CN203810533U - All-weather solar energy supply device - Google Patents

All-weather solar energy supply device Download PDF

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Publication number
CN203810533U
CN203810533U CN201420211691.5U CN201420211691U CN203810533U CN 203810533 U CN203810533 U CN 203810533U CN 201420211691 U CN201420211691 U CN 201420211691U CN 203810533 U CN203810533 U CN 203810533U
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China
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heat
water
solar energy
phase
storage unit
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CN201420211691.5U
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Chinese (zh)
Inventor
赵民
孟祥兆
罗昔联
康维斌
顾兆林
金立文
王赞社
季伟
孙金宝
胡汪洋
薛洁
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中国建筑西北设计研究院有限公司
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    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/40Solar thermal energy, e.g. solar towers

Abstract

The utility model belongs to the technical application field of heating, ventilation and air conditioning, and relates to the indoor thermal comfort degree adjusting and system energy-saving process, in particular to an all-weather solar energy supply device. The device is composed of a solar energy heat collection unit, an auxiliary heat source, a phase change heat storage unit, a living hot water pot, an absorption refrigerator, a solid humidifying device and a capillary tube air conditioning terminal. Other auxiliary devices comprise a solar energy heat collection circulating pump, an auxiliary heat source circulation pump, a heat storage circulation pump, a living hot water pot heating pump, an absorption refrigerator hot water circulation pump, an absorption refrigerator cold water circulation pump, a solid humidifying device hot water circulation pump, a capillary tube air conditioning terminal circulation pump, an electric three-way adjusting valve, a first electric two-way valve, a second electric two-way valve, a third electric two-way valve, a fourth electric two-way valve and the like. The all-weather solar energy supply device sufficiently utilizes solar energy resources, and achieves the functions of saving energy and improving indoor environment thermal comfort degree.

Description

A kind of all-weather solar power supply device
Technical field
The utility model belongs to HVAC technical applications, relates to indoor thermal comfort degree and regulates and energy saving of system process, particularly a kind of all-weather solar power supply device.
Background technology
Energy shortage and environmental pollution are the matters of utmost importance of 21st century facing mankind, in each field, greatly developing energy-conserving and emission-cutting technology, seek the only way that the alternative day by day traditional fossil energy of exhaustion of clean reproducible energy is considered to Future Social Development, is also one of technique direction of giving priority in National Program for Medium-to Long-term Scientific and Technological Development.This has comprised two layers of meaning, and the one, power-saving technology and the system of development traditional energy, the 2nd, find new forms of energy and make full use of regenerative resource.Building energy consumption is the important component part of entire society's energy consumption link, and take energy consumption that heating air conditioning is representative, accounts for 50% left and right of building total energy consumption.Heating equipment not only consumes the fossil energies such as a large amount of coal, natural gas, fuel oil every year, and can produce serious environmental pollution and the concentrated problem that exceeds standard of carbon emission.Development energy-saving building technology is most important to reducing the energy resource consumption of entire society and reducing the gentle solution of carbon emission environmental pollution pressure.The means of development building energy conservation are started with from two aspects equally, the one, development reduces the method for the consumption (as wall thermal insulating, glass heat-proof, rationally building structure etc.) of the energy, and the 2nd, use regenerative resource and reduce the consumption (as solar energy utilization, earth source heat pump, water resource heat pump, air source heat pump etc.) to traditional fossil energy.
The northern area of China solar radiation distributes very abundant.Take Xi'an as example, and Xi'an is the south in cold district in thermal technology's subregion, the coldest monthly mean temperature 0~-10 ℃, and Heating Period has four months, and the energy consumption that heating consumes accounts for 50% of whole building energy consumption.Per day total radiation between heating period can reach 5~10MJ/m 2, solar energy has important value.Yet solar energy is a kind of unsettled energy, affected by the factors such as season, meteorology, region larger, especially night, cannot provide sufficient and lasting energy supply.The biggest obstacle of solar energy scale heat utilization is at present that obtaining of solar energy is limited by climatic factor, and can not round-the-clock stable heating.Solar heat-preservation technology is utilized the phase-transition heat-storage of heat-storing material, can effectively reduce the required volume of energy accumulation, can realize fully and continually and steadily utilizing of solar energy, is the good approach addressing this problem.
Capillary network radiation refrigeration technology has progressively obtained application in high-end residential and public building, and be about to become one of the important way of summer cooling and direction of development, low temperature capillary radiation heating technology is used for reference radiation cooling technology and floor heating technology, take surface or dark deposited plastic material capillary network is radiation tail end device, rely on capillary network that larger radiation heat transfer area and uniform wall surface temperature is provided, reach the comfortable heating effect without blowing feeling.Another distinguishing feature of capillary network is that pipeline medium flow velocity is low, the heat transfer temperature difference of importing and exporting is less, generally only have 2~4 ℃, according to China's Heating Design standard, winter, indoor heating design temperature was 18~20 ℃, therefore, in capillary network, the temperature of heating medium can be between 30~35 ℃, cooling medium can be between 18~21 ℃, greatly reduce air-conditioning the temperature requirement for warm cooling medium, for the utilization of low-grade energy provides feasibility.
Application number is that 201010509782.3 Chinese patent discloses a kind of capillary network heat pump system that utilizes solar energy, be applicable to central air conditioner system, this system utilizes heat pump to improve water temperature (28~32 ℃) when climatic environment is severe is in the winter time delivered to capillary network system, the impact of the easy climate of this system, source pump can be affected in lower its efficiency of area of northern environment temperature.Application number is that 201010611919.6 Chinese patent discloses a kind of solar energy, heat pump and capillary network compound hot water heating/refrigerating device, this device adopts heat storage water tank to store the energy of solar energy, when water tank temperature is not enough, utilize water resource heat pump to promote the temperature of water tank, this device belongs to sensible heat storage for the storage of solar energy, the volume of heat storage water tank is larger, can cause system huge, should not effectively promote.Application number is that 201110190676.8 Chinese patent discloses a kind of indoor geothermal heating structure that utilizes capillary network and phase change heat storage material, this structure is located at phase change heat storage material and capillary network equipment-laid under user floor, and it is expanding with heat and contract with cold to the destruction on user floor and the inconvenient maintenance brought of heat-storing material that this structure is laid on by phase change heat storage material the potential hazard bringing under user floor.The heating system that earth source heat pump or water source heat pump system coordinate with solar energy, capillary network system has all been proposed in the Chinese patent that the Chinese patent patent that the Chinese patent that is 201120081136.1 at application number, application number are 201110160980.8 and application number are 201010509781.9, although this frame mode has also utilized solar energy, but still must open heat pump in the time period at night, carry out makeup energy, and systematic comparison is complicated.Application number is that 200920350744.0 Chinese patent has been announced a kind of Novel air-conditioning system for top plate of capillary tube of ground source heat pump based on solution dehumidification, and this system directly utilizes earth source heat pump for thermal source, does not use this clean energy resource of solar energy.
Effectively utilize this clean energy resource of solar energy, increase the hot comfort of indoor environment, the round-the-clock use of consideration solar energy and the energy is without interruption comprehensively, and guarantees the efficient method of utilizing of indoor thermal comfort degree winter or summer.
Utility model content
The purpose of this utility model is to solve above-mentioned the problems of the prior art, and a kind of all-weather solar power supply device that adopts solar heat-preservation, absorption refrigeration, solid damping and capillary network radiation is provided.
To achieve these goals, the technical scheme that the utility model adopts is: comprise by solar energy heating unit, phase-transition heat-storage unit, domestic hot-water's tank, Absorption Refrigerator, solid humidity control device and capillary air conditioning terminal, and by pipeline and corresponding by-pass valve control be connected to form summer fever source supplying system and winter thermal source supply system;
The connected mode of summer fever source supplying system is:
Solar energy heating unit with for storing with the phase-transition heat-storage unit of release heat, be connected, phase-transition heat-storage unit divides two-way to send heat, a road is communicated on the entrance of domestic hot-water's tank, another road is communicated on the thermal source entrance of Absorption Refrigerator; The chilled water outlet of Absorption Refrigerator is divided into two-way, and a road is connected with the entrance of capillary air conditioning terminal, and solid humidity control device the first entrance is sent chilled water in another road;
Winter, the connected mode of thermal source supply system was:
Solar energy heating unit is connected and carries out accumulation of heat with phase-transition heat-storage unit, heat Fen San road is sent in phase-transition heat-storage unit, the first via is communicated on the entrance of domestic hot-water's tank, the second tunnel is communicated on the entrance of capillary air conditioning terminal, Third Road is connected with the second entrance of solid humidity control device, realizes humidification.
Described summer fever source supplying system, the coolant outlet of Absorption Refrigerator is connected with the second entrance of solid humidity control device, realizes dehumidifying regeneration.
The auxiliary thermal source when porch of described phase-transition heat-storage unit is also connected with deep love in phase-transition heat-storage unit and can not meets system consumption.
On loop between described solar energy heating unit and auxiliary thermal source and phase-transition heat-storage unit, be provided with solar energy heating circulating pump and auxiliary thermal source circulating pump that power is provided for each self circular loop.
Described solar energy heating cellular installation is on roofing, and that solar thermal collector adopts is flat, the solar thermal collector of heat pipe-type or glass vacuum tube type; Auxiliary thermal source is installed in machine room, and auxiliary thermal source adopts boiler or burnt gas wall hanging furnace.
The exit of described phase-transition heat-storage unit arranges the accumulation of heat circulating pump that promising heat supply circulation provides power; The thermal source entrance of the entrance of domestic hot-water's tank, Absorption Refrigerator and the entrance of capillary air conditioning terminal are respectively arranged with domestic hot-water's tank heat pump, Absorption Refrigerator hot water circulating pump and the capillary air conditioning terminal circulating pump that power is provided for each self-loopa; The chilled water outlet place of Absorption Refrigerator arranges the Absorption Refrigerator cold water circulation pump that promising chilled water circulation provides power, and the second porch of solid humidity control device is provided with solid humidity control device hot water circulating pump.
Described phase-transition heat-storage cellular installation, in machine room, is provided with heat accumulation pipe and heat removing tube in phase-transition heat-storage unit, heat accumulation pipe and heat removing tube adopt staggered mode to be distributed in phase-transition heat-storage unit; Domestic hot-water's tank is installed in machine room, adopts storage heat exchanger.
Described Absorption Refrigerator is installed in machine room, adopts lithium bromide single-action hot water Absorption Refrigerator; Its thermal source is 70~85 ℃ of low-temperature water heatings that provided by solar energy heating unit or auxiliary thermal source, prepares the high temperature chilled water of 16~20 ℃, and cooling water water temperature is 30~35 ℃, and a part reclaims as the regeneration of solid humidity control device, and a part drains into outdoor.
Described solid humidity control device is installed in machine room, adopts solid-state silica as damping medium; The built-in air cleaner of solid humidity control device, blower fan and automatic controller, be connected with air-conditioned room by airduct, and the air of processing is sent into air-conditioned room.
Described capillary air conditioning terminal is arranged in roof or the wall inner side of air-conditioned room, and internal diameter capillaceous is 2~4mm, adopts 30~35 ℃ of low temperature hot water radiation heating winter, adopts the high temperature cold water radiation cooling of 16~20 ℃ summer.
Compared with prior art, the utlity model has following beneficial effect:
The utility model utilizes the solar energy utilization technique of existing maturation, under existing solar energy heating actuator temperature, utilize phase-transition heat-storage technology, sorption type refrigerating technology, solid conditioning technique and capillary network low-temp radiating characteristic to realize the secondary distribution of cascade utilization and the energy of low-grade energy, improve the utilization ratio of heat.First this system, is made full use of and stores solar energy by heat storage technology, effectively utilizes this renewable and clean energy resource of solar energy, obtains stable thermal source supply; The second, realize low-temperature water heating heating by capillary network winter; The 3rd, provide high temperature cold water by Absorption Refrigerator for end summer, realizes high temperature cold water cooling on the one hand by capillary network, on the other hand, by solid humidity control device, regulates indoor humidity, realizes humidity regulation.
Accompanying drawing explanation
Fig. 1 is structure principle chart of the present utility model.
Wherein, 1 is solar energy heating unit; 2 is auxiliary thermal source; 3 is phase-transition heat-storage unit; 4 is life hot-water cylinder; 5 is Absorption Refrigerator; 6 is solid humidity control device; 7 is capillary air conditioning terminal; 8 is solar energy heating circulating pump; 9 is auxiliary thermal source circulating pump; 10 is accumulation of heat circulating pump; 11 is life hot-water cylinder heat pump; 12 is Absorption Refrigerator hot water circulating pump; 13 is Absorption Refrigerator cold water circulation pump; 14 is solid humidity control device hot water circulating pump; 15 is capillary air conditioning terminal circulating pump; 16 is electric three-way regulating valves; 17 is the first two-way electronic valve; 18 is the second two-way electronic valve; 19 is the 3rd two-way electronic valve; 20 is the 4th two-way electronic valve.
The specific embodiment
Below in conjunction with accompanying drawing, structural principle of the present utility model and operation principle are described in further detail.
Referring to Fig. 1, the utility model comprises by solar energy heating unit 1, phase-transition heat-storage unit 3, domestic hot-water's tank 4, Absorption Refrigerator 5, solid humidity control device 6 and capillary air conditioning terminal 7, and by pipeline and corresponding by-pass valve control be connected to form summer fever source supplying system and winter thermal source supply system;
Solar energy heating unit 1 is installed on roofing, and that solar thermal collector adopts is flat, the solar thermal collector of heat pipe-type or glass vacuum tube type; Auxiliary thermal source 2 is installed in machine room, and auxiliary thermal source adopts boiler or burnt gas wall hanging furnace.
Auxiliary thermal source 2 when the porch of phase-transition heat-storage unit 3 is connected with deep love in phase-transition heat-storage unit 3 and can not meets system consumption.On loop between solar energy heating unit 1 and auxiliary thermal source 2 and phase-transition heat-storage unit 3, be provided with solar energy heating circulating pump 8 and auxiliary thermal source circulating pump 9 that power is provided for each self circular loop.
The exit of phase-transition heat-storage unit 3 arranges the accumulation of heat circulating pump 10 that promising heat supply circulation provides power; The thermal source entrance of the entrance of domestic hot-water's tank 4, Absorption Refrigerator 5 and the entrance of capillary air conditioning terminal 7 are respectively arranged with domestic hot-water's tank heat pump 11, Absorption Refrigerator hot water circulating pump 12 and the capillary air conditioning terminal circulating pump 15 that power is provided for each self-loopa; The chilled water outlet place of Absorption Refrigerator 5 arranges the Absorption Refrigerator cold water circulation pump 13 that promising chilled water circulation provides power, and the second porch of solid humidity control device 6 is provided with solid humidity control device hot water circulating pump 14.Phase-transition heat-storage unit 3 is installed in machine room, is provided with heat accumulation pipe and heat removing tube in phase-transition heat-storage unit, and heat accumulation pipe and heat removing tube adopt staggered mode to be distributed in phase-transition heat-storage unit 3; Domestic hot-water's tank 4 is installed in machine room, adopts storage heat exchanger.
Absorption Refrigerator 5 is installed in machine room, adopts lithium bromide single-action hot water Absorption Refrigerator; Its thermal source is 70~85 ℃ of low-temperature water heatings that provided by solar energy heating unit 1 or auxiliary thermal source 2, prepares the high temperature chilled water of 16~20 ℃, and cooling water water temperature is 30~35 ℃, and a part reclaims as the regeneration of solid humidity control device, and a part drains into outdoor.
Solid humidity control device 6 is installed in machine room, adopts solid-state silica as damping medium; The built-in air cleaner of solid humidity control device 6, blower fan and automatic controller, be connected with air-conditioned room by airduct, and the air of processing is sent into air-conditioned room.
Capillary air conditioning terminal 7 is arranged in roof or the wall inner side of air-conditioned room, and internal diameter capillaceous is 2~4mm, adopts 30~35 ℃ of low temperature hot water radiation heating winter, adopts the high temperature cold water radiation cooling of 16~20 ℃ summer.
In addition, the utility model be also provided with for regulate switch summer fever source supplying system and winter thermal source supply system other auxiliary equipment, comprise electric three-way regulating valves 16, the first two-way electronic valve 17, the second two-way electronic valve 18, the 3rd two-way electronic valve 19 and the 4th two-way electronic valve 20 etc.Be arranged in machine room, and be connected by pipeline.Wherein, after the first two-way electronic valve 17 and the second two-way electronic valve 18 converge, be connected to one end of electric T-shaped valve 16, the other end of electric T-shaped valve 16 is connected with capillary air conditioning terminal circulating pump 15, and the 3rd interface of electric T-shaped valve 16 is connected with capillary air conditioning terminal 7 circulation return pipes.
Concrete connected mode:
1) summer fever source supplying system:
Solar energy heating unit 1 with for storing with the phase-transition heat-storage unit 3 of release heat, be connected, phase-transition heat-storage unit 3 divides two-way to send heat, a road is communicated on the entrance of domestic hot-water's tank 4, another road is communicated on the thermal source entrance of Absorption Refrigerator 5; The chilled water outlet of Absorption Refrigerator 5 is divided into two-way, and a road is connected with the entrance of capillary air conditioning terminal 7, and solid humidity control device 6 first entrances are sent chilled water in another road; The coolant outlet of Absorption Refrigerator 5 is connected with the second entrance of solid humidity control device 6, realizes dehumidifying regeneration.
2) winter thermal source supply system:
Solar energy heating unit 1 is connected and carries out accumulation of heat with phase-transition heat-storage unit 3, heat Fen San road is sent in phase-transition heat-storage unit 3, the first via is communicated on the entrance of domestic hot-water's tank 4, the second tunnel is communicated on the entrance of capillary air conditioning terminal 7, Third Road is connected with the second entrance of solid humidity control device 6, realizes humidification.
Principle of the present utility model is:
In summer, by solar energy heating, accumulation of heat, realizes the thermal source supply of domestic hot-water and absorption refrigeration.Concrete flow process is: the hot water of solar energy heating unit 1 outlet is sent into phase-transition heat-storage unit 3 through solar energy heating circulating pump 8, realize accumulation of heat, by accumulation of heat circulating pump 10, divide two-way to send the heat of storage: a road is via domestic hot-water's tank heat pump 11 heating domestic hot-water tanks 4; Another road provides thermal source via Absorption Refrigerator hot water circulating pump 12 for Absorption Refrigerator 5.The chilled water of being prepared by Absorption Refrigerator 5 is sent by 12 minutes two-way of Absorption Refrigerator hot water circulating pump: a road provides cold water via two-way electronic valve 18, electric three-way regulating valves 16, capillary air conditioning terminal circulating pump 15 for capillary air conditioning terminal 7; Solid humidity control device 6 is sent on another road.The cooling water recoverable being discharged by Absorption Refrigerator 5, enters solid humidity control device 6 via two-way electronic valve 19, solid humidity control device hot water circulating pump 14, realizes dehumidifying regeneration.When freezing summer, close the first two-way electronic valve 17, open the second two-way electronic valve 18, open the 3rd two-way electronic valve 19, close the 4th two-way electronic valve 20.When the heat of phase-transition heat-storage unit 3 can not meet system consumption, by auxiliary thermal source 2, be 3 accumulation of heats of phase-transition heat-storage unit.
In winter, by solar energy heating, accumulation of heat, realizes the thermal source supply of domestic hot-water and heating.Concrete flow process is: the hot water of solar energy heating unit 1 outlet is sent into phase-transition heat-storage unit 3 through solar energy heating circulating pump 8, realize accumulation of heat, by accumulation of heat circulating pump 10, the heat Fen San road of storage is sent: a road is via domestic hot-water's tank heat pump 11 heating domestic hot-water tanks 4; The second tunnel provides hot water via two-way electronic valve 17, electric three-way regulating valves 16, capillary air conditioning terminal circulating pump 15 for capillary air conditioning terminal 7; Third Road enters solid humidity control device 6 via two-way electronic valve 20, solid humidity control device hot water circulating pump 14, realizes humidification.When freezing summer, open the first two-way electronic valve 17, close the second two-way electronic valve 18, close the 3rd two-way electronic valve 19, open the 4th two-way electronic valve 20.When the heat of phase-transition heat-storage unit 3 can not meet system consumption, by auxiliary thermal source 2, be 3 accumulation of heats of phase-transition heat-storage unit.
Advantage of the present utility model:
The utility model is for the round-the-clock this clean energy resource of solar energy that effectively utilizes, and from the storage of solar energy, the several links of effective use of the absorption refrigeration in summer and solid damping and end low-grade energy design.Fully take into account the solar energy use of the whole year, especially, summer, superfluous heat effectively utilized, and capillary network low-temperature radiation cool-supply, the less demanding advantage of heating to Cooling and Heat Source temperature, utilize solar energy heating unit to gather heat, by phase-transition heat-storage unit, store and heat supply, and by the cooperating of valve and corresponding circulating pump, the use solar energy resources of final comprehensive and reasonable, realizes function energy-conservation and raising indoor environment hot comfort.
The above, it is only preferred embodiment of the present utility model, not the utility model is done to any pro forma restriction, although the utility model discloses as above with preferred embodiment, yet not in order to limit the utility model, any those skilled in the art, do not departing within the scope of technical solutions of the utility model, when can utilizing the method for above-mentioned announcement and technology contents to make a little change or being modified to the equivalent embodiment of equivalent variations, in every case be the content that does not depart from technical solutions of the utility model, any simple modification of above embodiment being done according to technical spirit of the present utility model, equivalent variations and modification, still belong in the scope of technical solutions of the utility model.

Claims (10)

1. an all-weather solar power supply device, it is characterized in that: comprise by solar energy heating unit (1), phase-transition heat-storage unit (3), domestic hot-water's tank (4), Absorption Refrigerator (5), solid humidity control device (6) and capillary air conditioning terminal (7), and by pipeline and corresponding by-pass valve control be connected to form summer fever source supplying system and winter thermal source supply system;
The connected mode of summer fever source supplying system is:
Solar energy heating unit (1) with for storing with the phase-transition heat-storage unit (3) of release heat, be connected, phase-transition heat-storage unit (3) divides two-way to send heat, one tunnel is communicated on the entrance of domestic hot-water's tank (4), and another road is communicated on the thermal source entrance of Absorption Refrigerator (5); The chilled water outlet of Absorption Refrigerator (5) is divided into two-way, and a road is connected with the entrance of capillary air conditioning terminal (7), and solid humidity control device (6) first entrances are sent chilled water in another road;
Winter, the connected mode of thermal source supply system was:
Solar energy heating unit (1) is connected and carries out accumulation of heat with phase-transition heat-storage unit (3), heat Fen San road is sent in phase-transition heat-storage unit (3), the first via is communicated on the entrance of domestic hot-water's tank (4), the second tunnel is communicated on the entrance of capillary air conditioning terminal (7), Third Road is connected with the second entrance of solid humidity control device (6), realizes humidification.
2. all-weather solar power supply device according to claim 1, it is characterized in that: described summer fever source supplying system, the coolant outlet of Absorption Refrigerator (5) is connected with the second entrance of solid humidity control device (6), realizes dehumidifying regeneration.
3. all-weather solar power supply device according to claim 1, is characterized in that: the auxiliary thermal source (2) when the porch of described phase-transition heat-storage unit (3) is also connected with deep love in phase-transition heat-storage unit (3) and can not meets system consumption.
4. all-weather solar power supply device according to claim 3, is characterized in that: on the loop between described solar energy heating unit (1) and auxiliary thermal source (2) and phase-transition heat-storage unit (3), be provided with solar energy heating circulating pump (8) and auxiliary thermal source circulating pump (9) that power is provided for each self circular loop.
5. according to the all-weather solar power supply device described in claim 2 or 4, it is characterized in that: described solar energy heating unit (1) is installed on roofing, that solar thermal collector adopts is flat, the solar thermal collector of heat pipe-type or glass vacuum tube type; Auxiliary thermal source (2) is installed in machine room, and auxiliary thermal source adopts boiler or burnt gas wall hanging furnace.
6. according to the all-weather solar power supply device described in claim 1,2 or 3, it is characterized in that: the exit of described phase-transition heat-storage unit (3) arranges the accumulation of heat circulating pump (10) that promising heat supply circulation provides power; The entrance of the thermal source entrance of the entrance of domestic hot-water's tank (4), Absorption Refrigerator (5) and capillary air conditioning terminal (7) is respectively arranged with domestic hot-water's tank heat pump (11), Absorption Refrigerator hot water circulating pump (12) and the capillary air conditioning terminal circulating pump (15) that power is provided for each self-loopa; The chilled water outlet place of Absorption Refrigerator (5) arranges the Absorption Refrigerator cold water circulation pump (13) that promising chilled water circulation provides power, and the second porch of solid humidity control device (6) is provided with solid humidity control device hot water circulating pump (14).
7. all-weather solar power supply device according to claim 6, it is characterized in that: described phase-transition heat-storage unit (3) is installed in machine room, in phase-transition heat-storage unit, be provided with heat accumulation pipe and heat removing tube, heat accumulation pipe and heat removing tube adopt staggered mode to be distributed in phase-transition heat-storage unit (3); Domestic hot-water's tank (4) is installed in machine room, adopts storage heat exchanger.
8. all-weather solar power supply device according to claim 1 and 2, is characterized in that: described Absorption Refrigerator (5) is installed in machine room, adopts lithium bromide single-action hot water Absorption Refrigerator; Its thermal source is 70~85 ℃ of low-temperature water heatings that provided by solar energy heating unit (1) or auxiliary thermal source (2), prepare the high temperature chilled water of 16~20 ℃, cooling water water temperature is 30~35 ℃, and a part reclaims as the regeneration of solid humidity control device, and a part drains into outdoor.
9. all-weather solar power supply device according to claim 1 and 2, is characterized in that: described solid humidity control device (6) is installed in machine room, adopts solid-state silica as damping medium; The built-in air cleaner of solid humidity control device (6), blower fan and automatic controller, be connected with air-conditioned room by airduct, and the air of processing is sent into air-conditioned room.
10. all-weather solar power supply device according to claim 1, it is characterized in that: described capillary air conditioning terminal (7) is arranged in roof or the wall inner side of air-conditioned room, internal diameter capillaceous is 2~4mm, adopt 30~35 ℃ of low temperature hot water radiation heating winter, adopt the high temperature cold water radiation cooling of 16~20 ℃ summer.
CN201420211691.5U 2014-04-28 2014-04-28 All-weather solar energy supply device CN203810533U (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103925635A (en) * 2014-04-28 2014-07-16 中国建筑西北设计研究院有限公司 All-weather solar energy supply system
CN104501469A (en) * 2014-12-10 2015-04-08 哈尔滨工业大学 Flowing phase change and energy storage falling film evaporative heat exchange device
CN105180247A (en) * 2015-08-26 2015-12-23 朱杰 Central heating system and method with heat accumulation peak regulation function
CN105240897A (en) * 2015-11-03 2016-01-13 朱杰 Heat-storage peak regulating device used for power supply system
CN105570971A (en) * 2016-01-12 2016-05-11 谭汉卿 Solar heating system suitable for alpine regions
CN108224606A (en) * 2017-12-22 2018-06-29 江苏科技大学 A kind of heat pump humidifier and method of work

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103925635A (en) * 2014-04-28 2014-07-16 中国建筑西北设计研究院有限公司 All-weather solar energy supply system
CN103925635B (en) * 2014-04-28 2016-12-07 中国建筑股份有限公司 A kind of all-weather solar energy supplying system
CN104501469A (en) * 2014-12-10 2015-04-08 哈尔滨工业大学 Flowing phase change and energy storage falling film evaporative heat exchange device
CN105180247A (en) * 2015-08-26 2015-12-23 朱杰 Central heating system and method with heat accumulation peak regulation function
CN105240897A (en) * 2015-11-03 2016-01-13 朱杰 Heat-storage peak regulating device used for power supply system
CN105240897B (en) * 2015-11-03 2019-11-22 南京酷朗电子有限公司 A kind of accumulation of heat peak adjusting device for heating system
CN105570971A (en) * 2016-01-12 2016-05-11 谭汉卿 Solar heating system suitable for alpine regions
CN108224606A (en) * 2017-12-22 2018-06-29 江苏科技大学 A kind of heat pump humidifier and method of work

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