CN203550280U - Direct-expansion solar heat pump air-conditioning system - Google Patents

Abstract

The utility model discloses a direct-expansion solar heat pump air-conditioning system. The direct-expansion solar heat pump air-conditioning system mainly consists of a direct-expansion solar heat pump system, an air source heat pump system and a heat storage device, and particularly comprises an outdoor condenser, a liquid storage tank, a filter, a capillary throttler, an indoor air-cooling heat exchanger, a water-cooling heat exchanger, six valves, a compressor, a four-way makeshift valve, a solar heat collector and a phase-change heat storage device. The solar heat pump air-conditioning system with the phase-change heat storage device is parallelly connected with the outdoor condenser, and can supply hot water and air in winter and normally cool in summer by air conditioning. The heat storage device and a compressor protector are integrated into a whole, not only extra solar energy can be stored for night or rainy days, but environmental affection can be overcome to enable temperature at the inlet of the compressor to stay at a certain value, so that thermal performance is improved, and service life of the compressor is prolonged. Besides, the direct-expansion solar heat pump air-conditioning system is simple in structure, energy saving and environment friendly.

Description

A direct expansion solar heat pump air conditioning system

technical field

The utility model relates to a solar photothermal system, in particular to a direct-expansion solar heat pump air-conditioning system in which a phase-change heat storage device is applied to an air conditioner and a direct-expansion solar heat pump, and belongs to the technical field of energy heating and air conditioning . the

technical background

Energy and environmental issues have become one of the most focused issues in today's society. In recent years, with the rapid development of my country's construction industry, the energy consumption of heating and air conditioning in buildings has continued to expand. In developed countries, building energy consumption accounts for 25% to 40% of total energy consumption, and in my country it accounts for nearly 1/3 of total social energy consumption. In building energy consumption, the main parts are air conditioning energy consumption and hot water energy consumption, accounting for about 24% and 17% of the total respectively. The energy utilization efficiency of air conditioners and water heaters directly affects the overall utilization of energy in our country. Especially in the area south of the Huaihe River, heating in winter mainly depends on air conditioning, which greatly increases the power load and causes power shortage. Therefore, it is particularly necessary to improve the utilization rate of energy, encourage the priority use of solar energy and other new energy sources, and promote building energy conservation. the

The heat pump system has the advantages of compact structure, high heat utilization rate, strong adaptability to economy, energy saving and environmental protection, etc., and can be popularized. However, heat pump units, especially air-source air-cooled units, are particularly affected by climate temperature differences, and their thermal performance is greatly reduced. When the temperature is low, the surface of the evaporator is prone to frost, which affects its heat transfer performance. As the ambient temperature decreases, the COP of the system drops significantly, and the evaporator can also impact the compressor due to insufficient heat absorption and gas-liquid mixing, which reduces the service life of the compressor. the

The direct expansion solar heat pump has also attracted much attention due to its environmental protection, energy saving and high heat collection efficiency. However, the direct expansion solar heat pump system has poor stability and is easily affected by environmental factors such as seasons, climate, and day and night. The patent "direct expansion solar heat pump air conditioner and hot water system" (publication number CN1515850) combines solar heat pump and ice storage air conditioner, so that the working temperature of the collector is consistent with the evaporation temperature of the refrigerant (close to the ambient temperature), greatly Improved collector efficiency and heat pump coefficient of performance. In winter, the working medium absorbs heat from the flat solar collector and circulates it to prepare domestic hot water and hot air. In summer, the refrigeration cycle completes the ice production at night and stores it in the ice storage tank for use during the day. Although this invention uses solar heat pumps to improve thermal performance (collector efficiency can generally reach 60%-80%, and heat pump COP can generally exceed 3), it does not consider the impact of environmental changes on system performance, and there is no compressor in the system protective device. The patent "Direct Expansion Solar Heat Pump Water Heater" (publication number: CN1337556) uses a solar collector evaporator without a cover plate, and uses a water-cooled condenser to produce domestic hot water. This patent integrates the outdoor condensation and evaporator design of the solar collector, the structure is simple and compact, and can make full use of the latent heat of phase change of dew, but it does not realize the cooling function in summer, and fails to affect the thermal performance of condensation on the outdoor and winter night Frost conditions were improved, and the heat storage device was not installed after the temperature of the heat storage tank reached the set value, so that the surplus solar energy could not be fully utilized. the

Contents of the invention

The utility model aims at the shortcomings of the above-mentioned existing air conditioners and direct expansion solar heat pumps, and provides a direct expansion solar heat pump air conditioning system in which a heat storage device and a compressor protection device are combined into one. The system can not only store excess solar energy for use at night or in rainy days, but also overcome environmental influences, maintain the compressor inlet temperature at a certain value, improve thermal performance, and prolong the service life of the compressor. The structure is simple, energy-saving and environmentally friendly . the

In order to achieve the above object, the technical solution adopted by the utility model to solve the technical problems is:

A direct expansion solar heat pump air conditioning system, mainly composed of a direct expansion solar heat pump system, an air source heat pump system, and a heat storage device, specifically including an outdoor condenser, a liquid storage tank, and a 1 filter, 1 capillary restrictor, 1 indoor air-cooled heat exchanger, 1 water-cooled heat exchanger, 6 valves, 1 compressor, 1 four-way reversing valve, 1 solar collector, 1 phase change heat storage device. The outlet of the solar collector is connected to the inlet of the phase change heat storage device through the outlet valve of the solar collector, the outlet of the phase change heat storage device is connected to the inlet of the compressor, the outlet of the compressor is connected to port a of the four-way reversing valve, and the four-way The port b of the reversing valve is respectively connected to the water-cooled heat exchanger and the indoor air-cooled heat exchanger through the inlet valve of the water-cooled heat exchanger and the inlet valve of the air-cooled heat exchanger, and then connected to the capillary restrictor and filter in turn after passing through the pipeline. The outlet of the liquid storage tank is connected to the outdoor condenser and the inlet valve of the solar collector, and the inlet valve of the solar collector is connected to the solar collector; the outdoor condenser is connected to the outdoor condenser through the inlet valve of the outdoor condenser. The c port of the four-way reversing valve is connected, and the compressor inlet is connected with the d port of the four-way reversing valve. the

The phase change heat storage device is composed of a shell with an insulation layer, a copper tube, a phase change heat storage material, and a matching joint; the shell with an insulation layer is a stainless steel cylinder covered with a polyurethane foam insulation layer. It is a matching joint; a number of copper tubes are inserted in the cylinder, and the copper tube is brazed and sealed with the stainless steel shell, and is directly connected with the matching joints at both ends. Phase-change heat storage materials are installed between the copper tubes. the

The pipes in the phase change thermal storage device can be copper tubes, finned tubes or threaded tubes, etc.; the phase change thermal storage materials can be pure paraffin, or paraffin wax added with nanometer metal or expanded graphite, or other related materials. the

The principle of the direct expansion solar heat pump system is the same as that of a typical vapor compression refrigeration cycle. It is composed of a condenser, an evaporator, a compressor, a liquid storage tank, a filter, and a capillary restrictor, and is connected by pipes to form a sealed system. The low-pressure steam produced by heat exchange and vaporization from the evaporator is sucked into the compressor and compressed into high-temperature and high-pressure gas, then enters the condenser to be cooled into liquid, then enters the evaporator after passing through the filter and capillary restrictor, and evaporates and absorbs heat in the evaporator to complete the refrigeration cycle. the

Compared with the traditional indirect expansion heat pump and air source heat pump, the difference is that the solar collector of the direct expansion solar heat pump is used as the evaporator of the system, and the working fluid absorbs the heat energy of solar radiation in the collector, reducing the The heat collecting loop process makes the structure simple and easy to install. the

The air source heat pump system is a common household air conditioner, using air-cooled heat exchangers both indoors and outdoors, and its working principle is the vapor compression refrigeration cycle principle. the

The solar heat pump air conditioning system with phase change heat storage device is connected in parallel with the outdoor condenser, which can provide domestic hot water and hot air in winter, and realize normal air conditioning and cooling in summer. the

The beneficial effect of the utility model is that the thermal storage device and the compressor protection device are combined into one, not only can the excess solar energy be stored for use at night or in rainy days, but also can overcome the influence of the environment to maintain the inlet temperature of the compressor at a certain level. Value, improve the thermal performance, prolong the service life of the compressor, simple structure, energy saving and environmental protection. the

Description of drawings

Figure 1 is a schematic diagram of the principle of a direct expansion solar heat pump air conditioning system. the

Figure 2 is a cross-sectional view of a phase change heat storage device. the

In the figure: 1. Solar collector, 2. Solar collector outlet valve, 3. Solar collector inlet valve, 4. Outdoor condenser inlet valve, 5. Phase change heat storage device, 6. Compressor, 7 .Inlet valve of air-cooled heat exchanger, 8. Air-cooled heat exchanger, 9. Outdoor condenser, 10. Inlet valve of water-cooled heat exchanger, 11. Water-cooled heat exchanger, 12. Capillary restrictor, 13. Filter, 14 .Liquid storage tank, 15. Four-way reversing valve, 16. Shell with insulation layer, 17. Copper tube, 18. Phase change heat storage material, 19. Matching joint. the

Detailed ways

Below in conjunction with accompanying drawing and example the utility model is further described. the

Referring to accompanying drawings 1 and 2, a direct expansion solar heat pump air conditioning system includes an outdoor condenser, a liquid storage tank, a filter, a capillary restrictor, and an indoor air-cooled heat exchanger , 1 water-cooled heat exchanger, 6 valves, 1 compressor, 1 four-way reversing valve, 1 solar collector, and 1 phase change heat storage device. the

The outlet of the solar collector (1) is connected to the inlet of the phase change heat storage device (5) through the outlet valve of the solar collector (2), and the outlet of the phase change heat storage device (5) is connected to the inlet of the compressor (6). The outlet of the machine (6) is connected to the port a of the four-way reversing valve (15), and the port b of the four-way reversing valve (15) respectively passes through the inlet valve of the water-cooled heat exchanger (10) and the inlet valve of the air-cooled heat exchanger (7 ) is connected with the water-cooled heat exchanger (11) and the indoor air-cooled heat exchanger (8), and then connected with the capillary restrictor (12), filter (13), and liquid storage tank (14) The outlet of the liquid storage tank (14) is connected with the outdoor condenser (9) and the solar collector inlet valve (3) respectively, and the solar collector inlet valve (3) is connected with the solar collector (1); The outdoor condenser (9) is connected to the c port of the four-way reversing valve (15) through the outdoor condenser inlet valve (4), and the inlet of the compressor (6) is connected to the d port of the four-way reversing valve (15). the

Referring to Figure 2, the shell of the phase change heat storage device is a stainless steel cylinder covered with a polyurethane foam insulation layer, with matching joints (19) at both ends, and a connecting pipe connected to the system on the matching joint (19); A number of copper tubes (17) are inserted, and the copper tubes (17) are brazed and sealed with the shell (16) with an insulating layer, and are directly connected with the matching joints (19) at both ends. Thermal Materials (18). the

The working principle and working process of the utility model are:

During the winter day, open the solar collector outlet valve (2) and the solar collector inlet valve (3), close the outdoor condenser inlet valve (4), adjust the four-way reversing valve (15) to connect the ab port, cd The port is connected. The refrigerant absorbs heat and evaporates in the solar heat collector (1), and the high-temperature refrigerant enters the phase change heat storage device (5), exchanges heat in the phase change heat storage device (5), and passes through the phase change heat storage device (5). ) to cool the refrigerant with a higher temperature, absorb and store excess heat to keep the temperature of the refrigerant constant, and avoid adverse effects on the compressor (6). The refrigerant is inhaled by the inlet of the compressor (6), compressed into high-temperature and high-pressure gas, and the inlet valve (7) of the air-cooled heat exchanger is opened, and the high-temperature and high-pressure gas enters the indoor air-cooled heat exchanger (8) through the four-way reversing valve (15). Exchange heat with indoor air to provide hot air, or open the water-cooled heat exchanger inlet valve (10) to produce domestic hot water through the water-cooled heat exchanger (11). The liquid condensed by the indoor air-cooled heat exchanger (8) or water-cooled heat exchanger (11) is throttled by the capillary restrictor (12) to become low-temperature and low-pressure wet steam, and then the refrigerant filtered by the filter (13) is stored In the liquid storage tank (14), the wet steam flows into the outdoor solar collector (1) (evaporator) at last, and evaporates and absorbs heat to complete the cycle. the

At night in winter, open the solar collector outlet valve (2) and the solar collector inlet valve (3), close the outdoor condenser inlet valve (4), adjust the four-way reversing valve (15) to connect the ab port, cd The port is connected. The wet steam of the refrigerant mainly absorbs heat from the phase change heat storage device (5), and utilizes the surplus heat stored during the day. The refrigerant then passes through the compressor (6), the four-way reversing valve (15), and the indoor heat exchange device (8) or water-cooled heat exchanger (11), capillary restrictor (12), filter (13), liquid storage tank (14), and finally return to the phase change heat storage device (5). the

Summer cooling: open the outdoor condenser inlet valve (4), close the solar collector outlet valve (2), solar collector inlet valve (3), adjust the four-way reversing valve (15) to connect the db port, ca The port is connected, and the working medium enters the refrigeration cycle. The low-pressure steam generated from the heat exchange and vaporization of the indoor air-cooled heat exchanger (8) passes through the inlet valve (7) and the four-way reversing valve (15) of the air-cooled heat exchanger, and then is sucked by the compressor (6) and compressed into high-temperature and high-pressure gas. It enters the outdoor heat exchanger (9) and cools into liquid, passes through the liquid storage tank (14), filter (13), capillary restrictor (12) and finally enters the indoor air-cooled heat exchanger (8) to absorb heat, so that the indoor ambient temperature Lower to complete the refrigeration cycle. the

The mode of producing domestic hot water in summer is the same as that in winter. the

Claims (4)

1. a directly-expanding solar heat-pump air conditioner system, mainly by 1 cover direct expanding solar heating pump system, 1 cover air source heat pump system, 1 regenerative apparatus forms, and specifically comprises 1 outdoor condenser, 1 fluid reservoir, 1 filter, 1 capillary restrictor, 1 Interior Space cold heat exchanger, 1 water cooling heat exchanger, 6 valves, 1 compressor, 1 four-way makeshift valve, 1 solar thermal collector, 1 phase transition heat accumulation unit, it is characterized in that: solar thermal collector (1) outlet is connected with phase transition heat accumulation unit (5) entrance through solar thermal collector outlet valve (2), phase transition heat accumulation unit (5) outlet is connected with compressor (6) entrance, compressor (6) outlet is connected with the port a of four-way makeshift valve (15), and the port b of four-way makeshift valve (15) passes through respectively water cooling heat exchanger inlet valve (10), air-cooled heat exchanger inlet valve (7) and water cooling heat exchanger (11), indoor air-cooled heat exchanger (8) is connected, afterwards after pipeline converges successively with capillary restrictor (12), filter (13), fluid reservoir (14) is connected, fluid reservoir (14) outlet respectively with outdoor condenser (9), solar thermal collector inlet valve (3) connects, and solar thermal collector inlet valve (3) is connected with solar thermal collector (1), outdoor condenser (9) is connected with the c port of four-way makeshift valve (15) through outdoor condenser inlet valve (4), and compressor (6) entrance is connected with the d port of four-way makeshift valve (15).

2. a kind of directly-expanding solar heat-pump air conditioner system according to claim 1, is characterized in that: phase transition heat accumulation unit (5) by the housing with heat-insulation layer (16), copper tube (17), phase change heat storage material (18), join type joint (19) and form; Housing (16) with heat-insulation layer is the stainless steel cylinder that is surrounded by polyurethane foamed thermal-insulating layer, and two is for joining type joint (19); In cylinder, be inserted with some copper tubes (17), copper tube (17) and stainless steel casing sealed with brazing, join type joint (17) with two and lead directly to, and phase change heat storage material (18) is housed between copper pipe.

3. a kind of directly-expanding solar heat-pump air conditioner system according to claim 1, it is characterized in that: the solar heat pump air conditioner system with phase transition heat accumulation unit (5) is in parallel with outdoor condenser (9), can provide domestic hot-water, hot gas winter, and can realize normal air conditioner refrigerating summer.

4. a kind of directly-expanding solar heat-pump air conditioner system according to claim 1, is characterized in that: phase transition heat accumulation unit (5) interior conduit can be copper tube (17), can be also finned tube or screwed pipe; Phase change heat storage material (18) is paraffin refined wax, can also be paraffin or other associated materials that adds nano metal or expanded graphite.

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