阅读说明：本技术 第四类热驱动压缩式热泵 (Fourth-class thermally-driven compression heat pump ) 是由 李鸿瑞 李华玉 于 2020-03-08 设计创作，主要内容包括：本发明提供第四类热驱动压缩式热泵,属于动力、制冷与热泵技术领域。双能压缩机有循环工质通道经低温供热器与扩压管连通,扩压管还有循环工质通道经高温供热器与喷管连通,喷管还有循环工质通道经热源热交换器与第二喷管连通,第二喷管还有循环工质通道经供冷器与双能压缩机连通；低温供热器还有冷却介质通道与外部连通,高温供热器还有被加热介质通道与外部连通,热源热交换器还有热源介质通道与外部连通,供冷器还有被制冷介质通道与外部连通,形成第四类热驱动压缩式热泵。(The invention provides a fourth type of thermally driven compression heat pump, and belongs to the technical field of power, refrigeration and heat pumps. The dual-energy compressor is provided with a circulating working medium channel which is communicated with a diffuser pipe through a low-temperature heat supplier, the diffuser pipe is also provided with a circulating working medium channel which is communicated with a spray pipe through a high-temperature heat supplier, the spray pipe is also provided with a circulating working medium channel which is communicated with a second spray pipe through a heat source heat exchanger, and the second spray pipe is also provided with a circulating working medium channel which is communicated with the dual-energy compressor through a cold supplier; the low-temperature heat supply device is also communicated with the outside through a cooling medium channel, the high-temperature heat supply device is also communicated with the outside through a heated medium channel, the heat source heat exchanger is also communicated with the outside through a heat source medium channel, and the cold supply device is also communicated with the outside through a cooled medium channel to form a fourth-class heat-driven compression heat pump.)

1. A fourth type of thermally driven compression heat pump, which mainly comprises a diffuser pipe, a second diffuser pipe, a spray pipe, a second spray pipe, a compressor, a low-temperature heater, a high-temperature heater, a heat source heat exchanger and a cold supply device; the diffuser pipe (1) is provided with a circulating working medium channel which is communicated with the compressor (5), the compressor (5) is also provided with a circulating working medium channel which is communicated with the second diffuser pipe (2) through a low-temperature heat supply device (6), the second diffuser pipe (2) is also provided with a circulating working medium channel which is communicated with the spray pipe (3) through a high-temperature heat supply device (7), the spray pipe (3) is also provided with a circulating working medium channel which is communicated with the second spray pipe (4) through a heat source heat exchanger (8), and the second spray pipe (4) is also provided with a circulating working medium channel which is communicated with the diffuser pipe (1) through a cold supply device (9); the low-temperature heat supply device (6) is also provided with a cooling medium channel communicated with the outside, the high-temperature heat supply device (7) is also provided with a heated medium channel communicated with the outside, the heat source heat exchanger (8) is also provided with a heat source medium channel communicated with the outside, and the cold supply device (9) is also provided with a cooled medium channel communicated with the outside to form a fourth-class heat-driven compression heat pump.

2. A fourth type of thermally driven compression heat pump, which mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supplier, a high-temperature heat supplier, a heat source heat exchanger, a cold supplier and a dual-energy compressor; the dual-energy compressor (10) is provided with a circulating working medium channel which is communicated with the diffuser pipe (1) through the low-temperature heat supply device (6), the diffuser pipe (1) is also provided with a circulating working medium channel which is communicated with the spray pipe (3) through the high-temperature heat supply device (7), the spray pipe (3) is also provided with a circulating working medium channel which is communicated with the second spray pipe (4) through the heat source heat exchanger (8), and the second spray pipe (4) is also provided with a circulating working medium channel which is communicated with the dual-energy compressor (10) through the cold supply device (9); the low-temperature heat supply device (6) is also provided with a cooling medium channel communicated with the outside, the high-temperature heat supply device (7) is also provided with a heated medium channel communicated with the outside, the heat source heat exchanger (8) is also provided with a heat source medium channel communicated with the outside, and the cold supply device (9) is also provided with a cooled medium channel communicated with the outside to form a fourth-class heat-driven compression heat pump.

3. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supplier, a high-temperature heat supplier, a heat source heat exchanger and a dual-energy compressor; a refrigerated medium channel is arranged outside and communicated with a dual-energy compressor (10), the dual-energy compressor (10) is also provided with a refrigerated medium channel which is communicated with a diffuser pipe (1) through a low-temperature heat supply device (6), the diffuser pipe (1) is also provided with a refrigerated medium channel which is communicated with a spray pipe (3) through a high-temperature heat supply device (7), the spray pipe (3) is also provided with a refrigerated medium channel which is communicated with a second spray pipe (4) through a heat source heat exchanger (8), and the second spray pipe (4) is also provided with a refrigerated medium channel which is communicated with the outside; the low-temperature heat supply device (6) is also provided with a cooling medium channel communicated with the outside, the high-temperature heat supply device (7) is also provided with a heated medium channel communicated with the outside, and the heat source heat exchanger (8) is also provided with a heat source medium channel communicated with the outside to form a fourth type of heat-driven compression heat pump.

4. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supplier, a high-temperature heat supplier, a cold supplier and a dual-energy compressor; a heat source medium channel is arranged outside and communicated with a second spray pipe (4), the second spray pipe (4) is also provided with a heat source medium channel which is communicated with a dual-energy compressor (10) through a cold supply device (9), the dual-energy compressor (10) is also provided with a heat source medium channel which is communicated with a diffuser pipe (1) through a low-temperature heat supply device (6), the diffuser pipe (1) is also provided with a heat source medium channel which is communicated with the spray pipe (3) through a high-temperature heat supply device (7), and the spray pipe (3) is also provided with a heat source medium channel which is communicated with the outside; the low-temperature heat supply device (6) is also provided with a cooling medium channel communicated with the outside, the high-temperature heat supply device (7) is also provided with a heated medium channel communicated with the outside, and the cold supply device (9) is also provided with a cooled medium channel communicated with the outside to form a fourth-class thermally driven compression heat pump.

5. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supplier, a heat source heat exchanger, a cold supplier and a dual-energy compressor; a heated medium channel is arranged outside and communicated with the spray pipe (3), the spray pipe (3) is also provided with a heated medium channel which is communicated with the second spray pipe (4) through a heat source heat exchanger (8), the second spray pipe (4) is also provided with a heated medium channel which is communicated with a dual-energy compressor (10) through a cold supply device (9), the dual-energy compressor (10) is also provided with a heated medium channel which is communicated with the diffuser pipe (1) through a low-temperature heat supply device (6), and the diffuser pipe (1) is also provided with a heated medium channel which is communicated with the outside; the low-temperature heat supply device (6) is also provided with a cooling medium channel communicated with the outside, the heat source heat exchanger (8) is also provided with a heat source medium channel communicated with the outside, and the cold supply device (9) is also provided with a refrigerated medium channel communicated with the outside to form a fourth type of heat-driven compression heat pump.

6. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a high-temperature heat supplier, a heat source heat exchanger, a cold supplier and a dual-energy compressor; a cooling medium channel is arranged outside and communicated with the diffuser pipe (1), the diffuser pipe (1) is also provided with a cooling medium channel which is communicated with the spray pipe (3) through a high-temperature heat supply device (7), the spray pipe (3) is also provided with a cooling medium channel which is communicated with the second spray pipe (4) through a heat source heat exchanger (8), the second spray pipe (4) is also provided with a cooling medium channel which is communicated with the dual-energy compressor (10) through a cold supply device (9), and the dual-energy compressor (10) is also provided with a cooling medium channel which is communicated with the outside; the high-temperature heat supply device (7) is also provided with a heated medium channel communicated with the outside, the heat source heat exchanger (8) is also provided with a heat source medium channel communicated with the outside, and the cold supply device (9) is also provided with a cooled medium channel communicated with the outside to form a fourth-class heat-driven compression heat pump.

7. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a heat source heat exchanger, a cold supply device, a dual-energy compressor and a heat regenerator; the dual-energy compressor (10) is provided with a circulating working medium channel which is communicated with the diffuser pipe (1) through the low-temperature heat supplier (6) and the heat regenerator (11), the diffuser pipe (1) is also provided with a circulating working medium channel which is communicated with the spray pipe (3) through the high-temperature heat supplier (7), the spray pipe (3) is also provided with a circulating working medium channel which is communicated with the second spray pipe (4) through the heat source heat exchanger (8), and the second spray pipe (4) is also provided with a circulating working medium channel which is communicated with the dual-energy compressor (10) through the cold supplier (9) and the heat regenerator (11); the low-temperature heat supply device (6) is also provided with a cooling medium channel communicated with the outside, the high-temperature heat supply device (7) is also provided with a heated medium channel communicated with the outside, the heat source heat exchanger (8) is also provided with a heat source medium channel communicated with the outside, and the cold supply device (9) is also provided with a cooled medium channel communicated with the outside to form a fourth-class heat-driven compression heat pump.

8. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a heat source heat exchanger, a dual-energy compressor and a heat regenerator; the external part is provided with a refrigerated medium which is communicated with a dual-energy compressor (10) through a heat regenerator (11), the dual-energy compressor (10) is also provided with a refrigerated medium channel which is communicated with a diffuser pipe (1) through a low-temperature heat supplier (6) and the heat regenerator (11), the diffuser pipe (1) is also provided with a refrigerated medium channel which is communicated with a spray pipe (3) through a high-temperature heat supplier (7), the spray pipe (3) is also provided with a refrigerated medium channel which is communicated with a second spray pipe (4) through a heat source heat exchanger (8), and the second spray pipe (4) is also provided with a refrigerated medium channel which is communicated with the external part; the low-temperature heat supply device (6) is also provided with a cooling medium channel communicated with the outside, the high-temperature heat supply device (7) is also provided with a heated medium channel communicated with the outside, and the heat source heat exchanger (8) is also provided with a heat source medium channel communicated with the outside to form a fourth type of heat-driven compression heat pump.

9. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a cold supply device, a dual-energy compressor and a heat regenerator; a heat source medium channel is arranged outside and communicated with a second spray pipe (4), the second spray pipe (4) is also provided with a heat source medium channel which is communicated with a dual-energy compressor (10) through a cold supply device (9) and a heat regenerator (11), the dual-energy compressor (10) is also provided with a heat source medium channel which is communicated with a diffuser pipe (1) through a low-temperature heat supply device (6) and the heat regenerator (11), the diffuser pipe (1) is also provided with a heat source medium channel which is communicated with the spray pipe (3) through a high-temperature heat supply device (7), and the spray pipe (3) is also provided with a heat source medium channel which is communicated with the outside; the low-temperature heat supply device (6) is also provided with a cooling medium channel communicated with the outside, the high-temperature heat supply device (7) is also provided with a heated medium channel communicated with the outside, and the cold supply device (9) is also provided with a cooled medium channel communicated with the outside to form a fourth-class thermally driven compression heat pump.

10. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a heat source heat exchanger, a cold supply device, a dual-energy compressor and a heat regenerator; a heated medium channel is arranged outside and communicated with the spray pipe (3), the spray pipe (3) is also provided with a heated medium channel which is communicated with the second spray pipe (4) through a heat source heat exchanger (8), the second spray pipe (4) is also provided with a heated medium channel which is communicated with a dual-energy compressor (10) through a cooler (9) and a heat regenerator (11), the dual-energy compressor (10) is also provided with a heated medium channel which is communicated with the diffuser pipe (1) through a low-temperature heater (6) and the heat regenerator (11), and the diffuser pipe (1) is also provided with a heated medium channel which is communicated with the outside; the low-temperature heat supply device (6) is also provided with a cooling medium channel communicated with the outside, the heat source heat exchanger (8) is also provided with a heat source medium channel communicated with the outside, and the cold supply device (9) is also provided with a refrigerated medium channel communicated with the outside to form a fourth type of heat-driven compression heat pump.

11. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a high-temperature heat supply device, a heat source heat exchanger, a cold supply device, a dual-energy compressor and a heat regenerator; a cooling medium channel is arranged outside and is communicated with a diffuser pipe (1) through a heat regenerator (11), the diffuser pipe (1) is also provided with a cooling medium channel which is communicated with a spray pipe (3) through a high-temperature heat supply device (7), the spray pipe (3) is also provided with a cooling medium channel which is communicated with a second spray pipe (4) through a heat source heat exchanger (8), the second spray pipe (4) is also provided with a cooling medium channel which is communicated with a dual-energy compressor (10) through a cold supply device (9) and the heat regenerator (11), and the dual-energy compressor (10) is also provided with a cooling medium channel which is communicated with the outside; the high-temperature heat supply device (7) is also provided with a heated medium channel communicated with the outside, the heat source heat exchanger (8) is also provided with a heat source medium channel communicated with the outside, and the cold supply device (9) is also provided with a cooled medium channel communicated with the outside to form a fourth-class heat-driven compression heat pump.

12. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a heat source heat exchanger, a cold supply device, a dual-energy compressor and a heat regenerator; the dual-energy compressor (10) is provided with a circulating working medium channel which is communicated with the diffuser pipe (1) through the heat regenerator (11) and the low-temperature heat supply device (6), the diffuser pipe (1) is also provided with a circulating working medium channel which is communicated with the spray pipe (3) through the high-temperature heat supply device (7), the spray pipe (3) is also provided with a circulating working medium channel which is communicated with the second spray pipe (4) through the heat regenerator (11) and the heat source heat exchanger (8), and the second spray pipe (4) is also provided with a circulating working medium channel which is communicated with the dual-energy compressor (10) through the cold supply device (9); the low-temperature heat supply device (6) is also provided with a cooling medium channel communicated with the outside, the high-temperature heat supply device (7) is also provided with a heated medium channel communicated with the outside, the heat source heat exchanger (8) is also provided with a heat source medium channel communicated with the outside, and the cold supply device (9) is also provided with a cooled medium channel communicated with the outside to form a fourth-class heat-driven compression heat pump.

13. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a heat source heat exchanger, a dual-energy compressor and a heat regenerator; the external part is provided with a refrigerated medium which is communicated with a dual-energy compressor (10), the dual-energy compressor (10) is also provided with a refrigerated medium channel which is communicated with a diffuser pipe (1) through a heat regenerator (11) and a low-temperature heat supply device (6), the diffuser pipe (1) is also provided with a refrigerated medium channel which is communicated with a spray pipe (3) through a high-temperature heat supply device (7), the spray pipe (3) is also provided with a refrigerated medium channel which is communicated with a second spray pipe (4) through the heat regenerator (11) and a heat source heat exchanger (8), and the second spray pipe (4) is also provided with a refrigerated medium channel which is communicated with the external part; the low-temperature heat supply device (6) is also provided with a cooling medium channel communicated with the outside, the high-temperature heat supply device (7) is also provided with a heated medium channel communicated with the outside, and the heat source heat exchanger (8) is also provided with a heat source medium channel communicated with the outside to form a fourth type of heat-driven compression heat pump.

14. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a cold supply device, a dual-energy compressor and a heat regenerator; the external part is provided with a heat source medium channel which is communicated with a second spray pipe (4), the second spray pipe (4) is also provided with a heat source medium channel which is communicated with a dual-energy compressor (10) through a cooler (9), the dual-energy compressor (10) is provided with a heat source medium channel which is communicated with a diffuser pipe (1) through a heat regenerator (11) and a low-temperature heat supply device (6), the diffuser pipe (1) is also provided with a heat source medium channel which is communicated with a spray pipe (3) through a high-temperature heat supply device (7), and the spray pipe (3) is also provided with a heat source medium channel which is communicated with the external part through the heat regenerator; the low-temperature heat supply device (6) is also provided with a cooling medium channel communicated with the outside, the high-temperature heat supply device (7) is also provided with a heated medium channel communicated with the outside, and the cold supply device (9) is also provided with a cooled medium channel communicated with the outside to form a fourth-class thermally driven compression heat pump.

15. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a heat source heat exchanger, a cold supply device, a dual-energy compressor and a heat regenerator; a heated medium channel is arranged outside and communicated with the spray pipe (3), the spray pipe (3) is also communicated with a second spray pipe (4) through a heat regenerator (11) and a heat source heat exchanger (8), the second spray pipe (4) is also communicated with a heated medium channel and a dual-energy compressor (10) through a cold supplier (9), the dual-energy compressor (10) is also communicated with a diffuser pipe (1) through the heat regenerator (11) and a low-temperature heat supplier (6), and the diffuser pipe (1) is also communicated with the outside through the heated medium channel; the low-temperature heat supply device (6) is also provided with a cooling medium channel communicated with the outside, the heat source heat exchanger (8) is also provided with a heat source medium channel communicated with the outside, and the cold supply device (9) is also provided with a refrigerated medium channel communicated with the outside to form a fourth type of heat-driven compression heat pump.

16. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a high-temperature heat supply device, a heat source heat exchanger, a cold supply device, a dual-energy compressor and a heat regenerator; a cooling medium channel is arranged outside and communicated with the diffuser pipe (1), the diffuser pipe (1) is also provided with a cooling medium channel which is communicated with the spray pipe (3) through a high-temperature heat supply device (7), the spray pipe (3) is also provided with a cooling medium channel which is communicated with the second spray pipe (4) through a heat regenerator (11) and a heat source heat exchanger (8), the second spray pipe (4) is also provided with a cooling medium channel which is communicated with the dual-energy compressor (10) through a cold supply device (9), and the dual-energy compressor (10) is also provided with a cooling medium channel which is communicated with the outside through the heat regenerator (11); the high-temperature heat supply device (7) is also provided with a heated medium channel communicated with the outside, the heat source heat exchanger (8) is also provided with a heat source medium channel communicated with the outside, and the cold supply device (9) is also provided with a cooled medium channel communicated with the outside to form a fourth-class heat-driven compression heat pump.

17. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a heat source heat exchanger, a cold supply device, a dual-energy compressor and a heat regenerator; the dual-energy compressor (10) is provided with a circulating working medium channel which is communicated with the diffuser pipe (1) through the low-temperature heat supply device (6), the diffuser pipe (1) is also provided with a circulating working medium channel which is communicated with the spray pipe (3) through the high-temperature heat supply device (7) and the heat regenerator (11), the spray pipe (3) is also provided with a circulating working medium channel which is communicated with the second spray pipe (4) through the heat source heat exchanger (8) and the heat regenerator (11), and the second spray pipe (4) is also provided with a circulating working medium channel which is communicated with the dual-energy compressor (10) through the cold supply device (9); the low-temperature heat supply device (6) is also provided with a cooling medium channel communicated with the outside, the high-temperature heat supply device (7) is also provided with a heated medium channel communicated with the outside, the heat source heat exchanger (8) is also provided with a heat source medium channel communicated with the outside, and the cold supply device (9) is also provided with a cooled medium channel communicated with the outside to form a fourth-class heat-driven compression heat pump.

18. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a heat source heat exchanger, a dual-energy compressor and a heat regenerator; a refrigerated medium channel is arranged outside and communicated with a dual-energy compressor (10), the dual-energy compressor (10) is also provided with a refrigerated medium channel which is communicated with a diffuser pipe (1) through a low-temperature heat supply device (6), the diffuser pipe (1) is also provided with a refrigerated medium channel which is communicated with a spray pipe (3) through a high-temperature heat supply device (7) and a heat regenerator (11), the spray pipe (3) is also provided with a refrigerated medium channel which is communicated with a second spray pipe (4) through a heat source heat exchanger (8) and the heat regenerator (11), and the second spray pipe (4) is also provided with a refrigerated medium channel which is communicated with the outside; the low-temperature heat supply device (6) is also provided with a cooling medium channel communicated with the outside, the high-temperature heat supply device (7) is also provided with a heated medium channel communicated with the outside, and the heat source heat exchanger (8) is also provided with a heat source medium channel communicated with the outside to form a fourth type of heat-driven compression heat pump.

19. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a cold supply device, a dual-energy compressor and a heat regenerator; a heat source medium channel is arranged outside and communicated with a second spray pipe (4) through a heat regenerator (11), the second spray pipe (4) is also communicated with a dual-energy compressor (10) through a cold supplier (9), the dual-energy compressor (10) is also communicated with a diffuser pipe (1) through a low-temperature heat supplier (6), the diffuser pipe (1) is also communicated with a spray pipe (3) through a high-temperature heat supplier (7) and the heat regenerator (11), and the spray pipe (3) is also communicated with the outside through a heat source medium channel; the low-temperature heat supply device (6) is also provided with a cooling medium channel communicated with the outside, the high-temperature heat supply device (7) is also provided with a heated medium channel communicated with the outside, and the cold supply device (9) is also provided with a cooled medium channel communicated with the outside to form a fourth-class thermally driven compression heat pump.

20. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a heat source heat exchanger, a cold supply device, a dual-energy compressor and a heat regenerator; a heated medium channel is arranged outside and is communicated with the spray pipe (3) through a heat regenerator (11), the spray pipe (3) is also communicated with a second spray pipe (4) through a heat source heat exchanger (8) and the heat regenerator (11), the second spray pipe (4) is also communicated with a heated medium channel through a cold supply device (9) and a dual-energy compressor (10), the dual-energy compressor (10) is also communicated with a diffuser pipe (1) through a low-temperature heat supply device (6), and the diffuser pipe (1) is also communicated with the outside through the heated medium channel; the low-temperature heat supply device (6) is also provided with a cooling medium channel communicated with the outside, the heat source heat exchanger (8) is also provided with a heat source medium channel communicated with the outside, and the cold supply device (9) is also provided with a refrigerated medium channel communicated with the outside to form a fourth type of heat-driven compression heat pump.

21. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a high-temperature heat supply device, a heat source heat exchanger, a cold supply device, a dual-energy compressor and a heat regenerator; a cooling medium channel is arranged outside and communicated with the diffuser pipe (1), the diffuser pipe (1) is also provided with a cooling medium channel which is communicated with the spray pipe (3) through a high-temperature heat supply device (7) and a heat regenerator (11), the spray pipe (3) is also provided with a cooling medium channel which is communicated with the second spray pipe (4) through a heat source heat exchanger (8) and the heat regenerator (11), the second spray pipe (4) is also provided with a cooling medium channel which is communicated with the dual-energy compressor (10) through a cold supply device (9), and the dual-energy compressor (10) is also provided with a cooling medium channel which is communicated with the outside; the high-temperature heat supply device (7) is also provided with a heated medium channel communicated with the outside, the heat source heat exchanger (8) is also provided with a heat source medium channel communicated with the outside, and the cold supply device (9) is also provided with a cooled medium channel communicated with the outside to form a fourth-class heat-driven compression heat pump.

The technical field is as follows:

the invention belongs to the technical field of power, refrigeration, heat supply and heat pumps.

Background art:

cold demand, heat demand and power demand, which are common in human life and production; to achieve cold, heat and power requirements, one pays for the cost of the equipment. In order to reduce the corresponding cost, people need simple and direct basic technical support; especially under the condition of multi-temperature difference utilization or multi-energy utilization or the condition of simultaneously meeting different energy supply requirements, the fundamental technology provides guarantee for realizing a simple, active and efficient energy production and utilization system.

The invention provides a fourth type of thermally-driven compression heat pump which takes a dual-energy compressor, a diffuser pipe, a spray pipe and a heat exchanger as basic components, and aims to meet the conditions of high-temperature heat demand and refrigeration demand simultaneously by using medium-temperature heat resources, or realize high-temperature heat supply and low-temperature heat supply by using medium-temperature heat resources, and consider taking power resource utilization into consideration or meeting external power demand into consideration, and follow the principle of simply, actively and efficiently realizing temperature difference and energy difference utilization.

The invention content is as follows:

the invention mainly aims to provide a fourth type of thermally driven compression heat pump which realizes a pressure and temperature increasing process by a dual-energy compressor and a diffuser pipe and a pressure and expansion reducing process by a spray pipe, and the specific contents of the invention are set forth in the following items:

1. a fourth type of thermally driven compression heat pump, which mainly comprises a diffuser pipe, a second diffuser pipe, a spray pipe, a second spray pipe, a compressor, a low-temperature heater, a high-temperature heater, a heat source heat exchanger and a cold supply device; the diffusion pipe is provided with a circulating working medium channel which is communicated with the compressor, the compressor is also provided with a circulating working medium channel which is communicated with a second diffusion pipe through a low-temperature heat supplier, the second diffusion pipe is also provided with a circulating working medium channel which is communicated with the spray pipe through a high-temperature heat supplier, the spray pipe is also provided with a circulating working medium channel which is communicated with a second spray pipe through a heat source heat exchanger, and the second spray pipe is also provided with a circulating working medium channel which is communicated with the diffusion pipe through a cold; the low-temperature heat supply device is also communicated with the outside through a cooling medium channel, the high-temperature heat supply device is also communicated with the outside through a heated medium channel, the heat source heat exchanger is also communicated with the outside through a heat source medium channel, and the cold supply device is also communicated with the outside through a cooled medium channel to form a fourth-class heat-driven compression heat pump.

2. A fourth type of thermally driven compression heat pump, which mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supplier, a high-temperature heat supplier, a heat source heat exchanger, a cold supplier and a dual-energy compressor; the dual-energy compressor is provided with a circulating working medium channel which is communicated with a diffuser pipe through a low-temperature heat supplier, the diffuser pipe is also provided with a circulating working medium channel which is communicated with a spray pipe through a high-temperature heat supplier, the spray pipe is also provided with a circulating working medium channel which is communicated with a second spray pipe through a heat source heat exchanger, and the second spray pipe is also provided with a circulating working medium channel which is communicated with the dual-energy compressor through a cold supplier; the low-temperature heat supply device is also communicated with the outside through a cooling medium channel, the high-temperature heat supply device is also communicated with the outside through a heated medium channel, the heat source heat exchanger is also communicated with the outside through a heat source medium channel, and the cold supply device is also communicated with the outside through a cooled medium channel to form a fourth-class heat-driven compression heat pump.

3. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supplier, a high-temperature heat supplier, a heat source heat exchanger and a dual-energy compressor; the external part is provided with a refrigerated medium channel communicated with a dual-energy compressor, the dual-energy compressor is also provided with a refrigerated medium channel communicated with a diffuser pipe through a low-temperature heat supply device, the diffuser pipe is also provided with a refrigerated medium channel communicated with a spray pipe through a high-temperature heat supply device, the spray pipe is also provided with a refrigerated medium channel communicated with a second spray pipe through a heat source heat exchanger, and the second spray pipe is also provided with a refrigerated medium channel communicated with the external part; the low-temperature heat supply device is also provided with a cooling medium channel communicated with the outside, the high-temperature heat supply device is also provided with a heated medium channel communicated with the outside, and the heat source heat exchanger is also provided with a heat source medium channel communicated with the outside to form a fourth type of heat-driven compression heat pump.

4. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supplier, a high-temperature heat supplier, a cold supplier and a dual-energy compressor; the external part is provided with a heat source medium channel which is communicated with a second spray pipe, the second spray pipe is also provided with a heat source medium channel which is communicated with a dual-energy compressor through a cold supply device, the dual-energy compressor is also provided with a heat source medium channel which is communicated with a diffuser pipe through a low-temperature heat supply device, the diffuser pipe is also provided with a heat source medium channel which is communicated with the spray pipe through a high-temperature heat supply device, and the spray pipe is also provided with a heat source; the low-temperature heat supply device is also communicated with the outside through a cooling medium channel, the high-temperature heat supply device is also communicated with the outside through a heated medium channel, and the cold supply device is also communicated with the outside through a refrigerating medium channel to form a fourth-class thermally driven compression heat pump.

5. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supplier, a heat source heat exchanger, a cold supplier and a dual-energy compressor; the exterior of the double-energy compressor is communicated with a heated medium channel, the heated medium channel is communicated with a second spray pipe through a heat source heat exchanger, the heated medium channel is communicated with a double-energy compressor through a cold supply device, the heated medium channel is communicated with a diffuser pipe through a low-temperature heat supply device, and the diffuser pipe is also communicated with the exterior; the low-temperature heat supply device is also provided with a cooling medium channel communicated with the outside, the heat source heat exchanger is also provided with a heat source medium channel communicated with the outside, and the cold supply device is also communicated with the outside through a refrigerated medium channel to form a fourth type of heat-driven compression heat pump.

6. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a high-temperature heat supplier, a heat source heat exchanger, a cold supplier and a dual-energy compressor; the outside is provided with a cooling medium channel which is communicated with a diffuser pipe, the diffuser pipe is also provided with a cooling medium channel which is communicated with a spray pipe through a high-temperature heat supply device, the spray pipe is also provided with a cooling medium channel which is communicated with a second spray pipe through a heat source heat exchanger, the second spray pipe is also provided with a cooling medium channel which is communicated with a dual-energy compressor through a cold supply device, and the dual-energy compressor is also provided with a cooling medium channel which is communicated with the; the high-temperature heat supply device is also communicated with the outside through a heated medium channel, the heat source heat exchanger is also communicated with the outside through a heat source medium channel, and the cold supply device is also communicated with the outside through a cooled medium channel to form a fourth type of heat-driven compression heat pump.

7. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a heat source heat exchanger, a cold supply device, a dual-energy compressor and a heat regenerator; the dual-energy compressor is provided with a circulating working medium channel which is communicated with a diffuser pipe through a low-temperature heat supplier and a heat regenerator, the diffuser pipe is also provided with a circulating working medium channel which is communicated with a spray pipe through a high-temperature heat supplier, the spray pipe is also provided with a circulating working medium channel which is communicated with a second spray pipe through a heat source heat exchanger, and the second spray pipe is also provided with a circulating working medium channel which is communicated with the dual-energy compressor through a cold supplier and the heat regenerator; the low-temperature heat supply device is also communicated with the outside through a cooling medium channel, the high-temperature heat supply device is also communicated with the outside through a heated medium channel, the heat source heat exchanger is also communicated with the outside through a heat source medium channel, and the cold supply device is also communicated with the outside through a cooled medium channel to form a fourth-class heat-driven compression heat pump.

8. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a heat source heat exchanger, a dual-energy compressor and a heat regenerator; the external part is communicated with a dual-energy compressor through a heat regenerator, the dual-energy compressor is also communicated with a diffusion pipe through a low-temperature heat supply device and the heat regenerator through a refrigerated medium channel, the diffusion pipe is also communicated with a spray pipe through a high-temperature heat supply device through the refrigerated medium channel, the spray pipe is also communicated with a refrigerated medium channel through a heat source heat exchanger and a second spray pipe, and the second spray pipe is also communicated with the external part through the refrigerated medium channel; the low-temperature heat supply device is also provided with a cooling medium channel communicated with the outside, the high-temperature heat supply device is also provided with a heated medium channel communicated with the outside, and the heat source heat exchanger is also provided with a heat source medium channel communicated with the outside to form a fourth type of heat-driven compression heat pump.

9. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a cold supply device, a dual-energy compressor and a heat regenerator; the external part is provided with a heat source medium channel communicated with a second spray pipe, the second spray pipe is also provided with a heat source medium channel communicated with a dual-energy compressor through a cold supply device and a heat regenerator, the dual-energy compressor is also provided with a heat source medium channel communicated with a diffuser pipe through a low-temperature heat supply device and the heat regenerator, the diffuser pipe is also provided with a heat source medium channel communicated with the spray pipe through a high-temperature heat supply device, and the spray pipe is also provided with a heat source medium channel communicated with the external part; the low-temperature heat supply device is also communicated with the outside through a cooling medium channel, the high-temperature heat supply device is also communicated with the outside through a heated medium channel, and the cold supply device is also communicated with the outside through a refrigerating medium channel to form a fourth-class thermally driven compression heat pump.

10. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a heat source heat exchanger, a cold supply device, a dual-energy compressor and a heat regenerator; the exterior of the double-energy compressor is provided with a heated medium channel which is communicated with the spray pipe, the spray pipe is also provided with a heated medium channel which is communicated with a second spray pipe through a heat source heat exchanger, the second spray pipe is also provided with a heated medium channel which is communicated with the double-energy compressor through a cold supply device and a heat regenerator, the double-energy compressor is also provided with a heated medium channel which is communicated with a diffuser pipe through a low-temperature heat supply device and a heat regenerator, and the diffuser pipe is also provided with a heated medium channel which is communicated; the low-temperature heat supply device is also provided with a cooling medium channel communicated with the outside, the heat source heat exchanger is also provided with a heat source medium channel communicated with the outside, and the cold supply device is also communicated with the outside through a refrigerated medium channel to form a fourth type of heat-driven compression heat pump.

11. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a high-temperature heat supply device, a heat source heat exchanger, a cold supply device, a dual-energy compressor and a heat regenerator; the external part of the dual-energy compressor is provided with a cooling medium channel which is communicated with a diffuser pipe through a heat regenerator, the diffuser pipe is also provided with a cooling medium channel which is communicated with a spray pipe through a high-temperature heat supply device, the spray pipe is also provided with a cooling medium channel which is communicated with a second spray pipe through a heat source heat exchanger, the second spray pipe is also provided with a cooling medium channel which is communicated with the dual-energy compressor through a cold supply device and the heat regenerator, and the dual-energy compressor is also provided with; the high-temperature heat supply device is also communicated with the outside through a heated medium channel, the heat source heat exchanger is also communicated with the outside through a heat source medium channel, and the cold supply device is also communicated with the outside through a cooled medium channel to form a fourth type of heat-driven compression heat pump.

12. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a heat source heat exchanger, a cold supply device, a dual-energy compressor and a heat regenerator; the dual-energy compressor is provided with a circulating working medium channel which is communicated with a diffuser pipe through a heat regenerator and a low-temperature heat supplier, the diffuser pipe is also provided with a circulating working medium channel which is communicated with a spray pipe through a high-temperature heat supplier, the spray pipe is also provided with a circulating working medium channel which is communicated with a second spray pipe through the heat regenerator and a heat source heat exchanger, and the second spray pipe is also provided with a circulating working medium channel which is communicated with the dual-energy compressor through a cold supplier; the low-temperature heat supply device is also communicated with the outside through a cooling medium channel, the high-temperature heat supply device is also communicated with the outside through a heated medium channel, the heat source heat exchanger is also communicated with the outside through a heat source medium channel, and the cold supply device is also communicated with the outside through a cooled medium channel to form a fourth-class heat-driven compression heat pump.

13. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a heat source heat exchanger, a dual-energy compressor and a heat regenerator; the external part is communicated with a double-energy compressor by a refrigerated medium, the double-energy compressor is also communicated with a diffusion pipe by a refrigerated medium channel through a heat regenerator and a low-temperature heat supplier, the diffusion pipe is also communicated with a spray pipe by a refrigerated medium channel through a high-temperature heat supplier, the spray pipe is also communicated with a refrigerated medium channel through the heat regenerator and a heat source heat exchanger and a second spray pipe, and the second spray pipe is also communicated with the external part by a refrigerated medium channel; the low-temperature heat supply device is also provided with a cooling medium channel communicated with the outside, the high-temperature heat supply device is also provided with a heated medium channel communicated with the outside, and the heat source heat exchanger is also provided with a heat source medium channel communicated with the outside to form a fourth type of heat-driven compression heat pump.

14. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a cold supply device, a dual-energy compressor and a heat regenerator; the external part is provided with a heat source medium channel communicated with a second spray pipe, the second spray pipe is also provided with a heat source medium channel communicated with a dual-energy compressor through a cold supply device, the dual-energy compressor is provided with a heat source medium channel communicated with a diffuser pipe through a heat regenerator and a low-temperature heat supply device, the diffuser pipe is also provided with a heat source medium channel communicated with the spray pipe through a high-temperature heat supply device, and the spray pipe is also provided with a heat source medium channel communicated with the external part through the heat regenerator; the low-temperature heat supply device is also communicated with the outside through a cooling medium channel, the high-temperature heat supply device is also communicated with the outside through a heated medium channel, and the cold supply device is also communicated with the outside through a refrigerating medium channel to form a fourth-class thermally driven compression heat pump.

15. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a heat source heat exchanger, a cold supply device, a dual-energy compressor and a heat regenerator; the exterior of the double-energy compressor is provided with a heated medium channel which is communicated with the spray pipe, the spray pipe is also provided with a heated medium channel which is communicated with a second spray pipe through a heat regenerator and a heat source heat exchanger, the second spray pipe is also provided with a heated medium channel which is communicated with the double-energy compressor through a cold supplier, the double-energy compressor is also provided with a heated medium channel which is communicated with a diffuser pipe through the heat regenerator and a low-temperature heat supplier, and the diffuser pipe is also provided with a heated medium channel which is communicated with the exterior; the low-temperature heat supply device is also provided with a cooling medium channel communicated with the outside, the heat source heat exchanger is also provided with a heat source medium channel communicated with the outside, and the cold supply device is also communicated with the outside through a refrigerated medium channel to form a fourth type of heat-driven compression heat pump.

16. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a high-temperature heat supply device, a heat source heat exchanger, a cold supply device, a dual-energy compressor and a heat regenerator; the external part of the double-energy compressor is provided with a cooling medium channel which is communicated with the diffusion pipe, the diffusion pipe is also provided with a cooling medium channel which is communicated with the spray pipe through a high-temperature heat supply device, the spray pipe is also provided with a cooling medium channel which is communicated with a second spray pipe through a heat regenerator and a heat source heat exchanger, the second spray pipe is also provided with a cooling medium channel which is communicated with the double-energy compressor through a cold supply device, and the double-energy compressor is also provided with a cooling medium channel; the high-temperature heat supply device is also communicated with the outside through a heated medium channel, the heat source heat exchanger is also communicated with the outside through a heat source medium channel, and the cold supply device is also communicated with the outside through a cooled medium channel to form a fourth type of heat-driven compression heat pump.

17. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a heat source heat exchanger, a cold supply device, a dual-energy compressor and a heat regenerator; the dual-energy compressor is provided with a circulating working medium channel which is communicated with a diffuser pipe through a low-temperature heat supply device, the diffuser pipe is also provided with a circulating working medium channel which is communicated with a spray pipe through a high-temperature heat supply device and a heat regenerator, the spray pipe is also provided with a circulating working medium channel which is communicated with a second spray pipe through a heat source heat exchanger and the heat regenerator, and the second spray pipe is also provided with a circulating working medium channel which is communicated with the dual-energy compressor through a cold supply; the low-temperature heat supply device is also communicated with the outside through a cooling medium channel, the high-temperature heat supply device is also communicated with the outside through a heated medium channel, the heat source heat exchanger is also communicated with the outside through a heat source medium channel, and the cold supply device is also communicated with the outside through a cooled medium channel to form a fourth-class heat-driven compression heat pump.

18. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a heat source heat exchanger, a dual-energy compressor and a heat regenerator; the external part is provided with a refrigerated medium channel communicated with a dual-energy compressor, the dual-energy compressor is also provided with a refrigerated medium channel communicated with a diffuser pipe through a low-temperature heat supply device, the diffuser pipe is also provided with a refrigerated medium channel communicated with a spray pipe through a high-temperature heat supply device and a heat regenerator, the spray pipe is also provided with a refrigerated medium channel communicated with a second spray pipe through a heat source heat exchanger and the heat regenerator, and the second spray pipe is also provided with a refrigerated medium channel communicated with the external part; the low-temperature heat supply device is also provided with a cooling medium channel communicated with the outside, the high-temperature heat supply device is also provided with a heated medium channel communicated with the outside, and the heat source heat exchanger is also provided with a heat source medium channel communicated with the outside to form a fourth type of heat-driven compression heat pump.

19. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a cold supply device, a dual-energy compressor and a heat regenerator; the external part is provided with a heat source medium channel which is communicated with a second spray pipe through a heat regenerator, the second spray pipe is also provided with a heat source medium channel which is communicated with a dual-energy compressor through a cold supply device, the dual-energy compressor is also provided with a heat source medium channel which is communicated with a diffuser pipe through a low-temperature heat supply device, the diffuser pipe is also provided with a heat source medium channel which is communicated with the spray pipe through a high-temperature heat supply device and the heat regenerator, and the spray pipe is also provided with a; the low-temperature heat supply device is also communicated with the outside through a cooling medium channel, the high-temperature heat supply device is also communicated with the outside through a heated medium channel, and the cold supply device is also communicated with the outside through a refrigerating medium channel to form a fourth-class thermally driven compression heat pump.

20. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a heat source heat exchanger, a cold supply device, a dual-energy compressor and a heat regenerator; the exterior of the double-energy compressor is provided with a heated medium channel which is communicated with a spray pipe through a heat regenerator, the spray pipe is also provided with a heated medium channel which is communicated with a second spray pipe through a heat source heat exchanger and the heat regenerator, the second spray pipe is also provided with a heated medium channel which is communicated with the double-energy compressor through a cold supplier, the double-energy compressor is also provided with a heated medium channel which is communicated with a diffuser pipe through a low-temperature heat supplier, and the diffuser pipe is also provided with a heated medium channel which is communicated with the; the low-temperature heat supply device is also provided with a cooling medium channel communicated with the outside, the heat source heat exchanger is also provided with a heat source medium channel communicated with the outside, and the cold supply device is also communicated with the outside through a refrigerated medium channel to form a fourth type of heat-driven compression heat pump.

21. The fourth type of thermally driven compression heat pump mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a high-temperature heat supply device, a heat source heat exchanger, a cold supply device, a dual-energy compressor and a heat regenerator; the outside is provided with a cooling medium channel which is communicated with a diffuser pipe, the diffuser pipe is also provided with a cooling medium channel which is communicated with a spray pipe through a high-temperature heat supply device and a heat regenerator, the spray pipe is also provided with a cooling medium channel which is communicated with a second spray pipe through a heat source heat exchanger and the heat regenerator, the second spray pipe is also provided with a cooling medium channel which is communicated with a dual-energy compressor through a cold supply device, and the dual-energy compressor is also provided with a cooling medium channel which is communicated; the high-temperature heat supply device is also communicated with the outside through a heated medium channel, the heat source heat exchanger is also communicated with the outside through a heat source medium channel, and the cold supply device is also communicated with the outside through a cooled medium channel to form a fourth type of heat-driven compression heat pump.

Description of the drawings:

fig. 1 is a diagram of a 1 st principal thermodynamic system of a fourth type of thermally driven compression heat pump according to the present invention.

Fig. 2 is a schematic diagram of a 2 nd principle thermodynamic system of a fourth type of thermally driven compression heat pump according to the present invention.

Fig. 3 is a diagram of a 3 rd principle thermodynamic system of a fourth type of thermally driven compression heat pump according to the present invention.

Fig. 4 is a diagram of a 4 th principle thermodynamic system of a fourth type of thermally driven compression heat pump according to the present invention.

Fig. 5 is a diagram of a 5 th principle thermodynamic system of a fourth type of thermally driven compression heat pump according to the present invention.

Fig. 6 is a diagram of a 6 th principle thermodynamic system of a fourth type of thermally driven compression heat pump according to the present invention.

Fig. 7 is a 7 th principle thermodynamic system diagram of a fourth type of thermally driven compression heat pump provided in accordance with the present invention.

Fig. 8 is a diagram of a 8 th principle thermodynamic system of a fourth type of thermally driven compression heat pump according to the present invention.

Fig. 9 is a diagram of a 9 th principle thermodynamic system of a fourth type of thermally driven compression heat pump according to the present invention.

Fig. 10 is a diagram of a 10 th principle thermodynamic system for a fourth class of thermally driven compression heat pump according to the present invention.

Fig. 11 is a diagram of a 11 th principle thermodynamic system of a fourth type of thermally driven compression heat pump according to the present invention.

Fig. 12 is a 12 th principle thermodynamic system diagram of a fourth type of thermally driven compression heat pump provided in accordance with the present invention.

Fig. 13 is a 13 th principle thermodynamic system diagram of a fourth type of thermally driven compression heat pump provided in accordance with the present invention.

Fig. 14 is a diagram of a 14 th principle thermodynamic system of a fourth type of thermally driven compression heat pump according to the present invention.

Fig. 15 is a diagram of a 15 th principle thermodynamic system for a fourth class of thermally driven compression heat pump according to the present invention.

Fig. 16 is a diagram of a 16 th principle thermodynamic system for a fourth class of thermally driven compression heat pump provided in accordance with the present invention.

Fig. 17 is a diagram of a 17 th principle thermodynamic system for a fourth class of thermally driven compression heat pump according to the present invention.

Fig. 18 is a diagram of a 18 th principle thermodynamic system of a fourth type of thermally driven compression heat pump according to the present invention.

Fig. 19 is a diagram of a 19 th principle thermodynamic system for a fourth class of thermally driven compression heat pump according to the present invention.

Fig. 20 is a diagram of a 20 th principle thermodynamic system of a fourth type of thermally driven compression heat pump provided in accordance with the present invention.

Fig. 21 is a diagram of a 21 st principal thermodynamic system of a fourth type of thermally driven compression heat pump according to the present invention.

In the figure, 1-diffuser pipe, 2-second diffuser pipe, 3-spray pipe, 4-second spray pipe, 5-compressor, 6-low temperature heat supply device, 7-high temperature heat supply device, 8-heat source heat exchanger, 9-cold supply device, 10-double energy compressor and 11-heat regenerator.

For ease of understanding, the following description is given:

(1) the heated medium, the substance that obtains the high temperature thermal load, is at the highest temperature.

(2) Heat source medium-a substance that provides a medium thermal load (driving thermal load and warming thermal load) at a temperature lower than that of the medium to be heated.

(3) Cooling medium-a substance that carries away low temperature heat load, at a temperature lower than the medium temperature heat source, such as ambient air; or a low temperature heat demand consumer.

(4) The refrigerated medium, the refrigerated object, emits the second low-temperature heat load (or called refrigeration load) with the lowest temperature.

The specific implementation mode is as follows:

it is to be noted that, in the description of the structure and the flow, the repetition is not necessary; obvious flow is not described. The invention is described in detail below with reference to the figures and examples.

The fourth type of thermally driven compression heat pump shown in fig. 1 is realized by:

(1) structurally, the heat exchanger mainly comprises a diffuser pipe, a second diffuser pipe, a spray pipe, a second spray pipe, a compressor, a low-temperature heat supply device, a high-temperature heat supply device, a heat source heat exchanger and a cold supply device; the diffuser pipe 1 is provided with a circulating working medium channel which is communicated with the compressor 5, the compressor 5 is also provided with a circulating working medium channel which is communicated with the second diffuser pipe 2 through a low-temperature heat supplier 6, the second diffuser pipe 2 is also provided with a circulating working medium channel which is communicated with the spray pipe 3 through a high-temperature heat supplier 7, the spray pipe 3 is also provided with a circulating working medium channel which is communicated with the second spray pipe 4 through a heat source heat exchanger 8, and the second spray pipe 4 is also provided with a circulating working medium channel which is communicated with the diffuser pipe 1 through a cold supplier 9; the low temperature heat supply device 6 is also provided with a cooling medium channel communicated with the outside, the high temperature heat supply device 7 is also provided with a heated medium channel communicated with the outside, the heat source heat exchanger 8 is also provided with a heat source medium channel communicated with the outside, and the cold supply device 9 is also provided with a cooled medium channel communicated with the outside.

(2) In the process, the circulating working medium discharged by the diffuser pipe 1 flows through the compressor 5 to increase the pressure and the temperature, flows through the low-temperature heat supply device 6 to release heat, flows through the second diffuser pipe 2 to increase the pressure and the temperature and reduce the speed, flows through the high-temperature heat supply device 7 to release heat, flows through the spray pipe 3 to reduce the pressure and increase the speed, flows through the heat source heat exchanger 8 to absorb heat, flows through the second spray pipe 4 to reduce the pressure and increase the speed, flows through the cold supply device 9 to absorb heat, and then enters the diffuser pipe 1 to; the cooling medium obtains low-temperature heat load through the low-temperature heat supplier 6, the heated medium obtains high-temperature heat load through the high-temperature heat supplier 7, the heat source medium provides medium-temperature heat load through the heat source heat exchanger 8, the cooled medium provides secondary low-temperature heat load through the cold supplier 9, and the exterior provides power for the compressor 5, so that a fourth type of thermally driven compression heat pump is formed.

The fourth type of thermally driven compression heat pump shown in fig. 2 is realized by:

(1) structurally, the double-energy heat pump unit mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a heat source heat exchanger, a cold supply device and a double-energy compressor; the dual-energy compressor 10 is provided with a circulating working medium channel which is communicated with the diffuser pipe 1 through a low-temperature heat supplier 6, the diffuser pipe 1 is also provided with a circulating working medium channel which is communicated with the spray pipe 3 through a high-temperature heat supplier 7, the spray pipe 3 is also provided with a circulating working medium channel which is communicated with the second spray pipe 4 through a heat source heat exchanger 8, and the second spray pipe 4 is also provided with a circulating working medium channel which is communicated with the dual-energy compressor 10 through a cold supplier 9; the low temperature heat supply device 6 is also communicated with the outside through a cooling medium channel, the high temperature heat supply device 7 is also communicated with the outside through a heated medium channel, the heat source heat exchanger 8 is also communicated with the outside through a heat source medium channel, and the cold supply device 9 is also communicated with the outside through a cooled medium channel.

(2) In the process, the circulating working medium discharged by the dual-energy compressor 10 flows through the low-temperature heat supply device 6 and releases heat, flows through the diffuser pipe 1 to increase the pressure and increase the temperature and reduce the speed, flows through the high-temperature heat supply device 7 to release heat, flows through the spray pipe 3 to reduce the pressure and increase the speed, flows through the heat source heat exchanger 8 to absorb heat, flows through the second spray pipe 4 to reduce the pressure and increase the speed, flows through the cold supply device 9 to absorb heat, and then enters the dual-energy compressor 10 to increase the pressure; the cooling medium obtains low-temperature heat load through the low-temperature heat supplier 6, the heated medium obtains high-temperature heat load through the high-temperature heat supplier 7, the heat source medium provides medium-temperature heat load through the heat source heat exchanger 8, the cooled medium provides secondary low-temperature heat load through the cold supplier 9, and the external part provides power for the dual-energy compressor 10, so that a fourth type of heat-driven compression heat pump is formed.

The fourth type of thermally driven compression heat pump shown in fig. 3 is realized by:

(1) structurally, the heat pump type double-energy compressor mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a heat source heat exchanger and a double-energy compressor; a refrigerated medium channel is arranged outside and communicated with a dual-energy compressor 10, the dual-energy compressor 10 is also communicated with a refrigerated medium channel through a low-temperature heat supply device 6 and a diffuser pipe 1, the diffuser pipe 1 and the refrigerated medium channel are also communicated with a spray pipe 3 through a high-temperature heat supply device 7, the spray pipe 3 and the refrigerated medium channel are also communicated with a second spray pipe 4 through a heat source heat exchanger 8, and the second spray pipe 4 and the refrigerated medium channel are also communicated with the outside; the low temperature heat supply device 6 is also communicated with the outside through a cooling medium channel, the high temperature heat supply device 7 is also communicated with the outside through a heated medium channel, and the heat source heat exchanger 8 is also communicated with the outside through a heat source medium channel.

(2) In the process, external refrigerated media flow through the dual-energy compressor 10 to be boosted, heated and decelerated, flow through the low-temperature heat supply device 6 to release heat, flow through the diffuser pipe 1 to be boosted, heated and decelerated, flow through the high-temperature heat supply device 7 to release heat, flow through the spray pipe 3 to be depressurized and accelerated, flow through the heat source heat exchanger 8 to absorb heat, flow through the second spray pipe 4 to be depressurized and accelerated, and then are discharged outwards; the cooling medium obtains low-temperature heat load through the low-temperature heat supplier 6, the heated medium obtains high-temperature heat load through the high-temperature heat supplier 7, the heat source medium provides medium-temperature heat load through the heat source heat exchanger 8, the cooled medium provides secondary low-temperature heat load through the inlet and outlet flow, and the external provides power for the dual-energy compressor 10, so that a fourth type of heat-driven compression heat pump is formed.

The fourth type of thermally driven compression heat pump shown in fig. 4 is realized by:

(1) structurally, the double-energy compressor mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a cold supply device and a double-energy compressor; a heat source medium channel is arranged outside and communicated with a second spray pipe 4, the second spray pipe 4 and the heat source medium channel are communicated with a dual-energy compressor 10 through a cooler 9, the dual-energy compressor 10 and the heat source medium channel are communicated with a diffuser pipe 1 through a low-temperature heater 6, the diffuser pipe 1 and the heat source medium channel are communicated with a spray pipe 3 through a high-temperature heater 7, and the spray pipe 3 and the heat source medium channel are communicated with the outside; the low temperature heat supply device 6 is also communicated with the outside through a cooling medium channel, the high temperature heat supply device 7 is also communicated with the outside through a heated medium channel, and the cold supply device 9 is also communicated with the outside through a cooled medium channel.

(2) In the process, an external heat source medium flows through the second spray pipe 4 to reduce the pressure and increase the speed, flows through the cold supply device 9 to absorb heat, flows through the dual-energy compressor 10 to increase the pressure, increase the temperature and reduce the speed, flows through the low-temperature heat supply device 6 to release heat, flows through the diffuser pipe 1 to increase the pressure, increase the temperature and reduce the speed, flows through the high-temperature heat supply device 7 to release heat, flows through the spray pipe 3 to reduce the pressure and increase the speed; the cooling medium obtains low-temperature heat load through low-temperature heat supply device 6, the heated medium obtains high-temperature heat load through high-temperature heat supply device 7, the heat source medium provides medium-temperature heat load through the flow of entering and exiting, the cooled medium provides secondary low-temperature heat load through cold supply device 9, and the external portion provides power for dual-energy compressor 10, so that a fourth-class heat-driven compression heat pump is formed.

The fourth type of thermally driven compression heat pump shown in fig. 5 is realized by:

(1) structurally, the double-energy compressor mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a heat source heat exchanger, a cold supply device and a double-energy compressor; the external part is communicated with the spray pipe 3 through a heated medium channel, the spray pipe 3 and the heated medium channel are communicated with the second spray pipe 4 through a heat source heat exchanger 8, the second spray pipe 4 and the heated medium channel are communicated with a dual-energy compressor 10 through a cold supplier 9, the dual-energy compressor 10 and the heated medium channel are communicated with the diffuser pipe 1 through a low-temperature heat supplier 6, and the diffuser pipe 1 and the heated medium channel are communicated with the external part; the low-temperature heat supply device 6 is also provided with a cooling medium channel communicated with the outside, the heat source heat exchanger 8 is also provided with a heat source medium channel communicated with the outside, and the cold supply device 9 is also provided with a refrigerated medium channel communicated with the outside.

(2) In the process, an external heated medium flows through the spray pipe 3 to be depressurized and accelerated, flows through the heat source heat exchanger 8 to absorb heat, flows through the second spray pipe 4 to be depressurized and accelerated, flows through the cold supply device 9 to absorb heat, flows through the dual-energy compressor 10 to be boosted, heated and decelerated, flows through the low-temperature heat supply device 6 to release heat, flows through the diffuser pipe 1 to be boosted, heated and decelerated, and then is discharged outwards; the cooling medium obtains low-temperature heat load through the low-temperature heat supplier 6, the heated medium obtains high-temperature heat load through the inlet and outlet flow, the heat source medium provides medium-temperature heat load through the heat source heat exchanger 8, the cooled medium provides secondary low-temperature heat load through the cold supplier 9, and the external provides power for the dual-energy compressor 10, so that a fourth type of thermally-driven compression heat pump is formed.

The fourth type of thermally driven compression heat pump shown in fig. 6 is realized by:

(1) structurally, the double-energy compressor mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a high-temperature heat supply device, a heat source heat exchanger, a cold supply device and a double-energy compressor; a cooling medium channel is arranged outside and communicated with the diffuser pipe 1, the diffuser pipe 1 and the cooling medium channel are communicated with the spray pipe 3 through a high-temperature heat supply device 7, the spray pipe 3 and the cooling medium channel are communicated with the second spray pipe 4 through a heat source heat exchanger 8, the second spray pipe 4 and the cooling medium channel are communicated with the dual-energy compressor 10 through a cold supply device 9, and the dual-energy compressor 10 and the cooling medium channel are communicated with the outside; the high temperature heat supply device 7 is also communicated with the outside through a heated medium channel, the heat source heat exchanger 8 is also communicated with the outside through a heat source medium channel, and the cold supply device 9 is also communicated with the outside through a cooled medium channel.

(2) In the process, an external cooling medium flows through the diffuser pipe 1 to increase the pressure and increase the speed, flows through the high-temperature heat supply device 7 to release heat, flows through the spray pipe 3 to decrease the pressure and increase the speed, flows through the heat source heat exchanger 8 to absorb heat, flows through the second spray pipe 4 to decrease the pressure and increase the speed, flows through the cold supply device 9 to absorb heat, flows through the dual-energy compressor 10 to increase the pressure and increase the temperature and decrease the speed, and is then discharged outwards; the cooling medium obtains low-temperature heat load through the inlet and outlet flow, the heated medium obtains high-temperature heat load through the high-temperature heat supplier 7, the heat source medium provides medium-temperature heat load through the heat source heat exchanger 8, the cooled medium provides secondary low-temperature heat load through the cold supplier 9, and the external part provides power for the dual-energy compressor 10, so that a fourth type of heat-driven compression heat pump is formed.

The fourth type of thermally driven compression heat pump shown in fig. 7 is realized by:

(1) structurally, the heat exchanger mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a heat source heat exchanger, a cold supply device, a dual-energy compressor and a heat regenerator; the dual-energy compressor 10 is provided with a circulating working medium channel which is communicated with the diffuser pipe 1 through a low-temperature heat supplier 6 and a heat regenerator 11, the diffuser pipe 1 is also provided with a circulating working medium channel which is communicated with the spray pipe 3 through a high-temperature heat supplier 7, the spray pipe 3 is also provided with a circulating working medium channel which is communicated with the second spray pipe 4 through a heat source heat exchanger 8, and the second spray pipe 4 is also provided with a circulating working medium channel which is communicated with the dual-energy compressor 10 through a cold supplier 9 and a heat regenerator 11; the low temperature heat supply device 6 is also communicated with the outside through a cooling medium channel, the high temperature heat supply device 7 is also communicated with the outside through a heated medium channel, the heat source heat exchanger 8 is also communicated with the outside through a heat source medium channel, and the cold supply device 9 is also communicated with the outside through a cooled medium channel.

(2) In the process, the circulating working medium discharged by the dual-energy compressor 10 flows through the low-temperature heat supply device 6 and the heat regenerator 11 and is gradually heated, flows through the diffuser pipe 1 to be boosted, heated and decelerated, flows through the high-temperature heat supply device 7 to release heat, flows through the spray pipe 3 to be depressurized and accelerated, flows through the heat source heat exchanger 8 to absorb heat, flows through the second spray pipe 4 to be depressurized and accelerated, flows through the cold supply device 9 and the heat regenerator 11 to be gradually heated, and then enters the dual-energy compressor 10 to be boosted, heated and decelerated; the cooling medium obtains low-temperature heat load through the low-temperature heat supplier 6, the heated medium obtains high-temperature heat load through the high-temperature heat supplier 7, the heat source medium provides medium-temperature heat load through the heat source heat exchanger 8, the cooled medium provides secondary low-temperature heat load through the cold supplier 9, and the external part provides power for the dual-energy compressor 10, so that a fourth-class heat-driven compression heat pump is formed.

The fourth type of thermally driven compression heat pump shown in fig. 8 is realized by:

(1) structurally, the heat exchanger mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a heat source heat exchanger, a dual-energy compressor and a heat regenerator; the external part is provided with a refrigerated medium which is communicated with a dual-energy compressor 10 through a heat regenerator 11, the dual-energy compressor 10 is also provided with a refrigerated medium channel which is communicated with a diffuser pipe 1 through a low-temperature heat supply device 6 and the heat regenerator 11, the diffuser pipe 1 is also provided with a refrigerated medium channel which is communicated with a spray pipe 3 through a high-temperature heat supply device 7, the spray pipe 3 is also provided with a refrigerated medium channel which is communicated with a second spray pipe 4 through a heat source heat exchanger 8, and the second spray pipe 4 is also provided with a refrigerated medium channel which is communicated with the external part; the low temperature heat supply device 6 is also provided with a cooling medium channel communicated with the outside, the high temperature heat supply device 7 is also provided with a heated medium channel communicated with the outside, and the heat source heat exchanger 8 is also provided with a heat source medium channel communicated with the outside.

(2) In the process, an external refrigerated medium flows through the heat regenerator 11 and absorbs heat, flows through the dual-energy compressor 10 to increase the pressure, increase the temperature and reduce the speed, flows through the low-temperature heat supply device 6 and the heat regenerator 11 and gradually releases heat, flows through the diffuser pipe 1 to increase the pressure, increase the temperature and reduce the speed, flows through the high-temperature heat supply device 7 to release heat, flows through the spray pipe 3 to reduce the pressure and increase the speed, flows through the heat source heat exchanger 8 to absorb heat, flows through the second spray pipe 4 to reduce the pressure and increase the; the cooling medium obtains low-temperature heat load through the low-temperature heat supplier 6, the heated medium obtains high-temperature heat load through the high-temperature heat supplier 7, the heat source medium provides medium-temperature heat load through the heat source heat exchanger 8, the cooled medium provides secondary low-temperature heat load through the inlet and outlet flow, and the external part provides power for the dual-energy compressor 10, so that a fourth-class heat-driven compression heat pump is formed.

The fourth type of thermally driven compression heat pump shown in fig. 9 is realized by:

(1) structurally, the double-energy heat pump unit mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a cold supply device, a double-energy compressor and a heat regenerator; a heat source medium channel is arranged outside and communicated with a second spray pipe 4, the second spray pipe 4 and the heat source medium channel are communicated with a dual-energy compressor 10 through a cooler 9 and a heat regenerator 11, the dual-energy compressor 10 and the heat source medium channel are communicated with a diffuser pipe 1 through a low-temperature heat supplier 6 and the heat regenerator 11, the diffuser pipe 1 and the heat source medium channel are communicated with a spray pipe 3 through a high-temperature heat supplier 7, and the spray pipe 3 and the heat source medium channel are communicated with the outside; the low temperature heat supply device 6 is also communicated with the outside through a cooling medium channel, the high temperature heat supply device 7 is also communicated with the outside through a heated medium channel, and the cold supply device 9 is also communicated with the outside through a cooled medium channel.

(2) In the process, an external heat source medium flows through the second spray pipe 4 to reduce the pressure and increase the speed, flows through the cold supply device 9 and the heat regenerator 11 to gradually absorb heat, flows through the dual-energy compressor 10 to increase the pressure, increase the temperature and reduce the speed, flows through the low-temperature heat supply device 6 and the heat regenerator 11 to gradually release heat, flows through the diffuser pipe 1 to increase the pressure, increase the temperature and reduce the speed, flows through the high-temperature heat supply device 7 to release heat, flows through the spray pipe 3 to reduce the pressure and increase the speed; the cooling medium obtains low-temperature heat load through the low-temperature heat supplier 6, the heated medium obtains high-temperature heat load through the high-temperature heat supplier 7, the heat source medium provides medium-temperature heat load through the inlet and outlet flow, the cooled medium provides secondary low-temperature heat load through the cold supplier 9, and the external part provides power for the dual-energy compressor 10, so that a fourth-class heat-driven compression heat pump is formed.

The fourth type of thermally driven compression heat pump shown in fig. 10 is realized by:

(1) structurally, the double-energy heat exchanger mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a heat source heat exchanger, a cold supply device, a double-energy compressor and a heat regenerator; a heated medium channel is arranged outside and communicated with the spray pipe 3, the spray pipe 3 and the heated medium channel are communicated with the second spray pipe 4 through a heat source heat exchanger 8, the second spray pipe 4 and the heated medium channel are communicated with a dual-energy compressor 10 through a cold supply device 9 and a heat regenerator 11, the dual-energy compressor 10 and the heated medium channel are communicated with a diffuser pipe 1 through a low-temperature heat supply device 6 and the heat regenerator 11, and the diffuser pipe 1 and the heated medium channel are communicated with the outside; the low-temperature heat supply device 6 is also provided with a cooling medium channel communicated with the outside, the heat source heat exchanger 8 is also provided with a heat source medium channel communicated with the outside, and the cold supply device 9 is also provided with a refrigerated medium channel communicated with the outside.

(2) In the process, an external heated medium flows through the spray pipe 3 to be subjected to pressure reduction and speed increase, flows through the heat source heat exchanger 8 to absorb heat, flows through the second spray pipe 4 to be subjected to pressure reduction and speed increase, flows through the cold supply device 9 and the heat regenerator 11 to gradually absorb heat, flows through the dual-energy compressor 10 to be subjected to pressure rise and speed reduction, flows through the low-temperature heat supply device 6 and the heat regenerator 11 to gradually release heat, flows through the diffuser pipe 1 to be subjected to pressure rise and speed reduction, and is then externally discharged; the cooling medium obtains low-temperature heat load through the low-temperature heat supplier 6, the heated medium obtains high-temperature heat load through the inlet and outlet process, the heat source medium provides medium-temperature heat load through the heat source heat exchanger 8, the cooled medium provides secondary low-temperature heat load through the cold supplier 9, and the external part provides power for the dual-energy compressor 10, so that a fourth type of thermally-driven compression heat pump is formed.

The fourth type of thermally driven compression heat pump shown in fig. 11 is realized by:

(1) structurally, the double-energy heat pump unit mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a high-temperature heat supply device, a heat source heat exchanger, a cold supply device, a double-energy compressor and a heat regenerator; a cooling medium channel is arranged outside and is communicated with a diffuser pipe 1 through a heat regenerator 11, the diffuser pipe 1 is also provided with a cooling medium channel which is communicated with a spray pipe 3 through a high-temperature heat supply 7, the spray pipe 3 is also provided with a cooling medium channel which is communicated with a second spray pipe 4 through a heat source heat exchanger 8, the second spray pipe 4 is also provided with a cooling medium channel which is communicated with a dual-energy compressor 10 through a cold supply 9 and the heat regenerator 11, and the dual-energy compressor 10 is also provided with a cooling medium channel which is communicated with the outside; the high temperature heat supplier 7 is also communicated with the outside through a heated medium channel, the heat source heat exchanger 8 is also communicated with the outside through a heat source medium channel, and the cold supplier 9 is also communicated with the outside through a cooled medium channel.

(2) In the process, an external cooling medium flows through the heat regenerator 11 to release heat, flows through the diffuser pipe 1 to increase the pressure, increase the temperature and reduce the speed, flows through the high-temperature heat supply 7 to release heat, flows through the spray pipe 3 to reduce the pressure and increase the speed, flows through the heat source heat exchanger 8 to absorb heat, flows through the second spray pipe 4 to reduce the pressure and increase the speed, flows through the cold supply device 9 and the heat regenerator 11 to gradually absorb heat, flows through the dual-energy compressor 10 to increase the pressure, increase the temperature and reduce the speed; the cooling medium obtains low-temperature heat load through the inlet and outlet flow, the heated medium obtains high-temperature heat load through the high-temperature heat supply device 7, the heat source medium provides medium-temperature heat load through the heat source heat exchanger 8, the cooled medium provides secondary low-temperature heat load through the cold supply device 9, and the external part provides power for the dual-energy compressor 10, so that a fourth type of heat-driven compression heat pump is formed.

The fourth type of thermally driven compression heat pump shown in fig. 12 is realized by:

(1) structurally, the heat exchanger mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a heat source heat exchanger, a cold supply device, a dual-energy compressor and a heat regenerator; the dual-energy compressor 10 is provided with a circulating working medium channel which is communicated with the diffuser pipe 1 through a heat regenerator 11 and a low-temperature heat supplier 6, the diffuser pipe 1 is also provided with a circulating working medium channel which is communicated with the spray pipe 3 through a high-temperature heat supplier 7, the spray pipe 3 is also provided with a circulating working medium channel which is communicated with the second spray pipe 4 through the heat regenerator 11 and a heat source heat exchanger 8, and the second spray pipe 4 is also provided with a circulating working medium channel which is communicated with the dual-energy compressor 10 through a cold supplier 9; the low temperature heat supply device 6 is also communicated with the outside through a cooling medium channel, the high temperature heat supply device 7 is also communicated with the outside through a heated medium channel, the heat source heat exchanger 8 is also communicated with the outside through a heat source medium channel, and the cold supply device 9 is also communicated with the outside through a cooled medium channel.

(2) In the process, the circulating working medium discharged by the dual-energy compressor 10 flows through the heat regenerator 11 and the low-temperature heat supply device 6 and is gradually heated, flows through the diffuser pipe 1 to be boosted, heated and decelerated, flows through the high-temperature heat supply device 7 and is heated, flows through the spray pipe 3 to be depressurized and accelerated, flows through the heat regenerator 11 and the heat source heat exchanger 8 and is gradually absorbed, flows through the second spray pipe 4 to be depressurized and accelerated, flows through the cold supply device 9 and is absorbed, and then enters the dual-energy compressor 10 to be boosted, heated and decelerated; the cooling medium obtains low-temperature heat load through the low-temperature heat supplier 6, the heated medium obtains high-temperature heat load through the high-temperature heat supplier 7, the heat source medium provides medium-temperature heat load through the heat source heat exchanger 8, the cooled medium provides secondary low-temperature heat load through the cold supplier 9, and the external part provides power for the dual-energy compressor 10, so that a fourth-class heat-driven compression heat pump is formed.

The fourth type of thermally driven compression heat pump shown in fig. 13 is realized by:

(1) structurally, the heat exchanger mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a heat source heat exchanger, a dual-energy compressor and a heat regenerator; the external part is provided with a refrigerated medium which is communicated with a dual-energy compressor 10, the dual-energy compressor 10 and a refrigerated medium channel are communicated with a diffuser pipe 1 through a heat regenerator 11 and a low-temperature heat supply device 6, the diffuser pipe 1 and a refrigerated medium channel are communicated with a spray pipe 3 through a high-temperature heat supply device 7, the spray pipe 3 and a refrigerated medium channel are communicated with a second spray pipe 4 through the heat regenerator 11 and a heat source heat exchanger 8, and the second spray pipe 4 and the refrigerated medium channel are communicated with the external part; the low temperature heat supply device 6 is also provided with a cooling medium channel communicated with the outside, the high temperature heat supply device 7 is also provided with a heated medium channel communicated with the outside, and the heat source heat exchanger 8 is also provided with a heat source medium channel communicated with the outside.

(2) In the process, external refrigerated media flow through the dual-energy compressor 10 to be subjected to pressure rise and speed reduction, flow through the heat regenerator 11 and the low-temperature heat supply device 6 to gradually release heat, flow through the diffuser pipe 1 to be subjected to pressure rise and speed reduction, flow through the high-temperature heat supply device 7 to release heat, flow through the spray pipe 3 to be subjected to pressure reduction and speed increase, flow through the heat regenerator 11 and the heat source heat exchanger 8 to gradually absorb heat, flow through the second spray pipe 4 to be subjected to pressure reduction and speed increase, and then are externally discharged; the cooling medium obtains low-temperature heat load through the low-temperature heat supplier 6, the heated medium obtains high-temperature heat load through the high-temperature heat supplier 7, the heat source medium provides medium-temperature heat load through the heat source heat exchanger 8, the cooled medium provides secondary low-temperature heat load through the inlet and outlet flow paths, and the external provides power for the dual-energy compressor 10, so that a fourth-class heat-driven compression heat pump is formed.

The fourth type of thermally driven compression heat pump shown in fig. 14 is realized by:

(1) structurally, the double-energy heat pump unit mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a cold supply device, a double-energy compressor and a heat regenerator; a heat source medium channel is arranged outside and communicated with a second spray pipe 4, the second spray pipe 4 and the heat source medium channel are communicated with a dual-energy compressor 10 through a cooler 9, the dual-energy compressor 10 is provided with a heat source medium channel which is communicated with a diffuser pipe 1 through a heat regenerator 11 and a low-temperature heat heater 6, the diffuser pipe 1 is also provided with a heat source medium channel which is communicated with a spray pipe 3 through a high-temperature heat heater 7, and the spray pipe 3 and the heat source medium channel are communicated with the outside through the heat regenerator 11; the low temperature heat supply device 6 is also communicated with the outside through a cooling medium channel, the high temperature heat supply device 7 is also communicated with the outside through a heated medium channel, and the cold supply device 9 is also communicated with the outside through a cooled medium channel.

(2) In the process, an external heat source medium flows through the second spray pipe 4, is depressurized and accelerated, flows through the cold supply device 9, absorbs heat, flows through the dual-energy compressor 10, is boosted, heated and decelerated, flows through the heat regenerator 11 and the low-temperature heat supply device 6, gradually releases heat, flows through the diffuser pipe 1, is boosted, heated and decelerated, flows through the high-temperature heat supply device 7, releases heat, flows through the spray pipe 3, is depressurized and accelerated, flows through the heat regenerator 11, absorbs heat, and is externally discharged; the cooling medium obtains low-temperature heat load through low-temperature heat supply device 6, the heated medium obtains high-temperature heat load through high-temperature heat supply device 7, the heat source medium provides medium-temperature heat load through the flow of entering and exiting, the cooled medium provides secondary low-temperature heat load through cooling device 9, and the power is provided for dual-energy compressor 10 from the outside, so that a fourth type of heat-driven compression heat pump is formed.

The fourth type of thermally driven compression heat pump shown in fig. 15 is realized by:

(1) structurally, the double-energy heat exchanger mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a heat source heat exchanger, a cold supply device, a double-energy compressor and a heat regenerator; a heated medium channel is arranged outside and communicated with the spray pipe 3, the spray pipe 3 and the heated medium channel are communicated with the second spray pipe 4 through a heat regenerator 11 and a heat source heat exchanger 8, the second spray pipe 4 and the heated medium channel are communicated with a dual-energy compressor 10 through a cold supply device 9, the dual-energy compressor 10 and the heated medium channel are communicated with the diffuser pipe 1 through the heat regenerator 11 and a low-temperature heat supply device 6, and the diffuser pipe 1 and the heated medium channel are communicated with the outside; the low-temperature heat supply device 6 is also provided with a cooling medium channel communicated with the outside, the heat source heat exchanger 8 is also provided with a heat source medium channel communicated with the outside, and the cold supply device 9 is also provided with a refrigerated medium channel communicated with the outside.

(2) In the process, an external heated medium flows through the spray pipe 3 to be subjected to pressure reduction and speed increase, flows through the heat regenerator 11 and the heat source heat exchanger 8 to gradually absorb heat, flows through the second spray pipe 4 to be subjected to pressure reduction and speed increase, flows through the cold supply device 9 to absorb heat, flows through the dual-energy compressor 10 to be subjected to pressure rise and speed reduction, flows through the heat regenerator 11 and the low-temperature heat supply device 6 to gradually release heat, flows through the diffuser pipe 1 to be subjected to pressure rise and speed reduction, and is then externally discharged; the cooling medium obtains low-temperature heat load through the low-temperature heat supplier 6, the heated medium obtains high-temperature heat load through the inlet and outlet flow, the heat source medium provides medium-temperature heat load through the heat source heat exchanger 8, the cooled medium provides secondary low-temperature heat load through the cold supplier 9, and the external part provides power for the dual-energy compressor 10, so that a fourth type of thermally-driven compression heat pump is formed.

The fourth type of thermally driven compression heat pump shown in fig. 16 is realized by:

(1) structurally, the double-energy heat pump unit mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a high-temperature heat supply device, a heat source heat exchanger, a cold supply device, a double-energy compressor and a heat regenerator; a cooling medium channel is arranged outside and communicated with the diffuser pipe 1, the diffuser pipe 1 and the cooling medium channel are communicated with the spray pipe 3 through a high-temperature heat supply device 7, the spray pipe 3 and the cooling medium channel are communicated with the second spray pipe 4 through a heat regenerator 11 and a heat source heat exchanger 8, the second spray pipe 4 and the cooling medium channel are communicated with a dual-energy compressor 10 through a cold supply device 9, and the dual-energy compressor 10 and the cooling medium channel are communicated with the outside through the heat regenerator 11; the high temperature heat supplier 7 is also communicated with the outside through a heated medium channel, the heat source heat exchanger 8 is also communicated with the outside through a heat source medium channel, and the cold supplier 9 is also communicated with the outside through a cooled medium channel.

(2) In the process, an external cooling medium flows through the diffuser pipe 1 to increase the pressure and increase the speed, flows through the high-temperature heat supply device 7 to release heat, flows through the spray pipe 3 to decrease the pressure and increase the speed, flows through the heat regenerator 11 and the heat source heat exchanger 8 to absorb heat gradually, flows through the second spray pipe 4 to decrease the pressure and increase the speed, flows through the cold supply device 9 to absorb heat, flows through the dual-energy compressor 10 to increase the pressure and increase the temperature and decrease the speed, flows through the heat regenerator 11 to release heat, and then; the cooling medium obtains low-temperature heat load through the inlet and outlet flow, the heated medium obtains high-temperature heat load through the high-temperature heat supply device 7, the heat source medium provides medium-temperature heat load through the heat source heat exchanger 8, the cooled medium provides secondary low-temperature heat load through the cold supply device 9, and the external part provides power for the dual-energy compressor 10, so that a fourth type of heat-driven compression heat pump is formed.

The fourth type of thermally driven compression heat pump shown in fig. 17 is realized by:

(1) structurally, the heat exchanger mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a heat source heat exchanger, a cold supply device, a dual-energy compressor and a heat regenerator; the dual-energy compressor 10 is provided with a circulating working medium channel which is communicated with the diffuser pipe 1 through a low-temperature heat supplier 6, the diffuser pipe 1 is also provided with a circulating working medium channel which is communicated with the spray pipe 3 through a high-temperature heat supplier 7 and a heat regenerator 11, the spray pipe 3 is also provided with a circulating working medium channel which is communicated with the second spray pipe 4 through a heat source heat exchanger 8 and a heat regenerator 11, and the second spray pipe 4 is also provided with a circulating working medium channel which is communicated with the dual-energy compressor 10 through a cold supplier 9; the low temperature heat supply device 6 is also communicated with the outside through a cooling medium channel, the high temperature heat supply device 7 is also communicated with the outside through a heated medium channel, the heat source heat exchanger 8 is also communicated with the outside through a heat source medium channel, and the cold supply device 9 is also communicated with the outside through a cooled medium channel.

(2) In the process, the circulating working medium discharged by the dual-energy compressor 10 flows through the low-temperature heat supply device 6 and releases heat, flows through the diffuser pipe 1 to increase the pressure, increase the temperature and reduce the speed, flows through the high-temperature heat supply device 7 and the heat regenerator 11 to gradually release heat, flows through the spray pipe 3 to reduce the pressure and increase the speed, flows through the heat source heat exchanger 8 and the heat regenerator 11 to gradually absorb heat, flows through the second spray pipe 4 to reduce the pressure and increase the speed, flows through the cold supply device 9 to absorb heat, and then enters the dual-energy compressor 10 to; the cooling medium obtains low-temperature heat load through the low-temperature heat supplier 6, the heated medium obtains high-temperature heat load through the high-temperature heat supplier 7, the heat source medium provides medium-temperature heat load through the heat source heat exchanger 8, the cooled medium provides secondary low-temperature heat load through the cold supplier 9, and the external part provides power for the dual-energy compressor 10, so that a fourth-class heat driving compression heat pump is formed.

The fourth type of thermally driven compression heat pump shown in fig. 18 is realized by:

(1) structurally, the heat exchanger mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a heat source heat exchanger, a dual-energy compressor and a heat regenerator; a refrigerated medium channel is arranged outside and communicated with a dual-energy compressor 10, the dual-energy compressor 10 and the refrigerated medium channel are communicated with a diffuser pipe 1 through a low-temperature heat supply device 6, the diffuser pipe 1 and the refrigerated medium channel are communicated with a spray pipe 3 through a high-temperature heat supply device 7 and a heat regenerator 11, the spray pipe 3 and the refrigerated medium channel are communicated with a second spray pipe 4 through a heat source heat exchanger 8 and the heat regenerator 11, and the second spray pipe 4 and the refrigerated medium channel are communicated with the outside; the low-temperature heat supply device 6 is also provided with a cooling medium channel communicated with the outside, the high-temperature heat supply device 7 is also provided with a heated medium channel communicated with the outside, and the heat source heat exchanger 8 is also provided with a heat source medium channel communicated with the outside.

(2) In the process, external refrigerated media flow through the dual-energy compressor 10 to be boosted, heated and decelerated, flow through the low-temperature heat supply device 6 to release heat, flow through the diffuser pipe 1 to be boosted, heated and decelerated, flow through the high-temperature heat supply device 7 and the heat regenerator 11 to release heat gradually, flow through the spray pipe 3 to be decompressed and accelerated, flow through the heat source heat exchanger 8 and the heat regenerator 11 to absorb heat gradually, flow through the second spray pipe 4 to be decompressed and accelerated, and then are discharged outwards; the cooling medium obtains low-temperature heat load through the low-temperature heat supplier 6, the heated medium obtains high-temperature heat load through the high-temperature heat supplier 7, the heat source medium provides medium-temperature heat load through the heat source heat exchanger 8, the cooled medium provides secondary low-temperature heat load through the inlet and outlet flow paths, and the external provides power for the dual-energy compressor 10, so that a fourth-class heat-driven compression heat pump is formed.

The fourth type of thermally driven compression heat pump shown in fig. 19 is realized by:

(1) structurally, the double-energy heat pump unit mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a high-temperature heat supply device, a cold supply device, a double-energy compressor and a heat regenerator; a heat source medium channel is arranged outside and is communicated with a second spray pipe 4 through a heat regenerator 11, the second spray pipe 4 and the heat source medium channel are communicated with a dual-energy compressor 10 through a cooler 9, the dual-energy compressor 10 and the heat source medium channel are communicated with a diffuser pipe 1 through a low-temperature heat supplier 6, the diffuser pipe 1 and the heat source medium channel are communicated with a spray pipe 3 through a high-temperature heat supplier 7 and the heat regenerator 11, and the spray pipe 3 and the heat source medium channel are communicated with the outside; the low temperature heat supply device 6 is also communicated with the outside through a cooling medium channel, the high temperature heat supply device 7 is also communicated with the outside through a heated medium channel, and the cold supply device 9 is also communicated with the outside through a cooled medium channel.

(2) In the process, an external heat source medium flows through the heat regenerator 11 to absorb heat, flows through the second spray pipe 4 to reduce the pressure and increase the speed, flows through the cold supply device 9 to absorb heat, flows through the dual-energy compressor 10 to increase the pressure and increase the speed and reduce the speed, flows through the low-temperature heat supply device 6 to release heat, flows through the diffuser pipe 1 to increase the pressure and increase the temperature and reduce the speed, flows through the high-temperature heat supply device 7 and the heat regenerator 11 to release heat gradually, flows through the spray pipe 3 to reduce the pressure and increase the; the cooling medium obtains low-temperature heat load through low-temperature heat supply device 6, the heated medium obtains high-temperature heat load through high-temperature heat supply device 7, the heat source medium provides medium-temperature heat load through the flow of entering and exiting, the cooled medium provides secondary low-temperature heat load through cooling device 9, and the power is provided for dual-energy compressor 10 from the outside, so that a fourth type of heat-driven compression heat pump is formed.

The fourth type of thermally driven compression heat pump shown in fig. 20 is realized by:

(1) structurally, the double-energy heat exchanger mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a low-temperature heat supply device, a heat source heat exchanger, a cold supply device, a double-energy compressor and a heat regenerator; a heated medium channel is arranged outside and is communicated with the spray pipe 3 through a heat regenerator 11, the spray pipe 3 and the heated medium channel are communicated with a second spray pipe 4 through a heat source heat exchanger 8 and the heat regenerator 11, the second spray pipe 4 and the heated medium channel are communicated with a dual-energy compressor 10 through a cold supplier 9, the dual-energy compressor 10 and the heated medium channel are communicated with a diffuser pipe 1 through a low-temperature heat supplier 6, and the diffuser pipe 1 and the heated medium channel are communicated with the outside; the low-temperature heat supply device 6 is also provided with a cooling medium channel communicated with the outside, the heat source heat exchanger 8 is also provided with a heat source medium channel communicated with the outside, and the cold supply device 9 is also provided with a refrigerated medium channel communicated with the outside.

(2) In the process, an external heated medium flows through the heat regenerator 11 and releases heat, flows through the spray pipe 3 and is subjected to pressure reduction and speed increase, flows through the heat source heat exchanger 8 and the heat regenerator 11 and gradually absorbs heat, flows through the second spray pipe 4 and is subjected to pressure reduction and speed increase, flows through the cold supply device 9 and absorbs heat, flows through the dual-energy compressor 10 and is subjected to pressure rise and speed reduction, flows through the low-temperature heat supply device 6 and releases heat, flows through the diffuser pipe 1 and is subjected to pressure rise and speed reduction, and then is externally discharged; the cooling medium obtains low-temperature heat load through the low-temperature heat supplier 6, the heated medium obtains high-temperature heat load through the inlet and outlet process, the heat source medium provides medium-temperature heat load through the heat source heat exchanger 8, the cooled medium provides secondary low-temperature heat load through the cold supplier 9, and the external part provides power for the dual-energy compressor 10, so that a fourth type of thermally-driven compression heat pump is formed.

The fourth type of thermally driven compression heat pump shown in fig. 21 is realized by:

(1) structurally, the double-energy heat pump unit mainly comprises a diffuser pipe, a spray pipe, a second spray pipe, a high-temperature heat supply device, a heat source heat exchanger, a cold supply device, a double-energy compressor and a heat regenerator; a cooling medium channel is arranged outside and communicated with the diffuser pipe 1, the diffuser pipe 1 and the cooling medium channel are communicated with the spray pipe 3 through a high-temperature heat supply device 7 and a heat regenerator 11, the spray pipe 3 and the cooling medium channel are communicated with the second spray pipe 4 through a heat source heat exchanger 8 and the heat regenerator 11, the second spray pipe 4 and the cooling medium channel are communicated with the dual-energy compressor 10 through a cold supply device 9, and the dual-energy compressor 10 and the cooling medium channel are communicated with the outside; the high temperature heat supplier 7 is also communicated with the outside through a heated medium channel, the heat source heat exchanger 8 is also communicated with the outside through a heat source medium channel, and the cold supplier 9 is also communicated with the outside through a cooled medium channel.

(2) In the process, an external cooling medium flows through the diffuser pipe 1 to increase the pressure and increase the temperature and reduce the speed, flows through the high-temperature heat supply device 7 and the heat regenerator 11 to gradually release heat, flows through the spray pipe 3 to reduce the pressure and increase the speed, flows through the heat source heat exchanger 8 and the heat regenerator 11 to gradually absorb heat, flows through the second spray pipe 4 to reduce the pressure and increase the speed, flows through the cold supply device 9 to absorb heat, flows through the dual-energy compressor 10 to increase the pressure and increase the temperature and reduce the speed, and; the cooling medium obtains low-temperature heat load through the inlet and outlet flow, the heated medium obtains high-temperature heat load through the high-temperature heat supplier 7, the heat source medium provides medium-temperature heat load through the heat source heat exchanger 8, the cooled medium provides secondary low-temperature heat load through the cold supplier 9, and the external part provides power for the dual-energy compressor 10, so that a fourth type of thermally-driven compression heat pump is formed.

The fourth type of thermally driven compression heat pump provided by the invention has the following effects and advantages:

(1) the new construction utilizes the basic technology of heat energy (temperature difference).

(2) Through single circulation and single working medium, the medium-temperature heat energy is utilized to realize high-temperature heat supply and sub-low-temperature refrigeration at the same time, or realize high-temperature heat supply, low-temperature heat supply and sub-low-temperature refrigeration at the same time, or realize high-temperature heat supply and low-temperature heat supply at the same time.

(3) The process is reasonable, is a common technology for realizing effective utilization of temperature difference, and has good applicability.

(4) The dual-energy compressor realizes the boosting and warming process, and flexibly and effectively reduces the manufacturing difficulty and cost of the fourth-class thermally driven compression heat pump.

(5) The pressure boosting and temperature rising process is realized by the diffuser pipe, and the manufacturing difficulty and cost of the fourth-class thermally driven compression heat pump are greatly reduced.

(6) The pressure reduction and expansion process of the spray pipe is realized, and the manufacturing difficulty and the cost of a fourth type of thermally driven compression heat pump are greatly reduced.

(7) The novel technology for simply, actively and efficiently utilizing heat energy is provided, and the performance index is high.

(8) Provides a simple, active and efficient new technology of combining heat energy and mechanical energy, and has high performance index.

(9) The working medium has wide application range, the working medium and the working parameters are flexibly matched, and the energy supply requirement can be adapted in a larger range.

(10) The heat pump technology is expanded, the types of compression heat pumps are enriched, and the high-efficiency utilization of heat energy and mechanical energy is favorably realized.