Composite thermodynamic engine of power circulation system and refrigerating circulation system

Composite thermodynamic engine of power circulation system and refrigerating circulation system

  • CN 1,940,254 A
  • Filed: 09/29/2005
  • Published: 04/04/2007
  • Est. Priority Date: 09/29/2005
  • Status: Active Application
First Claim
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1. , a kind of composite thermodynamic engine, it is characterized in that it is to become composite thermodynamic engine by power circulation system A with cooling cycle system B grafting, and control system C is housed, and power circulation system A is by decompressor 1, heat exchanger 4, working medium pump 5 and heat exchanger 6 are formed, and be tightly connected into a circulatory system successively with pipeline, in its system, charge an amount of working medium, and cooling cycle system B is by compressor 11, heat exchanger 17, device for drying and filtering 16, throttle valve 15, heat exchanger 13, vapor-liquid separator 12 is formed, and be tightly connected into another circulatory system successively with pipeline, in its system, fill jar refrigeration agent is arranged, its condensation or cooling are with heat exchanger 4 its refrigerant input pipe joint 4b and discharge conection 4a and its refrigeration agent of cooling cycle system B evaporates or expansion is tightly connected respectively with pipeline with heat exchanger 13 its refrigerant discharge conection 13a and input pipe joint 13b, and refrigerant pump 14 is housed on its pipeline, or heat exchanger 4 unites two into one with heat exchanger 13, have cool-bag a 134 '"'"' A, and get the every circulation primary of its refrigeration agent of cooling cycle system B cold that produces in its heat exchanger 13 during design and equal the heat that the every circulation primary of its working medium of power circulation system A is discharged in its heat exchanger 4, and composite thermodynamic engine has a high temperature heat source and a low temperature cold source, the heating agent input pipe joint 6b and the discharge conection 6a of the heating agent discharge conection 8a of its energy heating arrangement 8 of high temperature heat source and input pipe joint 8b and its heat exchanger 6 of power circulation system A are tightly connected respectively with pipeline, and heating agent pump 7 is housed on its pipeline, its low temperature cold source is the water source 19 under the ambient temperature, and its heat exchanger 17 of cooling cycle system B is water-cooled heat exchanger 17A, its fill hose joint 17b and water source 19 its outlet conduits are tightly connected by elbow, and water pump 18 is housed on its pipeline, heat exchanger 17 its titting water outlet 17a and water source 19 its intake pipes are tightly connected by elbow, or low temperature cold source is the atmosphere under the ambient temperature, the heat exchanger 17 of its cooling cycle system B is air-cooled type heat exchanger 17B, ventilation window by heat exchanger 17B is communicated with atmosphere, or composite thermodynamic engine has only a thermal source, working medium evaporation superheat temperature or the heating-up temperature of its power circulation system A equal cooling cycle system B its condensation of refrigerant temperature or chilling temperature, thermal source equates with sink temperature, it is same thermal source, any single source heating arrangement 8, its heating agent discharge conection 8a and heat exchanger 6 its input pipe joint 6b are tightly connected, and hot water pump 7 is housed on its pipeline, and single source heating arrangement 8, its heating agent input pipe joint 8b is tightly connected with pipeline and heat exchanger 17 its heating agent discharge conection 17a, heat exchanger 6 its titting water outlet 6a are connected with seal for pipe joints with heat exchanger 17 its fill hose joint 17b, constitute the hot machine of single thermal source combined type, and power circulation system A presses the steam power system Aa that any Steam Power Circulation system design is made in the human society prior art, or by any combustion gas or aerodynamic circulatory system Ab that manufactures and designs by combustion gas or gas circulation in the human society prior art, and cooling cycle system B is the cooling cycle system B that manufactures and designs by any refrigeration cycle in the human society prior artAnd its control system of composite thermodynamic engine C is by compressor electric motor 11a;

  • working medium pump motor 5a, heating agent pump motor 7a, refrigerant pump motor 14a, water supply pump motor 18a;

    or fan electromotor 17a or 6a '"'"', be equipped with or do not adorn devices such as generator 3, capacitor 52, temp controller 63, overload protective device 66, tutorial light 67, selector switch 68, power plug 69, power socket 70 and be electrically connected composition.

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