CN205227908U - Ice source heat pump power generation system - Google Patents

Abstract

The utility model provides an ice source heat pump power generation system, it includes ice source heat pump outdoor unit, heat preservation heat -retaining pond, keep warm and store up cold drop and semiconductor thermocouple, ice source heat pump outdoor unit includes the outer housing body, air exchanger, the one -level interchanger, second -level exchanger and heat recovery exchanger, air exchanger, the one -level interchanger, second -level exchanger and heat recovery exchanger install at outer housing internally, another interface of heat recovery exchanger communicates with each other with the export of compressor, second -level exchanger advances, the delivery port inserts the heat preservation that is provided with phase transition storage cold material and stores up in the cold drop, heat recovery exchanger advances, the delivery port inserts the heat preservation heat -retaining pond that is provided with phase transition heat -retaining material, heat preservation storage cold drop is connected with the cold junction in heat preservation heat -retaining pond, heat preservation heat -retaining pond is connected with the hot junction in heat preservation heat -retaining pond. Since the technical scheme is used, the utility model has the advantages of compact structure, with low costs, it is with will freeze or make thermogeneticly hot -blast or the storage is collected to cold wind gas to the cold and hot source that to store adds the cold and hot both ends at semiconductor thermocouple, plays the effect of electricity generation, and the loss that reduces the energy is extravagant, reduces the pollution of air.

Description

Ice source heat pump power generation system

Technical field

The utility model belongs to ice source technology field, the semiconductor electricity generation system of concrete is a kind of ice source heat pump.

Background technology

Existing air-conditioning after refrigeration or refrigeration, hot blast or the cold wind in outdoor machine of air-conditioner postpartum directly enter external environment condition, not only cause the loss waste of the energy, also pollute air.

Utility model content

The purpose of this utility model is to provide a kind of compact conformation, ice source heat pump power generation system that cost is low, it or can be made refrigeration thermogenetic hot blast or cold wind gas and carry out collections storage, and the Cooling and Heat Source of storage is added in the cold and hot two ends of semiconductor thermocouple, play the effect of generating, reduce the loss waste of the energy, reduce the pollution of air.

The purpose of this utility model realizes by the following technical solutions, it comprises the outer machine of ice source heat pump, insulation heat accumulation tank, insulation storage cold drop and semiconductor thermocouple, heat pump outer machine in ice source comprises outer cage body, brethaid, one-level interchanger, secondary interchanger and heat recovery exchanger, brethaid, one-level interchanger, secondary interchanger and heat recovery exchanger are arranged in outer cage body, the cold-producing medium of ice source solution in one-level interchanger internal circulation flow and one-level interchanger in brethaid carries out heat exchange, the refrigerant outlet of one-level interchanger is communicated by the refrigerant interface of valve group with secondary interchanger, another refrigerant interface of secondary interchanger is communicated with commutation cross valve, in its excess-three interface of commutation cross valve, one of them interface is by connecing the inlet communication of gas-liquid separator and compressor, another interface is communicated with the back flow of refrigerant mouth of one-level interchanger, a remaining interface is communicated with heat recovery exchanger refrigerant interface, another interface of heat recovery exchanger communicates with the outlet of compressor, entering of secondary interchanger, delivery port access is provided with in the insulation storage cold drop of cooling storage material, entering of heat recovery exchanger, delivery port access is provided with the insulation heat accumulation tank of phase-change heat-storage material, the insulation storage low-temperature receiver of cold drop is connected with the cold junction of semiconductor thermocouple, the insulation thermal source of heat accumulation tank is connected with the hot junction of semiconductor thermocouple.

The utility model can as the outer machine of air-conditioning, and when heating, the low-temperature receiver of generation stores up in cold drop by cooling storage material storage in insulation, can make freely freeze summer, when cooling, the thermal source of generation is stored in insulation heat accumulation tank by phase-change heat-storage material, can make free heating in winter.Reduce the loss waste of the energy, reduce the pollution of air.The low-temperature receiver stored in insulation storage cold drop is connected with the cold junction of semiconductor thermocouple, and the thermal source stored in insulation heat accumulation tank is connected with the hot junction of semiconductor thermocouple, is generated electricity by semiconductor thermocouple.

Further described brethaid comprises filled chamber, blower fan and solution hydrops pond, ice source, the outer cage body sidewall of the filled chamber left and right sides is provided with air intlet and air outlet slit, blower fan is fixed on the air outlet slit place of housing, solution hydrops pond, ice source is arranged on and is positioned at immediately below filled chamber, solution hydrops pond, ice source is communicated with the inlet of one-level interchanger, and the liquid outlet of one-level interchanger is communicated with the spray thrower be positioned at above filled chamber by water circulating pump.

Heat radiation filler is filled with further in filled chamber.

Further heat radiation filler is cascade paper.

Further heat radiation filler is PVC plastic tablet, and PVC plastic tablet is formed by multiple independent packing sheet stack combinations.

Owing to have employed technique scheme, the utility model has compact conformation, advantage that cost is low, it is with by refrigeration or make thermogenetic hot blast or cold wind gas and carry out collection and store, and the Cooling and Heat Source of storage is added in the cold and hot two ends of semiconductor thermocouple, play the effect of generating, reduce the loss waste of the energy, reduce the pollution of air.

Accompanying drawing explanation

Accompanying drawing of the present utility model is described as follows.

Fig. 1 is structural representation of the present utility model.

Detailed description of the invention

The technological means realized to make the utility model, creation characteristic, reaching object and effect clearly and be easy to understand, below in conjunction with the drawings and specific embodiments, the utility model being further elaborated:

As shown in Figure 1, the utility model comprises the outer machine 1 of ice source heat pump, insulation heat accumulation tank 2, insulation storage cold drop 3 and semiconductor thermocouple N, heat pump outer machine 1 in ice source comprises outer cage body 5, brethaid 6, one-level interchanger 8, secondary interchanger 9 and heat recovery exchanger 10, brethaid 6, one-level interchanger 8, secondary interchanger 9 and heat recovery exchanger 10 are arranged in outer cage body 5, the cold-producing medium of ice source solution in one-level interchanger 8 internal circulation flow and one-level interchanger 8 in brethaid 6 carries out heat exchange, the refrigerant outlet of one-level interchanger 8 is communicated by the refrigerant interface of valve group 11 with secondary interchanger 9, another refrigerant interface of secondary interchanger 9 is communicated with commutation cross valve 12, in its excess-three interface of commutation cross valve 12, one of them interface is by connecing the inlet communication of gas-liquid separator 13 and compressor 14, another interface is communicated with the back flow of refrigerant mouth of one-level interchanger 8, a remaining interface is communicated with heat recovery exchanger 10 refrigerant interface, another interface of heat recovery exchanger 10 communicates with the outlet of compressor 14, entering of secondary interchanger 9, delivery port access is provided with in the insulation storage cold drop 3 of cooling storage material, entering of heat recovery exchanger 10, delivery port access is provided with the insulation heat accumulation tank 2 of phase-change heat-storage material, the insulation storage low-temperature receiver of cold drop is connected with the cold junction of semiconductor thermocouple, the thermal source of insulation heat accumulation tank is connected with the hot junction of semiconductor thermocouple N.

The utility model can as the outer machine of air-conditioning, and when heating, the low-temperature receiver of generation stores up in cold drop by cooling storage material storage in insulation, can make freely freeze summer, when cooling, the thermal source of generation is stored in insulation heat accumulation tank by phase-change heat-storage material, can make free heating in winter.Reduce the loss waste of the energy, reduce the pollution of air.

As shown in Figure 1, described brethaid 6 comprises filled chamber 15, blower fan 16 and solution hydrops pond, ice source 17, the outer cage body sidewall of filled chamber 15 left and right sides is provided with air intlet 4 and air outlet slit 18, blower fan 16 is fixed on the air outlet slit place of housing, solution hydrops pond, ice source 17 is arranged on and is positioned at immediately below filled chamber 15, solution hydrops pond, ice source 17 is communicated with the inlet of one-level interchanger 8, and the liquid outlet of one-level interchanger 8 is communicated with the spray thrower 20 be positioned at above filled chamber by water circulating pump 19.

In solution hydrops pond, ice source, subzero 30 DEG C of uncongealable ice source solution are added in the utility model, by water circulating pump, the ice source solution in solution hydrops pond, ice source is transported on spray thrower, by spray thrower, ice source solution is sprayed in filled chamber, simultaneously, outside ambient air sucks from air intlet and passes filled chamber by blower fan, the ice source solution in outside air and filled chamber is made to carry out heat exchange, outside air is discharged by air outlet slit after filled chamber, to be imported again by the heat radiation filler being filled in filling in solution hydrops pond, ice source through the ice source solution of heat exchange and carry out heat exchange as cold-producing medium or heating agent and one-level interchanger.This solution can not freeze subzero 30 DEG C time, and do not need again defrosting winter, lasting efficient stable heats, and heating efficiency is high.Structure is simple, and without geographical restriction, center, big city all can be installed, cheap, utilizes environment thermal energy, and it is most economical, the most practical, the most inexhaustible regenerative resource.

Heat radiation filler is filled with further in filled chamber.

Further heat radiation filler is cascade paper.

Further heat radiation filler is PVC plastic tablet, and PVC plastic tablet is formed by multiple independent packing sheet stack combinations.

Claims (5)

1. an ice source heat pump power generation system, it is characterized in that: it comprises the outer machine of ice source heat pump, insulation heat accumulation tank, insulation storage cold drop and semiconductor thermocouple, heat pump outer machine in ice source comprises outer cage body, brethaid, one-level interchanger, secondary interchanger and heat recovery exchanger, brethaid, one-level interchanger, secondary interchanger and heat recovery exchanger are arranged in outer cage body, the cold-producing medium of ice source solution in one-level interchanger internal circulation flow and one-level interchanger in brethaid carries out heat exchange, the refrigerant outlet of one-level interchanger is communicated by the refrigerant interface of valve group with secondary interchanger, another refrigerant interface of secondary interchanger is communicated with commutation cross valve, in its excess-three interface of commutation cross valve, one of them interface is by connecing the inlet communication of gas-liquid separator and compressor, another interface is communicated with the back flow of refrigerant mouth of one-level interchanger, a remaining interface is communicated with heat recovery exchanger refrigerant interface, another interface of heat recovery exchanger communicates with the outlet of compressor, entering of secondary interchanger, delivery port access is provided with in the insulation storage cold drop of cooling storage material, entering of heat recovery exchanger, delivery port access is provided with the insulation heat accumulation tank of phase-change heat-storage material, insulation storage cold drop is connected with the cold junction of insulation heat accumulation tank, insulation heat accumulation tank is connected with the hot junction of insulation heat accumulation tank.

2. ice source as claimed in claim 1 heat pump power generation system, it is characterized in that: described brethaid comprises filled chamber, blower fan and solution hydrops pond, ice source, the outer cage body sidewall of the filled chamber left and right sides is provided with air intlet and air outlet slit, blower fan is fixed on the air outlet slit place of housing, solution hydrops pond, ice source is arranged on and is positioned at immediately below filled chamber, solution hydrops pond, ice source is communicated with the inlet of one-level interchanger, and the liquid outlet of one-level interchanger is communicated with the spray thrower be positioned at above filled chamber by water circulating pump.

3. ice source as claimed in claim 2 heat pump power generation system, is characterized in that: in filled chamber, be filled with heat radiation filler.

4. ice source as claimed in claim 3 heat pump power generation system, is characterized in that: heat radiation filler is cascade paper.

5. ice source as claimed in claim 3 heat pump power generation system, is characterized in that: heat radiation filler is PVC plastic tablet, and PVC plastic tablet is formed by multiple independent packing sheet stack combinations.