indoor Unit Entering Air Temp.80°F D.B./67°F W.B.

Page 13

2) HEATING CAPACITY

1 Phase 60Hz 230V MODEL NAME: 18KMH12W/18KMH12X

(°FD.B at 75% RH)

Page 14

HEATING CAPACITY

Page 15

6. OPERATING INSTRUCTIONS

Controls and Indicators

A. OPERATION BUTTON

This button is used to turn the heat pump ON/OFF.

B1. COOLING OPERATION LAMP

This lamp lights when the "COOL" mode is selected.

B2. HEATING OPERATION LAMP

This lamp lights when the "HEAT" mode is selected.

C. TIMER LAMP

This lamp lights when the system is operating on the timer.

D. SAVING MODE LAMP

This lamp lights when the NIGHT SETBACK or EN-ERGY SAVER mode is selected.

E. ROOM TEMPERATURE INDICATOR LAMPS

These lamps indicate the approximate room temperature at the location of the remote control unit.

F. TEMPERATURE SCALE

The numbers constitute the temperature scale (°F).

G. MODE SELECTOR

This has three options:

HEAT: Used for normal heating operation.
COOL: Used for normal cooling operation.
FAN: Choose this setting to run the fan
only, without the heating or cooling
function.
H. OPERATION SELECTOR

This has five options:

Used to start the system at the set time.
Used to stop the system at the set time.
.Used for programmed energy saving operation at night.
Used for programmed energy saving operation during the day.
Used for conventional tem-
perature control operation
using the thermostat.

I. FAN SPEED SELECTOR

AUTO: In this mode the fan speed is set automatically.

HIGH You can manually select the desired
MED.: fan speed.
LOW -
J. THERMOSTAT KNOB

You can regulate the room temperature as desired by adjusting this knob.

K. TIMER SET KNOB

This control is used to set the time at which you wish the heat pump to go on or off. Each number on the scale shows setting hour.

L. SENSOR

The sensor detects any change in the room temperature.

M. STANDBY LAMP

This lamp lights at the beginning of heating and when the system is in defrosting.

Page 16

Operation Thumbnails

By setting this heat pump once to the desired temperature, it will automatically regulate the room temperature to that value. Thus you can operate the heat pump or stop it by simply pressing the OPERATION ON/OFF button.

First, open the door of the remote control unit to gain access to the control panel. Next, carry out the following steps while referring to the sub-section "Controls and Indicators" on the previous page.

What you wish to do How to do it What will happen
ጘጉ ፈኑ
• Start the air conditioner and cool the room to the desired temperature
  1. Set the "G" knob to COOL.
  2. Set the "H" knob to MANUAL.
  3. Set the "I" knob to AUTO.
  4. Set the "J" knob to the desired temperature.
  5. Press the "A" OPERATION ON/OFF button.
The "B" and "E" lamps will
light, then after a few minutes
the air conditioner will start
cooling operation.
  • To stop the air conditioner
    immediately while it is oper-
    ating
  1. Press the "A" OPERATION ON/OFF but-
    ton.
The air conditioner will stop
immediately, and all indicator
lamps will go out.
• To use the TIMER to stop
the air conditioner after sev-
eral hours
  1. Set the "K" knob to the number of hours at which you wish to stop the air conditioner.
  2. Set the "H" knob to the TIMER OFF posi-
The "C" lamp will light and
after the set hours have
elapsed the air conditioner will
stop automatically.
tion.
• To switch the air
conditioner to the
ENERGY SAVING mode
during manual cooling
  1. Set the "H" knob from the MANUAL to
    the NIGHT SETBACK or ENERGY
    SAVER position.
The "D" lamp will light, the
set temperature will automati-
cally change, and the air con-
ditioner will continue to oper-
ate in the ENERGY SAVING
mode.
• To use the TIMER to start
the air conditioner after sev-
eral hours
1. Set the "K" knob to the number of hours at
which you wish to start the air conditioner.
The "C" lamp will light and
after the set hours have
elapsed the air conditioner will
2. Set the "H" knob to the TIMER ON posi-
tion.
start to operate automatically.
3. Press the "A" OPERATION ON/OFF but-
ton.
• To circulate the air in the 1. Set the "G" knob to FAN. The air conditioner will oper-
only operation)
  1. Press the "A" OPERATION ON/OFF but-
    ton.
out changing the room tem-
perature. In this case, only the
"E" ROOM
TEMPERATURE INDICA-
TOR LAMP will light.

The above description is intended to provide you with basic knowledge of your heat pump. For details of each function, read the relevant sections.

Page 17

Operation

1) Cooling

A. Manual Cooling

The Manual mode is used for normal cooling operation.

STEP 1: Set the "G" MODE SELECTOR
knob to COOL.

  • STEP 2: Set the "H" OPERATION SELEC-TOR knob to MANUAL.
  • STEP 3: Set the "I" FAN SPEED as desired.
  • STEP 4: Press the "A" OPERATION ON/OFF button. To stop the heat pump , press the OP-ERATION ON/OFF button again.

NOTE

1. This appliance has a built-in time delay circuit to ensure reliable operation. If the operation button is pressed, the compressor will start running after a few minutes.

In the event of power failure, the unit will stop. When the power is applied, the unit will re-start automatically after 3 minutes.

2. To prevent the appliance from malfunctioning, do not set the selector knob between the two indicated positions. Make sure that it clicks into position.

IMPORTANT
Limitation on cooling operation

This "Dual-Zone" split system cannot operate with the indoor units in different modes at the same time In other words, if one zone is in the heating mode, the other zone can also be operated in the heating mode but not in the cooling mode.

Page 18

B. Energy Saving Modes

B.1 Energy saver mode in cooling

  • STEP 1: Set the "H" OPERATION SELEC-TOR knob to NIGHT SETBACK before turning the system on.
  • STEP 2: Press the "A" OPERATION ON/OFF button. The NIGHT SET-BACK and COOL lamps will light.

To cancel the Night Setback mode, move the selector to MANUAL.

B.2 Night Setback mode in cooling

  • STEP 1: Set the "H" OPERATION SELEC-TOR knob to NIGHT SETBACK before turning the system on.
  • STEP2: Press the "A" OPERATION ON/OFF button. The NIGHT SET-BACK and COOL lamp will light.

To cancel the Night Setback mode, move the selector to MANUAL.

What does the Energy Saver mode mean ?

By selecting this mode then pressing the OPERATION ON/OFF button, the heat pump will perform cooling operation until the temperature in the room reaches the set value, then the thermostat will cause the unit to pause. After about 30 minutes, the heat pump will automatically raise the set temperature 2 °F as shown in the diagram below. This enables you to save energy without sacrificing comfort. This function is convenient for when the room is vacant or soft cooling is needed in the daytime.

What does the Night Setback mode mean ?

By selecting this mode then pressing the OPERATION ON/OFF button, the heat pump will perform cooling operation until the temperature in the room reaches the set value, then the thermostat will cause the unit to pause.

After about 30 minutes, the heat pump will automatically raise the set temperature 2 °F. When the room temperature reaches the newly set value, the thermostat will cause the unit to pause. After about 30 minutes the temperature is again raised by 2 °F as shown below. This enables you to save energy. This function is convenient for when leaving the heat pump on all night or soft cooling is needed.

Page 19

2) Adjusting the Fan Speed

A. Automatic

Simply set the "I" FAN SPEED selector to the "AUTO" position.

A microcomputer in the heat pump automatically controls the fan speed when the AUTO mode is selected. When the heat pump starts operating, the difference between the room temperature and the set temperature is detected by the microcomputer which then automatically switches the fan speed to the most suitable level.

Cooling mode:
When difference between
room temperature and set
temperature is
FAN SPEED
Above 4°F High
Between 4 and 2 °F Medium
Below 2 °F Low

Heating mode:

When difference between room
temperature and set tempera-
ture is
FAN SPEED
2°F and over High
Below 2°F Medium

B. Manual

If you want to adjust fan speed manually during cooling, just set the FAN SPEED selector as desired. [HIGH, MED., or LOW]

Page 20

3) Fan Only

If you want to circulate air without any temperature control, follow these steps:

STEP: 1 Set the "G" MODE SELECTOR knob to FAN.

Press the "A" OPERATION ON/OFF button.

4) Using the Timer

A. TIMER OFF Mode

The system stops at the set time.

STEP 1: Set the TIMER SET knob to the desired time.

When the timer is set to 8, for instance, the system stops after eight hours.

STEP 2:

Set the "H" OPERATION SELEC-TOR knob to TIMER OFF.

B. TIMER ON Mode

The system starts at the set time.

STEP 1: Set the TIMER SET knob to the das sired time.

When the timer is set to 8, for instance, the system starts after eight

STEP 2:

hours. Set the "H" OPERATION SELEC-TOR knob to TIMER ON.

STEP 3:

Press the "A" OPERATION ON/OFF button. The TIMER lamp will light.

NOTE

If you set the SELECTOR to the TIMER ON position while the heat pump is operating in the NIGHT SET BACK. ENERGY SAVER or MANUAL mode the heat pump will stop, then after several minutes it will re start automatically.

Power failure during timer operation

If power failure occurs, the time counted up to that point will become void. After the power is applied, the timer newly starts counting at the set time.

Page 21

5) Heating

A. Manual Heating

The Manual mode is used for normal heating opera-

STEP 1: Set the "C i" MODE SELECTOR
knob to H EAT.

  • STEP 2: Set the "H" OPERATION SELEC-TOR knob to MANUAL.
  • STEP 3: Set the "I" FAN SPEED as desired.
  • STEP 4: Press the "A" OPERATION ON/OFF button. To stop the heat pump , press the OP-ERATION ON/OFF button again.
NOTE

This appliance has a built-in time delay circuit to ensure reliable operation. If the operation button is pressed, the compressor will start running after a few minutes. In the event of power failure, the unit will stop

In the event of power failure, the unit will stop. When the power is applied, the unit will re-start automatically after 3 minutes.

  • 2. To prevent the appliance from malfunctioning, do not set the selector knob between the two indicated positions. Make sure that it clicks into position.
  • In order to protect the appliance from an overload, the fan sometimes continues to rotate for about 30 seconds after the OPERATION ON/OFF button is pressed OFF.
Special remarks on heating Heating performance

Because this heat pump heats a room by drawing in the heat of the outside air (heat pump system), the heating efficiency will fall off when the outdoor temperature is very low. If sufficient heat cannot be obtained with this heat pump, use another heating appliance in conjunction with it.

Defrosting

• When the outdoor temperature is low, frost or ice may form on the heat exchanger coil, reducing the heating performance. When this happens, a microcomputer defrosting system operates. At the same time, the fan on the indoor unit stops and the STANDBY LAMP remains lit until defrosting is completed. Heating operation restarts after several minutes. (This interval will vary slightly depending upon the outdoor temperature and the way in which frost forms).

IMPORTANT
Limitation on cooling operation

This "Dual-Zone" split system cannot operate with the indoor units in different modes at the same time. In other words, if one zone is in the heating mode, the other zone can also be operated in the heating mode but not in the cooling mode.

STANDBY LAMP

  • For several minutes after the start of heating operation, the indoor fan will not start running until the indoor heat exchanger coil has warmed up sufficiently. This is because the COLD DRAFT PRE-VENTION SYSTEM is operating. During this period, the STANDBY LAMP remains lit.
  • The STANDBY lamp also remains lit during defrosting or when the compressor has been turned off by the thermostat when the system is in the heating mode.
  • Upon completion of defrosting and when the compressor is turned on again, for heating operation, the STANDBY LAMP will go off automatically.
Page 22
B. Energy Saving Modes
B.1 Energy saver mode in heating

  • STEP 1: Set the "H" OPERATION SELEC-TOR knob to ENERGY SAVER before turning the system on.
  • STEP 2: Press the "A" OPERATION ON/OFF button. The ENERGY SAVER and HEAT lamps will light

To cancel the Energy Saver mode, move the selector to MANUAL.

B.2 Night Setback mode in heating

  • STEP 1: Set the "H" OPERATION SELEC-TOR knob to NIGHT SETBACK before turning the system on.
  • STEP 2: Press the "A" OPERATION ON/OFF button. The NIGHT SET-BACK and HEAT lamps will light.

To cancel the Night Setback mode, move the selector to MANUAL.

■ What does the Energy Saver mode mean ? By selecting this mode then pressing the OPERATION ON/OFF button, the heat pump will perform heating operation until the temperature in the room reaches the set value, then the thermostat will cause the unit to pause. After about half an hour, the heat pump will automatically lower the set temperature 4 °F as shown in the diagram below. This enables you to save energy without sacrificing comfort. This function is convenient for when the room is vacant or mild heating is needed in the daytime.

What does the Night Setback mode mean ? By selecting this mode then pressing the OPERATION ON/OFF button, the heat pump will perform heating operation until the temperature in the room reaches the set value, then the thermostat will cause the unit to pause.

After about 30 minutes, the heat pump will automatically lower the set temperature 4 °F. When the room temperature reaches the newly set value, the thermostat will cause the unit to pause. After about 30 minutes, the temperature is again lowered by 4 °F as shown below. This enables you to save energy. This function is convenient for when leaving the heat pump on all night or mild heating is needed.

Page 23

6) Adjusting the Air Flow Direction

A. Horizontal

The horizontal air flow can be adjusted by moving the vertical vane to the left or right.

B. Vertical

Hold both ends of the flap and move the flap up and down to adjust the vertical air flow.

Recommended flap positions:

• Be sure to set the flap within zone "A".

• If the flap is set within zone "B", condensation may form near the air outlet grille and drip onto the floor.

HEATING

• Set the flap within zone "B" for effective heating.

Page 24

Care and Cleaning

For safety's sake, be sure to turn the heat pump off and also disconnect it from the power mains before cleaning it.

Casing and Grille (Indoor Unit)

Clean the casing and grille of the indoor unit with a vacuum cleaner brush, or wipe them with a clean soft cloth.

If these parts are stained, use a clean cloth moistened with a mild liquid detergent.

When cleaning the grille, be careful so as not to force the vanes out of place.

CAUTION

  • 1. Do not pour water on the unit to clean it. This will damage the internal components and cause an electric shock hazard.
  • 2. Never use solvents, or harsh chemicals. Do not wipe the plastic casing using very hot water.
Outdoor Unit
CAUTION

  • Certain metal edges and the condenser fins are sharp and may cause injury if handled improperly; special care should be taken when you clean these parts.
  • 2. Periodically check the outdoor unit to see if the air outlet or air intake are clogged with dirt or soot.
  • The internal coil and other components of the outdoor unit must also be cleaned periodically. Consult your dealer or service shop.
NOTE
Service TEST RUN switch (recessed)

The Service TEST RUN switch is located at the rear bottom of the remote control unit. It is used for servicing the heat pump. Do not touch it, therefore. During normal operation,this switch must be set in the RUN position. If the heat pump is used with the switch in the TEST RUN position, it will not operate normally.

Air Filter

The air filter behind the air intake grille should be checked and cleaned at least once every two weeks.

How to remove the filter

  • 1. Place the flap on the air outlet grille in the bottommost position.
  • 2. Grasp the air filter by the tab at the bottom, and pull downward.

Use a vacuum cleaner to remove light dust. If there is sticky dust on the filter, wash the filter in lukewarm, soapy water, rinse it in clean water, and dry it.

When replacing the filter, check that the FRONT mark is facing you.

Remote control unit viewed from the rear

Page 25

7. FUNCTION

1) Temperature Control
Cooling

  • Temperature control is obtained by cycling the compressor ON and OFF under control of the room temperature sensor in the remote control unit.
  • The compressor turn to OFF below the setting temperature (Thermo OFF), and turn to ON above 1°F from setting temperature (Thermo ON).

  • In order to keep the compressor from stalling out when trying to start against the hight side refrigerant pressure, the control circuit has a built-in automatic time delay to allow the internal pressure to equalize. The control circuit will not try to start the compressor unit it has been off for (3) minutes.
  • The compressor keep to turn forced for five (5) minutes, but the operation button is set to OFF, the compressor stop to turn.
  • The compressor is not controlled by thermostat while the compressor run within five (5) minutes, or stop to run within three (3) minutes.
  • * The outdoor fan interlock to turn with either or both compressors.
  • If the other indoor unit (for example indoor unit B) is set to the heating mode, this split system (indoor unit A, compressor A and etc. A) can not operate for the cooling. At this time compressor A stop to turn, but the cooling operation lamp lights and the indoor fan is turning.
Page 26
Heating

  • Temperature control is obtained by cycling the compressor ON and OFF under control of the room temperature sensor in the remote control unit.
  • The compresor turn to OFF above the setting temperature (Thermo OFF), and turn to ON below 1°F from the setting temperature (Thermo ON).

The compressor start to run at Thermo ON and heating operation start, then if the room temperature is down below 3.6°F from the setting temperature, the electric heater will be ON. (When the operation button is set to ON to start heating operation, the electric heater will be ON following the compressor operation.)

• The electric heater is OFF when the operation is Thermo OFF and the compressor stop.

Fig. 2

  • In order to keep the compressor from stalling out when trying to start against the hight side refrigerant pressure, the control circuit has a built-in automatic time delay to allow the internal pressure to equalize. The control circuit will not try to start the compressor until it has been off for five (5) minutes.
  • The compressor keep to turn forced for five(5) minutes, but the operation button is set to OFF, the compressor stop to turn.
  • The compressor is not controlled by thermostat while the compressor run within five (5) minutes or stop to run.
  • * The outdoor fan interlock to turn with either or both compressors. (Except operations of Overload Prevention and Defrosting.)
Page 27
2) Energy Saver Modes Timing Chart
■ Cooling Refer to page 15.

Page 28
3) Night Setback Modes Timing Chart

Page 29
4) Freeze prevention (Cooling)

If the indoor coil temperature falls below 30°F when the compressor has been turning for 10 minutes or more, the controller signals to stop turning to the compressor and outdoor fan. The compressor and outdoor fan motor will start to turn after 6 minutes.

Fig. 7

Page 30
5) Overload Prevention (Heating)

When the indoor coil temperature rises above 129°F, if the set speed of the indoor fan is LOW, the fan speed changes to MED. When the temperature reaches to 133°F, the outdoor fan stop to turn. When the temperature falls below 118°F, the outdoor fan turn to ON. When the temperature falls below 111°F, the indoor fan speed return to LOW from MED.

Thus the system is protected from the overload.

* When the coil temperature of either one of indoor units rises above 133°F, the outdoor fan stop to turn.

Page 31

8) Cold Draft Prevention (Heating)

When the standby lamp lights up, the indoor fan stop, and blowout of cool air is prevented. Refer to page 18, 23 and 30.

Page 32
7) Defrosting Mode (Heating)

When the capacity of unit has been decreased due to frost sticking to the outdoor heat exchanger during heating, the temperature drop gradient is detected by the microcomputer controlled temperature sensing system, and defrosting operation is started. At this time, the indoor and outdoor fan motors will stop, only the compressor is operated, and the system is automatically changed to cooling operation mode.

Flow of Defrosting
Page 33
Timing chart of Defrosting

Fia. 10

Notes: *1. In case of Cold Draft Prvention. *2. There is the case of Heater OFF.

Page 34
4) Wiring Instructions
WIRING SYSTEM DIAGRAM

NOTE:

Fig. 9

All wiring between indoor and outdoor units, grounding lines and disconnect switches should be provided by the installer.

Page 35
5) Air Purging

Air does not function as a refrigerant because it cannot be liquefied in the condenser. Air and moisture remaining in the refrigerant system have undesirable effects as indicated at right. Therefore, they must be purged completely.

  • The pressure in the system rises.
  • The operating current rises.
  • Cooling and/or heating efficiency drops.
  • Water contained in the air may freeze and block the capillary tubing.
  • Water may lead to corrosion of parts in the refrigerant circuit
Piping Diagram for Air Purging

Inadequate refrigerant charge may cause freeze-up problem of the evaporator. Follow the correct air purging procedures and be sure not to overbleed refrigerant.

6-2. Quick Air Purge System

Quick air purge system represents purging the air stayed in the indoor unit and connection tubes by the aid of refrigerant gas charged in the outdoor unit. By this system, air purging has become much simpler and installation time has become shorter than conventional methods.

* Interval required for air purging is only 15 SECOND.

NOTE Outdoor unit is pre-charged at the factory. Don't open valves until piping is hooked up and you are ready to proceed with purging procedure.

Page 36
Air Purging Procedure

  • a) Remove the valve caps from the service valves on the narrow pipe and wide pipe.
  • b) Slacken off the flare nut at the charging port one full turn. (Fig. 11)
  • c) Open the service valve on the narrow pipe side by 90 degrees (1/4 turn). (During this operation, air will be discharged from the charging port of the service valve on the wide pipe.)
  • d) 15 seconds after opening the spindle, tighten up the flare nut of the charging port.
  • e) Shut the spindle of the service value on the narrow pipe. (Fig. 12)

  • f) Leak test the joints with liquid soap. (Fig. 13)
  • g) Fully open the spindles of the service valves on the wide pipe and the narrow pipe.
  • h) Next, re-install the valve caps in which copper gaskets have been inserted. (Fig. 14)
  • i) The all air purge procedure has been completed and the unit is ready for trial operation.
Page 37
6) Test Run

Check that all piping and wiring have been completed correctly. Check again that wide and narrow pipe service valves are fully opened. Turn on power and run the unit.

SERVICE VALVE CONSTRUCTION

• Valve Position -a-

The valve spindles of both wide and narrow pipes are turned all the way in. The unit is shipped from the factory in this position. (Fig. 15a)

• Valve Position -b-

The valve spindles of both wide and narrow pipes are turned all the way out ("BACK SEAT" position). This is the normal operating position. (Fig. 15-b)

• Valve Position -c-

With the narrow pipe valve kept at BACK SEAT, only the wide pipe valve spindle is turned halfwaydown position. This position is used for pressure measurement and gas charging. (Fig. 15-c)

Valve Position -d-

Like position -a-, but with the flare nut of wide pipe slack. This position is used for air purging. (Fig. 15-d)

CAUTION

Be sure to use the valve tool or ratchet wrench when opening or closing the shut-off valve spindle. Open Close Valve tool

Fig. 16

PUMP DOWN

Pump down means collecting all refrigerant in the system back into the outdoor unit without losing refrigerant gas. Pump down is used when unit is moved or for servicing the refrigerant circuit.

Pump Down Procedure (Be sure to carry out Pump Down in cooling operation)

  • 1) Close valve on wide pipe halfway (2 turns).
  • 2) Close valve on narrow pipe all the way (4 turns).
  • 3) Turn unit on (cooling) for approximately 3 minites then shut off.
  • 4) Close valve on wide pipe all the way (2 additional turns).
  • 5) Disconnect pipes slowly allowing pressure to equalize inside and out.

6) When piping is disconnected provide dust covers for both valves and pipes until unit is reconnected.

CAUTION WHEN THE UNIT IS REINSTALLED

  • After reinstalling the unit, flush in the piping with the gas contained in the outdoor unit. Be sure to charge 1.4 oz. (40 g) of refrigerant from wide pipe service valve at position -cduring cooling operation.
  • No additional charging of refrigerant is necessary when vacuum evacuation was taken place for servicing.
Page 38

9. REFRIGERANT FLOW DIAGRAM

Page 39

10. ELECTRICAL DATA

• Schematic Diagram 18KMH12W/18KMH12X

Page 40

Electrical Characteristics

Page 41
Electrical Characteristics
Performance at
230 / 208V
1 φ - 60Hz
Indoor Unit × 1 Outdoor Unit Complete Unit
Fan Motor Max. Heat Fan Motor Compressor Cool or Heat Max. Heat
Cool Rated Load A 0.15/0.14 0.47/0.47 3.78/3.89 4.4/4.5 -
W 34/29 - 106/96 820/775 960/900 -
Uest Potod Lood A 0.15/0.14 4.35/3.93 0.47/0.47 3. 78/3. 89 4.4/4.5 8.75/8.43
heat kate Kated Load 34/29 1,000/818 106/96 820/775 960/900 1,960/1,718
Locke d Rotor Amps. A 0.18/0.17 - 0.67/0.67 27 - _
18KMH12W or 18KMH12X 1 - U n i t

18KMH12W or 18KMH12X 2 - Units

Performance at
230 / 208V
1 φ - 60Hz
Indoor Unit × 2 Outdoor Unit Complete Unit
Fan Motor Max. Heat Fan Motor Compressor Cool or Heat Max. Heat
A 0.30/0.28 0. 47/0. 47 8.03/8.25 8.8/9.0 -
001 Rated Load W 68/58 - 106/96 1,726/1,666 1,900/1,820 -
A 0.30/0.28 8.70/7.86 0. 47/0. 47 7.73/7.75 8.5/8.5 17.2/16.36
Heat Rated Los Kated Load W 68/58 2,000/1,636 106/96 1,626/1,546 1,800/1,700 3,800/3,336
Locke d Rotor Amps. A 0.36/0.34 _ 0.67/0.67 27 × 2 _ -

Remarks: Rated Conditions : Cool, Heat, Undoor unit entering air temperature 95°F D. B. /75°F W. B. Indoor unit entering air temperature 80°F D. B. /67°F W. B. Undoor unit entering air temperature 47°F D. B. /43°F W. B. Indoor unit entering air temperature 70°F D. B.

Page 42
• P.C.B. Ass'y (Printed Pattern)
POW-KMH0912 (for KMH0912W and KMH0912X)

  • © Connector, Remote Control Unit 2 5P, 9 V.D.C.
  • 6 Connector, Heater Relay, 24 V.D.C
  • Connector, Transformer (Primary*)

  • (8) Connector, Transformer (Secondary, 19 V.A.C.)
  • Connector, Test, 9 V.D.C.
  • Connector, Power Supply to P.C.B.*
  • The asterisk "*" indicates that line voltage is applied.
Page 43

• P.C.B. Ass'y (Printed Pattern)

POW-186CMH (for CMH1812)

Page 44

11. TROUBLESHOOTING

- Quick Access Index -
Page
Ai r conditioner does not operate 46
(1) Circuit breaker trips (or fuse blows) 46
a) When circuit breaker is set to ON, it is tripped soon (Resetting is not possible) 46
b) Circuit breaker trips when the operation switch is depressed 47
(2) Neither indoor unit nor outdoor unit runs 48
Sc ome part of air conditioner does not operate 49
(1) Only indoor fan does not run 49
(2) Neither outdoor fan nor compressor runs 50
(3) Only outdoor fan does not run 51
(4) Only compressor does not run 52
(5) Compressor frequently repeats ON and OFF 53
Ai r conditioner operates, but abnormalities are observed 54
(1) Heating operation cannot be done 54
(2) Cooling operation cannot be done 55
(3) Poor cooling 56
(4) Excessive cooling 57
(5) Poor heating 58
(6) The electric heater does not work 59
Ai
(1)
a)
b)
(2)
Sc
(1)
(2)
(3)
(4)
(5)
(4)
(5)
(6)
Air conditioner does not operate (1) Circuit breaker trips (or fuse blows) a) When circuit breaker is set to ON, it is tripped soon (Resetting is not possible) b) Circuit breaker trips when the operation switch is depressed (2) Neither indoor unit nor outdoor unit runs Some part of air conditioner does not operate (1) Only indoor fan does not run (2) Neither outdoor fan nor compressor runs (3) Only outdoor fan does not run (4) Only compressor does not run (5) Compressor frequently repeats ON and OFF Air conditioner operates, but abnormalities are observed (1) Heating operation cannot be done (2) Cooling operation cannot be done (3) Poor cooling (4) Excessive cooling (5) Poor heating (6) The electric heater does not work
Page 45
Note 1: Check the following operations at first.
C )perations
Cooling Heating
1-(2) Neither indoor unit nor outdoor unit runs. Thermo. OFF
5 minutes OFF timer
2-(1) Indoor fan does not run. - Cold Draft Prevention
2-(2) Neither outdoor fan nor compressor runs. Thermo. OFF
3 minutes OFF timer
Freeze Prevention
-
2-(3) Only outdoor fan does not run. Overload Prevention
3-(1) Heating operation cannot be done. Defrosting Mode

Refer to 7 FUNCTION.

Table 1

Note 2: Control line voltage at the outdoor unit's terminal plate (7PA or 7PB) at normal operation.

Cooling operation

Terrinel No. mo, Freeze
Terminal No. ON OFF Prevention
Compressor 1 - 2 24VDC 0 V 07
Solenoid coil
(4-way valve)
1 - 3 0 V 0 V 0 V
Outdoor fan 1 - 4 24VDC 0V 0 V
Table 2

Heating operation

Terminal Ther mo. Overload Cold Draft Defrecting
No. ON OFF Prevention Prevention Derrosting
Compressor 1 - 2 24VDC 0V 24VDC 24VDC 24VDC
Solenoid coil
(4-way valve)
1 - 3 24VDC 24VDC 24VDC 24VDC 0V
Outdoor fan 1 - 4 24VDC OV 0V 24VDC 0V

Table 3

Page 46
1. Air conditioner does not operate
(1) Circuit breaker trips (or fuse blows)

a) When circuit breaker is set to ON, it is tripped soon (Resetting is not possible)

Page 47

b) Circuit breaker trips when the operation switch is depressed.

NOTE: In case of defect, replace the respective part.

Page 48
(2) Neither indoor unit nor outdoor unit runs

Downloaded from www.Manualslib.com manuals search engine

Page 49

2. Some part of air conditioner does not operate

(1) Only indoor fan does not run

Page 50
(2) Neither outdoor fan nor compressor runs

Page 51
(3) Only outdoor fan does not run

Page 52
(4) Only compressor does not run

Page 53
(5) Compressor frequently repeats ON and OFF

(Only compressor repeats ON and OFF, while indoor unit and outdoor fan runs without fail.)

Page 54

3. Air conditioner operates, but abnormalities are observed

(1) Heating operation cannot be done (4-way valve malfunction). (only cooling is possible).

Page 55

(2) Cooling operation cannot be done. (only heating is possible.)

Note: Check the following points at first.

  • Is another indoor unit set to heating mode?
  • If one of pairs is set to heating mode, another cannot be done cooling operation.
Page 56
(3) Poor cooling

Page 57
(4) Excessive cooling

Page 58
(5) Poor heating

Page 59
(6) The electric heater does not work

- 59 -

Page 60

8. INSTALLATION INSTRUCTIONS

1) Installation Site Selection

Indoor Unit

AVOID: • area where leakage of flammable gas may be expected.

  • place where a large amount of oil mist exists.
  • direct sunlight.
  • nearby heat source that may affect performance of the unit.
  • location where remote control will be splashed with water or affected by dampness or humidity.
  • installing remote control unit behind curtains or furniture that obstruct air circulation.
  • DO:

select an appropriate position from which every corner of the room can be uniformly air-conditioned. (High on the wall is best.)

  • select a location that will hold the weight of the unit.
  • select a location where piping and drain pipe have shortest run to the outside. Fig. 1
  • allow room for operation and maintenance as well as unrestricted air flow around the unit.
  • install unit within 16' up or down of outdoor unit and within 33' from outdoor unit. Fig. 2
  • allow room for mounting control unit about 4' off the floor, in an area that is not in direct sunlight or in the flow of conditioned-air from the unit.

Page 61
Outdoor Unit

  • AVOID: heat source, exhaust fan, etc. Fig. 3
    • direct sunlight.
    • damp, humid or uneven location.
  • DO: choose a place as cool as possible.
    • choose a place that is well ventilated and outside air temperature does not exceed 113°F constantly.
    • allow enough room around unit for air intake/exhaust and possible maintenance. Fig. 4
    • provide a solid base; concrete or concrete blocks, about 4" above ground level to reduce humidity and possible water damage in unit and decrease service life. Fig. 5
    • use lag bolts or equal to bolt down unit, reducing vibration and noise.

Fig. 5

Page 62
2) Connecting Pipes between Indoor and Outdoor Units

  • 1. Connect the indoor side refrigerant piping extended from the wall with the outdoor side piping tightly.
  • 2. Flare nut on large dia. pipe should be torqued to 300 ~ 340 Ib in. Flare nut small dia, pipe should be torqued to 130 ~ 170 lb in. Fig. 6
  • 3. After performing a leak test on the connecting part insulation and finish with a vinyl masking tape over it. Fig. 7
    • CAUTION Never connect up pipes by brazing them. If it is inevitable, be sure to blow nitrogen gas while brazing to avoid oxidation of inside copper pipes
  • 3) Insulation of Refrigerant Piping

Because the capillary tube is installed in the outdoor unit, both wide and narrow pipes of this air conditioner become coil. Therefore, to prevent heat loss and wet floors due to dripping of condensation, both pipes must be well insulated with proper insulation material. Thickness of insulation material should be min. 5/16". Fig. 8

Page 63

12. CHECKING AND REPLACING ELECTRICAL COMPONENTS

— Quick Access Index —
Page
1. Measurement of Insulation Resistance
2. Checking of the Motor Winding
3. Checking of the Motor Capacitor
4. Checking of the Relay
5. Checking of the Thermistor (PTC)
6. Checking of the Transformer
7. Checking of the 4-way valve
8. Checking of the Heater Protector
9. Checking of the Compressor Overload Relay 64
10. Checking of the Remote Control Unit Proper
11. Checking of the Continuity of Fuse on the P.C.B. Ass'y
12. Checking of the Output of the P.C.B. Ass'y for Fan Motor Terminals
Page 64
1. Measurement of Insulation Resistance

  • The insulation is in good condition if the resistance exceeds 1 MΩ
  • 1-1 Power Supply Cords

Clamp the ground line of the Power Supply Cord with a lead clip of the insulation resistance tester and measure the resistance by placing a probe on either of the two power lines.

Then also measure the resistance between the ground line and the other power line. (Fig. 1)

1-2 Indoor Unit

Clamp the aluminum plate fin or copper tube with a lead clip of the insulation resistance tester and measure the resistance by placing a probe on (6), and then (7) on the terminal plate. (Fig. 2)

1-3 Outdoor Unit

Clamp the metallic part of the unit with a lead clip of the insulation resistance tester and measure the resistance by placing a probe on (5), and then 2P-2 on the terminal plate. (Fig. 2)

1-4 Measurement of Insulation Resistance for Electric Parts.

Disconnect the lead wires of electric part from terminal plate, P.C.B. Ass'y or capacitor etc. Like remove the connector.

Then measure the insulation resistance by method of Fig. 1--4.

Refer to Electric Wiring Diagram. (See page 40.)

Note:

If the probe does not enter the pole because the hole is too narrow then use a probe with a thinner pin.

Page 65
2. Checking of the Motor Winding

Refer to Major Component Specifications (Coil resistancel

2-1 Indoor Fan Motor

See page 2.

2-2 Outdoor Fan Motor

See page 2.

2-3 Compressor Motor

Remove the terminal cover of the compressor motor, set the resistance measuring range of the multimeter to "X1Ω" and check the continuity between each pair out of the 3 terminals as indicated in Fig. 6. See page 2.

Checking of any of the indoor fan motor capacitor, outdoor fan motor capacitor and compressor motor capacitor can be done by the same method.

Remove both the lead wire terminals connected to the capacitor, place the probe on the capacitor terminals as shown in the Fig. 7 and observe the deflection of the pointer, setting the resistance measuring range of the multimeter to the maximum value.

For good condition of the capacitor the pointer bounces to a great extent and then gradually returns to its original position.

The rance of deflection and deflection time differ according to the capacity of the capacitor.

terminal

Fig. 6

Fia. 7

Compressor motor . capacitor

Fan motor capacitor

Page 66

4. Checking of the Relay

Refer to Other Component Specifications

  • 5. Checking of the Thermistor (PTC)
  • Refer to Other Component Specifications. See page 3.

TDK101YV

Page 67
6. Checking of the Transformer

Refer to Other Component Specifications

See page 3.

7. Checking of the 4-way valve

• Refer to Other Component Specifications.

See page 4.

8. Checking of the Heater Protector

Refer to Other Component Specifications.

See page 4.

9. Checking of the Compressor Overload Relay

Remove both lead wires connected to the compressor overload relay. Set the resistance measuring range of the multimeter to "X1Ω" and check the continuity between terminals of the overload relay. After leaving the Compressor Overload Relay at room temperature at least half an hour perform the measurement.

Page 68
10. Checking of the Remote Control Unit Proper

(Check each item, referring to the P.C.B. Ass'y and the circuit diagrams)

A. Caution: Use of the Test Switch

(RUN/TEST RUN)

"TEST RUN" shows the position to run the air conditioner for the test at the installment.

If this operation is continued for a long time, there would be a bad effect on the air conditioner because of overcooling. Therefore, use this switch only for checking, and in any case, DO NOT KEEP ON COOLING FOR MORE THAN 15 MIN. UNDER TEST RUN MODE.

When the checking is over, TURN THE SWITCH BACK TO ITS ORIGINAL POSITION (= RUN) WITHOUT FAIL.

B. Checking of the Items of the Remote Control Unit

At first, pull out the connector (12P) of the remote control unit from the P.C.B. ass'y of the unit.

Checking of the Room Temperature Sensor Measure the resistance between No. 5 and No. 6 connectors.

If the probe does not enter the pole because the hole is too narrow then use a probe with a thinner pin.

(For an ambient temperature of 77°F the resistance is about 5 kΩ).

(2) Fan Speed Selector

Check the continuity of the connector No. 3 and No. 4 against No. 10 (place the positive (+) probe on No. 10 and negative (-) probe on No. 3 and then No. 4).

Charling points F Position of the selector
Checking points High Med. Low Auto
10 – 3 NO YES YES NO
10 – 4 YES YES NO NO

NOTE: YES ..... Continuity

(Table-1)

(3) Checking of the Operation Measure the continuity between No. 11, 12 and No.

9 (placing the positive (+) probe).

Checking Position of the selector
points Fan Cool Heat
9 — 11 NO NO YES
9 — 12 NO YES YES
(Table-2)

Fig. 11

NOTE: YES ..... Continuity NO ..... Discontinuity

Page 69
(4) Checking of the Selector

Check the continuity of the connectors No. 1, 2 and 3 (placing the negative (-) probe) against No. 9 (placing the positive (+) probe).

Position of
Connector No. ENERGY NIGHT TIMER
MANUAL SAVER SETBACK ON OFF
9 — 3 NO NO NO YES NO
9 — 1 NO NO YES YES YES NOTE
VES Continuity
9 — 2 NO YES YES NO NO NO Discontinu

(Table-3)

(5) Checking of the Operation Button

The operating switch is in good working condition if there is continuity between No. 4 (placing the negative (-) probe) and No. 9 (placing positive (+) probe) while the button is pressed.

(6) Checking of the Timer

Measure the continuity between No. 4, 3, 1, 2 and No. 8 (placing the positive (+) probe).

Connector Positi on of the Se lector
No. 1 2 3 4 5 6 7 89 9 10 11 12
8 – 4 - _ - - - - - - | Y Y Y Υ
8 — 3 - - Y Y Υ Υ Y Y Y Υ
8 — 1 - Y Y Y Y - - - Y Υ
8 – 2 _ Υ Υ - - Y Y - - Υ Υ

Y for YES = There is continuity.

(Table-4)

(Table-5)

(7) Checking of the Thermostat

Measure the continuity between No. 4, 3, 1, 2 and No. 7 (placing the positive (+) probe).

Connector Position of the Selector
No. 63 65 67 69 71 73 75 77 79 81 83
7 4 - - - _ - Υ Y Y Y Y Y
7 3 - Y Υ Υ Υ Y Y Y Υ - -
7 — 1 Y Υ Y Υ Υ Υ Y
7 — 2 - - Υ Υ - - Υ Υ Y

Y for YES = There is continuity.

If there is abnormality during checking at any of the above step from (1) to (7), replace the remote control unit as it is.

CAUTION:

Do not disassemble the Remote Control Unit.

It is supplied as a complete assembly and is carefully adjusted in the factory by skillful workmanship. Inexperienced disassembly will cause trouble and malfunction in the unit.

Page 70

11. Checking of the Continuity of Fuse on the P.C.B. Ass'y

Check the continuity by the multimeter as shown in Fig.

Method to Replace Fuse on the P.C.B. Ass'y

  • 1. Remove the P.C.B. ass'y.
  • Pull out the fuse at the metal clasp by a pair of pliers while heating the soldered leads on the back side of the P.C.B. ass'y with a soldering iron (30W or 60W). Fig. 13
  • Remove the fuse ends one by one. For replacement, insert a fuse of the same rating and solder it. (Allow time to radiate heat during soldering so that the fuse does not melt).

Be sure to replace the varistor adjacent to the fuse when the fuse is blown.

12. Checking of the Output of the P.C.B. Ass'y for Fan Motor Terminals

Take out the fan motor connector from P.C.B. Ass'y and be sure that there is no danger of short circuit in other parts before supplying electricity to the unit. After that, supply electricity to the unit and set the selector to "MANUAL". Then, turn on the operation switch.

Now measure the voltage between these pins by the multimeter. The P.C.B. Ass'y is in good working condition if the voltage output becomes same as those shown in the below tables

Dais of Disa FAN
Fair of Fins Low Med. High
1—3 * 0 0
1—5 0 * 0
1—4 0 0 *
Line voltage - (Table-6)

Fia. 12

Page 71

13. DISASSEMBLY PROCEDURES

— Quick Access Index —

Page
NDOOR UNIT
1. Casing — Removal 69
2. Electrical Component Box 69
Access and Removal
3. P.C.B. Ass'y — Removal 69
4. Evaporator (= Indoor Heat Exchanger) — Removal 70
5. Fan and Fan Motor — Removal 70
6. Heater Thermal Protector Removal 71
7 Flectric Heater — Removal 71

OUTDOOR UNIT

8. asing — Removal 72
9. an and Fan Motor — Removal 72
Page 72

INDOOR UNIT кмно912w/кмно912x

  • 1. Casing Removal
  • 1) Remove two screws holding the casing to the indoor unit
  • Pull up the casing by hand, press down on tabs on top, then withdraw the casing by pulling it back straight. Fig. 1.
NOTE.

When replacing the removed casing as it was before. push two positions as shown in Fig. 1 Quntil the casing clicks properly.

2. Electrical Component Box - Access and Removal

  • 1) Remove casing
  • 2) Disengage the electrical component box by the following procedure.
CAUTION : Before accessing inside the electrical component box, be sure to check that power to the unit is disconnected.

  • a) Disconnect interunit wires and power supply cords from the terminal plate.
  • b) Remove four screws. Fig. 2
  • c) Pull the electrical component box.
3. P.C.B. Ass'y – Removal

  • 1) Disconnect all connectors from P.C.B.
  • 2) Pull the P.C.B. Ass'v Fig. 3

Electrical component box

Page 73
4. Evaporator (= Indoor Heat Exchanger) - Removal

  • 1) Remove the electrical component box.
  • 2) Remove the drain pan ass'y by unfastening two screws.
  • and remove them respectively. and remove them respectively.
  • 4) Lift up the evaporator with both hand, then withdraw the evaporator together with the piping. (If the piping is fixed with a clamper or saddle, first remove the clamp.)

5. Fan and Fan Motor - Removal

  • 1) As shown in Fig. 4 loosen the screws of the plastic mounting plates (C) and (D) which secure the fan, using a Phillips screwdriver, then remove the fan and fan motor.
  • 2) When withdrawing the fan from the motor, first loosen the fan fixing bolts using a hexagonal key (A).
  • 3) Withdraw the Bearing Ass'y E retaining the left side of the fan, by hand, then pull the fan to the left and withdraw it from the motor shaft.
Page 74
6. Heater thermal protector - Removal

1) Alternately remove the left and right claws of the upper plate (K) of the evaporator. (When the evaporator is in place, the upper plate (K) of the evaporator can be removed more easily by loosening the screws of the evaporator mounting plate and creating extra space above the evaporator.)

Note:

At the time of reinstallation, confirm that the claws securely engage the catches.

Remove the thermostat mounting plate after removing the screws at the right and the left. Fig. 5

7. Electric Heater — Removal

  • 1) Remove the evaporator.
  • Remove the wiring connection screws on both sides of the heater ().
  • 3) Remove the screws of the heater mounting plate (1), and separate the installation fittings from the heater. Fig. 5

Page 75

OUTDOOR UNIT CMH1812

8. Casing — Removal

ove the casing by removing fixing screws using a Phillips screwdriver. Fig. 6

NOTE When working only on the wiring, it is possible to gain access to the wiring terminals by simply removing the Side Panel (A). Fig. 7.

9. Fan and Fan Motor – Removal

  • (1) Remove the fan by removing the propeller fan fixing screw using a straight blade screwdriver. Refer to Fig. 8.
  • (2) Using a pincher, cut the plastic wire ties fixing the fan motor lead wires connected to fan motor capacitor or other terminals
  • (3) Using a Phillips screwdriver, remove the three fixing screws of the fan motor, then withdraw the fan motor

Fig. 8

Page 76

ATTENTION !

To ensure correct parts supply, please let us know followings, when you make service parts order:

1. Part No. 2. Description 3. Q'ty 4. Volts-Hz-Ph 5. Product Model No.

Key
No.
Part No. Description Q'ty
51 623 099 4270 Cover Plate Ass'y (incl. No. 52, 53) 1
52 623 098 8460 Elec. Wiring Diagram 1
53 623 090 7331 Label 1
54 623 050 2475 Rear Panel 1
55 623 099 4287 Grille Ass'y (incl. No. 56~70) 1
56 623 097 9918 Sash Grille 1
57 623 097 3954 Ornamental Plate Ass'y (incl. No. 58~66) 1
58 623 097 3961 Blade 12
59 623 097 3978 Mounting Blade 1
60 623 097 3985 Mounting 4
61 623 097 3992 Flap 1
62 623 097 6610 Mounting 1
63 623 049 1465 Mounting 1
64 623 096 1784 Mounting 2
65 623 096 4242 Сар 6
66 623 097 3862 Wire 3
67 623 097 4005 Ornamental Plate 1
68 623 097 4012 Air Filter Ass'y 2
69 623 097 4029 Handle 2
70 623 097 8584 Indicator Plate 1
71 623 098 8545 Name Plate 1
623 098 8484 Installation Instructions 1
623 098 8491 Uperation Manual 1

NOTE: Metal and plastic parts will be supplied basically

with necessary heat insulation pads or packing.

Page 77

CMH1812 OUTDOOR UNIT

Page 78

ATTENTION !

To ensure correct parts supply, please let us know followings, when you make service parts order:

1. Part No. 2. Description 3. Q'ty 4. Volts-Hz-Ph 5. Product Model No.

Key
No.
Part No. Description Q'ty
1 623 099 4294 Bottom Plate Ass'y 1
2 623 043 2338 Valve Ass'y 1/4 in. 1
3 623 043 2345 Valve Ass'y 3/8 in. 1
4 623 043 2352 Valve Ass'y 3/8 in. 1
5 623 043 2390 Valve Ass'y 1/4 in. 1
6 623 090 7201 Nipple Ass'y 1
7 623 088 9934 Nipple Ass'y 1
8 623 050 6091 Nounting Plate 1
9 623 035 0052 Cushion Rubber 4
10 623 035 0113 Cushion Rubber 2
11 623 034 5799 Snring 6
12 623 043 6718 Accumulator Ass'v 2
13 623 099 4300 Capillary Tube 2
14 623 050 5735 Mounting Plate 2
15 623 051 0128 Packing
16 623 051 3686 Band Mounting 2
17 623 051 1705 Packing 2
18 623 035 0106 Cushion Rubber 6
19 623 051 0159 Packing 2
20 623 031 9875 Stopper 6
21 623 029 6534 Nut Special Ass'v 6
22 623 098 8583 Condenser Ass'y 1
23 623 043 4202 Strainer Ass'v 3
24 623 030 1764 Strainer Ass'v 1
25 623 088 9941 Solenoid Value Ass'y CHV-01111 2
26 623 051 3204 Mounting Plate Ass'y Fan Motor 1
27 623 099 4348 Fan Motor Ass'y SGS-5106P 1
28 626 040 0680 Cover Terminal 2
29 626 040 0291 Gasket Terminal 2
30 626 100 1060 Relay MRA98735-9201 2
31 623 099 4355 Solenoid Ass'v CHV-01AQ020UA1 1
32 623 099 4362 Solenoid Ass'v CHV-01AQ020UA1 1
33 623 090 7218 Elec. Component Box Ass'v 1
34 623 090 7225 Terminal Base KTU15N-7J 2
35 623 003 3061 Terminal Base JTU30-2 1
36 623 099 4379 Label 1
37 626 100 0056 Thermistor TDK 101Y-A 2
38 623 088 6797 P. C. B. Ass'y POW-186CMH 1
- 39 623 090 7232 Fixed Capacitor WME-RS 370V 17.5MFD 2
40 623 054 8183 Clip, Capacitor 1
41 623 099 4386 Thermistor Ass'y PBC-41E-S15 1
42 623 054 9012 Clip, Wire 1
43 623 002 4762 Relay DFU24D1-F(M) 2
44 623 090 7249 Cover Plate 1
45 623 055 1787 Mounting Plate 1
46 623 001 1816 Fixed Capacitor 440V 2MFD 1
47 623 088 7022 P.C.B. Ass'y POW-186CMH-S 2
48 623 090 7263 Partition Plate Ass'y 1
49 626 040 0802 Cap Terminal Cover 2
50 626 040 0956 Nut. Compressor 2

NOTE: Metal and plastic parts will be supplied basically

with necessary heat insulation pads or packing.

Page 79

ATTENTION !

To ensure correct parts supply, please let us know followings, when you make service parts order:

1. Part No. 2. Description 3. Q'ty 4. Volts-Hz-Ph 5. Product Model No.

Key
No.
Part No. Description Q'ty
51 626 040 0482 Cover Gasket 2
52 623 053 2496 Cover Rubber 1
53 623 041 8752 Propeller Fan Ass'y 1
54 623 051 1514 Packing 4
55 623 051 5642 Cover 1
56 623 090 7270 Cover Plate 1
57 623 044 0845 Cabinet 1
58 623 089 0367 Mark 1
59 623 040 9682 Guard Ass'y 1
60 623 090 7287 Mark 1
61 623 040 9675 Guard Ass'y 1
62 623 044 4539 Rear Panel 1
63 623 090 7294 Side Panel Ass'y 1
64 623 098 8651 Elec. Wiring Diagram 1
65 623 040 8388 Side Panel Ass'y 1
66 623 090 7317 Side Panel Ass'y (incl. No. 67) 1
67 623 038 3432 Bushing 5
68 623 098 8644 Name Plate 1
69 623 092 5984 Label 1
70 623 084 8269 Label 1
71 623 090 7331 Label 1
72 623 090 8031 Compressor Ass'y (80671746) 2
73 623 099 5949 Leg Pedestal 2

NOTE: Metal and plastic parts will be supplied basically

with necessary heat insulation pads or packing.

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