CN105805973A - Multi-directional thermodynamic cycle and third-type thermal driving compression type heat pump - Google Patents

Abstract

The invention provides multi-directional thermodynamic cycle and a third-type thermal driving compression type heat pump, and belongs to the technical fields of power, refrigeration and heat pumps. The multi-directional thermodynamic cycle and the third-type thermal driving compression type heat pump are characterized in that the temperature difference between a high temperature heat source and a middle temperature heat source and the temperature difference between a low temperature heat source and a secondary low temperature heat source are adopted as the driving temperature difference, and a working medium performs multi-directional thermodynamic cycle; a compressor has a circulating working medium channel which communicates with an expansion machine through a high temperature heat exchanger; the expansion machine has a circulating working medium channel which communicates with a second expansion machine through a heat supply device; the second expansion machine has a circulating working medium channel which communicates with a second compressor through a cooler; the second compressor has a circulating working medium channel which communicates with the compressor through a low temperature heat exchanger; the high temperature heat exchanger has a high temperature thermal medium channel; the heat supply device has a heated medium channel; the cooler has a cooling medium channel; the low temperature heat exchanger has a low temperature thermal medium channel communicating with the exterior; and the expansion machine and the second expansion machine are connected with the compressor and the second compressor to transmit power and form the third-type thermal driving compression type heat pump.

Description

Multidirectional thermodynamic cycle and the 3rd class thermal drivers compression heat pump

Technical field:

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

Background technology:

Cold demand, heat demand and power demand, central with production for human lives common；In reality, people it is frequently necessary to utilize high temperature heat realize refrigeration, heat supply or be converted into power, it is also desirable to utilizes power to carry out freezing or utilizing power and carry out heat supply in conjunction with low temperature heat energy.State in the process of purpose in realization, many-sided consideration or condition restriction will be faced, including the type of the energy, grade and quantity, the type of user's request, grade and quantity, ambient temperature, the type of working media, the flow process of equipment, structure and manufacturing cost etc..

Technology is utilized with the heat energy (temperature difference) that absorption heat pump technology is representative, the temperature difference between the temperature difference between middle warm load and cold environment and high-temperature hot load and heated medium can be used simultaneously, to realize the efficient utilization of different temperatures thermic load simultaneously.But because being subject to the characteristics influence of working media (solution and refrigerant medium), cannot realizing again heat energy to machinery transformation of energy while heat supply, its application and range of application are subject to bigger restriction.

The present invention is from simultaneously by the temperature difference between middle warm load and cold environment, and the temperature difference is efficiently utilized as starting point between high-temperature hot load and heated medium, also allow for utilizing power drive simultaneously, or consider to take into account power demand, it is proposed that there is the multidirectional thermodynamic cycle of quick-reading flow sheets and the 3rd class thermal drivers compression heat pump of simple structure.

Summary of the invention:

Present invention is primarily intended to provide and realize multidirectional thermodynamic cycle and the corresponding 3rd class thermal drivers compression heat pump that two kinds of temperature difference utilize simultaneously, including considering the multidirectional thermodynamic cycle of pressure reduction utilization and corresponding 3rd class thermal drivers compression heat pump simultaneously.Concrete summary of the invention subitem is described below:

1. multidirectional thermodynamic cycle, it is be operated between high temperature heat source, middle temperature-heat-source, low-temperature heat source and secondary low-temperature heat source, by the boost process 12 eight the process working medium sequentially carried out certainly time low temperature, from low-temperature heat source endothermic process 23, from the boost process 34 that middle temperature starts, from high temperature heat source endothermic process 45, from the pressure reduction 56 that high temperature starts, to middle temperature-heat-source exothermic process 67, from the pressure reduction 78 that middle temperature starts, to the closing course 123456781 of secondary low-temperature heat source exothermic process 81 composition.

2. multidirectional thermodynamic cycle, it is be operated between high temperature heat source, middle temperature-heat-source, low-temperature heat source and secondary low-temperature heat source, by the boost process 12 seven the process low-temperature receiver media sequentially carried out certainly time low temperature, from low-temperature heat source endothermic process 23, from the boost process 34 that low temperature starts, from high temperature heat source endothermic process 45, from the pressure reduction 56 that high temperature starts, to middle temperature-heat-source exothermic process 67, from the non-closed process 12345678 of pressure reduction 78 composition that middle temperature starts.

3. multidirectional thermodynamic cycle, it is be operated between high temperature heat source, middle temperature-heat-source, low-temperature heat source and secondary low-temperature heat source, by seven the process low-temperature heat source media sequentially carried out boost process 12 from low temperature, from high temperature heat source endothermic process 23, from the pressure reduction 34 that high temperature starts, to middle temperature-heat-source exothermic process 45, from the pressure reduction 56 that middle temperature starts, to secondary low-temperature heat source exothermic process 67, from the non-closed process 12345678 of boost process 78 composition that time low temperature starts.

4. multidirectional thermodynamic cycle, it is be operated between high temperature heat source, middle temperature-heat-source, low-temperature heat source and secondary low-temperature heat source, by seven the sources of process heat media sequentially carried out pressure reduction 12 from high temperature, to middle temperature-heat-source exothermic process 23, from the pressure reduction 34 that middle temperature starts, to secondary low-temperature heat source exothermic process 45, from the boost process 56 that time low temperature starts, from low-temperature heat source endothermic process 67, from the non-closed process 12345678 of boost process 78 composition that low temperature starts.

5. multidirectional thermodynamic cycle, it is be operated between high temperature heat source, middle temperature-heat-source, low-temperature heat source and secondary low-temperature heat source, by seven the process heated mediums sequentially carried out pressure reduction 12 from middle temperature, to secondary low-temperature heat source exothermic process 23, from the boost process 34 that secondary low temperature starts, from low-temperature heat source endothermic process 45, from the boost process 56 that low temperature starts, from high temperature heat source endothermic process 67, from the non-closed process 12345678 of pressure reduction 78 composition that high temperature starts.

6. the 3rd class thermal drivers compression heat pump, is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, cooler and low temperature heat exchanger；Compressor has cycle fluid passage to connect with decompressor through high-temperature heat exchanger, decompressor also has cycle fluid passage to connect through heater and the second decompressor, second decompressor also has the cooled device of cycle fluid passage and the connection of the second compressor, second compressor also has cycle fluid passage to connect with compressor through low temperature heat exchanger, high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, heater also has heated medium passage and ft connection, cooler also has coolant guiding channel and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form the 3rd class thermal drivers compression heat pump.

7. the 3rd class thermal drivers compression heat pump, is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater and low temperature heat exchanger；There are low-temperature receiver medium channel and the connection of the second compressor in outside, second compressor also has low-temperature receiver medium channel to connect with compressor through low temperature heat exchanger, compressor also has low-temperature receiver medium channel to connect with decompressor through high-temperature heat exchanger, decompressor also has low-temperature receiver medium channel to connect through heater and the second decompressor, second decompressor also has low-temperature receiver medium channel and ft connection, high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, heater also has heated medium passage and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form the 3rd class thermal drivers compression heat pump.

8. the 3rd class thermal drivers compression heat pump, is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater and cooler；Outside has low-temperature heat medium passage to connect with compressor, compressor also has low-temperature heat medium passage to connect with decompressor through high-temperature heat exchanger, decompressor also has low-temperature heat medium passage to connect through heater and the second decompressor, second decompressor also has the cooled device of low-temperature heat medium passage and the connection of the second compressor, second compressor also has low-temperature heat medium passage and ft connection, high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, heater also has heated medium passage and ft connection, cooler also has coolant guiding channel and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form the 3rd class thermal drivers compression heat pump.

9. the 3rd class thermal drivers compression heat pump, is mainly made up of compressor, decompressor, the second decompressor, the second compressor, heater, cooler and low temperature heat exchanger；Outside has heat source medium passage to connect with decompressor, decompressor also has heat source medium passage to connect through heater and the second decompressor, second decompressor also has the cooled device of heat source medium passage and the connection of the second compressor, second compressor also has heat source medium passage to connect with compressor through low temperature heat exchanger, compressor also has heat source medium passage and ft connection, heater also has heated medium passage and ft connection, cooler also has coolant guiding channel and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form the 3rd class thermal drivers compression heat pump.

10. the 3rd class thermal drivers compression heat pump, is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, cooler and low temperature heat exchanger；There are heated medium passage and the connection of the second decompressor in outside, second decompressor also has the cooled device of heated medium passage and the connection of the second compressor, second compressor also has heated medium passage to connect with compressor through low temperature heat exchanger, compressor also has heated medium passage to connect with decompressor through high-temperature heat exchanger, decompressor also has heated medium passage and ft connection, high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, cooler also has coolant guiding channel and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form the 3rd class thermal drivers compression heat pump.

11. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, cooler, low temperature heat exchanger and regenerator；Compressor has cycle fluid passage to connect with decompressor with high-temperature heat exchanger through regenerator, decompressor also has cycle fluid passage to connect with heater and the second decompressor through regenerator, second decompressor also has the cooled device of cycle fluid passage and the connection of the second compressor, second compressor also has cycle fluid passage to connect with compressor through low temperature heat exchanger, high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, heater also has heated medium passage and ft connection, cooler also has coolant guiding channel and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form the 3rd class thermal drivers compression heat pump.

12. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, low temperature heat exchanger and regenerator；There are low-temperature receiver medium channel and the connection of the second compressor in outside, second compressor also has low-temperature receiver medium channel to connect with compressor through low temperature heat exchanger, compressor also has low-temperature receiver medium channel to connect with decompressor with high-temperature heat exchanger through regenerator, decompressor also has low-temperature receiver medium channel to connect with heater and the second decompressor through regenerator, second decompressor also has low-temperature receiver medium channel and ft connection, high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, heater also has heated medium passage and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form the 3rd class thermal drivers compression heat pump.

13. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, cooler and regenerator；Outside has low-temperature heat medium passage to connect with compressor, compressor also has low-temperature heat medium passage to connect with decompressor with high-temperature heat exchanger through regenerator, decompressor also has low-temperature heat medium passage to connect with heater and the second decompressor through regenerator, second decompressor also has the cooled device of low-temperature heat medium passage and the connection of the second compressor, second compressor also has low-temperature heat medium passage and ft connection, high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, heater also has heated medium passage and ft connection, cooler also has coolant guiding channel and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form the 3rd class thermal drivers compression heat pump.

14. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, heater, cooler, low temperature heat exchanger and regenerator；Outside has heat source medium passage to connect with decompressor, decompressor also has heat source medium passage to connect with heater and the second decompressor through regenerator, second decompressor also has the cooled device of heat source medium passage and the connection of the second compressor, second compressor also has heat source medium passage to connect with compressor through low temperature heat exchanger, compressor also has heat source medium passage through regenerator and ft connection, heater also has heated medium passage and ft connection, cooler also has coolant guiding channel and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form the 3rd class thermal drivers compression heat pump.

15. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, cooler, low temperature heat exchanger and regenerator；There are heated medium passage and the connection of the second decompressor in outside, second decompressor also has the cooled device of heated medium passage and the connection of the second compressor, second compressor also has heated medium passage to connect with compressor through low temperature heat exchanger, compressor also has heated medium passage to connect with decompressor with high-temperature heat exchanger through regenerator, decompressor also has heated medium passage through regenerator and ft connection, high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, cooler also has coolant guiding channel and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form the 3rd class thermal drivers compression heat pump.

16. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, cooler, low temperature heat exchanger and regenerator；Compressor has cycle fluid passage to connect with decompressor through high-temperature heat exchanger, decompressor also has cycle fluid passage to connect through heater and the second decompressor, second decompressor also has cycle fluid passage to connect with cooler and the second compressor through regenerator, second compressor also has cycle fluid passage to connect with compressor with low temperature heat exchanger through regenerator, high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, heater also has heated medium passage and ft connection, cooler also has coolant guiding channel and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form the 3rd class thermal drivers compression heat pump.

17. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, low temperature heat exchanger and regenerator；There are low-temperature receiver medium channel and the connection of the second compressor in outside, second compressor also has low-temperature receiver medium channel to connect with compressor with low temperature heat exchanger through regenerator, compressor also has low-temperature receiver medium channel to connect with decompressor through high-temperature heat exchanger, decompressor also has low-temperature receiver medium channel to connect through heater and the second decompressor, second decompressor also has low-temperature receiver medium channel through regenerator and ft connection, high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, heater also has heated medium passage and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form the 3rd class thermal drivers compression heat pump.

18. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, cooler and regenerator；Outside has low-temperature heat medium passage to connect with compressor, compressor also has low-temperature heat medium passage to connect with decompressor through high-temperature heat exchanger, decompressor also has low-temperature heat medium passage to connect through heater and the second decompressor, second decompressor also has low-temperature heat medium passage to connect with cooler and the second compressor through regenerator, second compressor also has low-temperature heat medium passage through regenerator and ft connection, high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, heater also has heated medium passage and ft connection, cooler also has coolant guiding channel and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form the 3rd class thermal drivers compression heat pump.

19. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, heater, cooler, low temperature heat exchanger and regenerator；Outside has heat source medium passage to connect with decompressor, decompressor also has heat source medium passage to connect through heater and the second decompressor, second decompressor also has heat source medium passage to connect with cooler and the second compressor through regenerator, second compressor also has heat source medium passage to connect with compressor with low temperature heat exchanger through regenerator, compressor also has heat source medium passage and ft connection, heater also has heated medium passage and ft connection, cooler also has coolant guiding channel and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form the 3rd class thermal drivers compression heat pump.

20. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, cooler, low temperature heat exchanger and regenerator；There are heated medium passage and the connection of the second decompressor in outside, second decompressor also has heated medium passage to connect with cooler and the second compressor through regenerator, second compressor also has heated medium passage to connect with compressor with low temperature heat exchanger through regenerator, compressor also has heated medium passage to connect with decompressor through high-temperature heat exchanger, decompressor also has heated medium passage and ft connection, high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, cooler also has coolant guiding channel and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form the 3rd class thermal drivers compression heat pump.

21. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, cooler, low temperature heat exchanger and regenerator；Compressor has cycle fluid passage to connect with decompressor through high-temperature heat exchanger, decompressor also has cycle fluid passage to connect with regenerator and the second decompressor through heater, second decompressor also has the cooled device of cycle fluid passage and the connection of the second compressor, second compressor also has cycle fluid passage to connect with compressor with regenerator through low temperature heat exchanger, high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, heater also has heated medium passage and ft connection, cooler also has coolant guiding channel and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form the 3rd class thermal drivers compression heat pump.

22. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, low temperature heat exchanger and regenerator；There are low-temperature receiver medium channel and the connection of the second compressor in outside, second compressor also has low-temperature receiver medium channel to connect with compressor with regenerator through low temperature heat exchanger, compressor also has low-temperature receiver medium channel to connect with decompressor through high-temperature heat exchanger, decompressor also has low-temperature receiver medium channel to connect with regenerator and the second decompressor through heater, second decompressor also has low-temperature receiver medium channel and ft connection, high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, heater also has heated medium passage and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form the 3rd class thermal drivers compression heat pump.

23. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, cooler and regenerator；Outside has low-temperature heat medium passage to connect with compressor through regenerator, compressor also has low-temperature heat medium passage to connect with decompressor through high-temperature heat exchanger, decompressor also has low-temperature heat medium passage to connect with regenerator and the second decompressor through heater, second decompressor also has the cooled device of low-temperature heat medium passage and the connection of the second compressor, second compressor also has low-temperature heat medium passage and ft connection, high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, heater also has heated medium passage and ft connection, cooler also has coolant guiding channel and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form the 3rd class thermal drivers compression heat pump.

24. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, heater, cooler, low temperature heat exchanger and regenerator；Outside has heat source medium passage to connect with decompressor, decompressor also has heat source medium passage to connect with regenerator and the second decompressor through heater, second decompressor also has the cooled device of heat source medium passage and the connection of the second compressor, second compressor also has heat source medium passage to connect with compressor with regenerator through low temperature heat exchanger, compressor also has heat source medium passage and ft connection, heater also has heated medium passage and ft connection, cooler also has coolant guiding channel and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form the 3rd class thermal drivers compression heat pump.

25. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, cooler, low temperature heat exchanger and regenerator；Outside has heated medium passage to connect through regenerator and the second decompressor, second decompressor also has the cooled device of heated medium passage and the connection of the second compressor, second compressor also has heated medium passage to connect with compressor with regenerator through low temperature heat exchanger, compressor also has heated medium passage to connect with decompressor through high-temperature heat exchanger, decompressor also has heated medium passage and ft connection, high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, cooler also has coolant guiding channel and ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form the 3rd class thermal drivers compression heat pump.

26. the 3rd class thermal drivers compression heat pump, it is in the arbitrary 3rd class thermal drivers compression heat pump described in 6-25 item, increasing engine, engine connects compressor and provides power to compressor, forms the power-actuated 3rd class thermal drivers compression heat pump of additional external.

27. the 3rd class thermal drivers compression heat pump, it is in the arbitrary 3rd class thermal drivers compression heat pump described in 6-25 item, increasing working machine, decompressor connects working machine and provides power to working machine, forms additional the 3rd class thermal drivers compression heat pump externally providing living load.

Accompanying drawing illustrates:

Fig. 1 is based on 1st group of example principles flow chart of multidirectional thermodynamic cycle provided by the present invention.

Fig. 2 is based on 2nd group of example principles flow chart of multidirectional thermodynamic cycle provided by the present invention.

Fig. 3 is based on 3rd group of example principles flow chart of multidirectional thermodynamic cycle provided by the present invention.

Fig. 4 is based on 4th group of example principles flow chart of multidirectional thermodynamic cycle provided by the present invention.

Fig. 5 is based on 5th group of example principles flow chart of multidirectional thermodynamic cycle provided by the present invention.

Fig. 6 is based on the 1st kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.

Fig. 7 is based on the 2nd kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.

Fig. 8 is based on the 3rd kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.

Fig. 9 is based on the 4th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.

Figure 10 is based on the 5th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.

Figure 11 is based on the 6th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.

Figure 12 is based on the 7th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.

Figure 13 is based on the 8th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.

Figure 14 is based on the 9th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.

Figure 15 is based on the 10th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.

Figure 16 is based on the 11st kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.

Figure 17 is based on the 12nd kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.

Figure 18 is based on the 13rd kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.

Figure 19 is based on the 14th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.

Figure 20 is based on the 15th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.

Figure 21 is based on the 16th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.

Figure 22 is based on the 17th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.

Figure 23 is based on the 18th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.

Figure 24 is based on the 19th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.

Figure 25 is based on the 20th kind of principled thermal system figure of the 3rd class thermal drivers compression heat pump provided by the present invention.

In figure, 1-compressor, 2-decompressor, 3-the second decompressor, 4-the second compressor, 5-high-temperature heat exchanger, 6-heater, 7-cooler, 8-low temperature heat exchanger, 9-regenerator.

For ease of understanding, it is given as illustrating:

(1) high temperature heat source provides the material of high temperature driven thermic load, and temperature is relatively the highest, is called for short heat source medium or high temperature thermal medium；Such as high-temperature fuel gas etc..

(2) in, temperature-heat-source obtains the material of thermic load, and temperature is only below high temperature heat source；Such as heated medium.

(3) low-temperature heat source provides the material of Low Temperature Thermal load, and temperature is lower than middle temperature-heat-source, also known as low-temperature heat medium, such as waste heat medium；In the thermic load that low-temperature heat source provides, a part is as the driving thermic load of the 3rd class thermal drivers compression heat pump, and another part is as intensification thermic load.

(4) secondary low-temperature heat source takes away the material of Low Temperature Thermal load, and temperature is minimum, also known as low-temperature receiver medium；Such as surrounding air.

(5), when participating in heat pump cycle flow process directly as working media, above-mentioned thermal source is material self.

Detailed description of the invention:

First it is noted that in the statement of structure and flow process, does not repeat in inessential situation；Apparent flow process is not stated.The present invention is described in detail below in conjunction with accompanying drawing and example.

Multidirectional thermodynamic cycle flow example in T-s figure shown in Fig. 1 is such that respectively

Example 1., by reversible adiabatic compression process 12, level pressure endothermic process 23, reversible adiabatic compression process 34, level pressure endothermic process 45, reversible adiabatic expansion process 56, constant temperature exothermic process 67, reversible adiabatic expansion process 78, constant temperature exothermic process 81, add up to the process composition that totally 8 sequentially carry out.

Example 2., with example 1. compared with, be distinctive in that: example 1. in reversible adiabatic expansion process 56 be carry out in two-phase section, example 2. in reversible adiabatic expansion process 56 be carry out in superheated steam zone and two-phase section.

Example 3., by reversible adiabatic compression process 12, level pressure endothermic process 23, reversible adiabatic compression process 34, level pressure endothermic process 45, reversible adiabatic expansion process 56, level pressure exothermic process 67, reversible adiabatic expansion process 78, level pressure exothermic process 81, add up to the process composition that totally 8 sequentially carry out.

Example is 4., by irreversible adiabatic compression process 12, level pressure endothermic process 23, irreversible adiabatic compression process 34, level pressure endothermic process 45, irreversible adiabatic expansion process 56, level pressure exothermic process 67, irreversible adiabatic expansion process 78, level pressure exothermic process 81, add up to the process composition that totally 8 sequentially carry out.

In above-mentioned example, the function of 56,78 the output of process is to meet 12,34 processes；Or simultaneously externally output mechanical energy, or circulation can be completed by exterior mechanical.

Multidirectional thermodynamic cycle flow example in T-s figure shown in Fig. 2 is such that respectively

1. example, by reversible adiabatic compression process 12, level pressure endothermic process 23, reversible adiabatic compression process 34, level pressure endothermic process 45, reversible adiabatic expansion process 56, constant temperature exothermic process 67, reversible adiabatic expansion process 78, adds up to the process composition that totally 7 sequentially carry out.

Example 2., with example 1. compared with, be distinctive in that: example 1. in reversible adiabatic expansion process 56 be carry out in two-phase section, example 2. in reversible adiabatic expansion process 56 be carry out in superheated steam zone and two-phase section.

3. example, by reversible adiabatic compression process 12, level pressure endothermic process 23, reversible adiabatic compression process 34, level pressure endothermic process 45, reversible adiabatic expansion process 56, level pressure exothermic process 67, reversible adiabatic expansion process 78, adds up to the process composition that totally 7 sequentially carry out.

Example 4., by irreversible adiabatic compression process 12, level pressure endothermic process 23, irreversible adiabatic compression process 34, level pressure endothermic process 45, irreversible adiabatic expansion process 56, level pressure exothermic process 67, irreversible adiabatic expansion process 78, add up to the process composition that totally 7 sequentially carry out.

In above-mentioned example, the function of 56,78 the output of process is to meet 12,34 processes；Or simultaneously externally output mechanical energy, or circulation can be completed by exterior mechanical.

Multidirectional thermodynamic cycle flow example in T-s figure shown in Fig. 3 is such that respectively

1. example, by reversible adiabatic compression process 12, level pressure endothermic process 23, reversible adiabatic expansion process 34, constant temperature exothermic process 45, reversible adiabatic expansion process 56, constant temperature exothermic process 67, reversible adiabatic compression process 78, adds up to the process composition that totally 7 sequentially carry out.

Example 2., with example 1. compared with, be distinctive in that: example 1. in reversible adiabatic expansion process 34 be carry out in two-phase section, example 2. in reversible adiabatic expansion process 34 be carry out in superheated steam zone and two-phase section.

3. example, by reversible adiabatic compression process 12, level pressure endothermic process 23, reversible adiabatic expansion process 34, level pressure exothermic process 45, reversible adiabatic expansion process 56, level pressure exothermic process 67, reversible adiabatic compression process 78, adds up to the process composition that totally 7 sequentially carry out.

Example 4., by irreversible adiabatic compression process 12, level pressure endothermic process 23, irreversible adiabatic expansion process 34, level pressure exothermic process 45, irreversible adiabatic expansion process 56, level pressure exothermic process 67, irreversible adiabatic compression process 78, add up to the process composition that totally 7 sequentially carry out.

In above-mentioned example, the function of 34,56 the output of process is to meet 12,78 processes；Or simultaneously externally output mechanical energy, or circulation can be completed by exterior mechanical.

Multidirectional thermodynamic cycle flow example in T-s figure shown in Fig. 4 is such that respectively

1. example, by reversible adiabatic expansion process 12, constant temperature exothermic process 23, reversible adiabatic expansion process 34, constant temperature exothermic process 45, reversible adiabatic compression process 56, level pressure endothermic process 67, reversible adiabatic compression process 78, adds up to the process composition that totally 7 sequentially carry out.

Example 2., with example 1. compared with, be distinctive in that: example 1. in reversible adiabatic expansion process 12 be carry out in two-phase section, example 2. in reversible adiabatic expansion process 12 be carry out in superheated steam zone and two-phase section.

3. example, by reversible adiabatic expansion process 12, level pressure exothermic process 23, reversible adiabatic expansion process 34, level pressure exothermic process 45, reversible adiabatic compression process 56, level pressure endothermic process 67, reversible adiabatic compression process 78, adds up to the process composition that totally 7 sequentially carry out.

Example 4., by irreversible adiabatic expansion process 12, level pressure exothermic process 23, irreversible adiabatic expansion process 34, level pressure exothermic process 45, irreversible adiabatic compression process 56, level pressure endothermic process 67, irreversible adiabatic compression process 78, add up to the process composition that totally 7 sequentially carry out.

In above-mentioned example, the function of 12,34 the output of process is to meet 56,78 processes；Or simultaneously externally output mechanical energy, or circulation can be completed by exterior mechanical.

Multidirectional thermodynamic cycle flow example in T-s figure shown in Fig. 5 is such that respectively

1. example, by reversible adiabatic expansion process 12, constant temperature exothermic process 23, reversible adiabatic compression process 34, level pressure endothermic process 45, reversible adiabatic compression process 56, level pressure endothermic process 67, reversible adiabatic expansion process 78, adds up to the process composition that totally 7 sequentially carry out.

Example 2., with example 1. compared with, be distinctive in that: example 1. in reversible adiabatic expansion process 78 be carry out in two-phase section, example 2. in reversible adiabatic expansion process 78 be carry out in superheated steam zone and two-phase section.

3. example, by reversible adiabatic expansion process 12, level pressure exothermic process 23, reversible adiabatic compression process 34, level pressure endothermic process 45, reversible adiabatic compression process 56, level pressure endothermic process 67, reversible adiabatic expansion process 78, adds up to the process composition that totally 7 sequentially carry out.

Example 4., by irreversible adiabatic expansion process 12, level pressure exothermic process 23, irreversible adiabatic compression process 34, level pressure endothermic process 45, irreversible adiabatic compression process 56, level pressure endothermic process 67, irreversible adiabatic expansion process 78, add up to the process composition that totally 7 sequentially carry out.

In above-mentioned example, the function of 12,78 the output of process is to meet 34,56 processes；Or simultaneously externally output mechanical energy, or circulation can be completed by exterior mechanical.

Shown in Fig. 6, the 3rd class thermal drivers compression heat pump is achieved in that

(1), in structure, it is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, cooler and low temperature heat exchanger；Compressor 1 has cycle fluid passage to connect with decompressor 2 through high-temperature heat exchanger 5, decompressor 2 also has cycle fluid passage to connect with the second decompressor 3 through heater 6, second decompressor 3 also has the cooled device 7 of cycle fluid passage to connect with the second compressor 4, second compressor 4 also has cycle fluid passage to connect with compressor 1 through low temperature heat exchanger 8, high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, heater 6 also has heated medium passage and ft connection, cooler 7 also has coolant guiding channel and ft connection, low temperature heat exchanger 8 also has low-temperature heat medium passage and ft connection, decompressor 2 and the second decompressor 3 connect compressor 1 and the second compressor 4 and transmit power.

(2) in flow process, the cycle fluid of compressor 1 discharge flows through high-temperature heat exchanger 5 and absorbs heat, and enters decompressor 2 blood pressure lowering work done afterwards；The cycle fluid of decompressor 2 discharge flows through heater 6 heat release, enters the second decompressor 3 blood pressure lowering work done afterwards；The cycle fluid of the second decompressor 3 discharge flows through cooler 7 heat release, enters the second compressor 4 boosting afterwards and heats up；The cycle fluid of the second compressor 4 discharge flows through low temperature heat exchanger 8 and absorbs heat, and enters compressor 1 boosting afterwards and heats up；Low-temperature heat medium is provided by low temperature heat exchanger 8 and drives thermic load and intensification thermic load, high temperature thermal medium is provided by high-temperature heat exchanger 5 and drives thermic load, heated medium warms load in being obtained by heater 6, cooling medium takes away Low Temperature Thermal load by cooler 7, the merit of decompressor 2 and the output of the second decompressor 3 is supplied to compressor 1 and the second compressor 4 is used as power, and forms the 3rd class thermal drivers compression heat pump.

Shown in Fig. 7, the 3rd class thermal drivers compression heat pump is achieved in that

(1), in structure, it to be made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater and low temperature heat exchanger；Outside has low-temperature receiver medium channel and the second compressor 4 to connect, second compressor 4 also has low-temperature receiver medium channel to connect with compressor 1 through low temperature heat exchanger 8, compressor 1 also has low-temperature receiver medium channel to connect with decompressor 2 through high-temperature heat exchanger 5, decompressor 2 also has low-temperature receiver medium channel to connect with the second decompressor 3 through heater 6, second decompressor 3 also has low-temperature receiver medium channel and ft connection, high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, heater 6 also has heated medium passage and ft connection, low temperature heat exchanger 8 also has low-temperature heat medium passage and ft connection, decompressor 2 and the second decompressor 3 connect compressor 1 and the second compressor 4 and transmit power.

(2), in flow process, outside has low-temperature receiver medium to enter the second compressor 4 boosting intensification, and the low-temperature receiver medium of the second compressor 4 discharge flows through low temperature heat exchanger 8 and absorbs heat, and enters compressor 1 boosting afterwards and heats up；The low-temperature receiver medium of compressor 1 discharge flows through high-temperature heat exchanger 5 and absorbs heat, and enters decompressor 2 blood pressure lowering work done afterwards；The low-temperature receiver medium of decompressor 2 discharge flows through heater 6 heat release, enters the second decompressor 3 blood pressure lowering work done afterwards and externally discharges；Low-temperature heat medium is provided by low temperature heat exchanger 8 and drives thermic load and intensification thermic load, high temperature thermal medium is provided by high-temperature heat exchanger 5 and drives thermic load, heated medium warms load in being obtained by heater 6, low-temperature receiver medium walks Low Temperature Thermal load by passing in and out flow belt, the merit of decompressor 2 and the output of the second decompressor 3 is supplied to compressor 1 and the second compressor 4 is used as power, and forms the 3rd class thermal drivers compression heat pump.

Shown in Fig. 8, the 3rd class thermal drivers compression heat pump is achieved in that

(1), in structure, it is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater and cooler；Outside has low-temperature heat medium passage to connect with compressor 1, compressor 1 also has low-temperature heat medium passage to connect with decompressor 2 through high-temperature heat exchanger 5, decompressor 2 also has low-temperature heat medium passage to connect with the second decompressor 3 through heater 6, second decompressor 3 also has the cooled device 7 of low-temperature heat medium passage to connect with the second compressor 4, second compressor 4 also has low-temperature heat medium passage and ft connection, high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, heater 6 also has heated medium passage and ft connection, cooler 7 also has coolant guiding channel and ft connection, decompressor 2 and the second decompressor 3 connect compressor 1 and the second compressor 4 and transmit power.

(2) in flow process, outer low temperature thermal medium enters compressor 1 boosting and heats up, and the low-temperature heat medium of compressor 1 discharge flows through high-temperature heat exchanger 5 and absorbs heat, and enters decompressor 2 blood pressure lowering work done afterwards；The low-temperature heat medium of decompressor 2 discharge flows through heater 6 heat release, enters the second decompressor 3 blood pressure lowering work done afterwards；The low-temperature heat medium of the second decompressor 3 discharge flows through cooler 7 heat release, enters the second compressor 4 boosting afterwards and heats up and externally discharge；Low-temperature heat medium provides driving thermic load and intensification thermic load by passing in and out flow process, high temperature thermal medium is provided by high-temperature heat exchanger 5 and drives thermic load, heated medium warms load in being obtained by heater 6, cooling medium takes away Low Temperature Thermal load by cooler 7, the merit of decompressor 2 and the output of the second decompressor 3 is supplied to compressor 1 and the second compressor 4 is used as power, and forms the 3rd class thermal drivers compression heat pump.

Shown in Fig. 9, the 3rd class thermal drivers compression heat pump is achieved in that

(1), in structure, it is mainly made up of compressor, decompressor, the second decompressor, the second compressor, heater, cooler and low temperature heat exchanger；Outside has heat source medium passage to connect with decompressor 2, decompressor 2 also has heat source medium passage to connect with the second decompressor 3 through heater 6, second decompressor 3 also has the cooled device 7 of heat source medium passage to connect with the second compressor 4, second compressor 4 also has heat source medium passage to connect with compressor 1 through low temperature heat exchanger 8, compressor 1 also has heat source medium passage and ft connection, heater 6 also has heated medium passage and ft connection, cooler 7 also has coolant guiding channel and ft connection, low temperature heat exchanger 8 also has low-temperature heat medium passage and ft connection, decompressor 2 and the second decompressor 3 connect compressor 1 and the second compressor 4 and transmit power.

(2) in flow process, external heat source medium enters decompressor 2 blood pressure lowering work done, and the heat source medium of decompressor 2 discharge flows through heater 6 heat release, enters the second decompressor 3 blood pressure lowering work done afterwards；The heat source medium of the second decompressor 3 discharge flows through cooler 7 heat release, enters the second compressor 4 boosting afterwards and heats up；The heat source medium of the second compressor 4 discharge flows through low temperature heat exchanger 8 and absorbs heat, and enters compressor 1 boosting afterwards and heats up and externally discharge；Low-temperature heat medium is provided by low temperature heat exchanger 8 and drives thermic load and intensification thermic load, heat source medium provides high temperature driven thermic load by passing in and out flow process, heated medium warms load in being obtained by heater 6, cooling medium takes away Low Temperature Thermal load by cooler 7, the merit of decompressor 2 and the output of the second decompressor 3 is supplied to compressor 1 and the second compressor 4 is used as power, and forms the 3rd class thermal drivers compression heat pump.

Shown in Figure 10, the 3rd class thermal drivers compression heat pump is achieved in that

(1), in structure, it is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, cooler and low temperature heat exchanger；Outside has heated medium passage and the second decompressor 3 to connect, second decompressor 3 also has the cooled device 7 of heated medium passage to connect with the second compressor 4, second compressor 4 also has heated medium passage to connect with compressor 1 through low temperature heat exchanger 8, compressor 1 also has heated medium passage to connect with decompressor 2 through high-temperature heat exchanger 5, decompressor 2 also has heated medium passage and ft connection, high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, cooler 7 also has coolant guiding channel and ft connection, low temperature heat exchanger 8 also has low-temperature heat medium passage and ft connection, decompressor 2 and the second decompressor 3 connect compressor 1 and the second compressor 4 and transmit power.

(2) in flow process, outside heated medium enters the second decompressor 3 blood pressure lowering work done, and the heated medium of the second decompressor 3 discharge flows through cooler 7 heat release, enters the second compressor 4 boosting afterwards and heats up；The heated medium of the second compressor 4 discharge flows through low temperature heat exchanger 8 and absorbs heat, and enters compressor 1 boosting afterwards and heats up；The heated medium of compressor 1 discharge flows through high-temperature heat exchanger 5 and absorbs heat, and enters decompressor 2 blood pressure lowering work done afterwards and externally discharges；Low-temperature heat medium is provided by low temperature heat exchanger 8 and drives thermic load and intensification thermic load, high temperature thermal medium is provided by high-temperature heat exchanger 5 and drives thermic load, heated medium is by passing in and out warm load in flow process acquisition, cooling medium takes away Low Temperature Thermal load by cooler 7, the merit of decompressor 2 and the output of the second decompressor 3 is supplied to compressor 1 and the second compressor 4 is used as power, and forms the 3rd class thermal drivers compression heat pump.

Shown in Figure 11, the 3rd class thermal drivers compression heat pump is achieved in that

(1), in structure, it is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, cooler, low temperature heat exchanger and regenerator；Compressor 1 has cycle fluid passage to connect with decompressor 2 with high-temperature heat exchanger 5 through regenerator 9, decompressor 2 also has cycle fluid passage to connect with the second decompressor 3 with heater 6 through regenerator 9, second decompressor 3 also has the cooled device 7 of cycle fluid passage to connect with the second compressor 4, second compressor 4 also has cycle fluid passage to connect with compressor 1 through low temperature heat exchanger 8, high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, heater 6 also has heated medium passage and ft connection, cooler 7 also has coolant guiding channel and ft connection, low temperature heat exchanger 8 also has low-temperature heat medium passage and ft connection, decompressor 2 and the second decompressor 3 connect compressor 1 and the second compressor 4 and transmit power.

(2) in flow process, the cycle fluid of compressor 1 discharge flows through regenerator 9 and high-temperature heat exchanger 5 successively and progressively absorbs heat, and enters decompressor 2 blood pressure lowering work done afterwards；The cycle fluid of decompressor 2 discharge flows through regenerator 9 and heater 6 progressively heat release successively, enters the second decompressor 3 blood pressure lowering work done afterwards；The cycle fluid of the second decompressor 3 discharge flows through cooler 7 heat release, enters the second compressor 4 boosting afterwards and heats up；The cycle fluid of the second compressor 4 discharge flows through low temperature heat exchanger 8 and absorbs heat, and enters compressor 1 boosting afterwards and heats up；Low-temperature heat medium is provided by low temperature heat exchanger 8 and drives thermic load and intensification thermic load, high temperature thermal medium is provided by high-temperature heat exchanger 5 and drives thermic load, heated medium warms load in being obtained by heater 6, cooling medium takes away Low Temperature Thermal load by cooler 7, the merit of decompressor 2 and the output of the second decompressor 3 is supplied to compressor 1 and the second compressor 4 is used as power, and forms the 3rd class thermal drivers compression heat pump.

Shown in Figure 12, the 3rd class thermal drivers compression heat pump is achieved in that

(1), in structure, it is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, low temperature heat exchanger and regenerator；Outside has low-temperature receiver medium channel and the second compressor 4 to connect, second compressor 4 also has low-temperature receiver medium channel to connect with compressor 1 through low temperature heat exchanger 8, compressor 1 also has low-temperature receiver medium channel to connect with decompressor 2 with high-temperature heat exchanger 5 through regenerator 9, decompressor 2 also has low-temperature receiver medium channel to connect with the second decompressor 3 with heater 6 through regenerator 9, second decompressor 3 also has low-temperature receiver medium channel and ft connection, high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, heater 6 also has heated medium passage and ft connection, low temperature heat exchanger 8 also has low-temperature heat medium passage and ft connection, decompressor 2 and the second decompressor 3 connect compressor 1 and the second compressor 4 and transmit power.

(2) in flow process, external source medium enters the second compressor 4 boosting and heats up, and the cycle fluid of the second compressor 4 discharge flows through low temperature heat exchanger 8 and absorbs heat, and enters compressor 1 boosting afterwards and heats up；The cycle fluid of compressor 1 discharge flows through regenerator 9 and high-temperature heat exchanger 5 successively and progressively absorbs heat, and enters decompressor 2 blood pressure lowering work done afterwards；The cycle fluid of decompressor 2 discharge flows through regenerator 9 and heater 6 progressively heat release successively, enters the second decompressor 3 blood pressure lowering work done afterwards and externally discharges；Low-temperature heat medium is provided by low temperature heat exchanger 8 and drives thermic load and intensification thermic load, high temperature thermal medium is provided by high-temperature heat exchanger 5 and drives thermic load, heated medium warms load in being obtained by heater 6, low-temperature receiver medium walks Low Temperature Thermal load by passing in and out flow belt, the merit of decompressor 2 and the output of the second decompressor 3 is supplied to compressor 1 and the second compressor 4 is used as power, and forms the 3rd class thermal drivers compression heat pump.

Shown in Figure 13, the 3rd class thermal drivers compression heat pump is achieved in that

(1), in structure, it is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, cooler and regenerator；Outside has low-temperature heat medium passage to connect with compressor 1, compressor 1 also has low-temperature heat medium passage to connect with decompressor 2 with high-temperature heat exchanger 5 through regenerator 9, decompressor 2 also has low-temperature heat medium passage to connect with the second decompressor 3 with heater 6 through regenerator 9, second decompressor 3 also has the cooled device 7 of low-temperature heat medium passage to connect with the second compressor 4, second compressor 4 also has low-temperature heat medium passage and ft connection, high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, heater 6 also has heated medium passage and ft connection, cooler 7 also has coolant guiding channel and ft connection, decompressor 2 and the second decompressor 3 connect compressor 1 and the second compressor 4 and transmit power.

(2) in flow process, outer low temperature thermal medium enters compressor 1 boosting and heats up, and the low-temperature heat medium of compressor 1 discharge flows through regenerator 9 and high-temperature heat exchanger 5 successively and progressively absorbs heat, and enters decompressor 2 blood pressure lowering work done afterwards；The low-temperature heat medium of decompressor 2 discharge flows through regenerator 9 and heater 6 progressively heat release successively, enters the second decompressor 3 blood pressure lowering work done afterwards；The low-temperature heat medium of the second decompressor 3 discharge flows through cooler 7 heat release, enters the second compressor 4 boosting afterwards and heats up and externally discharge；Low-temperature heat medium provides driving thermic load and intensification thermic load by passing in and out flow process, high temperature thermal medium is provided by high-temperature heat exchanger 5 and drives thermic load, heated medium warms load in being obtained by heater 6, cooling medium takes away Low Temperature Thermal load by cooler 7, the merit of decompressor 2 and the output of the second decompressor 3 is supplied to compressor 1 and the second compressor 4 is used as power, and forms the 3rd class thermal drivers compression heat pump.

Shown in Figure 14, the 3rd class thermal drivers compression heat pump is achieved in that

(1), in structure, it is mainly made up of compressor, decompressor, the second decompressor, the second compressor, heater, cooler, low temperature heat exchanger and regenerator；Outside has heat source medium passage to connect with decompressor 2, decompressor 2 also has heat source medium passage to connect with the second decompressor 3 with heater 6 through regenerator 9, second decompressor 3 also has the cooled device 7 of heat source medium passage to connect with the second compressor 4, second compressor 4 also has heat source medium passage to connect with compressor 1 through low temperature heat exchanger 8, compressor 1 also has heat source medium passage through regenerator 9 and ft connection, heater 6 also has heated medium passage and ft connection, cooler 7 also has coolant guiding channel and ft connection, low temperature heat exchanger 8 also has low-temperature heat medium passage and ft connection, decompressor 2 and the second decompressor 3 connect compressor 1 and the second compressor 4 and transmit power.

(2) in flow process, external heat source medium enters decompressor 2 blood pressure lowering work done, and the heat source medium of decompressor 2 discharge flows through regenerator 9 and heater 6 progressively heat release successively, enters the second decompressor 3 blood pressure lowering work done afterwards；The heat source medium of the second decompressor 3 discharge flows through cooler 7 heat release, enters the second compressor 4 boosting afterwards and heats up；The heat source medium of the second compressor 4 discharge flows through low temperature heat exchanger 8 and absorbs heat, and enters compressor 1 boosting afterwards and heats up；The heat source medium of compressor 1 discharge flows through regenerator 9 and absorbs heat, and externally discharges afterwards；Low-temperature heat medium is provided by low temperature heat exchanger 8 and drives thermic load and intensification thermic load, heat source medium provides driving thermic load by passing in and out flow process, heated medium warms load in being obtained by heater 6, cooling medium takes away Low Temperature Thermal load by cooler 7, the merit of decompressor 2 and the output of the second decompressor 3 is supplied to compressor 1 and the second compressor 4 is used as power, and forms the 3rd class thermal drivers compression heat pump.

Shown in Figure 15, the 3rd class thermal drivers compression heat pump is achieved in that

(1), in structure, it is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, cooler, low temperature heat exchanger and regenerator；Outside has heated medium passage and the second decompressor 3 to connect, second decompressor 3 also has the cooled device 7 of heated medium passage to connect with the second compressor 4, second compressor 4 also has heated medium passage to connect with compressor 1 through low temperature heat exchanger 8, compressor 1 also has heated medium passage to connect with decompressor 2 with high-temperature heat exchanger 5 through regenerator 9, decompressor 2 also has heated medium passage through regenerator 9 and ft connection, high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, cooler 7 also has coolant guiding channel and ft connection, low temperature heat exchanger 8 also has low-temperature heat medium passage and ft connection, decompressor 2 and the second decompressor 3 connect compressor 1 and the second compressor 4 and transmit power.

(2) in flow process, outside heated medium enters the second decompressor 3 blood pressure lowering work done, and the heated medium of the second decompressor 3 discharge flows through cooler 7 heat release, enters the second compressor 4 boosting afterwards and heats up；The heated medium of the second compressor 4 discharge flows through low temperature heat exchanger 8 and absorbs heat, and enters compressor 1 boosting afterwards and heats up；The heated medium of compressor 1 discharge flows through regenerator 9 and high-temperature heat exchanger 5 successively and progressively absorbs heat, and enters decompressor 2 blood pressure lowering work done afterwards；The heated medium of decompressor 2 discharge flows through regenerator 9 heat release, externally discharges afterwards；Low-temperature heat medium is provided by low temperature heat exchanger 8 and drives thermic load and intensification thermic load, high temperature thermal medium is provided by high-temperature heat exchanger 5 and drives thermic load, heated medium is by passing in and out warm load in flow process acquisition, cooling medium takes away Low Temperature Thermal load by cooler 7, the merit of decompressor 2 and the output of the second decompressor 3 is supplied to compressor 1 and the second compressor 4 is used as power, and forms the 3rd class thermal drivers compression heat pump.

Shown in Figure 16, the 3rd class thermal drivers compression heat pump is achieved in that

(1), in structure, it is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, cooler, low temperature heat exchanger and regenerator；Compressor 1 has cycle fluid passage to connect with decompressor 2 through high-temperature heat exchanger 5, decompressor 2 also has cycle fluid passage to connect with the second decompressor 3 through heater 6, second decompressor 3 also has cycle fluid passage to connect with the second compressor 4 with cooler 7 through regenerator 9, second compressor 4 also has cycle fluid passage to connect with compressor 1 with low temperature heat exchanger 8 through regenerator 9, high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, heater 6 also has heated medium passage and ft connection, cooler 7 also has coolant guiding channel and ft connection, low temperature heat exchanger 8 also has low-temperature heat medium passage and ft connection, decompressor 2 and the second decompressor 3 connect compressor 1 and the second compressor 4 and transmit power.

(2) in flow process, the cycle fluid of compressor 1 discharge flows through high-temperature heat exchanger 5 and absorbs heat, and enters decompressor 2 blood pressure lowering work done afterwards；The cycle fluid of decompressor 2 discharge flows through heater 6 heat release, enters the second decompressor 3 blood pressure lowering work done afterwards；The cycle fluid of the second decompressor 3 discharge flows through regenerator 9 and cooler 7 progressively heat release successively, enters the second compressor 4 boosting afterwards and heats up；The cycle fluid of the second compressor 4 discharge flows through regenerator 9 and low temperature heat exchanger 8 successively and progressively absorbs heat, and enters compressor 1 boosting afterwards and heats up；Low-temperature heat medium is provided by low temperature heat exchanger 8 and drives thermic load and intensification thermic load, high temperature thermal medium is provided by high-temperature heat exchanger 5 and drives thermic load, heated medium warms load in being obtained by heater 6, cooling medium takes away Low Temperature Thermal load by cooler 7, the merit of decompressor 2 and the output of the second decompressor 3 is supplied to compressor 1 and the second compressor 4 is used as power, and forms the 3rd class thermal drivers compression heat pump.

Shown in Figure 17, the 3rd class thermal drivers compression heat pump is achieved in that

(1), in structure, it is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, low temperature heat exchanger and regenerator；Outside has low-temperature receiver medium channel and the second compressor 4 to connect, second compressor 4 also has low-temperature receiver medium channel to connect with compressor 1 with low temperature heat exchanger 8 through regenerator 9, compressor 1 also has low-temperature receiver medium channel to connect with decompressor 2 through high-temperature heat exchanger 5, decompressor 2 also has low-temperature receiver medium channel to connect with the second decompressor 3 through heater 6, second decompressor 3 also has low-temperature receiver medium channel through regenerator 9 and ft connection, high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, heater 6 also has heated medium passage and ft connection, low temperature heat exchanger 8 also has low-temperature heat medium passage and ft connection, decompressor 2 and the second decompressor 3 connect compressor 1 and the second compressor 4 and transmit power.

(2) in flow process, external source medium enters the second compressor 4 boosting and heats up, and the low-temperature receiver medium of the second compressor 4 discharge flows through regenerator 9 and low temperature heat exchanger 8 successively and progressively absorbs heat, and enters compressor 1 boosting afterwards and heats up；The low-temperature receiver medium of compressor 1 discharge flows through high-temperature heat exchanger 5 and absorbs heat, and enters decompressor 2 blood pressure lowering work done afterwards；The low-temperature receiver medium of decompressor 2 discharge flows through heater 6 heat release, enters the second decompressor 3 blood pressure lowering work done afterwards；The low-temperature receiver medium of the second decompressor 3 discharge flows through regenerator 9 heat release, externally discharges afterwards；Low-temperature heat medium is provided by low temperature heat exchanger 8 and drives thermic load and intensification thermic load, high temperature thermal medium is provided by high-temperature heat exchanger 5 and drives thermic load, heated medium warms load in being obtained by heater 6, low-temperature receiver medium walks Low Temperature Thermal load by passing in and out flow belt, the merit of decompressor 2 and the output of the second decompressor 3 is supplied to compressor 1 and the second compressor 4 is used as power, and forms the 3rd class thermal drivers compression heat pump.

Shown in Figure 18, the 3rd class thermal drivers compression heat pump is achieved in that

(1), in structure, it is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, cooler and regenerator；Outside has low-temperature heat medium passage to connect with compressor 1, compressor 1 also has low-temperature heat medium passage to connect with decompressor 2 through high-temperature heat exchanger 5, decompressor 2 also has low-temperature heat medium passage to connect with the second decompressor 3 through heater 6, second decompressor 3 also has low-temperature heat medium passage to connect with the second compressor 4 with cooler 7 through regenerator 9, second compressor 4 also has low-temperature heat medium passage through regenerator 9 and ft connection, high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, heater 6 also has heated medium passage and ft connection, cooler 7 also has coolant guiding channel and ft connection, decompressor 2 and the second decompressor 3 connect compressor 1 and the second compressor 4 and transmit power.

(2) in flow process, outer low temperature thermal medium enters compressor 1 boosting and heats up, and the low-temperature heat medium of compressor 1 discharge flows through high-temperature heat exchanger 5 and absorbs heat, and enters decompressor 2 blood pressure lowering work done afterwards；The low-temperature heat medium of decompressor 2 discharge flows through heater 6 heat release, enters the second decompressor 3 blood pressure lowering work done afterwards；The low-temperature heat medium of the second decompressor 3 discharge flows through regenerator 9 and cooler 7 progressively heat release successively, enters the second compressor 4 boosting afterwards and heats up；The low-temperature heat medium of the second compressor 4 discharge flows through regenerator 9 and absorbs heat, and externally discharges afterwards；Low-temperature heat medium provides driving thermic load and intensification thermic load by passing in and out flow process, high temperature thermal medium is provided by high-temperature heat exchanger 5 and drives thermic load, heated medium warms load in being obtained by heater 6, cooling medium takes away Low Temperature Thermal load by cooler 7, the merit of decompressor 2 and the output of the second decompressor 3 is supplied to compressor 1 and the second compressor 4 is used as power, and forms the 3rd class thermal drivers compression heat pump.

Shown in Figure 19, the 3rd class thermal drivers compression heat pump is achieved in that

(1), in structure, it is mainly made up of compressor, decompressor, the second decompressor, the second compressor, heater, cooler, low temperature heat exchanger and regenerator；Outside has heat source medium passage to connect with decompressor 2, decompressor 2 also has heat source medium passage to connect with the second decompressor 3 through heater 6, second decompressor 3 also has heat source medium passage to connect with the second compressor 4 with cooler 7 through regenerator 9, second compressor 4 also has heat source medium passage to connect with compressor 1 with low temperature heat exchanger 8 through regenerator 9, compressor 1 also has heat source medium passage and ft connection, heater 6 also has heated medium passage and ft connection, cooler 7 also has coolant guiding channel and ft connection, low temperature heat exchanger 8 also has low-temperature heat medium passage and ft connection, decompressor 2 and the second decompressor 3 connect compressor 1 and the second compressor 4 and transmit power.

(2) in flow process, external heat source medium enters decompressor 2 blood pressure lowering work done, and the heat source medium of decompressor 2 discharge flows through heater 6 heat release, enters the second decompressor 3 blood pressure lowering work done afterwards；The heat source medium of the second decompressor 3 discharge flows through regenerator 9 and cooler 7 progressively heat release successively, enters the second compressor 4 boosting afterwards and heats up；The heat source medium of the second compressor 4 discharge flows through regenerator 9 and low temperature heat exchanger 8 successively and progressively absorbs heat, and enters compressor 1 boosting afterwards and heats up and externally discharge；Low-temperature heat medium is provided by low temperature heat exchanger 8 and drives thermic load and intensification thermic load, heat source medium provides driving thermic load by passing in and out flow process, heated medium warms load in being obtained by heater 6, cooling medium takes away Low Temperature Thermal load by cooler 7, the merit of decompressor 2 and the output of the second decompressor 3 is supplied to compressor 1 and the second compressor 4 is used as power, and forms the 3rd class thermal drivers compression heat pump.

Shown in Figure 20, the 3rd class thermal drivers compression heat pump is achieved in that

(1), in structure, it is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, cooler, low temperature heat exchanger and regenerator；Outside has heated medium passage and the second decompressor 3 to connect, second decompressor 3 also has heated medium passage to connect with the second compressor 4 with cooler 7 through regenerator 9, second compressor 4 also has heated medium passage to connect with compressor 1 with low temperature heat exchanger 8 through regenerator 9, compressor 1 also has heated medium passage to connect with decompressor 2 through high-temperature heat exchanger 5, decompressor 2 also has heated medium passage and ft connection, high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, cooler 7 also has coolant guiding channel and ft connection, low temperature heat exchanger 8 also has low-temperature heat medium passage and ft connection, decompressor 2 and the second decompressor 3 connect compressor 1 and the second compressor 4 and transmit power.

(2) in flow process, outside heated medium enters the second decompressor 3 blood pressure lowering work done, and the heated medium of the second decompressor 3 discharge flows through regenerator 9 and cooler 7 progressively heat release successively, enters the second compressor 4 boosting afterwards and heats up；The heated medium of the second compressor 4 discharge flows through regenerator 9 and low temperature heat exchanger 8 successively and progressively absorbs heat, and enters compressor 1 boosting afterwards and heats up；The cycle fluid of compressor 1 discharge flows through high-temperature heat exchanger 5 and absorbs heat, and enters decompressor 2 blood pressure lowering work done afterwards and externally discharges；Low-temperature heat medium is provided by low temperature heat exchanger 8 and drives thermic load and intensification thermic load, high temperature thermal medium is provided by high-temperature heat exchanger 5 and drives thermic load, heated medium is by passing in and out warm load in flow process acquisition, cooling medium takes away Low Temperature Thermal load by cooler 7, the merit of decompressor 2 and the output of the second decompressor 3 is supplied to compressor 1 and the second compressor 4 is used as power, and forms the 3rd class thermal drivers compression heat pump.

Shown in Figure 21, the 3rd class thermal drivers compression heat pump is achieved in that

(1), in structure, it is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, cooler, low temperature heat exchanger and regenerator；Compressor 1 has cycle fluid passage to connect with decompressor 2 through high-temperature heat exchanger 5, decompressor 2 also has cycle fluid passage to connect with the second decompressor 3 with regenerator 9 through heater 6, second decompressor 3 also has the cooled device 7 of cycle fluid passage to connect with the second compressor 4, second compressor 4 also has cycle fluid passage to connect with compressor 1 with regenerator 9 through low temperature heat exchanger 8, high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, heater 6 also has heated medium passage and ft connection, cooler 7 also has coolant guiding channel and ft connection, low temperature heat exchanger 8 also has low-temperature heat medium passage and ft connection, decompressor 2 and the second decompressor 3 connect compressor 1 and the second compressor 4 and transmit power.

(2) in flow process, the cycle fluid of compressor 1 discharge flows through high-temperature heat exchanger 5 and absorbs heat, and enters decompressor 2 blood pressure lowering work done afterwards；The cycle fluid of decompressor 2 discharge flows through heater 6 and regenerator 9 progressively heat release successively, enters the second decompressor 3 blood pressure lowering work done afterwards；The cycle fluid of the second decompressor 3 discharge flows through cooler 7 heat release, enters the second compressor 4 boosting afterwards and heats up；The cycle fluid of the second compressor 4 discharge flows through low temperature heat exchanger 8 and regenerator 9 successively and progressively absorbs heat, and enters compressor 1 boosting afterwards and heats up；Low-temperature heat medium is provided by low temperature heat exchanger 8 and drives thermic load and intensification thermic load, high temperature thermal medium is provided by high-temperature heat exchanger 5 and drives thermic load, heated medium warms load in being obtained by heater 6, cooling medium takes away Low Temperature Thermal load by cooler 7, the merit of decompressor 2 and the output of the second decompressor 3 is supplied to compressor 1 and the second compressor 4 is used as power, and forms the 3rd class thermal drivers compression heat pump.

Shown in Figure 22, the 3rd class thermal drivers compression heat pump is achieved in that

(1), in structure, it is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, low temperature heat exchanger and regenerator；Outside has low-temperature receiver medium channel and the second compressor 4 to connect, second compressor 4 also has low-temperature receiver medium channel to connect with compressor 1 with regenerator 9 through low temperature heat exchanger 8, compressor 1 also has low-temperature receiver medium channel to connect with decompressor 2 through high-temperature heat exchanger 5, decompressor 2 also has low-temperature receiver medium channel to connect with the second decompressor 3 with regenerator 9 through heater 6, second decompressor 3 also has low-temperature receiver medium channel and ft connection, high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, heater 6 also has heated medium passage and ft connection, low temperature heat exchanger 8 also has low-temperature heat medium passage and ft connection, decompressor 2 and the second decompressor 3 connect compressor 1 and the second compressor 4 and transmit power.

(2) in flow process, external source medium enters the second compressor 4 boosting and heats up, and the low-temperature receiver medium of the second compressor 4 discharge flows through low temperature heat exchanger 8 and regenerator 9 successively and progressively absorbs heat, and enters compressor 1 boosting afterwards and heats up；The low-temperature receiver medium of compressor 1 discharge flows through high-temperature heat exchanger 5 and absorbs heat, and enters decompressor 2 blood pressure lowering work done afterwards；The low-temperature receiver medium of decompressor 2 discharge flows through heater 6 and regenerator 9 progressively heat release successively, enters the second decompressor 3 blood pressure lowering work done afterwards and externally discharges；Low-temperature heat medium is provided by low temperature heat exchanger 8 and drives thermic load and intensification thermic load, high temperature thermal medium is provided by high-temperature heat exchanger 5 and drives thermic load, heated medium warms load in being obtained by heater 6, low-temperature receiver medium walks Low Temperature Thermal load by passing in and out flow belt, the merit of decompressor 2 and the output of the second decompressor 3 is supplied to compressor 1 and the second compressor 4 is used as power, and forms the 3rd class thermal drivers compression heat pump.

Shown in Figure 23, the 3rd class thermal drivers compression heat pump is achieved in that

(1), in structure, it is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, cooler and regenerator；Outside has low-temperature heat medium passage to connect with compressor 1 through regenerator 9, compressor 1 also has low-temperature heat medium passage to connect with decompressor 2 through high-temperature heat exchanger 5, decompressor 2 also has low-temperature heat medium passage to connect with the second decompressor 3 with regenerator 9 through heater 6, second decompressor 3 also has the cooled device 7 of low-temperature heat medium passage to connect with the second compressor 4, second compressor 4 also has low-temperature heat medium passage and ft connection, high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, heater 6 also has heated medium passage and ft connection, cooler 7 also has coolant guiding channel and ft connection, decompressor 2 and the second decompressor 3 connect compressor 1 and the second compressor 4 and transmit power.

(2) in flow process, outer low temperature thermal medium flows through regenerator 9 and absorbs heat, and enters compressor 1 boosting afterwards and heats up；The low-temperature heat medium of compressor 1 discharge flows through high-temperature heat exchanger 5 and absorbs heat, and enters decompressor 2 blood pressure lowering work done afterwards；The low-temperature heat medium of decompressor 2 discharge flows through heater 6 and regenerator 9 progressively heat release successively, enters the second decompressor 3 blood pressure lowering work done afterwards；The low-temperature heat medium of the second decompressor 3 discharge flows through cooler 7 heat release, enters the second compressor 4 boosting afterwards and heats up and externally discharge；Low-temperature heat medium provides driving thermic load and intensification thermic load by passing in and out flow process, high temperature thermal medium is provided by high-temperature heat exchanger 5 and drives thermic load, heated medium warms load in being obtained by heater 6, cooling medium takes away Low Temperature Thermal load by cooler 7, the merit of decompressor 2 and the output of the second decompressor 3 is supplied to compressor 1 and the second compressor 4 is used as power, and forms the 3rd class thermal drivers compression heat pump.

Shown in Figure 24, the 3rd class thermal drivers compression heat pump is achieved in that

(1), in structure, it is mainly made up of compressor, decompressor, the second decompressor, the second compressor, heater, cooler, low temperature heat exchanger and regenerator；Outside has heat source medium passage to connect with decompressor 2, decompressor 2 also has heat source medium passage to connect with the second decompressor 3 with regenerator 9 through heater 6, second decompressor 3 also has the cooled device 7 of heat source medium passage to connect with the second compressor 4, second compressor 4 also has heat source medium passage to connect with compressor 1 with regenerator 9 through low temperature heat exchanger 8, compressor 1 also has heat source medium passage and ft connection, heater 6 also has heated medium passage and ft connection, cooler 7 also has coolant guiding channel and ft connection, low temperature heat exchanger 8 also has low-temperature heat medium passage and ft connection, decompressor 2 and the second decompressor 3 connect compressor 1 and the second compressor 4 and transmit power.

(2) in flow process, external heat source medium enters decompressor 2 blood pressure lowering work done, and the heat source medium of decompressor 2 discharge flows through heater 6 and regenerator 9 progressively heat release successively, enters the second decompressor 3 blood pressure lowering work done afterwards；The heat source medium of the second decompressor 3 discharge flows through cooler 7 heat release, enters the second compressor 4 boosting afterwards and heats up；The heat source medium of the second compressor 4 discharge flows through low temperature heat exchanger 8 and regenerator 9 successively and progressively absorbs heat, and enters compressor 1 boosting afterwards and heats up and externally discharge；Low-temperature heat medium is provided by low temperature heat exchanger 8 and drives thermic load and intensification thermic load, heat source medium provides driving thermic load by passing in and out flow process, heated medium warms load in being obtained by heater 6, cooling medium takes away Low Temperature Thermal load by cooler 7, the merit of decompressor 2 and the output of the second decompressor 3 is supplied to compressor 1 and the second compressor 4 is used as power, and forms the 3rd class thermal drivers compression heat pump.

Shown in Figure 25, the 3rd class thermal drivers compression heat pump is achieved in that

(1), in structure, it is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, cooler, low temperature heat exchanger and regenerator；Outside has heated medium passage to connect with the second decompressor 3 through regenerator 9, second decompressor 3 also has the cooled device 7 of heated medium passage to connect with the second compressor 4, second compressor 4 also has heated medium passage to connect with compressor 1 with regenerator 9 through low temperature heat exchanger 8, compressor 1 also has heated medium passage to connect with decompressor 2 through high-temperature heat exchanger 5, decompressor 2 also has heated medium passage and ft connection, high-temperature heat exchanger 5 also has high temperature thermal medium passage and ft connection, cooler 7 also has coolant guiding channel and ft connection, low temperature heat exchanger 8 also has low-temperature heat medium passage and ft connection, decompressor 2 and the second decompressor 3 connect compressor 1 and the second compressor 4 and transmit power.

(2), in flow process, outside heated medium flows through regenerator 9 heat release, enters the second decompressor 3 blood pressure lowering work done afterwards；The heated medium of the second decompressor 3 discharge flows through cooler 7 heat release, enters the second compressor 4 boosting afterwards and heats up；The heated medium of the second compressor 4 discharge flows through low temperature heat exchanger 8 and regenerator 9 successively and progressively absorbs heat, and enters compressor 1 boosting afterwards and heats up；The heated medium of compressor 1 discharge flows through high-temperature heat exchanger 5 and absorbs heat, and enters decompressor 2 blood pressure lowering work done afterwards and externally discharges；Low-temperature heat medium is provided by low temperature heat exchanger 8 and drives thermic load and intensification thermic load, high temperature thermal medium is provided by high-temperature heat exchanger 5 and drives thermic load, heated medium is by passing in and out warm load in flow process acquisition, cooling medium takes away Low Temperature Thermal load by cooler 7, the merit of decompressor 2 and the output of the second decompressor 3 is supplied to compressor 1 and the second compressor 4 is used as power, and forms the 3rd class thermal drivers compression heat pump.

Here conveniently, when driving only with the temperature difference (heat energy), for convenience of starting, it is contemplated that arrange startup motor in the 3rd class thermal drivers compression heat pump.

Multidirectional thermodynamic cycle that effect that the technology of the present invention can realize is proposed by the invention and the 3rd class thermal drivers compression heat pump, have the effect that and advantage:

(1) new approaches and new technique that the temperature difference utilizes are proposed.

(2) heat energy (temperature difference) drives, it is achieved heat generating temperature promotes, or externally provides power while of optional.

(3) flow process is reasonable, it is possible to realize fully utilizing of the two class temperature difference with efficient.

(4) if desired, realizing heat generating temperature by external impetus and promote, mode is flexible, and adaptability is good.

(5) with compressor, decompressor and heat exchanger for compression heat pump building block, simple in construction.

(6) working medium is applied widely, it is possible to be well adapted for heat demand, mates flexibly between working medium with running parameter.

(7) multiple concrete technical scheme is provided, it is possible to tackle numerous different actual state, have the wider scope of application.

(8) extend heat pump techniques, enrich the type of compression heat pump, be conducive to realizing better the efficient utilization of heat energy.

Claims (27)

1. multidirectional thermodynamic cycle, it is be operated between high temperature heat source, middle temperature-heat-source, low-temperature heat source and secondary low-temperature heat source, by the boost process 12 eight the process working medium sequentially carried out certainly time low temperature, from low-temperature heat source endothermic process 23, from the boost process 34 that middle temperature starts, from high temperature heat source endothermic process 45, from the pressure reduction 56 that high temperature starts, to middle temperature-heat-source exothermic process 67, from the pressure reduction 78 that middle temperature starts, to the closing course 123456781 of secondary low-temperature heat source exothermic process 81 composition.

2. multidirectional thermodynamic cycle, it is be operated between high temperature heat source, middle temperature-heat-source, low-temperature heat source and secondary low-temperature heat source, by the boost process 12 seven the process low-temperature receiver media sequentially carried out certainly time low temperature, from low-temperature heat source endothermic process 23, from the boost process 34 that low temperature starts, from high temperature heat source endothermic process 45, from the pressure reduction 56 that high temperature starts, to middle temperature-heat-source exothermic process 67, from the non-closed process 12345678 of pressure reduction 78 composition that middle temperature starts.

3. multidirectional thermodynamic cycle, it is be operated between high temperature heat source, middle temperature-heat-source, low-temperature heat source and secondary low-temperature heat source, by seven the process low-temperature heat source media sequentially carried out boost process 12 from low temperature, from high temperature heat source endothermic process 23, from the pressure reduction 34 that high temperature starts, to middle temperature-heat-source exothermic process 45, from the pressure reduction 56 that middle temperature starts, to secondary low-temperature heat source exothermic process 67, from the non-closed process 12345678 of boost process 78 composition that time low temperature starts.

4. multidirectional thermodynamic cycle, it is be operated between high temperature heat source, middle temperature-heat-source, low-temperature heat source and secondary low-temperature heat source, by seven the sources of process heat media sequentially carried out pressure reduction 12 from high temperature, to middle temperature-heat-source exothermic process 23, from the pressure reduction 34 that middle temperature starts, to secondary low-temperature heat source exothermic process 45, from the boost process 56 that time low temperature starts, from low-temperature heat source endothermic process 67, from the non-closed process 12345678 of boost process 78 composition that low temperature starts.

5. multidirectional thermodynamic cycle, it is be operated between high temperature heat source, middle temperature-heat-source, low-temperature heat source and secondary low-temperature heat source, by seven the process heated mediums sequentially carried out pressure reduction 12 from middle temperature, to secondary low-temperature heat source exothermic process 23, from the boost process 34 that secondary low temperature starts, from low-temperature heat source endothermic process 45, from the boost process 56 that low temperature starts, from high temperature heat source endothermic process 67, from the non-closed process 12345678 of pressure reduction 78 composition that high temperature starts.

6. the 3rd class thermal drivers compression heat pump, is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, cooler and low temperature heat exchanger；nullCompressor (1) has cycle fluid passage to connect with decompressor (2) through high-temperature heat exchanger (5)，Decompressor (2) also has cycle fluid passage to connect with the second decompressor (3) through heater (6)，Second decompressor (3) also has the cooled device of cycle fluid passage (7) to connect with the second compressor (4)，Second compressor (4) also has cycle fluid passage to connect with compressor (1) through low temperature heat exchanger (8)，High-temperature heat exchanger (5) also has high temperature thermal medium passage and ft connection，Heater (6) also has heated medium passage and ft connection，Cooler (7) also has coolant guiding channel and ft connection，Low temperature heat exchanger (8) also has low-temperature heat medium passage and ft connection，Decompressor (2) and the second decompressor (3) connect compressor (1) and the second compressor (4) and transmit power，Form the 3rd class thermal drivers compression heat pump.

7. the 3rd class thermal drivers compression heat pump, is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater and low temperature heat exchanger；nullThere are low-temperature receiver medium channel and the second compressor (4) connection in outside，Second compressor (4) also has low-temperature receiver medium channel to connect with compressor (1) through low temperature heat exchanger (8)，Compressor (1) also has low-temperature receiver medium channel to connect with decompressor (2) through high-temperature heat exchanger (5)，Decompressor (2) also has low-temperature receiver medium channel to connect with the second decompressor (3) through heater (6)，Second decompressor (3) also has low-temperature receiver medium channel and ft connection，High-temperature heat exchanger (5) also has high temperature thermal medium passage and ft connection，Heater (6) also has heated medium passage and ft connection，Low temperature heat exchanger (8) also has low-temperature heat medium passage and ft connection，Decompressor (2) and the second decompressor (3) connect compressor (1) and the second compressor (4) and transmit power，Form the 3rd class thermal drivers compression heat pump.

8. the 3rd class thermal drivers compression heat pump, is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater and cooler；nullOutside has low-temperature heat medium passage to connect with compressor (1)，Compressor (1) also has low-temperature heat medium passage to connect with decompressor (2) through high-temperature heat exchanger (5)，Decompressor (2) also has low-temperature heat medium passage to connect with the second decompressor (3) through heater (6)，Second decompressor (3) also has the cooled device of low-temperature heat medium passage (7) to connect with the second compressor (4)，Second compressor (4) also has low-temperature heat medium passage and ft connection，High-temperature heat exchanger (5) also has high temperature thermal medium passage and ft connection，Heater (6) also has heated medium passage and ft connection，Cooler (7) also has coolant guiding channel and ft connection，Decompressor (2) and the second decompressor (3) connect compressor (1) and the second compressor (4) and transmit power，Form the 3rd class thermal drivers compression heat pump.

9. the 3rd class thermal drivers compression heat pump, is mainly made up of compressor, decompressor, the second decompressor, the second compressor, heater, cooler and low temperature heat exchanger；nullOutside has heat source medium passage to connect with decompressor (2)，Decompressor (2) also has heat source medium passage to connect with the second decompressor (3) through heater (6)，Second decompressor (3) also has the cooled device of heat source medium passage (7) to connect with the second compressor (4)，Second compressor (4) also has heat source medium passage to connect with compressor (1) through low temperature heat exchanger (8)，Compressor (1) also has heat source medium passage and ft connection，Heater (6) also has heated medium passage and ft connection，Cooler (7) also has coolant guiding channel and ft connection，Low temperature heat exchanger (8) also has low-temperature heat medium passage and ft connection，Decompressor (2) and the second decompressor (3) connect compressor (1) and the second compressor (4) and transmit power，Form the 3rd class thermal drivers compression heat pump.

10. the 3rd class thermal drivers compression heat pump, is mainly made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, cooler and low temperature heat exchanger；nullThere are heated medium passage and the second decompressor (3) connection in outside，Second decompressor (3) also has the cooled device of heated medium passage (7) to connect with the second compressor (4)，Second compressor (4) also has heated medium passage to connect with compressor (1) through low temperature heat exchanger (8)，Compressor (1) also has heated medium passage to connect with decompressor (2) through high-temperature heat exchanger (5)，Decompressor (2) also has heated medium passage and ft connection，High-temperature heat exchanger (5) also has high temperature thermal medium passage and ft connection，Cooler (7) also has coolant guiding channel and ft connection，Low temperature heat exchanger (8) also has low-temperature heat medium passage and ft connection，Decompressor (2) and the second decompressor (3) connect compressor (1) and the second compressor (4) and transmit power，Form the 3rd class thermal drivers compression heat pump.

11. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, cooler, low temperature heat exchanger and regenerator；nullCompressor (1) has cycle fluid passage to connect with decompressor (2) with high-temperature heat exchanger (5) through regenerator (9)，Decompressor (2) also has cycle fluid passage to connect with the second decompressor (3) with heater (6) through regenerator (9)，Second decompressor (3) also has the cooled device of cycle fluid passage (7) to connect with the second compressor (4)，Second compressor (4) also has cycle fluid passage to connect with compressor (1) through low temperature heat exchanger (8)，High-temperature heat exchanger (5) also has high temperature thermal medium passage and ft connection，Heater (6) also has heated medium passage and ft connection，Cooler (7) also has coolant guiding channel and ft connection，Low temperature heat exchanger (8) also has low-temperature heat medium passage and ft connection，Decompressor (2) and the second decompressor (3) connect compressor (1) and the second compressor (4) and transmit power，Form the 3rd class thermal drivers compression heat pump.

12. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, low temperature heat exchanger and regenerator；nullThere are low-temperature receiver medium channel and the second compressor (4) connection in outside，Second compressor (4) also has low-temperature receiver medium channel to connect with compressor (1) through low temperature heat exchanger (8)，Compressor (1) also has low-temperature receiver medium channel to connect with decompressor (2) with high-temperature heat exchanger (5) through regenerator (9)，Decompressor (2) also has low-temperature receiver medium channel to connect with the second decompressor (3) with heater (6) through regenerator (9)，Second decompressor (3) also has low-temperature receiver medium channel and ft connection，High-temperature heat exchanger (5) also has high temperature thermal medium passage and ft connection，Heater (6) also has heated medium passage and ft connection，Low temperature heat exchanger (8) also has low-temperature heat medium passage and ft connection，Decompressor (2) and the second decompressor (3) connect compressor (1) and the second compressor (4) and transmit power，Form the 3rd class thermal drivers compression heat pump.

13. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, cooler and regenerator；nullOutside has low-temperature heat medium passage to connect with compressor (1)，Compressor (1) also has low-temperature heat medium passage to connect with decompressor (2) with high-temperature heat exchanger (5) through regenerator (9)，Decompressor (2) also has low-temperature heat medium passage to connect with the second decompressor (3) with heater (6) through regenerator (9)，Second decompressor (3) also has the cooled device of low-temperature heat medium passage (7) to connect with the second compressor (4)，Second compressor (4) also has low-temperature heat medium passage and ft connection，High-temperature heat exchanger (5) also has high temperature thermal medium passage and ft connection，Heater (6) also has heated medium passage and ft connection，Cooler (7) also has coolant guiding channel and ft connection，Decompressor (2) and the second decompressor (3) connect compressor (1) and the second compressor (4) and transmit power，Form the 3rd class thermal drivers compression heat pump.

14. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, heater, cooler, low temperature heat exchanger and regenerator；nullOutside has heat source medium passage to connect with decompressor (2)，Decompressor (2) also has heat source medium passage to connect with the second decompressor (3) with heater (6) through regenerator (9)，Second decompressor (3) also has the cooled device of heat source medium passage (7) to connect with the second compressor (4)，Second compressor (4) also has heat source medium passage to connect with compressor (1) through low temperature heat exchanger (8)，Compressor (1) also has heat source medium passage through regenerator (9) and ft connection，Heater (6) also has heated medium passage and ft connection，Cooler (7) also has coolant guiding channel and ft connection，Low temperature heat exchanger (8) also has low-temperature heat medium passage and ft connection，Decompressor (2) and the second decompressor (3) connect compressor (1) and the second compressor (4) and transmit power，Form the 3rd class thermal drivers compression heat pump.

15. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, cooler, low temperature heat exchanger and regenerator；nullThere are heated medium passage and the second decompressor (3) connection in outside，Second decompressor (3) also has the cooled device of heated medium passage (7) to connect with the second compressor (4)，Second compressor (4) also has heated medium passage to connect with compressor (1) through low temperature heat exchanger (8)，Compressor (1) also has heated medium passage to connect with decompressor (2) with high-temperature heat exchanger (5) through regenerator (9)，Decompressor (2) also has heated medium passage through regenerator (9) and ft connection，High-temperature heat exchanger (5) also has high temperature thermal medium passage and ft connection，Cooler (7) also has coolant guiding channel and ft connection，Low temperature heat exchanger (8) also has low-temperature heat medium passage and ft connection，Decompressor (2) and the second decompressor (3) connect compressor (1) and the second compressor (4) and transmit power，Form the 3rd class thermal drivers compression heat pump.

16. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, cooler, low temperature heat exchanger and regenerator；nullCompressor (1) has cycle fluid passage to connect with decompressor (2) through high-temperature heat exchanger (5)，Decompressor (2) also has cycle fluid passage to connect with the second decompressor (3) through heater (6)，Second decompressor (3) also has cycle fluid passage to connect with the second compressor (4) with cooler (7) through regenerator (9)，Second compressor (4) also has cycle fluid passage to connect with compressor (1) with low temperature heat exchanger (8) through regenerator (9)，High-temperature heat exchanger (5) also has high temperature thermal medium passage and ft connection，Heater (6) also has heated medium passage and ft connection，Cooler (7) also has coolant guiding channel and ft connection，Low temperature heat exchanger (8) also has low-temperature heat medium passage and ft connection，Decompressor (2) and the second decompressor (3) connect compressor (1) and the second compressor (4) and transmit power，Form the 3rd class thermal drivers compression heat pump.

17. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, low temperature heat exchanger and regenerator；nullThere are low-temperature receiver medium channel and the second compressor (4) connection in outside，Second compressor (4) also has low-temperature receiver medium channel to connect with compressor (1) with low temperature heat exchanger (8) through regenerator (9)，Compressor (1) also has low-temperature receiver medium channel to connect with decompressor (2) through high-temperature heat exchanger (5)，Decompressor (2) also has low-temperature receiver medium channel to connect with the second decompressor (3) through heater (6)，Second decompressor (3) also has low-temperature receiver medium channel through regenerator (9) and ft connection，High-temperature heat exchanger (5) also has high temperature thermal medium passage and ft connection，Heater (6) also has heated medium passage and ft connection，Low temperature heat exchanger (8) also has low-temperature heat medium passage and ft connection，Decompressor (2) and the second decompressor (3) connect compressor (1) and the second compressor (4) and transmit power，Form the 3rd class thermal drivers compression heat pump.

18. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, cooler and regenerator；nullOutside has low-temperature heat medium passage to connect with compressor (1)，Compressor (1) also has low-temperature heat medium passage to connect with decompressor (2) through high-temperature heat exchanger (5)，Decompressor (2) also has low-temperature heat medium passage to connect with the second decompressor (3) through heater (6)，Second decompressor (3) also has low-temperature heat medium passage to connect with the second compressor (4) with cooler (7) through regenerator (9)，Second compressor (4) also has low-temperature heat medium passage through regenerator (9) and ft connection，High-temperature heat exchanger (5) also has high temperature thermal medium passage and ft connection，Heater (6) also has heated medium passage and ft connection，Cooler (7) also has coolant guiding channel and ft connection，Decompressor (2) and the second decompressor (3) connect compressor (1) and the second compressor (4) and transmit power，Form the 3rd class thermal drivers compression heat pump.

19. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, heater, cooler, low temperature heat exchanger and regenerator；nullOutside has heat source medium passage to connect with decompressor (2)，Decompressor (2) also has heat source medium passage to connect with the second decompressor (3) through heater (6)，Second decompressor (3) also has heat source medium passage to connect with the second compressor (4) with cooler (7) through regenerator (9)，Second compressor (4) also has heat source medium passage to connect with compressor (1) with low temperature heat exchanger (8) through regenerator (9)，Compressor (1) also has heat source medium passage and ft connection，Heater (6) also has heated medium passage and ft connection，Cooler (7) also has coolant guiding channel and ft connection，Low temperature heat exchanger (8) also has low-temperature heat medium passage and ft connection，Decompressor (2) and the second decompressor (3) connect compressor (1) and the second compressor (4) and transmit power，Form the 3rd class thermal drivers compression heat pump.

20. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, cooler, low temperature heat exchanger and regenerator；nullThere are heated medium passage and the second decompressor (3) connection in outside，Second decompressor (3) also has heated medium passage to connect with the second compressor (4) with cooler (7) through regenerator (9)，Second compressor (4) also has heated medium passage to connect with compressor (1) with low temperature heat exchanger (8) through regenerator (9)，Compressor (1) also has heated medium passage to connect with decompressor (2) through high-temperature heat exchanger (5)，Decompressor (2) also has heated medium passage and ft connection，High-temperature heat exchanger (5) also has high temperature thermal medium passage and ft connection，Cooler (7) also has coolant guiding channel and ft connection，Low temperature heat exchanger (8) also has low-temperature heat medium passage and ft connection，Decompressor (2) and the second decompressor (3) connect compressor (1) and the second compressor (4) and transmit power，Form the 3rd class thermal drivers compression heat pump.

21. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, cooler, low temperature heat exchanger and regenerator；nullCompressor (1) has cycle fluid passage to connect with decompressor (2) through high-temperature heat exchanger (5)，Decompressor (2) also has cycle fluid passage to connect with the second decompressor (3) with regenerator (9) through heater (6)，Second decompressor (3) also has the cooled device of cycle fluid passage (7) to connect with the second compressor (4)，Second compressor (4) also has cycle fluid passage to connect with compressor (1) with regenerator (9) through low temperature heat exchanger (8)，High-temperature heat exchanger (5) also has high temperature thermal medium passage and ft connection，Heater (6) also has heated medium passage and ft connection，Cooler (7) also has coolant guiding channel and ft connection，Low temperature heat exchanger (8) also has low-temperature heat medium passage and ft connection，Decompressor (2) and the second decompressor (3) connect compressor (1) and the second compressor (4) and transmit power，Form the 3rd class thermal drivers compression heat pump.

22. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, low temperature heat exchanger and regenerator；nullThere are low-temperature receiver medium channel and the second compressor (4) connection in outside，Second compressor (4) also has low-temperature receiver medium channel to connect with compressor (1) with regenerator (9) through low temperature heat exchanger (8)，Compressor (1) also has low-temperature receiver medium channel to connect with decompressor (2) through high-temperature heat exchanger (5)，Decompressor (2) also has low-temperature receiver medium channel to connect with the second decompressor (3) with regenerator (9) through heater (6)，Second decompressor (3) also has low-temperature receiver medium channel and ft connection，High-temperature heat exchanger (5) also has high temperature thermal medium passage and ft connection，Heater (6) also has heated medium passage and ft connection，Low temperature heat exchanger (8) also has low-temperature heat medium passage and ft connection，Decompressor (2) and the second decompressor (3) connect compressor (1) and the second compressor (4) and transmit power，Form the 3rd class thermal drivers compression heat pump.

23. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, heater, cooler and regenerator；nullOutside has low-temperature heat medium passage to connect with compressor (1) through regenerator (9)，Compressor (1) also has low-temperature heat medium passage to connect with decompressor (2) through high-temperature heat exchanger (5)，Decompressor (2) also has low-temperature heat medium passage to connect with the second decompressor (3) with regenerator (9) through heater (6)，Second decompressor (3) also has the cooled device of low-temperature heat medium passage (7) to connect with the second compressor (4)，Second compressor (4) also has low-temperature heat medium passage and ft connection，High-temperature heat exchanger (5) also has high temperature thermal medium passage and ft connection，Heater (6) also has heated medium passage and ft connection，Cooler (7) also has coolant guiding channel and ft connection，Decompressor (2) and the second decompressor (3) connect compressor (1) and the second compressor (4) and transmit power，Form the 3rd class thermal drivers compression heat pump.

24. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, heater, cooler, low temperature heat exchanger and regenerator；nullOutside has heat source medium passage to connect with decompressor (2)，Decompressor (2) also has heat source medium passage to connect with the second decompressor (3) with regenerator (9) through heater (6)，Second decompressor (3) also has the cooled device of heat source medium passage (7) to connect with the second compressor (4)，Second compressor (4) also has heat source medium passage to connect with compressor (1) with regenerator (9) through low temperature heat exchanger (8)，Compressor (1) also has heat source medium passage and ft connection，Heater (6) also has heated medium passage and ft connection，Cooler (7) also has coolant guiding channel and ft connection，Low temperature heat exchanger (8) also has low-temperature heat medium passage and ft connection，Decompressor (2) and the second decompressor (3) connect compressor (1) and the second compressor (4) and transmit power，Form the 3rd class thermal drivers compression heat pump.

25. the 3rd class thermal drivers compression heat pump, mainly it is made up of compressor, decompressor, the second decompressor, the second compressor, high-temperature heat exchanger, cooler, low temperature heat exchanger and regenerator；nullOutside has heated medium passage to connect with the second decompressor (3) through regenerator (9)，Second decompressor (3) also has the cooled device of heated medium passage (7) to connect with the second compressor (4)，Second compressor (4) also has heated medium passage to connect with compressor (1) with regenerator (9) through low temperature heat exchanger (8)，Compressor (1) also has heated medium passage to connect with decompressor (2) through high-temperature heat exchanger (5)，Decompressor (2) also has heated medium passage and ft connection，High-temperature heat exchanger (5) also has high temperature thermal medium passage and ft connection，Cooler (7) also has coolant guiding channel and ft connection，Low temperature heat exchanger (8) also has low-temperature heat medium passage and ft connection，Decompressor (2) and the second decompressor (3) connect compressor (1) and the second compressor (4) and transmit power，Form the 3rd class thermal drivers compression heat pump.

26. the 3rd class thermal drivers compression heat pump, it is in the arbitrary 3rd class thermal drivers compression heat pump described in claim 6-25, increase engine, engine connects compressor (1) and provides power to compressor (1), forms the power-actuated 3rd class thermal drivers compression heat pump of additional external.

27. the 3rd class thermal drivers compression heat pump, it is in the arbitrary 3rd class thermal drivers compression heat pump described in claim 6-25, increase working machine, decompressor (3) connects working machine and provides power to working machine, forms additional the 3rd class thermal drivers compression heat pump externally providing living load.