CN203785319U - Solar energy combined integrated heating and cooling system for country - Google Patents
Solar energy combined integrated heating and cooling system for country Download PDFInfo
- Publication number
- CN203785319U CN203785319U CN201420069058.7U CN201420069058U CN203785319U CN 203785319 U CN203785319 U CN 203785319U CN 201420069058 U CN201420069058 U CN 201420069058U CN 203785319 U CN203785319 U CN 203785319U
- Authority
- CN
- China
- Prior art keywords
- medium
- energy
- heat
- solar
- pipeline
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Classifications
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/40—Solar thermal energy, e.g. solar towers
Landscapes
- Other Air-Conditioning Systems (AREA)
Abstract
The utility model relates to a solar energy combined integrated heating and cooling system for country. The integrated heating and cooling system comprises a solar thermal collector, a thermal insulation water tank, a heat insulation energy storage medium box, an air conditioning outdoor unit and an indoor heating and cooling terminal, wherein the medium outlet of the solar thermal collector is simultaneously connected with the medium inlet of a heat exchange medium tube in the thermal insulation water tank and the medium inlet of the heat insulation energy storage medium box through a pipeline and a three-way solenoid valve; the medium inlet of the solar thermal collector is simultaneously connected with the medium outlet of the heat exchange medium tube and the medium outlet of the heat insulation energy storage medium box through the pipeline and another three-way solenoid valve; the air conditioning outdoor unit is connected with an air conditioning evaporator in the heat insulation energy storage medium box; a heat exchanger of the indoor heating and cooling terminal is communicated with an inner cavity of the heat insulation energy storage medium box through the pipeline. The solar energy combined integrated heating and cooling system for country has multiple purposes and is applied to mainly solving the problems of high energy consumption and cost and serious atmospheric pollution because a coal furnace is used for heating in each household in rural areas in winter.
Description
Technical field
The utility model relates to the integrated cooling/warming system of a kind of rural area in conjunction with solar energy.
Background technology
With China's national conditions of present stage, in the vast rural area of China, no matter be factory building or resident room, central heating in winter is difficult to realize, every family often carrys out heat supply with medium-sized or small coal furnace voluntarily, has so not only expended a large amount of resources, has more brought serious atmosphere polluting problem.In China rural area, the building construction of every family mostly has larger floor space, therefore also just there is the deck that area is larger, this installs and utilizes solar power-generating facility that very favorable condition is provided to large area, wide ample scope for abilities is provided also to day by day advanced at present solar power-generating facility.
Utility model content
The technical problems to be solved in the utility model is: the integrated cooling/warming system of rural area in conjunction with solar energy that provides a kind of applicable rural areas in our country large-scale promotion to use, many, the with serious pollution problems of cost consume energy while conscientiously solving China's vast rural area Winter heat supply, reach both saving resource and expense, greatly reduce again the object of atmosphere pollution.
The utility model solves the technical scheme that its technical problem adopts: the integrated cooling/warming system of a kind of rural area in conjunction with solar energy, include solar thermal collector, attemperater, adiabatic energy-accumulating medium case, air-conditioner outdoor unit and indoor cold and hot terminal, in attemperater, be provided with heat transferring medium pipe, in adiabatic energy-accumulating medium case, saving has heat-conducting medium and is provided with A/C evaporator, the media outlet of solar thermal collector is provided with miniature circulating pump and is connected with the medium import of heat transferring medium pipe and the medium import of adiabatic energy-accumulating medium case in attemperater by pipeline and a three-way magnetic valve simultaneously, the medium import of solar thermal collector is connected with the media outlet of heat transferring medium pipe and the media outlet of adiabatic energy-accumulating medium case in attemperater by pipeline and another three-way magnetic valve simultaneously, air-conditioner outdoor unit includes compressor, condenser, and be connected with the A/C evaporator in adiabatic energy-accumulating medium case, described indoor cold and hot terminal has shell, heat exchanger and blower fan, the heat exchanger of each indoor cold and hot terminal is communicated with the inner chamber of adiabatic energy-accumulating medium case by pipeline in the mode of serial or parallel connection.
This rural area is used in conjunction with the working method of the integrated cooling/warming system of solar energy as follows: in the winter time or the colder time, two three-way magnetic valves in system are by solar thermal collector, heat transferring medium pipe in attemperater and all conductings of adiabatic energy-accumulating medium case three, the water of the heat transferring medium pipe of therefore flowing through on the one hand in attemperater from the heat-conducting medium flowing out in the thermal-collecting tube of solar thermal collector to store in heating and thermal insulation water tank, the adiabatic energy-accumulating medium case of flowing through on the one hand, the final thermal-collecting tube of solar thermal collector that all flows back to again, so circulation, attemperater is used for providing domestic hot-water, heat-conducting medium in adiabatic energy-accumulating medium case is drawn a large amount of heat energy in circulation, heat exchanger and adiabatic energy-accumulating medium box cavity pipeline connection due to each indoor cold and hot terminal, therefore heat-conducting medium when flowing through heat exchanger to indoor distribute heat, coordinate again the effect of blower fan, reach good heating effect, in the season that does not need heating, two three-way magnetic valves in system are only by the heat transferring medium pipe conducting in solar thermal collector and attemperater, the heat transferring medium pipe of therefore only flowing through in attemperater from the heat-conducting medium flowing out in the thermal-collecting tube of solar thermal collector, flow back to again the thermal-collecting tube of solar thermal collector, so circulation, thus attemperater is supplied with domestic hot-water as usual, in the season of needs refrigeration, two three-way magnetic valves in system are still only by the heat transferring medium pipe conducting in solar thermal collector and attemperater on the one hand, thereby attemperater is supplied with domestic hot-water as usual, air-conditioner outdoor unit can be opened on the other hand, after air-conditioner outdoor unit operation, the heat-conducting medium in adiabatic energy-accumulating medium case is carried out to cooling refrigeration, heat exchanger and adiabatic energy-accumulating medium box cavity pipeline connection due to each indoor cold and hot terminal, therefore heat-conducting medium when flowing through heat exchanger to indoor distributing " cold air " (heat in absorption chamber), coordinate again the effect of blower fan, reach good refrigeration, because adiabatic energy-accumulating medium case is equivalent to an energy storage buffer device, after air-conditioner outdoor unit is closed, indoor cold and hot terminal can also continue a period of time of freezing.
Say further, this system also includes solar panel, and the blower fan of described miniature circulating pump, three-way magnetic valve and indoor cold and hot terminal supplies electric drive by solar panel.
Say further again, in described adiabatic energy-accumulating medium case, be provided with electrical auxiliary heater, so, meet in the winter time rainy weather solar thermal collector can not absorb enough photo-thermal for heating time, can promote by opening this electrical auxiliary heater the temperature of heat-conducting medium in adiabatic energy-accumulating medium case.
In order to promote heat-conducting medium circulation between heat exchanger and adiabatic energy-accumulating medium case, to guarantee good heating or refrigeration, in the connecting pipeline of heat exchanger and adiabatic energy-accumulating medium case, be provided with auxiliary miniature circulating pump.
The beneficial effects of the utility model are: the integrated cooling/warming system thermal-arrest water function of this rural area in conjunction with solar energy, the refrigerating function of heating function and conventional air-conditioning is in one, it is one-machine-multi-function, it is particluarly suitable for the vast rural area of China and promotes the use of, the condition of utilizing on the trend rustic home building to have large area deck realizes the large area of solar thermal collector and installs to obtain good effect, solved at one stroke rural area winter because using separately the coal furnace heating cost that causes consuming energy many in each family of central heating difficulty, the problem that atmosphere pollution is serious, both saving resource and expense have been reached, greatly reduce again the object of atmosphere pollution, be to achieve many things at one stroke.
Accompanying drawing explanation
Below in conjunction with drawings and Examples, the utility model is described in further detail.
Fig. 1 is structural representation of the present utility model (in figure, arrow represents the flow direction of heat-conducting medium).
In figure: 1. indoor cold and hot terminal 5-1. heat exchanger 6. heat transferring medium pipe 7. heat-conducting medium 8. A/C evaporator 9. miniature circulating pump 10. three-way magnetic valve 11. electrical auxiliary heaters 12. of solar thermal collector adiabatic energy-accumulating medium case 4. air-conditioner outdoor unit 5. of 2. attemperater 3. are assisted miniature circulating pump
The specific embodiment
The integrated cooling/warming system of a kind of rural area in conjunction with solar energy, as shown in Figure 1, it includes solar thermal collector 1, attemperater 2, adiabatic energy-accumulating medium case 3, air-conditioner outdoor unit 4 and indoor cold and hot terminal 5, in attemperater 2, be provided with heat transferring medium pipe 6, the 3 interior savings of adiabatic energy-accumulating medium case have heat-conducting medium 7 and are provided with A/C evaporator 8, the media outlet of solar thermal collector 1 is provided with miniature circulating pump 9 and is connected with the medium import of heat transferring medium pipe 6 and the medium import of adiabatic energy-accumulating medium case 3 in attemperater 2 by pipeline and a three-way magnetic valve 10 simultaneously, the medium import of solar thermal collector 1 is connected with the media outlet of heat transferring medium pipe 6 and the media outlet of adiabatic energy-accumulating medium case 3 in attemperater 2 by pipeline and another three-way magnetic valve 10 simultaneously, air-conditioner outdoor unit 4 includes compressor, condenser, and be connected with the A/C evaporator 8 in adiabatic energy-accumulating medium case 3, indoor cold and hot terminal 5 has shell, heat exchanger 5-1 and blower fan, the heat exchanger 5-1 of each indoor cold and hot terminal 5 is communicated with the inner chamber of adiabatic energy-accumulating medium case 3 by pipeline in the mode of serial or parallel connection.This system also includes solar panel, and the blower fan of miniature circulating pump 9, three-way magnetic valve 10 and indoor cold and hot terminal 5 supplies electric drive by solar panel.In adiabatic energy-accumulating medium case 3, be provided with electrical auxiliary heater 11.In the connecting pipeline of heat exchanger 5-1 and adiabatic energy-accumulating medium case 3, be provided with auxiliary miniature circulating pump 12.
This rural area is used in conjunction with the working method of the integrated cooling/warming system of solar energy as follows: in the winter time or the colder time, two three-way magnetic valves 10 in system are by solar thermal collector 1, heat transferring medium pipe 6 in attemperater 2 and all conductings of adiabatic energy-accumulating medium case 3 threes, the heat transferring medium pipe 6 of therefore flowing through on the one hand in attemperater 2 from the heat-conducting medium 7 flowing out in the thermal-collecting tube of solar thermal collector 1 is with the water of heating and thermal insulation water tank 2 interior storages, the adiabatic energy-accumulating medium case 3 of flowing through on the one hand, the final thermal-collecting tube of solar thermal collector 1 that all flows back to again, so circulation, attemperater 2 is for providing domestic hot-water, heat-conducting medium 7 in adiabatic energy-accumulating medium case 3 is drawn a large amount of heat energy in circulation, heat exchanger 5-1 and adiabatic energy-accumulating medium case 3 inner chamber pipeline connections due to each indoor cold and hot terminal 5, therefore heat-conducting medium 7 when flowing through heat exchanger 5-1 to indoor distribute heat, coordinate again the effect of blower fan, reach good heating effect, in the time of can not absorbing enough photo-thermal for heating as rainy weather solar thermal collector 1, can promote by opening electrical auxiliary heater 11 temperature of the interior heat-conducting medium 7 of adiabatic energy-accumulating medium case 3, in the season that does not need heating, 10 of two three-way magnetic valves in system are by heat transferring medium pipe 6 conductings in solar thermal collector 1 and attemperater 2, the heat transferring medium pipe 6 of therefore flowing through in attemperater 2 from 7 of heat-conducting mediums that flow out in the thermal-collecting tube of solar thermal collector 1, flow back to again the thermal-collecting tube of solar thermal collector 1, so circulation, thus attemperater 2 is supplied with domestic hot-water as usual, in the season of needs refrigeration, two three-way magnetic valves in system 10 are still only by heat transferring medium pipe 6 conductings in solar thermal collector 1 and attemperater 2 on the one hand, thereby attemperater 2 is supplied with domestic hot-water as usual, air-conditioner outdoor unit 4 can be opened on the other hand, after air-conditioner outdoor unit 4 operations, the heat-conducting medium 7 in adiabatic energy-accumulating medium case 3 is carried out to cooling refrigeration, heat exchanger 5-1 and adiabatic energy-accumulating medium case 3 inner chamber pipeline connections due to each indoor cold and hot terminal 5, therefore heat-conducting medium 7 when flowing through heat exchanger 5-1 to indoor distributing " cold air " (heat in absorption chamber), coordinate again the effect of blower fan, reach good refrigeration, because adiabatic energy-accumulating medium case 3 is equivalent to an energy storage buffer device, after air-conditioner outdoor unit 4 is closed, indoor cold and hot terminal 5 can also continue a period of time of freezing.
Above-described embodiment is only for the utility model of explaining, but not restriction to the utility model rights protection, the change of every any unsubstantiality carrying out on the basis of the utility model essence scheme, all should fall in protection domain of the present utility model.
Claims (4)
1. the integrated cooling/warming system of rural area in conjunction with solar energy, it is characterized in that: include solar thermal collector (1), attemperater (2), adiabatic energy-accumulating medium case (3), air-conditioner outdoor unit (4) and indoor cold and hot terminal (5), in attemperater (2), be provided with heat transferring medium pipe (6), the interior saving of adiabatic energy-accumulating medium case (3) has heat-conducting medium (7) and is provided with A/C evaporator (8), the media outlet of solar thermal collector (1) is provided with miniature circulating pump (9) and is connected with the medium import of heat transferring medium pipe (6) and the medium import of adiabatic energy-accumulating medium case (3) in attemperater (2) by pipeline and a three-way magnetic valve (10) simultaneously, the medium import of solar thermal collector (1) is connected with the media outlet of heat transferring medium pipe (6) and the media outlet of adiabatic energy-accumulating medium case (3) in attemperater (2) by pipeline and another three-way magnetic valve (10) simultaneously, air-conditioner outdoor unit (4) includes compressor, condenser, and be connected with the A/C evaporator (8) in adiabatic energy-accumulating medium case (3), described indoor cold and hot terminal (5) has shell, heat exchanger (5-1) and blower fan, the heat exchanger (5-1) of each indoor cold and hot terminal (5) is communicated with the inner chamber of adiabatic energy-accumulating medium case (3) by pipeline in the mode of serial or parallel connection.
2. the integrated cooling/warming system of rural area according to claim 1 in conjunction with solar energy, it is characterized in that: also include solar panel, the blower fan of described miniature circulating pump (9), three-way magnetic valve (10) and indoor cold and hot terminal (5) supplies electric drive by solar panel.
3. the integrated cooling/warming system of rural area according to claim 1 in conjunction with solar energy, is characterized in that: in described adiabatic energy-accumulating medium case (3), be provided with electrical auxiliary heater (11).
4. the integrated cooling/warming system of rural area according to claim 1 in conjunction with solar energy, is characterized in that: in the connecting pipeline of described heat exchanger (5-1) and adiabatic energy-accumulating medium case (3), be provided with auxiliary miniature circulating pump (12).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420069058.7U CN203785319U (en) | 2014-02-11 | 2014-02-11 | Solar energy combined integrated heating and cooling system for country |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420069058.7U CN203785319U (en) | 2014-02-11 | 2014-02-11 | Solar energy combined integrated heating and cooling system for country |
Publications (1)
Publication Number | Publication Date |
---|---|
CN203785319U true CN203785319U (en) | 2014-08-20 |
Family
ID=51321498
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201420069058.7U Expired - Fee Related CN203785319U (en) | 2014-02-11 | 2014-02-11 | Solar energy combined integrated heating and cooling system for country |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN203785319U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108613337A (en) * | 2016-12-09 | 2018-10-02 | 陈琛 | A kind of fresh air temperature-controlling system |
CN112856574A (en) * | 2021-03-01 | 2021-05-28 | 重庆中沃科技有限公司 | Energy management system based on heat exchange |
-
2014
- 2014-02-11 CN CN201420069058.7U patent/CN203785319U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108613337A (en) * | 2016-12-09 | 2018-10-02 | 陈琛 | A kind of fresh air temperature-controlling system |
CN112856574A (en) * | 2021-03-01 | 2021-05-28 | 重庆中沃科技有限公司 | Energy management system based on heat exchange |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN205351809U (en) | Changes in temperature circulation system for house | |
CN201177341Y (en) | Natural energy fresh air ventilating energy-saving air conditioner | |
CN106016825A (en) | Solar and air source heat pump dual heat source tri-generation system | |
CN105258377A (en) | Solar energy-air source heat pump based triple-generation supply device | |
CN205641309U (en) | Supply system based on solar energy air source heat pump trigeminy | |
CN201637193U (en) | Heat pump system of multi-heat sources | |
CN202757228U (en) | Household type radiation air-conditioning system | |
CN1462855A (en) | Multi-functional heat pump type air conditioning water-heater | |
CN202648015U (en) | Indirect solar energy assisted air source heat pump radiant heating system | |
CN203785319U (en) | Solar energy combined integrated heating and cooling system for country | |
CN101285625B (en) | Ground source warm and cold air conditioner system | |
CN203116194U (en) | Household double-energy source high-efficiency high-temperature heat pump unit system | |
CN203595225U (en) | Fresh air heat recycling device for air conditioner | |
CN201514078U (en) | Solar energy air energy combination heating refrigerator | |
CN205119551U (en) | Supply device based on solar energy - air source heat pump trigeminy | |
CN203798015U (en) | Efficient two-stage heat pump unit system | |
CN203364309U (en) | Air conditioner and solar water heater combination system | |
CN210399311U (en) | Circulating type cold and heat cogeneration system in office building | |
CN103047726A (en) | Domestic dual-energy high-efficient high temperature heat pump system | |
CN203405027U (en) | Hybrid heat source type air-conditioning hot water combined supply system | |
CN203454314U (en) | Solar air conditioner and air-cooling module combined system | |
CN203550277U (en) | Indirect evaporation coupling solar cold and hot combined supplying system for rural family | |
CN202757221U (en) | Composite energy air condition hot water system | |
CN203771790U (en) | Low-temperature air source and solar energy combined triple co-generation system | |
CN202328907U (en) | Domestic heat pump water heater with heat recovery device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140820 Termination date: 20180211 |