A heat pump apparatus includes: a refrigerant circuit which includes a compressor, an utilization-side heat exchanger, a first expansion valve, and an outdoor heat exchanger; an injection pipe which includes a solenoid switching valve and a second expansion valve; and an objective supercooling degre
A heat pump apparatus includes: a refrigerant circuit which includes a compressor, an utilization-side heat exchanger, a first expansion valve, and an outdoor heat exchanger; an injection pipe which includes a solenoid switching valve and a second expansion valve; and an objective supercooling degree table which stores objective supercooling degrees according to condensing pressure in the refrigerant circuit and rotation number of the compressor. In the heat pump apparatus, liquid refrigerant is injected to the compressor by way of the injection pipe. The heat pump apparatus switches between a first case where the liquid refrigerant is injected to the compressor and a second case where the liquid refrigerant is not injected, and a value of the objective supercooling degree is changed between the first case and the second case to control the first expansion valve based on the value of the objective supercooling degree.
대표청구항▼
1. A heat pump apparatus comprising: a refrigerant circuit which includes a compressor, a utilization-side heat exchanger, a first expansion valve, and an outdoor heat exchanger;an injection pipe which includes a solenoid switching valve and a second expansion valve; andan objective supercooling deg
1. A heat pump apparatus comprising: a refrigerant circuit which includes a compressor, a utilization-side heat exchanger, a first expansion valve, and an outdoor heat exchanger;an injection pipe which includes a solenoid switching valve and a second expansion valve; andan objective supercooling degree table which stores objective supercooling degrees which are determined by condensing pressure in the refrigerant circuit, whether the condensing pressure is rising or dropping from a predetermined threshold value of condensing pressure, and rotation number of the compressor,wherein liquid refrigerant is injected to the compressor by way of the injection pipe,wherein the heat pump apparatus switches between a first case where the liquid refrigerant is injected to the compressor and a second case where the liquid refrigerant is not injected,wherein, in the second case, the first expansion valve is controlled to be opened or closed so that an operation of the heat pump apparatus is continued at the objective supercooling degree which is extracted from the objective supercooling degree table, andwherein, in the first case, the objective supercooling degree is extracted from the objective supercooling degree table and corrected by a determined value, and the first expansion valve is controlled so that the operation of the heat pump apparatus is continued at the corrected supercooling degree. 2. The heat pump apparatus according to claim 1, wherein the respective supercooling degrees which are stored in the objective supercooling degree table are uniformly corrected by the determined value. 3. The heat pump apparatus according to claim 1, wherein the respective supercooling degrees which are stored in the objective supercooling degree table are corrected based on conditions for extracting the respective objective supercooling degrees. 4. The heat pump apparatus to claim 3, wherein the conditions are threshold value of the condensing pressure in the refrigerant circuit and the rotation number of the compressor. 5. The heat pump apparatus according to claim 1, wherein the predetermined threshold value assigned when the condensing pressure is rising and the predetermined threshold value assigned when the condensing pressure is dropping are different from each other. 6. The heat pump apparatus according to claim 1, wherein the predetermined threshold value assigned when the condensing pressure is rising is greater than the predetermined threshold value assigned when the condensing pressure is dropping. 7. The heat pump apparatus according to claim 1, further comprising: a controller configured to control the heat pump apparatus,wherein the objective supercooling degree table is stored in the controller. 8. A heat pump apparatus comprising: a refrigerant circuit which includes a compressor, a utilization-side heat exchanger, a first expansion valve, and an outdoor heat exchanger;an injection pipe which includes a solenoid switching valve and a second expansion valve;an objective supercooling degree table which stores objective supercooling degrees which are determined by condensing pressure in the refrigerant circuit, whether the condensing pressure is rising or dropping from a predetermined threshold value of condensing pressure, and rotation number of the compressor; anda corrected objective supercooling degree table which stores supercooling degrees which have been obtained, by uniformly correcting by a determined value the respective supercooling degrees stored in the objective supercooling degree table,wherein liquid refrigerant is injected to the compressor by way of the injection pipe,wherein the heat pump apparatus switches between a first case where the liquid refrigerant is injected to the compressor, and a second case where the liquid refrigerant is not injected,wherein, in the second case, the first expansion valve is controlled to be opened or closed so that an operation of the heat pump apparatus is continued at the objective supercooling degree which is extracted from the objective supercooling degree table, andwherein, in the first case, the first expansion valve is controlled so that the operation of the heat pump apparatus is continued at the supercooling degree which is extracted from the corrected objective supercooling degree table. 9. The heat pump apparatus according to claim 8, wherein the predetermined threshold value assigned when the condensing pressure is rising and the predetermined threshold value assigned when the condensing pressure is dropping are different from each other. 10. A heat pump apparatus comprising: a refrigerant circuit which includes a compressor, a utilization-side heat exchanger, a first expansion valve, and an outdoor heat exchanger;an injection pipe which includes a solenoid switching valve and a second expansion valve;an objective supercooling degree table which stores objective supercooling degrees which are determined by condensing pressure in the refrigerant circuit, whether the condensing pressure is rising or dropping from a predetermined threshold value of condensing pressure, and rotation number of the compressor; anda corrected objective supercooling degree table which stores supercooling degrees which have been obtained, by separately correcting by a determined value the respective supercooling degrees stored in the objective supercooling degree table based on conditions for extracting the respective objective supercooling degrees,wherein liquid refrigerant is injected to the compressor by way of the injection pipe,wherein the heat pump apparatus switches between a first case where the liquid refrigerant is injected to the compressor, and a second case where the liquid refrigerant is not injected,wherein, in the second case, the first expansion valve is controlled to be opened or closed so that an operation of the heat pump apparatus is continued at the objective supercooling degree which is extracted from the objective supercooling degree table, andwherein, in the first case, the first expansion valve is controlled so that the operation of the heat pump apparatus is continued at the supercooling degree which is extracted from the corrected objective supercooling degree table. 11. The heat pump apparatus according to claim 10, wherein the predetermined threshold value assigned when the condensing pressure is rising and the predetermined threshold value assigned when the condensing pressure is dropping are different from each other. 12. The heat pump apparatus according to claim 10, wherein the conditions are threshold value of the condensing pressure in the refrigerant circuit and the rotation number of the compressor.
Kurato Yamasaki JP; Shigeki Ito JP; Teruyuki Hotta JP; Yasushi Yamanaka JP; Atsushi Inaba JP, Pressure reducer and refrigerating cycle unit using the same.
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