TH76949B - Refrigeration cycle machine set - Google Patents

Abstract

The compressor (12), four-way valve (13), outdoor heat exchanger (14), expansion valve (15) and indoor heat exchanger (16) are connected to the refrigerant circuit (11a). Where the refrigerant with HFO-1123 circulates, the refrigeration cycle unit (10) is regulated, by means of the control mechanism, the pressure of the refrigerant in the flow path (that is, on the high pressure side. ) of the refrigerant circuit (11a) from the compressor (12) to the expansion valve (15) not greater than the initial value. If disproportionation occurs in some parts such as the compressor (12)

Claims (3)

Disclaimer (all) which will not appear on the advertisement page: Amendment 09/11/2018 No disclaimer ----------- Revised 09/03/2017 1. Cycle engine set Cooling, which includes Refrigerant circuit in which the compressor, the first heat exchanger, the expansion mechanism and the second heat exchanger are connected to that section. And where 1,1,2-trifluoroethylene circulates and a control mechanism to regulate refrigerant pressure in the flow path of the refrigerant cycle. The cooling cycle from the compressor to the expansion mechanism is not greater than the initial value. 2. A series of refrigeration cycle machines according to claim 1, where the control mechanism reduces the number of rotations of the electric motor components of the compressor. When the refrigerant pressure in the refrigerant cycle flow path from the compressor to The expansion mechanism reaches a value of no less than 4 MPa and no more than 5 MPa. 3. Set of refrigeration cycle machines according to claim 1 or 2 where the control mechanism includes, in the compressor, bypass valve. To open the flow pathway Refrigeration for deflection of compressor compression components when the difference The pressure of the refrigerant before and after it is compressed by the compression component of the compressor to the second value. 4. Refrigeration cycle set according to claim 3, where the compressor's compression components, including the cylinders to suck up the refrigerant. Cooling away In the cylinder chamber, the inside of the cylinder from the refrigerant circuit And to compress the refrigerant in Cylinder chamber And the emission silencer to release the refrigerant compressed by The cylinder goes to the gap in the compressor's container and where the bypass valve creates a passageway through which the refrigerant is sucked into the chamber. The cylinders inside the cylinder and the emission silencer through that section are in contact with each other when the difference. Pre-refrigerant pressure And after being compressed by the compression components of the compressor To the second value 5. A set of refrigeration cycle machines according to claim 3 or 4 where the second value is not less than 3.5 MPa and not more than 4.5 MPa. Holds the 1st or 2nd right that the mechanism controls This includes a bypass valve connected to the refrigerant circuit, a bypass valve that opens the refrigerant flow passage for compressor bypass when the Differential pressure of the refrigerant before and after being compressed by the compressor to a second value of not less than 3.5 MPa and not more than 4.5 MPa. 7. A set of refrigeration cycle. According to any of claims 1 through 6, where the control mechanism stops supplying power to the electric motor component of the compressor. When the refrigerant pressure in the refrigerant cycle flow path from the compressor to The expansion mechanism reaches a third. 8. A series of refrigeration cycle machines according to claim 7, where the control mechanism includes, in the dumper, pressure fuses to shut off the conductivity between Compressor electric motor components And the external power source when the pressure of the substance The cooling path of the refrigerant cycle from the compressor to the expansion mechanism reaches the third value 9. Refrigeration cycle set according to claim 8, where the pressure fuse is placed in the container. Of compressor 1 0. Cycle cooling set according to any of Claim 7 through 9, where the third value is no 1, less than 5 MPa and not more than 6 MPa 1 1. Cycle unit Cooling according to any of claims 1 to 10, where the control mechanism includes, on the compressor, the relief valve for the refrigerant discharge. Cool the outside of the compressor container. And open the relief valve when the pressure of refrigerant In the flow path of the refrigerant cycle from the compressor to the expansion mechanism up to a fourth value of not less than 5.5 MPa and not more than 6.5 MPa 1 2. Refrigeration cycle set according to one of the above arguments. Rights 1 to 11, where the refrigerant is 1,1,2-trifluoroethylene 1 3. A set of refrigeration cycle machines according to any of the claims 1 to 11. Where the refrigerant is a mixture containing 1% or more of 1,1,2-trifluoroethylene. -------------------------------------------------- Revised 03/03/2017 1. Refrigeration cycle machine kit, which includes Refrigerant circuit in which the compressor, the first heat exchanger, the expansion mechanism and the second heat exchanger are connected to that section. And where 1,1,2-trifluoroethylene circulates and a control mechanism to regulate refrigerant pressure in the flow path of the refrigerant cycle. The cooling cycle from the compressor to the expansion mechanism is not greater than the initial value. 2. A series of refrigeration cycle machines according to claim 1, where the control mechanism reduces the number of rotations of the electric motor components of the compressor. When the refrigerant pressure in the refrigerant cycle flow path from the compressor to 3. A set of refrigeration cycle machines according to claim 1 or 2 where the control mechanism includes, in the compressor, a bypass valve to open the flow path. Refrigeration for deflection of compressor compression components when the difference The refrigerant pressure before and after it is compressed by the compressor compression component to a second value. 4. A set of refrigeration cycle machines according to claims 1 to 3, where the control mechanism includes: Bypass valve connected to refrigerant circuit, bypass valve That opens the refrigerant flow path for a compressor bypass when the difference The pressure of the refrigerant before and after it is compressed by the compressor reaches the second value. 5. Refrigeration cycle set according to terms 1, 3 or 4, where the control mechanism stops supplying power to Compressor electric motor components When the refrigerant pressure in the refrigerant cycle flow path from the compressor to The expansion mechanism reaches a third. 6. A set of refrigeration cycle machines according to claim 2, where the control mechanism stops supplying power to the electric motor component of the compressor. When the refrigerant pressure in the refrigerant cycle flow path from the compressor to Also, the expansion mechanism reaches a third higher than the first. 7. A series of refrigeration cycle machines according to claim 5 or 6, where the control mechanism includes, in the compressor, the pressure fuse to shut off the conductivity. between Compressor electric motor components And the external power source when the pressure of the substance The cooling flow path of the refrigerant cycle from the compressor to the expansion mechanism reaches a third. 8. A set of refrigeration cycle machines according to any of claims 1 to 4, where the control mechanism. Includes, on the compressor, relief valve for the release of the refrigerant Cool the outside of the compressor container. And open the relief valve when the pressure of refrigerant In the flow path of the refrigerant cycle from the compressor to the expansion mechanism reaches the fourth value 9. Refrigeration cycle series according to claim 8 where the control mechanism includes, on the compressor, the relief valve for Release of the cleaning agent Cool the outside of the compressor container. And open the relief valve when the pressure of refrigerant In the flow path of the refrigerant cycle from the compressor to the expansion mechanism reaches the fourth value. Higher than the third value 1 0. Set of refrigeration cycle machines according to any of Clause 1 to 9, where the refrigerant is 1,1,2-trifluoroethylene. 1 1. Refrigeration cycle set according to any of Claim 1 to 9, where the refrigerant is a mixture containing 1% or more of 1,1,2-trifluoroa. Matthew -------------------------------------------------- - 1. A set of refrigeration cycle machines including Refrigerant circuit in which the compressor, the first heat exchanger, the expansion mechanism and the second heat exchanger are connected to that section. And where the 1,1,2-trifluorethylene-containing refrigerant circulates and a control mechanism to regulate the refrigerant pressure in the flow path of the refrigerant cycle. The cooling cycle from the compressor to the expansion mechanism is not greater than the initial value. 2. A series of refrigeration cycle machines according to claim 1, where the control mechanism reduces the number of rotations of the electric motor components of the compressor. When the refrigerant pressure in the refrigerant cycle flow path from the compressor to The expansion mechanism reaches a value of no less than 4 MPa and no more than 5 MPa. 3. Set of refrigeration cycle machines according to claim 1 or 2 where the control mechanism includes, in the compressor, bypass valve. To open the flow pathway Refrigeration for deflection of compressor compression components when the difference The pressure of the refrigerant before and after it is compressed by the compression component of the compressor to the second value. 4. Refrigeration cycle set according to claim 3, where the compressor's compression components, including the cylinders to suck up the refrigerant. Cooling away In the cylinder chamber, the inside of the cylinder from the refrigerant circuit And to compress the refrigerant in Cylinder chamber And the emission silencer to release the refrigerant compressed by The cylinder goes to the gap in the compressor's container and where the bypass valve creates a passageway through which the refrigerant is sucked into the chamber. The cylinders inside the cylinder and the emission silencer through that section are in contact with each other when the difference. Pre-refrigerant pressure And after being compressed by the compression components of the compressor To the second value 5. A set of refrigeration cycle machines according to claim 3 or 4 where the second value is not less than 3.5 MPa and not more than 4.5 MPa. Holds the 1st or 2nd right that the mechanism controls This includes a bypass valve connected to the refrigerant circuit, a bypass valve that opens the refrigerant flow passage for compressor bypass when the Differential pressure of the refrigerant before and after being compressed by the compressor to a second value of not less than 3.5 MPa and not more than 4.5 MPa. 7. A set of refrigeration cycle. According to any of claims 1 through 6, where the control mechanism stops supplying power to the electric motor component of the compressor. When the refrigerant pressure in the refrigerant cycle flow path from the compressor to 8. A set of refrigeration cycle machines according to claim 7, where the control mechanism includes, in the compressor, a pressure fuse to shut off the conductivity between Compressor electric motor components And the external power source when the pressure of the substance The cooling path of the refrigerant cycle from the compressor to the expansion mechanism reaches the third value 9. Refrigeration cycle set according to claim 8, where the pressure fuse is placed in the container. Of compressor 1 0. Refrigeration cycle unit according to any of Claim 7 to 9, where the third is not less than 5 MPa and not more than 6 MPa 1. 1. Refrigeration cycle set according to any of Clause 1 to 10 where the control mechanism includes, on the compressor, the vent valve for the release of the refrigerant. Cool the outside of the compressor container. And open the relief valve when the pressure of refrigerant In the flow path of the refrigerant cycle from the compressor to the expansion mechanism reaches a value of not less than 5.5 MPa and not more than 6.5 MPa 1. 2. Refrigeration cycle set according to any of the claims 1 to 11, where the refrigerant is 1,1,2-trifluoroethylene 1. 3. Refrigeration cycle set according to any of Claims 1 to 11, where the refrigerant is a mixture containing 1% or more of 1,1,2-trifluoroethylene. Lean