Patent ID: 9671143
Date: 2017-06-06
CPC Classifications: F24D,F24F,F25B,Y02B

Claim:
1. A heat pump of heat source tower realizing solution regeneration and heat reutilization based on vacuum boiling, wherein the heat pump comprises a refrigerant circuit, a solution circuit, a vacuum maintenance circuit, an air circuit, a regenerative solution heating circuit and a cold/hot water circuit; the refrigerant circuit comprises a compressor, a first solenoid valve, a second solenoid valve, a first heat exchanger, a four-way valve, a second heat exchanger, a first check valve, a second check valve, a reservoir, a filter, an electronic expansion valve, a third check valve, a fourth check valve, a third heat exchanger, a gas-liquid separator and relevant connecting pipelines; the first heat exchanger is also a component of the regenerative solution heating circuit, the second heat exchanger is also a component of the solution circuit, and the third heat exchanger is also a component of the cold/hot water circuit; in the refrigerant circuit, an output end of the compressor is divided into two channels, one channel is connected to a first input end of the first heat exchanger via the second solenoid valve, the other channel is connected to a first input end of the four-way valve via the first solenoid valve, the first input end of the four-way valve is also connected to a first output end of the first heat exchanger, and a first output end of the four-way valve is connected to a first input end of the second heat exchanger, a first output end of the second heat exchanger is connected to an inlet of the first check valve, an outlet of the first check valve is divided into two channels, one channel is connected to an input end of the reservoir, the other channel is connected to the outlet of the second check valve, an inlet of the second check valve is connected to a first output end of the third heat exchanger, an output end of the reservoir is connected to an input end of the electronic expansion valve via the filter, an output end of the electronic expansion valve is divided into two channels, one channel is connected to the inlet of the third check valve, the other channel is connected to an inlet of the fourth check valve, an outlet of the third check valve is also connected to the first output end of the third heat exchanger, the outlet of the fourth check valve is connected to the first output end of the second heat exchanger and an inlet of the first check valve, a first input end of the third heat exchanger is connected to a second input end of the four-way valve, a second output end of the four-way valve is connected to an input end of the gas-liquid separator, an output end of the gas-liquid separator is connected to an input end of the compressor; the solution circuit comprises the second heat exchanger, a solution boiling regenerator, a first solution pump, a heat recoverer, a fifth solenoid valve, a sixth solenoid valve, a solution reservoir, a seventh solenoid valve, a heat source tower, a second solution pump, an electric three-way regulating valve and relevant connecting pipelines, the solution boiling regenerator is also a component of the air circuit and vacuum maintenance circuit; in the solution circuit, a solution output end of the heat source tower is connected to an inlet of the second solution pump, an outlet of the second solution pump is connected to an input end of the electric three-way regulating valve, a first output end of the electric three-way regulating valve is connected to a first input end of the heat recoverer, a first output end of the heat recoverer is connected to a first input end of the solution boiling regenerator, a first output end of the solution boiling regenerator is connected to a second input end of the heat recoverer via a first solution pump, a second output end of the heat recoverer is divided into two channels, one channel is connected to a first input end of the heat source tower via the sixth solenoid valve, the other channel is connected to an input end of the solution reservoir via the fifth solenoid valve, an output end of the solution reservoir is connected to a second input end of the heat source tower via the seventh solenoid valve, a second output end of the electric three-way regulating valve is connected to a second input end of the second heat exchanger, and a second output end of the second heat exchanger is also connected to the first input end of the heat source tower; the vacuum maintenance circuit comprises the solution boiling regenerator, a pressure regulating valve, a compensator, a third solenoid valve, a vacuum pump and relevant connecting pipelines, in the vacuum maintenance circuit, a pressure regulating end of the solution boiling regenerator is connected to a first port of the compensator via the pressure regulating valve, and a second port of the compensator is connected to an inlet of the vacuum pump via the third solenoid valve; the air circuit comprises a finned tube heat exchanger, the solution boiling regenerator and a fan which are connected successively as well as the pipelines connecting the finned tube heat exchanger, the solution boiling regenerator and the fan, they form a circulation circuit, a condensed water output end of the finned tube heat exchanger is connected to an input end of the water storage tank via the eighth solenoid valve, an output end of the water storage tank is connected to a ninth solenoid valve, and the finned tube heat exchanger is also a component of the cold/hot water circuit; the regenerative solution heating circuit comprises a second water pump, the solution boiling regenerator, a first heat exchanger and relevant connecting pipelines, in the regenerative solution heating circuit, a second output end of the first heat exchanger is connected to a second input end of the solution boiling regenerator, a second output end of the solution boiling regenerator is connected to an inlet of the second water pump, and an outlet of the second water pump is connected to a second input end of the first heat exchanger; the cold/hot water circuit comprises a first water pump, a third solenoid valve, the finned tube heat exchanger, a third heat exchanger and relevant connecting pipelines, in the cold/hot water circuit, an inlet of the first water pump is connected to a return end of the heat pump unit of heat source tower, an outlet of the first water pump is divided into two channels, one channel is connected to a second input end of the third heat exchanger, the other channel is connected to a hot/cold water input end of the finned tube heat exchanger via the third solenoid valve, a hot/cold water output end of the finned tube heat exchanger is connected to a water supply end of the heat pump unit of heat source tower, and a second output end of the third heat exchanger is also connected to the water supply end of the heat pump unit of heat source tower.