background image

• Outdoor Unit • Optimized for seasonal efficiency • RZQSG-LV1

1

2

• Split - Sky Air

®

 • Outdoor Unit

6

2

Specifications

 Notes

 (1) Energy label: scale from A (most efficient) to G (less efficient)
 (2) Annual energy consumption: based on average use of 500 running hours per year at full load (nominal conditions)
 (3) Cooling: indoor temp. 27ºCDB, 19ºCWB; outdoor temp. 35ºCDB; equivalent piping length: 5m; level difference: 0m
 (4) Heating: indoor temp. 20ºCDB; outdoor temp. 7ºCDB, 6ºCWB; equivalent refrigerant piping: 5m; level difference: 0m
 (5) Annual energy consumption is according to Energy labeling directive 2002/31/EC
 (6) SEER and SCOP are according to EN 14825

2-1 Nominal Capacity And Nominal Input

FDQ125C7VEB / RZQSG125L7V1B

Cooling capacity

Nom.

kW

12.0 (3)

Heating capacity

Nom.

kW

13.5 (4)

Power input

Cooling

Nom.

kW

3.74

Heating

Nom.

kW

3.85

EER

3.21

COP

3.51

SEER

4.35 (6)

SCOP

3.81 (6)

Annual energy consumption

kWh

1,870

Energy label

Cooling

A

Heating

B

2-2 Technical Specifications

RZQSG71LV1

RZQSG100LV1

RZQSG125LV1

RZQSG140LV1

Capacity control

Method

Inverter controlled

Casing

Colour

Ivory white

Material

Painted galvanized steel plate

Dimensions

Unit

Height

mm

770

990

1,430

Width

mm

900

940

Depth

mm

320

Packed unit

Height

mm

900

1,170

1,610

Width

mm

980

1,015

Depth

mm

420

422

Weight

Unit

kg

67

81

102

Packed unit

kg

71

92

115

Heat exchanger

Length

mm

857

904

Rows

Quantity

2

Fin pitch

mm

1.4

Passes

Quantity

8

12

16

Face area

0.641

0.87

1.273

Stages

Quantity

34

44

64

Empty tubeplate 
hole

Quantity

0

Tube type

ø8 Hi-XSS

ø7 Hi-XSL

Fin

Type

WF fin

Treatment

Anti-corrosion treatment (PE)

Fan

Type

Propeller fan

Discharge direction

Horizontal

Quantity

1

2

Air flow rate

Cooling Nom.

m³/min

52

76

77

83

Super 
low

m³/min

-

cfm

-

Heating Nom.

m³/min

48

83

62

Super 
low

m³/min

-

cfm

-

Summary of Contents for RZQSG-LV1

Page 1: ...RZQSG LV1 Technical Data Air Conditioners O u t d o o r u n i t O p t i m i z e d f o r s e a s o n a l e f f i c i e n c y E E D E N 1 2 1 0 0...

Page 2: ...Heating Capacity Tables 17 Capacity Correction Factor 21 7 Dimensional drawings 22 Dimensional Drawings 22 8 Centre of gravity 24 Centre of Gravity 24 9 Piping diagrams 26 Piping Diagrams 26 Piping D...

Page 3: ...indication on how efficient an air conditioner operates over an entire heating or cooling season Re use of existing R 22 or R 407C technology The use of inverter type outdoor units results in an air...

Page 4: ...equivalent refrigerant piping 5m level difference 0m 5 Annual energy consumption is according to Energy labeling directive 2002 31 EC 6 SEER and SCOP are according to EN 14825 2 1 Nominal Capacity And...

Page 5: ...level difference 0m 4 Heating indoor temp 20 CDB outdoor temp 7 CDB 6 CWB equivalent refrigerant piping 5m level difference 0m 5 Annual energy consumption is according to Energy labeling directive 20...

Page 6: ...alent refrigerant piping 5m level difference 0m 5 Annual energy consumption is according to Energy labeling directive 2002 31 EC 6 SEER and SCOP are according to EN 14825 2 1 Nominal Capacity And Nomi...

Page 7: ...ling Nom kW 3 74 Heating Nom kW 3 85 EER 3 21 COP 3 51 SEER 4 35 6 SCOP 3 81 6 Annual energy consumption kWh 1 870 Energy label Cooling A Heating B 2 2 Technical Specifications RZQSG71LV1 RZQSG100LV1...

Page 8: ...t Min CWB 15 Max CWB 15 5 Refrigerant Type R 410A Charge kg 2 75 2 9 4 0 Control Expansion valve electronic type Circuits Quantity 1 Refrigerant oil Type FVC50K Charged volume l 0 75 0 9 1 35 Piping c...

Page 9: ...rawing for electrical data 6 European international technical standard setting the limits for harmonic currents produced by equipment connected to public low voltage system with input current larger t...

Page 10: ...3 1 3 Split Sky Air Outdoor Unit 9 Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 3 Electrical data 3 1 Electrical Data...

Page 11: ...Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 1 3 Split Sky Air Outdoor Unit 10 3 Electrical data 3 1 Electrical Data...

Page 12: ...3 1 4 Split Sky Air Outdoor Unit 11 Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 4 Options 4 1 Options...

Page 13: ...Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 1 5 Split Sky Air Outdoor Unit 12 5 Combination table 5 1 Combination Table...

Page 14: ...3 1 6 Split Sky Air Outdoor Unit 13 Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 6 Capacity tables 6 1 Cooling Capacity Tables...

Page 15: ...Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 1 6 Split Sky Air Outdoor Unit 14 6 Capacity tables 6 1 Cooling Capacity Tables...

Page 16: ...3 1 6 Split Sky Air Outdoor Unit 15 Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 6 Capacity tables 6 1 Cooling Capacity Tables...

Page 17: ...Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 1 6 Split Sky Air Outdoor Unit 16 6 Capacity tables 6 1 Cooling Capacity Tables...

Page 18: ...3 1 6 Split Sky Air Outdoor Unit 17 Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 6 Capacity tables 6 2 Heating Capacity Tables...

Page 19: ...Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 1 6 Split Sky Air Outdoor Unit 18 6 Capacity tables 6 2 Heating Capacity Tables...

Page 20: ...3 1 6 Split Sky Air Outdoor Unit 19 Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 6 Capacity tables 6 2 Heating Capacity Tables...

Page 21: ...Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 1 6 Split Sky Air Outdoor Unit 20 6 Capacity tables 6 2 Heating Capacity Tables...

Page 22: ...3 1 6 Split Sky Air Outdoor Unit 21 Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 6 Capacity tables 6 3 Capacity Correction Factor...

Page 23: ...ional Drawings 3TW34104 1 1 Gas pipe connection J15 9 flare 2 Liquid pipe connection J9 5 flare 3 Service port in the unit 4 Grounding terminal M5 in switch box 5 Refrigerant piping intake 6 Power sup...

Page 24: ...3 1 7 Split Sky Air Outdoor Unit 23 Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 7 Dimensional drawings 7 1 Dimensional Drawings...

Page 25: ...Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 1 8 Split Sky Air Outdoor Unit 24 8 Centre of gravity 8 1 Centre of Gravity...

Page 26: ...3 1 8 Split Sky Air Outdoor Unit 25 Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 8 Centre of gravity 8 1 Centre of Gravity...

Page 27: ...Field piping J9 5 C1220T 0 Heat exchanger Filter Stop valve with service port 5 16 flare Filter Electronic expansion valve 4 way valve Compressor Service port 5 16 Heat exchanger Accumulator Outdoor u...

Page 28: ...ctronic expansion valve 4 way valve Compressor Service port 5 16 Heat exchanger Outdoor unit O Check valve L Flare connection M Screw connection N Flange connection Z Pinched pipe P Spinned pipe Heati...

Page 29: ...Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 1 9 Split Sky Air Outdoor Unit 28 9 Piping diagrams 9 3 Piping Diagram Triple Application...

Page 30: ...3 1 9 Split Sky Air Outdoor Unit 29 Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 9 Piping diagrams 9 4 Piping Diagram Double Twin Application...

Page 31: ...Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 1 10 Split Sky Air Outdoor Unit 30 10 Wiring diagrams 10 1 Wiring Diagrams Single Phase...

Page 32: ...3 1 10 Split Sky Air Outdoor Unit 31 Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 10 Wiring diagrams 10 1 Wiring Diagrams Single Phase...

Page 33: ...Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 1 11 Split Sky Air Outdoor Unit 32 11 Sound data 11 1 Sound Power Spectrum...

Page 34: ...3 1 11 Split Sky Air Outdoor Unit 33 Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 11 Sound data 11 2 Sound Pressure Spectrum Cooling...

Page 35: ...Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 1 11 Split Sky Air Outdoor Unit 34 11 Sound data 11 3 Sound Pressure Spectrum Heating...

Page 36: ...3 1 11 Split Sky Air Outdoor Unit 35 Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 11 Sound data 11 4 Sound Pressure Spectrum Quiet Mode...

Page 37: ...it per row A Non stacked installation 2 Obstacles exist in front of the air inlet B Stacked installation Legend Unit mm C Multiple row installation Relation of dimensions of H A and L are shown in the...

Page 38: ...3 1 12 Split Sky Air Outdoor Unit 37 Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 12 Installation 12 1 Installation Method...

Page 39: ...Outdoor Unit Optimized for seasonal efficiency RZQSG LV1 1 12 Split Sky Air Outdoor Unit 38 12 Installation 12 1 Installation Method...

Page 40: ...pull down Indoor temp CWB Cooling Heating Indoor temp CDB Outdoor temp CWB Operation range Allowable range of operation warming up Notes Depending on operation and installation conditions the indoor u...

Page 41: ...is copyrighted by Daikin Europe N V Daikin s unique position as a manufacturer of air conditioning equipment compressors and refrigerants has led to its close involvement in environmental issues For...

Reviews: