Outdoor units / R series / R407C / PURY-P00 0YMF-C PURY-P00YMF-C, PURY-P0YMF-C COTETS. Specifications. Capacity Tables 8 - Correction by temperature 8 - Correction by total indoor 0 - Correction by refrigerant piping length -4 Correction at frosting and defrosting - Operation limit. Sound Levels 4. External Dimensions. Electrical Wiring Diagram 4. Refrigerant Circuit Diagram And Thermal Sensor 7
. Specifications Model name PURY-P00YMF-C Capacity.4.0 kcal/h 0,000 - Power source ~ 80/400/4V 0/0Hz Power input 8.4 7.98 Current A 4./.8/..4/.7/. Type Quantity Propeller fan Fan Airflow rate m /min 8 Motor output 0.8 Type Hermetic Compressor Motor output. Crankcase heater 0.0(40V) Refrigerant / Lubricant R407C/MEL External finish External dimension Protection devices High pressure protection Compressor / Fan Inverter mm Steel plate painting with polyester powder <MUSELL Y8/ or similar> 7(H) 990(W) 840(L).94MPa Over current protection / Thermal switch DC bus current protection, thermal switch Refrigerant piping diameter High press. / Low press. 9.0 flare /.4 Flange Indoor unit Total capacity Model / Quantity 0 ~ 0% of outdoor unit capacity Model 0~ 0 / ~ oise level et weight db<a> kg 4 Operating temperature range Indoor: CWB ~ 4 CWB Outdoor:- CDB ~ 4 CDB Indoor: CDB ~ 7 CDB Outdoor:- CWB ~. CWB - CDB/- CWB ~ CDB/. CWB with cooling/heating mixed operation. ote:./heating capacity indicates the maximum value at operation under the following condition. Indoor : 7 CDB/9 CWB Outdoor : CDB Indoor : 7 CDB/9. CWB Outdoor : CDB Indoor : 0 CDB Outdoor : 7 CDB/ CWB Pipe length : m Height difference : 0m Pipe length : 7.m Height difference : 0m.Works not included : Installation/foundation work, electrical connection work, duct work, insulation work, power source switch and other items not specified in this specification.
Outdoor units / R series / R407C / PURY-P00 0YMF-C Model name PURY-P0YMF-C Capacity 8.0. kcal/h,000 - Power source ~ 80/400/4V 0/0Hz Power input Current A 0.89 0. 8./7.4/.8 7././. Type Quantity Propeller fan Fan Airflow rate m /min 8 Motor output 0.8 Type Hermetic Compressor Motor output 7. Crankcase heater 0.0(40V) Refrigerant / Lubricant R407C/MEL External finish External dimension Protection devices High pressure protection Compressor / Fan Inverter mm Steel plate painting with polyester powder <MUSELL Y8/ or similar> 7(H) 990(W) 840(L).94MPa Over current protection / Thermal switch DC bus current protection, thermal switch Refrigerant piping diameter High press. / Low press. 9.0 flare / 8.8 Flange Indoor unit Total capacity Model / Quantity 0 ~ 0% of outdoor unit capacity Model 0 ~ 0 / ~ oise level et weight db<a> kg 7 47 Operating temperature range Indoor: CWB ~ 4 CWB Outdoor:- CDB ~ 4 CDB Indoor: CDB ~ 7 CDB Outdoor:- CWB ~. CWB - CDB/- CWB ~ CDB/. CWB with cooling/heating mixed operation. ote:./heating capacity indicates the maximum value at operation under the following condition. Indoor : 7 CDB/9 CWB Outdoor : CDB Indoor : 7 CDB/9. CWB Outdoor : CDB Indoor : 0 CDB Outdoor : 7 CDB/ CWB Pipe length : m Height difference : 0m Pipe length : 7.m Height difference : 0m.Works not included : Installation/foundation work, electrical connection work, duct work, insulation work, power source switch and other items not specified in this specification. 7
. Capacity tables -. Correction by temperature Standard Specifications PURY-P00YMF-C PURY-P0YMF-C Capacity Input Source Current V A Calculation Capacity' = Capacity Ratio Input'= Input Ratio Current' = Input' 000 Source 0.90.4 8.0 8.4 0.89 80/400/4 4./.8/. 8./7.4/.8 Capacity' Input' After correction Current'.0 The Ratio of Capacity Ratio.0.0.00 0.90 Indoor Temperature( CWB) 4 CWB CWB 0 CWB 9 CWB 8 CWB CWB CWB 0.80-0 0 0 0 40 4 Outdoor Temperature ( CDB) Ratio.0.0.0.00 0.90 0.80 0.70 0.0 0.0 The Ratio of Power Input 4 CWB CWB 0 CWB 9 CWB 8 CWB CWB CWB 0.40-0 0 0 0 40 4 Outdoor Temperature ( CDB) 8
Outdoor units / R series / R407C / PURY-P00 0YMF-C Standard Specifications Capacity Input Source Current Calculation Capacity' = Capacity Ratio Input'= Input Ratio Current' = V A Input' 000 Source 0.90 PURY-P00YMF-C PURY-P0YMF-C.0. 7.98 0. 80/400/4.4/.7/. 7././. Capacity' Input' After correction Current'.0 The Ratio of Capacity.0 CDB Ratio.0.00 0.90 Indoor Temperature( CDB) 0 CDB 0.80 CDB 0.70 7 CDB 0.0 - -0-0 0 0 Outdoor Temperature ( CWB).0 Indoor Temperature( CDB) The Ratio of Power Input.00 CDB Ratio 0.90 0.80 0 CDB 0.70 0.0 CDB 7 CDB 0.0 - -0-0 0 0 Outdoor Temperature ( CWB) 9
-. Correction by total indoor PURY-P00YMF-C ) Capacity 0.0.0 Capacity() 0.0.0 0.0.0 00 0 00 0 00 0 Total capacity of indoor units ) Input 0.00 9.00 8.00 Input() 7.00.00.00 4.00.00.00.00 00 0 00 0 00 0 Total capacity of indoor units ) Current 8.0 7.0.0 80V.0 400V 4.0.0 4V.0 80V.0 400V 0.0 9.0 4V 8.0 7.0.0.0 4.0.0.0 00 0 00 0 00 0 Current(A) Total capacity of indoor units 0
Outdoor units / R series / R407C / PURY-P00 0YMF-C PURY-P0YMF-C ) Capacity.0 Capacity() 0.0.0 0.0.0 0.0 00 0 00 0 00 0 400 Total capacity of indoor units ) Input.00.00 0.00 Input() 9.00 8.00 7.00.00.00 4.00.00 00 0 00 0 00 0 400 Total capacity of indoor units ) Current 0.0 9.0 80V 8.0 400V 7.0.0 4V.0 80V 4.0 400V.0.0 4V.0 0.0 9.0 8.0 7.0.0.0 4.0 00 0 00 0 00 0 400 Current(A) Total capacity of indoor units
- Correction by refrigerant piping length To obtain a decrease in cooling/heating capacity due to refrigerant piping extension, multiply by the capacity correction factor based on the refrigerant piping equivalent length in the table below. capacity correction factor capacity correction PURY-P00YMF-C.0 0.9 0.8 Total capacity of indoor unit 00 0 00 00 0.7 0 0 40 0 80 00 0 Piping equivalent length (m) capacity correction factor.0 0.9 0.8 PURY-P0YMF-C Total capacity of indoor unit 88 0 7 0.7 0 0 40 0 80 00 0 Piping equivalent length (m) capacity correction factor capacity correction PURY-P00YMF-C.0 0.9 0.8 Total capacity of indoor unit 00 or more 00 0 0.7 0 0 40 0 80 00 0 Piping equivalent length (m) capacity correction factor.0 0.9 0.8 PURY-P0YMF-C Total capacity of indoor unit 0 or more 88 0.7 0 0 40 0 80 00 0 Piping equivalent length (m) How to obtain piping equivalent length ➀ PURY-P00YMF-C Equivalent length = (Actual piping length to the farthest indoor unit) + (0.47 number of bent on the piping)m ➁ PURY-P0YMF-C Equivalent length = (Actual piping length to the farthest indoor unit) + (0.0 number of bent on the piping)m
Outdoor units / R series / R407C / PURY-P00 0YMF-C -4 Correction at frosting and defrosting When a decrease in heating capacity due to frosted and defrosting operations is considered, the value multiplied by the correction factor in the table below represents the heating capacity. Correction factor table Outdoor inlet air temp ( CWB) Correction factor 4 0 - -4 - -8-0.0 0.9 0.84 0.8 0.87 0.9 0.9 0.9 0.9 - Operation limit Indoor temperature ( CWB) Indoor temperature ( CDB) 0 0 0-0 0 0 0 40 4 0 0 Outdoor temperature ( CDB) 0 - -0-0 0 0 Outdoor temperature ( CDB) Outdoor temperature : - CDB/- CWB ~ CDB/. CWB in cooling/heating mixed mode.
. Sound levels PURY-P00YMF-C Measurement condition 70 m m Sound pressure level in anechoic room db (A) PURY-P0YMF-C Measurement condition Sound pressure level in anechoic room 7 db (A) A A m m B B OCTAVE BAD PRESSURE LEVEL< db> 0dB = 0.000µbar OCTAVE BAD PRESSURE LEVEL< db> 0dB = 0.000µbar 0 0 40 0 70 0 0 40 0 C0 C0 C40 C0 0 Approximate minimum C0 audible limit on continuous noise 0 0 00 000 000 4000 8000 OCTAVE BAD CETER FREQUECIES<Hz> C0 C0 C40 C0 0 Approximate minimum audible limit on C0 continuous noise 0 0 00 000 000 4000 8000 OCTAVE BAD CETER FREQUECIES<Hz> 4
Outdoor units / R series / R407C / PURY-P00 0YMF-C 4. External dimensions 7 40 Knockout hole <Bottom side hole for the power supply> 7 Knockout hole <Bottom side hole for the control wiring> Service panel 00 94 49 0 78 99 4 8 Knockout hole Front piping hole <Front wiring hole> Knockout hole <Front side hole for the power supply> 7 0 490 Crosss section Y-Y Rear view ote Knockout hole Bottom piping hole <Bottom wiring hole> Conn. pipe 00:.4<brazed> 0: 8.8<brazed> Y Y 4X-4X0 Oval hole 0 778 7 0(bolt hole) 990 Cross section X-X Plane view Knockout hole 40 Knockout hole <Left side hole for the power supply> Refrig. service valve (high pressure) 9.0<flare> X X 7 Knockout hole <Left side hole for the control wiring> Knockout hole Left piping hole Refrig. service valve(low pressure) <flange> Left side view Front view Air inlet Air outlet Air inlet Right side view 7 80 840 880(bolt hole) 90 0 7 48 80 40 79 8 90 < Accessory > Refrigerant (gas) conn. pipe pc. (The connecting pipe is fixed with the unit) Packing for conn. pipe pc. (Attached near the ball valve) Wiring mounting plate Conduit mounting plate (Painted the same color as the unit body) 40 pc. pc. 7 pc. Tapping screw 4 0 pcs. ote. Please leave a space under the outdoor unit for the piping When you connect the piping from the bottom. (Please be careful not to close the hole of the bottom plate by the basement), PURY-P00,0YMF-C Unit : mm
. Electrical Wiring Diagram PURY-P00, 0YMF-C Inverter Controller Box MC Motor (Compressor) U V W Red White ACCT -W L Power source - L 80/400/4V 0/0Hz L Terminal Block TBA L Red L White L Blue F L L L oise Filter L L L Red White Blue Terminal Block TBB L Red L White L Blue L L L Diode stack DS ~+ ~ ~- R R ZR4 + C C C + DCL C R R P IPM ACCT -U U V W Gate amp board (G/A board) PE Green/ Yellow Connect to Indoor and remote controller PE TB M M M M S TB7 Crank case heater (Compressor) SV SV4 SV BOX BODY CH SV S4 SV SV BOX BODY C (P) 4 C4 (P) 4 4 C (P) C (P) C7 (P) X0 X07 X08 X09 CTR T0 Control circuit board (MAI board) F 0VAC A F BOX BODY Blue DEMAD IGHT MODE White MF CE (P) BOX BODY FB C0 CAC (P) 4 (P) 4 4 7 8 9 CS CS CTR CRS 4 4CRS CVDC CDR (P) (P) F (P) (7P) (7P) (4P) (9P) 0VAC A F 7 7 CVCC4 F0 CVCC4 (P) 0VAC (P) A F X0 CVCC CVCC (P) 4 4 (P) X0 X0 X0 C CX0 CC CTH CR CL C0V (P) X0 X04 (P) (P) (P) (P) (P) CFA X0 (P) V C (P) CD (P) Green 4 4:Compressor O/OFF :Trouble L L L Red CDC (4P) 4 THHS R7 BOX BODY 4 7 8 9 4 7 8 904 Brown Red Power circuit board (IV board) L CDR (9P) Brown Orange R FB Orange Yellow CV (4P) Purple Gray White 4 7 8 904 CV (4P) CPOW (P) High pressure switch H C8 (P) X0 detection circuit F0 0VAC.A F F0 0VAC.A F F0 0VAC.A F Refer to the service handbook about the switch operations. C09 C0 C0 C0 C0 C0 CH CL CLV (P) (P) (4P) (P) (8P) (P) (P) (P) (P) 4 4 4 7 8 CFC4 (P) 4 CFC (P) FB4 White Red White Red White Red CACCT (4P) 4 4 CFA (P) 4 Fan control board (Fancon board) FB 4 CO 4 U V WMF Fan motor (Heat exchanger) TH0 TH9 TH TH TH7 TH TH LD HS LS SLEV <SYMBOL EXPLAATIO> Symbol DCL ACCT-U,W Current Sensor ZR4 Varistor C MF S4 DC reactor (Power factor improvement) Magnetic contactor (Inverter main circuit) a m e Fan motor (Radiator panel) 4--way valve Symbol a m e SV,SV Solenoid valve (Discharge--suction bypass) Solenoid valve SV~SV (Heat exchanger capacity control) SLEV Electronic expansion valve(oil return) HS High pressure sensor LS Low pressure sensor L Choke coil(transmission) IPM Intelligent power module Symbol TH TH TH TH TH7 TH9 TH0 a m e Thermistor Discharge pipe temp. detect Saturation evapo. temp. detect Pipe temp. detect OA temp. detect liquid outlet temp. detect at Sub--cool coil High pressure liquid temp. Compressor shell temp. Symbol THHS LD X~0 FB~4 a m e Thermistor Radiator panel temp. detect Accumlator liquid level detect Aux. relay Ferrite core Earth terminal
Outdoor units / R series / R407C / PURY-P00 0YMF-C. Refrigerant circuit diagram and Thermal sensor PURY-P00, 0YMF-C ST SJ HS CJ Solenoid Valves Block SV4 SV Distributor SV SV : Solenoid valve : Orifice : Capillary : Check valve : Thermal sensor : Strainer SP : Service port ACC : Accumulator O/S CP HEXb ST TH7 CV TH SV SV TH HEXf CV7 H LS ACC HEXf Comp MA SA HEXf TH0 SLEV TH CP TH9 Drier CS(Composition Sensing) circuit CV8 CV9 CV0 CV4 Check Valves Block CV CV CV CV TH ST BV BV SVC SVA SVB Gas/liquid separator TH TH TH TH TH Indoor units HS LEV HS LEV TH LEV TH BC controller CMB-P04V-E 7
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