CN203518333U - Low-environment-temperature air source heat pump cooling system with heat pipe loop - Google Patents

Abstract

The utility model relates to a low-environment-temperature air source heat pump cooling system with a heat pipe loop. The system comprises a compressor, an indoor heat exchanger, an outdoor heat exchanger and a liquid accumulator. The compressor is connected with a four-way reversing valve, the four-way reversing valve is respectively connected with the indoor heat exchanger and the outdoor heat exchanger, the indoor heat exchanger is connected with the liquid accumulator, and the outdoor heat exchanger is connected with a heating power expansion valve. The system is characterized in that an air compensating loop and the heat pipe loop are arranged between the indoor heat exchanger and the outdoor heat exchanger, an economizer and an electronic expansion valve are arranged on the air compensating loop, a first inlet of the economizer is connected with the liquid accumulator, a first outlet of the economizer is respectively connected with the electronic expansion valve and the heat pipe loop, the heat pipe loop comprises a first pipeline and a second pipeline, the first pipeline is connected with the economizer and the bottom of the outdoor heat exchanger, and the second pipeline is connected with the bottom of the outdoor heat exchanger and the heating power expansion valve. The system can restrain the heating capacity attenuation rate under the low-temperature environment and solve the frozen problem of the outdoor heat exchanger under the low-temperature and high-humidity environment.

Description

Low ambient temperature air source heat pump refrigeration system with heat pipe circuit

Technical field

The utility model relates to a kind of air source heat pump refrigeration system, especially a kind of low ambient temperature air source heat pump refrigeration system with heat pipe circuit.

Background technology

Along with the quickening of Development of China's Urbanization, resident improves constantly economy and environmental protection demand, and the heating system of promoting the use of clean energy is imperative.In city, suburban county does not possess the area of the central heating condition in city, generally adopts distributed living beings, fire coal, combustion gas traditional heating mode, and such mode thermal efficiency is low, and energy consumption is large, environment has been caused to serious pollution simultaneously yet.Heat pump heating technology is as a kind of novel energy-saving environment-friendly air-conditioning heating technology that supported by national policy.But, air source heat pump is being generalized to the problems such as the cold districts such as the Huanghe valley, North China, northwest (Heating Design temperature-5～-20 ℃ scope) suffer under low ambient temperature that heating capacity decay is serious, Energy Efficiency Ratio is low and outdoor heat exchanger freezes and cause defrosting completely, and unit cannot normally move in the winter time.

As shown in Figure 1, air source heat pump of the prior art is comprised of compressor 1a, four-way change-over valve 2a, indoor heat exchanger 3a, reservoir 4a, heating power expansion valve 5a, outdoor heat exchanger 6a and gas-liquid separator 7a.On the one hand, four-way change-over valve 2a commutation during defrost, the high pressure, high temperature refrigerant that compressor 1a discharges is directly led to outdoor heat exchanger 6a, by its heat, outdoor heat exchanger frost layer is melted, but outdoor heat exchanger 6a bottom temp is lower all the time, under low temperature and high relative humidity environment, defrosting water does not flow away in time, and defrost process finishes.When outdoor heat exchanger 6a transfers to after evaporator function, bottom temp is reduced to rapidly below zero degrees celsius, causes the water freezing not flowing away in time.If extend the defrost time, although can guarantee that defrosting water can flow away in time, can cause the too high alarm for high voltage that occurs of outdoor heat exchanger 6a intensification; In addition, artificially lengthening the defrost time also can cause heating effect variation; On the other hand, when environment temperature is during lower than-10 ℃, because refrigeration system mass flow diminishes, compressor 1a can not get effective cooling, there will be compressor 1a delivery temperature to surpass the design upper limit, causes heating capacity decay serious, and system cannot long-play.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, a kind of low ambient temperature air source heat pump refrigeration system with heat pipe circuit is provided, not only can suppress air source heat pump heating capacity attenuation rate under low temperature environment, and can solve outdoor heat exchanger icing phenomenon under low temperature and high relative humidity environment.

The technical scheme providing according to the utility model, the described low ambient temperature air source heat pump refrigeration system with heat pipe circuit, comprises compressor, indoor heat exchanger, outdoor heat exchanger and reservoir; The exhaust outlet of described compressor is connected with the input of four-way change-over valve, and the first output of four-way change-over valve is connected with the entrance point of indoor heat exchanger, and the port of export of indoor heat exchanger is connected with reservoir; The second output of described four-way change-over valve be connected with the import of gas-liquid separator, the gas outlet of gas-liquid separator is connected with the air entry of compressor; The 3rd output of described four-way change-over valve is connected with the upper inlet end of outdoor heat exchanger, and the outlet at bottom end of outdoor heat exchanger is connected with the entrance point of heating power expansion valve, and the port of export of heating power expansion valve is connected with the port of export of gas-liquid separator; It is characterized in that: tonifying Qi loop and heat pipe circuit are set between described indoor heat exchanger and outdoor heat exchanger, economizer and electric expansion valve are set on tonifying Qi loop, the first import of economizer is connected with reservoir, and the first outlet of economizer is connected with heat pipe circuit with the entrance point of electric expansion valve respectively; Described heat pipe circuit comprises the first pipeline and second pipe, and the first pipeline connects economizer the first outlet and outdoor heat exchanger bottom, bottom and the heating power expansion valve of second pipe junction chamber external heat exchanger.

The second import of described economizer is connected with the port of export of electric expansion valve, and the second outlet of economizer is connected with the middle gas supplementing opening of compressor.

The utility model is by the optimum organization of tonifying Qi loop and heat pipe circuit, not only increase the circular flow of the refrigeration system under air source heat pump low temperature environment, and the cold-producing medium higher than zero degrees celsius is introduced to outdoor heat exchanger bottom, guarantee that at low temperature environment temperature, outdoor heat exchanger does not freeze, defrost is smooth and easy, thereby reaches the object that under cold high humidity environment, air source heat pump can efficiently move.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of air source heat pump in prior art.

Fig. 2 is schematic diagram of the present utility model.

The specific embodiment

Below in conjunction with concrete accompanying drawing, the utility model is described in further detail.

As shown in Figure 2: the described low ambient temperature air source heat pump refrigeration system with heat pipe circuit comprises compressor 1, four-way change-over valve 2, indoor heat exchanger 3, reservoir 4, heating power expansion valve 5, outdoor heat exchanger 6, gas-liquid separator 7, tonifying Qi loop 8, economizer 8a, electric expansion valve 8b, heat pipe circuit 9, the first pipeline 9-1, second pipe 9-2 etc.

As shown in Figure 2, the utility model comprises compressor 1, indoor heat exchanger 3, outdoor heat exchanger 6 and reservoir 4; The exhaust outlet of described compressor 1 is connected with the input of four-way change-over valve 2, and the first output of four-way change-over valve 2 is connected with the entrance point of indoor heat exchanger 3, and the port of export of indoor heat exchanger 3 is connected with reservoir 4; The second output of described four-way change-over valve 2 be connected with the import of gas-liquid separator 7, the gas outlet of gas-liquid separator 7 is connected with the air entry of compressor 1; The 3rd output of described four-way change-over valve 2 is connected with the upper inlet end of outdoor heat exchanger 6, and the outlet at bottom end of outdoor heat exchanger 6 is connected with the entrance point of heating power expansion valve 5, and the port of export of heating power expansion valve 5 is connected with the port of export of gas-liquid separator 7;

Tonifying Qi loop 8 and heat pipe circuit 9 are set between described indoor heat exchanger 3 and outdoor heat exchanger 6, economizer 8a and electric expansion valve 8b are set on tonifying Qi loop 8, the first import of economizer 8a is connected with reservoir 4, the first outlet of economizer 8a is connected with heat pipe circuit 9 with the entrance point of electric expansion valve 8b respectively, the second import of economizer 8a is connected with the port of export of electric expansion valve 8b, and the second outlet of economizer 8a is connected with the middle gas supplementing opening of compressor 1; Described heat pipe circuit 9 comprises the first pipeline 9-1 and second pipe 9-2, and the first pipeline 9-1 connects economizer 8a the first outlet and outdoor heat exchanger 6 bottoms, bottom and the heating power expansion valve 5 of second pipe 9-2 junction chamber external heat exchanger 6.

Operation principle of the present utility model: under heating mode, the cold-producing medium of HTHP through four-way change-over valve 2, flows into reservoir 4 after cooling from compressor 1 in indoor heat exchanger 3, then 8 shuntings through tonifying Qi loop; The cold-producing medium flowing out from economizer 8a is divided into two-way, and a road makes two-way cold-producing medium occur temperature difference after electric expansion valve 8b throttling, carries out the middle gas supplementing opening by compressor 1 after heat exchange enter compressor 1 with the cold-producing medium that flows into economizer 8a; By middle tonifying Qi, not only can increase the circular flow of whole refrigeration system, and can directly reduce by tonifying Qi the delivery temperature of compressor 1, guarantee that air source heat pump can efficient in cold environment, stable, reliability service; Another road cold-producing medium flows into outdoor heat exchanger 6 bottoms by heat pipe circuit 9, outdoor heat exchanger 6 bottoms are heated, all the time guarantee that outdoor heat exchanger 6 bottoms are higher than zero degrees celsius, can prevent that outdoor heat exchanger bottom from freezing, can guarantee that like this outdoor heat exchanger bottom leaking hole can be not blocked because of freezing, cause defrosting water not flow out smoothly, avoid air source heat pump because frosting causes the more and more thicker vicious circle pattern of heat exchanger bottom ice sheet.

The Main Function of described heat pipe circuit 9 is the introducing of the cold-producing medium higher than zero degrees celsius outdoor heat exchanger 6 bottoms that tonifying Qi loop 8 is flowed out, then enters heating power expansion valve 5.

Claims (2)

1. with a low ambient temperature air source heat pump refrigeration system for heat pipe circuit, comprise compressor (1), indoor heat exchanger (3), outdoor heat exchanger (6) and reservoir (4); The exhaust outlet of described compressor (1) is connected with the input of four-way change-over valve (2), and the first output of four-way change-over valve (2) is connected with the entrance point of indoor heat exchanger (3), and the port of export of indoor heat exchanger (3) is connected with reservoir (4); The second output of described four-way change-over valve (2) be connected with the import of gas-liquid separator (7), the gas outlet of gas-liquid separator (7) is connected with the air entry of compressor (1); The 3rd output of described four-way change-over valve (2) is connected with the upper inlet end of outdoor heat exchanger (6), the outlet at bottom end of outdoor heat exchanger (6) is connected with the entrance point of heating power expansion valve (5), and the port of export of heating power expansion valve (5) is connected with the port of export of gas-liquid separator (7); It is characterized in that: tonifying Qi loop (8) and heat pipe circuit (9) are set between described indoor heat exchanger (3) and outdoor heat exchanger (6), economizer (8a) and electric expansion valve (8b) are set on tonifying Qi loop (8), the first import of economizer (8a) is connected with reservoir (4), and the first outlet of economizer (8a) is connected with heat pipe circuit (9) with the entrance point of electric expansion valve (8b) respectively; Described heat pipe circuit (9) comprises the first pipeline (9-1) and second pipe (9-2), the first pipeline (9-1) connects economizer (8a) the first outlet and outdoor heat exchanger (6) bottom, the bottom of second pipe (9-2) junction chamber external heat exchanger (6) and heating power expansion valve (5).

2. the low ambient temperature air source heat pump refrigeration system with heat pipe circuit as claimed in claim 1, it is characterized in that: the second import of described economizer (8a) is connected with the port of export of electric expansion valve (8b), the second outlet of economizer (8a) is connected with the middle gas supplementing opening of compressor (1).

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