Daikin Sky Air (RZQS-DV1) Outdoor Technical Data Book

March 17, 2018 | Author: reinsc | Category: Air Conditioning, Relay, Hvac, Power Supply, Fuse (Electrical)
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Description

• Outdoor Units • R-410A • RZQS-DV11 t A i n y U k 1S r V o AD t o0- i d1S lt4Q puZ- SR•O • 1 Outdoor units for pair, twin, triple, double twin application The Sky Air Inverter is developed for use in shops, restaurants and small offices. This innovative Daikin unit provides a more comfortable environment and offers great savings in energy consumption to shop and office owners. • During start up, the room can be cooled down or heated very quickly. Once the temperature in the room has reached its set point, the low power operation starts to save energy. • Daikin outdoor units are neat and sturdy and can be mounted easily on a roof or terrace or simply placed against an outside wall. • The use of inverter type outdoor units results in an air conditioning system with a high energy efficiency and very low sound level • Outdoor units are fitted with either a swing or scroll compressor, renowned for low noise and high energy efficiency • An inverter driven compressor allows the capacity to be adjusted precisely to match variations in room and outside temperatures. • A special acryl precoated fin for anti-corrosion treatment on the heat exchanger ensures greater resistance against severe weather conditions 1 1 Features • Split Sky Air • Outdoor Units • Outdoor Units • R-410A • RZQS-DV1 2 Specifications 3 2-1 NOMINAL CAPACITY AND NOMINAL INPUT RZQS71D7V1B RZQS100D7V1B RZQS125D7V1B RZQS140D7V1B FCQ71C7VEB FCQ100C7VEB FCQ125C7VEB FCQ140C7VEB For combination indoor units + outdoor units Indoor Units Cooling capacity Standard kW 7.1 10.0 12.5 14.0 Heating capacity Standard kW 8.0 11.2 14.0 16.0 Power Input For combination indoor units + outdoor units 1 Cooling Standard kW 2.28 3.22 4.02 5.36 Heating Standard kW 2.35 3.28 4.06 4.98 EER Nominal 3.11 3.11 3.11 2.61 COP Nominal 3.41 3.41 3.45 3.21 Energy Label Cooling B B B D Heating B B B C 1,141 1,608 2,010 2,682 Annual energy consumption kWh FCQH71D7VEB FCQH100D7VEB FCQH125D7VEB FCQH140D7VEB Cooling capacity Indoor Units Standard kW 7.1 10.0 12.5 14.0 Heating capacity Standard kW 8.0 11.2 14.0 16.0 Power Input For combination indoor units + outdoor units Cooling Standard kW 2.15 2.90 3.88 4.65 Heating Standard kW 2.16 2.95 3.79 4.69 EER Nominal 3.30 3.45 3.22 3.01 COP Nominal 3.70 3.80 3.69 3.41 Energy Label Cooling A A A B Heating A A A B 1,076 1,449 1,941 2,326 Annual energy consumption kWh FBQ71C7VEB FBQ100C7VEB FBQ125C7VEB FBQ140C7VEB Cooling capacity Indoor Units Standard kW 7.1 10.0 12.5 13.4 Heating capacity Standard kW 8.0 11.2 14.0 15.0 Power Input For combination indoor units + outdoor units Cooling Standard kW 2.18 3.03 3.98 4.77 Heating Standard kW 2.25 3.07 4.11 4.67 EER Nominal 3.26 3.30 3.14 2.81 COP Nominal 3.55 3.65 3.41 3.21 Energy Label Cooling A A B C Heating B A B C 1,089 1,515 1,990 2,384 Annual energy consumption kWh FHQ71BVV1B FHQ100BVV1B FHQ125BVV1B Cooling capacity Indoor Units Standard kW 7.1 10.0 12.5 Heating capacity Standard kW 8.0 11.2 14.0 Power Input For combination indoor units + outdoor units Cooling Standard kW 2.51 3.56 4.55 Heating Standard kW 2.75 3.85 4.86 EER Nominal 2.83 2.81 2.75 COP Nominal 2.91 2.91 2.88 Energy Label Cooling C C D Heating D D D 1,254 1,779 2,273 Annual energy consumption kWh FAQ71BVV1B FAQ100BVV1B FDQ125B8V3B9 Cooling capacity Indoor Units Standard kW 7.1 10.0 12.5 Heating capacity Standard kW 8.0 11.2 14 Cooling Standard kW 2.44 3.56 4.30 Heating Standard kW 2.49 3.49 3.97 Power Input • Split Sky Air • Outdoor Units 2 2 148 EER Annual energy consumption kWh FVQ71BV1B FVQ100BV1B FVQ125BV1B Cooling capacity Indoor Units Standard kW 7.779 2.36 EER Nominal 2.0 Power Input For combination indoor units + outdoor units Cooling Standard kW 2.21 Energy Label Cooling C C C Heating C C C 1.81 2.0 11.170 Width mm 900 900 900 900 Depth mm 320 320 320 320 Height mm 900 1.4 1.0 12.641 0.• Outdoor Units • R-410A • RZQS-DV1 2 Specifications 2-1 NOMINAL CAPACITY AND NOMINAL INPUT 1 For combination indoor units + outdoor units 2 RZQS71D7V1B RZQS100D7V1B RZQS125D7V1B Nominal 2.53 3.4 1.265 1.21 3.21 3.98 0.21 3.98 0.5 Heating capacity Standard kW 8.1 10.21 3.98 34 52 52 52 Tube type Fin Hi-XSS(8) Type WF fin Treatment Fan Anti-corrosion treatment (PE) Type Propeller Discharge direction Horizontal Quantity 1 2 2 2 Air Flow Rate (nominal at 230V) Cooling m³/min 52 96 100 97 Heating m³/min 48 90 90 90 Motor Quantity Model Motor Fan Speed (nominal) Motor Steps 1 2 2 2 KFD-325-70-8A Brushless DC Motor Brushless DC Motor Brushless DC Motor 8 8 8 8 rpm Cooling (Standard ) 800 800 850 830 rpm Heating (Standard ) 745 760 760 760 Output 70 70 70 70 W Drive 3 RZQS140D7V1B Ivory White Material Packing RZQS125D7V1B RZQS140D7V1B Direct drive • Split Sky Air • Outdoor Units .170 1.49 3.53 Energy Label Cooling C C C Heating C C B 1.349 Width mm 980 980 980 980 Depth mm 420 420 420 420 kg 68 103 103 103 Unit Packed Unit Heat Exchanger Dimensions Length kg 72 119 119 119 mm 857 857 857 857 2 2 2 2 mm 1.779 2.56 4.91 2.81 COP Nominal 3.349 1.2 14.225 RZQS71D7V1B RZQS100D7V1B Annual energy consumption kWh 2-2 TECHNICAL SPECIFICATIONS Casing Colour Dimensions Unit Weight Paintable galvanized steel plate Height mm 770 1.220 1.81 2.4 1.81 2.4 Nr of Rows Fin Pitch Nr of Passes Face Area m² Nr of Stages 8 10 10 10 0.349 1.45 Heating Standard kW 2.170 1.49 4.91 COP Nominal 3. 0 1.52 9.9 3 3 26 26 Type Flare connection Diameter (OD) Gas mm Quantity 9. internunit level difference m see installation manual 4PW49302-1 15 30 30 30 0.5 15.200 33 33 33 -5.200 2.5 0.700 2.75 3.0 1 1 1 1 9.52 1 1 Type Flare connection Diameter (OD) Drain mm Quantity 15.5 Heat Insulation Both liquid and gas pipes Defrost Method Pressure equalising Defrost Control Temperature Capacity Control Method Inverter controlled • Split Sky Air • Outdoor Units 4 .0 1.• Outdoor Units • R-410A • RZQS-DV1 2 2-2 Specifications TECHNICAL SPECIFICATIONS Compressor Quantity Motor RZQS71D7V1B RZQS100D7V1B RZQS125D7V1B RZQS140D7V1B 1 1 1 1 Model 2YC63DXD JT100G-VD JT100G-VD JT100G-VD Type Hermetically sealed swing compressor Hermetically sealed scroll compressor Hermetically sealed scroll compressor Hermetically sealed scroll compressor 1.9 15.0 -5.9 15.7 3.200 2.5 0.5 15.0 Max °CDB 46 46 46 46 Heating Min °CWB -15 -15 -15 -15 Max °CWB 15.5 0.52 1 1 15.7 3.52 9.7 Sound Level (Night quiet) Sound Pressure Refrigerant Type kg Control Expansion valve (electronic type) Nr of Circuits Type Charged Volume Piping connections Liquid (OD) l Quantity 1 1 1 1 FVC50K Daphne FVC68D Daphne FVC68D Daphne FVC68D 0.0 Motor Output W Crankcas W e Heater Starting Method Operation Range Sound Level (nominal) Cooling °CDB -5.5 15.5 Cooling Sound Power dBA 65 67 67 68 Sound dBA Pressure (Standard ) 49 51 51 52 Sound dBA Pressure (Standard ) 51 55 53 54 dBA 47 49 49 50 2.0 -5.75 1.9 3 3 Type Piping Length Hole Diameter (OD) mm Minimum 26 26 m 5 5 5 5 Maximum m 30 50 50 50 Equivalen m t 40 70 70 70 Chargele ss 30 30 30 30 Additional Refrigerant Charge Installation height difference 2 R-410A Charge Refrigerant Oil 1 Inverter driven Min Heating 3 m kg/m Maximum m Max. • Outdoor Units • R-410A • RZQS-DV1 2 2-2 Specifications TECHNICAL SPECIFICATIONS RZQS71D7V1B RZQS100D7V1B Safety Devices RZQS125D7V1B RZQS140D7V1B High pressure switch Fan motor thermal protector 1 2 Fuse Standard Accessories Item Tie-wraps Quantity 2 2 Item 2 2 1 1 Installation manual Quantity 1 Notes 1 Nominal cooling capacities are based on : indoor temperature : 27°CDB. (2) Short-circuit power Power supply to the FDQ indoor unit is separate 5 • Split Sky Air • Outdoor Units . outdoor temperature : 35°CDB. outdoor temperature : 7°CDB. 19°CWB. 6°CWB. equivalent refrigerant piping : 5m. level difference : 0m. level difference : 0m 2-3 ELECTRICAL SPECIFICATIONS Power Supply RZQS71D7V1B RZQS100D7V1B Name Phase Current Wiring connections Hz Voltage V Minimum 50 50 50 50 220-240 V 198 198 198 198 Maximum V 264 264 264 264 32 32 Minimum Ssc (²) value kVa Recomended fuses A For Power Supply RZQS140D7V1B 1~ Frequency Voltage range RZQS125D7V1B V1 Dummy 20 32 Remark see installation manual 4PW49302-1 For connection Remark with indoor see installation manual 4PW49302-1 Power Supply Intake Outdoor unit only Notes See separate drawings for electrical data (1) European/international technical standard setting the limits for harmonic currents produced by equipment connected to public low-voltage system with input current > 16A smaller than or equal to 75A per phase. Nominal heating capacities are based on : indoor temperature : 20°CDB. equivalent refrigerant piping : 5m. Fuse Amps (A) (See note 7) : MSC means the max.230V Cooling Indoor temperature 27°CDB/19°CWB Outdoor temperature 35°CDB Heating Indoor temperature 20. min. current during the starting of compressor.15A) Select wire size based on the larger value of MCA or TOCA MFA is used to select the circuit breaker and the ground fault circuit interrupter (earth leakage circuit breaker) SYMBOLS MCA TOCA MFA MSC RLA OFM IFM FLA kW : Min.. (A) : Rated Load Amps (A) : Outdoor Fan Motor (A) : Indoor Fan Motor : Full Load Amps : Fan Motor Rated Output (kW) 3D063321 • Split Sky Air • Outdoor Units 6 . Circuit Amps (A) : Total Over Current Amps (A) : Max. Voltage range MCA TOCA MFA MSC RLA OFM kW IFM FLA kW FLA 1 3 NOTES 1 2 3 4 5 6 7 RLA is based on the following conditions: Power supply: 50Hz .0°CWB TOCA means the total value of each OC set Voltage range Units are suitable for use on electrical systems where voltage supplied to unit terminals is not below or above listed operation range limits Maximum allowable voltage unbalance between phases is 2% MCA represents maximum input current.• Outdoor Units • R-410A • RZQS-DV1 3 Electrical data 3 RZQS71-140DV1 Unit combination Indoor unit Outdoor unit Hz-volts Power supply Comp.0°CDB/6.0°CDB Outdoor temperature 7. MFA represents capacity which may accept MCA (next lower standard fuse rating. • Outdoor Units • R-410A • RZQS-DV1 4 Options RZQ(S)71-140DV1 Kit name 1 4 Name of option RZQ71D7V1B RZQ100D7V1B RZQ125D7V1B RZQ140D7V1B RZQS71D7V1B RZQS100D7V1B RZQS125D7V1B RZQS140D7V1B - RZQ100B8W1B RZQ125B8W1B RZQ140B8W1B Central drain plug EKDK04 Twin Refrigerant branch piping KHRQ22M20TA (KHRQ58T): see note Triple - Double-twin - - Demand adapter kit KHRQ127H (KHRQ58H): see note KHRQ22M20TA (KHRQ58T): see note (3x) KRP58M51 NOTE 1 For RZQ100-140B8W1B in combination with FCQ35-71C. FCQH71C or FCQH71D use the refrigerant branch piping mentioned between brackets. 3TW26739-1F 7 • Split Sky Air • Outdoor Units . 3TW26739-2C • Split Sky Air • Outdoor Units 8 .• Outdoor Units • R-410A • RZQS-DV1 5 Capacity tables 5-1 Combination table 3 RZQ(S)71-140DV1 Multi Combination Possibilities: P = Pair 71 100 125 140 2 = Twin 35+35 50+50 60+60 71+71 3 = Triple 35+35+35 4 = Double Twin 50+50+50 (*) 50+50+50 (*) 35+35+35+35 (*) 35+35+35+35 1 5 (*) Max capacity depend on outdoor unit RZQ71D7V1B P 2 P 2 4 3 4 3 2 4 3 4 3 2 2 4 3 4 3 P 2 P 2 4 3 4 3 P FVQ125BV1B FVQ71BV1B FVQ125BV1B FVQ71BV1B FVQ100BV1B FDQ125B8V3B Floor standing P P 2 FVQ100BV1B FDQ125B8V3B FAQ71BVV1B FAQ100BVV1B FUQ125BVV1B FUQ71BVV1B P P 2 FAQ100BVV1B Wall mounted High ESP Duct FAQ71BVV1B FUQ125BVV1B FHQ125BVV1B P 2 4way ceiling P 3 FUQ100BVV1B FHQ125BVV1B FHQ71BVV1B FHQ60BVV1B FHQ100BVV1B 2 FHQ100BVV1B FHQ35BVV1B FBQ140C7VEB 2 P 2 2 P P FUQ100BVV1B 3 Floor standing P P FUQ71BVV1B 4 2 Wall mounted High ESP Duct P Ceiling suspended P 3 FHQ50BVV1B FHQ35BVV1B FBQ140C7VEB FBQ125C7VEB FBQ71C7VEB FBQ100C7VEB FBQ60C7VEB 2 3 P 3 New Duct (medium ESP) FBQ35C7VEB FFQ60B8V1B FFQ50B8V1B 2 4 P P FHQ71BVV1B 3 P 2 FHQ60BVV1B 4 2 4way ceiling P 3 FHQ50BVV1B 3 FBQ125C7VEB 3 4 2 P FBQ100C7VEB 4 2 2 FBQ71C7VEB 3 Ceiling suspended P 3 FBQ60C7VEB 4 FFQ35B8V1B FCQ140C7VEB P FBQ50C7VEB FFQ60B8V1B FBQ35C7VEB FFQ50B8V1B 2 2 P 2 2 3 2x2 cassette P 2 New Duct (medium ESP) FBQ50C7VEB P P 3 FFQ35B8V1B FCQ140C7VEB FCQ125C7VEB FCQ71C7VEB FCQ100C7VEB 2 2 P RZQ125D7V1B FCQ60C7VEB FCQ50C7VEB FCQH140D7VEB FCQ35C7VEB 3 P Thin cassette P RZQ100D7V1B RZQ140D7V1B 4 2 FCQ125C7VEB Model name 3 HH Cassette FCQH71D7VEB Sky-air P 4 2 P FCQ100C7VEB 2 2 FCQ71C7VEB RZQ140B8W1B P 2x2 cassette P 3 FCQ60C7VEB RZQ140D7V1B 2 P FCQ50C7VEB RZQ125B8W1B P FCQ35C7VEB RZQ125D7V1B Thin cassette FCQH140D7VEB RZQ100B8W1B FCQH125D7VEB RZQ71D7V1B RZQ100D7V1B FCQH100D7VEB Model name FCQH125D7VEB FCQH71D7VEB HH Cassette FCQH100D7VEB Sky-air P P P 2 NOTES 1 2 Individual indoor capacities are not given because the combinations are for simultaneous operation (= indoor units installed in the same room) When different indoor models are used in combination. designate the remote control that is equipped with the most function as the main unit. 02 x AFR (m /min.10) Model AFR (BF) FCQ35Cx2 10.00.25x2) FBQ35Cx2 15x2 (0. (-) Cooling Capacity range Rated point Cooling capacity (kW) Cooling capacity Indoor Outdoor temp. 7.28 FBQ71C 2.19) FBQ71 18 (0. the condition on nominal capacity is 7° CDB/6° CWB (heating) Corresponding refrigerant piping length : 5.28x2) FFQ35x2 10x2 (0.) x (1−BF) x (DB*−EDB) Add SHC* to SHC.18 FHQ71 2.59 FFQ35x2 2. at standard conditions. 6.08) FHQ71 17 (0. However the max.5x2 (0. On the figure the mark j show the max. Ratings shown are net capacities which include a deduction for indoor fan motor heat 2.0 m Level difference :0m 5. Capacities are based on following conditions: Outdoor air : 85 % RH. Coefficient of power input is the percentage when the rated valve is defined as 1.2x2) FAQ71 19 (0. Rated power input of each model is tabulated below. Air flow rate and BF are tabulated below.08) FVQ71 18 (0. capacity is not guaranteed. Entering dry bulb temp.15 FCQ71C 2.66 FAQ71 2.44 FVQ71 2. (Pair) Model Cooling FCQH71D 2.51 FCQ35Cx2 2. except at standard condition. (Pair) Model AFR (BF) FCQH71D 21 (0. SHC is based on each EWB and EDB SHC* = SHC correction for other dry bulb 3 SHC* = 0. 3. (°CDB) EWB EDB (°C) (°C) TC (kW) 25 SHC (kW) CPI (-) TC (kW) 30 SHC (kW) CPI (-) TC (kW) 35 SHC (kW) CPI (-) TC (kW) 40 SHC (kW) CPI (-) 3DTW3172-2 NOTES SYMBOLS 1.17) FCQ71C 15.15x2) FHQ35x2 13x2 (0. however. On the figure the mark Q show rated capacity and rated coefficient of power input. Caution: TC and SHC are shown by kW (m3/min) (°CWB) (°CDB) (kW) (kW) (kW) (-) .+indoor+outdoor fan motor) Coefficient of power input. Total cooling capacity Sensible heating capacity Power input (comp.16) (Twin) 8.• Outdoor Units • R-410A • RZQS-DV1 5 Capacity tables 5-2 Cooling capacity tables RZQS71DV1 1 5 Coefficient of power input.53 (Twin) Model Cooling 9 • Split Sky Air • Outdoor Units AFR: BF: EWB: EDB: TC: SHC: PI: CPI: Air flow rate Bypass factor Entering wet bulb temp.61 FBQ35x2 2. 4. The value contains less than 5% error acording to indoor unit type.25 FHQ35x2 2.5 (0. 90 FCQ100C 3.15x3) FHQ35x3 13x3 (0.1x2) Model AFR (BF) FCQ35Cx3 10. 4.02 x AFR (m /min.5 (0.28x3) FFQ35x3 10x3 (0. 3. (-) 1 5 Capacity range Rated point Cooling capacity (kW) Cooling capacity Indoor Outdoor temp.21x2) FFQ50x2 12x2 (0.22 FBQ100C 3.58 FFQ35x3 3. except at standard condition. (Pair) Model AFR (BF) FCQH100D 34 (0.) x (1−BF) x (DB*−EDB) Add SHC* to SHC.56 FVQ100 3.00.56 (Twin) Model Cooling (Triple) Model Cooling • Split Sky Air • Outdoor Units 10 .19) (Twin) (Triple) 8. capacity is not guaranteed. On the figure the mark j show the max.2x3) FAQ100 23 (0. Air flow rate and BF are tabulated below.5x2 (0.25x3) FBQ35Cx3 16x3 (0. On the figure the mark Q show rated capacity and rated coefficient of power input.90 FCQ35Cx3 3.58 FBQ35x3 3.90 FAQ100 3.10) AFR: BF: EWB: EDB: TC: SHC: PI: CPI: Air flow rate Bypass factor Entering wet bulb temp.16 FHQ35x2 3. at standard conditions. SHC is based on each EWB and EDB SHC* = SHC correction for other dry bulb 3 SHC* = 0.16x2) FBQ50Cx2 16x2 (0.58 FFQ35x2 3.0 m Level difference :0m 5. (m3/min) (°CWB) (°CDB) (kW) (kW) (kW) (-) Caution: TC and SHC are shown by kW FVQ100 28 (0. Rated power input of each model is tabulated below.17) FCQ100C 23.56 FCQ35Cx2 3. (Pair) Model Cooling FCQH100D 2. However the max. the condition on nominal capacity is 7° CDB/6° CWB (heating) Corresponding refrigerant piping length : 5.5x3 (0. The value contains less than 5% error acording to indoor unit type. Capacities are based on following conditions: Outdoor air : 85 % RH. Ratings shown are net capacities which include a deduction for indoor fan motor heat 2.58 FBQ35x2 3.14) Model AFR (BF) FCQ50Cx2 12.+indoor+outdoor fan motor) Coefficient of power input. 6.16) FBQ100C 32 (0. however.13) FHQ100 24 (0.16x2) FHQ50x2 13x2 (0.• Outdoor Units • R-410A • RZQS-DV1 5 Capacity tables 5-2 Cooling capacity tables 3 RZQS100DV1 Cooling Coefficient of power input. (°CDB) EWB EDB (°C) (°C) TC (kW) 25 SHC (kW) CPI (-) TC (kW) 30 SHC (kW) CPI (-) TC (kW) 35 SHC (kW) CPI (-) TC (kW) 40 SHC (kW) CPI (-) 3TW31722-2 NOTES SYMBOLS 1. 7. Coefficient of power input is the percentage when the rated valve is defined as 1. Total cooling capacity Sensible heating capacity Power input (comp. Entering dry bulb temp.16 FHQ35x3 3.03 FHQ100 3. 57 FAQ125 4. capacity is not guaranteed.16) FHQ125 30 (0.57 FCQ50Cx3 4.2x4) 8.45 FUQ125 3.17 FFQ50x3 4. On the figure the mark Q show rated capacity and rated coefficient of power input.25) AFR: BF: EWB: EDB: TC: SHC: PI: CPI: Air flow rate Bypass factor Entering wet bulb temp. The value contains less than 5% error acording to indoor unit type. the condition on nominal capacity is 7° CDB/6° CWB (heating) Corresponding refrigerant piping length : 5. Air flow rate and BF are tabulated below.19) FCQ125C 27. (-) Cooling Capacity range Rated point Cooling capacity (kW) Cooling capacity Indoor Outdoor temp. Entering dry bulb temp. except at standard condition.18 FHQ35x4 4.55 FCQ60Cx2 4.30 (Twin) Model Cooling (Triple) Model Cooling 11 (Double Twin) Model Cooling • Split Sky Air • Outdoor Units FCQ35Cx4 4.22 FBQ50x3 4.• Outdoor Units • R-410A • RZQS-DV1 5 Capacity tables 5-2 Cooling capacity tables RZQS125DV1 1 5 Coefficient of power input.21x3) FFQ50x3 12x3 (0.19) FBQ125C 39 (0.17 FFQ35x4 4.02 FBQ125C 3.16x3) FBQ50Cx3 16x3 (0.15x2) FHQ60x2 17x2 (0.1x3) FDQ125 45 (0.13) Model AFR (BF) FCQ60Cx2 13.15x4) FHQ35x4 13x4 (0.2x2) Model AFR (BF) FCQ50Cx3 12. Ratings shown are net capacities which include a deduction for indoor fan motor heat 2. SHC is based on each EWB and EDB SHC* = SHC correction for other dry bulb 3 SHC* = 0.21x2) FFQ60x2 15x2 (0. (Pair) Model AFR (BF) FCQH125D 34 (0. However the max. 7. 4. at standard conditions.16) (Twin) (Triple) (Double Twin) Model AFR (BF) FCQ35Cx4 10.17 FFQ60x2 4.98 FHQ125 4.22 FBQ60x2 4. On the figure the mark j show the max. Coefficient of power input is the percentage when the rated valve is defined as 1.22 FBQ35x4 4.16x3) FHQ50x3 13x3 (0.5x2 (0. Caution: TC and SHC are shown by kW FVQ125 32 (0.88 FCQ125C 4.0 m Level difference :0m 5. (Pair) Model Cooling FCQH125D 3.18 FHQ50x3 4. Rated power input of each model is tabulated below. 6.00.11x2) FBQ60Cx2 18x2 (0.28x4) FFQ35x4 10x4 (0. Total cooling capacity Sensible heating capacity Power input (comp.5x3 (0. 3.25x4) FBQ35Cx4 16x4 (0.57 (m3/min) (°CWB) (°CDB) (kW) (kW) (kW) (-) .5 (0. however.) x (1−BF) x (DB*−EDB) Add SHC* to SHC. Capacities are based on following conditions: Outdoor air : 85 % RH.+indoor+outdoor fan motor) Coefficient of power input.18 FHQ60x2 4.02 x AFR (m /min. (°CDB) EWB EDB (°C) (°C) TC (kW) 25 SHC (kW) CPI (-) TC (kW) 30 SHC (kW) CPI (-) TC (kW) 35 SHC (kW) CPI (-) TC (kW) 40 SHC (kW) CPI (-) 3TW31732-2 NOTES SYMBOLS 1.5x4 (0. 7. (-) 1 5 Capacity range Rated point Cooling capacity (kW) Cooling capacity Indoor Outdoor temp. at standard conditions.21x3) FBQ50Cx3 16x3 (0.17x2) (0.99 5. 4.0 m Level difference :0m 5.28x4) FFQ35x4 10x4 (0.16x3) Model AFR (BF) FCQ35Cx4 10. Entering dry bulb temp. Air flow rate and BF are tabulated below.95 FHQ71x2 5.12 FBQ50x3 4.89 FBQ35x4 4. On the figure the mark j show the max.12 FBQ71Cx2 4. 6.08x2) (Double Twin) FFQ50x3 12x3 (0.12 FFQ35x4 4.2x4) 8.) x (1−BF) x (DB*−EDB) Add SHC* to SHC.15x4) FHQ35x4 13x4 (0. (m3/min) (°CWB) (°CDB) (kW) (kW) (kW) (-) Caution: TC and SHC are shown by kW FCQ140C 27.10 12 . SHC is based on each EWB and EDB SHC* = SHC correction for other dry bulb 3 SHC* = 0.65 FCQ140C 5.36 (Twin) Model Cooling FCQH71Dx2 FCQ71Cx2 4. Rated power input of each model is tabulated below.25x4) FBQ35Cx4 16x4 (0.5x3 (0.1x3) AFR: BF: EWB: EDB: TC: SHC: PI: CPI: Air flow rate Bypass factor Entering wet bulb temp.5x2 (0.89 Model Cooling • Split Sky Air • Outdoor Units FCQ35Cx4 5.1x2) Model AFR (BF) FCQ50Cx3 12. except at standard condition.95 FHQ35x4 5.00.15x3) FHQ50x3 13x3 (0. Total cooling capacity Sensible heating capacity Power input (comp. However the max.5 (0. Ratings shown are net capacities which include a deduction for indoor fan motor heat 2.10 (Triple) Model Cooling FAQ71x2 5.20) Model AFR (BF) FCQH71Dx2 FCQ71Cx2 21x2 15. Capacities are based on following conditions: Outdoor air : 85 % RH.19x2) FBQ71Cx2 18x2 (0. (Pair) Model AFR (BF) FCQH140D 34 (0.• Outdoor Units • R-410A • RZQS-DV1 5 Capacity tables 5-2 Cooling capacity tables 3 RZQS140DV1 Cooling Coefficient of power input.01 (Double Twin) FFQ50x3 4. the condition on nominal capacity is 7° CDB/6° CWB (heating) Corresponding refrigerant piping length : 5.08x2) FHQ71x2 17x2 (0. 3.5x4 (0. capacity is not guaranteed.95 FHQ50x3 5. Coefficient of power input is the percentage when the rated valve is defined as 1.+indoor+outdoor fan motor) Coefficient of power input. (°CDB) EWB EDB (°C) (°C) TC (kW) 25 SHC (kW) CPI (-) TC (kW) 30 SHC (kW) CPI (-) TC (kW) 35 SHC (kW) CPI (-) TC (kW) 40 SHC (kW) CPI (-) 3TW31742-2 NOTES SYMBOLS 1.02 x AFR (m /min. however. On the figure the mark Q show rated capacity and rated coefficient of power input.22) (Twin) (Triple) FAQ71x2 19x2 (0.10 FCQ50Cx3 5. (Pair) Model Cooling FCQH140D 4. The value contains less than 5% error acording to indoor unit type. 4. Total cooling capacity Sensible heating capacity Power input (comp. (°CDB) EWB EDB (°C) (°C) TC (kW) 25 SHC (kW) CPI (-) TC (kW) 30 SHC (kW) CPI (-) TC (kW) 35 SHC (kW) CPI (-) TC (kW) 40 SHC (kW) CPI (-) 3TW31742-3 NOTES SYMBOLS 1. On the figure the mark Q show rated capacity and rated coefficient of power input. Ratings shown are net capacities which include a deduction for indoor fan motor heat 2. Capacities are based on following conditions: Outdoor air : 85 % RH. However the max. 7. at standard conditions.14) 8. Entering dry bulb temp. The value contains less than 5% error acording to indoor unit type.77 • Split Sky Air • Outdoor Units AFR: BF: EWB: EDB: TC: SHC: PI: CPI: Air flow rate Bypass factor Entering wet bulb temp. Caution: TC and SHC are shown by kW (m3/min) (°CWB) (°CDB) (kW) (kW) (kW) (-) . however. capacity is not guaranteed.• Outdoor Units • R-410A • RZQS-DV1 5 Capacity tables 5-2 Cooling capacity tables RZQS140DV1 1 5 Coefficient of power input.) x (1−BF) x (DB*−EDB) Add SHC* to SHC.0 m Level difference :0m 5. Air flow rate and BF are tabulated below. On the figure the mark j show the max. (-) Cooling Capacity range Rated point Cooling capacity (kW) Cooling capacity Indoor Outdoor temp. SHC is based on each EWB and EDB SHC* = SHC correction for other dry bulb 3 SHC* = 0. 3. 6. the condition on nominal capacity is 7° CDB/6° CWB (heating) Corresponding refrigerant piping length : 5.+indoor+outdoor fan motor) Coefficient of power input. (Pair) Model AFR (BF) FBQ140C 39 (0.00. except at standard condition. Coefficient of power input is the percentage when the rated valve is defined as 1.02 x AFR (m /min. Rated power input of each model is tabulated below. (Pair) Model Cooling 13 FBQ140C 4. • Outdoor Units • R-410A • RZQS-DV1 5 Capacity tables 5-2 Cooling capacity tables 3 RZQS71-140DV1 Capacity in function of field piping length for non-inverter 1 5 Capacity (%) Field piping length (m) Cooling Heating • Split Sky Air • Outdoor Units 3TW31712-1 14 . at standard conditions. 9. Capacities are based on following conditions: Outdoor air : 85 % RH.08) FVQ71 18 (0. (Pair) Model Heating FCQH71D 2.• Outdoor Units • R-410A • RZQS-DV1 5 Capacity tables 5-3 Heating capacity tables RZQS71DV1 1 5 Coefficient of power input.2x2) FAQ71 19 (0.5 (0. 3. Ratings shown are net capacities which include a deduction for indoor fan motor heat 2.28x2) FFQ35x2 10x2 (0. Air flow rate and BF are tabulated below.20 FHQ35x2 2.75 FCQ35Cx2 2. The value contains less than 5% error acording to indoor unit type. 8.70 FBQ35Cx2 2.19) FBQ71 18 (0.10) Model AFR (BF) FCQ35Cx2 10. the condition on nominal capacity is 7° CDB/6° CWB (heating) Corresponding refrigerant piping length : 5.0 m Level difference :0m 6.17) FCQ71C 15. 5. except at standard condition. (-) Heating Rated point Capacity range Heating capacity (kW) Heating capacity Indoor EDB -15 TC (kW) (°C) -10 CPI (-) TC (kW) CPI (-) Outdoor temp. Total heating capacity Sensible heating capacity Power input (comp. 7. (°CDB) -5 0 TC CPI TC CPI (kW) (-) (kW) (-) 6 TC (kW) 10 CPI (-) TC (-) CPI (-) 3TW31712-2 NOTES SYMBOLS 1. On the figure the mark j show the max.16) (Twin) 10. however.) x (1−BF) x (DB*−EDB) Add SHC* to SHC.35 FBQ71 2. (Pair) Model AFR (BF) FCQH71C 21 (0.85 FAQ71 2.49 FVQ71 2.02 x AFR (m /min. On the tables Q show rated capacity and rated coefficient of power input. Entering dry bulb temp. capacity is not guaranteed.15x2) FHQ35x2 13x2 (0.75 FFQ35x2 2. Heating capacity include the drop of frost formation.25 FHQ71 2. Coefficient of power input is the percentage when the rated valve is defined as 1.00.16 FCQ71C 2. Rated power input of each model is tabulated below.08) FHQ71 17 (0.25x2) FBQ35Cx2 16x2 (0. SHC is based on each EWB and EDB SHC* = SHC correction for other dry bulb 3 SHC* = 0. However the max.5x2 (0.+indoor+outdoor fan motor) Coefficient of power input. On the figure the mark Q show rated capacity and rated coefficient of power input. Caution: TC and SHC are shown by kW (m3/min) (°CWB) (°CDB) (kW) (kW) (kW) (-) .49 (Twin) Model Heating 15 • Split Sky Air • Outdoor Units AFR: BF: EWB: EDB: TC: SHC: PI: CPI: Air flow rate Bypass factor Entering wet bulb temp. 4. the condition on nominal capacity is 7° CDB/6° CWB (heating) Corresponding refrigerant piping length : 5. 3.2x3) FAQ100 23 (0.5x3 (0. On the figure the mark j show the max.16) FBQ100C 32 (0.02 x AFR (m /min.15x3) FHQ35x3 13x3 (0. 4. Capacities are based on following conditions: Outdoor air : 85 % RH.00.95 FCQ100C 3.) x (1−BF) x (DB*−EDB) Add SHC* to SHC. Entering dry bulb temp.16x2) FHQ35x2 13x2 (0. Total heating capacity Sensible heating capacity Power input (comp.15 FHQ35x3 3.5x2 (0.10) FVQ100 28 (0.13) FHQ100 24 (0.21x2) FFQ35x2 12x2 (0.49 (Twin) Model Heating (Triple) Model Heating • Split Sky Air • Outdoor Units 16 . AFR: BF: EWB: EDB: TC: SHC: PI: CPI: Air flow rate Bypass factor Entering wet bulb temp. Rated power input of each model is tabulated below.85 FCQ35Cx2 3. except at standard condition. (°CDB) -5 0 TC CPI TC CPI (kW) (-) (kW) (-) 6 TC (kW) 10 CPI (-) TC (-) CPI (-) 3TW31722-2 NOTES SYMBOLS 1.15 FHQ35x2 3.0 m Level difference :0m 6.44 FBQ35x2 3.25x3) FBQ35Cx3 16x3 (0.55 FFQ35x2 3. On the tables Q show rated capacity and rated coefficient of power input. Coefficient of power input is the percentage when the rated valve is defined as 1.19) (Twin) (Triple) 10.49 FUQ100 3. (m3/min) (°CWB) (°CDB) (kW) (kW) (kW) (-) Caution: TC and SHC are shown by kW (Pair) Model AFR (BF) FCQH100D 34 (0.89 FCQ35Cx3 3.14) Model AFR (BF) FCQ35Cx2 12.+indoor+outdoor fan motor) Coefficient of power input. 5.• Outdoor Units • R-410A • RZQS-DV1 5 Capacity tables 5-3 Heating capacity tables 3 RZQS100DV1 Heating Coefficient of power input. Air flow rate and BF are tabulated below. (-) 1 5 Rated point Capacity range Heating capacity (kW) Heating capacity Indoor EDB -15 TC (kW) (°C) -10 CPI (-) TC (kW) CPI (-) Outdoor temp. capacity is not guaranteed.5 (0.16x2) FBQ35Cx2 16x2 (0.89 FAQ100 3. Heating capacity include the drop of frost formation. SHC is based on each EWB and EDB SHC* = SHC correction for other dry bulb 3 SHC* = 0.28 FBQ100C 3. However the max. (Pair) Model Heating FCQH100D 2.28x3) FFQ35x3 10x3 (0. The value contains less than 5% error acording to indoor unit type. 8. at standard conditions.55 FFQ35x3 3.44 FBQ35x3 3. Ratings shown are net capacities which include a deduction for indoor fan motor heat 2. 7. On the figure the mark Q show rated capacity and rated coefficient of power input. 9.07 FHQ100 3.17) FCQ100C 23.1x2) Model AFR (BF) FCQ35Cx3 10. however. 84 (m3/min) (°CWB) (°CDB) (kW) (kW) (kW) (-) . Rated power input of each model is tabulated below.36 FUQ125 3.5 (0.68 FFQ60x2 4.11x2) FBQ60Cx2 18x2 (0.11 FHQ125 4.34 FBQ60x2 4.68 FFQ35x4 4.19 FHQ35x4 4.28x4) FFQ35x4 10x4 (0. 4. Total heating capacity Sensible heating capacity Power input (comp.02 x AFR (m /min. On the figure the mark j show the max.00.5x3 (0.+indoor+outdoor fan motor) Coefficient of power input. except at standard condition. 8.13) Model AFR (BF) FCQ60Cx2 13.86 FCQ60Cx2 4. On the figure the mark Q show rated capacity and rated coefficient of power input.5x4 (0.21x2) FFQ60x2 15x2 (0.19 FHQ60x2 4.25) FVQ125 32 (0. Entering dry bulb temp. SHC is based on each EWB and EDB SHC* = SHC correction for other dry bulb 3 SHC* = 0.16) (Twin) (Triple) (Double Twin) Model AFR (BF) FCQ35Cx4 10. However the max. at standard conditions.16x3) FBQ50Cx3 16x3 (0. AFR: BF: EWB: EDB: TC: SHC: PI: CPI: Air flow rate Bypass factor Entering wet bulb temp.06 FBQ125C 4.16x3) FHQ50x3 13x3 (0.19 FHQ50x3 4. Capacities are based on following conditions: Outdoor air : 85 % RH. Caution: TC and SHC are shown by kW (Pair) Model AFR (BF) FCQH125D 34 (0.2x2) Model AFR (BF) FCQ50Cx3 12.) x (1−BF) x (DB*−EDB) Add SHC* to SHC.19) FCQ125C 27. (-) Heating Capacity range Rated point Heating capacity (kW) Heating capacity Indoor EDB -15 TC (kW) (°C) -10 CPI (-) TC (kW) CPI (-) Outdoor temp.5x2 (0.84 FAQ125 4.16) FHQ125 30 (0. Coefficient of power input is the percentage when the rated valve is defined as 1. Air flow rate and BF are tabulated below. the condition on nominal capacity is 7° CDB/6° CWB (heating) Corresponding refrigerant piping length : 5.84 FCQ50Cx3 4. (Pair) Model Heating FCQH125D 3.2x4) 9. 6. 3.34 FBQ35x4 4.34 FBQ50x3 4.25x4) FBQ35Cx4 16x4 (0.15x2) FHQ60x2 17x2 (0.19) FBQ125C 39 (0.97 (Twin) Model Heating (Triple) Model Heating 17 (Double Twin) Model Heating • Split Sky Air • Outdoor Units FCQ35Cx4 4.21x3) FFQ50x3 12x3 (0.0 m Level difference :0m 5.1x3) FDQ125 45 (0. (°CDB) -5 0 TC CPI TC CPI (kW) (-) (kW) (-) 6 TC (kW) 10 CPI (-) TC (-) CPI (-) 3TW31732-2 NOTES SYMBOLS 1. Ratings shown are net capacities which include a deduction for indoor fan motor heat 2.68 FFQ50x3 4.15x4) FHQ35x4 13x4 (0. Heating capacity include the drop of frost formation. capacity is not guaranteed.• Outdoor Units • R-410A • RZQS-DV1 5 Capacity tables 5-3 Heating capacity tables RZQS125DV1 1 5 Coefficient of power input.79 FCQ125C 4. however. 7. The value contains less than 5% error acording to indoor unit type. 19x2) FBQ71Cx2 18x2 (0. Coefficient of power input is the percentage when the rated valve is defined as 1.26 5. On the tables Q show rated capacity and rated coefficient of power input.61 FBQ35x4 5.25x4) FBQ35Cx4 16x4 (0.21x3) FBQ50Cx3 16x3 (0. Total heating capacity Sensible heating capacity Power input (comp.70 18 . Ratings shown are net capacities which include a deduction for indoor fan motor heat 2.70 FCQ50Cx3 5.5 (0.70 (Double Twin) (Triple) Model Heating FAQ71x2 5.06 FHQ35x4 5.• Outdoor Units • R-410A • RZQS-DV1 5 Capacity tables 5-3 Heating capacity tables 3 RZQS140DV1 Heating Coefficient of power input.06 FHQ50x3 5.5x2 (0.28x4) FFQ35x4 10x4 (0.16x3) Model AFR (BF) FCQ35Cx4 10.5x4 (0.17x2) (0. however.46 FBQ50x3 5. 4.15x4) FHQ35x4 13x4 (0.22) Model AFR (BF) FCQH71Dx2 FCQ71Cx2 21x2 15. 7. (°CDB) -5 0 TC CPI TC CPI (kW) (-) (kW) (-) 6 TC (kW) 10 CPI (-) TC (-) CPI (-) 3TW31742-2 NOTES SYMBOLS 1.02 x AFR (m /min.46 FFQ35x4 5.+indoor+outdoor fan motor) Coefficient of power input. On the figure the mark j show the max. 8.00. capacity is not guaranteed.5x3 (0.20) FCQ140C 27.06 FHQ71x2 5.54 FFQ50x3 5.1x3) (Twin) FAQ71x2 19x2 (0. Heating capacity include the drop of frost formation. Rated power input of each model is tabulated below. On the figure the mark Q show rated capacity and rated coefficient of power input.69 FCQ125C 4.16x3) FHQ50x3 13x3 (0.98 (Twin) Model Heating FCQH71Dx2 FCQ71Cx2 5. AFR: BF: EWB: EDB: TC: SHC: PI: CPI: Air flow rate Bypass factor Entering wet bulb temp. (m3/min) (°CWB) (°CDB) (kW) (kW) (kW) (-) Caution: TC and SHC are shown by kW (Pair) Model AFR (BF) FCQH140D 34 (0. 5.08x2) FHQ71x2 17x2 (0. However the max. the condition on nominal capacity is 7° CDB/6° CWB (heating) Corresponding refrigerant piping length : 5.61 • Split Sky Air • Outdoor Units Model Heating FCQ35Cx4 5. at standard conditions. Entering dry bulb temp.1x2) Model AFR (BF) FCQ50Cx3 12. (-) 1 5 Rated point Capacity range Heating capacity (kW) Heating capacity Indoor EDB -15 TC (kW) (°C) -10 CPI (-) TC (kW) CPI (-) Outdoor temp. 9. (Pair) Model Heating FCQH125D 4. SHC is based on each EWB and EDB SHC* = SHC correction for other dry bulb 3 SHC* = 0. except at standard condition.) x (1−BF) x (DB*−EDB) Add SHC* to SHC.08x2) (Triple) (Double Twin) FFQ50x3 12x3 (0.0 m Level difference :0m 6.46 FBQ71Cx2 5. 3. Air flow rate and BF are tabulated below.2x4) 10. Capacities are based on following conditions: Outdoor air : 85 % RH. The value contains less than 5% error acording to indoor unit type. 4. 8. Heating capacity include the drop of frost formation.) x (1−BF) x (DB*−EDB) Add SHC* to SHC.+indoor+outdoor fan motor) Coefficient of power input. Caution: TC and SHC are shown by kW (m3/min) (°CWB) (°CDB) (kW) (kW) (kW) (-) . Coefficient of power input is the percentage when the rated valve is defined as 1. capacity is not guaranteed. On the figure the mark Q show rated capacity and rated coefficient of power input. the condition on nominal capacity is 7° CDB/6° CWB (heating) Corresponding refrigerant piping length : 5. The value contains less than 5% error acording to indoor unit type. (°CDB) -5 0 TC CPI TC CPI (kW) (-) (kW) (-) 6 TC (kW) 10 CPI (-) TC (-) CPI (-) 3TW31742-3 NOTES SYMBOLS 1. Ratings shown are net capacities which include a deduction for indoor fan motor heat 2.14) 10. Total heating capacity Sensible heating capacity Power input (comp. Air flow rate and BF are tabulated below. however.02 x AFR (m /min. Capacities are based on following conditions: Outdoor air : 85 % RH. 5. at standard conditions.00. 3.67 • Split Sky Air • Outdoor Units AFR: BF: EWB: EDB: TC: SHC: PI: CPI: Air flow rate Bypass factor Entering wet bulb temp. (-) Heating Capacity range Rated point Heating capacity (kW) Heating capacity Indoor EDB -15 TC (kW) (°C) -10 CPI (-) TC (kW) CPI (-) Outdoor temp. (Pair) Model Heating 19 FBQ140C 4.0 m Level difference :0m 6. Entering dry bulb temp. SHC is based on each EWB and EDB SHC* = SHC correction for other dry bulb 3 SHC* = 0. On the figure the mark j show the max. Rated power input of each model is tabulated below. (Pair) Model AFR (BF) FBQ140C 41 (0. 9.• Outdoor Units • R-410A • RZQS-DV1 5 Capacity tables 5-3 Heating capacity tables RZQS140DV1 1 5 Coefficient of power input. except at standard condition. However the max. On the tables Q show rated capacity and rated coefficient of power input. 7. • Outdoor Units • R-410A • RZQS-DV1 6 Dimensional drawing & centre of gravity 6-1 Dimensional drawing unit (mm) RZQS71DV1 Hole for anchor bolt 4-M12 1 2 3 4 5 6 7 8 Gas pipe connection J15.5 flare Service port (in the unit) Grounding terminal M5 (in switch box) Refrigerant piping intake Power supply wiring intake (knock out hole J34) Control wiring intake (Knock out hole J27) Drain outlet 3TW26364-1 • Split Sky Air • Outdoor Units 20 .5 flare Service port (in the unit) Grounding terminal M5 (in switch box) Refrigerant piping intake Power supply wiring intake (knock out hole J34) Control wiring intake (Knock out hole J27) Drain outlet 3 1 6 3TW25144-1A RZQS100-125-140DV1 Hole for anchor bolt 4-M12 1 2 3 4 5 6 7 8 Gas pipe connection J15.J9.J9.9 flare Liquid pipe connection .9 flare Liquid pipe connection . • Outdoor Units • R-410A • RZQS-DV1 6 Dimensional drawing & centre of gravity 6-2 Centre of gravity RZQS71DV1 1 6 4TW30469-3 RZQS100.140DV1 4TW29169-4 21 • Split Sky Air • Outdoor Units .125. • Outdoor Units • R-410A • RZQS-DV1 7 Piping diagram 3 RZQS71-140DV1 (Pair) 1 Electronic expansion valve 7 Filter Filter Heat exchanger 4-way valve Heat exchanger High pressure switch Low pressure sensor Field piping J9.5 Compressor Option Field piping J15. O Check valve L Flare connection M Screw connection N Flange connection Z Pinched pipe P Spinned pipe • Split Sky Air • Outdoor Units 3TW29165-2 22 .5 C1220T-0 Service port 5/16″ Compressor Filter Field piping J15.9 C1220T-0 Accumulator Indoor unit Heating Cooling Outdoor unit Stop valve (with service port 5/16’ flare) O Check valve L Flare connection M Screw connection N Flange connection Z Pinched pipe P Spinned pipe 3TW29165-1 RZQS71-140DV1 (Twin) Electronic expansion valve Heat exchanger Filter Filter Heat exchanger Field piping Filter 4-way valve Field piping Indoor unit Low pressure sensor High pressure switch Heat exchanger Branch duct connection Service port 5/16″ Field piping J9.9 Accumulator Outdoor unit Field piping Filter Indoor unit Heating Cooling Field piping Stop valve (with service port 5/16’ flare) Note: 1. The pipes between the branch and the indoor units should have the same size as the indoor connections. 5 Field piping J15.125. Field piping O Check valve L Flare connection M Screw connection N Flange connection Z Pinched pipe P Spinned pipe 23 • Split Sky Air • Outdoor Units 3TW29165-4 .9 Accumulator Field piping Filter Outdoor unit Field piping Heat exchanger Stop valve (with service port 5/16’ flare) Heating Cooling Field piping J9.5 Service port 5/16″ Compressor Field piping J15.9 Field piping Filter Note: 1. The pipes between the branch and the indoor units should have the same size as the indoor connections. Heating Cooling Field piping Filter Outdoor unit Field piping 3TW29165-3 O Check valve L Flare connection M Screw connection N Flange connection Z Pinched pipe P Spinned pipe RZQS125-140DV1 (Double twin) Heat exchanger Indoor unit Electronic expansion valve Field piping Filter Filter Field piping Heat exchanger Indoor unit 4-way valve Field piping Low pressure High pressure sensor switch Field piping Heat exchanger Indoor unit Heat exchanger Field piping J9.9 Indoor unit Heat exchanger Service port 5/16″ Compressor Branch duct connection Option Accumulator Note: 1. The pipes between the branch and the indoor units should have the same size as the indoor connections.9 Filter Filter Branch duct connection Option Field piping J9.140DV1 (Triple) Indoor unit Heat exchanger 1 Electronic expansion valve 7 Stop valve (with service port 5/16’ flare) Heat exchanger Filter Filter Field piping Filter Field piping Indoor unit Heat exchanger 4-way valve Low pressure High pressure switch sensor Field piping J9.5 Field piping J15.5 Field piping Field piping Filter Field piping J15.• Outdoor Units • R-410A • RZQS-DV1 7 Piping diagram RZQS100. : Protective earth (screw) : Relay connector : Noiseless earth : Terminal 4.V3R V1T X1M Y1E Y1S Z1C Z1F∼Z4F : Printed circuit board (Main) : Printed circuit board (Inverter) : Printed circuit board (Noise filter) : Printed circuit board : Push button switch : Capacitor : Dip switch : Crankcase heater : Fuse (T 6. Refer to the option manual. for connecting wiring to x6A.15A / 250V) : Light emitting diode (service monitor orange) : Light emitting diode (service monitor green) : Magnetic relay (Y1S) : Magnetic relay : Magnetic relay : Reactor : Motor (compressor) : Motor (fan) : Switching power supply : Field earth leakage breaker (30mA) : Resistor : Resistor : Thermistor (air) : Thermistor (discharge) : Thermistor (Suction) : Thermistor (Heat exchanger) : Thermistor (Thermistor (heat exchanger middle)) : Thermistor (liquid) : Thermistor (fin) : Signal receiver circuit : Pressure sensor : Pressure switch (High) : Signal transmission circuit : Power module : Diode module : IGBT : Terminal strip (Power supply) : Electronic expansion valve : Solenoid valve (4 way valve) : Noise filter (ferrite core) : Noise filter 1 8 Notes: 1. 6. : Terminal strip : Connector : Connection 3. Factory setting of all switches: ’’OFF’’. : Terminal strip : Connector : Connection 3. 5. L: Live.0A / 250V) : Light emitting diode (service monitor orange) (H2P) Prepare. Factory setting of all switches: ’’OFF’’. Refer to the ’’Wiring diagram sticker’’ (on back of front plate) on how to use BS1∼ BS4 and DS1 switch. comp. 2TW29166-2 • Split Sky Air • Outdoor Units 24 . Colours: WHT: White / RED: Red / BLU: Blue / ORG: Orange BRN: Brown / GRN: Green / YLW: Yellow 8.3A / 250V) : Fuse (T 5. Refer to the option manual.V3R V1T X1M Y1E Y1S Z1C Z1F∼Z4F (Front) 2TW30466-1B RZQS100-140DV1 Indoor Outdoor ON OFF (Note 4) El. Assy Position of elements : Printed circuit board (Main) : Printed circuit board (Inverter) : Push button switch : Capacitor : Dip switch : Fuse (T 6. 5. Do not operate the unit by short-circuiting protection device S1PH 7. : Protective earth (screw) : Relay connector : Noiseless earth : Terminal 4. N: Neutral. This wiring diagram only applies to the outdoor unit : Field wiring 2.Flickering Malfunction Detection -. Colours: WHT: White / RED: Red / BLU: Blue / ORG: Orange BRN: Brown / GRN: Green / YLW: Yellow 8.• Outdoor Units • R-410A • RZQS-DV1 8 Wiring diagram 8-1 Wiring diagram 3 RZQS71DV1 Indoor Outdoor ON OFF (Note 4) El. for connecting wiring to x6A. Position of compressor terminal (Back) A1P A2P BS1∼BS4 C1∼C3 DS1 F1U F6U H1P∼7P (A2P) HAP (A1P) K1R K10R K11R L1R M1C M1F PS Q1DI R1 R2 R1T R2T R3T R4T R5T R6T R10T RC S1NPH S1PH TC V1R V2R. Do not operate the unit by short-circuiting protection device S1PH 7. Confirm the method of setting the selector switches (DS1) by service manual. 6. Refer to the ’’Wiring diagram sticker’’ (on back of front plate) on how to use BS1∼ BS4 and DS1 switch. Confirm the method of setting the selector switches (DS1) by service manual. Assy Position of elements Position of compressor terminal Wire entrance (Back) (Front) A1P A2P A3P A4P BS1∼BS4 C1∼C4 DS1 E1HC F1U.3A / 250V) : Fuse (T 3. F3U. L: Live. N: Neutral.Light up : Light emitting diode (service monitor green) : Magnetic relay (Y1S) : Magnetic relay (E1HC) : Magnetic relay : Magnetic relay : Reactor : Motor (compressor) : Motor (fan) (upper) : Motor (fan) (lower) : Switching power supply : Field earth leakage breaker (30mA) : Resistor : Resistor : Thermistor (air) : Thermistor (discharge) : Thermistor (Suction) : Thermistor (Heat exchanger) : Thermistor (Thermistor (heat exchanger middle)) : Thermistor (liquid) : Thermistor (fin) : Signal receiver circuit : Pressure sensor : Pressure switch (High) : Signal transmission circuit : Power module : Diode module : IGBT : Terminal strip (Power supply) : Electronic expansion valve : Solenoid valve (4 way valve) : Noise filter (ferrite core) : Noise filter Notes: 1. comp. Test --------. F4U F6U H1P∼7P (A2P) HAP (A1P) K1R K4R K10R K11R L1R M1C M1F M2F PS Q1DI R1 R2 R1T R2T R3T R4T R5T R6T R10T RC S1NPH S1PH TC V1R V2R. This wiring diagram only applies to the outdoor unit : Field wiring 2. dB(A) = A-weighted sound pressure level (A-scale according to IEC) Reference acoustic pressure 0dB = 20µPa NOTES 1 2 3 Measuring location (discharge side) 4 RZQS100DV1 . dB(A) = A-weighted sound pressure level (A-scale according to IEC) Reference acoustic pressure 0dB = 20µPa 1 2 3 Measuring location (discharge side) • Split Sky Air • Outdoor Units 4 Data is valid at free field condition Data is valid at nominal conditions.Cooling Sound pressure level (dB) 9 Sound pressure level (dB) 1 RZQS71DV1 .Cooling Data is valid at free field condition Data is valid at nominal conditions. dB(A) = A-weighted sound pressure level (A-scale according to IEC) Reference acoustic pressure 0dB = 20µPa Measuring location (discharge side) .Heating 3TW31727-2 3TW31727-1 Octave band center frequency (Hz) Octave band center frequency (Hz) NOTES 1 2 3 4 25 Measuring location (discharge side) NOTES Data is valid at free field condition Data is valid at nominal conditions. dB(A) = A-weighted sound pressure level (A-scale according to IEC) Reference acoustic pressure 0dB = 20µPa Sound pressure level (dB) Sound pressure level (dB) RZQS100DV1 .• Outdoor Units • R-410A • RZQS-DV1 9 Sound data 9-1 Sound pressure spectrum RZQS71DV1 .Heating 3TW30467-2 3TW30467-1 Octave band center frequency (Hz) Octave band center frequency (Hz) NOTES 1 2 3 4 Data is valid at free field condition Data is valid at nominal conditions. Cooling Data is valid at free field condition Data is valid at nominal conditions. dB(A) = A-weighted sound pressure level (A-scale according to IEC) Reference acoustic pressure 0dB = 20µPa NOTES 1 2 3 Measuring location (discharge side) 4 RZQS140DV1 .Cooling 3 Sound pressure level (dB) Sound pressure level (dB) RZQS125DV1 .Heating 3TW29177-2 3TW29177-1 Octave band center frequency (Hz) Octave band center frequency (Hz) NOTES 1 2 3 4 Data is valid at free field condition Data is valid at nominal conditions. dB(A) = A-weighted sound pressure level (A-scale according to IEC) Reference acoustic pressure 0dB = 20µPa Measuring location (discharge side) Sound pressure level (dB) Sound pressure level (dB) RZQS140DV1 . dB(A) = A-weighted sound pressure level (A-scale according to IEC) Reference acoustic pressure 0dB = 20µPa NOTES 1 2 3 Measuring location (discharge side) • Split Sky Air • Outdoor Units 4 Data is valid at free field condition Data is valid at nominal conditions. dB(A) = A-weighted sound pressure level (A-scale according to IEC) Reference acoustic pressure 0dB = 20µPa Measuring location (discharge side) 26 .Heating 1 9 3TW29167-2 3TW29167-1 Octave band center frequency (Hz) Octave band center frequency (Hz) NOTES 1 2 3 4 Data is valid at free field condition Data is valid at nominal conditions.• Outdoor Units • R-410A • RZQS-DV1 9 Sound data 9-1 Sound pressure spectrum RZQS125DV1 . • Outdoor Units • R-410A • RZQS-DV1 9 Sound data 9-2 Sound power spectrum 9 Sound power level (dB) 1 RZQS100DV1 Sound power level (dB) RZQS71DV1 3TW30467-3 3TW0477-3 Octave band center frequency (Hz) NOTES NOTES dB(A) = A-weighted sound pressure level (A-scale according to IEC) Reference acoustic intensity 0dB = 10E-6µW/m2 Measured according to ISO 3744 1 2 3 dB(A) = A-weighted sound pressure level (A-scale according to IEC) Reference acoustic intensity 0dB = 10E-6µW/m2 Measured according to ISO 3744 1 2 3 Sound power level (dB) RZQS140DV1 Sound power level (dB) RZQS125DV1 3TW29167-3 Octave band center frequency (Hz) 3TW29177-3 NOTES 1 2 3 27 Octave band center frequency (Hz) Octave band center frequency (Hz) NOTES dB(A) = A-weighted sound pressure level (A-scale according to IEC) Reference acoustic intensity 0dB = 10E-6µW/m2 Measured according to ISO 3744 • Split Sky Air • Outdoor Units 1 2 3 dB(A) = A-weighted sound pressure level (A-scale according to IEC) Reference acoustic intensity 0dB = 10E-6µW/m2 Measured according to ISO 3744 . This situation is not allowed. and L are shown in the table below. close the bottom of the installation frame to prevent discharged air from being bypassed. C. Obstacles exist in front of the outlet side 2. Stacked installation 1. L≤H H<L L 0 < L ≤ 1/2 H 1/2 H < L Installation impossible A 150 (250) 200 (300) 3TW26739-4 • Split Sky Air • Outdoor Units 28 . Get the portion A sealed so that air from the outlet does not bypass. only 2 units can be installed.• Outdoor Units • R-410A • RZQS-DV1 10 Installation 10 . Figures between ( ) indicate the dimensions only for the 100-125-140 class models. Non stacked installation Legend Suction side obstacle 1 Discharge side obstacle 10 Left side obstacle Right side obstacle Top side obstacle Obstacle is present In these cases. A.1 Installation method 3 RZQS71-140DV1 A. About 100mm is required as the dimension for laying the upper outdoor unit’s drain pipe. In these cases. Multiple-row installation 1. Obstacles exist in front of the air inlet Do not stack more than one unit. Installation of one unit per row 2. Installing multiple units (2 units or more) in lateral connection per row Relation of dimensions of H. B. (°CWB) Allowable range of operation (pull-down) Operation range Outdoor temp. (°CDB) NOTE 1 2 Depending on operation and istallation conditions. (°CDB) 11 Indoor temp.• Outdoor Units • R-410A • RZQS-DV1 11 Operation range RZQS71-140DV1 (Cooling) 1 Indoor temp. (°CWB) Operation range Allowable range of operation (warming-up) (Heating) Outdoor temp. 3TW29063-1D 29 • Split Sky Air • Outdoor Units . The indoor unit can change over to freeze-up operation (indoor de-icing) To reduce the freeze-up operation (indoor de-icing) frequency it is recommended to install the outdoor unit in a location not exposed to wind.
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