Aukia-Duct

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Table of Contents 1 General description ························································································································ 4 1.1 Naming rule ·············································································································································· 4 1.2 Features ····················································································································································· 5 1.2.1 Duct indoor unit······························································································································· 5 1.2.2 Outdoor unit····································································································································· 5 1.2.3 Controller ········································································································································· 5 1.3 Picture of unit··········································································································································· 6 1.3.1 Indoor unit picture··························································································································· 6 1.3.2 Controller picture ···························································································································· 6 1.3.3 Outdoor unit picture························································································································ 7

2 Technical Data·································································································································· 8 2.1 Technical Data·········································································································································· 8 2.2 T1、T2、T3 working condition ············································································································ 12 2.3 Testing conditions for T1 climate type···························································································· 12 2.4 Capacity performance ·························································································································· 12 2.4.1 Capacity performance of indoor unit ·························································································· 12 2.4.2 The performance modification table according to the connection pipe length and height difference between outdoor and indoor unit.······················································································· 12 2.5 Refrigerant System diagram ··············································································································· 13 2.5.1 Cooling-only Models····················································································································· 13 2.5.2 Heat pump Models ······················································································································· 14

3 Design manual ······························································································································· 16 3.1 Design of connecting pipe··················································································································· 16 3.1.1 Selection of connecting pipe ······································································································· 16 3.1.2 Equivalent length ·························································································································· 16 3.2 Design of electricity cable ··················································································································· 17 3.2.1 Electricity cable supply diagram: ································································································ 17 3.2.2 Circuit Diagram ····························································································································· 19

4 Installation······································································································································· 24 4.1 Prior to installation································································································································ 24 4.1.1 Indoor unit······································································································································ 24 4.1.2 Outdoor unit··································································································································· 24 4.1.3 Preparation of accessories of installation ·················································································· 24 4.2 Duct indoor unit installation ··············································································································· 24 4.2.1 Duct(low static pressure 12/30Pa) indoor unit dimension and the space for its installation 24 4.2.2 Duct(high static pressure 50/80Pa) indoor unit dimension and the space for its installation26 4.2.3 Duct indoor unit installation ········································································································· 27 4.3 Outdoor unit installation ······················································································································ 30 4.3.1 Overall dimension of outdoor unit······························································································· 30 4.3.2 Select installation position of outdoor unit ················································································· 33 4.3.3 Installation space of outdoor unit: ······························································································· 33 4.4 Connection piping installation ··········································································································· 34 4.4.1 Choose the Connection piping···································································································· 34 4.4.2 Duct insulation ······························································································································ 37 4.4.3 Air tightness test ··························································································································· 38 4.5 Fill of refrigerant ···································································································································· 39 4.6 Commissioning······································································································································ 39

5. Control instruction of QRD-3F-HCE1 (60070110600) PC Board ······································ 41 5.1 Technical Guideline ······························································································································ 41 5.2 Functions of Controller························································································································ 41 5.3 Main function instruction ···················································································································· 41 5.3.1 Proper noun and its meaning ······································································································ 41 5.3.2 Definition of dial code switch······································································································· 41 5.3.3 Forcing switch ······························································································································· 42 5.3.4 Auto mode ····································································································································· 43 2

5.3.5 Cooling mode ································································································································ 43 5.3.6 Dehumidification mode ················································································································ 44 5.3.7 Ventilation mode ··························································································································· 44 5.3.8 Heating mode································································································································ 44 5.3.9 Assistant Electric Heating function ····························································································· 46 5.3.10 Sleep controlling function ·········································································································· 47 5.3.11 Intelligence defrosting function ································································································· 47 5.3.12 Timing controlling function········································································································· 48 5.3.13 Self-inspection function·············································································································· 49 5.3.14 Lift pump operation regulation ·································································································· 49 5.3.15 Main controller protection port input························································································· 49 5.3.16 Failure instructions ····················································································································· 49

6 Remote controller and wired controller ·················································································· 51 6.1 Wired controller only ···························································································································· 51 6.2 Remote controller only························································································································· 51 6.3 Wired controller + remote controller································································································· 51 6.4 Duct Display board ······························································································································· 51 6. 5 Remote Controller································································································································ 52 6.5.1 Main parameters of remote controller ························································································ 52 6.5.2 Precautions for use of remote controller···················································································· 52 6.5.3 Usage············································································································································· 54 6.5.4 Attention········································································································································· 55 6. 6 Wired Controller ··································································································································· 56 6.6.1 Line Controller appearance ········································································································· 56 6.6.2 How to operate the line controller······························································································· 56 6.6.3 Installation of line controller········································································································· 56

7 Sensor resistor and Pressure switch ······················································································ 57 7.1 5K3470 sensor resistor value ············································································································· 57 7.2 5K3470 sensor graphs ························································································································· 58 7.3 10K3470 sensor resistor value(exhaust temperature sensor) ···················································· 59 7.4 10K3470 sensor graphs ······················································································································· 60 7.5 Pressure switch······································································································································ 61

8. Exploded chart······························································································································ 62 8.1 Duct(R22, low static pressure 12/30Pa, 9000BTU～12000BTU) ···················································· 62 8.2 Duct (R22, low static pressure 12/30Pa,18000BTU)········································································· 63 8.3 Duct (R22, low static pressure 12/30Pa, 24000BTU~36000BTU)··················································· 64 8.4 Duct (R22, low static pressure 12/30Pa ,42000BTU~48000BTU)··················································· 65 8.5 Duct (R22, high static pressure 50/80Pa, 36000BTU~48000BTU) ················································· 66 8.6 Duct (R22, high static pressure 50/80Pa, 52000BTU)······································································ 67 8.7 9000~24000BTU outdoor unit ·············································································································· 68 8.8 30000~36000BTU outdoor unit ············································································································ 69 8.9 42000BTU outdoor unit ························································································································· 70 8.10 48000～52000BTU outdoor unit ········································································································ 71

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1 General description 1.1 Naming rule OUTDOOR

A L T - H 24 B 4 / R A (Du) INDOOR

A L T Du - H 24 B 4 /R A D Electric assistant heating： D：auxiliary electric heater. Code of design improvement： A、B、C etc. Refrigerant TYPE： R22 omit；R407c:R、R410a:R1、R134a:R3 Code of power supply: 1—220V-1-50Hz; 3—115V-1-60Hz; 5—380V-415V-3-50Hz; 7—208V-230V-1-50Hz;

2—208V-230V-1-60Hz; 4—220V-240V-1-50Hz; 6—380V-3-60Hz; 8—440V-460V-3-60Hz

Cooling or heating rate under the same capacity Btu: cooling capacity, For example: 9000Btu is 09,12000Btu is 12. H: means hot pump unit, Cooling-only unit omit. Indoor unit structure code: W：Wall-mounted Type F：Floor-standing type Ca：Cassette Type Ce：Ceiling&floor type Du：Low static pressure duct type Hi：High static pressure duct type DC：Roof high static pressure duct type Code of working condition: T ：T3 working condition unit,

T1 omits

Class structure code： L：Light commercial central air conditioner Brand code：AUX. Example: ALDu-H24B4/SH2： T1 climate type and duct type heat pump room air conditioner, rating cooling mode capacity B grade of 24000 Btu, i.e. 7000W, 220V-240V, 50Hz power supply, R22 refrigeration and S2 code of design improvement.

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1.2 Features 1.2.1 Duct indoor unit ● Saving space design Ultra slim design, the whole thickness of indoor unit only 20cm.Concealed installation combine indoor decoration perfectly. ● High efficient condensate pump According to special requirement to choose the 750mm condense pump which avoid the trouble of leakage, meanwhile draining water clearal. ● Outlet mounted freely Using duct connection, outlet mounted freely, let the outdoor fresh air easily come into to keep the indoor air pure. ● Flexible and multiplicity According to the special situation to adopt the differ air reversing and water draining mode to meet the diverse decoration requirement. ● Long refrigerant pipe The max.piping length reaches 50 meters. The max fall length reaches 15 meters. It is more flexible and convenient to mount. 1.2.2 Outdoor unit ● Universal outdoor unit The universal outdoor unit can work with different types indoor units in the same capacity for ducted,cassette,ceiling&floor. ● Phase reverse protection ● Anti-freezing protection, over-heat protection Over-current protection and phase sequence protection High-pressure and low-pressure protection available. 1.2.3 Controller ● Indoor Unit On-Off control interface A control interface on each indoor unit PCB available realizes the outside additional on/off. ● 7-day timer interface A 7-day timer interface available on each indoor PCB to match with the weekly time for programming control. ● Failure automatically display ● Wired controller,central controller interface available ● Auto changover ● Anti freezing

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1.3 Picture of unit 1.3.1 Indoor unit picture Type

Appearance

Model ALDu-(H)09A4/SH2 ALDu-(H)12A4/SH2 ALDu-(H)18A4/SH2 ALDu-(H)24B4/SH2 ALDu-(H)30A4/SH2 ALDu-(H)36A4/SH2 ALDu-(H)36A5/SH2 ALDu-(H)42A5/SH2 ALDu-(H)48A5/SH2 ALHi-(H)18A4/S2 ALHi-(H)24B4/S2 ALHi-(H)30A4/S2 ALHi-(H)36A4/S2 ALHi-(H)36A5/S2 ALHi-(H)42A5/S2 ALHi-(H)48A5/S2 ALHi-(H)52A5/S2

Duct R22 (12Pa/ 30Pa)

Duct R22 (50Pa/ 80Pa)

HP

1.0 1.5 2.0 3.0 3.5 4.0 4.0 5.0 5.5 2.0 3.0 3.5 4.0 4.0 5.0 5.5 6.0

Capacity (BTU/h) Cooling

Heating

9000 12000 18000 24000 30000 36000 36000 42000 48000 17060 23884 30000 36000 36000 42000 48000 52000

9200 13000 19000 26000 31000 38000 38000 46000 52000 18766 26272 32000 39000 39000 46000 53000 57200

1.3.2 Controller picture Remote controller

Wired controller(Optional)

Cassette 、Ceiling&Floor unit Remote controller should be standard configuration and wired controller should be optional;

Controller Mod e

6

Remark

Po we r

F an

Duct unit standard Configuration remotecontroller、Wired controller

1.3.3 Outdoor unit picture Type

Appearance

HP

Capacity (BTU/h)

1.0

9000

1.5

12000

2.0

18000

3.0

24000

3.5

30000

4.0

36000

5.0

42000

5.5

48000

6.0

52000

Universal outdoor unit

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2 Technical Data 2.1 Technical Data Duct (R22, low static pressure 12/30Pa) table 1 Product type Type

Indoor unit Outdoor unit

ALDu-(H) 09A4/SH2 ALDu-(H) 09A4/SH2 AL-(H) 09A4/S2(Du)

ALDu-(H) 12A4/SH2 ALDu-(H) 12A4/SH2 AL-(H) 12A4/S2(Du)

ALDu-(H) 18A4/SH2 ALDu(H) 18A4/SH2 AL-(H) 18A4/S2(Du)

ALDu-(H) 24B4/SH2 ALDu-(H) 24B4/SH2 AL-(H) 24B4/S2(Du)

ALDu-(H) 30A4/SH2 ALDu-(H) 30A4/SH2 AL-(H) 30A4/S2(Du)

Rated cooling capacity

kW

2.50

3.50

5.00

7.00

8.50

BTU/H

9000

12000

18000

24000

30000

Rated heating capacity

kW

2.75

3.80

5.50

7.50

9.00

BTU/H

9900

13000

19000

26000

31000

Power supply

220V～240V/50Hz

Rated power (kW)

Cooling

0.90

1.23

1.75

2.45

3.1

Heating

0.89

1.14

1.70

2.35

2.90

Rated currency (A)

Cooling

4.15

5.65

7.95

11.50

14.10

Heating

4.08

5.20

7.73

10.70

13.60

Indoor unit

Refrigerant Out dimensions W×D×H (mm) Packing dimensions W×D×H (mm)

R22 830×528×240

830×528×240

930×528×240

1355×528×240

1355×528×240

880×560×280

880×560×280

980×560×280

1400×560×280

1400×560×280

Net weight (kg)

23

25

29

41

41

Noise (dB(A))

38

39

42

43

45

Static pressure(Pa)

Outdoor unit

Air flow volume(m3/h)

500

630

950

1300

1600

760×260×540

760×260×540

800×300×690

800×300×690

903×354×857

880×350×610

880×350×610

930×410×760

930×410×760

1030×410×980

Net weight (kg)

30(+1)

36(+2)

45(+1)

53(+1)

68(+2)

Noise (dB(A))

46

47

52

56

60

Out dimensions W×D×H (mm) Packing dimensions W×D×H (mm)

Connection pattern

8

12/30

Bulge connection

Duct (R22, low static pressure 12/30Pa) table 2

Type

Product type

ALDu-(H)36A4/SH2

ALDu-(H)36A5/SH2

ALDu-(H)42A5/SH2

ALDu-(H)48A5/SH2

Indoor unit

ALDu-(H)36A4/SH2

ALDu-(H)36A5/SH2

ALDu-(H)42A5/SH2

ALDu-(H)48A5/SH2

Outdoor unit

AL-(H)36A4/S2(Du)

AL-(H)36A5/S2(Du)

AL-(H)42A5/S2(Du)

AL-(H)48A5/S2(Du)

Rated cooling capacity

kW

10.00

10.00

12.00

14.00

BTU/H

36000

36000

42000

48000

Rated heating capacity

kW

11.00

11.00

13.20

15.40

BTU/H

38000

38000

46000

52000

Power supply

220V～240V/50Hz

380V～415V/50Hz

Rated power (kW)

Cooling

3.62

3.59

4.40

4.90

Heating

3.55

3.65

4.45

4.80

Rated currency (A)

Cooling

17.00

6.40

8.00

8.59

Heating

16.70

6.60

7.75

8.80

Indoor unit

Refrigerant

R22

Out dimensions W×D×H (mm) Packing dimensions W×D×H (mm)

1555×528×240

1555×528×240

1555×528×240

1555×528×240

1600×560×280

1600×560×280

1600×560×280

1600×560×280

Net weight (kg)

50

50

50

50

Noise (dB(A))

48

48

48

51

Static pressure(Pa) 3

Outdoor unit

Air flow volume(m /h)

12/30 1600

1600

2000

2000

903×354×857

903×354×857

950×350×940

945×340×1255

1030×410×980

1030×410×980

1090×430×1060

1090×430×1370

Net weight (kg)

78(+2)

78(+2)

92(+2)

98(+7)

Noise (dB(A))

60

60

60

60

Out dimensions W×D×H (mm) Packing dimensions W×D×H (mm)

Connection pattern

Bulge connection

9

Duct (R22,high static pressure 50/80Pa) table 1

Type

ProHict type

ALHi-(H)18A4/S2

ALHi-(H)24B4/S2

ALHi-(H)30A4/S2

ALHi-(H)36A4/S2

Indoor unit

ALHi(H)18A4/S2

ALHi-(H)24B4/S2

ALHi-(H)30A4/S2

ALHi-(H)36A4/S2

AL-(H)18A4/S2(Hi)

AL-(H)24B4/S2(Hi)

AL-(H)30A4/S2(Hi)

AL-(H)36A4/S2(Hi)

5.00

7.00

8.50

10.00

17060

23884

30000

36000

5.50

7.70

9.35

11.00

18766

26272

32000

39000

Outdoor unit Rated cooling capacity Rated heating capacity

kW BTU/H kW BTU/H

Power supply Rated power (kW) Rated currency (A)

220V～240V/50Hz

Cooling

1.90

2.50

3.10

3.62

Heating

1.90

2.40

3.05

3.7

Cooling

8.80

11.80

14.3

16.60

Heating

8.80

11.40

14.10

16.90

Indoor unit

Refrigerant

R22

Out dimensions W×D×H (mm) Packing dimensions W×D×H (mm)

890×785×290

890×785×290

890×785×290

1250×785×290

1070×870×360

1070×870×360

1070×870×360

1430×870×360

Net weight (kg)

29

35

40

45

Noise (dB(A))

42

45

45

48

Static pressure(Pa) 3

Outdoor unit

Air flow volume(m /h)

950

1350

1500

1800

800×300×690

800×300×690

903×354×857

903×354×857

930×410×760

930×410×760

1030×410×980

1030×410×980

Net weight (kg)

45(+1)

53(+1)

68(+2)

78(+2)

Noise (dB(A))

52

56

60

60

Out dimensions W×D×H (mm) Packing dimensions W×D×H (mm)

Connection pattern

10

50/80

Bulge connection

Duct (R22, high static pressure 50/80Pa) table 2

Type

Product type

ALHi-(H)36A5/S2

ALHi-(H)42A5/S2

ALHi-(H)48A5/S2

ALHi-(H)52A5/S2

Indoor unit

ALHi-(H)36A5/S2

ALHi-(H)42A5/S2

ALHi-(H)48A5/S2

ALHi-(H)52A5/S2

AL-(H)36A5/S2(Hi)

AL-(H)42A5/S2(Hi)

AL-(H)48A5/S2(Hi)

AL-(H)52A5/S2(Hi)

kW

10.00

12.00

14.00

15.00

BTU/H

36000

42000

48000

52000

kW

11.00

13.00

15.00

16.50

BTU/H

39000

46000

53000

57200

Outdoor unit Rated cooling capacity Rated heating capacity

Power supply Rated power (kW) Rated currency (A)

380V～415V/50Hz

Cooling

3.70

4.60

580

6.00

Heating

3.85

4.50

5.40

5.90

Cooling

6.76

8.00

10.00

11.30

Heating

6.87

7.50

9.50

10.20

Indoor unit

Refrigerant

R22

Out dimensions W×D×H (mm) Packing dimensions W×D×H (mm)

1250×785×290

1250×785×290

1250×785×290

1570×785×290

1430×870×360

1430×870×360

1430×870×360

1750×8710×360

Net weight (kg)

45

50

51

52

Noise (dB(A))

48

50

53

53

Static pressure(Pa) 3

Outdoor unit

Air flow volume(m /h)

50/80 1800

2040

2500

2650

903×354×857

950×350×940

945×340×1255

945×340×1255

1030×410×980

1090×430×1060

1090×430×1370

1090×430×1370

Net weight (kg)

78(+2)

92(+2)

98(+7)

98(+7)

Noise (dB(A))

60

60

60

60

Out dimensions W×D×H (mm) Packing dimensions W×D×H (mm)

Connection pattern

Bulge connection

Note: 1. No heating parameter of cooling-only unit, The parameter in parentheses of table is the parameter of electric heater type; 2. We keep the right to modify the parameters without any notice.

11

2.2 T1、T2、T3 working condition Type of Air Conditioner

Climate type T2 10℃~35℃ -7℃~35℃ ~35℃

T1 18 ℃~43℃ -7℃~43℃ ~43℃

Cooling Only Heat pump Electricity Heating

T3 21℃~52℃ -7℃~52℃ ~52℃

2.3 Testing conditions for T1 climate type Working temperature range Rated DB℃ 27 WB℃ 19 DB℃ 35 WB℃ 24 DB℃ 20 WB℃ 14.5 DB℃ 7 WB℃ 6

Indoor Cooling outdoor Indoor Heating outdoor

Maximum 32 23 43 26 27 -24 18

Minimum 18 14 10 6 15 --15 --

2.4 Capacity performance 2.4.1 Capacity performance of indoor unit Cooling capacity for indoor unit

110 100 90 80 14

15

16

17

18

19

20

21

22 23

24

indoor intake air temperature(℃ WB)

25

Heating capacity variance percentage (%)

Cooling capacity variance percentage (%)

Heatling capacity for indoor unit

120 110 105 100 95 90 15

16

17

18

19

20

21

22 23

24

25

26

27

indoor intake air temperature(℃ DB)

2.4.2 The performance modification table according to the connection pipe length and height difference between outdoor and indoor unit. The positive side of Height vertical axial represents that installation position of outdoor unit is higher than indoor unit, vice versa.

Equivalent efficiency pipe length(m)

12

Equivalent efficiency pipe length(m)

2.5 Refrigerant System diagram 2.5.1 Cooling-only Models 9000BTU，12000BTU，18000BTU，24000BTU，300000BTU

Cooling 36000BTU，42000BTU

Cooling 13

48000BTU、52000BTU

Cooling 2.5.2 Heat pump Models 9000BTU，12000BTU，18000BTU，24000BTU，300000BTU

Cooling Heating 14

36000BTU，42000BTU

Cooling Heating 48000BTU、52000BTU

Cooling Heating 15

3 Design manual 3.1 Design of connecting pipe 3.1.1 Selection of connecting pipe Capacity Items

9000BTU 12000BTU

18000BTU

24000BTU

6.35

6.35

9.52

30000BTU 36000BTU 42000BTU 48000BTU 9.52

52000BTU

connecting pipe size (φmm)

Liquid side

Max connecting pipe length (m)

liquid side

6.35

7.94*

6.35

7.94*

9.52

9.52*

9.52

12.7*

12.7

12.7*

Gas side Max pipe length

9.52

12.7*

12.7

15.88*

15.88

19.05*

19.05

22.2*

19.05

22.2*

10

25

15

25

20

30

25

50

25

50

Gas side

9.52

12.7

15.88

12.7

19.05

19.05

Max. fall (m)

10

10

15

20

Max. elbow number

5

6

8

10

NOTE: If longer refrigerant pipe is required for the installation, the diameters need to be bigger as shown above with *. 3.1.2 Equivalent length Equivalent length means the conversion length that the pipe pressure loss was considered on the parts of elbow. Etc. Equivalent length: actual pipe length + elbow number × each equivalent length +oil trap number × equivalent length of each oil trap Type Pipe Dia. 9．52 12．70 15．88 19．05 22．02 25．40 28．58 31．80

Elbow

Oil trap

0．18 0．20 0．25 0．35 0．40 0．45 0．50 0．55

1．3 1．5 2．0 2．4 3．0 3．4 3．7 4．0

● While calculation sample of equivalent length: Actual length of 5HP outdoor unit is 25 meters, diameter of air pipe 19.05mm, using 5 elbows and 2 oil traps, the equivalence length is: 25+0.35×5+2.4×2=31.5(m) ● Application of equivalent length 1) While equivalent length is beyond 90 % of maximum actual length (5HP 25meters), the diameter of gas pipe should be increased one level. For example: while equivalent length is beyond 25 meters, the diameter of gas pipe should be changed from 19.05mm into 22.2mm. 2) While diameter of gas pipe increases, the equivalent length should be calculated again. ● Example of effective equivalence calculation: While actual pipe length of 5HP outdoor unit is 25 meters, diameter of gas pipe is 19.05 mm, 5 elbows and 2 oil traps are required. 1) 2) 3) 4)

16

Equivalent length:25+0.35×5+2.4×2=31.5(m) As a result of equivalent length is beyond 25 meters, gas pipe size should be enlarged. Effective equivalent length:31.5×0.5=16.7(m) So, while diameter of gas pipe is enlarged, the performance because of longer pipe is equal to the effective length of 16.7 meters.

3.2 Design of electricity cable 3.2.1 Electricity cable supply diagram: Heat pump (R22、220-240V)

Cooling-only (R22、220-240V)

ALDu-H09A4、H12A4、H18A4/SH2 ALHi-H18A4/S2

ALDu-09A4、12A4、18A4/SH2 ALHi-18A4/S2

Outdoor unit

Indoor unit

Indoor unit

Outdoor unit Electricity power cable

Electricity power cable

Power connection wire

Power connection wire Defrosting signal wire

Line controller connection wire

Line controller connection wire

Note:Components in the dotted line frame are not standard collocation and may not be used.

Note:Components in the dotted line frame are not standard collocation and may not be used.

Heat pump

(R22、220-240V)

Cooling-only

ALDu-H24B4/SH2 ALHi-H24B4/S2 Electricity power Outdoor cable

Indoor unit

(R22、220-240V)

ALDu-24B4/SH2 ALHi-24B4/S2

unit

Indoor unit

Outdoor unit Electricity power cable

Power connection wire

Power connection wire Defrosting signal wire

Line controller connection wire Line controller connection wire

Note:Components in the dotted line frame are not standard collocation and may not be used.

Note:Components in the dotted line frame are not standard collocation and may not be used.

17

Heat pump (R22、220-240V)

Cooling-only (R22、220-240V)

ALDu-H30A4、H36A4/SH2 ALHi-H30A4、H36A4/S2

ALDu-30A4、36A4/SH2 ALHi-30A4、36A4/S2

Electricity power cable

Indoor unit

Outdoor unit

Electricity power cable

Indoor unit

Outdoor unit

Power connection wire

Power connection wire Defrosting signal wire

Line controller connection wire

Line controller connection wire

Note:Components in the dotted line frame are not standard collocation and may not be used.

Note:Components in the dotted line frame are not standard collocation and may not be used.

Heat pump (R22)(380-415V)

Cooling-only (R22) (380-415V)

ALDu-H36A5、H42A5、H48A5/SH2 ALHi-H36A5、H42A5、H48A5、H52A5/S2

ALDu-36A5、42A5、48A5/SH2 ALHi-36A5、42A5、48A5、52A5/S2

Indoor unit

Outdoor unit

Indoor unit

Outdoor unit

Defrosting signal wire

Line controller connection wire

Line controller connection wire

Electricity power cable

Power connection wire

Power connection wire

Note:Components in the dotted line frame are not standard collocation and may not be used.

Note:Components in the dotted line frame are not standard collocation and may not be used.

Electricity power cable

Note: 1. Defrosting signal line RVVP 300/300V 70o both ends joints ELR-02V. 2.It is recommended that adopt RVV jacket cable while power supply connection line not more than 10 meters; 3.Adopt waterproof YZW rubber soft cable while supply connection line more than 10 meters; adopt oil-prevent RWY soft cable while bad oil contamination. 18

3.2.2 Circuit Diagram 1. Heat pump、Cooling-only: ALDu-(H)09A4、(H)12A4、(H)18A4/SH2, ALHi-(H)18A4/S2 Circuit diagram for indoor unit

θ

θ

2. Heat pump: AL-H09A4、H12A4、H18A4/S2(Du) AL-H18A4/S2(Hi) Circuit diagram for outdoor unit

19

3. Cooling-only: AL-09A4、12A4、18A4/S2(Du) AL-18A4/S2(Hi) Circuit diagram for outdoor unit

4. Heat pump、Cooling-only: ALDu-(H)24B4、(H)30A4、(H)36A4、(H)36A5、(H)42A5、(H)48A5/SH2 ALHi-(H)24B4、(H)30A4、(H)36A4、(H)36A5、(H)42A5、(H)48A5、(H)52A5/S2 Circuit diagram for indoor unit

θ

θ

20

5. Heat pump: AL-H24B4/S2(Du) AL-H24B4/S2(Hi) Circuit diagram for outdoor unit

6. Cooling-only: AL-24B4/S2(Du) AL-24B4/S2(Hi) Circuit diagram for outdoor unit

21

7. Heat pump: AL-H30A4、H36A4/S2(Du) AL-H30A4、H36A4/S2(Hi) Circuit diagram for outdoor unit

8. Cooling-only: AL-30A4、36A4/S2(Du) AL-30A4、36A4/S2(Hi) Circuit diagram for outdoor unit

22

9. Heat pump: AL-H36A5、H42A5、H48A5/S2(Du) AL-H36A5、H42A5、H48A5、H52A5/S2(Hi) Circuit diagram for outdoor unit

10. Cooling-only: AL-36A5、42A5、48A5/S2(Du) AL-36A5、42A5、48A5、52A5/S2(Hi) Circuit diagram for outdoor unit

23

4 Installation 4.1 Prior to installation 4.1.1 Indoor unit 1. Select the position where there is enough space for installation and maintenance. 2. Select the position where is able to support indoor unit weight. 3. Select the position where there is no obstruction and minimum affection by ambient air 4. Select the position where there is no heat source or harmful contamination such as flue gas, visible flame, etc below. 5. Select the position where the air flow can be distributed evenly throughout the room. 6. Select the position where there is enough room for easy maintenance and installation. 4.1.2 Outdoor unit 1. Select the position where there is enough space to installation and maintenance. 2. Select the position where there is no obstruction at air inlet and outlet and the strong wind can not blow directly. 3. Select the position where it is dry and ventilation is good. 4. Select the position where may cause the minimum affection of operating noise and discharged air to the neighbor. 5. Select the position where there is no leakage of inflammable gas. 6. Select the position where it is easy for installation. 4.1.3 Preparation of accessories of installation Before installation, please purchase the following parts and components by yourself: 1. M10 or M12 hanging bolt 4pieces 2. PVC drainage pipe 3. Connection copper pipe 4. Heat insulation material of connection copper pipe (PE transpired material, thickness more than 8mm) 5. Tie strap (big) 5 pieces, (small) 5 pieces 6. Power supply cable, indoor and outdoor power supply connection line.

4.2 Duct indoor unit installation 4.2.1 Duct(low static pressure 12/30Pa) indoor unit dimension and the space for its installation 9000BTU〠12000BTU

24

18000BTU

24000BTU、30000BTU

36000BTU、 42000BTU、48000BTU

25

reserve installation space

4.2.2 Duct(high static pressure 50/80Pa) indoor unit dimension and the space for its installation 18000BTU、24000BTU、30000BTU

36000BTU、 42000BTU、48000BTU

26

52000BTU

reserve installation space

4.2.3 Duct indoor unit installation 4.2.3.1 Select the suspension foundationďźš The suspension foundation must be firm and reliable, and can support the wooden frame and reinforced concrete structure that weigh is more than 200kg. It is necessary to select the structure that is able to resist against certain vibration and keep firmness and supporting capacity in the long run. 4.2.3.2 Fixing of suspension boltďźš Fix the suspension bolts in following methods or install the suspension bolts on iron bracket or wooden bracket.

27

4.2.3.3 The indoor unit hanging 4.2.3.3.1 Adjust the hanger position on the hanging bolt to ensure the unit level in every direction. Keep the unit installed horizontally with the leveling instrument checking after its installation. 4.2.3.3.2 Screw down the nut and ensure the good contact among the hanger, the nut and the gasket. 4.2.3.3.3 Make sure the unit does not sway after its installation. 4.2.3.4 Installation of drainage pipeďźš Heat insulation is necessary for the indoor unit drainage pipe otherwise condensate water will accumulate on the pipe. The pipe root must be well preserved .There should be a gradient/tilting of at least 1% degree without bending.

4.2.3.5 Process 4.2.3.5.1 Check the drainage system before running the unit.

Install a protruding connection fitting on the drainage tube to provide a water inlet before the electrical works finished. Then, check the connection if there is water leaking from the duct and ensure the water flowing successfully going though the drainage tube. 4.2.3.5.2 Suction and exhaust tube installation Please consult our after-sales service staff for the selection and installation of the suction inlet, suction tube, air outlet, and the drainage tube. Calculate the outer static pressure and select the exhaust tube with the proper length and shape.

♌ Minimize the length of the duct. ♌ Minimize the number of the bends. 4.2.3.5.3 Notice in the installation of the suction and drainage tube It is suggested that the air duct with the frost prevention and acoustic absorption can be used (local purchase). The air duct should be installed before the ceiling hanging and decoration and it should be with heat insulation. The special air outlet should be installed where the airflow can be properly distributed. A checking window should be kept on the suspended ceiling surface for the checking and maintenance in the future.

28

4.2.3.5.4 Negative examples for the installations.

♦ Take the space between the ceiling as the air intake duct, which leads to the humidity rising due to the anomalistic air mass outside, the strong wind and the sunshine.

♦ Due to the water dropping outside the air duct, the humidity for the new concrete building will also rise even if the space between ceiling is not taken as the air duct. Thus, the unit should be heat insulated with the glass wool completely. (The glass wool should be bounded with the wire mesh.)

♦ The compressor may be overloaded, if it is beyond the unit running limit (e.g. The indoor dry-ball temperature is 35℃, and 24℃ for the wet-ball).

♦ Because the affection from the capacity of the exhaust fan, the strong wind in the outer air duct, and the wind direction, the draining water of the heat exchanger will spill if the air volume is beyond the limit, which will lead to the water leakage.

29

4.3 Outdoor unit installation 4.3.1 Overall dimension of outdoor unit

540

9000BTU、12000BTU

760 539

100

330 287 260

4-10*19

690

18000BTU、24000BTU

800 540

370 326 300

4-10*19

30

130

857

30000BTU、36000BTU

606 903

71

11 19 400 354 332

2 5 . 9

940

42000BTU

950 185

438 390 350

580

31

1255

48000BTU、52000BTU

945

585

413 373 340

4-10*19

32

180

4.3.2 Select installation position of outdoor unit Since high condensing temperature (cooling) or low evaporation temperature (heating) will affect the operation of outdoor unit, in order to obtain best efficiency, the installation position of outdoor unit should be selected according to following principles: A: The outdoor unit should be mounted in such a way that the discharged air will not return again to the condenser, Discharge short circuiting is prevented and there should be sufficient space around the unit for future maintenance. B: More than 5o slope is strictly prohibited. The following figures indicate the right installation and wrong installation:

4.3.3 Installation space of outdoor unit: After the installation site is selected, the outdoor unit should be installed according to the following figure, in order to ensure the ventilation and maintenance of the outdoor unit. Please reserve the space according to the following figure：

A＞300mm

B＞1500mm

C＞300mm

D＞500mm

33

4.4 Connection piping installation 4.4.1 Choose the Connection piping 4.4.1.1 Three-principle for connection piping Main reason Dry

Clean

Air tightness

4.4.1.2

Counter measurement of prevent failure

●Invasion of outside rain and construction water tubing process→ purge→ vacuum desiccation ●Invasion of condensate water in pipe ●Oxide form in pipe while welding ●Invasion of dust, entrained matter

Nitrogen replacement→purge→tubing process

●Incomplete welding ●Flared pipe air leakage ●Fringe leakage

Use proper material (copper pipe, welding rod) operation following strictly welding regulation →air tightness test Operate following strictly flared pipe regulation Operate following strictly interface regulation

Seal of connection pipe

It is important of the binding of the connection pipe against the moisture and leakage which is the potential risk in the future. The end of each tube should be sealed by swathe. In fact, the “extrusion” is the most effective way for sealing, and the “binding” is just a simple replacement in certain conditions. Area Outdoor Indoor

Working period

Seal method

Over 3 months

Extrusion

Less than 3 months

Extrusion or binding

Not related

Extrusion or binding

① Extrusion method：Squeeze the end of steel pipe and weld the gap. ② Binding method：Using PVC strap to bind copper pipe ends

Be careful when 1. The copper pipe going through the hole(The dirt may go into the pipe). 2. Putting the copper pipe outside the room.(The rain water may go into the pipe, Special attention should be paid while outdoor pipe is in vertical position).

34

4.4.1.3 Connection pipe cleaning Compressed air cleaning is a way of removing dirt from the pipe. (Three main functions) ①

While “nitrogen replace insufficient”, remove the oxide bubble inside copper pipe.

②

While pipe sealing is not good, this can help remove the dirt and moisture.

③

Check pipe connection of indoor and outdoor unit (liquid pipe and gas pipe)

Example for the operations ① Install the pressure adjust valve on nitrogen bottle. * The gas must be nitrogen (condensate may be generated if using freon or carbon dioxide, and the oxygen may cause explosion). ② Connect the pressure adjust valve and inlet at the side of outdoor unit liquid pipe by aeration pipe. ③ Block all copper joints (including B joint) plug except a side of indoor unit by blind plug. ④ Open nitrogen valve and turn adjust valve to the position of 5kg／cm2. ⑤ Check whether the nitrogen go through the liquid pipe to the indoor unit in room A. (The connection port of the indoor unit should be properly covered by the tape belt) ⑥ Cleaning ★ Using isolation material to stop the gas from the pipe ↓ ★ While the pressure is too strong to be held, fast release isolation material. (First clean). ↓ ★ Using isolation material to stop the gas again, then release for the second cleaning. ↓ You can check the moisture by putting a piece of cloth loosely at the outlet of the pipe, if you see any moisture on the cloth, then you should dry the pipe thoroughly. (1) Blow the pipe by nitrogen (till moisture disappears) (2) Execute entire vacuum drying operation (refer to chapter about tubing drying) ⑦ Close main nitrogen valve. 35

⑧ Repeat operation above-mentioned for indoor unit B. ⑨ After finishing the operation of liquid pipe, execute blow operation of gas pipe above-mentioned again. 4.4.1.4 Selection the material of connection pipe ● Use long and straight pipe or coil pipe as much as you can (copper pipe with isolation material) to avoid frequent welding. ● All pipes must satisfy the requirement listed in table as followed (size, material, thickness, etc.), And material is de-hydrogen-phosphorus-copper seamless pipe. ● It would be easier if you use the copper pipe with insulation. ● Don’t use copper pipe for water supply and drainage (Because it can not be very clean on the inner wall) 4.4.1.5 Expanded pipe connection a) Connection pipe must be annealed one time before expansion work. b) Pipe cutter should be used while cutting the pipe (as for large-caliber pipe, use large cutter; if pipe caliber is too large to use cutter, use metallic saw, but should be care to prevent sawdust from going into pipe.) c) Using expanding tool and the dimension of expanded pipe section is as shown in following table: Piping size

Pipe outer dia. Pipe expanded size A

3／8″ 1／2″

9．52

12．2～12．8

12．7

15．6～16．2

5／8″

15．88

18．8～19．4

3／4″

19．05

23．1～23．7

d) When flaring nut is connected, some A/C oil should be applied on the flared pipe section (on inside wall and outside wall), and screw the nut by 3~4 thread pitches before finally tightening it. Emphasis:

Size

① Remove burr carefully.

Torque (kgf—cm)

(N—Cm)

② Use two wrenches so as to hold the pipe firmly.

1／4(Ф6.35)

144～176

1420—1720

③ Expanded nut should be installed on the pipe before expansion.

3／8(Ф9.52)

333～407

3270～3990

1／2(Ф12.7)

504～616

4950～6030

5／8(Ф15.88)

630—770

6180～7540

3／4(Ф19.05)

990—1210

9270～11860

④ Fasten expanded nut in proper torque. fasten ±10% of standard torque of expanded nut.

⑤ Check expansion surface whether damaged or not. ● Necessary tools (pipe cutter, wrench knife, expanding tool, pipe frame) ● Right and wrong cut are shown as followed:

36

● Check expansion right or not.

4.4.1.6 Installation of oil trap In order to facilitate oil return, may install oil trap on standpipe. While height difference between indoor and outdoor unit beyond 8 meters, the distance between oil traps is 10cm as ben conHiit of the following drawing.

4.4.2 Duct insulation 4.4.2.1 Procedure of insulation work condensing pipe work→ insulation (except tubing joint)→ air tightness test →insulation (except pipe joint) 4.4.2.2 Material Insulation material applied should withstand the heat of the pipe. For example: heat pump; heat resistance transpired polythene (more than 120℃) cooling only type: transpired polythene (more than 100℃) 4.4.2.3 Key points of insulation Insulation area, for example welding area, expansion area or flange area, should be installed after air tightness test finishes. Pay attention to unit model and necessary running condition because some gas pipe and liquid pipe need insulation.

37

Incorrect ● Do not put the liquid pipe and the gas pipe together.

● Only is the gas pipe insulated. (cooling only style)

Correct ● Both the gas pipe and liquid pipe are insulated.

● Support

● The joints of the pipes should be also insulated completely,

Emphasis:

① Thickness of insulation material should be 100mm. ② The recommendation value (main pipe 1 inch, branch pipe half inch)should be increased in area with hot and wet environment. ③ If user provides his specification, it should be attached. ④ As for cooling only type, if you can forecast that air conditioner possibly operate where ambient temperature will be less than 10℃, liquid pipe should apply insulation.

4.4.3 Air tightness test 4.4.3.1 Work sequence A/C piping finished

Put compressed air in

Check pressure whether falls or not

No

Yes Find leakage and repair

Passed

4.4.3.2 Key points of test Strictly carry out the test following the below sequence. a) As various cold medium systems, air pipe and liquid pipe should be pressurized graHially. ● 1st stage 3.0 kg／cm2: Pressurize more than 3 minutes, ● 2nd stage15.0 kg／cm2: Pressurize more than 3 minutes,

→possibly find large leakage →possibly find large leakage

● 3rd stage 28.0 kg／cm2: Pressurize more than 24 hours

NOTE： Even pressurize to 28.0kg／cm2, small leakage cannot be found if time limited. Thus hold 24 hours and observe after pressurize. NOTE: Pressure can never be more than 28.0kg／cm2.

38

b) Observe pressure descends or not ● If no descends phenomenon, qualified. ● If descends, should find where the leakage is and refer to next page. But, if the ambient temperature of pressurization and the ambient temperature of observation is different, there will be 0.1 pressure change for every 1℃, which should be modified. Modified value=( temperature while pressurization—temperature while observation)x0．1. For example: Pressure 28 kg／cm2,temperature 25℃.24 hours later, if pressure is 27．5 kg／cm2 and temperature is 20℃, which should be taken as qualified. 4.4.3.3 Check air leakage Check 1(as described in last page, find pressure falls in three-stage check) ① Audition check: Find larger air leakage by ears; ② Touch check: Put hand at pipe joint to feel leak or not; ③ Soap water check: Could find bubbles from air leakage. Check 2 (want to find small leakage, or cannot find leakage while pressure falls under pressurization test) ① Nitrogen to 3．0 kg／cm2 ② Fluorin air (R22) to 5.0 kg／cm2 (i.e. Admixture of nitrogen air and fluorin air) ③ Check by halogen lamp, alkyl gas (petroleum gas) detector, electric detector, etc. ④ If cannot find, continue to pressurize to 28 kg／cm2 and check again. Maximum pressure not more than 28 kg／cm2

4.5 Fill of refrigerant Refrigerant fill quantity of outdoor unit ex-factory is based on 5m pipe length; while the length of connection piping is less than 5m, no need to fill additional refrigerant; while pipe length is more than 5m, please add refrigerant as the following table: Cold medium pipe

Standard of cold medium pipe

Ф9.52 Ф12.7 Ф15.88

Liquid pipe Ф6.35 Ф6.35 Ф9.52

Additional refrigerant fill quantity 0.02Kg/m 0.02 Kg/m 0.05 Kg/m

Ф19.05

Ф9.52

0.07 Kg/m

Ф19.05

Ф12.7

0.09 Kg/m

Air pipe

4.6 Commissioning Key points of commissioning ● If it is in winter, power supply should be connected 6 hours in advance for first operation so that crankcase can preheated in advance. ● If it is in winter,, commissioning should be executed again if the main power supply is cut off for 8 hours and the test running can be executed after2.5 hours after the power is on. 1) Switch on the power supply and turn on cooling mode. 2) After three-minute protection of the compressor, observe whether the cold air blows from the indoor unit well or not, and is there any abnormal noise from outdoor. 3) Switch over to “heating” mode, observe whether the hot air blows from the indoor unit well or not, and is there any abnormal noise from outdoor.. 39

4) Set the mode to “Air-blast”(high speed air)mode,observe whether strong air blows from indoor. 5) Open “swing”mode and check whether baffle plate swing in good condition or not. 6) Press remote control to check whether whole-set unit works in good condition or not. 7) Switch mode into “cooling mode” and run for 1 hour, and then observe whether drainage goes out smoothly or not. 8) After making sure the unit operates in good condition, press “ON/OFF” button to finish commissioning.

40

5. Control instruction of QRD-3F-HCE1 (60070110600) PC Board 5.1 Technical Guideline 1. 2. 3. 4. 5. 6. 7. 8.

Power voltage scope of application: input voltage 175 V – 253V; AC input currency frequency: 50Hz/60Hz; Working environment temperature: (-10 ~ +70) ℃; Working environment humidity: RH20% ~ RH90%; Indoor fan is tapping motor, three grades wind speed; Outdoor fan is tapping motor with iron casing, one grade wind speed, normal work currency is less than 3A; Normal work currency of four-way valve is less than 1A/220VAC; Power of compressor is only-phase power, normal work currency is less than 20A;

5.2 Functions of Controller Functions of Controller consist of the following sections: 1. Remote control receiving; 2. Forced operation; 3. Driving the buzzer; 4. Driving the indoor fan; 5. Timing ON/OFF; 6. Compressor restarting protection; 7. High indoor heating exchanger temperature protection under heating mode; 8. Outdoor coil defrosting and returning to heating under heating mode; 9. Anti-cold wind under heating mode; 10. Anti-freezing under cooling mode and dehumidification mode; 11. Self-inspection.

5.3 Main function instruction 5.3.1 Proper noun and its meaning TA: Indoor ambient temperature; TE: Indoor unit evaporator temperature; TS: Set temperature; TW: Outdoor unit evaporator temperature; Note: Sensor is 5K3470. 5.3.2 Definition of dial code switch

41

Switch type

Switch number

Function

ON

OFF

Default

Remark

1

Remote control ON/OFF

YES

NO

OFF

－

OFF

Swing mode is divided into two groups: First group contains: A mode and B mode； System’s default is the first group; Second group contains: C mode and D mode； Method of changing between the first group and the second group: Within 5s, ten press “Sleep” key continuously, buzzer sends four short sounds continuously, mean to enter the mode in the second group;

A mode

Three-digit

2

Swing mode D mode

3 1 2 Four-digit 3 4

B mode

Model choice Simulated remote control ON/OFF Water level switch protection volatile memory choose Outdoor unit protect switch

Ten press “Sleep” key continuously, buzzer sends two short sounds continuously, mean to cancel the mode in the second group and return to the mode in the first group;

C mode

Heat pump

Single cooling

ON

Turn on

Turn off

OFF

NO

YES

OFF

YES

NO

OFF

NO

YES

OFF

After setting or canceling the mode every time, system must cutoff power and then electrify again to be valid. If memory chip isn’t installed or is failure, the mode in the second group can’t be set. When selecting “Heat pump”, Electric Heating is put in automatically. For testing, OFF must be set

5.3.3 Forcing switch 1. In the running state, press this button can stop the air conditioner. In the stopping state, press this button can run the air conditioner under auto mode. After selecting the operation mode, the air conditioner runs under that mode. According to the indoor temperature, three modes(Cooling、 Dehumidification、 Heating) can be automatic chosen. 1) TA ≥ 27℃, select cooling running mode, set temperature in 24℃, set wind speed in auto; 2) 20℃ < TA < 27℃，select dehumidification running mode, set temperature in 24℃, set wind speed in auto; 42

3) TA≤ 20℃, select heating running mode, set temperature in 24℃, set wind speed in auto; 4) This mode has Timing、Sleep、Volatile memory(Reserve)、Anion(Reserve) and Feeling(Reserve) functions; 5) Once the running mode is selected, it will not be changed by the indoor temperature, but can be changed by the received remote control signal. 2. Press this forcing button for five seconds unit buzzer sends two short sounds continuously, the controller enter commissioning that will run 30 minute: 1) When commissioning the sensor of inlet wind temperature is not valid. After three-minute protection of the compressor, start up normally (no delay safety control for initial electrifying), indoor fan wind speed is high wind speed, the operation mode is cooling mode; 2) When commissioning there is no anti-freezing and high temperature preventing protection. 5.3.4 Auto mode When Remote Controller choose Auto mode, air conditioner runs under that mode which is selected. According to the indoor temperature, three modes(Cooling、 Dehumidification、 Heating) can be automatic chosen; 1. TA ≥ 27℃, select cooling running mode, set temperature in 24℃, set wind speed in auto; 2. 20℃ < TA < 27℃，select dehumidification running mode, set temperature in 24℃, set wind speed in auto; 3. TA ≤ 20℃, select heating running mode, set temperature in 24℃, set wind speed in auto; 4. This mode has Timing、Sleep、Volatile memory(Reserve)、Anion(Reserve) and Feeling(Reserve) functions; 5. Once the running mode is selected, it will not be changed by indoor temperature. When starting up again after shutting down or transferring mode, select the running mode again. 5.3.5 Cooling mode Set temperature is preset by remote controller. Temperature controlling range is 16℃～32℃. Set temperature can be adjusted by “Temperature increase” “Temperature decrease” button of remote controller. Press “Wind speed selection” button to choose the fan speed: auto wind、high speed wind、 medium speed wind、low speed wind. Four-way valve is always closed under this mode. Other operations are as below: 1. TA - TS ≥ 1℃, if compressor satisfy 3 minutes protection, compressor、outdoor fan run; 2. TA = TS, keep former state; 3. TA - TS ≤ -1℃, if compressor satisfy 3 minutes protection, compressor、outdoor fan stop; 4. The wind speed can be set by remote controller in cooling running, indoor fan always keep operating; 5. TE ≤ 0℃, keep 10s and compressor keep operating for more than 5min, turn off compressor and outdoor fan, indoor fan operates at set wind speed; TE ≥ 7℃, exit this protection; 6. This mode has Timing、Sleep、Volatile memory(Reserve)、Anion(Reserve) and Feeling(Reserve) functions; 7. Auto wind speed controlling: TA – TS ≥ 3℃, the fan operates at high wind speed; TS +1℃ ≤ TA < TS + 3℃, the fan operates at medium wind speed; TA – TS < 1℃, the fan operates at low wind speed; There is no 3min delay protecting when low wind speed change into high wind speed; while there is 3min delay protecting when high wind speed change into low wind speed. 8. There is no 3min delay protection for the compressor at the first electrifying. Outdoor fan is started up 43

after the compressor run for 2s. If TS is adjusted higher than TA by remote controller, the compressor turn off without 3min delay protection. 5.3.6 Dehumidification mode 1. Under dehumidification mode four-way valve is always closed, temperature controlling range is 16℃～ 32℃. 2. Under dehumidification mode, when 3 minutes protection is satisfied, operation of compressor and outdoor fan follow as below: 1) TA ≥ TS+2℃, compressor and outdoor fan continuously operate, the fan operates at set wind speed; 2) TS ≤ TA < TS+2℃, compressor、outdoor fan run for 10min and stop for 6min, with 3min stopping compressor, indoor fan close, in other conditions indoor fan operates at low wind speed; 3) TA < TS, compressor and outdoor fan stop, indoor fan stops, 3min later it operates at low wind speed; Auto wind speed control: TA – TS ≥ 5℃, the fan operates at high wind speed; TS +3℃ ≤ TA < TS +5℃, the fan operates at medium wind speed; TS +2℃ ≤ TA < TS +3℃, the fan operates at low wind speed; TS ≤ TA < TS +2℃, the fan intermittently operates at low wind speed; TA < TS, compressor stops, within 3min, indoor fan closes, 3min later, the fan operates at low wind speed; 3. There is no 3min delay protection for the compressor at the first electrifying. Outdoor fan is started up after the compressor run for 2s. 4. TE ≤ -2℃, keep 10s and compressor keep operating for more than 5min, stop compressor and outdoor fan, indoor fan operates at set wind speed; When TE ≥ 7℃, exit this protection; 5. This mode has Timing、Sleep、Volatile memory(Reserve)、Anion(Reserve) and Feeling(Reserve) functions; 5.3.7 Ventilation mode Under ventilation mode, outdoor unit always stops, indoor fan operates at set wind speed which is set from high、medium、low wind speed by remote controller, without auto wind speed. This mode has Timing、 Volatile memory(Reserve) and Anion(Reserve) functions. 5.3.8 Heating mode Set temperature is preset by remote controller. Temperature controlling range is 16℃～32℃. Set temperature can be adjusted by “Temperature increase” “Temperature decrease” button of remote controller. Press “Wind speed selection” button to choose the fan speed: auto wind、high speed wind、 medium speed wind、low speed wind. Four-way valve is always closed under this mode. Other operations are as below: 1. TA – TS ≤ 1℃, if compressor satisfy 3 minutes protection, compressor、outdoor fan start, indoor fan operates on anti-cold wind conditions; 2. TA – TS ≥ 1℃, if compressor continuous operate for 3min, compressor、outdoor fan stop, indoor fan operates on anti-cold wind conditions; 3. TA = TS, keep former state; 4. Auto wind speed controlling: TA < TS-2℃, the fan operates at high wind speed; TS-2℃ ≤ TA < TS, the fan operates at medium wind speed; 44

5.

6. 7.

8.

TA ≥ TS, the fan operates at low wind speed; There is no 3min delay protecting when low wind speed change into high wind speed; while there is 3min delay protecting when high wind speed change into low wind speed. There is no 3min delay protection for the compressor at the first electrifying. Compressor is started up after four-way valve run for 10s. Outdoor fan is started up after the compressor run for 2s. If TS is adjusted lower than TA by remote controller, the compressor turn off without 3min delay protection. This mode has Timing、Sleep、Volatile memory(Reserve)、Anion(Reserve) and Feeling(Reserve) functions under this mode; At the first electrifying four-way valve is started up immediately, 10s later compressor is started up. On the state of operating of compressor, shut down or transfer mode will close four-way valve with delay 2min50s; If compressor shut down, four-way valve stops immediately. Anti-cold wind and blowing surplus heat function: Indoor fan wind speed is controlled by TE, specific operations follow as below: 1) Anti-cold wind when compressor is running: a) When TE is increasing, TE < 30℃, indoor fan stops; 30℃ ≤ TE < 38℃, indoor fan operates at low wind speed; TE ≥ 38℃, indoor fan operates at the set wind speed; b) When TE is decreasing, TE > 34℃, indoor fan operates at the set wind speed; 28℃ < TE ≤ 34℃, indoor fan operates at low wind speed; TE ≤ 38℃, indoor fan stops;

(Figure 1) 2) Anti-cold wind when compressor is stopping: a) When TE is decreasing, TE > 30℃, indoor fan operates at low wind speed; TE ≤ 30℃, indoor fan stops; b) When TE is increasing, TE ≥ 35℃, indoor fan operates at low wind speed; TE < 30℃, indoor fan stops;

45

(Figure 2) 3)

Blowing surplus heat under OFF status: TE > 35℃, indoor fan operates at low wind speed; TE ≤ 35℃, indoor fan stops, blow surplus heat under OFF status for not longer than 10s, when blowing, if TE < 35℃, indoor fan immediately close. 9. High temperature protection: 1) In cooling running, TE ≥ 57℃, keep 10s, stop outdoor fan; TE ≥ 64℃, keep 10s, stop compressor; TE < 52℃, 3 minutes protection is satisfied, return to normal running; 2) High temperature protection is valid only when TE sensor is normal. 10. Defrosting under heating mode(failure of outdoor pipe coil temperature refers to intelligence defrosting function): 1) When outdoor sensor is well and any of the following conditions is met, then defrosting starts. During defrosting, the light flashes: a) TW ≤ -6℃, keep 2min; b) The time of compressor’s operation adds up to more than 50min; defrosting interval is 50min (power off or turn off by using remote controller, accumulated time accumulate again), Compressor has operated for more than 5 minutes. When defrosting is starting, compressor、indoor fan、outdoor fan stop, after 30s,four-way valve close, after 15s again, compressor defrost. 2) Stopping condition of defrosting: (any of the following conditions is met, then defrosting stops.) a) Outdoor coil temperature ≥12℃; b) Defrost period achieves 12min; c) Transfer mode or turn off by using remote controller, exit defrosting. After exiting defrosting, compressor stops, outdoor fan run, after 55s, four-way valve open, after 5s again, compressor run; air conditioner return normal heating running, indoor fan operates on anti-cold wind. 5.3.9 Assistant Electric Heating function 1. When the heating mode is operated normally, i.e. compressor start up、outdoor fan runs、reverse valve is electrified、indoor fan operates, and all of the following conditions are met, then electric heating is on. 1) TE < 48℃; 2) TA < 22℃; 3) TS – TA ≥ 3℃; 4) Compressor continuously operates at heating mode for 4min; 2. When any of the following conditions is met, then electric heating is off. 1) TE > 22℃; 2) TS – TA < 2℃; 3) TS > 52℃; 3. When one of compressor、four-way valve and indoor fan fails to work or indoor fan feedback failure, 46

then assistant electric heating is off. 4. In the operating of compressor, if assistant electric heating is off, it will be restarted after 1min. 5.3.10 Sleep controlling function Sleep function is valid in the running state of Auto、Cooling、Dehumidification or heating. After starting sleep function, indoor fan speed is low, sleeping light is on. After pressing “Sleep” key to start the sleep function, for cooling running, set temperature automatically increase 1℃ after 1h, 1 hours later, the set temperature increase another 1℃; for heating running, set temperature automatically decrease 2℃ after 1h, 1 hours later, the set temperature decrease another 2℃. After 7h of sleeping operation, shut down. In the running state of sleep, transfer mode is valid, after transferring mode sleep function is cancelled, if press temperature increase key, air conditioner will operate according to “new set temperature + correction temperature”. In the state of sleep, press “Sleep” key again 、“Mode” or shut down, sleep function is cancelled, finish running sleep. Sleep in cooling running: Temperature

Increase another 1℃ Increase 1℃ Former set temperature 1h

2h

7h (Finish sleeping, shut down)

Sleep in heating running: Temperature Former set temperature

Decrease 2℃ Decrease another 2℃

New 1h

2h

7h (Finish sleeping, shut down)

5.3.11 Intelligence defrosting function 1. In the running state of intelligence defrosting, any of the following seven conditions is met (total small conditions of each large condition must be met), then defrosting starts. During defrosting, the light flashes: 1) a) Outdoor fan enters overload protection and stops running; b) Outdoor fan re-startup after a stop and continuously operates for more than 10min; c) Accumulated compressor running time is more than 45min; d) Continuously compressor running time is more than 20min; e) TE ≤ 48℃. 47

2) a)

After enter Heating mode for 5min or exiting defrosting for 5min, get the maximum difference between TE and TA; ① TE ≥ 38℃, difference between TE and TA decrease more than 5℃, keep more than 3min; ② TE < 38℃, difference between TE and TA decrease more than 3℃, keep more than 3min b) Continuously compressor running time is more than 5min; c) Accumulated compressor running time is more than 45min; d) TE ≤ 48℃. Note: When wind correcting is existing, indoor fan wind speed decreases one grade, temperature corrects -1℃; indoor fan wind speed increases one grade, temperature corrects +1℃. 3) a) Accumulated compressor running time is more than 3h; b) Continuously compressor running time is more than 20min; c) Difference between TE and TA is less than 16℃. 4) a) Difference between TE and TA is less than 16℃, keep 5min; b) Accumulated compressor running time is more than 45min; c) Continuously compressor running time is more than 20min; When this condition is met, enter defrosting. Record TE before starting defrosting. When defrosting finishes and compressor continuously operates for10min, compare TE at this time with TE before defrosting, if the latter is not bigger than the former 3℃, can’t enter defrosting in this condition next time until transferring mode、start up to enter heating after shutting off or after once defrosting; 5) Begin timing after air conditioner enter overheat protection, 2h later, force a defrosting; 6) a) After entering Heating mode for 5min at the first time, get the maximum TE: TE < 38℃ b) Continuously compressor running time is more than 5min; c) Accumulated compressor running time is more than 45min; 7) a) On the state of Heating mode, after accumulated compressor running time reaches 2h; b) Within 2h, defrosting hasn’t be run; c) Continuously compressor running time is more than 5min; get the maximum TE, TE < 30℃, keep more than 3min; 2. Any of the following four conditions is met, exit intelligence defrosting. 1) Intelligence defrost period is more than 9min; 2) Intelligence defrosting has operated for 4 minutes, TE ≥ 0℃, TE increases more than 2℃ within 10s; 3) Intelligence defrosting has operated for 5 minutes, TE ≥ 5℃; 4) Compressor has run for 1min, test current of it, current ≥ 6A(32～35 Wall-mounted air conditioner current ≥ 8A, lower than 32 Wall-mounted air conditioner current ≥ 6A), keep 5s. 3. Operation time sequence in defrosting: 1) When start operating defrosting, compressor、indoor fan、outdoor fan shut down, 30s later, four-way valve stops, 15s later again, start up compressor, enter defrosting; 2) When exit operating defrosting, compressor shut down、outdoor fan turn on, 55s later, four-way valve turn on, 5s later, compressor is started, conditioner return to normal heating running, indoor fan operates on anti-cold wind. 5.3.12 Timing controlling function The longest timing time is 24h, use 1min as unit, single timing mode, Timing mode can’t be canceled while transferring mode, Timing light is on after setting Timing. 1. Timing OFF Only in the air conditioner running state Timing OFF function can be set, timing scope is 1min-24h, when timing time is end, air conditioner will turn off automatically. 2. Timing ON Only in the air conditioner stopping state Timing ON function can be set, timing scope is 1min-24h, 48

when timing time is end, air conditioner will turn on automatically. Turn on、off air conditioner after setting Timing function, former timing and sleep function cancel automatically. 5.3.13 Self-inspection function Press force key to be electrified, buzzer sends two short sounds and enter self-inspection: Electric Heating operates、indoor fan operates at high wind speed Æ operation light is on for 1s Æ timing light is on for 1s Æ power light is on for 1s Æ indoor fan operates at low wind speed for 1s、 medium wind speed for 1s Æ compressor operates for 1s Æ four-way valve operates for 1s Æ outdoor fan operates for 1s Æ buzzer sends one short sound and turn off, then sir conditioner enter stand-by and finish self-inspection. 5.3.14 Lift pump operation regulation To prevent indoor unit or furniture being damaged by the condensate overflowed from the indoor unit, a lift pump is required to drain the condensate. The operation status of lift pump is depending on the status of the water level switch. Only under cooling or dehumidification status, after outdoor compressor started, lift pump motor runs; when compressor is stopped (or powered off), lift pump motor still runs 300s before stop. When anti-freezing, water pump does not stop. After anti-freezing mode quitted, lift pump operates as normal program. During cooling or dehumidification operation, when the water level sensor switches off (full of water) and keeps 3s, it is judged to be lift pump failure, drainage pump operates continuously, stop compressor, wired controller shows E4 failure code, if the full water failure is cleared, then units restore to normal operation (compressor has 3min protection in priority); if the failure is not cleared within 30min, then water pump stop working and units enter into OFF status, while the wired controller displays E4 failure code. In case of initial electrifying, lift pump operates for 180s before judging the water level sensor status. 5.3.15 Main controller protection port input 1. The heating overheat protection switch、Water level switch、Remote control output tested by main controller are normally closed contact signal. Water level switch: When water level is normal, switch is off, if water level goes beyond the normal scope, then Water level switch will switch off to enter into protecting status and alarm output signal. Heating overheat protection switch: When heating overheat protection switch is off, controller enters into protecting status and alarm output signal. 2. The outdoor protection port tested by main controller adopts strong electricity live wire protection. When protection switch is off, controller enters into protecting status and alarm output signal. 3. Main controller uses a 4-digit code dial switch to shield every protection port input signal. If some protection port is not used and is tested without stopping operating, this protection can be used. 5.3.16 Failure instructions When air condition fails, Timing light in the controller light board will indicate corresponding fault code according to different fault indication，details refer to follows:

49

Reasons for fault Communication failure Drainage system failure Phase sequence、 phase low or low pressure failure TA abnormal

TE abnormal TW abnormal

Display mode 1 （Indicating light type）

Display mode 2 （Wired controller type）

Display priority level

Phenomenon

NO

E5

1

Stop

Timing light flashes four times in 8s

E4

2

Stop

Timing light flashes six times 8s

E6

3

Stop

E1

4

Stop

E3

5

Stop

NO

6

No Stop

NO

7

Stop

NO

8

No Stop

Timing lights flashes one time in 8s Timing light flashes two times in 8s Timing light flashes two times in 2s

Indoor heating overload protection Defrost(non-fault)

Operation light flashes

Note: When wired controller or main control plate consecutive two minutes have not received right signals, then turn off and instruct corresponding fault code. Once communication is restored, system will be automatically resumed.

50

6 Remote controller and wired controller User control the air conditioner by remote controller or wired controller, and remote controller and wired controller could be used as substitute.

6.1 Wired controller only Only one wired controller is applied in system that controls display of air conditioner operation status and the air conditioner operation, and the wired controller should be connected with main controller by four-core communication line.

6.2 Remote controller only Only one display board is connected with the main controller, it receives control signal from remote control, and at same time display system operation status on one light tube.

6.3 Wired controller + remote controller If the configuration selected is wired controller equipped with signal receiver which receive signal from the remote controller, use remote control to control air conditioner operation at the same time of using wired controller. In addition, wired controller and display board can be used simultaneously and no interference each other.

6.4 Duct Display board

Display function: Display include three different colors LBDs, which indicates that: ★ Red indicator light: Light on indicates power supply is on. ★ Yellow indicator light: Light on indicates air conditioner operates under timing status or sleep mode.

51

6. 5 Remote Controller 6.5.1 Main parameters of remote controller Rated voltage

3.0V, two 7# batteries are used

Min. voltage of CPU signal

2.0V

Reach distance of signal

8m

Ambient temperature

(-5~60)℃

6.5.2 Precautions for use of remote controller 6.5.2.1 The closing state of remote controller:

1. “+” button This button can set room temperature. Press it once, the temperature increases 1℃. Press it continuously, the temperature increases at the speed of 4℃/s. This function is invalid when the appliance is at the Fan and Auto mode. 2. “SWING” button Press the button, the horizontal airflow direction plate can adjust automatically. When you have the desired wind direction, please press it again, the airflow direction plate will stop at the situation. 3. “FAN” button You can select fan speed from “Low”、 “Med”、 “High”、 “Auto”.

Remark: The floor standing type select fan speed only from “Low” to “High”. 52

4. “MODE” button Which enables you to select different operation mode, after each pressing, the operation mode will be changed. It shows in the following display.

Remark: Cold wind type has heating function. 5. “-” button This button can set room temperature. Press it once, the temperature decreases 1℃. Press it continuously, the temperature decreases at the speed of 4℃/s. This function is invalid when the appliance is at the Fan and Auto mode. 6. “ ” button You can start the air-conditioner by pressing this button and stop its operation by pressing it again. 6.5.2.2 The opening state of remote controller:

NOTICE: It’s general sketch map of outline for remote controller. Please refer to the real one you buy for specific location of buttons, and if the relevant keys are not indicated, it means absence of corresponding function. 1. “+” button This button not only can adjust clock time and the timer time but also can set room humidity. 1) Adjusting clock time and timer time Press it once, the time increases one minute. Press it for 1 to 3 seconds, time display will increase at the speed of 2min/s. For 3 to 5 seconds, it will increase at the speed of 10min/s. For more than 5 seconds, it will increase at the speed of 10min/s. 2) Setting room temperature and room humidity Press it once, the humidity increases 5%. 2. “SLEEP” button Press this button, the LCD shows the “ ” symbol, the sleeping function of the air conditioner is started. 53

After 7 hours of setting this function, the air conditioner will be off automatically. Press the button once again, the “ ” symbol disappears; the function is cancelled at the same time. This function is invalid when the appliance under the Fan mode. 3. “POWER” button or “POWER/QUIET ”button ☆ When it displays “POWER” button: Press this button, the fan speed reach the highest, press it again it resume the foregoing fan speed.

☆ When it displays “POWER/QUIET” button: Which enables you to select different operation mode, after each pressing, the operation mode will be changed. It shows in the following display.

This function is only suitable for frequency variable appliance. 4. “TIMER/CLOCK” button 1) Setting the “ON/OFF” timer time When remote controller is at the on/off state, press this button, the LCD flickers the “ off/ on” symbol. Press the “+” or “-” button to set the timer time. After finishing it, press this button again in 10 seconds to affirm. If the setting time is the same as the current time, this setting is invalid. Press the button once more, the “ off/ on” symbol disappears, the function is cancelled at the same time. 2) Adjusting the clock time ” Press this button in 5 seconds under the state of no timer setting, the LCD flickers the “ symbol. Press the “+” or “-” button to set the timer time. After finishing it, press this button again in 10 seconds to affirm. If not, this operating is invalid. 5. “-” button This button not only can adjust clock time and the timer time but also can set room humidity. 1) Adjusting clock time and timer time Press it once, the time decreases one minute. Press it for 1 to 3 seconds, time display will decrease at the speed of 2min/s. For 3 to 5 seconds, it will decrease at the speed of 10min/s. For more than 5 seconds, it will decrease at the speed of 10min/s. 2) Setting room temperature and room humidity Press it once, the humidity decreases 5%. 6. “ ” button You can start the air-conditioner by pressing this button and stop its operation by pressing it again. 6.5.3 Usage ★ Battery installation

1. Slide off the lid on the back of the controller according to the direction shown by the arrowhead. 2. Put in two new 7# batteries correctly. Ensure that the electrodes match properly. 3. Put back the lid. Make sure of the power supply before switching on the air-conditioner. ★ Cooling/Heating operation mode (Cold wind type has no heating function) 54

1. Press the “ ” button, the operation indicator is on, the air conditioner start to operate the Cooling or Heating mode. Press the button again, the air-conditioner stops. 2. Press “MODE” button and select the “cooling” or “heating” operation mode. 3. Press “+” or “-” button , you can set the temperature range from16℃ to 32℃. 4. Press “FAN” button, you can select fan speed from “Low”、 “Med”、“High”、 “Auto”. ★ 1. 2. 3.

Dry operation mode Press the “MODE” button, select the dry mode operation. Press the “+” or “-” button, you can set the temperature range from 16℃ to 32℃. Press the “FAN” button, you can select fan speed from “Low”、“Med”、“High”、 “Auto”.

★ Fan operation mode 1. Press the “MODE” button, select the fan operation mode. 2. Press the “FAN” button, you can select fan speed from “Low”、 “Med”、 “High”. Remark: In the fan operation mode, to set temperature is noneffective. ★ Clock time setting 1. Press the “TIMER/CLOCK” button for 5 seconds, the time indicator at present begins to glimmer. 2. Adjust present time through pressing the “+” or “-” button. 3. Press the “TIMER/CLOCK” button once again, the time setting is finished. Remark: Time can be regulated only after the timing mode is cancelled. ★ Time setting ☆ Set the “Timer ON” (It is effective only when the air conditioner is shut off). 1. Press the TIMER/CLOCK button, the remote controller display “ on” immediately. 2. Adjust time through pressing the “+” or “-” button. 3. Press the TIMER/CLOCK button again; the “Timer ON” setting is finished.

☆ Set the “timer OFF”。（It is effective only when the air-conditioner is running） 1. Press the TIMER/CLOCK button, the remote controller display “ off” immediately. 2. Adjust time through pressing the “+” or “-” button. 3. Press the “TIMER/CLOCK” button again, the “Timer OFF” setting is finished ★ Sleeping operation mode 1. Press the SLEEP button, the sleeping indicator light of indoor unit flashes on. 2. After the setting of sleeping mode ,the cooling operation enables the set temperature to increase1℃ after 1 hour and another 1℃ automatically after 1 hour. 3. After the setting of sleeping mode, the heating operation enables the set temperature to drop2℃ after 1hours and stops automatically. 4. The air-conditioner runs in sleeping mode for 7hours and stops automatically. Remark: Press the “MODE” button or “ON/OFF” button, the remote controller clears sleeping mode away. 6.5.4 Attention 1. Aim the remote controller towards the receiver on the air-conditioner. 2. The remote controller should be within 8meters away from the receiver. 3. No obstacles between the remote controller and receiver. 4. Do not drop or throw the remote controller. 5. Do not put the remote controller under the forceful sunrays or heating facilities and other heating sources. 6. Use two 7#batteries, don’t use the electric batteries. 7. Take the batteries out of remote controller before stop its using for long. 8. When the noise of transmitting signal can’t be heard indoor unit or the transmission symbol on the display screen doesn’t flare, batteries need be replaced. 9. If reset phenomenon occurs on pressing the button of the remote controller, the electric quantity is deficient and new batteries need to be substituted.

55

6. 6 Wired Controller For standard unit, we only provide remote controller with the unit, the user can choose line controller according to their need. 6.6.1 Line Controller appearance

6.6.2 How to operate the line controller The operation of the line controller please refer to the “remote controller”. The only differentia is line controller have the “CLOCKED” button than remote controller. 6.6.3 Installation of line controller 1. Disconnect the connective panel from the line controller. 2. Through the two hole of the connective panel, fasten the panel on the wall by nail. 3. Draw the wire an appropriate length out of the line controller, then connect the line controller and the connective panel. Joint the line controller outlet plug and the indoor unit outlet plug by the line controller connective wire.

56

7 Sensor resistor and Pressure switch 7.1 5K3470 sensor resistor value R-T CONVERSION TABLE

Part No. ： R25 ：5.0 kΩ±1% B25/50：3470K±1% Rmin Tx(℃) (KΩ) -20 35.90 -19 34.14 -18 32.48 -17 30.91 -16 29.43 -15 28.02 -14 26.69 -13 25.43 -12 24.24 -11 23.11 -10 22.04 -9 21.03 -8 20.07 -7 19.16 -6 18.29 -5 17.47 -4 16.69 -3 15.95 -2 15.25 -1 14.58 0 13.94 1 13.34 2 12.76 3 12.22 4 11.69 5 11.20 6 10.73 7 10.28 8 9.847 9 9.439 10 9.050 11 8.680 12 8.326 13 7.989 14 7.667 15 7.360 16 7.067

Rnom (KΩ) 36.99 35.16 33.43 31.80 30.26 28.80 27.42 26.12 24.88 23.71 22.60 21.55 20.56 19.61 18.72 17.87 17.06 16.30 15.57 14.88 14.23 13.60 13.01 12.45 11.91 11.40 10.92 10.46 10.02 9.596 9.197 8.817 8.454 8.108 7.779 7.464 7.164

Rmax (KΩ) 38.11 36.21 34.41 32.72 31.11 29.60 28.17 26.81 25.53 24.32 23.17 22.08 21.05 20.08 19.15 18.27 17.44 16.65 15.90 15.19 14.51 13.87 13.26 12.68 12.13 11.61 11.11 10.63 10.18 9.755 9.346 8.955 8.583 8.229 7.891 7.568 7.261

Tx(℃) 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53

Rmin (KΩ) 6.787 6.519 6.264 6.020 5.786 5.563 5.350 5.146 4.950 4.761 4.580 4.407 4.242 4.083 3.932 3.787 3.648 3.515 3.387 3.265 3.148 3.035 2.928 2.825 2.725 2.630 2.539 2.452 2.368 2.287 2.209 2.135 2.063 1.994 1.928 1.864 1.803

Rnom (KΩ) 6.877 6.603 6.342 6.092 5.854 5.626 5.408 5.199 5.000 4.811 4.630 4.456 4.291 4.132 3.980 3.835 3.695 3.562 3.434 3.311 3.193 3.081 2.972 2.869 2.769 2.673 2.581 2.493 2.409 2.307 2.249 2.174 2.102 2.032 1.965 1.901 1.839

Rmax (KΩ) 6.967 6.687 6.420 6.165 5.921 5.688 5.466 5.253 5.050 4.860 4.679 4.506 4.340 4.181 4.029 3.883 3.743 3.609 3.481 3.357 3.239 3.126 3.017 2.913 2.813 2.716 2.624 2.535 2.450 2.368 2.289 2.213 2.141 2.070 2.003 1.938 1.876 57

Rmin (KΩ) 1.744 1.687 1.633 1.580 1.530 1.481 1.434 1.389 1.346 1.304 1.263 1.224 1.187 1.152 1.116 1.082 1.049 1.018 0.9874 0.9582 0.9300 0.9027 0.8764 0.8509 0.8264 0.8026 0.7797

Tx(℃) 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80

Rnom (KΩ) 1.780 1.722 1.667 1.614 1.563 1.514 1.466 1.421 1.376 1.334 1.293 1.254 1.215 1.179 1.143 1.109 1.076 1.044 1.013 0.9837 0.9550 0.9273 0.9005 0.8746 0.8496 0.8254 0.8021

Rmax (KΩ) 1.816 1.785 1.702 1.648 1.597 1.547 1.499 1.452 1.408 1.365 1.323 1.283 1.245 1.207 1.171 1.137 1.103 1.071 1.040 1.009 0.9806 0.9524 0.9252 0.8988 0.8734 0.8488 0.8250

Tx(℃) 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100

7.2 5K3470 sensor graphs 40.00 35.00 30.00 25.00 20.00 15.00 10.00 5.00 0.00 1

58

12 23 34 45 56 67 78 89 100 111

Rmin (KΩ) 0.758 0.736 0.715 0.695 0.676 0.657 0.639 0.621 0.604 0.588 0.572 0.556 0.541 0.527 0.513 0.499 0.486 0.473 0.461 0.449

Rnom (KΩ) 0.779 0.758 0.737 0.716 0.696 0.677 0.658 0.641 0.623 0.606 0.590 0.574 0.559 0.544 0.530 0.516 0.502 0.489 0.476 0.464

Rmax (KΩ) 0.802 0.780 0.758 0.737 0.717 0.698 0.679 0.660 0.643 0.625 0.609 0.592 0.577 0.562 0.547 0.533 0.519 0.505 0.592 0.480

7.3 10K3470 sensor resistor value(exhaust temperature sensor) R-T CONVERSION TABLE Part No. ： R25 ：10.0 kΩ±1% B25/50：3470K±1%

（exhaust temperature sensor）

T (℃)

R MIN (KΩ)

R NOM (KΩ)

R MAX (KΩ)

T (℃)

R MIN (KΩ)

R NOM (KΩ)

R MAX (KΩ)

-20

71.79

73.98

76.23

17

13.58

13.75

13.93

-19

68.28

70.32

72.42

18

13.04

13.21

13.37

-18

64.96

66.87

68.83

19

12.53

12.68

12.84

-17

61.82

63.61

65.44

20

12.04

12.18

12.33

-16

58.85

60.52

62.23

21

11.58

11.71

11.84

-15

56.04

57.60

59.20

22

11.13

11.25

11.37

-14

53.38

54.84

56.34

23

10.70

10.82

10.93

-13

50.87

52.23

53.63

24

10.29

10.40

10.50

-12

48.48

49.76

51.02

25

9.900

10.00

10.10

-11

46.22

47.42

48.64

26

9.522

9.621

9.721

-10

44.08

45.20

46.34

27

9.160

9.259

9.359

-9

42.06

43.10

44.17

28

8.814

8.913

9.012

-8

40.13

41.11

42.11

29

8.483

8.581

8.680

-7

38.13

39.22

40.16

30

8.166

8.264

8.362

-6

36.58

37.43

38.31

31

7.863

7.690

8.056

-5

34.94

35.74

36.55

32

7.573

7.669

7.766

-4

33.38

34.12

34.89

33

7.295

7.391

7.487

-3

31.89

32.59

33.31

34

7.029

7.123

7.219

-2

30.49

31.14

31.81

35

6.774

6.868

6.962

-1

29.15

29.76

30.38

36

6.529

6.622

6.715

0

27.88

28.45

29.03

37

6.295

6.387

6.479

1

26.67

27.21

27.75

38

6.071

6.161

6.253

2

25.52

26.02

26.53

39

5.855

5.945

6.035

3

24.43

24.90

25.37

40

5.649

5.737

5.829

4

23.39

23.82

24.27

41

5.451

5.538

5.626

5

22.39

22.80

23.22

42

5.260

5.347

5.433

6

21.45

21.83

22.22

43

5.078

5.163

5.249

7

20.55

20.91

21.27

44

4.903

4.987

5.071

8

19.70

20.03

20.37

45

4.735

4.817

4.900

9

18.88

19.19

19.51

46

4.573

4.654

4.736

10

18.10

18.39

18.69

47

4.418

4.498

4.579

11

17.36

17.63

17.91

48

4.269

4.348

4.427

12

16.66

16.91

17.16

49

4.126

4.203

4.282

13

15.98

16.22

16.45

50

3.988

4.064

4.141

14

15.34

15.56

15.78

51

3.855

3.930

4.007

15

14.72

14.93

15.13

52

3.728

3.802

3.877

16

14.14

14.33

14.52

53

3.606

3.678

3.752 59

T (℃)

R MIN (KΩ)

R NOM (KΩ)

R MAX (KΩ)

T (℃)

R MIN (KΩ)

R NOM (KΩ)

R MAX (KΩ)

54

3.488

3.559

3.632

81

1.515

1.559

1.604

55

3.374

3.445

3.516

82

1.472

1.515

1.559

56

3.265

3.334

3.404

83

1.431

1.473

1.516

57

3.160

3.228

3.297

84

1.391

1.432

1.474

58

3.059

3.126

3.194

85

1.352

1.392

1.434

59

2.962

3.027

3.094

86

1.314

1.354

1.395

60

2.868

2.933

2.998

87

1.278

1.317

1.357

61

2.778

2.841

2.905

88

1.243

1.281

1.320

62

2.691

2.753

2.816

89

1.209

1.246

1.285

63

2.607

2.668

2.730

90

1.176

1.212

1.250

64

2.526

2.586

2.647

91

1.144

1.180

1.217

65

2.448

2.507

2.567

92

1.113

1.148

1.184

66

2.373

2.431

2.490

93

1.083

1.117

1.153

67

2.301

2.357

2.415

94

1.054

1.088

1.123

68

2.231

2.287

2.343

95

1.026

1.059

1.093

69

2.164

2.218

2.274

96

0.9979

1.031

1.065

70

2.099

2.152

2.207

97

0.9715

1.004

1.037

71

2.036

2.088

2.142

98

0.9460

0.9779

1.010

72

1.975

2.027

2.080

99

0.9212

0.9526

0.9849

73

1.917

1.967

2.019

100

0.8971

0.9279

0.9597

74

1.860

1.910

1.961

75

1.806

1.855

1.904

76

1.753

1.801

1.850

77

1.702

1.749

1.797

78

1.653

1.699

1.746

79

1.606

1.651

1.697

80

1.560

1.604

1.650

7.4 10K3470 sensor graphs

80.00 70.00 60.00 50.00 40.00 30.00 20.00 10.00 0.00 1

60

10 19 28 37 46 55 64 73 82 91 100 109 118

7.5 Pressure switch Low pressure switch

R22 refrigerant unit

High pressure switch

Default

Disconnection

Comeback

Default

Disconnection

Comeback

closed circuit

0.05Mpa

0.15 Mpa

closed circuit

/

/

61

8. Exploded chart 8.1 Duct(R22, low static pressure 12/30Pa, 9000BTU～12000BTU) No. 1

Number

Material number 9000BTU

Centrifugal fan

1

3

Motor

1

60020127400

4

Centrifugal fan fasten board

1

60960110856

5

Drip tray

1

60450000200

6

Chassis

1

60960110513

7

Outlet flange

1

60960110738

8

Evaporator assembly

1

63961513000

9

Top cover board

1

60960111297

10

Valve-panel

1

60961513150

11

Pipe Clamp

2

60961517270

12

Electric control box

1

60961513060

13

String nip

1

14

Transformer

1

60070502100

15

Terminal board

1

60100200400

16

PCB board

1

60070110600

17

Electric control box cover

1

60961513070

2

62

Mame

12000BTU

63110210100

63961515100

60142300200/60142200200

8.2 Duct (R22, low static pressure 12/30Pa,18000BTU) No.

Number

Material number

Centrifugal fan

1

63110210100

3

Motor

1

60020127800

4

Centrifugal fan fasten board

1

60960110858

5

Drip tray

1

60450000400

6

Chassis

1

60960110515

7

Outlet flange

1

60960110740

8

Evaporator assembly

1

63961516100

9

Top cover board

1

60960111298

10

Valve-panel

1

60961513150

11

Pipe Clamp

1

60961517270

12

Electric control box

1

60961513060

13

String nip

1

60142300200/60142200200

14

Transformer

1

60070502100

15

Terminal board

1

60100200400

16

PCB board

1

60070110600

17

Electric control box cover

1

60961513070

1 2

Name

63

8.3 Duct (R22, low static pressure 12/30Pa, 24000BTU~36000BTU) No. 1

Number 1

Material number 60110500800

2

Axletree

1

08015180010

3

Pipe Clamp

1

60110500800

4

Bearing support

1

60960111239

Centrifugal fan

3

63110210100

7

Motor axes

1

60110500300

8

Joint slack

1

60110500100

9

Motor

1

60020127500

10

Centrifugal fan fasten board

1

60960110862

11

Drip tray

1

60450000700

12

Chassis

1

60960110518

13

Outlet flange

1

60960110743

14

Evaporator assembly

1

63961517100

15

Top cover board

1

60960111301

16

Valve-panel

1

60961513150

17

Pipe Clamp

1

60961517270/60961517280

18

Electric control box

1

60961513060

19

String nip

1

60142300200/60142200200

20

Transformer

1

60070502100

21

Terminal board

1

60100202600

22

PCB board

1

60070110600

23

Electric control box cover

1

60961513070

5 6

64

Name Pipe Clamp

8.4 Duct (R22, low static pressure 12/30Pa ,42000BTU~48000BTU) No. 1

Name Moto

Number 1

Material number 60020128000

2

Joint slack

2

60110500100

3

Centrifugal fan

4

63110210100

4

Motor axes

2

60110500300

5

Centrifugal fan

4

63110210100

6

Bearing support

2

60960111239

7

Pipe Clamp

1

60110500800

8

Axletree

2

08015180010

9

Pipe Clamp

1

60110500800

10

Centrifugal fan fasten board

1

60960110863

11

Drip tray

1

60450000900

12

Chassis

1

60960110520

13

Outlet flange

1

60960110745

14

Evaporator assembly

1

63961518100

15

Top cover board

1

60960111302

16

Valve-panel

1

60961513150

17

Pipe Clamp

18

Electric control box

1

60961513060

19

String nip

1

60142300200/60142200200

20

Transformer

1

60070502100

21

Terminal board

1

60100200400

22

PCB board

1

60070110600

23

Electric control box cover

1

60961513070

60961517490/60961517270

65

8.5 Duct (R22, high static pressure 50/80Pa, 36000BTU~48000BTU) No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32

Name Inhaler Inhaler assembly left&right Inhaler assembly up&down Air cover board Soleplate Pipe Clamp Axletree Rubber Axletree Bearing support Motor axes Centrifugal fan fasten board Drip tray Evaporator assembly Round board Outlet flange A Outlet flange B Air cover board Top cover board Valve-panel String nip Transformer Terminal board PCB board Electric control box cover Drain tube Drain pipe Drain pump Pump Valve-panel assembly Protection board B Protection board A Electric control box Motor

33 34 66

Number 2 2 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

Material number 60490112800 63964837110 63964837610 60964833210 60964833310 60110500800 60420202300 08015180010 60964836110 60110500700 60964834010 63964833010 63964833810 60964832910 60964828010 60964831310 60964833210 60964833910 60964830310 60142300200 60070502100 60100202700 60070110600 60964838210 60460200500 60460200700 60040100500 63964839210 60964838910 60964838810 60964838410 60020132400/R60020131800

Centrifugal fan

3

63110213900

Joint slack

1

60110500900

8.6 Duct (R22, high static pressure 50/80Pa, 52000BTU) No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34

Name Inhaler Inhaler assembly left&right Inhaler assembly up&down Air cover board Soleplate Pipe Clamp Axletree Rubber Axletree Bearing support Motor axes Centrifugal fan fasten board Drip tray Evaporator assembly Round board Outlet flange A Outlet flange B Air cover board Top cover board Valve-panel String nip Transformer Terminal board PCB board Electric control box cover Drain tube Drainpipe Drain pump Pump Valve-panel assembly Protection board B Protection board A Electric control box Motor Centrifugal fan Joint slack

Number 2 2 2 1 1 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 4 2

Material number 60490112900 63964837110 63964836810 60964823410 60964824710 60110500800 60420202300 08015180010 60964836110 60110500700 60964822910 60964825310 63964822510 60964825010 60964838010 60964838110 60964823410 60964824410 60964830310 60142300200 60070502100 60100202700 60070110600 60964838210 60460200500 60460200700 60040100500 63964839210 60964838910 60964838810 60964838410 60020131500 63110213900 60110500900 67

8.7 9000~24000BTU outdoor unit No.

Name

Number

AL-(H)12A4/S2(Du)

AL-(H)18A4/S2(Du)

Material number

Material number

1

Top cover board

1

60961708530

60961706880

2

Left-hand board

1

/

/

3

Big panel

1

60961700450

60961706860

4

Net for Big panel

1

60961708570

60961706970

5

Axial-flow wind leaves

1

60120101100

60120100800

6

Chassis assembly

1

63961708510

63961723420

7

Valve-panel assembly

1

63961700090

63961700760

Stop valve assembly

1

60300300100

60300300100

Stop valve assembly

1

60300300200

60300300300

8

Motor bracket assembly

1

63961709520

63961700970

9

Motor

1

60020113800

60020108200

10

Condenser assembly

1

63961709490

63961725210

11

Right-hand board

1

60961708540

60961706900

12

Compressor Capacitor

1

R60080900900

R60080901600

13

Motor Capacitor

1

60080901700

60080900800

14

Motor bracket

1

60961708450

60961706790

15

Terminal board

1

60100202000

60100202000

1

60961706990

60961706990

1

60961708550

60961706920

16 17

Cover for electric motor Wind-fending vertical board

18

Compressor

1

63010500900

63010501700

19

Four-way valve (heater pump)

1

60030101000

60030100900

68

8.8 30000~36000BTU outdoor unit No.

Name

Number

AL-(H)30A4/S2

AL-(H)36A5/S2

Material number

Material number

1

Condenser assembly

1

63965808810

63965808810

2

Outdoor Motor

1

60020114400

60020114400

3

Axial-flow wind leaves

1

60120101200

60120101200

4

Top cover board

1

60964600410

60964600410

5

Motor bracket assembly

1

63964600470

63964600470

6

Electric control box

1

63965310210

63965310210

3 phase detector

1

/

60080600400

AC contactor

1

60080106100

60080105900

7

Right-hand board

1

60964601110

60964601110

8

Flash chamber

1

R63961400710

R60340201400

9

Compressor

1

63010108200

63010105500

Oil heat strap

1

60090100800

60090100800

Valve-panel

1

60964601170

60964601170

Stop valve assembly 1

1

60300306400

60300307000

Stop valve assembly 2

1

60300306700

60300306900

11

Cover for electric motor

1

60964302410

60964302410

12

Big panel

1

60964601100

60964601100

13

Net for Big panel

1

60964601080

60964601080

14

Chassis assembly

1

63965322710

63965310610

15

Four-way valve (heater pump)

1

60030100200

60030100500

16

Left-hand board

1

60964601120

60964601120

pressure switch

1

60050100500

60050100500

10

17

69

8.9 42000BTU outdoor unit No. 1

Name Top cover board

Number 1

001

002

009

AL-(H)42A5/S2

0 21

60964305620

2

Left-hand board

1

60964305570

3

Net for Big panel

1

/

4

Big panel assembly

1

63964305560

5

Right-hand board

1

60964305600

6

Axial-flow wind leaves

1

60120101000

7

Outdoor Motor

1

60020202800

8

Motor bracket assembly

1

63964305540

9

Condenser assembly

1

63964305670/63964305730

10

Wind-fending vertical board

1

63964305450

11

(ROHS)Flash chamber

1

R60340202200

12

Compressor

1

63010107900

13

Chassis assembly

1

63964305420

14

Stop valve assembly 3/8in

1

60300308000

15

Stop valve assembly 3/4in

1

60300308100

16

Terminal board

1

60100200800

17

AC contactor

1

60080105900

18

Motor bracket

1

60964305590

19

Pressure switch

1

60050100500

20

Four-way valve (heater pump)

1

60030100500

21

Net for condenser

1

60964305610

70

008

Material number

0 07 0 06

0 10 004

011 020

0 03

0 12

005

019

0 18

0 15 0 14

013

016 017

8.10 48000～52000BTU outdoor unit No.

Name

Number

AL-(H)48A5/S2

AL-(H)52A5/S2

Material number

Material number

1

Small panel

1

60964302190

60964302190

2

Net for Big panel

2

60961706970

60961706970

3

Handle

3

60430100100

60430100100

4

Wind-fending vertical board

1

60964302210

60964302210

5

Pressure switch

1

60050100500

60050100500

6

Axial-flow wind leaves

2

60964302370

R60120102200

7

Outdoor Motor

2

60020200600

60020203300

8

Motor bracket assembly

1

63964302220

63965813610

9

Top cover board

1

60964302290

60964302290

10

Condenser assembly

1

63964600030

63964600030

11

Four-way valve (heater pump)

1

60030100500

60030100500

12

Net for condenser

1

/

63964302380

13

Compressor

1

63010108300

63010101900

14

Oil heat strap

1

60090100800

60090100800

15

Chassis assembly

1

63965303810

63965303810

16

Cover for electric motor

1

60964302410

60964302410

17

Valve-panel

1

60964302180

60964302180

18

Stop valve assembly 1

1

60300302700

60300302900

19

Stop valve assembly 2

1

60300302800

60300302800

20

Terminal board

1

60100200800

60100200800

21

Motor bracket

1

60964302360

60964302360

3 phase detector

1

60080600400

60080600400

22

AC contactor

1

60080105900

60080105900

23

Motor Capacitor

2

60080900400

60080900500

24

Flash chamber

1

60340200400

60340200400

71