CN106440503A - First-kind thermally-driven compression type heat pump - Google Patents

Abstract

The invention provides a first-kind thermally-driven compression type heat pump, and belongs to the technical field of power, refrigeration and heat pumps. A compressor is equipped with a circulating medium channel so as to separately communicate with a second compressor and a second expander after passing through a heat supplier; a second compressor is equipped with a circulating medium channel so as to communicate with an expander through a high-temperature heat exchanger; the expander is equipped with a circulating medium channel so as to communicate with the compressor through a low-temperature heat exchanger; the second expander is equipped with a circulating medium channel so as to communicate with the compressor through the low-temperature heat exchanger; the heat supplier is equipped with a heated medium channel so as to communicate with the outer part; the high-temperature heat exchanger is equipped with a high-temperature thermal medium channel so as to communicate with the outer part; the low-temperature heat exchanger is equipped with a low-temperature thermal medium channel so as to communicate with the outer part; and the expander and the second expander are connected with the compressor and the second compressor to transmit power, so that the first-kind thermally-driven compression type heat pump is formed.

Description

First kind 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 common by human lives；In reality, people often need To realize refrigeration, heat supply using high temperature heat or be converted into power it is also desirable to being freezed using power or being utilized power And carry out heat supply with reference to low temperature heat energy.During stating purpose in realization, many considerations will be faced or condition will limit, bag Include type, grade and the quantity of the energy, the type of user's request, grade and quantity, ambient temperature, the type of working media, if Standby flow process, structure Manufacturing cost etc..

Heat energy (temperature difference) with absorption heat pump technology as representative utilizes technology, is driven using high warm load and realizes heat supply Or refrigeration；But because the property by working media (solution and refrigerant medium) is affected, its application and range of application are subject to relatively Big restriction.Using the compression heat pump technology of the grade difference between mechanical energy and heat energy, there is certain motility, but it is a lot In the case of be difficult to the efficient utilization to heat energy.Meanwhile, two kinds of technology also have common weak point cannot heat Or refrigeration realize heat energy to mechanical transformation of energy simultaneously.

The present invention from realize the temperature difference between high temperature thermal medium and heated medium efficient utilization be starting point it is also considered that to Utilize power drive simultaneously, or consider to take into account power demand, and expand Low Temperature Thermal load temperature scope it is proposed that having simple stream The gas compression type series first kind thermal drivers compression heat pump of journey and structure.

Content of the invention：

Present invention is primarily intended to first kind thermal drivers compression heat pump will be provided, concrete content of the invention subitem illustrates such as Under：

1. first kind thermal drivers compression heat pump, mainly by compressor, the second compressor, decompressor, the second decompressor, confession Hot device, high-temperature heat exchanger and low temperature heat exchanger are formed；Compressor have cycle fluid passage through after heater respectively with Second compressor and the connection of the second decompressor, the second compressor also has cycle fluid passage through high-temperature heat exchanger with decompressor even Logical, decompressor also has cycle fluid passage to connect with low temperature heat exchanger, and the second decompressor also has cycle fluid passage and low temperature Heat exchanger connects, and low temperature heat exchanger also has cycle fluid passage to connect with compressor, and heater also has heated medium to lead to Road and ft connection, high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, and low temperature heat exchanger also has Low Temperature Thermal Medium channel and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form the One class thermal drivers compression heat pump.

2. first kind thermal drivers compression heat pump, mainly by compressor, the second compressor, decompressor, the second decompressor, confession Hot device, high-temperature heat exchanger, low temperature heat exchanger and the second low temperature heat exchanger are formed；Compressor has cycle fluid passage warp Connect with the second compressor and the second decompressor respectively after heater, the second compressor also has cycle fluid passage through high warm Exchanger is connected with decompressor, and decompressor also has cycle fluid passage to connect with compressor through low temperature heat exchanger, the second expansion Machine also has cycle fluid passage to connect with compressor through the second low temperature heat exchanger, and heater also has heated medium passage with outward Portion connects, and high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, low temperature heat exchanger and the second low temperature heat exchange Device also has low-temperature heat medium passage and ft connection, decompressor and the second decompressor connection compressor and the second compressor simultaneously respectively Transmission power, forms first kind thermal drivers compression heat pump.

3. first kind thermal drivers compression heat pump, mainly by compressor, the second compressor, decompressor, the second decompressor, confession Hot device, high-temperature heat exchanger, low temperature heat exchanger and the second low temperature heat exchanger are formed；Compressor has cycle fluid passage warp Connect with the second compressor and the second decompressor respectively after heater, the second compressor also has cycle fluid passage through high warm Exchanger is connected with decompressor, and decompressor also has cycle fluid passage to connect with low temperature heat exchanger, and the second decompressor also follows Ring working medium passage is connected with low temperature heat exchanger through the second low temperature heat exchanger, low temperature heat exchanger also have cycle fluid passage with Compressor connects, and heater also has heated medium passage and ft connection, and high-temperature heat exchanger also has high temperature thermal medium passage With ft connection, low temperature heat exchanger and the second low temperature heat exchanger also have low-temperature heat medium passage and ft connection respectively, swollen Swollen machine and the second decompressor connect compressor and the second compressor and transmit power, form first kind thermal drivers compression heat pump.

4. first kind thermal drivers compression heat pump, is in the 1st described first kind thermal drivers compression heat pump, cancel or Retain the low-temperature heat medium passage of low temperature heat exchanger and ft connection, increase new compressor, new boost expander and increase newly low Temperature heat exchanger, new compressor has cold cycle working medium passage to connect with low temperature heat exchanger, and low temperature heat exchanger is also low Warm cycle fluid passage is connected with new boost expander, and new boost expander also has cold cycle working medium passage through newly-increased low temperature heat exchange Device is connected with new compressor, and newly-increased low temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor and newly-increased Decompressor connects new compressor and transmits power, forms first kind thermal drivers compression heat pump.

5. first kind thermal drivers compression heat pump, is in the 1st described first kind thermal drivers compression heat pump, cancel or Retain the low-temperature heat medium passage of low temperature heat exchanger and ft connection, increase new compressor, new boost expander, newly-increased low temperature Heat exchanger and newly-increased regenerator, new compressor has cold cycle working medium passage to connect with low temperature heat exchanger, and Low Temperature Thermal is handed over Parallel operation also has cold cycle working medium passage to connect with new boost expander through newly-increased regenerator, and new boost expander also has cold cycle work Matter passage is connected with new compressor with newly-increased regenerator through newly-increased low temperature heat exchanger, and newly-increased low temperature heat exchanger also has low temperature Hot media channel and ft connection, decompressor and new boost expander connect new compressor and transmit power, form first kind heat Drive compression heat pump.

6. first kind thermal drivers compression heat pump, is in the 1st described first kind thermal drivers compression heat pump, cancel or Retain the low-temperature heat medium passage of low temperature heat exchanger and ft connection, increase new compressor and new boost expander, outside has Low-temperature heat medium passage is connected with new compressor, and new compressor also has low-temperature heat medium passage with low temperature heat exchanger even Logical, low temperature heat exchanger also has low-temperature heat medium passage to connect with new boost expander, and new boost expander also has low-temperature heat medium to lead to Road and ft connection, decompressor and new boost expander connect new compressor and transmit power, form the compression of first kind thermal drivers Formula heat pump.

7. first kind thermal drivers compression heat pump, is in the 1st described first kind thermal drivers compression heat pump, cancel or Retain the low-temperature heat medium passage of low temperature heat exchanger and ft connection, increase new compressor, new boost expander and increase newly back Hot device, outside has low-temperature heat medium passage to connect with new compressor through newly-increased regenerator, and new compressor also has Low Temperature Thermal to be situated between Matter passage is connected with low temperature heat exchanger, and low temperature heat exchanger also has low-temperature heat medium passage to expand with newly-increased through newly-increased regenerator Machine connects, and new boost expander also has low-temperature heat medium passage and ft connection, decompressor and new boost expander to connect newly-increased compression Machine simultaneously transmits power, forms first kind thermal drivers compression heat pump.

8. first kind thermal drivers compression heat pump, is in the 1st described first kind thermal drivers compression heat pump, cancel or Retain the low-temperature heat medium passage of low temperature heat exchanger and ft connection, increase new compressor, newly-increased low temperature heat exchanger and Newly-increased choke valve, new compressor has cold cycle working medium passage to connect with low temperature heat exchanger, and low temperature heat exchanger is also low Warm cycle fluid passage is connected with newly-increased low temperature heat exchanger through newly-increased choke valve, and newly-increased low temperature heat exchanger also has cold cycle Working medium passage is connected with new compressor, and newly-increased low temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor Connect new compressor and transmit power, form first kind thermal drivers compression heat pump.

9. first kind thermal drivers compression heat pump, is in the described arbitrary first kind thermal drivers compression heat pump of 2-3 item, Cancel or retain low temperature heat exchanger and the second low temperature heat exchanger low-temperature heat medium passage with ft connection respectively, increase new Increase compressor, new boost expander and newly-increased low temperature heat exchanger, new compressor has cold cycle working medium passage successively through low temperature Heat exchanger and the second low temperature heat exchanger are connected with new boost expander, and new boost expander also has cold cycle working medium passage through new Increase low temperature heat exchanger to connect with new compressor, newly-increased low temperature heat exchanger also has low-temperature heat medium passage and ft connection, Decompressor and new boost expander connect new compressor and transmit power, form first kind thermal drivers compression heat pump.

10. first kind thermal drivers compression heat pump, is to want the described arbitrary first kind thermal drivers compression type heat of 2-3 item in right In pump, cancel or retain low temperature heat exchanger and the second low temperature heat exchanger low-temperature heat medium passage with ft connection respectively, Increase new compressor, new boost expander, newly-increased low temperature heat exchanger and newly-increased regenerator, new compressor has cold cycle work Matter passage is connected with new boost expander with newly-increased regenerator through low temperature heat exchanger, the second low temperature heat exchanger successively, increases newly swollen Swollen machine also has cold cycle working medium passage to connect with new compressor with newly-increased regenerator through newly-increased low temperature heat exchanger, increases newly low Temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor and new boost expander to connect new compressor and transmit Power, forms first kind thermal drivers compression heat pump.

11. first kind thermal drivers compression heat pumps, are arbitrary first kind thermal drivers compression heat pumps described in 2-3 item In, cancel or retain low temperature heat exchanger and the second low temperature heat exchanger low-temperature heat medium passage with ft connection respectively, increase Plus new compressor and new boost expander, outside has low-temperature heat medium passage to connect with new compressor, and new compressor also has Low-temperature heat medium passage is connected with new boost expander through low temperature heat exchanger and the second low temperature heat exchanger successively, new boost expander Also have low-temperature heat medium passage and ft connection, newly-increased low temperature heat exchanger also has low-temperature heat medium passage and ft connection, swollen Swollen machine and new boost expander connect new compressor and transmit power, form first kind thermal drivers compression heat pump.

12. first kind thermal drivers compression heat pumps, are arbitrary first kind thermal drivers compression heat pumps described in 2-3 item In, cancel or retain low temperature heat exchanger and the second low temperature heat exchanger low-temperature heat medium passage with ft connection respectively, increase Plus new compressor, new boost expander and newly-increased regenerator, outside has low-temperature heat medium passage to be pressurized with new through newly-increased regenerator Contracting machine connects, and new compressor also has low-temperature heat medium passage successively through low temperature heat exchanger, the second low temperature heat exchanger and new Increase regenerator to connect with new boost expander, new boost expander also has low-temperature heat medium passage and ft connection, newly-increased Low Temperature Thermal is handed over Parallel operation also has low-temperature heat medium passage and ft connection, decompressor and new boost expander to connect new compressor and transmit power, Form first kind thermal drivers compression heat pump.

13. first kind thermal drivers compression heat pumps, are in the 1st described first kind thermal drivers compression heat pump, will follow Ring working medium is adjusted to low-temperature heat medium, cancels low temperature heat exchanger, and low temperature heat exchanger is had low-temperature heat medium passage and outside Connect, decompressor has cycle fluid passage to connect with low temperature heat exchanger, the second decompressor has cycle fluid passage and Low Temperature Thermal Exchanger connection has cycle fluid passage to connect with compressor with low temperature heat exchanger to be adjusted to outside in the lump and have low-temperature heat medium Passage is connected with compressor, decompressor has low-temperature heat medium passage and ft connection and the second decompressor has low-temperature heat medium passage With ft connection, form first kind thermal drivers compression heat pump.

14. first kind thermal drivers compression heat pumps, are arbitrary first kind thermal drivers compression heat pumps described in 1-12 item In, cancel heater, cycle fluid be adjusted to heated medium, by heater have heated medium passage and ft connection with And compressor has cycle fluid passage through connecting and being adjusted in the lump with the second compressor and the second decompressor respectively after heater Compressor has heated medium passage to have with ft connection, outside, and heated medium passage is connected with the second compressor and outside has Heated medium passage is connected with the second decompressor, forms first kind thermal drivers compression heat pump.

15. first kind thermal drivers compression heat pumps, are arbitrary first kind thermal drivers compression heat pumps described in 1-12 item In, cancel high-temperature heat exchanger, cycle fluid is adjusted to high temperature thermal medium, high-temperature heat exchanger is had high temperature thermal medium passage There is cycle fluid passage to connect with decompressor through high-temperature heat exchanger with ft connection and the second compressor and be adjusted to outside in the lump There is high temperature thermal medium passage to connect with decompressor and the second compressor has high temperature thermal medium passage and ft connection, form the first kind Thermal drivers compression heat pump.

16. first kind thermal drivers compression heat pumps, mainly by compressor, the second compressor, decompressor, the second decompressor, Heater, high-temperature heat exchanger, low temperature heat exchanger and regenerator are formed；Compressor have cycle fluid passage through regenerator and Connect with the second compressor and the second decompressor respectively after heater, the second compressor also has cycle fluid passage through regenerator Connect with decompressor with high-temperature heat exchanger, decompressor also has cycle fluid passage to connect with low temperature heat exchanger, the second expansion Machine also has cycle fluid passage to connect with low temperature heat exchanger, and low temperature heat exchanger also has cycle fluid passage with compressor even Logical, heater also has heated medium passage and ft connection, and high-temperature heat exchanger also has high temperature thermal medium passage and outside to connect Logical, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor and the second decompressor to connect compressor and the Two compressors simultaneously transmit power, form first kind thermal drivers compression heat pump.

17. first kind thermal drivers compression heat pumps, mainly by compressor, the second compressor, decompressor, the second decompressor, Heater, high-temperature heat exchanger, low temperature heat exchanger, the second low temperature heat exchanger and regenerator are formed；Compressor has circulation Working medium passage is connected with the second compressor and the second decompressor respectively through after regenerator and heater, and the second compressor also follows Ring working medium passage is connected with decompressor with high-temperature heat exchanger through regenerator, and decompressor also has cycle fluid passage to hand over through Low Temperature Thermal Parallel operation is connected with compressor, and the second decompressor also has cycle fluid passage to connect with compressor through the second low temperature heat exchanger, supplies Hot device also has heated medium passage and ft connection, and high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, low Temperature heat exchanger and the second low temperature heat exchanger also have low-temperature heat medium passage and ft connection, decompressor and the second expansion respectively Machine connects compressor and the second compressor and transmits power, forms first kind thermal drivers compression heat pump.

18. first kind thermal drivers compression heat pumps, mainly by compressor, the second compressor, decompressor, the second decompressor, Heater, high-temperature heat exchanger, low temperature heat exchanger, the second low temperature heat exchanger and regenerator are formed；Compressor has circulation Working medium passage is connected with the second compressor and the second decompressor respectively through after regenerator and heater, and the second compressor also follows Ring working medium passage is connected with decompressor with high-temperature heat exchanger through regenerator, and decompressor also has cycle fluid passage to hand over Low Temperature Thermal Parallel operation connects, and the second decompressor also has cycle fluid passage to connect with low temperature heat exchanger through the second low temperature heat exchanger, low temperature Heat exchanger also has cycle fluid passage to connect with compressor, and heater also has heated medium passage and ft connection, high temperature It is low that heat exchanger also has high temperature thermal medium passage and ft connection, low temperature heat exchanger and the second low temperature heat exchanger also to have respectively Warm passage and ft connection, decompressor and the second decompressor connect compressor and the second compressor and transmit power, shape Become first kind thermal drivers compression heat pump.

19. first kind thermal drivers compression heat pumps, are in the 16th described first kind thermal drivers compression heat pump, cancel Or reservation low temperature heat exchanger and the low-temperature heat medium passage of ft connection, increase new compressor, new boost expander and increase newly Low temperature heat exchanger, new compressor has cold cycle working medium passage to connect with low temperature heat exchanger, and low temperature heat exchanger also has Cold cycle working medium passage is connected with new boost expander, and new boost expander also has cold cycle working medium passage to hand over through newly-increased Low Temperature Thermal Parallel operation is connected with new compressor, and newly-increased low temperature heat exchanger also has low-temperature heat medium passage and ft connection, and decompressor is with newly Boost expander connects new compressor and transmits power, forms first kind thermal drivers compression heat pump.

20. first kind thermal drivers compression heat pumps, are in the 16th described first kind thermal drivers compression heat pump, cancel Or retain the low-temperature heat medium passage of low temperature heat exchanger and ft connection, increase new compressor, new boost expander, newly-increased low Temperature heat exchanger and newly-increased regenerator, new compressor has cold cycle working medium passage to connect with low temperature heat exchanger, Low Temperature Thermal Exchanger also has cold cycle working medium passage to connect with new boost expander through newly-increased regenerator, and new boost expander also has cold cycle Working medium passage is connected with new compressor with newly-increased regenerator through newly-increased low temperature heat exchanger, and newly-increased low temperature heat exchanger is also low Warm passage and ft connection, decompressor and new boost expander connect new compressor and transmit power, form the first kind Thermal drivers compression heat pump.

21. first kind thermal drivers compression heat pumps, are in the 16th described first kind thermal drivers compression heat pump, cancel Or reservation low temperature heat exchanger and the low-temperature heat medium passage of ft connection, increase new compressor and new boost expander, outside Low-temperature heat medium passage is had to connect with new compressor, new compressor also has low-temperature heat medium passage with low temperature heat exchanger even Logical, low temperature heat exchanger also has low-temperature heat medium passage to connect with new boost expander, and new boost expander also has low-temperature heat medium to lead to Road and ft connection, decompressor and new boost expander connect new compressor and transmit power, form the compression of first kind thermal drivers Formula heat pump.

22. first kind thermal drivers compression heat pumps, are in the 16th described first kind thermal drivers compression heat pump, cancel Or reservation low temperature heat exchanger and the low-temperature heat medium passage of ft connection, increase new compressor, new boost expander and increase newly Regenerator, outside has low-temperature heat medium passage to connect with new compressor through newly-increased regenerator, and new compressor also has Low Temperature Thermal Medium channel is connected with low temperature heat exchanger, and low temperature heat exchanger also has low-temperature heat medium passage swollen with newly-increased through newly-increased regenerator Swollen machine connection, new boost expander also has low-temperature heat medium passage and ft connection, decompressor and new boost expander to connect new supercharging Contracting machine simultaneously transmits power, forms first kind thermal drivers compression heat pump.

23. first kind thermal drivers compression heat pumps, are in the 16th described first kind thermal drivers compression heat pump, cancel Or reservation low temperature heat exchanger and the low-temperature heat medium passage of ft connection, increase new compressor, newly-increased low temperature heat exchanger With newly-increased choke valve, new compressor has cold cycle working medium passage to connect with low temperature heat exchanger, and low temperature heat exchanger also has Cold cycle working medium passage is connected with newly-increased low temperature heat exchanger through newly-increased choke valve, and newly-increased low temperature heat exchanger also has low temperature to follow Ring working medium passage is connected with new compressor, and newly-increased low temperature heat exchanger also has low-temperature heat medium passage and ft connection, expands Machine connects new compressor and transmits power, forms first kind thermal drivers compression heat pump.

24. first kind thermal drivers compression heat pumps, are arbitrary first kind thermal drivers compression heat pumps described in 17-18 item In, cancel or retain low temperature heat exchanger and the second low temperature heat exchanger low-temperature heat medium passage with ft connection respectively, increase Plus new compressor, new boost expander and newly-increased low temperature heat exchanger, new compressor has cold cycle working medium passage warp successively Low temperature heat exchanger and the second low temperature heat exchanger are connected with new boost expander, and new boost expander also has cold cycle working medium passage Connect with new compressor through newly-increased low temperature heat exchanger, newly-increased low temperature heat exchanger also has low-temperature heat medium passage and outside to connect Lead to, decompressor and new boost expander connect new compressor and transmit power, form first kind thermal drivers compression heat pump.

25. first kind thermal drivers compression heat pumps, are to want the described arbitrary first kind thermal drivers compression of 17-18 item in right In heat pump, cancel or retain low temperature heat exchanger and the second low temperature heat exchanger is led to the low-temperature heat medium of ft connection respectively Road, increases new compressor, new boost expander, newly-increased low temperature heat exchanger and newly-increased regenerator, and new compressor has low temperature to follow Ring working medium passage is connected with new boost expander with newly-increased regenerator through low temperature heat exchanger, the second low temperature heat exchanger successively, newly Boost expander also has cold cycle working medium passage to connect with new compressor with newly-increased regenerator, newly through newly-increased low temperature heat exchanger Increasing low temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor and new boost expander to connect new compressor simultaneously Transmission power, forms first kind thermal drivers compression heat pump.

26. first kind thermal drivers compression heat pumps, are arbitrary first kind thermal drivers compression heat pumps described in 17-18 item In, cancel or retain low temperature heat exchanger and the second low temperature heat exchanger low-temperature heat medium passage with ft connection respectively, increase Plus new compressor and new boost expander, outside has low-temperature heat medium passage to connect with new compressor, and new compressor also has Low-temperature heat medium passage is connected with new boost expander through low temperature heat exchanger and the second low temperature heat exchanger successively, new boost expander Also have low-temperature heat medium passage and ft connection, newly-increased low temperature heat exchanger also has low-temperature heat medium passage and ft connection, swollen Swollen machine and new boost expander connect new compressor and transmit power, form first kind thermal drivers compression heat pump.

27. first kind thermal drivers compression heat pumps, are arbitrary first kind thermal drivers compression heat pumps described in 17-18 item In, cancel or retain low temperature heat exchanger and the second low temperature heat exchanger low-temperature heat medium passage with ft connection respectively, increase Plus new compressor, new boost expander and newly-increased regenerator, outside has low-temperature heat medium passage to be pressurized with new through newly-increased regenerator Contracting machine connects, and new compressor also has low-temperature heat medium passage successively through low temperature heat exchanger, the second low temperature heat exchanger and new Increase regenerator to connect with new boost expander, new boost expander also has low-temperature heat medium passage and ft connection, newly-increased Low Temperature Thermal is handed over Parallel operation also has low-temperature heat medium passage and ft connection, decompressor and new boost expander to connect new compressor and transmit power, Form first kind thermal drivers compression heat pump.

28. first kind thermal drivers compression heat pumps, are in the 16th described first kind thermal drivers compression heat pump, will follow Ring working medium is adjusted to low-temperature heat medium, cancels low temperature heat exchanger, and low temperature heat exchanger is had low-temperature heat medium passage and outside Connect, decompressor also has cycle fluid passage to connect with low temperature heat exchanger, the second decompressor has cycle fluid passage and low temperature Heat exchanger connection and low temperature heat exchanger have cycle fluid passage connect with compressor be adjusted in the lump outside have Low Temperature Thermal Jie Matter passage is connected with compressor, decompressor has low-temperature heat medium passage and ft connection and the second decompressor has low-temperature heat medium to lead to Road and ft connection, form first kind thermal drivers compression heat pump.

29. first kind thermal drivers compression heat pumps, are arbitrary first kind thermal drivers compression heat pumps described in 16-27 item In, cancel heater, cycle fluid be adjusted to heated medium, by heater have heated medium passage and ft connection with And compressor has cycle fluid passage to connect one with the second compressor and the second decompressor respectively through after regenerator and heater And be adjusted to compressor and have heated medium passage to have heated medium passage to press with second through regenerator and ft connection, outside The connection of contracting machine has heated medium passage to connect with the second decompressor with outside, forms first kind thermal drivers compression heat pump.

30. first kind thermal drivers compression heat pumps, are arbitrary first kind thermal drivers compression heat pumps described in 16-27 item In, cancel high-temperature heat exchanger, cycle fluid is adjusted to high temperature thermal medium, high-temperature heat exchanger is had high temperature thermal medium passage There is cycle fluid passage to connect with decompressor through regenerator and high-temperature heat exchanger with ft connection and the second compressor to adjust in the lump Whole have high temperature thermal medium passage to connect with decompressor for outside and the second compressor have high temperature thermal medium passage through regenerator with outer Portion connects, and forms first kind thermal drivers compression heat pump.

31. first kind thermal drivers compression heat pumps, mainly by compressor, the second compressor, decompressor, the second decompressor, Heater, high-temperature heat exchanger, low temperature heat exchanger and regenerator are formed；Compressor have cycle fluid passage through heater it Connect with the second compressor through regenerator more respectively afterwards and direct second decompressor connection, the second compressor also has cycle fluid to lead to Road is connected with decompressor through high-temperature heat exchanger, and decompressor also has cycle fluid passage to connect with low temperature heat exchanger, and second is swollen Swollen machine also has cycle fluid passage to connect with low temperature heat exchanger, low temperature heat exchanger also have cycle fluid passage through regenerator with Compressor connects, and heater also has heated medium passage and ft connection, and high-temperature heat exchanger also has high temperature thermal medium passage With ft connection, low temperature heat exchanger also has low-temperature heat medium passage and ft connection, and decompressor and the second decompressor connect pressure Contracting machine and the second compressor simultaneously transmit power, form first kind thermal drivers compression heat pump.

32. first kind thermal drivers compression heat pumps, mainly by compressor, the second compressor, decompressor, the second decompressor, Heater, high-temperature heat exchanger, low temperature heat exchanger, the second low temperature heat exchanger and regenerator are formed；Compressor has circulation Working medium passage is connected with the second compressor through regenerator through difference after heater and direct second decompressor connection again, the second pressure Contracting machine also has cycle fluid passage to connect with decompressor through high-temperature heat exchanger, and decompressor also has cycle fluid passage through Low Temperature Thermal Exchanger is connected with compressor with regenerator, and the second decompressor also has cycle fluid passage through the second low temperature heat exchanger and backheat Device is connected with compressor, and heater also has heated medium passage and ft connection, and high-temperature heat exchanger also has high temperature thermal medium Passage and ft connection, low temperature heat exchanger and the second low temperature heat exchanger also have low-temperature heat medium passage and outside to connect respectively Lead to, decompressor and the second decompressor connect compressor and the second compressor and transmit power, form first kind thermal drivers compression Heat pump.

33. first kind thermal drivers compression heat pumps, mainly by compressor, the second compressor, decompressor, the second decompressor, Heater, high-temperature heat exchanger, low temperature heat exchanger, the second low temperature heat exchanger and regenerator are formed；Compressor has circulation Working medium passage is connected with the second compressor through regenerator through difference after heater and direct second decompressor connection again, the second pressure Contracting machine also has cycle fluid passage to connect with decompressor through high-temperature heat exchanger, and decompressor also has cycle fluid passage and Low Temperature Thermal Exchanger connects, and the second decompressor also has cycle fluid passage to connect with low temperature heat exchanger through the second low temperature heat exchanger, low Temperature heat exchanger also has cycle fluid passage to connect with compressor through regenerator, and heater also has heated medium passage and outside Connection, high-temperature heat exchanger also has high temperature thermal medium passage and ft connection, low temperature heat exchanger and the second low temperature heat exchanger Low-temperature heat medium passage and ft connection, decompressor and the second decompressor is also had to connect compressor and the second compressor and pass respectively Defeated power, forms first kind thermal drivers compression heat pump.

34. first kind thermal drivers compression heat pumps, are in the 31st described first kind thermal drivers compression heat pump, cancel Or reservation low temperature heat exchanger and the low-temperature heat medium passage of ft connection, increase new compressor, new boost expander and increase newly Low temperature heat exchanger, new compressor has cold cycle working medium passage to connect with low temperature heat exchanger, and low temperature heat exchanger also has Cold cycle working medium passage is connected with new boost expander, and new boost expander also has cold cycle working medium passage to hand over through newly-increased Low Temperature Thermal Parallel operation is connected with new compressor, and newly-increased low temperature heat exchanger also has low-temperature heat medium passage and ft connection, and decompressor is with newly Boost expander connects new compressor and transmits power, forms first kind thermal drivers compression heat pump.

35. first kind thermal drivers compression heat pumps, are in the 31st described first kind thermal drivers compression heat pump, cancel Or retain the low-temperature heat medium passage of low temperature heat exchanger and ft connection, increase new compressor, new boost expander, newly-increased low Temperature heat exchanger and newly-increased regenerator, new compressor has cold cycle working medium passage to connect with low temperature heat exchanger, Low Temperature Thermal Exchanger also has cold cycle working medium passage to connect with new boost expander through newly-increased regenerator, and new boost expander also has cold cycle Working medium passage is connected with new compressor with newly-increased regenerator through newly-increased low temperature heat exchanger, and newly-increased low temperature heat exchanger is also low Warm passage and ft connection, decompressor and new boost expander connect new compressor and transmit power, form the first kind Thermal drivers compression heat pump.

36. first kind thermal drivers compression heat pumps, are in the 31st described first kind thermal drivers compression heat pump, cancel Or reservation low temperature heat exchanger and the low-temperature heat medium passage of ft connection, increase new compressor and new boost expander, outside Low-temperature heat medium passage is had to connect with new compressor, new compressor also has low-temperature heat medium passage with low temperature heat exchanger even Logical, low temperature heat exchanger also has low-temperature heat medium passage to connect with new boost expander, and new boost expander also has low-temperature heat medium to lead to Road and ft connection, decompressor and new boost expander connect new compressor and transmit power, form the compression of first kind thermal drivers Formula heat pump.

37. first kind thermal drivers compression heat pumps, are in the 31st described first kind thermal drivers compression heat pump, cancel Or reservation low temperature heat exchanger and the low-temperature heat medium passage of ft connection, increase new compressor, new boost expander and increase newly Regenerator, outside has low-temperature heat medium passage to connect with new compressor through newly-increased regenerator, and new compressor also has Low Temperature Thermal Medium channel is connected with low temperature heat exchanger, and low temperature heat exchanger also has low-temperature heat medium passage swollen with newly-increased through newly-increased regenerator Swollen machine connection, new boost expander also has low-temperature heat medium passage and ft connection, decompressor and new boost expander to connect new supercharging Contracting machine simultaneously transmits power, forms first kind thermal drivers compression heat pump.

38. first kind thermal drivers compression heat pumps, are in the 31st described first kind thermal drivers compression heat pump, cancel Or reservation low temperature heat exchanger and the low-temperature heat medium passage of ft connection, increase new compressor, newly-increased low temperature heat exchanger With newly-increased choke valve, new compressor has cold cycle working medium passage to connect with low temperature heat exchanger, and low temperature heat exchanger also has Cold cycle working medium passage is connected with newly-increased low temperature heat exchanger through newly-increased choke valve, and newly-increased low temperature heat exchanger also has low temperature to follow Ring working medium passage is connected with new compressor, and newly-increased low temperature heat exchanger also has low-temperature heat medium passage and ft connection, expands Machine connects new compressor and transmits power, forms first kind thermal drivers compression heat pump.

39. first kind thermal drivers compression heat pumps, are arbitrary first kind thermal drivers compression heat pumps described in 32-33 item In, cancel or retain low temperature heat exchanger and the second low temperature heat exchanger low-temperature heat medium passage with ft connection respectively, increase Plus new compressor, new boost expander and newly-increased low temperature heat exchanger, new compressor has cold cycle working medium passage warp successively Low temperature heat exchanger and the second low temperature heat exchanger are connected with new boost expander, and new boost expander also has cold cycle working medium passage Connect with new compressor through newly-increased low temperature heat exchanger, newly-increased low temperature heat exchanger also has low-temperature heat medium passage and outside to connect Lead to, decompressor and new boost expander connect new compressor and transmit power, form first kind thermal drivers compression heat pump.

40. first kind thermal drivers compression heat pumps, are to want the described arbitrary first kind thermal drivers compression of 32-33 item in right In heat pump, cancel or retain low temperature heat exchanger and the second low temperature heat exchanger is led to the low-temperature heat medium of ft connection respectively Road, increases new compressor, new boost expander, newly-increased low temperature heat exchanger and newly-increased regenerator, and new compressor has low temperature to follow Ring working medium passage is connected with new boost expander with newly-increased regenerator through low temperature heat exchanger, the second low temperature heat exchanger successively, newly Boost expander also has cold cycle working medium passage to connect with new compressor with newly-increased regenerator, newly through newly-increased low temperature heat exchanger Increasing low temperature heat exchanger also has low-temperature heat medium passage and ft connection, decompressor and new boost expander to connect new compressor simultaneously Transmission power, forms first kind thermal drivers compression heat pump.

41. first kind thermal drivers compression heat pumps, are arbitrary first kind thermal drivers compression heat pumps described in 32-33 item In, cancel or retain low temperature heat exchanger and the second low temperature heat exchanger low-temperature heat medium passage with ft connection respectively, increase Plus new compressor and new boost expander, outside has low-temperature heat medium passage to connect with new compressor, and new compressor also has Low-temperature heat medium passage is connected with new boost expander through low temperature heat exchanger and the second low temperature heat exchanger successively, new boost expander Also have low-temperature heat medium passage and ft connection, newly-increased low temperature heat exchanger also has low-temperature heat medium passage and ft connection, swollen Swollen machine and new boost expander connect new compressor and transmit power, form first kind thermal drivers compression heat pump.

42. first kind thermal drivers compression heat pumps, are arbitrary first kind thermal drivers compression heat pumps described in 32-33 item In, cancel or retain low temperature heat exchanger and the second low temperature heat exchanger low-temperature heat medium passage with ft connection respectively, increase Plus new compressor, new boost expander and newly-increased regenerator, outside has low-temperature heat medium passage to be pressurized with new through newly-increased regenerator Contracting machine connects, and new compressor also has low-temperature heat medium passage successively through low temperature heat exchanger, the second low temperature heat exchanger and new Increase regenerator to connect with new boost expander, new boost expander also has low-temperature heat medium passage and ft connection, newly-increased Low Temperature Thermal is handed over Parallel operation also has low-temperature heat medium passage and ft connection, decompressor and new boost expander to connect new compressor and transmit power, Form first kind thermal drivers compression heat pump.

43. first kind thermal drivers compression heat pumps, are in the 31st described first kind thermal drivers compression heat pump, will follow Ring working medium is adjusted to low-temperature heat medium, cancels low temperature heat exchanger, and low temperature heat exchanger is had low-temperature heat medium passage and outside Connect, decompressor has cycle fluid passage to connect with low temperature heat exchanger, the second decompressor has cycle fluid passage and Low Temperature Thermal Exchanger connection with low temperature heat exchanger have cycle fluid passage connect with compressor through regenerator be adjusted in the lump outside have low Warm passage is connected with compressor through regenerator, decompressor has low-temperature heat medium passage and ft connection and the second decompressor There are low-temperature heat medium passage and ft connection, form first kind thermal drivers compression heat pump.

44. first kind thermal drivers compression heat pumps, are arbitrary first kind thermal drivers compression heat pumps described in 31-42 item In, cancel heater, cycle fluid be adjusted to heated medium, by heater have heated medium passage and ft connection with And compressor has cycle fluid passage through difference after heater again through regenerator and the second compressor and direct and the second expansion Machine connection is adjusted to compressor in the lump has heated medium passage and ft connection, outside to have heated medium passage through regenerator Connect with the second compressor and outside has heated medium passage to connect with the second decompressor, form first kind thermal drivers compression Heat pump.

45. first kind thermal drivers compression heat pumps, are arbitrary first kind thermal drivers compression heat pumps described in 31-42 item In, cancel high-temperature heat exchanger, cycle fluid is adjusted to high temperature thermal medium, high-temperature heat exchanger is had high temperature thermal medium passage There is cycle fluid passage to connect with decompressor through high-temperature heat exchanger with ft connection and the second compressor and be adjusted to outside in the lump There is high temperature thermal medium passage to connect with decompressor and the second compressor has high temperature thermal medium passage and ft connection, form the first kind Thermal drivers compression heat pump.

46. first kind thermal drivers compression heat pumps, be the 1st, 3-8,16, the described arbitrary first kind thermal drivers of 18-23 item In compression heat pump, increase by the 3rd compressor, low temperature heat exchanger is had cycle fluid passage to connect with compressor and is adjusted to low Temperature heat exchanger has cycle fluid passage to connect with the 3rd compressor, the 3rd compressor have again cycle fluid passage through heater with Compressor connects, and decompressor connects the 3rd compressor and transmits power, forms first kind thermal drivers compression heat pump.

47. first kind thermal drivers compression heat pumps, are arbitrary first kind thermal drivers compressions described in the 31st, 33-38 item In heat pump, increase by the 3rd compressor, low temperature heat exchanger is had cycle fluid passage to connect with compressor through regenerator and is adjusted to Low temperature heat exchanger has cycle fluid passage to connect with the 3rd compressor through regenerator, and the 3rd compressor has low-temperature heat medium to lead to again Road is connected with compressor through heater, and decompressor connects the 3rd compressor and transmits power, forms first kind thermal drivers compression Heat pump.

48. first kind thermal drivers compression heat pumps, are in the 13rd, 28 described arbitrary first kind thermal drivers compression heat pumps In, increase by the 3rd compressor, outside is had low-temperature heat medium passage to connect with compressor and is adjusted to outside and has low-temperature heat medium to lead to Road is connected with the 3rd compressor, and the 3rd compressor has low-temperature heat medium passage to connect with compressor through heater again, and decompressor is even Connect the 3rd compressor and transmit power, form first kind thermal drivers compression heat pump.

49. first kind thermal drivers compression heat pumps, are in 1-12,14-27,29-42,44-45 item described arbitrary first In class thermal drivers compression heat pump, increase by the 3rd decompressor, low temperature heat exchanger is had low-temperature heat medium passage and ft connection Being adjusted to outside has low-temperature heat medium passage to connect with the 3rd decompressor through low temperature heat exchanger, and the 3rd decompressor also has Low Temperature Thermal Medium channel and ft connection, the 3rd decompressor connects compressor and transmits power, forms first kind thermal drivers compression heat pump.

50. first kind thermal drivers compression heat pumps, are to drive in the described arbitrary first kind heat of 1-14,16-29,31-44 item In dynamic compression heat pump, increase by the second heater, high-temperature heat exchanger is had high temperature thermal medium passage and ft connection to be adjusted to After outside has high temperature thermal medium passage to be sequentially communicated high-temperature heat exchanger and the second heater, the second heater has high warm again Medium channel and ft connection, the second heater also has heated medium passage and ft connection, forms first kind thermal drivers pressure Contracting formula heat pump.

51. first kind thermal drivers compression heat pumps, be 1-12,14,16-27,29,31-42,44 described arbitrary In one class thermal drivers compression heat pump, increase by the second heater, cancel the low-temperature heat medium of low temperature heat exchanger and ft connection Passage, high-temperature heat exchanger is had high temperature thermal medium passage and ft connection to be adjusted to outside has high temperature thermal medium passage to connect successively After logical high-temperature heat exchanger, the second heater and low temperature heat exchanger, low temperature heat exchanger has high temperature thermal medium passage again with outward Portion connects, and the second heater also has heated medium passage and ft connection, forms first kind thermal drivers compression heat pump.

52. first kind thermal drivers compression heat pumps, are the arbitrary first kind thermal drivers compression type heats described in 1-51 item In pump, increase engine, engine connects compressor and provides power to compressor, forms additional external power-actuated first Class thermal drivers compression heat pump.

53. first kind thermal drivers compression heat pumps, are the arbitrary first kind thermal drivers compression type heats described in 1-51 item In pump, increase working machine, decompressor connects working machine and provides power to working machine, being formed to add externally provides living load First kind thermal drivers compression heat pump.

Brief description：

Fig. 1 is according to the 1st kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Fig. 2 is according to the 2nd kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Fig. 3 is according to the 3rd kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Fig. 4 is according to the 4th kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Fig. 5 is according to the 5th kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Fig. 6 is according to the 6th kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Fig. 7 is according to the 7th kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Fig. 8 is according to the 8th kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Fig. 9 is according to the 9th kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Figure 10 is according to the 10th kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Figure 11 is according to the 11st kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Figure 12 is according to the 12nd kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Figure 13 is according to the 13rd kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Figure 14 is according to the 14th kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Figure 15 is according to the 15th kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Figure 16 is according to the 16th kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Figure 17 is according to the 17th kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Figure 18 is according to the 18th kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Figure 19 is according to the 19th kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Figure 20 is according to the 20th kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Figure 21 is according to the 21st kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Figure 22 is according to the 22nd kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

Figure 23 is according to the 23rd kind of principled thermal system figure of first kind thermal drivers compression heat pump provided by the present invention.

In figure, 1- compressor, 2- second compressor, 3- decompressor, 4- second decompressor, 5- heater, 6- is high, and warm is handed over Parallel operation, 7- low temperature heat exchanger, 8- second low temperature heat exchanger, 9- regenerator, 10- the 3rd compressor, 11- the 3rd decompressor, 12- second heater；A- new compressor, the new boost expander of B-, C- increases low temperature heat exchanger newly, and D- increases regenerator newly, and E- is new Increase choke valve.

Specific embodiment：

First it is noted that in the statement of structure and flow process, inessential in the case of do not repeat；To apparent Flow process do not state.To describe the present invention with example in detail below in conjunction with the accompanying drawings.

The compression heat pump of first kind thermal drivers shown in Fig. 1 is realized in：

(1), in structure, it is mainly handed over by compressor, the second compressor, decompressor, the second decompressor, heater, high warm Parallel operation and low temperature heat exchanger are formed；Compressor 1 have cycle fluid passage through after heater 5 respectively with the second compressor 2 Connect with the second decompressor 4, the second compressor 2 also has cycle fluid passage to connect with decompressor 3 through high-temperature heat exchanger 6, swollen Swollen machine 3 also has cycle fluid passage to connect with low temperature heat exchanger 7, and the second decompressor 4 also has cycle fluid passage and Low Temperature Thermal Exchanger 7 connects, and low temperature heat exchanger 7 also has cycle fluid passage to connect with compressor 1, and heater 5 also has heated medium Passage and ft connection, high-temperature heat exchanger 6 also has high temperature thermal medium passage and ft connection, and low temperature heat exchanger 7 is also low Warm passage and ft connection, decompressor 3 and the second decompressor 4 connect compressor 1 and the second compressor 2 and transmit dynamic Power.

(2), in flow process, the cycle fluid of compressor 1 discharge flows through heater 5 heat release, respectively enters the second compression afterwards Machine 2 boosting rises gentle entrance the second decompressor 4 blood pressure lowering work done；The cycle fluid of the second compressor 2 discharge flows through high temperature heat exchange Device 6 simultaneously absorbs heat, and enters decompressor 3 blood pressure lowering work done afterwards；The cycle fluid of decompressor 3 and the second decompressor 4 discharge flows through low temperature Heat exchanger 7 simultaneously absorbs heat, and enters compressor 1 boosting afterwards and heats up；Heated medium passes through warm load in heater 5 acquisition, High temperature thermal medium passes through high-temperature heat exchanger 6 provides driving thermic load, and low-temperature heat medium provides low temperature by low temperature heat exchanger 7 Thermic load, the work(of decompressor 3 and the second decompressor 4 output is supplied to compressor 1 and the second compressor 2 is used as power, and forms first Class thermal drivers compression heat pump.

The compression heat pump of first kind thermal drivers shown in Fig. 2 is realized in：

(1), in structure, it is mainly handed over by compressor, the second compressor, decompressor, the second decompressor, heater, high warm Parallel operation, low temperature heat exchanger and the second low temperature heat exchanger are formed；Compressor 1 have cycle fluid passage through heater 5 after Connect with the second compressor 2 and the second decompressor 4 respectively, the second compressor 2 also has cycle fluid passage through high-temperature heat exchanger 6 Connect with decompressor 3, decompressor 3 also has cycle fluid passage to connect with compressor 1 through low temperature heat exchanger 7, the second decompressor 4 Also have cycle fluid passage connect with compressor 1 through the second low temperature heat exchanger 8, heater 5 also have heated medium passage and Ft connection, high-temperature heat exchanger 6 also has high temperature thermal medium passage and ft connection, low temperature heat exchanger 7 and the second Low Temperature Thermal Exchanger 8 also has low-temperature heat medium passage and ft connection, decompressor 3 and the second decompressor 4 to connect compressor 1 and second respectively Compressor 2 simultaneously transmits power.

(2), in flow process, the cycle fluid of compressor 1 discharge flows through heater 5 heat release, respectively enters the second compression afterwards Machine 2 boosting rises gentle entrance the second decompressor 4 blood pressure lowering work done；The cycle fluid of the second compressor 2 discharge flows through high temperature heat exchange Device 6 simultaneously absorbs heat, and enters decompressor 3 blood pressure lowering work done afterwards；The cycle fluid of decompressor 3 discharge flows through low temperature heat exchanger 7 and inhales Heat, enters compressor 1 boosting afterwards and heats up；The cycle fluid of the second decompressor 4 discharge flows through the second low temperature heat exchanger 8 and inhales Heat, enters compressor 1 boosting afterwards and heats up；Heated medium passes through warm load in heater 5 acquisition, and high temperature thermal medium passes through High-temperature heat exchanger 6 provides and drives thermic load, and low-temperature heat medium passes through low temperature heat exchanger 7 and the second low temperature heat exchanger 8 carries For low temperature thermic load, the work(of decompressor 3 and the second decompressor 4 output is supplied to compressor 1 and the second compressor 2 is used as power, shape Become first kind thermal drivers compression heat pump.

The compression heat pump of first kind thermal drivers shown in Fig. 3 is realized in：

(1), in structure, it is mainly handed over by compressor, the second compressor, decompressor, the second decompressor, heater, high warm Parallel operation, low temperature heat exchanger and the second low temperature heat exchanger are formed；Compressor 1 have cycle fluid passage through heater 5 after Connect with the second compressor 2 and the second decompressor 4 respectively, the second compressor 2 also has cycle fluid passage through high-temperature heat exchanger 6 Connect with decompressor 3, decompressor 3 also has cycle fluid passage to connect with low temperature heat exchanger 7, the second decompressor 4 also has circulation Working medium passage is connected with low temperature heat exchanger 7 through the second low temperature heat exchanger 8, and low temperature heat exchanger 7 also has cycle fluid passage Connect with compressor 1, heater 5 also has heated medium passage and ft connection, high-temperature heat exchanger 6 also has high temperature thermal medium Passage and ft connection, low temperature heat exchanger 7 and the second low temperature heat exchanger 8 also have low-temperature heat medium passage and outside to connect respectively Lead to, decompressor 3 and the second decompressor 4 connect compressor 1 and the second compressor 2 and transmit power.

(2), in flow process, the cycle fluid of compressor 1 discharge flows through heater 5 heat release, respectively enters the second compression afterwards Machine 2 boosting rises gentle entrance the second decompressor 4 blood pressure lowering work done；The cycle fluid of the second compressor 2 discharge flows through high temperature heat exchange Device 6 simultaneously absorbs heat, and enters decompressor 3 blood pressure lowering work done afterwards；The cycle fluid of decompressor 3 discharge flows through low temperature heat exchanger 7 and inhales Heat, enters compressor 1 boosting afterwards and heats up；The cycle fluid of the second decompressor 4 discharge flows through the second low temperature heat exchanger 8 successively With low temperature heat exchanger 7 and progressively absorb heat, enter compressor 1 boosting afterwards and heat up；Heated medium passes through in heater 5 acquisition Warm load, high temperature thermal medium passes through high-temperature heat exchanger 6 provides driving thermic load, and low-temperature heat medium passes through low temperature heat exchanger 7 and the second low temperature heat exchanger 8 provide low temperature thermic load, decompressor 3 and the second decompressor 4 output work(be supplied to compressor 1 It is used as power with the second compressor 2, form first kind thermal drivers compression heat pump.

The compression heat pump of first kind thermal drivers shown in Fig. 4 is realized in：

(1) in structure, in the compression heat pump of first kind thermal drivers shown in Fig. 1, cancel low temperature heat exchanger 7 and connect with outside Logical low-temperature heat medium passage, increases new compressor, new boost expander and newly-increased low temperature heat exchanger, and new compressor A has Cold cycle working medium passage is connected with low temperature heat exchanger 7, and low temperature heat exchanger 7 also has cold cycle working medium passage swollen with newly-increased Swollen machine B connection, new boost expander B also has cold cycle working medium passage through newly-increased low temperature heat exchanger C with new compressor A even Logical, it is newly-increased that newly-increased low temperature heat exchanger C also has low-temperature heat medium passage and ft connection, decompressor 3 and new boost expander B to connect Compressor A simultaneously transmits power.

(2), in flow process, the cold cycle working medium of new boost expander B discharge flows through newly-increased low temperature heat exchanger C and absorbs heat, it Enter the boosting of new compressor A afterwards to heat up；The cold cycle working medium of new compressor A discharge flows through low temperature heat exchanger 7 and puts Heat, enters new boost expander B blood pressure lowering work done afterwards；Heated medium passes through warm load in heater 5 acquisition, high temperature thermal medium There is provided by high-temperature heat exchanger 6 and drive thermic load, low-temperature heat medium provides Low Temperature Thermal to bear by newly-increased low temperature heat exchanger C Lotus, the work(of decompressor 3, the second decompressor 4 and new boost expander B output is supplied to compressor 1, the second compressor 2 and new supercharging Contracting machine A is used as power, and forms first kind thermal drivers compression heat pump.

The compression heat pump of first kind thermal drivers shown in Fig. 5 is realized in：

(1) in structure, in the compression heat pump of first kind thermal drivers shown in Fig. 1, cancel low temperature heat exchanger 7 and connect with outside Logical low-temperature heat medium passage, increases new compressor, new boost expander, newly-increased low temperature heat exchanger and newly-increased regenerator, newly Increasing compressor A has cold cycle working medium passage to connect with low temperature heat exchanger 7, and low temperature heat exchanger 7 also has cold cycle working medium Passage is connected with new boost expander B through newly-increased regenerator D, and new boost expander B also has cold cycle working medium passage through newly-increased low temperature Heat exchanger C is connected with new compressor A with newly-increased regenerator D, newly-increased low temperature heat exchanger C also have low-temperature heat medium passage with Ft connection, decompressor 3 and new boost expander B connect new compressor A and transmit power.

(2), in flow process, the cold cycle working medium of new boost expander B discharge flows through newly-increased low temperature heat exchanger C successively with newly Increase regenerator D and progressively absorb heat, enter the boosting of new compressor A afterwards and heat up；The cold cycle working medium of new compressor A discharge Flow through low temperature heat exchanger 7 and newly-increased regenerator D progressively heat release successively, enter new boost expander B blood pressure lowering work done afterwards；Added Thermal medium passes through warm load in heater 5 acquisition, and high temperature thermal medium passes through high-temperature heat exchanger 6 provides driving thermic load, low Warm provides low temperature thermic load, decompressor 3, the second decompressor 4 and new boost expander B by newly-increased low temperature heat exchanger C The work(of output is supplied to compressor 1, the second compressor 2 and new compressor A and is used as power, and forms first kind thermal drivers compression type heat Pump.

The compression heat pump of first kind thermal drivers shown in Fig. 6 is realized in：

(1) in structure, in the compression heat pump of first kind thermal drivers shown in Fig. 1, cancel low temperature heat exchanger 7 and connect with outside Logical low-temperature heat medium passage, increases new compressor and new boost expander, and there are low-temperature heat medium passage and newly-increased compression in outside Machine A connects, and new compressor A also has low-temperature heat medium passage to connect with low temperature heat exchanger 7, and low temperature heat exchanger 7 is also low Warm passage is connected with new boost expander B, and new boost expander B also has low-temperature heat medium passage and ft connection, decompressor 3 Connect new compressor A with new boost expander B and transmit power.

(2), in flow process, outer low temperature thermal medium enters the boosting of new compressor A and heats up, and flows through low temperature heat exchanger 7 and puts Heat, enters new boost expander B blood pressure lowering work done afterwards and externally discharges；Heated medium passes through warm load in heater 5 acquisition, High temperature thermal medium passes through high-temperature heat exchanger 6 provides driving thermic load, and low-temperature heat medium passes through turnover flow process provides Low Temperature Thermal to bear Lotus, the work(of decompressor 3, the second decompressor 4 and new boost expander B output is supplied to compressor 1, the second compressor 2 and new supercharging Contracting machine A is used as power, and forms first kind thermal drivers compression heat pump.

The compression heat pump of first kind thermal drivers shown in Fig. 7 is realized in：

(1) in structure, in the compression heat pump of first kind thermal drivers shown in Fig. 1, cancel low temperature heat exchanger 7 and connect with outside Logical low-temperature heat medium passage, increases new compressor, new boost expander and newly-increased regenerator, there is low-temperature heat medium passage outside Connect with new compressor A through newly-increased regenerator D, new compressor A also has low-temperature heat medium passage with low temperature heat exchanger 7 even Logical, low temperature heat exchanger 7 also has low-temperature heat medium passage to connect with new boost expander B through newly-increased regenerator D, new boost expander B Low-temperature heat medium passage and ft connection, decompressor 3 and new boost expander B is also had to connect new compressor A and transmit power.

(2) in flow process, outer low temperature thermal medium flows through newly-increased regenerator D and absorbs heat, and enters the boosting of new compressor A afterwards Heat up；The low-temperature heat medium of new compressor A discharge flows through low temperature heat exchanger 7 and newly-increased regenerator D progressively heat release successively, Enter new boost expander B blood pressure lowering work done afterwards and externally discharge；Heated medium passes through warm load in heater 5 acquisition, high Warm passes through high-temperature heat exchanger 6 provides driving thermic load, and low-temperature heat medium passes through turnover flow process provides low temperature thermic load, The work(of decompressor 3, the second decompressor 4 and new boost expander B output is supplied to compressor 1, the second compressor 2 and new compressor A is used as power, and forms first kind thermal drivers compression heat pump.

The compression heat pump of first kind thermal drivers shown in Fig. 8 is realized in：

(1) in structure, in the compression heat pump of first kind thermal drivers shown in Fig. 1, cancel low temperature heat exchanger 7 and connect with outside Logical low-temperature heat medium passage, increases new compressor, newly-increased low temperature heat exchanger and newly-increased choke valve, and new compressor A has Cold cycle working medium passage is connected with low temperature heat exchanger 7, and low temperature heat exchanger 7 also has cold cycle working medium passage through newly-increased section Stream valve E is connected with newly-increased low temperature heat exchanger C, and newly-increased low temperature heat exchanger C also has cold cycle working medium passage and newly-increased compression Machine A connects, and newly-increased low temperature heat exchanger C also has low-temperature heat medium passage and ft connection, and decompressor 3 connects new compressor A And transmit power.

(2), in flow process, the cold cycle working medium of new compressor A discharge enters low temperature heat exchanger 7 heat release and condenses, it Enter newly-increased low temperature heat exchanger C by newly-increased choke valve E throttling to absorb heat and vaporize, the low temperature of low temperature heat exchanger C release follows Ring working medium enters the boosting of new compressor A and heats up；Heated medium passes through warm load in heater 5 acquisition, high temperature thermal medium There is provided by high-temperature heat exchanger 6 and drive thermic load, low-temperature heat medium provides Low Temperature Thermal to bear by newly-increased low temperature heat exchanger C Lotus, the work(of decompressor 3 output is supplied to compressor 1, the second compressor 2 and new compressor A and is used as power, and forms first kind heat and drives Dynamic compression heat pump.

The compression heat pump of first kind thermal drivers shown in Fig. 9 is realized in：

(1) in structure, in the compression heat pump of first kind thermal drivers shown in Fig. 1, cycle fluid is adjusted to Low Temperature Thermal and is situated between Matter, cancels low temperature heat exchanger, and low temperature heat exchanger 7 is had low-temperature heat medium passage and ft connection, decompressor 3 to have circulation industrial Matter passage is connected with low temperature heat exchanger 7, the second decompressor 4 has cycle fluid passage to connect and low temperature with low temperature heat exchanger 7 Heat exchanger 7 has cycle fluid passage to connect with compressor 1 to be adjusted to outside in the lump and have low-temperature heat medium passage and compressor 1 even Logical, decompressor 3 has low-temperature heat medium passage and ft connection and the second decompressor 4 to have low-temperature heat medium passage and ft connection.

(2), in flow process, outer low temperature thermal medium enters compressor 1 boosting and heats up, and flows through heater 5 heat release, divides afterwards Become the two-way first via to enter the second compressor 2 boosting to heat up, the second road flows through the second decompressor 4 blood pressure lowering work done and externally arranges Put；The low-temperature heat medium of the second compressor 2 discharge flows through high-temperature heat exchanger 6 and absorbs heat, and flows through decompressor 3 blood pressure lowering work done afterwards And externally discharge；Heated medium passes through warm load in heater 5 acquisition, and high temperature thermal medium is carried by high-temperature heat exchanger 6 For driving thermic load, low-temperature heat medium passes through turnover flow process provides low temperature thermic load, decompressor 3 and the second decompressor 4 output Work(is supplied to compressor 1 and the second compressor 2 is used as power, and forms first kind thermal drivers compression heat pump.

The compression heat pump of first kind thermal drivers shown in Figure 10 is realized in：

(1) in structure, in the compression heat pump of first kind thermal drivers shown in Fig. 1, cancel heater, cycle fluid is adjusted For heated medium, heater 5 there are heated medium passage and ft connection and compressor 1 to have cycle fluid passage through supplying Connect with the second compressor 2 and the second decompressor 4 respectively after hot device 5 and be adjusted to compressor 1 in the lump and have heated medium passage Have with ft connection, outside that heated medium passage is connected with the second compressor 2 and there are heated medium passage and second in outside Decompressor 4 connects.

(2), in flow process, an outside road heated medium enters the second compressor 2 boosting and heats up, another road heated medium Enter the second decompressor 4 blood pressure lowering work done；The heated medium of the second compressor 2 discharge flows through high-temperature heat exchanger 6 and absorbs heat, it Enter decompressor 3 blood pressure lowering work done afterwards；The heated medium of decompressor 3 and the second decompressor 4 discharge flows through low temperature heat exchanger 7 simultaneously Heat absorption, flows through compressor 1 boosting afterwards and heats up and externally discharge；Heated medium passes through to pass in and out warm load during flow process obtains, High temperature thermal medium passes through high-temperature heat exchanger 6 provides driving thermic load, and low-temperature heat medium provides low temperature by low temperature heat exchanger 7 Thermic load, the work(of decompressor 3 and the second decompressor 4 output is supplied to compressor 1 and the second compressor 2 is used as power, and forms first Class thermal drivers compression heat pump.

The compression heat pump of first kind thermal drivers shown in Figure 11 is realized in：

(1) in structure, in the compression heat pump of first kind thermal drivers shown in Fig. 1, cancel high-temperature heat exchanger, by circulation industrial Matter is adjusted to high temperature thermal medium, and high-temperature heat exchanger 6 is had high temperature thermal medium passage to follow with ft connection and the second compressor 2 Ring working medium passage is connected with decompressor 3 through high-temperature heat exchanger 6 and is adjusted to outside in the lump and has high temperature thermal medium passage and decompressor 3 Connection and the second compressor 2 have high temperature thermal medium passage and ft connection.

(2) in flow process, external high temperature thermal medium enters decompressor 3 blood pressure lowering work done, and decompressor 3 and the second decompressor 4 discharge High temperature thermal medium flow through low temperature heat exchanger 7 and absorb heat, afterwards enter compressor 1 boosting heat up；The high temperature of compressor 1 discharge Thermal medium flows through heater 5 heat release, is divided into the two-way first via afterwards and flows through the second compressor 2 boosting intensification and externally arrange Put, the second tunnel enters the second decompressor 4 blood pressure lowering work done；Heated medium passes through warm load in heater 5 acquisition, and high warm is situated between Matter is passed through to pass in and out flow process offer driving thermic load, and low-temperature heat medium provides low temperature thermic load, decompressor by low temperature heat exchanger 7 3 and the work(of the second decompressor 4 output be supplied to compressor 1 and the second compressor 2 is used as power, form first kind thermal drivers compression Heat pump.

The compression heat pump of first kind thermal drivers shown in Figure 12 is realized in：

(1), in structure, it is mainly handed over by compressor, the second compressor, decompressor, the second decompressor, heater, high warm Parallel operation, low temperature heat exchanger and regenerator are formed；Compressor 1 has cycle fluid passage through after regenerator 9 and heater 5 point Do not connect with the second compressor 2 and the second decompressor 4, the second compressor 2 also has cycle fluid passage through regenerator 9 and high warm Exchanger 6 is connected with decompressor 3, and decompressor 3 also has cycle fluid passage to connect with low temperature heat exchanger 7, and the second decompressor 4 is also Cycle fluid passage is had to connect with low temperature heat exchanger 7, low temperature heat exchanger 7 also has cycle fluid passage to connect with compressor 1, Heater 5 also has heated medium passage and ft connection, and high-temperature heat exchanger 6 also has high temperature thermal medium passage to connect with outside Logical, low temperature heat exchanger 7 also has low-temperature heat medium passage and ft connection, decompressor 3 and the second decompressor 4 to connect compressor 1 With the second compressor 2 and transmit power.

(2), in flow process, the cycle fluid of compressor 1 discharge flows through heater 5 and regenerator 9 progressively heat release successively, it After respectively enter the second compressor 2 boosting and rise and gentle enter the second decompressor 4 blood pressure lowering work done；The circulation of the second compressor 2 discharge Working medium flows through regenerator 9 and high-temperature heat exchanger 6 successively and progressively absorbs heat, and enters decompressor 3 blood pressure lowering work done afterwards；Decompressor 3 Flow through low temperature heat exchanger 7 and absorb heat with the cycle fluid of the second decompressor 4 discharge, enter compressor 1 boosting afterwards and heat up；Quilt Heating medium passes through warm load in heater 5 acquisition, and high temperature thermal medium passes through high-temperature heat exchanger 6 offer and drives thermic load, Low-temperature heat medium provides low temperature thermic load by low temperature heat exchanger 7, and the work(of decompressor 3 and the second decompressor 4 output is supplied to Compressor 1 and the second compressor 2 are used as power, and form first kind thermal drivers compression heat pump.

The compression heat pump of first kind thermal drivers shown in Figure 13 is realized in：

(1) in structure, in the compression heat pump of first kind thermal drivers shown in Figure 12, cycle fluid is adjusted to Low Temperature Thermal and is situated between Matter, cancels low temperature heat exchanger, low temperature heat exchanger 7 is had low-temperature heat medium passage to also have with ft connection, decompressor 3 and circulates Working medium passage is connected with low temperature heat exchanger 7, the second decompressor 4 has cycle fluid passage to connect and low with low temperature heat exchanger 7 Temperature heat exchanger 7 has cycle fluid passage to connect with compressor 1 to be adjusted to outside in the lump and have low-temperature heat medium passage and compressor 1 Connection, decompressor 3 have low-temperature heat medium passage and ft connection and the second decompressor 4 to have low-temperature heat medium passage and outside to connect Logical.

(2) in flow process, outer low temperature thermal medium enter compressor 1 boosting heat up, flow through regenerator 9 and heater 5 and by Step heat release, is divided into the two-way first via afterwards and enters the second compressor 2 boosting intensification, the second road flows through the second decompressor 4 and drops Pressure work done is simultaneously externally discharged；The low-temperature heat medium of the second compressor 2 discharge flows through regenerator 9 and high-temperature heat exchanger 6 simultaneously successively Progressively absorb heat, flow through decompressor 3 blood pressure lowering work done afterwards and externally discharge；It is negative that heated medium passes through warm in heater 5 acquisition Lotus, high temperature thermal medium passes through high-temperature heat exchanger 6 provides driving thermic load, and low-temperature heat medium passes through turnover flow process provides Low Temperature Thermal Load, the work(of decompressor 3 and the second decompressor 4 output is supplied to compressor 1 and the second compressor 2 is used as power, and forms the first kind Thermal drivers compression heat pump.

The compression heat pump of first kind thermal drivers shown in Figure 14 is realized in：

(1) in structure, in the compression heat pump of first kind thermal drivers shown in Figure 12, cancel heater, cycle fluid is adjusted Whole for heated medium, heater 5 is had heated medium passage to have cycle fluid passage warp with ft connection and compressor 1 Connect with the second compressor 2 and the second decompressor 4 respectively after regenerator 9 and heater 5 to be adjusted to compressor 1 in the lump and have and added Hot media channel has heated medium passage to connect with the second compressor 2 through regenerator 9 and ft connection, outside and outside have by Heating medium passage is connected with the second decompressor 4.

(2), in flow process, an outside road heated medium enters the second compressor 2 boosting and heats up, another road heated medium Enter the second decompressor 4 blood pressure lowering work done；The heated medium of the second compressor 2 discharge flows through regenerator 9 successively and high warm is handed over Parallel operation 6 simultaneously progressively absorbs heat, and enters decompressor 3 blood pressure lowering work done afterwards；Decompressor 3 and the heated medium of the second decompressor 4 discharge Flow through low temperature heat exchanger 7 and absorb heat, flow through compressor 1 boosting afterwards and heat up；The heated medium of compressor 1 discharge flows through back Hot device 9 heat release, externally discharge afterwards；Heated medium passes through to pass in and out warm load during flow process obtains, and high temperature thermal medium passes through High-temperature heat exchanger 6 provides and drives thermic load, and low-temperature heat medium provides low temperature thermic load, decompressor 3 by low temperature heat exchanger 7 It is supplied to compressor 1 with the work(of the second decompressor 4 output and the second compressor 2 is used as power, form first kind thermal drivers compression Heat pump.

The compression heat pump of first kind thermal drivers shown in Figure 15 is realized in：

(1) in structure, in the compression heat pump of first kind thermal drivers shown in Figure 12, cancel high-temperature heat exchanger, will circulate Working medium is adjusted to high temperature thermal medium, and high-temperature heat exchanger 6 is had high temperature thermal medium passage to have with ft connection and the second compressor 2 Cycle fluid passage connect with decompressor 3 through regenerator 9 and high-temperature heat exchanger 6 be adjusted in the lump outside have high temperature thermal medium lead to Road is connected with decompressor 3 and the second compressor 2 has high temperature thermal medium passage through regenerator 9 and ft connection.

(2) in flow process, external high temperature thermal medium enters decompressor 3 blood pressure lowering work done, and decompressor 3 and the second decompressor 4 discharge High temperature thermal medium flow through low temperature heat exchanger 7 and absorb heat, afterwards enter compressor 1 boosting heat up；The high temperature of compressor 1 discharge Thermal medium flows through regenerator 9 and heater 5 progressively heat release successively, is divided into the two-way first via afterwards and flows through the second compressor 2 boostings heat up and externally discharge through after regenerator 9 heat absorption, and the second tunnel enters the second decompressor 4 blood pressure lowering work done；Heated Jie Matter passes through warm load in heater 5 acquisition, and high temperature thermal medium passes through turnover flow process offer and drives thermic load, and low-temperature heat medium leads to Crossing low temperature heat exchanger 7 provides low temperature thermic load, and the work(of decompressor 3 and the second decompressor 4 output is supplied to compressor 1 and second Compressor 2 is used as power, and forms first kind thermal drivers compression heat pump.

The compression heat pump of first kind thermal drivers shown in Figure 16 is realized in：

(1), in structure, it is mainly handed over by compressor, the second compressor, decompressor, the second decompressor, heater, high warm Parallel operation, low temperature heat exchanger and regenerator are formed；Compressor 1 has cycle fluid passage through difference after heater 5 again through returning Hot device 9 is connected with the second compressor 2 and direct second decompressor 4 connects, and the second compressor 2 also has cycle fluid passage through high temperature Heat exchanger 6 is connected with decompressor 3, and decompressor 3 also has cycle fluid passage to connect with low temperature heat exchanger 7, the second decompressor 4 Also have cycle fluid passage to connect with low temperature heat exchanger 7, low temperature heat exchanger 7 also have cycle fluid passage through regenerator 9 and Compressor 1 connects, and heater 5 also has heated medium passage and ft connection, and high-temperature heat exchanger 6 also has high temperature thermal medium to lead to Road and ft connection, low temperature heat exchanger 7 also has low-temperature heat medium passage and ft connection, decompressor 3 and the second decompressor 4 even Connect compressor 1 and the second compressor 2 and transmit power.

(2), in flow process, the cycle fluid of compressor 1 discharge flows through heater 5 heat release, is divided into two-way first afterwards Road enters the second compressor 2 boosting and heats up after flowing through regenerator 9 heat absorption, Equations of The Second Kind enters the second decompressor 4 blood pressure lowering work done；The The cycle fluid of two compressor 2 discharge flows through high-temperature heat exchanger 6 and absorbs heat, and enters decompressor 3 blood pressure lowering work done afterwards；Decompressor 3 and the second decompressor 4 discharge cycle fluid flow through low temperature heat exchanger 7 and regenerator 9 successively and progressively absorb heat, enter afterwards Compressor 1 boosting heats up；Heated medium passes through warm load in heater 5 acquisition, and high temperature thermal medium passes through high temperature heat exchange Device 6 provides and drives thermic load, and low-temperature heat medium provides low temperature thermic load, decompressor 3 and the second expansion by low temperature heat exchanger 7 The work(of machine 4 output is supplied to compressor 1 and the second compressor 2 is used as power, and forms first kind thermal drivers compression heat pump.

The compression heat pump of first kind thermal drivers shown in Figure 17 is realized in：

(1) in structure, in the compression heat pump of first kind thermal drivers shown in Figure 16, cycle fluid is adjusted to Low Temperature Thermal and is situated between Matter, cancels low temperature heat exchanger, and low temperature heat exchanger 7 is had low-temperature heat medium passage and ft connection, decompressor 3 to have circulation industrial Matter passage is connected with low temperature heat exchanger 7, the second decompressor 4 has cycle fluid passage to connect and low temperature with low temperature heat exchanger 7 Heat exchanger 7 has cycle fluid passage to connect with compressor 1 through regenerator 9 to be adjusted to outside in the lump and have low-temperature heat medium passage warp Regenerator 9 is connected with compressor 1, decompressor 3 has low-temperature heat medium passage and ft connection and the second decompressor 4 has Low Temperature Thermal to be situated between Matter passage and ft connection.

(2) in flow process, outer low temperature thermal medium flows through regenerator 9 successively and absorbs heat, and flows through compressor 1 boosting and heats up, flows through Heater 5 heat release, are divided into afterwards after the two-way first via flows through regenerator 9 heat release and enter the second compressor 2 boosting liter Temperature, the second road flows through the second decompressor 4 blood pressure lowering work done and externally discharges；The low-temperature heat medium of the second compressor 2 discharge flows through height Temperature heat exchanger 6 simultaneously absorbs heat, and flows through decompressor 3 blood pressure lowering work done afterwards and externally discharges；Heated medium is obtained by heater 5 Middle warm load, high temperature thermal medium passes through high-temperature heat exchanger 6 provides driving thermic load, and low-temperature heat medium is carried by passing in and out flow process For low temperature thermic load, the work(of decompressor 3 and the second decompressor 4 output is supplied to compressor 1 and the second compressor 2 is used as power, shape Become first kind thermal drivers compression heat pump.

The compression heat pump of first kind thermal drivers shown in Figure 18 is realized in：

(1) in structure, in the compression heat pump of first kind thermal drivers shown in Figure 16, cancel heater, cycle fluid is adjusted Whole for heated medium, heater 5 is had heated medium passage to have cycle fluid passage warp with ft connection and compressor 1 It is adjusted to compression through regenerator 9 in the lump with the second compressor 2 and direct connection with the second decompressor 4 more respectively after heater 5 Machine 1 has heated medium passage to have heated medium passage to connect with the second compressor 2 through regenerator 9 with ft connection, outside Heated medium passage is had to connect with the second decompressor 4 with outside.

(2), in flow process, an outside road heated medium enters the second compressor 2 boosting and rises after flowing through regenerator 9 heat release Temperature, another road heated medium enters the second decompressor 4 blood pressure lowering work done；The heated medium of the second compressor 2 discharge flows through height Temperature heat exchanger 6 simultaneously absorbs heat, and enters decompressor 3 blood pressure lowering work done afterwards；Decompressor 3 and heated Jie of the second decompressor 4 discharge Matter flows through low temperature heat exchanger 7 and regenerator 9 successively and progressively absorbs heat, and flows through compressor 1 boosting afterwards and heats up and externally discharge； Heated medium passes through to pass in and out warm load during flow process obtains, and high temperature thermal medium passes through high-temperature heat exchanger 6 offer and drives heat negative Lotus, low-temperature heat medium provides low temperature thermic load by low temperature heat exchanger 7, and the work(of decompressor 3 and the second decompressor 4 output provides It is used as power to compressor 1 and the second compressor 2, form first kind thermal drivers compression heat pump.

The compression heat pump of first kind thermal drivers shown in Figure 19 is realized in：

(1) in structure, in the compression heat pump of first kind thermal drivers shown in Figure 16, cancel high-temperature heat exchanger, will circulate Working medium is adjusted to high temperature thermal medium, and high-temperature heat exchanger 6 is had high temperature thermal medium passage to have with ft connection and the second compressor 2 Cycle fluid passage is connected with decompressor 3 through high-temperature heat exchanger 6 and is adjusted to outside in the lump and has high temperature thermal medium passage and expansion Machine 3 connection and the second compressor 2 have high temperature thermal medium passage and ft connection.

(2) in flow process, external high temperature thermal medium enters decompressor 3 blood pressure lowering work done, and decompressor 3 and the second decompressor 4 discharge High temperature thermal medium flow through low temperature heat exchanger 7 and regenerator 9 successively and progressively absorb heat, afterwards enter compressor 1 boosting heat up； The high temperature thermal medium of compressor 1 discharge flows through heater 5 heat release, is divided into the two-way first via afterwards and flows through regenerator 9 and puts Flow through the second compressor 2 boosting after heat to heat up and externally discharge, the second tunnel enters the second decompressor 4 blood pressure lowering work done；Heated Medium passes through warm load in heater 5 acquisition, and high temperature thermal medium passes through turnover flow process offer and drives thermic load, low-temperature heat medium There is provided low temperature thermic load by low temperature heat exchanger 7, the work(of decompressor 3 and the second decompressor 4 output is supplied to compressor 1 and the Two compressors 2 are used as power, and form first kind thermal drivers compression heat pump.

The compression heat pump of first kind thermal drivers shown in Figure 20 is realized in：

In the compression heat pump of first kind thermal drivers shown in Fig. 1, increase by the 3rd compressor, low temperature heat exchanger 7 is followed Ring working medium passage is connected with compressor 1 and is adjusted to low temperature heat exchanger 7 and has cycle fluid passage to be connected with the 3rd compressor 10, and Three compressors 10 have cycle fluid passage to connect with compressor 1 through heater 5 again, and decompressor 3 connects the 3rd compressor 10 and passes Defeated power；The cycle fluid of low temperature heat exchanger 7 release enters the 3rd compressor 10 boosting and heats up, and flows through heater 5 heat release, Enter compressor 1 boosting afterwards to heat up；Decompressor 3 provides power for the 3rd compressor 10, forms first kind thermal drivers compression Heat pump.

The compression heat pump of first kind thermal drivers shown in Figure 21 is realized in：

In the compression heat pump of first kind thermal drivers shown in Fig. 1, increase by the 3rd decompressor, low temperature heat exchanger 5 is had low Warm passage and ft connection are adjusted to outside has low-temperature heat medium passage through low temperature heat exchanger 7 and the 3rd decompressor 11 Connection, the 3rd decompressor 11 also has low-temperature heat medium passage and ft connection, and the 3rd decompressor 11 connects compressor 1 and transmits dynamic Power；Low-temperature heat medium flows through low temperature heat exchanger 7 heat release, flows through the 3rd decompressor 11 blood pressure lowering work done afterwards and externally discharges； The work(of the 3rd decompressor 11 output is supplied to compressor 1 and is used as power, and forms first kind thermal drivers compression heat pump.

The compression heat pump of first kind thermal drivers shown in Figure 22 is realized in：

In the compression heat pump of first kind thermal drivers shown in Fig. 1, increase by the second heater, high-temperature heat exchanger 6 is had height Warm passage and ft connection are adjusted to outside has high temperature thermal medium passage to be sequentially communicated high-temperature heat exchanger 6 and the second confession After hot device 12, the second heater 12 has high temperature thermal medium passage and ft connection again, and the second heater 12 also has heated medium Passage and ft connection,；High temperature thermal medium flows through high-temperature heat exchanger 6 and the second heater 12 progressively heat release successively, afterwards Externally discharge, form first kind thermal drivers compression heat pump.

The compression heat pump of first kind thermal drivers shown in Figure 23 is realized in：

In the compression heat pump of first kind thermal drivers shown in Fig. 1, increase by the second heater, cancel low temperature heat exchanger 7 with The low-temperature heat medium passage of ft connection, high-temperature heat exchanger 6 is had high temperature thermal medium passage and ft connection to be adjusted to outside After having high temperature thermal medium passage to be sequentially communicated high-temperature heat exchanger 6, the second heater 12 and low temperature heat exchanger 7, Low Temperature Thermal is handed over Parallel operation 7 has high temperature thermal medium passage and ft connection again, and the second heater 12 also has heated medium passage and ft connection,； High temperature thermal medium flows through high-temperature heat exchanger 6, the second heater 12 and low temperature heat exchanger 7 progressively heat release successively, right afterwards Outer discharge, forms first kind thermal drivers compression heat pump.

Effect that the technology of the present invention can be realized first kind thermal drivers compression heat pump proposed by the invention, has Following effect and advantage：

(1) new approaches and the new technique of temperature difference utilization are proposed.

(2) heat energy (temperature difference) drives, and realizes heat supply/refrigeration, or may be selected externally to provide power simultaneously.

(3) flow process rationally, is capable of the abundant of heat energy (temperature difference) and efficient utilization.

(4) flexibly realize temperature difference efficient utilization between high warm load and middle warm load, and expand low temperature thermic load temperature Degree scope.

(5) if necessary, realize heat supply/refrigeration by external impetus, flexibly, adaptability is good for mode.

(6) with compressor, decompressor and heat exchanger for compression heat pump building block, structure is simple.

(7) single working medium completes compound thermodynamic cycle, and operating cost is low.

(8) working medium wide accommodation, can be well adapted for heat supply/refrigeration demand, and working medium mates spirit with running parameter Live.

(9) provide multiple concrete technical schemes, cope with numerous different actual states, have the wider scope of application.

(10) extend heat pump techniques, enrich the type of compression heat pump, be conducive to heat energy efficient is better achieved Using.

Claims (53)

1. first kind thermal drivers compression heat pump, mainly by compressor, the second compressor, decompressor, the second decompressor, heat supply Device, high-temperature heat exchanger and low temperature heat exchanger are formed；Compressor (1) has cycle fluid passage through after heater (5) point Do not connect with the second compressor (2) and the second decompressor (4), the second compressor (2) also has cycle fluid passage to hand over through high warm Parallel operation (6) is connected with decompressor (3), and decompressor (3) also has cycle fluid passage to connect with low temperature heat exchanger (7), and second is swollen Swollen machine (4) also has cycle fluid passage to connect with low temperature heat exchanger (7), and low temperature heat exchanger (7) also has cycle fluid passage Connect with compressor (1), heater (5) also has heated medium passage and ft connection, high-temperature heat exchanger (6) also has high temperature Hot media channel and ft connection, low temperature heat exchanger (7) also have low-temperature heat medium passage and ft connection, decompressor (3) and Second decompressor (4) connects compressor (1) and the second compressor (2) and transmits power, forms first kind thermal drivers compression type heat Pump.

2. first kind thermal drivers compression heat pump, mainly by compressor, the second compressor, decompressor, the second decompressor, heat supply Device, high-temperature heat exchanger, low temperature heat exchanger and the second low temperature heat exchanger are formed；Compressor (1) has cycle fluid passage Connect with the second compressor (2) and the second decompressor (4) respectively through after heater (5), the second compressor (2) also has circulation industrial Matter passage is connected with decompressor (3) through high-temperature heat exchanger (6), and decompressor (3) also has cycle fluid passage through low temperature heat exchange Device (7) is connected with compressor (1), and the second decompressor (4) also has cycle fluid passage through the second low temperature heat exchanger (8) and compression Machine (1) connects, and heater (5) also has heated medium passage and ft connection, and high-temperature heat exchanger (6) also has high temperature thermal medium Passage and ft connection, low temperature heat exchanger (7) and the second low temperature heat exchanger (8) also have low-temperature heat medium passage respectively with outward Portion connects, and decompressor (3) and the second decompressor (4) connect compressor (1) and the second compressor (2) and transmit power, formation the One class thermal drivers compression heat pump.

3. first kind thermal drivers compression heat pump, mainly by compressor, the second compressor, decompressor, the second decompressor, heat supply Device, high-temperature heat exchanger, low temperature heat exchanger and the second low temperature heat exchanger are formed；Compressor (1) has cycle fluid passage Connect with the second compressor (2) and the second decompressor (4) respectively through after heater (5), the second compressor (2) also has circulation industrial Matter passage is connected with decompressor (3) through high-temperature heat exchanger (6), and decompressor (3) also has cycle fluid passage and low temperature heat exchange Device (7) connects, and the second decompressor (4) also has cycle fluid passage through the second low temperature heat exchanger (8) and low temperature heat exchanger (7) Connection, low temperature heat exchanger (7) also has cycle fluid passage to connect with compressor (1), and heater (5) also has heated medium to lead to Road and ft connection, high-temperature heat exchanger (6) also has high temperature thermal medium passage and ft connection, low temperature heat exchanger (7) and the Two low temperature heat exchangers (8) also have low-temperature heat medium passage and ft connection, decompressor (3) and the second decompressor (4) even respectively Connect compressor (1) and the second compressor (2) and transmit power, form first kind thermal drivers compression heat pump.

4. first kind thermal drivers compression heat pump, is in first kind thermal drivers compression heat pump described in claim 1, cancel or Retain the low-temperature heat medium passage of low temperature heat exchanger (7) and ft connection, increase new compressor, new boost expander and increase newly Low temperature heat exchanger, new compressor (A) has cold cycle working medium passage to connect with low temperature heat exchanger (7), low temperature heat exchange Device (7) also has cold cycle working medium passage to connect with new boost expander (B), and new boost expander (B) also has cold cycle working medium to lead to Road is connected with new compressor (A) through newly-increased low temperature heat exchanger (C), and newly-increased low temperature heat exchanger (C) also has low-temperature heat medium Passage and ft connection, decompressor (3) and new boost expander (B) connect new compressor (A) and transmit power, form the first kind Thermal drivers compression heat pump.

5. first kind thermal drivers compression heat pump, is in first kind thermal drivers compression heat pump described in claim 1, cancel or Retain the low-temperature heat medium passage of low temperature heat exchanger (7) and ft connection, increase new compressor, new boost expander, increase newly Low temperature heat exchanger and newly-increased regenerator, new compressor (A) has cold cycle working medium passage with low temperature heat exchanger (7) even Logical, low temperature heat exchanger (7) also has cold cycle working medium passage to connect with new boost expander (B) through newly-increased regenerator (D), increases newly Decompressor (B) also has cold cycle working medium passage through newly-increased low temperature heat exchanger (C) and newly-increased regenerator (D) and new compressor (A) connect, newly-increased low temperature heat exchanger (C) also has low-temperature heat medium passage and ft connection, decompressor (3) and new boost expander (B) connect new compressor (A) and transmit power, form first kind thermal drivers compression heat pump.

6. first kind thermal drivers compression heat pump, is in first kind thermal drivers compression heat pump described in claim 1, cancel or Retain the low-temperature heat medium passage of low temperature heat exchanger (7) and ft connection, increase new compressor and new boost expander, outside Low-temperature heat medium passage is had to connect with new compressor (A), new compressor (A) also has low-temperature heat medium passage to hand over Low Temperature Thermal Parallel operation (7) connects, and low temperature heat exchanger (7) also has low-temperature heat medium passage to connect with new boost expander (B), new boost expander (B) low-temperature heat medium passage and ft connection, decompressor (3) and new boost expander (B) is also had to connect new compressor (A) and pass Defeated power, forms first kind thermal drivers compression heat pump.

7. first kind thermal drivers compression heat pump, is in first kind thermal drivers compression heat pump described in claim 1, cancel or Retain the low-temperature heat medium passage of low temperature heat exchanger (7) and ft connection, increase new compressor, new boost expander and increase newly Regenerator, outside has low-temperature heat medium passage to connect with new compressor (A) through newly-increased regenerator (D), and new compressor (A) is also Low-temperature heat medium passage is had to connect with low temperature heat exchanger (7), low temperature heat exchanger (7) also has low-temperature heat medium passage through newly-increased Regenerator (D) is connected with new boost expander (B), and new boost expander (B) also has low-temperature heat medium passage and ft connection, decompressor (3) connect new compressor (A) and transmit power with new boost expander (B), form first kind thermal drivers compression heat pump.

8. first kind thermal drivers compression heat pump, is in first kind thermal drivers compression heat pump described in claim 1, cancel or Retain the low-temperature heat medium passage of low temperature heat exchanger (7) and ft connection, increase new compressor, newly-increased low temperature heat exchanger With newly-increased choke valve, new compressor (A) has cold cycle working medium passage to connect with low temperature heat exchanger (7), low temperature heat exchange Device (7) also has cold cycle working medium passage to connect with newly-increased low temperature heat exchanger (C) through newly-increased choke valve (E), newly-increased Low Temperature Thermal Exchanger (C) also has cold cycle working medium passage to connect with new compressor (A), and newly-increased low temperature heat exchanger (C) also has low temperature Hot media channel and ft connection, decompressor (3) connects new compressor (A) and transmits power, forms first kind thermal drivers pressure Contracting formula heat pump.

9. first kind thermal drivers compression heat pump, is in first kind thermal drivers compression heat pump arbitrary described in claim 2-3, Cancel or retain low temperature heat exchanger (7) and the second low temperature heat exchanger (8) low-temperature heat medium passage with ft connection respectively, Increase new compressor, new boost expander and newly-increased low temperature heat exchanger, new compressor (A) have cold cycle working medium passage according to Secondary connect with new boost expander (B) with the second low temperature heat exchanger (8) through low temperature heat exchanger (7), new boost expander (B) also have Cold cycle working medium passage is connected with new compressor (A) through newly-increased low temperature heat exchanger (C), newly-increased low temperature heat exchanger (C) Low-temperature heat medium passage and ft connection, decompressor (3) and new boost expander (B) is also had to connect new compressor (A) and transmit Power, forms first kind thermal drivers compression heat pump.

10. first kind thermal drivers compression heat pump, is to want in arbitrary first kind thermal drivers compression heat pump described in 2-3 in right, Cancel or retain low temperature heat exchanger (7) and the second low temperature heat exchanger (8) low-temperature heat medium passage with ft connection respectively, Increase new compressor, new boost expander, newly-increased low temperature heat exchanger and newly-increased regenerator, new compressor (A) has low temperature to follow Ring working medium passage is expanded with newly-increased through low temperature heat exchanger (7), the second low temperature heat exchanger (8) and newly-increased regenerator (D) successively Machine (B) connects, and new boost expander (B) also has cold cycle working medium passage through newly-increased low temperature heat exchanger (C) and newly-increased regenerator (D) connect with new compressor (A), newly-increased low temperature heat exchanger (C) also has low-temperature heat medium passage and ft connection, decompressor (3) connect new compressor (A) and transmit power with new boost expander (B), form first kind thermal drivers compression heat pump.

11. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump arbitrary described in claim 2-3 In, cancel or retain low temperature heat exchanger (7) and the second low temperature heat exchanger (8) is led to the low-temperature heat medium of ft connection respectively Road, increases new compressor and new boost expander, and outside has low-temperature heat medium passage to connect with new compressor (A), new supercharging Contracting machine (A) also has low-temperature heat medium passage to expand with newly-increased through low temperature heat exchanger (7) and the second low temperature heat exchanger (8) successively Machine (B) connects, and new boost expander (B) also has low-temperature heat medium passage and ft connection, and newly-increased low temperature heat exchanger (C) is also low Warm passage and ft connection, decompressor (3) and new boost expander (B) connect new compressor (A) and transmit power, shape Become first kind thermal drivers compression heat pump.

12. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump arbitrary described in claim 2-3 In, cancel or retain low temperature heat exchanger (7) and the second low temperature heat exchanger (8) is led to the low-temperature heat medium of ft connection respectively Road, increases new compressor, new boost expander and newly-increased regenerator, and there is low-temperature heat medium passage outside through newly-increased regenerator (D) Connect with new compressor (A), new compressor (A) also have low-temperature heat medium passage successively through low temperature heat exchanger (7), second Low temperature heat exchanger (8) is connected with new boost expander (B) with newly-increased regenerator (D), and new boost expander (B) also has low-temperature heat medium Passage and ft connection, newly-increased low temperature heat exchanger (C) also has low-temperature heat medium passage and ft connection, decompressor (3) and newly Boost expander (B) connects new compressor (A) and transmits power, forms first kind thermal drivers compression heat pump.

13. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump described in claim 1, will follow Ring working medium is adjusted to low-temperature heat medium, cancels low temperature heat exchanger, and low temperature heat exchanger (7) is had low-temperature heat medium passage with outward Portion's connection, decompressor (3) have cycle fluid passage to connect with low temperature heat exchanger (7), the second decompressor (4) has cycle fluid to lead to Road is connected with low temperature heat exchanger (7) and low temperature heat exchanger (7) has cycle fluid passage to connect with compressor (1) to adjust in the lump Low-temperature heat medium passage is had to connect with compressor (1) for outside, decompressor (3) has low-temperature heat medium passage and ft connection and Two decompressors (4) have low-temperature heat medium passage and ft connection, form first kind thermal drivers compression heat pump.

14. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump arbitrary described in claim 1-12 In, cancel heater, cycle fluid is adjusted to heated medium, heater (5) is had heated medium passage and outside to connect Pass to and compressor (1) have cycle fluid passage through after heater (5) respectively with the second compressor (2) and the second decompressor (4) connection is adjusted to compressor (1) in the lump has heated medium passage and ft connection, outside to have heated medium passage and the Two compressors (2) connection has heated medium passage to connect with the second decompressor (4) with outside, forms the compression of first kind thermal drivers Formula heat pump.

15. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump arbitrary described in claim 1-12 In, cancel high-temperature heat exchanger, cycle fluid is adjusted to high temperature thermal medium, high-temperature heat exchanger (6) is had high temperature thermal medium Passage has cycle fluid passage to connect one through high-temperature heat exchanger (6) with decompressor (3) with ft connection and the second compressor (2) And be adjusted to outside have high temperature thermal medium passage to connect with decompressor (3) and the second compressor (2) have high temperature thermal medium passage with Ft connection, forms first kind thermal drivers compression heat pump.

16. first kind thermal drivers compression heat pumps, mainly by compressor, the second compressor, decompressor, the second decompressor, heat supply Device, high-temperature heat exchanger, low temperature heat exchanger and regenerator are formed；Compressor (1) has cycle fluid passage through regenerator (9) Connect with the second compressor (2) and the second decompressor (4) respectively with after heater (5), the second compressor (2) also has circulation industrial Matter passage is connected with decompressor (3) with high-temperature heat exchanger (6) through regenerator (9), decompressor (3) also have cycle fluid passage with Low temperature heat exchanger (7) connects, and the second decompressor (4) also has cycle fluid passage to connect with low temperature heat exchanger (7), Low Temperature Thermal Exchanger (7) also has cycle fluid passage to connect with compressor (1), and heater (5) also has heated medium passage to connect with outside Logical, high-temperature heat exchanger (6) also has high temperature thermal medium passage and ft connection, and low temperature heat exchanger (7) also has low-temperature heat medium Passage and ft connection, decompressor (3) and the second decompressor (4) connect compressor (1) and the second compressor (2) and transmit dynamic Power, forms first kind thermal drivers compression heat pump.

17. first kind thermal drivers compression heat pumps, mainly by compressor, the second compressor, decompressor, the second decompressor, heat supply Device, high-temperature heat exchanger, low temperature heat exchanger, the second low temperature heat exchanger and regenerator are formed；Compressor (1) has circulation industrial Matter passage is connected with the second compressor (2) and the second decompressor (4) with heater (5) afterwards respectively through regenerator (9), the second pressure Contracting machine (2) also has cycle fluid passage to connect with decompressor (3) with high-temperature heat exchanger (6) through regenerator (9), decompressor (3) Cycle fluid passage is also had to connect with compressor (1) through low temperature heat exchanger (7), the second decompressor (4) also has cycle fluid to lead to Road second low temperature heat exchanger (8) is connected with compressor (1), and heater (5) also has heated medium passage and ft connection, High-temperature heat exchanger (6) also has high temperature thermal medium passage and ft connection, low temperature heat exchanger (7) and the second low temperature heat exchanger (8) also there are low-temperature heat medium passage and ft connection respectively, decompressor (3) and the second decompressor (4) connect compressor (1) and the Two compressors (2) simultaneously transmit power, form first kind thermal drivers compression heat pump.

18. first kind thermal drivers compression heat pumps, mainly by compressor, the second compressor, decompressor, the second decompressor, heat supply Device, high-temperature heat exchanger, low temperature heat exchanger, the second low temperature heat exchanger and regenerator are formed；Compressor (1) has circulation industrial Matter passage is connected with the second compressor (2) and the second decompressor (4) with heater (5) afterwards respectively through regenerator (9), the second pressure Contracting machine (2) also has cycle fluid passage to connect with decompressor (3) with high-temperature heat exchanger (6) through regenerator (9), decompressor (3) Cycle fluid passage is also had to connect with low temperature heat exchanger (7), the second decompressor (4) also has cycle fluid passage through the second low temperature Heat exchanger (8) is connected with low temperature heat exchanger (7), and low temperature heat exchanger (7) also has cycle fluid passage with compressor (1) even Logical, heater (5) also has heated medium passage and ft connection, high-temperature heat exchanger (6) also have high temperature thermal medium passage with Ft connection, low temperature heat exchanger (7) and the second low temperature heat exchanger (8) also have low-temperature heat medium passage and outside to connect respectively Lead to, decompressor (3) and the second decompressor (4) connect compressor (1) and the second compressor (2) and transmit power, form the first kind Thermal drivers compression heat pump.

19. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump described in claim 16, cancel Or retain low temperature heat exchanger (7) and the low-temperature heat medium passage of ft connection, increase new compressor, new boost expander and new Increase low temperature heat exchanger, new compressor (A) has cold cycle working medium passage to connect with low temperature heat exchanger (7), Low Temperature Thermal is handed over Parallel operation (7) also has cold cycle working medium passage to connect with new boost expander (B), and new boost expander (B) also has cold cycle working medium Passage is connected with new compressor (A) through newly-increased low temperature heat exchanger (C), and newly-increased low temperature heat exchanger (C) also has Low Temperature Thermal to be situated between Matter passage and ft connection, decompressor (3) and new boost expander (B) connect new compressor (A) and transmit power, form first Class thermal drivers compression heat pump.

20. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump described in claim 16, cancel Or retain low temperature heat exchanger (7) and the low-temperature heat medium passage of ft connection, increase new compressor, new boost expander, new Increase low temperature heat exchanger and newly-increased regenerator, new compressor (A) has cold cycle working medium passage with low temperature heat exchanger (7) even Logical, low temperature heat exchanger (7) also has cold cycle working medium passage to connect with new boost expander (B) through newly-increased regenerator (D), increases newly Decompressor (B) also has cold cycle working medium passage through newly-increased low temperature heat exchanger (C) and newly-increased regenerator (D) and new compressor (A) connect, newly-increased low temperature heat exchanger (C) also has low-temperature heat medium passage and ft connection, decompressor (3) and new boost expander (B) connect new compressor (A) and transmit power, form first kind thermal drivers compression heat pump.

21. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump described in claim 16, cancel Or reservation low temperature heat exchanger (7) and the low-temperature heat medium passage of ft connection, increase new compressor and new boost expander, outward Portion has low-temperature heat medium passage to connect with new compressor (A), and new compressor (A) also has low-temperature heat medium passage and Low Temperature Thermal Exchanger (7) connects, and low temperature heat exchanger (7) also has low-temperature heat medium passage to connect with new boost expander (B), new boost expander (B) low-temperature heat medium passage and ft connection, decompressor (3) and new boost expander (B) is also had to connect new compressor (A) and pass Defeated power, forms first kind thermal drivers compression heat pump.

22. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump described in claim 16, cancel Or retain low temperature heat exchanger (7) and the low-temperature heat medium passage of ft connection, increase new compressor, new boost expander and new Increase regenerator, outside has low-temperature heat medium passage to connect with new compressor (A) through newly-increased regenerator (D), new compressor (A) Low-temperature heat medium passage is also had to connect with low temperature heat exchanger (7), low temperature heat exchanger (7) also has low-temperature heat medium passage through new Increase regenerator (D) to connect with new boost expander (B), new boost expander (B) also has low-temperature heat medium passage and ft connection, expand Machine (3) and new boost expander (B) connect new compressor (A) and transmit power, form first kind thermal drivers compression heat pump.

23. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump described in claim 16, cancel Or reservation low temperature heat exchanger (7) and the low-temperature heat medium passage of ft connection, increase new compressor, newly-increased low temperature heat exchange Device and newly-increased choke valve, new compressor (A) has cold cycle working medium passage to connect with low temperature heat exchanger (7), and Low Temperature Thermal is handed over Parallel operation (7) also has cold cycle working medium passage to connect with newly-increased low temperature heat exchanger (C) through newly-increased choke valve (E), newly-increased low temperature Heat exchanger (C) also has cold cycle working medium passage to connect with new compressor (A), and newly-increased low temperature heat exchanger (C) is also low Warm passage and ft connection, decompressor (3) connects new compressor (A) and transmits power, forms first kind thermal drivers Compression heat pump.

24. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump arbitrary described in claim 17-18 In, cancel or retain low temperature heat exchanger (7) and the second low temperature heat exchanger (8) is led to the low-temperature heat medium of ft connection respectively Road, increases new compressor, new boost expander and newly-increased low temperature heat exchanger, and new compressor (A) has cold cycle working medium to lead to Road is connected with new boost expander (B) with the second low temperature heat exchanger (8) through low temperature heat exchanger (7) successively, new boost expander (B) Cold cycle working medium passage is also had to connect with new compressor (A) through newly-increased low temperature heat exchanger (C), newly-increased low temperature heat exchanger (C) low-temperature heat medium passage and ft connection, decompressor (3) and new boost expander (B) is also had to connect new compressor (A) and pass Defeated power, forms first kind thermal drivers compression heat pump.

25. first kind thermal drivers compression heat pumps, are to want arbitrary first kind thermal drivers compression heat pump described in 17-18 in right In, cancel or retain low temperature heat exchanger (7) and the second low temperature heat exchanger (8) is led to the low-temperature heat medium of ft connection respectively Road, increases new compressor, new boost expander, newly-increased low temperature heat exchanger and newly-increased regenerator, and new compressor (A) has low temperature Cycle fluid passage is swollen with newly-increased through low temperature heat exchanger (7), the second low temperature heat exchanger (8) and newly-increased regenerator (D) successively Swollen machine (B) connection, new boost expander (B) also has cold cycle working medium passage through newly-increased low temperature heat exchanger (C) and newly-increased backheat Device (D) is connected with new compressor (A), and newly-increased low temperature heat exchanger (C) also has low-temperature heat medium passage and ft connection, expands Machine (3) and new boost expander (B) connect new compressor (A) and transmit power, form first kind thermal drivers compression heat pump.

26. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump arbitrary described in claim 17-18 In, cancel or retain low temperature heat exchanger (7) and the second low temperature heat exchanger (8) is led to the low-temperature heat medium of ft connection respectively Road, increases new compressor and new boost expander, and outside has low-temperature heat medium passage to connect with new compressor (A), new supercharging Contracting machine (A) also has low-temperature heat medium passage to expand with newly-increased through low temperature heat exchanger (7) and the second low temperature heat exchanger (8) successively Machine (B) connects, and new boost expander (B) also has low-temperature heat medium passage and ft connection, and newly-increased low temperature heat exchanger (C) is also low Warm passage and ft connection, decompressor (3) and new boost expander (B) connect new compressor (A) and transmit power, shape Become first kind thermal drivers compression heat pump.

27. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump arbitrary described in claim 17-18 In, cancel or retain low temperature heat exchanger (7) and the second low temperature heat exchanger (8) is led to the low-temperature heat medium of ft connection respectively Road, increases new compressor, new boost expander and newly-increased regenerator, and there is low-temperature heat medium passage outside through newly-increased regenerator (D) Connect with new compressor (A), new compressor (A) also have low-temperature heat medium passage successively through low temperature heat exchanger (7), second Low temperature heat exchanger (8) is connected with new boost expander (B) with newly-increased regenerator (D), and new boost expander (B) also has low-temperature heat medium Passage and ft connection, newly-increased low temperature heat exchanger (C) also has low-temperature heat medium passage and ft connection, decompressor (3) and newly Boost expander (B) connects new compressor (A) and transmits power, forms first kind thermal drivers compression heat pump.

28. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump described in claim 16, will follow Ring working medium is adjusted to low-temperature heat medium, cancels low temperature heat exchanger, and low temperature heat exchanger (7) is had low-temperature heat medium passage with outward Also cycle fluid passage is connected with low temperature heat exchanger (7), the second decompressor (4) has cycle fluid for portion's connection, decompressor (3) Passage is connected with low temperature heat exchanger (7) and low temperature heat exchanger (7) has cycle fluid passage to connect with compressor (1) to adjust in the lump Whole have low-temperature heat medium passage to connect with compressor (1) for outside, decompressor (3) has low-temperature heat medium passage and ft connection and Second decompressor (4) has low-temperature heat medium passage and ft connection, forms first kind thermal drivers compression heat pump.

29. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump arbitrary described in claim 16-27 In, cancel heater, cycle fluid is adjusted to heated medium, heater (5) is had heated medium passage and outside to connect Pass to and compressor (1) have cycle fluid passage through after regenerator (9) and heater (5) respectively with the second compressor (2) and Second decompressor (4) connection is adjusted to compressor (1) in the lump has heated medium passage through regenerator (9) and ft connection, outer Portion has heated medium passage to connect with the second compressor (2) and there are heated medium passage and the second decompressor (4) in outside even Logical, form first kind thermal drivers compression heat pump.

30. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump arbitrary described in claim 16-27 In, cancel high-temperature heat exchanger, cycle fluid is adjusted to high temperature thermal medium, high-temperature heat exchanger (6) is had high temperature thermal medium Passage and ft connection and the second compressor (2) have cycle fluid passage through regenerator (9) and high-temperature heat exchanger (6) and expansion Machine (3) connection be adjusted in the lump outside have high temperature thermal medium passage connect with decompressor (3) and the second compressor (2) have height warm Medium channel, through regenerator (9) and ft connection, forms first kind thermal drivers compression heat pump.

31. first kind thermal drivers compression heat pumps, mainly by compressor, the second compressor, decompressor, the second decompressor, heat supply Device, high-temperature heat exchanger, low temperature heat exchanger and regenerator are formed；Compressor (1) has cycle fluid passage through heater (5) Connect with the second compressor (2) through regenerator (9) more respectively afterwards and direct second decompressor (4) connection, the second compressor (2) Also have cycle fluid passage connect with decompressor (3) through high-temperature heat exchanger (6), decompressor (3) also cycle fluid passage and Low temperature heat exchanger (7) connects, and the second decompressor (4) also has cycle fluid passage to connect with low temperature heat exchanger (7), Low Temperature Thermal Exchanger (7) also has cycle fluid passage to connect with compressor (1) through regenerator (9), and heater (5) also has heated medium to lead to Road and ft connection, high-temperature heat exchanger (6) also has high temperature thermal medium passage and ft connection, and low temperature heat exchanger (7) also has Low-temperature heat medium passage and ft connection, decompressor (3) and the second decompressor (4) connect compressor (1) and the second compressor (2) And transmit power, form first kind thermal drivers compression heat pump.

32. first kind thermal drivers compression heat pumps, mainly by compressor, the second compressor, decompressor, the second decompressor, heat supply Device, high-temperature heat exchanger, low temperature heat exchanger, the second low temperature heat exchanger and regenerator are formed；Compressor (1) has circulation industrial Matter passage is through connecting with the second compressor (2) and direct second decompressor (4) through regenerator (9) more respectively after heater (5) Connection, the second compressor (2) also has cycle fluid passage to connect with decompressor (3) through high-temperature heat exchanger (6), decompressor (3) Cycle fluid passage is also had to connect with compressor (1) with regenerator (9) through low temperature heat exchanger (7), the second decompressor (4) also has Cycle fluid passage is connected with compressor (1) with regenerator (9) through the second low temperature heat exchanger (8), and heater (5) is also added Hot media channel and ft connection, high-temperature heat exchanger (6) also has high temperature thermal medium passage and ft connection, low temperature heat exchanger (7) and the second low temperature heat exchanger (8) also has low-temperature heat medium passage and ft connection, decompressor (3) and the second expansion respectively Machine (4) connects compressor (1) and the second compressor (2) and transmits power, forms first kind thermal drivers compression heat pump.

33. first kind thermal drivers compression heat pumps, mainly by compressor, the second compressor, decompressor, the second decompressor, heat supply Device, high-temperature heat exchanger, low temperature heat exchanger, the second low temperature heat exchanger and regenerator are formed；Compressor (1) has circulation industrial Matter passage is through connecting with the second compressor (2) and direct second decompressor (4) through regenerator (9) more respectively after heater (5) Connection, the second compressor (2) also has cycle fluid passage to connect with decompressor (3) through high-temperature heat exchanger (6), decompressor (3) Cycle fluid passage is also had to connect with low temperature heat exchanger (7), the second decompressor (4) also has cycle fluid passage through the second low temperature Heat exchanger (8) is connected with low temperature heat exchanger (7), low temperature heat exchanger (7) also have cycle fluid passage through regenerator (9) with Compressor (1) connects, and heater (5) also has heated medium passage and ft connection, and high-temperature heat exchanger (6) also has high warm Medium channel and ft connection, low temperature heat exchanger (7) and the second low temperature heat exchanger (8) also have low-temperature heat medium passage respectively With ft connection, decompressor (3) and the second decompressor (4) connect compressor (1) and the second compressor (2) and transmit power, shape Become first kind thermal drivers compression heat pump.

34. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump described in claim 31, cancel Or retain low temperature heat exchanger (7) and the low-temperature heat medium passage of ft connection, increase new compressor, new boost expander and new Increase low temperature heat exchanger, new compressor (A) has cold cycle working medium passage to connect with low temperature heat exchanger (7), Low Temperature Thermal is handed over Parallel operation (7) also has cold cycle working medium passage to connect with new boost expander (B), and new boost expander (B) also has cold cycle working medium Passage is connected with new compressor (A) through newly-increased low temperature heat exchanger (C), and newly-increased low temperature heat exchanger (C) also has Low Temperature Thermal to be situated between Matter passage and ft connection, decompressor (3) and new boost expander (B) connect new compressor (A) and transmit power, form first Class thermal drivers compression heat pump.

35. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump described in claim 31, cancel Or retain low temperature heat exchanger (7) and the low-temperature heat medium passage of ft connection, increase new compressor, new boost expander, new Increase low temperature heat exchanger and newly-increased regenerator, new compressor (A) has cold cycle working medium passage with low temperature heat exchanger (7) even Logical, low temperature heat exchanger (7) also has cold cycle working medium passage to connect with new boost expander (B) through newly-increased regenerator (D), increases newly Decompressor (B) also has cold cycle working medium passage through newly-increased low temperature heat exchanger (C) and newly-increased regenerator (D) and new compressor (A) connect, newly-increased low temperature heat exchanger (C) also has low-temperature heat medium passage and ft connection, decompressor (3) and new boost expander (B) connect new compressor (A) and transmit power, form first kind thermal drivers compression heat pump.

36. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump described in claim 31, cancel Or reservation low temperature heat exchanger (7) and the low-temperature heat medium passage of ft connection, increase new compressor and new boost expander, outward Portion has low-temperature heat medium passage to connect with new compressor (A), and new compressor (A) also has low-temperature heat medium passage and Low Temperature Thermal Exchanger (7) connects, and low temperature heat exchanger (7) also has low-temperature heat medium passage to connect with new boost expander (B), new boost expander (B) low-temperature heat medium passage and ft connection, decompressor (3) and new boost expander (B) is also had to connect new compressor (A) and pass Defeated power, forms first kind thermal drivers compression heat pump.

37. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump described in claim 31, cancel Or retain low temperature heat exchanger (7) and the low-temperature heat medium passage of ft connection, increase new compressor, new boost expander and new Increase regenerator, outside has low-temperature heat medium passage to connect with new compressor (A) through newly-increased regenerator (D), new compressor (A) Low-temperature heat medium passage is also had to connect with low temperature heat exchanger (7), low temperature heat exchanger (7) also has low-temperature heat medium passage through new Increase regenerator (D) to connect with new boost expander (B), new boost expander (B) also has low-temperature heat medium passage and ft connection, expand Machine (3) and new boost expander (B) connect new compressor (A) and transmit power, form first kind thermal drivers compression heat pump.

38. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump described in claim 31, cancel Or reservation low temperature heat exchanger (7) and the low-temperature heat medium passage of ft connection, increase new compressor, newly-increased low temperature heat exchange Device and newly-increased choke valve, new compressor (A) has cold cycle working medium passage to connect with low temperature heat exchanger (7), and Low Temperature Thermal is handed over Parallel operation (7) also has cold cycle working medium passage to connect with newly-increased low temperature heat exchanger (C) through newly-increased choke valve (E), newly-increased low temperature Heat exchanger (C) also has cold cycle working medium passage to connect with new compressor (A), and newly-increased low temperature heat exchanger (C) is also low Warm passage and ft connection, decompressor (3) connects new compressor (A) and transmits power, forms first kind thermal drivers Compression heat pump.

39. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump arbitrary described in claim 32-33 In, cancel or retain low temperature heat exchanger (7) and the second low temperature heat exchanger (8) is led to the low-temperature heat medium of ft connection respectively Road, increases new compressor, new boost expander and newly-increased low temperature heat exchanger, and new compressor (A) has cold cycle working medium to lead to Road is connected with new boost expander (B) with the second low temperature heat exchanger (8) through low temperature heat exchanger (7) successively, new boost expander (B) Cold cycle working medium passage is also had to connect with new compressor (A) through newly-increased low temperature heat exchanger (C), newly-increased low temperature heat exchanger (C) low-temperature heat medium passage and ft connection, decompressor (3) and new boost expander (B) is also had to connect new compressor (A) and pass Defeated power, forms first kind thermal drivers compression heat pump.

40. first kind thermal drivers compression heat pumps, are to want arbitrary first kind thermal drivers compression heat pump described in 32-33 in right In, cancel or retain low temperature heat exchanger (7) and the second low temperature heat exchanger (8) is led to the low-temperature heat medium of ft connection respectively Road, increases new compressor, new boost expander, newly-increased low temperature heat exchanger and newly-increased regenerator, and new compressor (A) has low temperature Cycle fluid passage is swollen with newly-increased through low temperature heat exchanger (7), the second low temperature heat exchanger (8) and newly-increased regenerator (D) successively Swollen machine (B) connection, new boost expander (B) also has cold cycle working medium passage through newly-increased low temperature heat exchanger (C) and newly-increased backheat Device (D) is connected with new compressor (A), and newly-increased low temperature heat exchanger (C) also has low-temperature heat medium passage and ft connection, expands Machine (3) and new boost expander (B) connect new compressor (A) and transmit power, form first kind thermal drivers compression heat pump.

41. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump arbitrary described in claim 32-33 In, cancel or retain low temperature heat exchanger (7) and the second low temperature heat exchanger (8) is led to the low-temperature heat medium of ft connection respectively Road, increases new compressor and new boost expander, and outside has low-temperature heat medium passage to connect with new compressor (A), new supercharging Contracting machine (A) also has low-temperature heat medium passage to expand with newly-increased through low temperature heat exchanger (7) and the second low temperature heat exchanger (8) successively Machine (B) connects, and new boost expander (B) also has low-temperature heat medium passage and ft connection, and newly-increased low temperature heat exchanger (C) is also low Warm passage and ft connection, decompressor (3) and new boost expander (B) connect new compressor (A) and transmit power, shape Become first kind thermal drivers compression heat pump.

42. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump arbitrary described in claim 32-33 In, cancel or retain low temperature heat exchanger (7) and the second low temperature heat exchanger (8) is led to the low-temperature heat medium of ft connection respectively Road, increases new compressor, new boost expander and newly-increased regenerator, and there is low-temperature heat medium passage outside through newly-increased regenerator (D) Connect with new compressor (A), new compressor (A) also have low-temperature heat medium passage successively through low temperature heat exchanger (7), second Low temperature heat exchanger (8) is connected with new boost expander (B) with newly-increased regenerator (D), and new boost expander (B) also has low-temperature heat medium Passage and ft connection, newly-increased low temperature heat exchanger (C) also has low-temperature heat medium passage and ft connection, decompressor (3) and newly Boost expander (B) connects new compressor (A) and transmits power, forms first kind thermal drivers compression heat pump.

43. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump described in claim 31, will follow Ring working medium is adjusted to low-temperature heat medium, cancels low temperature heat exchanger, and low temperature heat exchanger (7) is had low-temperature heat medium passage with outward Portion's connection, decompressor (3) have cycle fluid passage to connect with low temperature heat exchanger (7), the second decompressor (4) has cycle fluid to lead to Road is connected with low temperature heat exchanger (7) and low temperature heat exchanger (7) has cycle fluid passage through regenerator (9) and compressor (1) Connection is adjusted to that outside has low-temperature heat medium passage to connect with compressor (1) through regenerator (9), decompressor (3) has low temperature in the lump Hot media channel has low-temperature heat medium passage and ft connection with ft connection and the second decompressor (4), forms first kind heat and drives Dynamic compression heat pump.

44. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump arbitrary described in claim 31-42 In, cancel heater, cycle fluid is adjusted to heated medium, heater (5) is had heated medium passage and outside to connect Pass to and compressor (1) has cycle fluid passage through difference after heater (5) again through regenerator (9) and the second compressor (2) It is adjusted to compressor (1) in the lump and has heated medium passage to have with ft connection, outside with directly connecting with the second decompressor (4) Heated medium passage is connected with the second compressor (2) through regenerator (9) and there are heated medium passage and the second expansion in outside Machine (4) connects, and forms first kind thermal drivers compression heat pump.

45. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump arbitrary described in claim 31-42 In, cancel high-temperature heat exchanger, cycle fluid is adjusted to high temperature thermal medium, high-temperature heat exchanger (6) is had high temperature thermal medium Passage has cycle fluid passage to connect one through high-temperature heat exchanger (6) with decompressor (3) with ft connection and the second compressor (2) And be adjusted to outside have high temperature thermal medium passage to connect with decompressor (3) and the second compressor (2) have high temperature thermal medium passage with Ft connection, forms first kind thermal drivers compression heat pump.

46. first kind thermal drivers compression heat pumps, are in first kind thermal drivers arbitrary described in claim 1,3-8,16,18-23 In compression heat pump, increase by the 3rd compressor, low temperature heat exchanger (7) is had cycle fluid passage to connect tune with compressor (1) Whole have cycle fluid passage to connect with the 3rd compressor (10) for low temperature heat exchanger (7), and the 3rd compressor (10) has circulation again Working medium passage is connected with compressor (1) through heater (5), and decompressor (3) connects the 3rd compressor (10) and transmits power, is formed First kind thermal drivers compression heat pump.

47. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression arbitrary described in claim 31,33-38 In heat pump, increase by the 3rd compressor, low temperature heat exchanger (7) is had cycle fluid passage through regenerator (9) with compressor (1) even Logical be adjusted to low temperature heat exchanger (7) and have cycle fluid passage to connect with the 3rd compressor (10) through regenerator (9), the 3rd compresses Machine (10) has low-temperature heat medium passage to connect with compressor (1) through heater (5) again, and decompressor (3) connects the 3rd compressor (10) and transmit power, form first kind thermal drivers compression heat pump.

48. first kind thermal drivers compression heat pumps, are in first kind thermal drivers compression heat pump arbitrary described in claim 13,28 In, increase by the 3rd compressor, outside is had low-temperature heat medium passage to connect with compressor (1) and is adjusted to outside and has low-temperature heat medium Passage is connected with the 3rd compressor (10), and the 3rd compressor (10) has low-temperature heat medium passage again through heater (5) and compressor (1) connect, decompressor (3) connects the 3rd compressor (10) and transmits power, form first kind thermal drivers compression heat pump.

49. first kind thermal drivers compression heat pumps, are described in claim 1-12,14-27,29-42,44-45 arbitrary first In class thermal drivers compression heat pump, increase by the 3rd decompressor, low temperature heat exchanger (5) is had low-temperature heat medium passage and outside to connect Logical be adjusted to outside and have low-temperature heat medium passage to connect with the 3rd decompressor (11) through low temperature heat exchanger (7), the 3rd decompressor (11) also have low-temperature heat medium passage and ft connection, the 3rd decompressor (11) connects compressor (1) and simultaneously transmits power, form the One class thermal drivers compression heat pump.

50. first kind thermal drivers compression heat pumps, are to drive in first kind heat arbitrary described in claim 1-14,16-29,31-44 In dynamic compression heat pump, increase by the second heater, high-temperature heat exchanger (6) is had high temperature thermal medium passage to adjust with ft connection High temperature thermal medium passage is had to be sequentially communicated high-temperature heat exchanger (6) and the second heater (12) the second heater afterwards for outside (12) there are high temperature thermal medium passage and ft connection again, the second heater (12) also has heated medium passage and ft connection, Form first kind thermal drivers compression heat pump.

51. first kind thermal drivers compression heat pumps, are described in claim 1-12,14,16-27,29,31-42,44 arbitrary In one class thermal drivers compression heat pump, increase by the second heater, the Low Temperature Thermal cancelling low temperature heat exchanger (7) with ft connection is situated between Matter passage, high-temperature heat exchanger (6) is had high temperature thermal medium passage and ft connection to be adjusted to outside high temperature thermal medium passage It is sequentially communicated after high-temperature heat exchanger (6), the second heater (12) and low temperature heat exchanger (7) low temperature heat exchanger (7) again There are high temperature thermal medium passage and ft connection, the second heater (12) also has heated medium passage and ft connection, form the One class thermal drivers compression heat pump.

52. first kind thermal drivers compression heat pumps, are the arbitrary first kind thermal drivers compression type heats described in claim 1-51 In pump, increase engine, engine connects compressor (1) and provides power to compressor (1), forms additional external power drive First kind thermal drivers compression heat pump.

53. first kind thermal drivers compression heat pumps, are the arbitrary first kind thermal drivers compression type heats described in claim 1-51 In pump, increase working machine, decompressor (3) connects working machine and provides power to working machine, being formed to add externally provides power to bear The first kind thermal drivers compression heat pump of lotus.