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Haier AV26NMVERA [179/531] Condition fan speed high operation mode fan voltage 230v 50hz
![Haier AV26NMVERA [179/531] Condition fan speed high operation mode fan voltage 230v 50hz](/views2/1816541/page179/bgb3.png)
8. Air velocity and temperature distribution
m
Fig 1
top view
flow control panel horizal
lourer:center
Fig
3
top view
flow control panel horizontal
lourer:center
0.25
0.
5
1.
0
2.
0
Fig 4
top view
flow control panel vertical
lourer:center
Conditio
n
Fan speed:high
Operation mode:fan
Voltage:230V,50Hz
Fig
2
top view
flow control panel horizontal
lourer:right and left
10
9
87
65
43
2
1
1
1
2
2
0
m
0.25
0.
5
1.
0
2.
0
m
10
9
87
65
43
2
1
0
3
1.8
1
0.25
unit
m /s
m
0
1
2
3
4
5 6
0.
5
m
1.0
2.
0
3.0
1.
8
3
m
10987654321
0
m
3
2
0
1
2
1
2.0
1.
0
0.
5
0.2
5
1.
0
0.
5
0.2
5
unit m/s
unit m/s
unit m/s
m
179
Содержание
- Branch pipe 40 l7 l13 l14 13
- Height difference between 13
- Indoors 15 13
- L11 l12 l13 l14 l15 13
- Main pipe actual length 90 l5 13
- Max length pipe in above figure 13
- Max pipe length after 13
- Outdoors 5 13
- Single way max pipe length 150 l1 l2 l3 l5 l7 l14 l13 13
- Single way total pipe length 300 l1 l2 l3 l4 l5 l6 l7 l8 l9 l10 13
- Capability 16
- Hrs 9 hrs 16
- Operation sound db 16
- Peak in the outdoor temperature peak in the outdoor temperature peak in the outdoor temperature 16
- Internet or intranet or lan 20
- Internet server 20
- Lonworks 20
- Pc on client side install network side software 20
- Pc on field server installed network side software 20
- Pulse ammeter gateway igu01 20
- To power supply 39
- Power supply 1ph 220v 50hz 40
- Wiring diagram of indoor unit ab18 48 40
- A cooling air velocity distribution 45
- Ab092mcera ab122mcera ab162mcera 45
- Air velocity distribution 45
- B cooling temperature distribution 45
- Cooling blowy angle 40 45
- Temperature distribution 45
- C heating air velocity distribution 46
- D heating temperature distribution 46
- Heating blowy angle 70 46
- Heating blowy angle 70 air velocity distribution 46
- M s 1 m s 46
- Temperature distribution 46
- A cooling air velocity distribution 47
- Ab182meera ab242meera ab282meera ab302meera ab382meera ab482meera 47
- Air velocity distribution 47
- B cooling temperature distribution 47
- Cooling blowy angle 40 47
- M 2m 1m 1m 4m 3m 3m 4m 0m 47
- Temperature distribution 47
- Ature distribution 48
- C heating air velocity distribution 48
- D heating temperature distribution 48
- Heating blowy angle 70 48
- Heating blowy angle 70 air velocity distribution 48
- Bl r y g 68
- Power supply 1ph 220v 50hz 68
- Ad072mlera air flow and static pressure curves 73
- Ad092mlera air flow and static pressure curves 73
- Air flow m3 h 73
- Static pressure pa 73
- Ad122mlera air flow and static pressure curves 74
- Ad162mlera air flow and static pressure curves 74
- Air flow m3 h 74
- Static pressure pa 74
- 10 20 30 40 50 75
- 200 400 600 800 1000 1200 1400 1600 75
- Ad182mlera air flow and static pressure curves 75
- Ad242mlera air flow and static pressure curves 75
- Air flow m3 h 75
- Static pressure pa 75
- 1 3 2 1 90
- Eh eh eh 90
- Ph 220 230v 50hz 90
- To power supply 90
- Wired remote controller 90
- Y g r bl 90
- Y or b a 90
- Ad182mmera air flow and static pressure curves 94
- Ad242mmera air flow and static pressure curves 94
- Air flow m3 h 94
- Static pressure pa 94
- Ad282mmera air flow and static pressure curves 95
- Ad302mmera air flow and static pressure curves 95
- Air flow m3 h 95
- Static pressure pa 95
- Ad382mmera air flow and static pressure curves 96
- Ad482mmera air flow and static pressure curves 96
- Air flow m3 h 96
- Static pressure pa 96
- 1 3 3 1 2 114
- 2 3 2 1 1 114
- 3 4 1 2 3 4 1 114
- Bl y or gr gr 114
- J19 cn21 cn30 114
- Ph 220 230v 50hz 114
- Ad182mhera air flow and static pressure curves 118
- Ad242mhera air flow and static pressure curves 118
- Air flow m3 h 118
- Static pressure pa 118
- Ad282mhera air flow and static pressure curves 119
- Ad302mhera air flow and static pressure curves 119
- Air flow m3 h 119
- Static pressure pa 119
- Ad382mhera air flow and static pressure curves 120
- Ad482mhera air flow and static pressure curves 120
- Air flow m3 h 120
- Static pressure pa 120
- 1 2 cn26 138
- 2 3 1 2 3 138
- Are the sequence number 138
- Cn34 2 1 2 1 138
- G y cn14 cn16 1 2 1 2 1 2 1 2 138
- In accordance with the reality of the manufacture 138
- Is printed circuit board 138
- Is terminal block the words on it 138
- Led2 led1 138
- Led3led4 138
- The parts in the dashed frame are optional 138
- To o d unit wiring transmission 138
- To power supply 138
- Wired remote controller 138
- Wiring diagram of indoor unit 138
- A cooling air velocity distribution 142
- A on the floor 142
- B cooling temperature distribution 142
- C heating air velocity distribution 143
- D heating temperature distribution 143
- Heating blowy angle 5 143
- Heating blowy angle 5 air velocity distribution 143
- Temperature distribution 143
- A cooling air velocity distribution 144
- B ceiling 144
- B cooling temperature distribution 144
- Capaci ty w 100 177
- Cooling mode 177
- Indoor temp 177
- Outdoor temp 177
- Condition fan speed high operation mode fan voltage 230v 50hz 179
- Fig 1 top view flow control panel horizal lourer center 179
- Fig 2 top view flow control panel horizontal lourer right and left 179
- Fig 3 top view flow control panel horizontal lourer center 179
- Fig 4 top view flow control panel vertical lourer center 179
- 1 2 1 2 1 2 1 g cn16 y cn14 197
- 1 2 cn26 197
- 1 cn31 2 2 197
- Ambient temperature sensor 197
- And i d unit between rmote controller 197
- Are the sequence number 197
- At the time of installation or after service inspection repair 197
- Between i d and central controller 197
- Between i d and o d unit 197
- Between i d and o d unit malfunction of transmission 197
- Connect to 197
- Description 197
- Dip switch 8hp 3 the dashed parts are optional in accordance with the reality of manufacture 197
- Dip switch 8hp dip switch 8hp 197
- Dip switch function 197
- Disconnected 197
- Eeprom failure 197
- Electronic expansion valve 197
- Fan motor 197
- Gas pipe temperature 197
- I d and o d unit transmission lamp between 197
- Improper setting sw02 address duplication 0a 10 197
- Improper setting sw03 address duplication 197
- Indoor ambient temp 197
- Indoor gas pipe temp 197
- Indoor liquid pipe temp 197
- Indoor twin energy 197
- Is printed circuit board 197
- Is terminal block the words on it 197
- Liquid pipe temperature 197
- Make the local setting in accrodance with the following table 197
- Malfuction lamp for i d unit forced open lamp for indoor 197
- Malfunction contents 197
- Malfunction of drain level control system 197
- Malfunction of o d unit 197
- Malfunction of transmission 197
- Master slave wired remote controller and wireless remote setting 197
- Ph 220v 50hz 197
- Quiet operation 197
- Remote receiver null 197
- Room card 197
- Running capacitor 197
- Sensor 197
- Sensor ta failure 197
- Sensor tc1 failure 197
- Sensor tc2 failure 197
- Source sensor failure 197
- Sw08 6 197
- Swing motor 197
- Symbol 197
- Terminal block power terminal block control 197
- To o d unit 197
- To power supply 197
- Transformer 197
- Transmission address setting 197
- Transmission lamp between 197
- Transmission wiring 197
- Tw3 terminal block power 197
- Wired controller address and capacity setting of indoor unit 197
- Wired remote controller 197
- Wired remote controller and i d unit 197
- Capaci ty w 100 199
- Cooling mode 199
- Indoor temp 199
- Outdoor temp 199
- B c d e f 203
- Note the singnal wire and connection wire should be provided for oneself the singnal wire must be shielded wire 203
- Precaution 203
- Accessories 204
- Confirm accessories shown below are attached in the bag with this installation manual accessories delivered with your air conditioner please check if your unit is delivered with the following accessories 204
- Easily connected 204
- Indoor unit 204
- Install the indoor unit where its cold air and hot air can be easily sent to all the comers 204
- Install the indoor unit where the weight of the unit can be supported install the indoor unit where the heat source and steam source are not close and the unit inlet and outlet are not blocked 204
- Method for cutting and expanding pipes 204
- Mounting plate batteries remote controller 204
- Of the room install the indoor unit where the power socket is near and there is sufficient space around the indoor unit install the indoor unit where there is no t v set radio set and wireless appliance underneath and the sunlight lamp is over one meter away 204
- Removing burr 3 put on nut 4 expand hose 204
- Size mm a 204
- The signal while the sunlight lamp is on 204
- When the pipe is too long or the mouth is damaged the pipe needs to cut or expanded 1 cutting hose 204
- Carry out based on the neighboring pillars or lintels a proper leveling for the plate 205
- When the mounting plate is firstly fixed 205
- Caution 206
- Electric wiring 206
- How to connect wiring to the terminals 206
- Installation check 207
- A cooling air velocity distribution 217
- B cooling temperature distribution 217
- C heating air velocity distribution 218
- D heating temperature distribution 218
- Heating blowy angle 5 218
- Heating blowy angle 5 air velocity distribution 218
- Temperature distribution 218
- Ac contactor 254
- Concrete resistor 254
- Connecting board 254
- Dc motor 254
- Electrolytic capacitor 254
- Fan capacitor board 254
- Fan motor driving board 254
- Filter board 254
- Gate circuit board 254
- High pressure switch 254
- Inverter board 254
- Low pressure switch 254
- Outdoor power supply block 254
- Part in the dashed frame is optiona 254
- Phase rectifier 254
- Reactor 254
- Indoor unit 255
- Main switch 255
- Outdoor unit 255
- Warnings a do not take the other wire except for copper wire as the power cable b all indoor outdoor units must be connected with the earthing wire of power cable the earthing wire can not be connected onto the earthing wire of coal gas pipe water pipe lightning rod or telephone or the electric shock or fire will occur c must install the leakage breaker and the over current breaker or electric shock will occur d before finishing electric installation do not electrify the unit e indoor and outdoor use their individual power source all indoors use one power source f the communication wire and the power cable must be individual and can not use one multi core cable or the communication wire will be interfered to cause abnormal 255
- Indoor units indoor units 256
- Outdoor units outdoor units 256
- Warnings a do not take the other wire except for copper wire as the power cable b all indoor outdoor units must be connected with the earthing wire of power cable the earthing wire can not be connected onto the earthing wire of coal gas pipe water pipe lightning rod or telephone or the electric shock or fire will occur c must install the leakage breaker and the over current breaker or electric shock will occur d before finishing electric installation do not electrify the unit e indoor and outdoor use their individual power source all indoors use one power source f the communication wire and the power cable must be individual and can not use one multi core cable or the communication wire will be interfered to cause abnormal 256
- When the power source is supplied to each outdoor individually when the power source is supplied to outdoor in series 256
- Indoor units indoor units 257
- Outdoor units outdoor units 257
- Warnings a do not take the other wire except for copper wire as the power cable b all indoor outdoor units must be connected with the earthing wire of power cable the earthing wire can not be connected onto the earthing wire of coal gas pipe water pipe lightning rod or telephone or the electric shock or fire will occur c must install the leakage breaker and the over current breaker or electric shock will occur d before finishing electric installation do not electrify the unit e indoor and outdoor use their individual power source all indoors use one power source f the communication wire and the power cable must be individual and can not use one multi core cable or the communication wire will be interfered to cause abnormal 257
- When the power source is supplied to each outdoor individually when the power source is supplied to outdoor in series 257
- Av08nmvera cooling mode 258
- Capacity table 258
- Av08nmvera cooling mode 259
- Tc total capacity pi power input 259
- Av10nmvera cooling mode 260
- Av10nmvera cooling mode 261
- Tc total capacity pi power input 261
- Av12nmvera cooling mode 262
- Av12nmvera cooling mode 263
- Tc total capacity pi power input 263
- Av14nmvera cooling mode 264
- Av14nmvera cooling mode 265
- Av14nmvera cooling mode 266
- Tc total capacity pi power input 266
- Av16nmvera cooling mode 267
- Av16nmvera cooling mode 268
- Av16nmvera cooling mode 269
- Tc total capacity pi power input 269
- Av20nmvera cooling mode 272
- Av20nmvera cooling mode 273
- Tc total capacity pi power input 273
- Av26nmvera cooling mode 278
- Av26nmvera cooling mode 279
- Tc total capacity pi power input 279
- Av32nmvera cooling mode 284
- Av32nmvera cooling mode 285
- Tc total capacity pi power input 285
- Av36nmvera cooling mode 288
- Av36nmvera cooling mode 289
- Tc total capacity pi power input 289
- Av42nmvera cooling mode 294
- Av42nmvera cooling mode 295
- Tc total capacity pi power input 295
- Av48nmvera cooling mode 300
- Av48nmvera cooling mode 301
- Tc total capacity pi power input 301
- Av08nmvera heating mode 302
- Av08nmvera heating mode 303
- Av08nmvera heating mode 304
- Av08nmvera heating mode 305
- Tc total capacity pi power input 305
- Av10nmvera heating mode 306
- Av10nmvera heating mode 307
- Av10nmvera heating mode 308
- Av10nmvera heating mode 309
- Tc total capacity pi power input 309
- Av12nmvera heating mode 310
- Av12nmvera heating mode 311
- Av12nmvera heating mode 312
- Av12nmvera heating mode 313
- Tc total capacity pi power input 313
- Av14nmvera heating mode 314
- Av14nmvera heating mode 315
- Av14nmvera heating mode 316
- Av14nmvera heating mode 317
- Tc total capacity pi power input 317
- Av16nmvera heating mode 318
- Av16nmvera heating mode 319
- Av16nmvera heating mode 320
- Tc total capacity pi power input 320
- Av20nmvera heating mode 325
- Av20nmvera heating mode 326
- Av20nmvera heating mode 327
- Av20nmvera heating mode 328
- Tc total capacity pi power input 328
- Av26nmvera heating mode 337
- Av26nmvera heating mode 338
- Av26nmvera heating mode 339
- Av26nmvera heating mode 340
- Tc total capacity pi power input 340
- Av32nmvera heating mode 349
- Av32nmvera heating mode 350
- Av32nmvera heating mode 351
- Av32nmvera heating mode 352
- Tc total capacity pi power input 352
- Av36nmvera heating mode 357
- Av36nmvera heating mode 358
- Av36nmvera heating mode 359
- Av36nmvera heating mode 360
- Tc total capacity pi power input 360
- Av42nmvera heating mode 369
- Av42nmvera heating mode 370
- Av42nmvera heating mode 371
- Av42nmvera heating mode 372
- Tc total capacity pi power input 372
- Av48nmvera heating mode 381
- Av48nmvera heating mode 382
- Av48nmvera heating mode 383
- Av48nmvera heating mode 384
- Tc total capacity pi power input 384
- Capacity calculation due to capacity modification coefficient 385
- 160 140 120 100 80 60 40 20 0 0 0 386
- 20 40 60 80 100 120 140 160 180 386
- 2 calculation method of heating capacity heating capacity to be known heating capacity x a x b x c x d x e x f w 387
- 3 calculation method of refrigerating capacity only one indoor unit running 387
- Outdoor modified capacity heating or cooling capacity after modify item 1 and 2 387
- Standby indoor nominal capacity indoor total nominal capacity outdoor modified capacity with a single indoor running outdoor modified capacity 387
- A allowable pipe length and height difference 397
- B pipe length between outdoors 397
- M gas liquid pipe 397
- M l2 l 397
- M l5 l 397
- Note a hzg 30 a includes hzg 20 a b the connection pipe among outdoors can not be higher than the stop valve position c the connection pipe among outdoors should be horizontal or be in a certain angle as the below figure less than 15degree 397
- Oil equalization pipe height difference between outdoors 397
- Outdoor1 397
- Outdoor2 outdoo 397
- St gather pipe 397
- Branch pipe 40 l7 l13 l14 400
- C allowable pipe length and height difference 400
- Height difference between 400
- Indoors 15 400
- L11 l12 l13 l14 l15 400
- Main pipe actual length 90 l5 400
- Max length pipe in above figure 400
- Max pipe length after 400
- Outdoors 5 400
- Single way max pipe length 150 l1 l2 l3 l5 l7 l14 l13 400
- Single way total pipe length 300 l1 l2 l3 l4 l5 l6 l7 l8 l9 l10 400
- Id id id 408
- A b b a c d 410
- Ł 1 ł 2 ł 3 438
- Œ2 œ3 œ4 œ63 œ64 441
- Internet or intranet or lan 454
- Internet server 454
- Lonworks 454
- Pc on client side install network side software 454
- Pc on field server installed network side software 454
- Pulse ammeter gateway igu01 454
- Connect with computer 457
- Earth n l wire 457
- To server bus line 17 18 connect with server bus line lon 19 connect with shield layer 457
- Stop sw8 start 466
- Sw4 1 sw4 2 466
- Sw1 1 sw1 2 467
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