Toshiba MMU-AP0091H, MMC-AP0151H, MMD-AP0961H, MMU-AP0121H, MMU-AP0151H INSTALLATION MANUAL

...
DESIGN MANUAL
Heat Recovery Type (2 Series)
FILE NO. A04-017
R410A
Indoor Unit
<4-way Air Discharge Cassette Type>
<2-way Air Discharge Cassette Type>
MMU-AP0071WH, AP0091WH, AP0121WH, MMU-AP0151WH, AP0181WH, AP0241WH, MMU-AP0271WH, AP0301WH, AP0481WH*
* CHINA market only
<1-way Air Discharge Cassette Type>
MMU-AP0071YH, AP0091YH, AP0121YH, MMU-AP0151SH, AP0181SH, AP0241SH
<Concealed Duct Standard Type>
MMD-AP0071BH, AP0091BH, AP0121BH, MMD-AP0151BH, AP0181BH, AP0241BH, MMD-AP0271BH, AP0301BH, AP0361BH, MMD-AP0481BH, AP0561BH
<Concealed Duct High Static Pressure Type>
MMD-AP0181H, AP0241H, AP0271H, MMD-AP0361H, AP0481H, AP0721H, MMD-AP0961H
<Under Ceiling Type>
MMC-AP0151H, AP0181H, AP0241H, MMC-AP0271H, AP0361H, AP0481H
<High Wall Type>
MMK-AP0071H, AP0091H, AP0121H, MMK-AP0151H, AP0181H, AP0241H, MMK-AP0072H*, AP0092H*, AP0122H*
* European market only
<Floor Standing Cabinet Type>
MML-AP0071H, AP0091H, AP0121H, MML-AP0151H, AP0181H, AP0241H
<Floor Standing Concealed Type>
MML-AP0071BH, AP0091BH, AP0121BH, MML-AP0151BH, AP0181BH, AP0241BH
<Floor Standing Type>
MMF-AP0151H, AP0181H, AP0241H MMF-AP0271H, AP0361H, AP0481H MMF-AP0561H
Outdoor Unit
<Inverter Unit>
MMY-MAP0802FT8 MMY-MAP1002FT8 MMY-MAP1202FT8
FS unit
RBM-Y1122FE RBM-Y1802FE RBM-Y2802FE
PRINTED IN JAPAN, 2005
CONTENTS
DESIGN MANUAL ..................................................................3
1. OUTLINE OF TOSHIBA SUPER HRM
(Super Heat Recovery Multi System) ................................................. 3
2. SUMMARY OF SYSTEM EQUIPMENTS .............................................. 6
3. BASIC SYSTEM CONFIGURATION ................................................... 11
4. EQUIPMENT SELECTION PROCEDURE .......................................... 16
5. REFRIGERANT PIPING DESIGN ....................................................... 25
6. WIRING DESIGN ................................................................................. 30
7. CONTROLS ......................................................................................... 35
8. ACCESSORIES ................................................................................... 41
9. TECHNICAL SPECIFICATIONS.......................................................... 44
10. FAN CHARACTERISTICS .................................................................. 59
11. DIMENSIONAL DRAWINGS ............................................................... 62
DESIGN MANUAL
1. OUTLINE OF TOSHIBA SUPER HRM (Super Heat Recovery Multi System)
Shortest route design by free branching
Combination of line and header branching is highly flexible. This follows for the shortest design route possible, thereby saving on installation time and cost. Line/header branching after header branching is only available with TOSHIBA Super HRM.
Line branching
Outdoor unit
Branching joint
FS unit
Indoor unit
Header branching
Outdoor unit
Branching
header
FS unit
Indoor unit
Line + Header branching
Outdoor unit
Branching joint
Indoor unit
Header
Line branching after header branching
Outdoor unit
8F
7F
2F
FS unit
1F
Branching joint
Super HRM
MMS Only
Only
Indoor unit
Header
Header branching after header branching
Outdoor unit
Header
Super HRM
Only
Header
FS unit
Indoor unit
3
FS unit
• Non-polarized control wiring between outdoor and indoor units
8F
7F
Outdoor unit
Indoor unit
FS unit
Indoor
unit
Heating Cooling Cooling Cooling
• Simultaneous operation
U1 U2
U1 U2 U1 U2 U1 U2
main heat exchanger
Sub heat exchanger
Outdoor unit
Compressor
2F
1F
Allowable pipe length :
Outdoor unit
Height difference between indoor
unit and indoor unit : 35m
Height difference between indoor
unit and outdoor unit : 50m
From 1st branching to the farthest indoor unit : 50m
150m equivalent length
1st branching section
4
Energy saving
No. 1 COP in heat recovery VRF industry. Compared with the conventional chiller fan coil system, a large energy saving can be realized.
Advanced bus communication system
Wiring between indoor and outdoor unit is a simple 2 wire system. Communication address is also automatically configured. A default test mode operation is available.
Self diagnostics system
Comprehensive troubleshooting code allows for timely identification of problems arising.
High lift and flexible piping design
Equivalent pipe length of 150m and vertical lift of 50m is made possible with TOSHIBA Super HRM. Vertical lift between indoor units of 35m is the highest in the industry. Also, maximum piping length from 1st branching is 50m. These allow for greater flexibility in the location of the system.
Simultaneous operation
By controling the FS unit, Super HRM enables freely simultaneous operation of cooling and heating.
This operation meets the various needs of modern buildings that has highly airtight or an increasing heat load due to use of computers. Also, Super HRM improves energy efficiency by recycling exhaust heat.
Extended outdoor temperature operating range
By employing sophisticated system control with all inverter driven compressor, the operating range in cooling has been extended from -5ºC to -10ºC.
Compact FS unit design
The compact and light weight design of the FS unit (Flow selector unit) allows it to be easily installed in limited spaces.
Group control by one FS unit
Up to 8 indoor units of group control by one FS unit gives the design flexibility for various type and size of rooms.
Intelligent control
TOSHIBA Super HRM intelligent controls and modulating valves deliver the required capacity, according to the load variation from 50% to 100%. The intelligent controls and modulating valves limit or increase the cooling capacity dynamically so humidity and temperature are kept in the comfort zone.
Conforms to building control law
IAQ (Indoor Air Quality) is also achieved by combining various accessories required by the Building Control Law.
Wide control applications
Artificial Intelligence Network system
• Central control and monitoring system available
• Weekly schedule operation through weekly timer
Integration with Building Management System (BMS) is available.
5

2. SUMMARY OF SYSTEM EQUIPMENTS

Equipments
1. Outdoor units
Inverter unit
8HP 10HP 12HP
Model name MMY- MAP0802FT8 MAP1002FT8 MAP1202FT8
Cooling capacity (kW) 22.4 28.0 33.5
Heating capacity (kW) 25.0 31.5 35.5
2. Outdoor units (Combination of outdoor units)
Corresponding HP
Combined model Cooling capacity (kW)
Heating capacity (kW)
Combined outdoor units
No. of connectable indoor units
Corresponding HP
Combined model Cooling capacity (kW)
Heating capacity (kW)
Combined outdoor units
No. of connectable indoor units
MMY- MAP0802FT8
MMY- AP2002FT8
8HP
22.4 25
8HP
13
20HP
56 63
10HP 10HP
33
10HP
MAP1002FT8
28
31.5
10HP
16
24HP
AP2402FT8
68
76.5 8HP 8HP 8HP
40
12HP
MAP1202FT8
33.5
35.5
12HP
16
26HP
AP2602FT8
73
81.5
10HP
8HP 8HP
43
AP1602FT8
AP2802FT8

3. FS units (Flow selector units)

Model name Usage
RBM-Y1122FE
RBM-Y1802FE
RBM-Y2802FE Total capacity for indoor unit : 18.0 to 28.0 kw or less
Total capacity for indoor unit : Below 11.2 kw
Total capacity for indoor unit : 11.2 to below 18.0 kw
16HP
45
50 8HP 8HP
27
28HP
78.5
88
10HP 10HP
8HP
47
AppearanceCorresponding HP
AP1802FT8
AP3002FT8
Appearance
18HP
50.4
56.5
10HP
8HP
30
30HP
84
95 10HP 10HP 10HP
48
Accessory part (Sold separately): Connection cable kit (RBC-CBK15FE), up to 15m.
*
4. Branching joints and headers
Model name Appearance
RBM-BY53FE
Y-shape branching joint (*3)
4-branching
header (*4) (*5)
8-branching
header (*4) (*5)
T-shape branching joint (For connection of outdoor units)
1 Capacity code can be obtained from page 8. (Capacity code is not actual capacity)
*
2 If total capacity code value of indoor unit exceeds that of outdoor unit, apply capacity code of outdoor unit.
*
3 When using Y-shape branching joint for 1st branching, select according to capacity code of outdoor unit.
*
4 Max. 6.0 capacity code in total can be connected.
*
5 If capacity code of outdoor unit is 26 or more, it is not used for 1st branching.
*
6 This is used for branching to cooling only indoor unit.
*
7 Model names for outdoor and indoor units described in this guide are shortened because of the space constraint.
*
RBM-BY203FE RBM-BY303FE
RBM-BY53E RBM-BY103E RBM-BY203E RBM-BY303E
RBM-HY1043FE RBM-HY2043FE
RBM-HY1043E
RBM-HY2043E RBM-HY1083FE RBM-HY2083FE
RBM-HY1083E
RBM-HY2083E
RBM-BT13FE
Indoor unit capacity code (*1) : Total below 6.4 Indoor unit capacity code (*1) : Total 6.4 or more and below 14.2RBM-BY103FE Indoor unit capacity code (*1) : Total 14.2 or more and below 25.2 Indoor unit capacity code (*1) : Total 25.2 or more Indoor unit capacity code (*1) : Total below 6.4 Indoor unit capacity code (*1) : Total 6.4 or more and below 14.2 Indoor unit capacity code (*1) : Total 14.2 or more and below 25.2 Indoor unit capacity code (*1) : Total 25.2 or more Indoor unit capacity code (*1) : Total below 14.2 Indoor unit capacity code (*1) : Total 14.2 or more and below 25.2 Indoor unit capacity code (*1) : Total below 14.2 Indoor unit capacity code (*1) : Total 14.2 or more and below 25.2 Indoor unit capacity code (*1) : Total below 14.2 Indoor unit capacity code (*1) : Total 14.2 or more and below 25.2 Indoor unit capacity code (*1) : Total below 14.2 Indoor unit capacity code (*1) : Total 14.2 or more and below 25.2 1 set 4 types T-shape joint pipes as described below: The required quantity is arranged and they are combined on site.
Connection piping Corresponded dia. (mm) Q'ty Balance pipe Piping at liquid side Piping at discharge gas side Piping at suction gas side
Usage
Ø 9.5 1 Ø12.7 to Ø22.2 Ø19.1 to Ø28.6 Ø22.2 to Ø38.1
6
For 3 piping
For 2
piping (*6)
For 3 piping For 2
piping (*6)
For 3 piping For 2
piping (*6)
1 1 1
Super Heat Recovery Multi System Outdoor Unit
50Hz
HP (Capacity
code)
8HP ( 8) MAP0802HT8 1 MAP0802FT8 1
10HP (10) MAP1002HT8 1 MAP1002FT8 1
12HP (12) MAP1202HT8 1 MAP1202FT8* 1
16HP (16) 2 MAP0802FT8 2
18HP (18) 2 MAP0802FT8 1 MAP1002FT8 1
20HP (20) 2 MAP1002FT8 2
24HP (24) MAP0802FT8 3
26HP (26) MAP0802FT8 2 MAP1002FT8 1
28HP (28) MAP0802FT8 1 MAP1002FT8 2
30HP (30) MAP1002FT8 3
*
Model name
MMY-
12HP unit is for stand-alone usage only. Outdoor unit combination with 12HP unit is not available.
No. of
combined
units
Inverter
8 HP
MMY-
Used
Q'ty
Inverter
10 HP MMY-
Used
Q'ty
Inverter
12 HP MMY-
Used
Q'ty
1. Allocation standard of model name
MMY– M AP T 8
F
Power supply specifications, 3Ø 380–415 V, 50Hz ....... 8
T : Capacity variable unit
F : Heat recovery
Development series No.
Capacity rank HP x 10
New refrigerant R410A
M : Single module unit, No mark : Combined Model name
Modular Multi
2. Rated conditions (Rated mode : Condition)
Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C WB
3. Compatibility with 1 Series
Oudoor unit MMY-
1 Series
FS unit
RBM-Y***1E
2 Series
RBM-Y***2E
2 series outdoor units cannot be used with 1 series outdoor units.
*
1 Series 2 Series*
-MAP**1FT8 -MAP**2FT8
OK NG
OK OK
7

4. Indoor unit

*1) China only *2) European market only
Type Appearance Model name Capacity rank Capacity code
MMU-AP0091H 009 type 1 2.8 3.2 MMU-AP0121H 012 type 1.25 3.6 4.0 MMU-AP0151H 015 type 1.7 4.5 5.0 MMU-AP0181H 018 type 2 5.6 6.3 MMU-AP0241H 024 type 2.5 7.1 8.0 MMU-AP0271H 027 type 3 8.0 9.0 MMU-AP0301H 030 type 3.2 9.0 10.0 MMU-AP0361H 036 type 4 11.2 12.5 MMU-AP0481H 048 type 5 14.0 16.0 MMU-AP0561H 056 type 6 16.0 MMU-AP0071WH 007 type 0.8 2.2 2.5 MMU-AP0091WH 009 type 1 2.8 3.2 MMU-AP0121WH 012 type 1.25 3.6 4.0 MMU-AP0151WH 015 type 1.7 4.5 5.0 MMU-AP0181WH 018 type 2 5.6 6.3 MMU-AP0241WH 024 type 2.5 7.1 8.0 MMU-AP0271WH 027 type 3 8.0 9.0 MMU-AP0301WH 030 type 3.2 9.0 10.0 MMU-AP0481WH* MMU-AP0071YH 007 type 0.8 2.2 2.5 MMU-AP0091YH 009 type 1 2.8 3.2 MMU-AP0121YH 012 type 1.25 3.6 4.0 MMU-AP0151SH 015 type 1.7 4.5 5.0 MMU-AP0181SH 018 type 2 5.6 6.3 MMU-AP0241SH 024 type 2.5 7.1 MMD-AP0071BH 007 type 0.8 2.2 2.5 MMD-AP0091BH 009 type 1 2.8 3.2 MMD-AP0121BH 012 type 1.25 3.6 4.0 MMD-AP0151BH 015 type 1.7 4.5 5.0 MMD-AP0181BH 018 type 2 5.6 6.3 MMD-AP0241BH 024 type 2.5 7.1 8.0 MMD-AP0271BH 027 type 3 8.0 9.0 MMD-AP0301BH 030 type 3.2 9.0 10.0 MMD-AP0361BH 036 type 4 11.2 12.5 MMD-AP0481BH 048 type 5 14.0 16.0 MMD-AP0561BH 056 type 6 16.0 MMD-AP0181H 018 type 2 5.6 6.3 MMD-AP0241H 024 type 2.5 7.1 8.0 MMD-AP0271H 027 type 3 8.0 9.0 MMD-AP0361H 036 type 4 11.2 12.5 MMD-AP0481H 048 type 5 14.0 16.0 MMD-AP0721H 072 type 8 22.4 25.0 MMD-AP0961H 096 type 10 28.0 MMC-AP0151H 015 type 1.7 4.5 5.0 MMC-AP0181H 018 type 2 5.6 6.3 MMC-AP0241H 024 type 2.5 7.1 8.0 MMC-AP0271H 027 type 3 8.0 9.0 MMC-AP0361H 036 type 4 11.2 12.5 MMC-AP0481H 048 type 5 14.0 MMK-AP0071H 007 type 0.8 2.2 2.5 MMK-AP0091H 009 type 1 2.8 3.2 MMK-AP0121H 012 type 1.25 3.6 4.0 MMK-AP0151H 015 type 1.7 4.5 5.0 MMK-AP0181H 018 type 2 5.6 6.3 MMK-AP0241H 024 type 2.5 7.1 MMK-AP0072H 007 type 0.8 2.2 2.5 MMK-AP0092H 009 type 1.0 2.8 3.2 MMK-AP0122H 012 type 1.25 3.6 MML-AP0071H 007 type 0.8 2.2 2.5 MML-AP0091H 009 type 1 2.8 3.2 MML-AP0121H 012 type 1.25 3.6 4.0 MML-AP0151H 015 type 1.7 4.5 5.0 MML-AP0181H 018 type 2 5.6 6.3 MML-AP0241H 024 type 2.5 7.1 MML-AP0071BH 007 type 0.8 2.2 2.5 MML-AP0091BH 009 type 1 2.8 3.2 MML-AP0121BH 012 type 1.25 3.6 4.0 MML-AP0151BH 015 type 1.7 4.5 5.0 MML-AP0181BH 018 type 2 5.6 6.3 MML-AP0241BH 024 type 2.5 7.1 MMF-AP0151H 015 type 1.7 4.5 5.0 MMF-AP0181H 018 type 2 5.6 6.3 MMF-AP0241H 024 type 2.5 7.1 8.0 MMF-AP0271H 027 type 3 8.0 9.0 MMF-AP0361H 036 type 4 11.2 12.5 MMF-AP0481H 048 type 5 14.0 16.0 MMF-AP0561H 056 type 6 16.0
1)
048 type 5 14.0 16.0
4-way Air Discharge Cassette Type
2-way Air Discharge Cassette Type
1-way Air Discharge Cassette Type
Concealed Duct Standard Type
Concealed Duct High Static Pressure Type
Under Ceiling Type
High Wall Type (1 Series)
High Wall Type (2 Series)
Floor Standing Cabinet Type
Floor Standing Concealed Type
Floor Standing Type
*2)
Cooling
capacity (kW)
8
Heating
capacity (kW)
18.0
8.0
18.0
31.5
16.0
8.0
4.0
8.0
8.0
18.0

5. Remote controller

Name
Wired remote controller
Model
name
RBC-AMT21E
Appearance Application
Connected to indoor unit
UNIT No.
R.C. No.
UNIT
CODE No.
Wired remote
controller
Wired remote controller (In case of control by 2 remote controllers)
SET DATA
SETTING
TEST
CL
SET
Connected to indoor unit
TEST
SETTING
˚C ˚F
Function
• Start / Stop
• Changing mode
• Temperature setting
• Air flow changing
• Timer function Either “ON” time or “OFF” time or “CY-
CLIC” can be set how many 30 min. later ON or OFF is operated.
Combined with the weekly timer, weekly
schedule operation can be operated.
• Filter sign
Displays automatically maintenance time of indoor filter.
Filter sign flashes.
• Self-diagnosis function
Pressing “CHECK” button displays cause of trouble on the check code.
• Control by 2 remote controllers is available.
Two remote controllers can be connected to one indoor unit. The indoor unit can be separately operated from the isolated places.
• Start / Stop
• Temperature setting
• Air flow changing
• Check code display
Simple remote controller
Wireless remote controller kit
RBC-AS21E
Simple remote controller
Connected to indoor unit
• Start / Stop
• Changing mode
• Temperature setting
• Air flow changing
• Timer function
Either “ON” time or “OFF” time or “CYCLIC” can be set how many 30 min. later ON or OFF is operated.
• Control by 2 remote controllers is available.
Two wireless remote controllers can operate one indoor unit. The indoor unit can be separately operated from the isolated places.
• Check code display
TCB-AX21U (W)-E
(For 4-way air discharge cassette)
RBC-AX22CE
(For under ceiling)
TCB-AX21E
(For others except concealed duct high static pressure)
TCB-AX21E RBC-AX22CE TCB-AX21U (W)-E
9
Name
Model
name
Appearance Application
Performance
Weekly timer
RBC-EXW21E
PROGRAM1
PROGRAM2
PROGRAM3
WEEKLY TIMER
SuMoTuWeTh Fr Sa
ERROR
Connected to central
remote controller,
wired remote controller
Wired
remote controller
Outdoor unit
Central
remote controller
Weekly
timer
Weekly
timer
• Weekly schedule operation
Setting different start / stop time for
each day of the week
ON / OFF can be easily set 3 times
a day.
ON
8:00 12:00 13:00 18:00 19:00 21:00
“CHECK” “PROGRAM” “DAY”
OFF ON OFF ON OFF
button make setting copy easy.
Two patterns of schedule for a
week can be specified. (Summer schedule and winter schedule, etc.)
“CANCEL” “DAY” button make
holiday setting easy.
If power supply fails, the setting
contents are stored in memory, for 100 hours.
TCB-SC642TLE
Central remote controller
ZONE
ALL ZONE GROUP
1234
UNIT No.
SET DATA
SETTING
R.C.
No.
SELECT ZONE
CL
SET
Connected to outdoor unit,
indoor unit
Outdoor
unit
• Individual control for max. 64 indoor units divided 1 to 4 zone.
Up to 16 indoor units for each
 
zone
 
• Up to 16 outdoor header units are connectable.
• 4 type central control setting to inhibit individual operation by remote controller can be selected.
• Individual control up to 64 indoor units.
CODE
TEST
No.
• Setting for one of 1 to 4 zone is available.
• Usable with other central control devices (Up to 10 central control
GROUP
Central
remote controller
devices in one control circuit)
• Two control mode selectivity
Central controller mode
 
Remote controller mode
 
• Setting of simultaneous ON/OFF 3 times for each day of the week combined with weekly timer.
Central
remote
controller
Indoor
remote controller
10

3. BASIC SYSTEM CONFIGURATION

8HP system
• Max. indoor unit : 13 units
• Capacity code of indoor unit : Min. : 5.6
Outdoor unit
8HP
10.4
4.8
007
(0.8)
Max. : 10.8
4.0 3.2 2.4 1.6
007
(0.8)
Capacity code over the branch (0.8 + 0.8 = 1.6)
007
(0.8)
007
(0.8)
007
(0.8)
Capacity code
Total 10.4
No. of total units
13
Indoor unit designation
Capacity code
007
(0.8)
FS unit
Indoor unit
Remote controller
5.6 4.8 4.0 3.2 2.4 1.6 0.8
007
(0.8)
007
(0.8)
007
(0.8)
007
(0.8)
007
(0.8)
007
(0.8)
007
(0.8)
11
10 HP system
• Max. indoor unit : 16 units
• Capacity code of indoor unit : Min. : 7
Outdoor unit
10HP
Max. : 13.5
Capacity code
Total 12.8
No. of total units
16
12.8
FS unit
Indoor unit
Remote controller
6.4
007
5.6 4.8 4.0 3.2 2.4 1.6
(0.8)
007
(0.8)
007
(0.8)
007
(0.8)
007
(0.8)
007
(0.8)
007
6.4 5.6 4.8 4.0 3.2 2.4 1.6
007
(0.8)
007
(0.8)
007
(0.8)
007
(0.8)
007
(0.8)
007
(0.8)
007
(0.8)
(0.8)
007
(0.8)
007
(0.8)
12
12 HP system
• Max. indoor unit : 16 units
• Capacity code of indoor unit : Min. : 8.4
Outdoor unit
12HP
Max. : 14.4
Capacity code
Total 14.0
No. of total units
16
14.0
FS unit
Indoor unit
Remote controller
6.4
007
5.6 4.8 4.0 3.2 2.4 1.6
(0.8)
007
(0.8)
007
(0.8)
007
(0.8)
007
(0.8)
007
(0.8)
007
7.6 6.8 6.0 5.0 4.0 3.0 2.0
007
(0.8)
007
(0.8)
009
(1.0)
009
(1.0)
009
(1.0)
009
(1.0)
009
(0.8)
(1.0)
007
(0.8)
009
(1.0)
13
20 HP system
• Max. indoor unit : 33 units
10
  
10HP10HP
Max. : 27
• Capacity code of indoor unit : Min. : 14
Outdoor unit
Capacity code
Total 26.75
No. of total units
19
26.75
16.5
FS unit
Indoor unit
Remote controller
10.25 8.25
018
(2.0)
6.25 5.0 3.75 2.5
018
(2.0)
012
(1.25)
012
(1.25)
8.25 6.25 5.0 3.75 2.5
018
(2.0)
012
(1.25)
012
(1.25)
012
(1.25)
8.25 6.25 5.0 3.75 2.5
018
(2.0)
012
(1.25)
012
(1.25)
012
(1.25)
012
(1.25)
012
(1.25)
012
(1.25)
012
(1.25)
012
(1.25)
012
(1.25)
012
(1.25)
14
30 HP system
• Max. indoor unit : 48 units
10HP 10HP10HP
 
Max. : 40.5
1020
• Capacity code of indoor unit : Min. : 21
Outdoor unit
Capacity code
Total 40
No. of total units
28
40
30
20
FS unit
10 9.2 8.4 7.6 6.8 6
007
(0.8)
007
(0.8)
007
(0.8)
007
(0.8)
007
(0.8)
018
10 9.2 8.4 7.6 6.8 6
007
(0.8)
007
(0.8)
007
(0.8)
007
(0.8)
007
(0.8)
018
10 9.2 8.4 7.6 6.8 6
007
(0.8)
007
(0.8)
007
(0.8)
007
(0.8)
007
(0.8)
018
10 9.2 8.4 7.6 6.8 6
(2)
(2)
(2)
036
(4)
036
(4)
036
(4)
Indoor unit
Remote controller
007
(0.8)
007
(0.8)
007
(0.8)
15
007
(0.8)
007
(0.8)
018
(2)
036
(4)

4. EQUIPMENT SELECTION PROCEDURE

1. Selection flow chart
1. Determination of indoor air conditioning load
2. Preliminary selection of indoor units
3. Preliminary selection of outdoor unit with indoor units
4. Capacity correction for piping length/height between indoor and outdoor units
5. Capacity correction based on indoor and outdoor temperature
6. Validate preliminary selection of indoor units
7. Confirmation of selection for indoor unit and outdoor units
NO
End
2. Combination conditions for indoor unit and outdoor unit
1. For indoor unit, the capacity code is decided for each capacity rank.
Capacity rank type
Capacity code
NOTE :
Capacity rank : Correspondence to Btu/h. Capacity code : Correspondence to Horsepower.
2. For outdoor unit, maximum No. of connectable indoor units and total capacity code of indoor units are decided.
Outdoor unit
(Heat recovery)
MMY-MAP0802FT8 8 13 5.6 to 10.8
MMY-MAP1002FT8 10 16 7.0 to 13.5
MMY-MAP1202FT8 12 16 8.4 to 14.4
MMY-AP1602FT8 16 27 11.2 to 21.6
MMY-AP1802FT8 18 30 12.6 to 24.3
MMY-AP2002FT8 20 33 14.0 to 27.0
MMY-AP2402FT8 24 40 16.8 to 32.4
MMY-AP2602FT8 26 43 18.2 to 35.1
MMY-AP2802FT8 28 47 19.6 to 37.8
MMY-AP3002FT8 30 48 21.0 to 40.5
007
0091012
0.8
70 to 135% of outdoor unit capacity for all systems except 12HP 70 to 120% of outdoor unit capacity for 12HP
1.25
Capacity code of
015
1.7
outdoor unit
0182024
2.5
027
3
Max. No. of
indoor units
030
0364048
3.2
Total capacity code
of indoor units
056
5
6
0728096
10
16
3. Cooling/heating capacity characteristics
1. Cooling capacity calculation method : Required cooling capacity = Cooling capacity x Factor (
Indoor air wet bulb temperature vs. capacity correction value
1.2
1.1
1.0
0.9
,
,
,
1
,
*
) kW
0.8
Capacity correction value
15
20 24
Indoor air wet bulb temp. (˚C)
Outdoor air dry bulb temperature vs.capacity correction value
1.2
1.1
1.0
0.9
–5 0 5 10 15 20 25 30 35 40 43
Capacity correction value
Outdoor air dry bulb temp. (˚C)
Air flow variation ratio of indoor unit vs. capacity correction (For concealed duct type only)
1.1
1.0
0.9 80 90 100 110 120
Capacity correction value
1 : Coefficient to use for correction of outdoor unit capacity when total capacity of the indoor
*
Air flow variation ratio (%)
units are not equal to the outdoor unit capacity.
17
Connecting pipe length and lift difference between indoor and outdoor units vs. capacity correction value
Outdoor unit (8 to 30HP)
50 40 30 20
%100
10
0 –10 –20 –30
Height of outdoor unit H (m)
98
20 30 40 50 60 70 80 90
100
Pipe length (Equivalent length) L (m)
96
92
94
ho l’o
908488
86
Outdoor unit
L’ is the longest one of (l’o + l’a, l’o + l’b, l’o + l’c)
H = ho + (Largest one of ha, hb, and hc)
82
80
100 110 120
78
130 140 150
76
Correction of outdoor unit diversity
hb
hc
120
100
80
60
40
Correction (%)
20
0
20 40 60 80 100 120 135
ha
l’a
l’b
l’c
A
B
Standard capacity ratio
Indoor units total capacity ratio (%)
Indoor unit
C
1 : Coefficient to use for correction of outdoor unit capacity when total capacity of the indoor
*
units are not equal to the outdoor unit capacity.
18
2. Heating capacity calculation method : Required heating capacity = Heating capacity x Factor (
Indoor air dry bulb temperature vs. capacity correction value
1.2
1.1
1.0
0.9
0.8 15 20 24
Capacity correction value
Indoor air dry bulb temp. (˚C)
Outdoor air wet bulb temperature vs. capacity correction value
,
,
,
,
*1,
*2) kW
1.2
1.1
1.0
0.9
0.8
0.7
0.6
0.5 –15 –10 –5 0 5 10 15
Capacity correction value
Outdoor air wet bulb temp. (˚C)
Air flow variation ratio of indoor unit vs. capacity correction (For concealed duct type only)
1.1
1.0
0.9 80 90 100 110 120
Capacity correction value
1 : Coefficient to use for correction of outdoor unit capacity when total capacity of the indoor
*
units are not equal to the outdoor unit capacity.
2 : Refer to item 3 in page 20.
*
Air flow variation ratio (%)
19
Connecting pipe length and lift difference between indoor and outdoor units vs. capacity correction value
Outdoor unit (8 to 30HP)
50 40 30 20 10
100%
0 –10 –20 –30
Height of outdoor unit H (m)
100 2030405060708090
Pipe length (Equivalent length) L (m)
Correction of outdoor unit diversity
99
98
97
96
120
100
93
94
95
100 110 120 130 140 150
80
92
91
ho l’o
hb
hc
Outdoor unit
L’ is the longest one of (l’o + l’a, l’o + l’b, l’o + l’c)
H = ho + (Largest one of ha, hb, and hc)
ha
l’a
A
l’b
B
Indoor unit
l’c
C
60
40
Correction (%)
20
0
20 40 60 80 100 120 135
Standard capacity ratio
Indoor units total capacity ratio (%)
1 : Coefficient to use for correction of outdoor unit capacity when total capacity of the indoor
*
units are not equal to the outdoor unit capacity.
3. Capacity correction in case of frost on the outdoor heat exchanger in heating
Correct the heating capacity when frost was found on the outdoor heat exchanger. Heating capacity = Capacity after correction of outdoor unit × Correction value of capacity resulted from frost
(Capacity after correction of outdoor unit : Heating capacity calculated in the above item 2.)
6 Capacity correction in case of frost on the outdoor heat exchanger
1.0
0.9
0.8
Capacity correction value
–15 –10 –5 0 5 10
Outdoor air wet bulb temp. (˚C)
20
4. Capacity calculation for each indoor unit
Capacity for each indoor unit
= Capacity after correction of outdoor unit ×
5. Operating temperature range
Required standard capacity of indoor unit Total value of standard indoor unit capacity
45
40
35
30
25
20
15
10
Outdoor air dry bulb temp. (˚C)
–5
–10
In cooling time
Continuously
operable
range
5
0
Indoor air wet bulb temp. (˚C)
Usable range
(in pull down)
Outdoor air wet bulb temp. (˚C)
3025 28201510
In heating time
20
15
10
5
Usable range
(in warming-up)
Continuously
operable
range
0
–5
–10
–15
–20
5 1015202530
Indoor air dry bulb temp. (˚C)
* The unit can be operated even if outdoor temperature gets down to -20°C, however note that the war-
ranty covers only up to -15°C because operation beyond that temperature is out of specification. * When outdoor air temperature falls to under -15°C, it may cause shortening the product lifetime. * When outdoor temperature goes out of specified range “ or ” mark is indicated on the remote control-
ler display and required operation will stop.
“ & ”: When heating operation “ ”: When cooling operation
[Notice]
• This indication is not failure.
• When outdoor temperature goes back to specified range, “ or ” disappear and start normal opera­tion.
• Operation stops because concurrent operation can not be kept in the condition of out of specification for Super HRM.
(Outdoor temp.(DB) <-10°C: Cooling,
>21°C: Heating)
* Do not use “Super HRM” for other than personal usage where the ambient temperature may go down
below -10°C. (For example, OA equipment/Electric device/Food/Animals and plants/Art object)
6. Rated conditions
Cooling : Indoor air temperature 27°C DB/19.0°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C WB
21
2 – 12 – 22 – 3
1
1
1
3
1
2
1
4
2
42 – 5
Office rooms (2–1, 2–2 : Computer room)
Stores (1-4 : Kitchen)
1F
2F
Non-air conditioning zone
4. Example of equipment selection
The following shows an example of equipment selection based upon a building model
Fig. 1 Overview of building model
<Outside view> <Stories configuration>
8m
2F
1F
7.2m
14.4m
• Steel frame, reinforced concrete building, four stories above ground. Total floor area : 207m²
Outdoor unit is installed on the roof.
• Design indoor conditions Cooling : 27.0/19.0°C DB/WB, Heating : 20°C DB
• Design outdoor conditions Cooling : 35°C DB (Standard condition), Heating : 3°C WB (Standard condition : 6°C WB)
Selection Criteria for Each Floor
2F : Outdoor capacity exactly matches the total indoor capacity.
Total indoor HP = Outdoor unit HP Indoor : 2.5 HP x 2 units + 1.25 HP + 2 HP x 2 = 10.25 HP
Outdoor : 10 HP Same capacity
Heat load of room 2-1 and 2-2 is higher than other rooms.
1F : Consider the increasing heat load in the specific room.
• Total indoor units HP > Outdoor unit HP
• Select each indoor unit based on individual peak room load. Indoor : 2.5HP + 2.5HP + 3.2HP + 2.0HP =
10.2HP < > Outdoor : 10HP (Same capacity)
• The room “1-4” is designed for “cooling only” because of its high heat load.
• The outdoor module should have sufficient capacity to cover the peak demand of the indoor unit connected.
22
Procedure and result of equipment selection
1. Procedure of equipment selection
a. Calculate cooling for every rooms. b. Select an indoor unit to match the cooling load for every room from the table in pages 8. c. Choose a tentative outdoor module that will match with the indoor units. Perform capacity correction
based on the pipe length, system lift, indoor set temperature, outdoor temperature. Then, make sure the corrected system cooling capacity satisfies the cooling load.
2. Equipment selection and capacity check
Air conditioning load Equipment selection
Indoor unit Outdoor unit
Capacity (kW) Capacity (kW)
Cooling Heating
Model
MMY-
Cooling Heating
Floor Room No.
2-1 6.0 3.4 MMU-AP0241H 7.1 8.0
2-2 5.0 2.2 MMU-AP0181H 5.6 6.3
Indoor air conditioning load
(kW)
Cooling Heating
Model
2F
1F
Floor Room No.
2F
1F
2-3 5.0 4.2 MMU-AP0181H 5.6 6.3
2-4 3.2 2.7 MMU-AP0121H 3.6 4.0
2-5 6.4 5.4 MMU-AP0241H 7.1 8.0
1-1 6.1 6.0 MMU-AP0241H 7.1 8.0
1-2 6.3 6.3 MMU-AP0241H 7.1 8.0
1-3 7.2 7.0 MMU-AP0301H 9.0 10.0
1-4 5.1 — MMD-AP0181H 5.6 6.3
Piping distance Capacity correction Capacity check after correction
2-1 6.6
2-2 5.2 5.5
2-3 5.2
2-4 3.3 3.5
2-5 6.6
1-1 6.6
1-2 6.6
1-3 8.4 8.8
Equivalent
length (m)
34 5
Height
difference
(m)
MAP2002FT8 56.0 63.0
Pipe correction x temp.
correction
Cooling Heating Cooling Heating
1.0
1.0 ×
1.0 ×
0.936 =
0.936
×
0.95 ×
0.98 ×
0.95 =
0.884
Capacity
Capacity (kW)
7.0
5.5
7.0
7.0
7.0
Judgment
good
1-4
5.2 5.5
23

Schematic diagram

MMY-MAP2002FT8
10 10
Outdoor unit
1st branching joint
2nd branching joint
3rd branching joint
4th branching joint
5th branching joint
FS unit RBM-Y1122FE
Indoor unit
MMU-AP0241H
MMU-AP0181H
RR R R R
1
FS unit RBM-Y1122FE
Computer
Room
Computer
Room
2
Indoor unit
MMU-AP0241H
R
Store Store
1 – 11
FS unit RBM-Y1122FE
Indoor unit
2 – 22
Indoor unit
MMU-AP0241H
FS unit RBM-Y1122FE
Indoor unit
MMU-AP0181H
Office Office Office
32
FS unit RBM-Y1122FE
R
21
FS unit RBM-Y1122FE
Indoor unit
MMU-AP0121H
Branching header
FS unit RBM-Y1122FE
Indoor unit
MMU-AP0301H
R
Restaurant
FS unit RBM-Y1122FE
Indoor unit
MMU-AP0241H
42
5
Indoor unit
MMD-AP0181H
R
<Cooling only>
Kitchen
31
4
24

5. REFRIGERANT PIPING DESIGN

1. Warnings on refrigerant leakage Important
Check of Concentration Limit
The room in which the air conditioner is to be in­stalled requires a design that in the event of refriger­ant gas leaking out, its concentration will not exceed a set limit.
The refrigerant R410A which is used in the air conditioner is safe, without the toxicity or combustibility of ammonia, and is not restricted by laws to be imposed which protect the ozone layer. However, since it contains more than air, it poses the risk of suffocation if its concentration should rise excessively. Suffocation from leakage of R410A is almost non-existent. With the recent increase in the number of high concentration buildings, however, the installation of multi air conditioner systems is on the increase because of the need for effective use of floor space, individual control, energy conservation by curtail­ing heat and carrying power etc. Most importantly, the multi air conditioner system is able to replenish a large amount of refrigerant compared with conventional individual air conditioners. If a single unit of the multi conditioner system is to be installed in a small room, select a suitable model and installation procedure so that if the refrigerant accidentally leaks out, its concentration does not reach the limit (and in the event of an emergency, measures can be made before injury can occur). In a room where the concentration may exceed the limit, create an opening with adjacent rooms, or install me­chanical ventilation combined with a gas leak detection device. The concentration is as given below.
NOTE 2 :
The standards for minimum room volume are as follows. (1) No partition (shaded portion)
(2) When there is an effective opening with the adjacent
room for ventilation of leaking refrigerant gas (opening without a door, or an opening 0.15% or larger than the respective floor spaces at the top or bottom of the door).
Outdoor unit
Refrigerant piping
Indoor unit
(3) If an indoor unit is installed in each partitioned room
and the refrigerant tubing is interconnected, the smallest room of course becomes the object. But when a mechanical ventilation is installed interlocked with a gas leakage detector in the smallest room where the density limit is exceeded, the volume of the next smallest room becomes the object.
Refrigerant piping
Total amount of refrigerant (kg)
Min. volume of the indoor unit installed room (m³)
Concentration limit (kg/m³)
The concentration limit of R410A which is used in multi air conditioners is 0.3kg/m³. (For details, refer and comply with local regulations.)
NOTE 1 :
If there are 2 or more refrigerating systems in a single refrigerating device, the amounts of refrigerant should be as charged in each independent device.
e.g., charged amount (10kg)
Room A Room B Room C Room D Room E Room F
For the amount of charge in this example:
The possible amount of leaked refrigerant gas in rooms A, B and C is 10kg. The possible amount of leaked refrigerant gas in rooms D, E and F is 15kg.
Outdoor unit
e.g., charged amount (15kg)
Indoor unit
Outdoor unit
Ver y small room
Small room
Mechanical ventilation device - Gas leak detector
Medium room
Large room
Indoor unit
NOTE 3 :
The minimum indoor floor area compared with the amount of refrigerant is roughly as follows: (When the ceiling is 2.7m high)
40
Range below the
35
density limit of 0.3 kg/m³
30
(countermeasures not needed)
25
20
15
10
5
Min. indoor floor area
0
10 20 30
Total amount of refrigerant
Range above the density limit of 0.3 kg/m³ (countermeasures needed)
kg
25

2. Free branching system

Line branching systemHeader branching systemHeader branching system after line branchingLine branching system after header branchingHeader branching system after header branching
The above five branching systems are available to dramatically increase the flexibility of refrigerant piping design.
Outdoor unit
Branching joint
Line branching system
FS unit
Indoor unit
Remote
controller
Outdoor unit
Header branching system
Header branching system after line branching
Line branching system after header branching
Indoor unit
Outdoor unit
FS unit
Indoor unit
Outdoor unit
FS unit
Branching joint
Remote
controller
Branching header
Remote controller
Branching header
Branching header
Header branching system after header branching
FS unit
Indoor unit
Remote
controller
Branching joint
26
g

3. Allowable length/height difference of refrigerant piping

Height difference between outdoor units
H3 5m
Height difference between outdoor and indoor units
H1 50m
Outdoor Unit
T-shape branching
Main piping
L1
1st branching section
Follower Unit
C
Header Unit
Branching piping
Connecting piping of indoor unit
L3
Equivalent length corresponded to farthest piping after 1st branching Li 50m
FS unit
Follower Unit
A
a
ghi j
Indoor unit
Equivalent length corresponded to farthest piping L 150m
L4 L5 L6 L7LhL8
def
lmn
Indoor unit
B
La Lb Lc
LA
Main connecting piping between outdoor units
Length corresponded to farthest piping between outdoor units LO 25m
Branching
header
L2
L9
bc
FS unit
< Cooling only >
FS unit
k
o
(Header)
< Cooling only >
Lj
pq
Note: In case of connecting method <Ex.2>, a large amount of refrigerant and refrigerant oil may return to the head unit. Therefore, set the T-shape joint so that oil does not enter directly.
<Ex.1>
Header UnitAFollower UnitBFollower Unit
<Ex.2>
Header UnitAFollower UnitBFollower Unit
Height difference between indoor units
H2 35m
(Upper outdoor unit)
(q)
C
C
Height difference between indoor units in group control by one FS unit H4 0.5 m
* Allowable length and height difference of refrigerant piping
Allowable value Piping section
Total extension of pipe (Liquid pipe, real length) 300 m
Farthest piping length L (*1)
Real length 125 m
Equivalent length 150 m
LA+La+Lb+Lc+L1+L2+L3+L4+L5+L6+L7+L8+9 +a+b+c+d+e+f+g+h+i+j+k+l+m+n+o+p+q
LA+Lc+L1+L3+L4+L5+L6+L7+L8+q
Max. equivalent length of main piping 85 m L1
Equivalent length of farthest piping from 1st branching Li (*1) 50 m L3+L4+L5+L6+L7+L8+q
Pipe
Length
Max. real length of indoor unit connecting piping 30 m a+g, b+h, c+i, d+l, e+m, f+n, j, k
Max. real length between FS unit and indoor unit (*2) 15 m g, h, i, l, m, n, L7+o, L7+L8+p, L7+L8+q
Max. Equivalent length of outdoor unit connecting piping LO (*1) 25 m LA+Lc (LA+Lb)
Max. real length of outdoor unit connecting piping 10 m La, Lb, Lc
30 m
15 m
50 m
L7+L8+q, L7+L8+p
L7+o
——
Height
Difference
Max. equivalent length between FS unit and indoor unit Lj
Max. real length between FS unit and header indoor unit Lh (
Height between indoor and outdoor units H1
Upper outdoor unit
Lower outdoor unit 30 m ——
Upper outdoor unit 35 m ——
Height between indoor units H2
Lower outdoor unit 15 m ——
2)
*
Height between outdoor units H3 5 m ——
Hei
ht difference between indoor units in group control by one FS
unit H4
1 : The farthest outdoor unit from 1st branch to be named C, and farthest indoor unit from 1st branch to be named (q).
*
2 : Attached connection cable can be used up to 5 m in pipe length between indoor and FS unit. When the pipe length
*
between indoor and FS unit exceeds 5 m, be sure to use the connection cable kit (RBC-CBK15FE).
* System restrictions
Max. No. of combined outdoor units Max. capacity of combined outdoor units Max. No. of connected indoor units
Max. capacity of combined indoor units
1 : MMY-MAP1201HT8 : UP to 120 %
*
84.0 kW 48 units
H2 15m H2
>
15m
3 units
135% (*1) 105%
Note 1) Combination of outdoor units : Header unit (1 unit) +
Note 2) Install the outdoor units in order of capacity.
Note 3) Refer to outdoor unit combination table in page.6. Note 4) Piping to indoor units shall be perpendicular to piping to
0.5 m ——
Follower unit (0 to 2 units). Header unit is outdoor unit nearest to the connected indoor units
(Header unit Follower unit 1 Follower unit 2)
the head outdoor unit as <Ex.1>. Do not connect piping to indoor units in the same direction of head outdoor unit as <Ex.2>.
27
Y
yp
yp
yp
g
g

4. Selection of refrigerant piping

Follower UnitCFollower UnitBHeader Unit
A
Outdoor unit
Balance pipe
2
9
T-shape branching joint
1
Main piping
3
Outdoor unit
1
connecting piping
1
Main connecting piping between outdoor units
* Selection of refrigerant piping
No. Item
Pipe size of outdoor
No. Item
No. Item
Size of main pipe
No. Item
No. Item
Piping of i ndoor unit
unit
Connecting pipe size
between outdoor units
Pipe size between
branching sections
*1 *2 *3
Pipe size between the
end of branch and FS
unit
Piping of cooling only
indoor unit (Between branching and indoor
unit) *2
Suction
gas side
Suction
gas side
Suction
gas side
Suction
gas side
Suction
gas side
Discharge
Ø 9.5
Ø 9.5
gas side
Discharge
gas side
Discharge
gas side
Discharge
gas side
Discharge
gas side
Ø 22.2 Ø 19.1 Ø 12.7 MMY-MAP0802FT8 Ø 22.2 Ø 19.1 Ø 12.7 MMY-MAP1002FT8 Ø 28.6 Ø 19.1 Ø 12.7
Ø 28.6 Ø 22.2 Ø 15.9 Ø 9.5 Below 61.5 Below 22
Ø 22.2 Ø 19.1 Ø 12.7 Below 33.5 Below 12 Ø 28.6 Ø 19.1 Ø 12.7 33.5 12 Ø 28.6 Ø 22.2 Ø 19.1 45.0 to below 61.5 16 to below 22 Ø 34.9 Ø 28.6 Ø 19.1 61.5 to below 73.0 22 to below 26 Ø 34.9 Ø 28.6 Ø 22.2
Ø 15.9 Ø 12.7 Ø 9.5 Below 18.0 Below 6.4 Ø 22.2 Ø 19.1 Ø 12.7 18.0 to below 34.0 6.4 to below 12.2 Ø 28.6 Ø 22.2 Ø 15.9 34.0 to below 56.5 12.2 to below 20.2 Ø 34.9 Ø 28.6 Ø 15.9 56.5 to below 70.5 20.2 to below 25.2 Ø 34.9 Ø 28.6 Ø 19.1 Ø 15.9 Ø 12.7 Ø 9.5 Below 18.0 Below 6.4
Ø 22.2 Ø 19.1 Ø 12.7
Ø 12.7 Ø 15.9 Ø 22.2
Ø 12.7 Ø 12.7 Ø 15.9 Ø 15.9 Ø 22.2
Liquid side Outdoor unit model name
Liquid side
Liquid side
Liquid side
Liquid side Capacity rank of indoor unit
— — — — —
— —
Ø 6.4 007 to 012 Type Ø 6.4 015 to 018 Type Ø 9.5 024 to 056 Type
Ø 12.7
Ø 6.4 15m or less Ø 9.5 15m above Ø 6.4 15m or less Ø 9.5 15m above Ø 9.5
Ø 12.7
* Selection for branching section
No.
Y-Shape branching joint
*4 *5
Branching
Header
*4, *5, *6
T-Shape branching joint
(For connecting outdoor
unit)
For
4 Branchin
For
8 Branchin
40.0 to below 70.5 14.2 to below 25.2 RBM-HY2043FE RBM-HY2043E
40.0 to below 70.5 14.2 to below 25.2 RBM-HY2083FE RBM-HY2083E 1 set of 4 types of T-shape joint pipes as described below : The rewired
quantity is arranged and combined at the site.
- Balance pipe (Ø 9.52) X 1
- Piping at liquid side (Ø 12.7 to Ø 22.2) X 1
- Piping at discharge gas side (Ø 19.1 to Ø 28.6) X 1
- Piping at suction gas side (Ø 22.2 to Ø 38.1) X 1
Total capacity code of indoor unit Model Name
Equivalent to capacity Equivalent to HP For 3 piping For 2 piping
Below 18.0 Below 6.4 RBM-BY53FE RBM -BY53E
18.0 to below 40.0 6.4 to below 14.2 RBM-BY103FE RBM-BY103E
40.0 to below 70.5 14.2 to below 25.2 RBM-BY203FE RBM-BY203E
70.5 or more 25.2 or more RBM-BY303FE RBM-BY303E Below 40.0 Below 14.2 RBM-HY1043FE RBM-HY1043E
Below 40.0 Below 14.2 RBM-HY1083FE RBM-HY1083E
1st branching section
Liquid pipe
4
Discharge gas pipe
Suction gas pipe
8
4
Liquid pipe
Discharge gas pipe
Suction gas pipe
Balance
pipe
Total capacity code of all outdoor units
MM
Total capacity code of indoor units at
Equivalent to
capacity
Equivalent to
capacity
-MAP1202FT8
downstream side
73.0 or more 26 or more
Total capacity code of all indoor units
Equivalent to
capacity
70.5 or more 25.2 or more
18.0 or more 6.4 or more
072 to 096 T
072 to 096 T
024 to 056 T
5 5 5
10
FS unit 6
8
8
4
5
10
FS unit 6
Indoor unit
Equival ent to HP
Equival ent to HP
Equival ent to HP
e
007 to 012 Type
015 to 018 Type
e e
Y-Shape branching joint
8
4
Y-Shape branching joint
8
6 6
8
4
5 5
6 6 6 6 6
7 7
< Cooling only >
4
4 4
Group control
< Cooling only >
Selection of FS unit
Total capacity code of
Model Name
RBM-Y1122FE Below 11.2 Below 4.0 5
RBM-Y1802FE
RBM-Y2802FE
* Minimum wall thickness for R410A application
Half
Outer
Hard
Soft
OK OK 1/4” 6.35 0.80
OK OK 3/8” 9.52 0.80
OK OK 1/2” 12.70 0.80
OK OK 5/8” 15.88 1.00
NG OK 3/4” 19.05 1.00
NG OK 7/8” 22.20 1.00
NG OK 1.1/8” 28.58 1.00
NG OK 1.3/8” 34.92 1.10
*1 In case the pipe exceeds main pipe size, it
*2 2 pipes for cooling only indoor unit shall be
*3 2 pipes from FS unit to branching section shall
*4 Branching pipe on the 1st branch should be
*5 In case total capacity code for indoor units shall
*6 For 1 line after header branching, indoor units
RBM-BT13FE
dia.
or
(Inch)
Hard
should be the same as main pipe size.
used with liquid pipe and suction gas pipe.
be used with liquid pipe and suction gas pipe.
selected according to the capacity code for outdoor unit.
be exceeded to capacity code for outdoor unit, the pipe size should be selected with capacity code for outdoor unit.
with a maximum of 6.0 capacity code in total can be connected.
indoor unit
Equivalent to capacity (kW)
11.2 to below
18.0
18.0 to 28.0 or less
Outer
dia.
(mm)
Minimum
Thickness
Equivalent
to HP
4.0 to below
6.4
6.4 to 10.0 or less
Wall
(mm)
Max.No. of connected
indoor
units
8
8
28

5. Charging requirement with additional refrigerant

After the system has been vacuumed, replace the vacuum pump with a refrigerant cylinder and charge the system with additional refrigerant.
Calculating the amount of additional refrigerant required
Refrigerant in the system when shipped from the factory
R410A
8HP 10HP 12HP
Refrigerant amount charged in factory
11.5kg 11.5kg 11.5kgHeat recovery model
When the system is charged with refrigerant at the factory, the amount of refrigerant needed for the pipes at the site is not included. Calculate the additional amount needed, and add that amount to the system.
(Calculation)
Additional refrigerant charge amount is calculated from size of liquid pipe at site and its real length.
[Additional refrigerant charge amount at site] =
[Real length of liquid pipe] ×
Additional refrigerant charge amount per liquid pipe 1m (Table 1) system HP (Table 2)
× 1.3
+Compensation by
Example : Additional charge amount R (kg) = {(L1 x 0.025kg/m) + (L2 x 0.055kg/m) + (L3 x 0.105kg/m)
+ (L4 x 0.160kg/m) + (L5 x 0.250kg/m)} x 1.3
L1 : Real total length of liquid pipe Ø6.4 (m) L2 : Real total length of liquid pipe Ø9.5 (m) L3 : Real total length of liquid pipe Ø12.7 (m) L4 : Real total length of liquid pipe Ø15.9 (m) L5 : Real total length of liquid pipe Ø19.1 (m) System : 24HP
Table 1
Pipe dia. at liquid side
Additional refrigerant amount/1m
Table 2
Combined
horse power
(HP)
8 8 2.0
10 10 2.5
12 12 3.0
16 8 8 -1.5
18 10 8 0.0
20 10 10 2.0
24 8 8 8 -4.5
26 10 8 8 -3.0
28 10 10 8 -1.5
30 10 10 10 0.0
Outdoor
combination (HP)
Ø6.4 Ø9.5 Ø12.7 Ø15.9 Ø19.1 Ø22.2
0.025kg 0.055kg 0.105kg 0.160kg 0.250kg 0.350kg
Compensation
by system HP
(kg)
29

6. WIRING DESIGN

1. General
(1) Perform wiring of the power supply in conformance with the regulations of the local electric company. (2) For the control wires connecting indoor units, and between indoor and outdoor units, use of double-core shield
wires is recommended to prevent noise trouble. (3) Be sure to set the earth leakage breaker and the switches to the power supply section of the indoor unit. (4) Supply power to each outdoor unit and provide an earth leakage breaker or hand switch for each outdoor unit. (5) Never connect the 220–240V power to the terminal block (U1, U2, U3, U4, U5, U6) for control cables.
(Trouble is caused.) (6) Store wiring system for control and refrigerant piping system in the same line. (7) Arrange the cables so that the electric wires do not come to contact with high-temperature part of the pipe ;
otherwise coating melts and an accident may be caused. (8) Do not turn on power of the indoor unit until vacuuming of the refrigerant pipe will finish.
2. For outdoor unit power supply
• Select the power supply cabling and fuse of each outdoor unit from the following specifications: Cable 5-core, in conformance with Design 60245 IEC 66
• Do not connect them via the incorporated terminal block (L1, L2, L3, N).
L1
L2
L3
N
Outdoor power supply 3-phase 380-415V, 50Hz
3. Electrical wiring design
3-phase 50Hz 380-415V Earth leakage breaker
hand switch
Outdoor power source
Indoor power source
Earth
Single phase 50Hz 220-240V Earth leakage breaker
power switch
FS unit
Indoor unit
FS unit
L1
L2
L3
N
L1
L2
FS unit
Indoor unit
FS unit
L3
N
Pull box
FS unit
Indoor unit
FS unit
FS unit
Indoor unit
FS unit
Indoor unit
Indoor unit
Indoor unit
Indoor unit
• Unit capacities and power supply wire sizes (Reference)
Model
MMY-
MAP0802FT8
MAP1002FT8
MAP1202FT8
Wire size
3.5 mm² (AWG #10) Max. 20 m
5.5 mm² (AWG #10) Max. 28 m
5.5 mm² (AWG #10) Max. 27 m
Power supply wiring
Field fuse
30 A
30 A
30 A
• Determine the wire size for indoor unit according to the number of connected indoor units downstream.
• Observe local regulation regarding wire size selection and installation.
30
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