• For performance when each indoor unit is combined with other unit, refer to the separate table.
• The specifications may be subject to change without notice for purpose of improvement.
Indoor
Outdoor
Indoor
Total
Indoor
(Cooling/Heating)
Outdoor
(Cooling/Heating)
Unit model
Dimension
Net weight (kg) 10 10 10
Fan motor output
Air flow rate
Unit model
Dimension
Net weight
Compressor
Fan motor output
Air flow rate
TypeFlare connection
Indoor unit
Outdoor unit
Maximum length (per unit)
Maximum length (total)
Maximum chargeless length
Maximum height difference
Name of refrigerantR410ARefrigerant
Weight
Indoor unit
Outdoor unit
Unit model
Running current
Power consumption
Power factor
Operation mode
Running current
Power consumption
Power factor
Starting current
Unit model
High dB (A
Medium dB (A
Low dB (A
Unit model
Full indoor units operating dB (A
Height (mm
Width
Depth
(Cooling/Heating)
Height
Width
Depth
Motor output
TypeTwin rotary type with DC-inverter variable speed control
ModelDA220A2F-20L
Unit model
Liquid sideØ6.35Ø6.35Ø6.35
Gas sideØ9.52Ø9.52Ø12.7
Unit model
A unit liquid side/gas sideØ6.35/Ø12.7Ø6.35/Ø12.7
B unit liquid side/gas sideØ6.35/Ø9.52Ø6.35/Ø9.52
C unit liquid side/gas sideØ6.35/Ø9.52Ø6.35/Ø9.52
D unit liquid side/gas sideØ6.35/Ø9.52—
Power supply3 wires : includes earthWiring connection
Interconnection4 wires : i ncludes earth
Indoor
Outdoor
Installation plate1
Wireless remote controller1
Label2
Remote controller holder1
Pan head wood screw2 (Ø3.1 x 16L)
Purifying filter1
Deodorizing filter 1
Battery2
Mounting screw6 (Ø4 x 25L)
Installation manual1
Installation manual1
Owner's manual1
Cooling capacity(kW)8.0
Cooling capacity range(kW)1.4 – 9.2
Power supply220/230/240V, 1Ph, 50/60Hz
Electric
characteristics
C.O.P.3.20
Operating
noise
Indoor unit
Outdoor unit
Piping
connection
Accessory
• For performance when each indoor unit is combined with other unit, refer to the separate table.
• The specifications may be subject to change without notice for purpose of improvement.
Indoor
Outdoor
Indoor
Total
Indoor
Outdoor
Unit model
Dimension
Net weight (kg) 10 10 10
Fan motor output(W) 19 19 19
Air flow rate(m³/h)470520600
Unit model
Dimension
Net weight(kg) 63
Compressor
Fan motor output( W)60
Air flow rate(m³/h)High : 3000, Medium : 2800
TypeFlare connection
Indoor unit
Outdoor unit
Maximum length (per unit)(m)25
Maximum length (total)(m)70
Maximum chargeless length(m)70
Maximum height difference(m)15
Name of refrigerantR410ARefrigerant
Weight(kg)2.2
Indoor unit
Outdoor unit
Unit model
Running current(A)0.150.150.15
Power consumption(W)303030
Power factor(%)91/87/8391/87/8391/87/83
Running current(A)11.60/11.09/10.63
Power consumption(W)2500
Power factor(%)98
Starting current(A)11.60/11.09/10.63
Unit model
HighdB (A)363942
Medium dB (A) 33 35 39
L ow B (A)282833
Unit model
4 indoor units operating dB (A)48
Motor output(W)2000
TypeTwin rotary type with DC-inverter variable spee d co ntr ol
ModelDA220A2F-20L
Unit model
Liquid sideØ6.35Ø6.35Ø6.35
Gas sideØ9.52Ø9.52Ø12.7
Unit model
A unit liquid side/gas sideØ6.35/Ø12.7
B unit liquid side/gas sideØ6.35/Ø9.52
C unit liquid side/gas sideØ6.35/Ø9.52
D unit liquid side/gas sideØ6.35/Ø9.52
Power supply3 wires : includes earthWiring connection
Interconnection4 wires : includes earth
Indoor(°C)21 – 32Usable temperature range
Outdoor(°C)10 – 43
Installation plate1
Wireless remote controller1
Label2
Remote controller holder1
Pan head wood screw2 (Ø3.1 x 16L)
Purifying filter1
Deodorizing filter1
Battery2
Mounting screw6 (Ø4 x 25L)
Installation manual1
Installation manual1
Owner's manual1
RAS-M10UKCV-E3, RAS-M13UKCV-E3, RAS-M16UKCV-E3
RAS-4M27YACV-E
RAS-M10UKCV-E3 RAS-M13UKCV-E3 RAS-M16UKCV-E3
RAS-M10UKCV-E3 RAS-M13UKCV-E3 RAS-M16UKCV-E3
RAS-4M27YACV-E
RAS-M10UKCV-E3 RAS-M13UKCV-E3 RAS-M16UKCV-E3
RAS-4M27YACV-E
RAS-M10UKCV-E3 RAS-M13UKCV-E3 RAS-M16UKCV-E3
RAS-4M27YACV-E
– 4 –
1-2. Specifications of Performance When Each Indoor Unit is Combined with other Unit
pply
p
g
p
Outdoor Unit : RAS-4M27YAV-E
<Cooling/220V>
Power
su
(V)
2201 unit10–––2.7–––
eratin
O
status
2 units1010––2.702.70––
3 units101010–2.532.532.53–
4 units101010101.981. 981.981.98
Indoor unitUnit capacity (kW)
ABCD A B C D
13–––3.7–––
16–––4.5–––
1310––3.412.49––
1610––3.942.36––
1313––3.153.15––
1613––3.733.07––
1616––3.603.60––
131010–3.132.282.28–
161010–3.502.102.10–
131310–2.822.822.06–
161310–3.222.651.93–
131313–2.602.602.60–
161610–3.043.041.82–
161313–2.992.462.46–
161613–2.802.802.30–
161616–2.672.672.67–
131010102.481.811.811.81
161010102.861.711.711.71
131310102.312.311.691.69
161310102.652.181.591.59
131313102.142.142.141.57
161313102.472.032.031.48
131313132.002.002.002.00
161610102.502.501.501.50
Cooling
capacity
(kW)
2.7
(1.4 to 3.2)
3.7
(1.4 to 4.4)
4.5
(1.4 to 5.0)
5.4
(2.5 to 6.3)
5.9
(2.7 to 6.6)
6.3
(2.9 to 6.9)
6.3
(2.9 to 6.9)
6.8
(3.0 to 7.2)
7.2
(3.2 to 7.5)
7.6
(3.8 to 8.2)
7.7
(3.9 to 8.3)
7.7
(4.0 to 8.5)
7.7
(4.0 to 8.5)
7.8
(4.1 to 8.6)
7.8
(4.1 to 8.6)
7.9
(4.1 to 8.7)
7.9
(4.1 to 8.7)
7.9
(4.2 to 8.9)
8.0
(4.3 to 9.0)
7.9
(4.0 to 8.7)
7.9
(4.1 to 8.8)
8.0
(4.1 to 9.0)
8.0
(4.1 to 9.0)
8.0
(4.2 to 9.1)
8.0
(4.2 to 9.1)
8.0
(4.2 to 9.2)
8.0
(4.2 to 9.2)
8.0
(4.2 to 9.2)
Power
consum
(640 to 1520)
(640 to 2000)
(640 to 2040)
(660 to 2220)
(670 to 2400)
(670 to 2400)
(690 to 2570)
(700 to 2750)
(950 to 2720)
(960 to 2740)
(960 to 2790)
(960 to 2790)
(970 to 2810)
(970 to 2810)
(970 to 2830)
(970 to 2830)
(970 to 2880)
(980 to 2900)
(930 to 2800)
(940 to 2820)
(940 to 2860)
(940 to 2860)
(950 to 2880)
(950 to 2880)
(950 to 2900)
(950 to 2900)
(950 to 2900)
tion
(W)
750
(640 to 950)
1200
1650
1530
1810
2040
2040
2320
2550
2400
2410
2410
2410
2430
2430
2440
2440
2440
2450
2450
2450
2500
2500
2500
2500
2500
2500
2500
Operating
current
(A)
3.87
(3.68 to 4.64)
5.74
(3.68 to 7.20)
7.81
(3.68 to 9.28)
7.10
(3.64 to 9.46)
8.40
(3.75 to 10.30)
9.46
(3.81 to 11.13)
9.46
(3.81 to 11.13)
10.76
(3.92 to 11.92)
11.83
(3.98 to 12.76)
11.13
(4.80 to 12.62)
11.18
(4.85 to 12.71)
11.18
(4.85 to 12.94)
11.18
(4.85 to 12.94)
11.27
(4.90 to 13.03)
11.27
(4.90 to 13.03)
11.32
(4.90 to 13.13)
11.32
(4.90 to 13.13)
11.32
(4.90 to 13.36)
11.36
(4.95 to 13.45)
11.36
(4.70 to 12.99)
11.36
(4.75 to 13.08)
11.60
(4.75 to 13.27)
11.60
(4.75 to 13.27)
11.60
(4.80 to 13.36)
11.60
(4.80 to 13.36)
11.60
(4.80 to 13.45)
11.60
(4.80 to 13.45)
11.60
(4.80 to 13.45)
Outdoor
noise
(dB)
48
48
48
48
48
48
48
48
48
48
48
48
48
48
48
48
48
48
48
48
48
48
48
48
48
48
48
48
• The above specification values are those under the conditions that the indoor DB/WB=27/19°C and the outdoor DB/
WB=35/–°C.
Indoor: DB27˚C/WB19˚C
Outdoor: DB35˚C
Air flow: High
12
Pipe length: 5m x 4
4 units operating
10
8
6
Current (A)
4
2
0
0
1020304050607080
Inverter output frequency (rps)
220V
240V
230V
14
• Conditions
Indoor: DB20˚C
12
Outdoor: DB7˚C / WB6˚C
Air flow: High
10
Pipe length: 5m x 4
4 units operating
8
6
Current (A)
4
2
0
101002030405060708090
0
Inverter output frequency (rps)
1-2-2. Capacity Variation Ratio According to Outdoor Temperature
110
100
90
Current limited start
110
• Conditions
Indoor: DB20˚C
100
Air flow: High
Pipe length: 5m x 4
4 units operating
90
220V
240V
230V
80
70
• Conditions
Indoor: DB27˚C/WB19˚C
Indoor air flow : High
60
Cooling capacity ratio (%)
Pipe length: 5m x 4
4 units operating
50
33 34 35 36 37 38 39 40 41 4243 44
32
Outdoor temp. (˚C)
80
70
60
Heating capacity ratio (%)
50
10
-
1-2-3. Capacity Variation Ratio According to Pipe Length
110
105
100
95
• Conditions
90
Indoor: DB27˚C/WB19˚C
Outdoor: DB35˚C
85
Indoor air flow: High
Coolimg capacity ratio (%)
4 units operating
80
0
Standard pipe length 20m
1020304050607080
Total pipe length (m)
110
105
100
95
90
Heating capacity ratio (%)
85
80
0
-9-8-7-6-5-4-3-2-1012345678910
Outdoor temp. (˚C)
Standard pipe length 20m
• Conditions
Indoor: DB20˚C
Outdoor: DB7˚C/WB6˚C
Indoor air flow: High
4 units operating
1020304050607080
Total pipe length (m)
– 20 –
1-3. Electrical Data
Outdoor Unit : RAS-4M27YAV-E
<Cooling>
Combination of
indoor unit operation
Hz
Vol ts-
Ph.
SystemCompressorFan motor FLA
Voltage rangePower supply
Min.Max.MCAICF
MOCP
(Amps)
MSCRLAIndoorOutdoor
1 unit
2 units
3 units
10–––4.484.4820 3.063.060.15 x 1 = 0.150.5
13–––6.706.70204.844.840.15 x 1 = 0.150.5
16–––9.189.18206.826.820.15 x 1 = 0.150.5
10 10––8.298.29205.995.990.15 x 2 = 0.300.5
13 10––9.849.84207.237.230.15 x 2 = 0.300.5
16 10––11.1111.11208.258.250.15 x 2 = 0.300.5
13 13––11.1111.11208.258.250.15 x 2 = 0.300.5
16 13––12.6612.66209.499.490.15 x 2 = 0.300.5
16 16––13.9413.942010.5110.510.15 x 2 = 0.300.5
10 1010–13.0813.08209.709.700.15 x 3 = 0.450.5
13 1010–13.1313.13209.749.740.15 x 3 = 0.450.5
16 1010–13.1313.13209.749.740.15 x 3 = 0.450.5
13 1310–13.1313.13209.749.740.15 x 3 = 0.450.5
16 1310–13.2413.24209.839.830.15 x 3 = 0.450.5
50 or 60 230–1198 264
13 1313–13.2413.24209.839.830.15 x 3 = 0.450.5
16 1610–13.3013.30209.889.880.15 x 3 = 0.450.5
16 1313–13.3013.30209.889.880.15 x 3 = 0.450.5
16 1613–13.3013.30209.889.880.15 x 3 = 0.450.5
16 1616–13.3513.35209.929.920.15 x 3 = 0.450.5
4 units
10 1010 1013.3113.31209.779.770.15 x 4 = 0.600.5
13 1010 1013.3113.31209.779.770.15 x 4 = 0.600.5
16 1010 1013.5913.59209.999.990.15 x 4 = 0.600.5
13 1310 1013.5913.59209.999.990.15 x 4 = 0.600.5
16 1310 1013.5913.59209.999.990.15 x 4 = 0.600.5
13 1313 1013.5913.59209.999.990.15 x 4 = 0.600.5
16 1313 1013.5913.59209.999.990.15 x 4 = 0.600.5
13 1313 1313.5913.59209.999.990.15 x 4 = 0.600.5
16 1610 10
13.5913.59209.999.990.15 x 4 = 0.600.5
NOTE :
Model of Indoor unit 10 : RAS-M10UKV-E3, 13 : RAS-M13UKV-E3, 16 : RAS-M16UKV-E3
MCA : Minimum Circuit Amps.
ICF: Maximum Instantaneous Current Flow (Equivalent to MCA in case of inverter air conditioner)
MOCP: Maximum Overcurrent Protection (Fuse only)
MSC : Maximum Starting Current
FLA: Full Load Amps.
RLA: Rated Load Amps. RLA under conditions on the right.
Indoor temp.(°C)2719
Outdoor temp. (°C)3 5—
DBWB
– 21 –
Outdoor Unit : RAS-4M27YAV-E
<Heating>
Combination of
indoor unit operation
Hz
Vol ts-
Ph.
SystemCompressorFan motor FLA
Voltage rangePower supply
Min.Max.MCAICF
MOCP
(Amps)
MSCRLAIndoorOutdoor
1 unit
2 units
3 units
10–––7.887.88205.785.780. 15 x 1 = 0.150.5
13–––11.2011.20208.448.440.15 x 1 = 0.150.5
16–––13.1513.152010.0010.000.15 x 1 = 0.150.5
10 10––11.4511.45208.528.520.15 x 2 = 0.300.5
13 10––12.6612.66209.499.490.15 x 2 = 0.300.5
16 10––13.5513.552010.2010.200.15 x 2 = 0.300.5
13 13––13.5513.552010.2010.200.15 x 2 = 0.300.5
16 13––14.7814.782011.1811.180.15 x 2 = 0.300.5
16 16––15.6615.662011.8911.890.15 x 2 = 0.300.5
10 1010–12.5112.51209.259.250.15 x 3 = 0.450.5
13 1010–12.8012.80209.489.480.15 x 3 = 0.450.5
16 1010–12.8012.80209.489.480.15 x 3 = 0.450.5
13 1310–12.8012.80209.489.480.15 x 3 = 0.450.5
16 1310–13.0813.08209.709.700.15 x 3 = 0.450.5
50 or 60 230–1198 264
13 1313–13.0813.08209.709.700.15 x 3 = 0.450.5
16 1610–13.3513.35209.929.920.15 x 3 = 0.450.5
16 1313–13.3513.35209.929.920.15 x 3 = 0.450.5
16 1613–13.3513.35209.929.920.15 x 3 = 0.450.5
16 1616–13.6313.632010.1410.140.15 x 3 = 0.450.5
4 units
10 1010 1011.3811.38208.228.220.15 x 4 = 0.600.5
13 1010 1011.3811.38208.228.220.15 x 4 = 0.600.5
16 1010 1012.2012.20208.888.880.15 x 4 = 0.600.5
13 1310 1012.2012.20208.888.880.15 x 4 = 0.600.5
16 1310 1012.2012.20208.888.880.15 x 4 = 0.600.5
13 1313 1012.2012.20208.888.880.15 x 4 = 0.600.5
16 1313 1012.2012.20208.888.880.15 x 4 = 0.600.5
13 1313 1312.2012.20208.888.880.15 x 4 = 0.600.5
16 1610 10
12.2012.20208.888.880.15 x 4 = 0.600.5
NOTE :
Model of Indoor unit 10 : RAS-M10UKV-E3, 13 : RAS-M13UKV-E3, 16 : RAS-M16UKV-E3
MCA : Minimum Circuit Amps.
ICF: Maximum Instantaneous Current Flow (Equivalent to MCA in case of inverter air conditioner)
MOCP: Maximum Overcurrent Protection (Fuse only)
MSC : Maximum Starting Current
FLA: Full Load Amps.
RLA: Rated Load Amps. RLA under conditions on the right.
Indoor temp.(°C)20—
Outdoor temp. (°C) 76
DBWB
– 22 –
Outdoor Unit : RAS-4M27YACV-E
<Cooling>
Combination of
indoor unit operation
Hz
Vol ts-
Ph.
SystemCompressorFan motor FLA
Voltage rangePower supply
Min.Max.MCAICF
MOCP
(Amps)
MSCRLAIndoorOutdoor
1 unit
2 units
3 units
10–––4.484.4820 3.063.060.15 x 1 = 0.150.5
13–––6.706.70204.844.840.15 x 1 = 0.150.5
16–––9.189.18206.826.820.15 x 1 = 0.150.5
10 10––8.298.29205.995.990.15 x 2 = 0.300.5
13 10––9.849.84207.237.230.15 x 2 = 0.300.5
16 10––11.1111.11208.258.250.15 x 2 = 0.300.5
13 13––11.1111.11208.258.250.15 x 2 = 0.300.5
16 13––12.6612.66209.499.490.15 x 2 = 0.300.5
16 16––13.9413.942010.5110.510.15 x 2 = 0.300.5
10 1010–13.0813.08209.709.700.15 x 3 = 0.450.5
13 1010–13.1313.13209.749.740.15 x 3 = 0.450.5
16 1010–13.1313.13209.749.740.15 x 3 = 0.450.5
13 1310–13.1313.13209.749.740.15 x 3 = 0.450.5
16 1310–13.2413.24209.839.830.15 x 3 = 0.450.5
50 or 60 230–1198 264
13 1313–13.2413.24209.839.830.15 x 3 = 0.450.5
16 1610–13.3013.30209.889.880.15 x 3 = 0.450.5
16 1313–13.3013.30209.889.880.15 x 3 = 0.450.5
16 1613–13.3013.30209.889.880.15 x 3 = 0.450.5
16 1616–13.3513.35209.929.920.15 x 3 = 0.450.5
4 units
10 1010 1013.3113.31209.779.770.15 x 4 = 0.600.5
13 1010 1013.3113.31209.779.770.15 x 4 = 0.600.5
16 1010 1013.5913.59209.999.990.15 x 4 = 0.600.5
13 1310 1013.5913.59209.999.990.15 x 4 = 0.600.5
16 1310 1013.5913.59209.999.990.15 x 4 = 0.600.5
13 1313 1013.5913.59209.999.990.15 x 4 = 0.600.5
16 1313 1013.5913.59209.999.990.15 x 4 = 0.600.5
13 1313 1313.5913.59209.999.990.15 x 4 = 0.600.5
16 1610 10
13.5913.59209.999.990.15 x 4 = 0.600.5
NOTE :
Model of Indoor unit 10 : RAS-M10UKCV-E3, 13 : RAS-M13UKCV-E3, 16 : RAS-M16UKCV-E3
MCA : Minimum Circuit Amps.
ICF: Maximum Instantaneous Current Flow (Equivalent to MCA in case of inverter air conditioner)
MOCP: Maximum Overcurrent Protection (Fuse only)
MSC : Maximum Starting Current
FLA: Full Load Amps.
RLA: Rated Load Amps. RLA under conditions on the right.
Indoor temp.(°C)2719
Outdoor temp. (°C)3 5—
DBWB
– 23 –
Outdoor Unit : RAS-3M26YAV-E
<Cooling>
Combination of
indoor unit operation
Hz
Vol ts-
Ph.
SystemCompressorFan motor FLA
Voltage rangePower supply
Min.Max.MCAICF
MOCP
(Amps)
MSCRLAIndoorOutdoor
1 unit
2 units
3 units
10––4.484.4820 3.06 3.060.15 x 1 = 0.150. 5
13––6.706.70204.844.840.15 x 1 = 0.150.5
16––9.189.18206.826.820.15 x 1 = 0.150.5
1010–8.298.29205.995.990.15 x 2 = 0.300.5
1310–9.849.84207.237.230.15 x 2 = 0.300.5
1610–11.1111.11208.258.250.15 x 2 = 0.300. 5
1313–11.1111.11208.258.250.15 x 2 = 0.300. 5
1613–12.6612.66209.499.490.15 x 2 = 0.300.5
1616–13.9413.942010.5110.510.15 x 2 = 0.300.5
10101012.1312.13208.948.940.15 x 3 = 0.450.5
13101012.1312.13208.948.940.15 x 3 = 0.450.5
16101012.1312.13208.948.940.15 x 3 = 0.450.5
13131012.1312.13208.948.940.15 x 3 = 0.450.5
16131012.2412.24209.039.030.15 x 3 = 0.450.5
13131312.2412.24209.039.030.15 x 3 = 0.450.5
16161012.2412.24209.039.030.15 x 3 = 0.450.5
16131312.2412.24209.039.030.15 x 3 = 0.450.5
161613
50 or 60 230–1198 264
12.2412.24209.039.030.15 x 3 = 0.450.5
NOTE :
Model of Indoor unit 10 : RAS-M10UKV-E3, 13 : RAS-M13UKV-E3, 16 : RAS-M16UKV-E3
MCA : Minimum Circuit Amps.
ICF: Maximum Instantaneous Current Flow (Equivalent to MCA in case of inverter air conditioner)
MOCP: Maximum Overcurrent Protection (Fuse only)
MSC : Maximum Starting Current
FLA: Full Load Amps.
RLA: Rated Load Amps. RLA under conditions on the right.
Indoor temp.(°C)2719
Outdoor temp. (°C)35—
DBWB
– 24 –
Outdoor Unit : RAS-3M26YAV-E
<Heating>
Combination of
indoor unit operation
Hz
Vol ts-
Ph.
SystemCompressorFan motor FLA
Voltage rangePower supply
Min.Max.MCAICF
MOCP
(Amps)
MSCRLAIndoorOutdoor
1 unit
2 units
3 units
10––8.158.15206.006.000.15 x 1 = 0.150.5
13––11.2011.20208.448.440.15 x 1 = 0.150.5
16––13.1513.152010.0010.000.15 x 1 = 0.150.5
1010–11.1611.16208.298.290.15 x 2 = 0.300.5
1310–12.2312.23209.149.140.15 x 2 = 0.300.5
1610–13.0013.00209.769.760.15 x 2 = 0.300.5
1313–13.0013.00209.769.760.15 x 2 = 0.300.5
1613–14.0014.002010.5610.560.15 x 2 = 0.300.5
1616–14.7814.782011.1811.180.15 x 2 = 0.300.5
10101012.5112.51209.259.250.15 x 3 = 0.450.5
13101012.8512.85209.529.520.15 x 3 = 0.450.5
16101013.2413.24209.839.830.15 x 3 = 0.450.5
13131013.2413.24209.839.830.15 x 3 = 0.450.5
16131013.2413.24209.839.830.15 x 3 = 0.450.5
13131313.2413.24209.839.830.15 x 3 = 0.450.5
16161013.5813.582010.1010.100.15 x 3 = 0.450.5
16131313.5813.582010.1010.100.15 x 3 = 0.450.5
161613
50 or 60 230–1198264
13.9013.902010.3610.360.15 x 3 = 0.450.5
NOTE :
Model of Indoor unit 10 : RAS-M10UKV-E3, 13 : RAS-M13UKV-E3, 16 : RAS-M16UKV-E3
MCA : Minimum Circuit Amps.
ICF: Maximum Instantaneous Current Flow (Equivalent to MCA in case of inverter air conditioner)
MOCP: Maximum Overcurrent Protection (Fuse only)
MSC : Maximum Starting Current
FLA: Full Load Amps.
RLA: Rated Load Amps. RLA under conditions on the r ight.
Indoor temp.(°C)20—
Outdoor temp. (°C) 76
DBWB
– 25 –
2. REFRIGERANT R410A
This air conditioner adopts the new refrigerant HFC
(R410A) which does not damage the ozone layer.
The working pressure of the new refrigerant R410A
is 1.6 times higher than conventional refrigerant
(R22). The refrigerating oil is also changed in
accordance with change of refrigerant, so be careful
that water, dust, and existing refrigerant or refrigerating oil are not entered in the refrigerant cycle of the
air conditioner using the new refrigerant during
installation work or servicing time.
The next section describes the precautions for air
conditioner using the new refrigerant. Conforming to
contents of the next section together with the
general cautions included in this manual, perform
the correct and safe work.
2-1. Safety During Installation/Servicing
As R410A’s pressure is about 1.6 times higher than
that of R22, improper installation/servicing may
cause a serious trouble. By using tools and materials exclusiv e for R410A, it is necessary to carry out
installation/servicing safely while taking the following
precautions into consideration.
(1) Never use refrigerant other than R410A in an air
conditioner which is designed to operate with
R410A.
If other refrigerant than R410A is mixed, pressure in the refrigeration cycle becomes abnormally high, and it may cause personal injury, etc.
by a rupture.
(2) Confirm the used refrigerant name, and use
tools and materials exclusiv e for the refrigerant
R410A.
The refrigerant name R410A is indicated on the
visible place of the outdoor unit of the air conditioner using R410A as refrigerant. To prevent
mischarging, the diameter of the service port
differs from that of R22.
(3) If a refrigeration gas leakage occurs during
installation/servicing, be sure to ventilate fully.
If the refrigerant gas comes into contact with fire,
a poisonous gas may occur.
(4) When installing or removing an air conditioner,
do not allow air or moisture to remain in the
refrigeration cycle. Otherwise, pressure in the
refrigeration cycle may become abnormally high
so that a rupture or personal injury may be
caused.
(5) After completion of installation work, check to
make sure that there is no refrigeration gas
leakage.
If the refrigerant gas leaks into the room, coming
into contact with fire in the fan-driven heater,
space heater, etc., a poisonous gas may occur.
(6) When an air conditioning system charged with a
large volume of refrigerant is installed in a small
room, it is necessary to exercise care so that,
even when refrigerant leaks , its concentration
does not exceed the marginal level.
If the refrigerant gas leakage occurs and its
concentration exceeds the marginal level, an
oxygen starvation accident may result.
(7) Be sure to carry out installation or removal
according to the installation manual.
Improper installation may cause refrigeration
trouble, water leakage, electric shock, fire, etc.
(8) Unauthorized modifications to the air conditioner
may be dangerous. If a breakdown occurs
please call a qualified air conditioner technician
or electrician.
Improper repair’s may result in water leakage,
electric shock and fire, etc.
2-2. Refrigerant Piping Installation
2-2-1. Piping Materials and Joints Used
For the refrigerant piping installation, copper pipes
and joints are mainly used. Copper pipes and joints
suitable for the refrigerant must be chosen and
installed. Furthermore, it is necessary to use clean
copper pipes and joints whose interior surfaces are
less affected by contaminants.
(1) Copper Pipes
It is necessary to use seamless copper pipes
which are made of either copper or copper alloy
and it is desirable that the amount of residual oil
is less than 40 mg/10 m. Do not use copper
pipes having a collapsed, deformed or discolored portion (especially on the interior surface).
Otherwise, the expansion v alve or capillary tube
may become blocked with contaminants.
As an air conditioner using R410A incurs
pressure higher than when using R22, it is
necessary to choose adequate materials.
Thicknesses of copper pipes used with R410A
are as shown in Table 2-2-1. Never use copper
pipes thinner than 0.8 mm even when it is
available on the market.
– 26 –
Table 2-2-1 Thicknesses of annealed copper pipes
Thickness (mm)
Nominal diameterOuter diameter (mm)
1/4 6.35
3/8 9.52
1/212.70
(2) Joints
For copper pipes, flare joints or socket joints are
used. Prior to use, be sure to remove all contaminants.
a) Flare Joints
Flare joints used to connect the copper pipes
cannot be used for pipings whose outer
diameter exceeds 20 mm. In such a case,
socket joints can be used.
Sizes of flare pipe ends, flare joint ends and
flare nuts are as shown in Tables 2-2-3 to 22-6 below .
R410AR22
0.800.80
0.800.80
0.800.80
b) Socket Joints
Socket joints are such that they are brazed
for connections, and used mainly f or thick
pipings whose diameter is larger than 20 mm.
Thicknesses of socket joints are as shown in
Table 2-2-2.
Table 2-2-2 Minimum thicknesses of socket joints
Nominal diameter
1/4
3/8
1/2
Reference outer diameter of
copper pipe jointed (mm)
2-2-2. Processing of Piping Materials
When performing the refrigerant piping installation,
care should be taken to ensure that water or dust
does not enter the pipe interior, that no other oil
other than lubricating oils used in the installed air
conditioner is used, and that refrigerant does not
leak. When using lubricating oils in the piping
processing, use such lubricating oils whose water
content has been removed. When stored, be sure to
seal the container with an airtight cap or any other
cover.
Minimum joint thickness (mm)
6.35
9.52
12.70
(1) Flare Processing Procedures and Precautions
a) Cutting the Pipe
By means of a pipe cutter, slowly cut the pipe
so that it is not deformed.
b) Removing Burrs and Chips
If the flared section has chips or burrs,
refrigerant leakage may occur. Carefully
remove all b urrs and clean the cut surface
before installation.
0.50
0.60
0.70
– 27 –
c) Insertion of Flare Nut
d) Flare Processing
Make certain that a clamp bar and copper
pipe have been cleaned.
By means of the clamp bar, perform the flare
processing correctly.
Use either a flare tool for R410A or conventional flare tool.
Table 2-2-3 Dimensions related to flare processing for R410A
Flare processing dimensions differ according
to the type of flare tool. When using a conventional flare tool, be sure to secure “dimen-
sion A” by using a gauge f or size adjust-
ment.
ØD
A
Fig. 2-2-1 Flare processing dimensions
Nominal
diameter
1/4
3/8
1/2
Nominal
diameter
1/4
3/8
1/2
Outer
diameter
(mm)
6.35
9.52
12.70
Thickness
(mm)
0.8
0.8
0.8
Flare tool for
R410A clutch type
0 to 0.51.0 to 1.51.5 to 2.0
0 to 0.51.0 to 1.51.5 to 2.0
0 to 0.51.0 to1.52.0 to 2.5
Table 2-2-4 Dimensions related to flare processing for R22
Outer
diameter
(mm)
6.35
9.52
12.70
Thickness
(mm)
0.8
0.8
0.8
Flare tool for
R22 clutch type
0 to 0.50.5 to 1.01.0 to 1.5
0 to 0.50.5 to 1.01.0 to 1.5
0 to 0.50.5 to1.01.5 to 2.0
A (mm)
Conventional flare tool
Clutch typeWing nut type
A (mm)
Conventional flare tool
Clutch typeWing nut type
Nominal
diameter
1/4
3/8
1/2
Table 2-2-5 Flare and flare nut dimensions for R410A
Outer diameter
(mm)
6.35
9.52
12.70
Thickness
(mm)
0.8
0.8
0.8
Dimension (mm)
ABCD
9.1 9.2 6.513
13.213.5 9.720
16.616.012.923
– 28 –
Flare nut
width
(mm)
17
22
26
Table 2-2-6 Flare and flare nut dimensions for R22
Nominal
diameter
1/4
3/8
1/2
Outer diameter
(mm)
6.35
9.52
12.70
Thickness
(mm)
0.8
0.8
0.8
45˚ to 46˚
Dimension (mm)
ABCD
9.0 9.2 6.513
13.013.5 9.720
16.216.012.920
BA
43˚ to 45˚
C
Flare nut
width
(mm)
17
22
24
D
Fig. 2-2-2 Relations between flare nut and flare seal surface
(2) Flare Connecting Procedures and Precautions
a) Make sure that the flare and union portions
do not have any scar or dust, etc.
b) Correctly align the processed flare surface
with the union axis.
c) Tighten the flare with designated torque by
means of a torque wrench. The tightening
torque for R410A is the same as that for
conventional R22. Incidentally, when the
torque is weak, the gas leakage may occur.
Table 2-2-7 Tightening torque of flare for R410A [Reference values]
Nominal
diameter
Outer diameter
(mm)
Note :
When applying oil to the flare surface, be sure to use
oil designated by the manufacturer. If any other oil is
used, the lubricating oils may deteriorate and cause
the compressor to burn out.
Tightening torque
N•m (kgf•cm)
When it is strong, the flare nut may crack and
may be made non-removable. When choosing the tightening torque, comply with values
designated by manufacturers. Tab le 2-2-7
shows reference v alues.
Tightening torque of torque
wrenches available on the market
N•m (kgf•cm)
1/4
3/8
1/2
6.35
9.52
12.70
14 to 18 (140 to 180)
33 to 42 (330 to 420)
50 to 62 (500 to 620)
– 29 –
16 (160), 18 (180)
42 (420)
55 (550)
2-3. Tools
2-3-1. Required Tools
The service port diameter of packed valve of the outdoor unit in the air conditioner using R410A is changed to
prevent mixing of other refrigerant. To reinforce the pressure-resisting strength, flare processing dimensions and
opposite side dimension of flare nut (For Ø12.7 copper pipe) of the refrigerant piping are lengthened.
The used refrigerating oil is changed, and mixing of oil may cause a trouble such as gener ation of sludge,
clogging of capillary, etc. Accordingly, the tools to be used are classified into the following three types.
(1) Tools exclusive for R410A (Those which cannot be used for conventional refrigerant (R22))
(2) Tools exclusive for R410A, but can be also used for conventional refrigerant (R22)
(3) Tools commonly used for R410A and for conventional refrigerant (R22)
The table below shows the tools exclusive for R410A and their interchangeability.
Tools exclusive for R410A (The following tools for R410A are required.)
Tools whose specifications are changed for R410A and their interchangeability