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INSTRUCTIONS FOR INSTALLING THE BRANCH PIPE SET

Summary of Contents for SC-SL1N-E

Page 1: ...ype Used also for combination FDC335KXE6 K 400KXE6 450KXE6 504KXE6 560KXE6 560KXE6 K 615KXE6 680KXE6 Combined type FDC735KXE6 800KXE6 850KXE6 900KXE6 960KXE6 1010HKXE6 1065KXE6 1130KXE6 1180KXE6 1235KXE6 1300KXE6 1360KXE6 Heat pump type DATA BOOK This DATA BOOK described relating to an outdoor unit Regarding the Indoor unit see Manual No 08 KX DB 124 DRAFT ...

Page 2: ...PFD controller KXRE4 series KXRE4 series KXE6 Outdoor unit YES B YES C YES A Connectable I U Connectable I U Connectable remote controller 2 wire type NO YES C YES C NO YES C YES C YES C YES C YES C YES C YES C NO YES C YES C NO Heat recovery 3 pipe systems Note 3 YES C YES C YES C YES C NO YES C YES C YES C 16 48 Central control PC windows central control and BMS interface unit Limitation 64 Conn...

Page 3: ...oor units panel Optional 2 1 5 Outdoor units combination table 3 2 OUTDOOR UNIT 4 2 1 Specifications 4 2 2 Exterior dimensions 6 2 3 Electrical wiring 8 2 4 Noise level 9 3 RANGE OF USAGE LIMITATIONS 10 4 PIPING SYSTEM 15 5 SELECTION CHART 16 6 KX SERIES INSTALLATION MANUAL 34 7 INSTRUCTIONS FOR INSTALLING THE BRANCH PIPE SET 55 ...

Page 4: ...the connectable capacity not higher than 130 Capacity from 50 to 160 is possible Note 1 When connecting the indoor unit type FDK FDFL or FDFU Series limit the connectable capacity not higher than 130 Capacity from 50 to 130 is possible FDC400KXE6 FDC450KXE6 FDC504KXE6 Number of connectable to 36 units to 40 units to 36 units Connectable capacity 200 800 225 900 252 806 Item Model FDC560KXE6 FDC6 5...

Page 5: ... compact and Flexible type FDUH Outdoor units to be combined FDC FDC335KXE6 K FDC400KXE6 560KXE6 FDC560KXE6 K FDC6 5KXE6 360KXE6 Ceiling cassette 4 way type FDT Duct connected Middle static preessure type FDUM 1 3 Table of models 1 4 Table of indoor units panel Optional Model Parts Model T PSA 36W E FDT Capacity 28 36 45 56 7 90 2 40 60 Capacity 22 28 36 Capacity 22 28 36 Capacity 28 45 56 Capacit...

Page 6: ...oor unit For two units for 735 360 Branch pipe set DOS 2A 1 Total capacity downstream Less than 80 80 or more but less than 37 37 or more but less than 540 540 or more Branching pipe set DIS 22 DIS 80 DIS 37 DIS 540 2 Total capacity downstream Less than 80 80 or more but less than 37 37 or more but less than 540 540 or more Header set model type HEAD4 22 HEAD6 80 HEAD8 37 HEAD8 540 2 Number of bra...

Page 7: ... 5 62 63 63 5 64 5 64 65 65 14 8 13 5 19 6 17 9 21 7 19 9 25 2 23 1 28 0 25 7 30 7 28 1 31 6 29 0 18 4 16 9 21 1 19 3 24 1 22 0 27 4 25 1 33 1 30 3 40 3 36 9 1690 1350 720 2048 1350 720 317 341 355 GTC5150NH48L 2 GTD5160NH48L 2 2 99 2 3 71 2 4 29 2 4 87 2 5 78 2 6 66 2 7 15 2 Direct line starting 19 130 15 114 13 112 11 100 10 113 11 110 10 108 33 2 Straight fin inner grooved tubing Electronic exp...

Page 8: ...Liquid line Gas line Oil equalization kW kW A kg φmm φ38 1 φ34 92 φ9 52 3 Phase 380 415V 50Hz 380V 60Hz Models Combination unit FDC1065KXE6 FDC504KXE6 FDC560KXE6 FDC1130KXE6 FDC560KXE6 FDC560KXE6 FDC1180KXE6 FDC560KXE6 K FDC615KXE6 FDC1235KXE6 FDC615KXE6 FDC615KXE6 FDC1300KXE6 FDC615KXE6 FDC680KXE6 FDC1360KXE6 FDC680KXE6 FDC680KXE6 Nominal cooling capacity 1 Nominal heating capacity 2 38 16 49 96 ...

Page 9: ... 2 2 Exterior dimensions Models FDC335KXE6 K 400KXE6 450KXE6 PCB003Z041 ...

Page 10: ... Models FDC504KXE6 560KXE6 560KXE6 K 615KXE6 680KXE6 PCB003Z044 ...

Page 11: ... 2 3 Electrical wiring Models All model PCB003Z060 ...

Page 12: ...70 80 Cooling Heating Souud Pressure Level standard 2 x 10 5 pa Mid Octave Band Frequency Hz N40 N50 N30 N60 N70 N80 63 125 250 500 1000 2000 4000 8000 30 40 50 60 70 80 30 40 50 60 70 80 Model FDC504KXE6 Noise level 61 5 dB A at cooling 62 dB A at heating Cooling Heating Souud Pressure Level standard 2 x 10 5 pa Mid Octave Band Frequency Hz N40 N50 N30 N60 N70 N80 63 125 250 500 1000 2000 4000 80...

Page 13: ...0 or less FDE FDK FDFL FDFU Dew point temperature 23 or less relative humidity 80 or less Within 3 of rated voltage Within 15 of rated voltage Note 1 When connecting the indoor unit type FDK FDFL or FDFU Series limit the connectable capacity not higher than 130 2 When the pipe extension length exceeds 510 m additional refrigeration machine oil must be charged 1 000 cc Indoor unit Outdoor unit MAX ...

Page 14: ...d voltage 1 cycle time Stop time Voltage fluctuation Phase unbalance Compressor stop start frequency Power source voltage Voltage drop during start Within 3 of rated voltage Within 15 of rated voltage Allowable length of refrigerant piping height difference between indoor and outdoor unit 1 Branch pipe method using branch piping 2 Header System Header used Note 1 A branch piping system cannot be c...

Page 15: ... temperature 23 or less relative humidity 80 or less Within 10 of rated voltage Within 15 of rated voltage Within 3 of rated voltage MAX 0 4m MAX 5m MAX 10m Combined type Indoor unit Outdoor unit Oil equalization piping MAX 90m 2 MAX 40m 2 MAX 130m MAX 5m Outdoor unit 1 Highest indoor unit denotes System FDC1065 KXE6 FDC1130 KXE6 FDC1306 KXE6 FDC1360 KXE6 Refer to page 14 2 to 66 units 3 to 76 uni...

Page 16: ...AX 18m MAX 18m MAX 18m 6 min or more 3 minutes or more from start to stop or 3 minutes or more from stop to start 3 min or more FDU FDUM FDQS FDUH 1 cycle time Stop time Voltage fluctuation Phase unbalance Compressor stop start frequency Power source voltage Voltage drop during start Within 10 of rated voltage Within 15 of rated voltage Within 3 of rated voltage Allowable length of refrigerant pip...

Page 17: ...aution In case of severely low temperature condition 1 Install the outdoor unit at the place where strong wind cannot blow directly into the outdoor unit 2 If there is no installation place where can prevent strong wind from directly blowing into the outdoor unit prepare a windbreak fence or something like that locally in order to divert the strong wind from the outdoor unit Reason Under the low o...

Page 18: ...ThI R1 R2 Heating operation Indoor fan control Cooling operation Frost prevention control Super heat control ThI R3 For super heat control of cooling operation Tho D For control of discharge pipe temperature Tho C For control of temperarure under the dome Tho S For control of suction pipe temperature Tho R1 R2 For control of defrosting Tho A For control of defrosting Tho R3 R4 Electronic expansion...

Page 19: ...it Calculate the temperature compensation then calculate the indoor unit capacity See item 2 a for the calculation method Calculate temperature compensation and piping compensation etc then calculate the outdoor unit capacity See item 2 b for the calculation method Select the outdoor unit tentative Calculate the system capacity See item 2 c for the calculation method Calculate the indoor unit capa...

Page 20: ...er c Calculating system capacity Compare the capacities determined in items a and b above and let the smaller value be the system capacity cooling heating In cases where indoor unit total capacity cooling heating outdoor unit capacity cooling heating System capacity cooling heating Outdoor unit capacity cooling heating In cases where indoor unit total capacity cooling heating outdoor unit capacity...

Page 21: ...icient according to temperature conditions 0 95 Calculated according to Indoor 18 C WB Outdoor 35 C DB See page 19 Outdoor unit cooling capacity 45 0 kW 0 95 42 8 kW Capacity compensation coefficient according to piping length 0 94 calculated according to 60 m length See page 21 42 8 kW 0 94 40 2 kW Capacity compensation coefficient according to height difference 1 0 the outdoor unit is higher dur...

Page 22: ...g capacity 66 0 kW Outdoor unit maximum heating capacity 49 0 kW e System heating capacity 49 0 kW Indoor unit heating capacity compensation Item 2 d calculation 49 0 kW 6 6 kW 4 9 kW 66 0 kW 3 Capacity compensation coefficient a Capacity compensation coefficient and power consumption compensation coefficient according to in door and outdoor temperature conditions 1 Capacity compensation coefficie...

Page 23: ...perature 15 CWB Indoor air W B temperature 16 CWB Indoor air W B temperature 17 CWB Indoor air W B temperature 18 CWB Indoor air W B temperature 19 CWB Indoor air W B temperature 20 CWB Indoor air W B temperature 21 CWB Indoor air W B temperature 22 CWB Indoor air W B temperature 24 CWB Indoor air W B temperature 26 CWB Power consumption compensation coefficient 0 2 4 6 8 10 12 14 16 18 20 22 24 2...

Page 24: ...f the refrigerant piping one way equivalent after the first branch is extended longer than 40 m it could drop further by about 10 in the worst case 1 Cooling Gas pipe ø25 4 Gas pipe ø28 58 0 0 80 0 85 0 90 0 95 1 00 20 40 60 80 100 120 140 160 180 Capacity compensation coefficient Refrigerant piping one way equivalent length m Model FDC560KXE6 Model FDC504KXE6 Model FDC450KXE6 Model FDC400KXE6 Not...

Page 25: ...0 120 140 160 180 Gas pipe ø34 92 Gas pipe ø38 1 Capacity compensation coefficient Refrigerant piping one way equivalent length m 0 0 80 0 85 0 90 0 95 1 00 20 40 60 80 90 100 120 140 160 180 Capacity compensation coefficient Refrigerant piping one way equivalent length m Gas pipe ø31 8 Gas pipe ø34 92 Gas pipe ø38 1 Model FDC900KXE6 FDC450KXE6 FDC450KXE6 0 0 80 0 85 0 90 0 95 1 00 20 40 60 80 100...

Page 26: ...80KXE6 FDC560KXE6 K FDC615KXE6 Gas pipe ø38 1 0 80 0 85 0 90 0 95 1 00 Gas pipe ø34 92 0 20 40 60 80 100 120 140 160 180 Capacity compensation coefficient Refrigerant piping one way equivalent length m Model FDC1300KXE6 FDC615KXE6 FDC680KXE6 Gas pipe ø38 1 0 80 0 85 0 90 0 95 1 00 Gas pipe ø34 92 0 20 40 60 80 100 120 140 160 180 Capacity compensation coefficient Refrigerant piping one way equival...

Page 27: ...ficient Total capacity of concurrently operating indoor unit Cooling Capacity compensation coefficient Heating f The capacity compensation coefficient and power consumption compensation coefficient vary according to the total capacity of concurrently operating indoor units as shown below Model FDCA140HKXEN4A 140HKXES4A 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4...

Page 28: ...icient Model FDC450KXE6 Heating Power consumption compensation coefficient Cooling Heating 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 Capability compensation coefficient Capability compensation coefficient Total capacity of concurrently operating indo...

Page 29: ...cient Model FDC560KXE6 Heating Power consumption compensation coefficient Cooling Heating 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 Capability compensation coefficient Capability compensation coefficient Total capacity of concurrently operating indoo...

Page 30: ...cient Model FDC680KXE6 Heating Power consumption compensation coefficient Cooling Heating 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 Capability compensation coefficient Capability compensation coefficient Total capacity of concurrently operating indoo...

Page 31: ...ient Model FDC800KXE6 Heating Power consumption compensation coefficient Cooling Heating Note If the connecting capacity of the indoor unit exceeds 130 consider the connecting capacity as 130 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 Capability compe...

Page 32: ...n coefficient Model FDC900KXE6 Heating Power consumption compensation coefficient Cooling Heating 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 1 2 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 Capability compensation coefficient Capability compensation coefficient n n Total capacity of concurre...

Page 33: ... Cooling Capability compensation coefficient Model FDC1010KXE6 Heating Power consumption compensation coefficient Cooling Heating 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 Capability compensation coefficient Capability compensation coefficient Total ...

Page 34: ...n coefficient Cooling Capability compensation coefficient Model FDC1130KXE6 Heating Power consumption compensation coefficient Cooling Heating 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 Capability compensation coefficient Capability compensation coeff...

Page 35: ... coefficient Cooling Capability compensation coefficient Model FDC1235KXE6 Heating Power consumption compensation coefficient Cooling Heating 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 0 20 40 60 80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 Capability compensation coefficient Capability compensation coeffi...

Page 36: ...80 100 120 0 0 2 0 4 0 6 0 8 1 0 1 2 Capability compensation coefficient Capability compensation coefficient Total capacity of concurrently operating indoor unit Total capacity of concurrently operating indoor unit Total capacity of concurrently operating indoor unit Total capacity of concurrently operating indoor unit Power consumption compensation coefficient Power consumption compensation coeff...

Page 37: ...SL BOE WFOUJMBUF UIF SPPN 3FGSJHFSBOU HBT JG JU DPNFT JOUP DPOUBDU XJUI CBSF mSF DBO DBVTF UIF HFOFSBUJPO PG B UPYJD HBT 6TF QJQFT nBSF OVUT BOE UPPMT TQFDJmDBMMZ EFTJHOFE GPS 3 5IF VTF PG FYJTUJOH NBUFSJBMT EFTJHOFE GPS SFGSJHFSBOU PUIFS UIBO 3 DBO SFTVMU JO B VOJU GBJMVSF BT XFMM BT B TFSJPVT BDDJEFOU TVDI BT SFGSJHFSBUJPO DZDMF SVQUVSF PS JOKVSZ 5JHIUFO B nBSF OVU UP B TQFDJmFE UPSRVF XJUI UXP ...

Page 38: ...VTFE JO DPNCJOBUJPO XJUI UIF GPMMPXJOH JOEPPS VOJU 0QUJPOBM QBSUT 3FGSJHFSBOU EJTUSJCVUJPO QJQJOH DPNQPOFOUT TVQQMJFE BT PQUJPOBM QBSUT XJMM CFDPNF OFDFTTBSZ JO JOTUBMMJOH UIF VOJU T SFGSJHFSBOU EJTUSJCVUJPO QJQJOH DPNQPOFOUT CSBODIJOH QJQF TFUT NPEFM UZQF 04 GPS UIF PVUEPPS VOJU TJEF QJQJOH CSBODIJOH QJQF TFUT NPEFM UZQF 4 BOE IFBEFS TFUT NPEFM UZQF GPS UIF PVUEPPS VOJU TJEF QJQJOH BSF BWBJMBCMF ...

Page 39: ...7 TFU PS SBEJP SFDFJWFS JT QMBDFE XJUIJO N G FMFDUSJDBM JOUFSGFSFODF JT DBVTFE TFFL B QMBDF MFTT MJLFMZ UP DBVTF UIF QSPCMFN 4FMFDUJOH UIF JOTUBMMBUJPO MPDBUJPO 1MFBTF TFDVSF TVGmDJFOU DMFBSBODF SPPN GPS NBJOUFOBODF XPSL QBTTBHF ESBGU BOE QJQJOH G ZPVS JOTUBMMBUJPO TJUF EPFT OPU GVMmMM UIF JOTUBMMBUJPO DPOEJUJPO SFRVJSFNFOUT TFU PVU PO UIJT ESBXJOH QMFBTF DPOTVMU XJUI ZPVS EJTUSJCVUPS PS UIF NBOVG...

Page 40: ...JPO VOJU B JGGFSFODF JO UIF FMFWBUJPO N PS MFTT C JTUBODF CFUXFFO BO PVUEPPS VOJU BOE BO PVUEPPS VOJU TJEF CSBODIJOH QJQF N PS MFTT D FOHUI PG PJM FRVBMJ BUJPO QJQJOH N PS MFTT 1MFBTF VTF 5 GPS φ PS MBSHFS QJQFT 1MFBTF DPOOFDU UIF NBTUFS BOE TMBWF VOJUT XJUI BO PJM FRVBMJ BUJPO QJQF XIFO UIFZ BSF VTFE JO B DPNCJOFE JOTUBMMBUJPO U JT OPU SFRVJSFE XIFO B VOJU JT VTFE BT B TUBOEBMPOF JOTUBMMBUJPO 3FT...

Page 41: ... BQQSPQSJBUF QJQF TJ F BT EFUFSNJOFE CZ UIF UPUBM DBQBDJUZ PG JOEPPS VOJUT DPOOFDUFE EPXOTUSFBN QSPWJEFE IPXFWFS UIBU UIF QJQF TJ F GPS UIJT TFDUJPO TIPVME OPU FYDFFE UIF NBJO TJ F 4FDUJPO JO JHVSF BT QJQF φ U φ U φ U φ U φ φ U φ U φ U φ U φ U 5PUBM DBQBDJUZ PG JOEPPS VOJUT FTT UIBO PS NPSF CVU MFTT UIBO PS NPSF CVU MFTT UIBO PS NPSF CVU MFTT UIBO PS NPSF CVU MFTT UIBO PS NPSF CVU MFTT UIBO PS NPS...

Page 42: ...POH BT QJQF DPOOFDUJPO QPJOUT BOE EJSFDUJPOT BSF DPODFSOFE FYDFQU UIBU UIF IFJHIU PG B VOJU JT EJGGFSFOU FBTVSFNFOUT JO JOEJDBUF UIPTF PG B PS MBSHFS DBQBDJUZ VOJU 1JQF DPOOFDUJPO QPTJUJPO BOE QJQF EJSFDUJPO 0WFS N 1JQF GBTUFOJOH QPTJUJPO OH QJQF TFU 4 5PUBM DBQBDJUZ EPXOTUSFBN FTT UIBO PS NPSF CVU MFTT UIBO PS NPSF CVU MFTT UIBO PS NPSF FBEFS TFU NPEFM UZQF VNCFS PG CSBODIFT CSBODIFT BU UIF NPTU ...

Page 43: ...EF CVJMET VQ UP B TVGmDJFOU MFWFM SFNPWF UIF IBOE UP nVTI JO nVTIJOH B QJQF DMPTF UIF PUIFS FOE PG UIF QJQF XJUI B QMVH 0QFSBUJPO QSPDFEVSF O MBZJOH QJQFT PO UIF JOTUBMMBUJPO TJUF LFFQ UIF PQFSBUJPO WBMWFT TIVU BMM UIF UJNF MB JOH NVTU CF QFSGPSNFE VOEFS B OJUSPHFO HBT nPX 8JUIPVU OJUSPHFO HBT B MBSHF RVBOUJUZ PG GPSFJHO NBUUFST PYJEJ FE mMN BSF DSFBUFE DBVTJOH B DSJUJDBM GBJMVSF GSPN DBQJMMBSZ UV...

Page 44: ...PS mWF NJOVUFT PS NPSF UP TFF JG UIF QSFTTVSF ESPQT C 5IFO SBJTF UIF QSFTTVSF UP 1B BOE TUPQ FBWF JU GPS mWF NPSF NJOVUFT UP TFF JG UIF QSFTTVSF ESPQT D 5IFO SBJTF UIF QSFTTVSF UP UIF TQFDJmFE MFWFM 1B BOE SFDPSE UIF BNCJFOU UFNQFSBUVSF BOE UIF QSFTTVSF E G OP QSFTTVSF ESPQ JT PCTFSWFE XJUI BO JOTUBMMBUJPO QSFTTVSJ FE UP UIF TQFDJmFE MFWFM BOE MFGU GPS BCPVU POF EBZ JU JT BDDFQUBCMF 8IFO UIF BNCJF...

Page 45: ...FBU JOTVMBUJPO CPUI HBT BOE MJRVJE QJQFT D JWF IFBU JOTVMBUJPO UP CPUI HBT BOE MJRVJE TJEF QJQFT VOEMF B IFBU JOTVMBUJOH NBUFSJBM BOE B QJQF UJHIUMZ UPHFUIFS TP UIBU OP HBQT NBZ CF MFGU CFUXFFO UIFN BOE XSBQ UIFN UPHFUIFS XJUI B DPOOFDUJOH DBCMF CZ B ESFTTJOH UBQF E MUIPVHI UIJT BJS DPOEJUJPOJOH VOJU IBT CFFO UFTUFE VOEFS UIF 4 DPOEFOTBUJPO UFTU DPOEJUJPOT UIF ESJQQJOH PG XBUFS NBZ PDDVS XIFO JU J...

Page 46: ...VOE UIF VOJU P OPU DPOOFDU UIF HSPVOEJOH XJSF UP B HBT QJQF XBUFS QJQF MJHIUOJOH SPE PS UFMFQIPOF HSPVOEJOH XJSF G JNQSPQFSMZ HSPVOEFE BO FMFDUSJD TIPDL PS NBMGVODUJPO NBZ SFTVMU G 5IF JOTUBMMBUJPO PG BO JNQVMTF XJUITUBOEJOH UZQF FBSUI MFBLBHF CSFBLFS JT OFDFTTBSZ GBJMVSF UP JOTUBMM BO FBSUI MFBLBHF CSFBLFS DBO SFTVMU JO BO BDDJEFOU TVDI BT BO FMFDUSJD TIPDL PS B mSF P OPU UVSO PO UIF QPXFS VOUJM ...

Page 47: ...BLFS BSUI XJSF BSUI MFBLBHF CSFBLFS QIBTF XJSF 7 N MFTT UIBO TFD N MFTT UIBO TFD N MFTT UIBO TFD N MFTT UIBO TFD N MFTT UIBO TFD N MFTT UIBO TFD F TUB VQ UP 3FNPUF NBUFSJBM 65 0 G UIF FBSU FUIPE PG MFBEJOH PVU DBCMFT T TIPXO PO UIF ESBXJOH JO 4FDUJPO DBCMFT DBO CF MBJE UISPVHI UIF GSPOU SJHIU MFGU PS CPUUPN DBTJOH O XJSJOH PO UIF JOTUBMMBUJPO TJUF DVU PGG B IBMG CMBOL φ PS PCMPOH IPMF NFBTVSJOH Y ...

Page 48: ...JU 0VUEPPS VOJU OEPPS VOJU 0VUEPPS TJHOBM MJOF UFSNJOBM CMPDL OEPPS TJHOBM MJOF UFSNJOBM CMPDL PPQ XJSJOH QSPIJCJUFE 5IF TJHOBM MJOFT DBOOPU GPSN B MPPQ TP UIF XJSJOHT TIPXO BT JO UIF EJBHSBN BSF QSPIJCJUFE NQPSUBOU A A1 B1 A2 B2 A1 B1 A2 B2 A1 B1 A2 B2 A1 B1 A2 B2 A B A B A B A B A B A B A B OEPPS VOJU OEPPS VOJU A B A B 4JHOBM DBCMFT BSF GPS 7 FWFS DPOOFDU XJSFT GPS 7 PS 7 1SPUFDUJWF GVTF PO UIF...

Page 49: ...BSBUFE GSPN UIFJST 8IFO DPNNVOJDBUJPO JT FTUBCMJTIFE BGUFS TFUUJOH BEESFTTFT DIFDL UIF DPNNVOJDBUJPO QSPUPDPM XJUI UIF TFHNFOU EJTQMBZ QBOFM PG UIF PVUEPPS VOJU 4 4 4 4 EESF 4FU 48 P OPU DPOOFDU UIF TJHOBM MJOF CFUXFFO PVUEPPS VOJUT PO UIF EJGGFSFOU SFGSJHFSBOU MJOFT UP BOE P OPU DPOOFDU UIF TJHOBM MJOF CFUXFFO PVUEPPS VOJUT PO UIF TBNF SFGSJHFSBOU MJOF UP BOE 5IJT NBZ JOUFSSVQU QSPQFS BEESFTT TFU...

Page 50: ...TXJUDI UP UIF TBNF OVNCFS XJUI B NBTUFS VOJU BOE UIFO TFU UIF EJQTXJUDI 48 PG UIF TMBWF VOJU UP 0 4FU CPUI NBTUFS BOE TMBWF VOJUT UP UIF TBNF PVUEPPS VOJU OVNCFS 5VSO PO QPXFS JO PSEFS GSPN UIF PVUEPPS VOJU UP JOEPPS VOJUT JWF B POF NJOVUF PS MPOHFS JOUFSWBM GPS UIFN 8IFO UIFSF BSF TPNF VOJUT OPU TVQQPSUJOH OFX 4 DPOOFDUFE JO UIF OFUXPSL TFU 48 UP 0 UP DIPPTF UIF QSFWJPVT 4 DPNNVOJDBUJPO NPEF O UI...

Page 51: ...PO UP JOQVU i VUPNBUJD BEESFTT TUBSU w OQVU B TUBSUJOH BEESFTT BOE UIF OVNCFS PG DPOOFDUFE JOEPPS VOJUT OQVU B TUBSUJOH BEESFTT JO 1 PO UIF TFHNFOU EJTQMBZ QBOFM PG FBDI PVUEPPS VOJU NBTUFS VOJU JO DBTF PG DPNCJOBUJPO 8IFO B TUBSUJOH BEESFTT JT FOUFSFE UIF EJTQMBZ JOEJDBUJPO XJMM TXJUDI CBDL UP UIF i VNCFS PG POOFDUFE OEPPS 6OJUT OQVUw TDSFFO OQVU UIF OVNCFS PG DPOOFDUFE JOEPPS VOJUT GSPN UIF TFHN...

Page 52: ... JO 1 PO UIF TFHNFOU EJTQMBZ QBOFM PG BOZ PVUEPPS VOJU OE ー ー ー ー ー ー ー ー i 6 w CMJOL PS i w JO FSSPS FWFOUT OEPPS VOJU QPXFS TPVSDF 0VUEPPS VOJU QPXFS TPVSDF OEPPS VOJU JOEPPS PVUEPPS P 48 0VUEPPS VOJU PVUEPPS P 48 FUXPSL DPOOFDUPST 4UBSU BVUPNBUJD BEESFTT TFUUJOH 4FU TUBSUJOH BEESFTT 4FU UIF OVNCFS PG JOEPPS VOJU 1PMBSJUZ TFUUJOH TFHNFOU EJTQMBZ OEPPS P 48 0VUEPPS P 48 OEPPS VOJU BEESFTT TFUUJOH...

Page 53: ...BOTNJUUFE i4 5 0 1 5 w XJMM CF JOEJDBUFE 5IFO UIF SFNPUF DPOUSPMMFS EJTQMBZ XJMM DIBOHF UP UIF OPSNBM TUBUF G ZPV XBOU UP FOE UIF TFTTJPO XJUIPVU SFGMFDUJOH OFX BEESFTT TFUUJOHT FGPSF ZPV DPNQMFUF UIF QSFTFOU BEESFTT TFUUJOH TFTTJPO QSFTT UIF i0 0 w TXJUDI 5IFO UIF EJTQMBZ JT DIBOHF UP FYJU GSPN UIJT NPEF BOE TXJUDI UIF EJTQMBZ UP UIF OPSNBM TUBUF MM BEESFTT TFUUJOHT DIBOHFE JO UIF TFTTJPO XJMM CF...

Page 54: ...UT PG B EJTQMBZ 1MFBTF DIFDL POUFOUT PG B EJTQMBZ BVTF PEF VQMJDBUJOH JOEPPS VOJU BEESFTT ODPSSFDU QBJSJOH PG JOEPPS PVUEPPS VOJUT ODPSSFDU BEEFSFTT TFUUJOH PG JOEPPS VOJUT EESFTT TFUUJOH GPS QMVSBM SFNPUF DPOUSPMMFST ODPSSFDU TFUUJOH VQMJDBUJOH PVUEPPS VOJU BEESFTT ODPSSFDU NBOVBM BEESFTT TFUUJOH OEPPS VOJU BEESFTT JT TFU GSPN QMVSBM SFNPUF DPOUSPMMFST 1MVSBM PVUEPPS VOJUT BSF FYJTU BT TBNF BEESF...

Page 55: ...JSDVJUFE PSNBM EFGSPTUJOH 0QFO PSDFE EFGSPTUJOH MMPDBUJPO PG FYUFSOBM PVUQVU O4 MMPDBUJPO PG FYUFSOBM PVUQVU O4 MMPDBUJPO PG FYUFSOBM PVUQVU O MMPDBUJPO PG FYUFSOBM PVUQVU O 0VUEPPS VOJU GBO TOPX QSPUFDUJPO DPOUSPM 0 UJNF TFUUJOH TFD BU TIJQQJOH TFD 1VNQ EPXO PQFSBUJPO 0QFSBUJPO QSJPSJUZ TFMFDUJPO 48 0 48 0 BDUPSZ EFGBVMU 48 0 48 0 48 0 48 0 48 0 48 0 ー ー ー ー ー ー ー ー ー ー ー ー ー MPTF UIF nVJE PQFSBU...

Page 56: ...PJOUT 8IFUIFS PS OPU UIF PQFSBUJPO WBMWF JT MFGU PQFO 0QFSBUJPO WBMWF PQFO DMPTF DIFDL O DBTF PG DPNCJOBUJPO IPXFWFS BMM PQFSBUJPO WBMWFT OFFE UP CF DMPTFE PO NBTUFS BOE TMBWF VOJUT UP PCUBJO BDDVSBUF KVEHNFOU 8IFUIFS PS OPU UIF SFGSJHFSBOU QJQFT BOE TJHOBM DBCMFT BSF DPOOFDUFE QSPQFSMZ CFUXFFO JOEPPS BOE PVUEPPS VOJUT JTNBUDI DIFDL 8IFUIFS PS OPU UIF JOEPPS FYQBOTJPO WBMWF PQFSBUFT QSPQFSMZ YQBOT...

Page 57: ...DPOUSPMw JT JOEJDBUFE 5FTU PQFSBUJPO 53 4 3 6TF UIF JOTUSVDUJPO NBOVBM UIBU DBNF XJUI UIF PVUEPPS VOJU UP FYQMBJO UIF PQFSBUJPO NFUIPE UP UIF DVTUPNFS 1MFBTF BTL UIF DVTUPNFS UP LFFQ UIJT JOTUBMMBUJPO NBOVBM UPHFUIFS XJUI UIF PQFSBUJPO NBOVBM PG IJT JOEPPS VOJUT OTUSVDU UIF DVTUPNFS UIBU UIF QPXFS TIPVME OPU CF UVSOFE PGG FWFO JG UIF VOJU JT OPU UP CF VTFE GPS B MPOH UJNF 5IJT XJMM FOBCMF PQFSBUJP...

Page 58: ... 55 2 7 INSTRUCTIONS FOR INSTALLING THE BRANCH PIPE SET ...

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Page 62: ...TEM Air Conditioning Refrigeration Systems Headquarters 16 5 2 chome Kounan Minato ku Tokyo 108 8215 Japan Fax 03 6716 5926 No 118 R Because of our policy of continuous improvement we reserve the right to make changes in all specifications without notice ...

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