CN206131274U - Solar energy soil -source uses multipurposely air conditioning system - Google Patents

Solar energy soil -source uses multipurposely air conditioning system Download PDF

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Publication number
CN206131274U
CN206131274U CN201621181255.3U CN201621181255U CN206131274U CN 206131274 U CN206131274 U CN 206131274U CN 201621181255 U CN201621181255 U CN 201621181255U CN 206131274 U CN206131274 U CN 206131274U
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CN
China
Prior art keywords
valve
water
connection
heat
heat exchanger
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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
Application number
CN201621181255.3U
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Chinese (zh)
Inventor
宁静红
梁友才
毛力
田津津
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Tianjin University of Commerce
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Tianjin University of Commerce
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Filing date
Publication date
Application filed by Tianjin University of Commerce filed Critical Tianjin University of Commerce
Priority to CN201621181255.3U priority Critical patent/CN206131274U/en
Application granted granted Critical
Publication of CN206131274U publication Critical patent/CN206131274U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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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
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A30/00Adapting or protecting infrastructure or their operation
    • Y02A30/27Relating to heating, ventilation or air conditioning [HVAC] technologies
    • Y02A30/272Solar heating or cooling
    • 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
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B10/00Integration of renewable energy sources in buildings
    • Y02B10/20Solar thermal

Abstract

The utility model discloses a solar energy soil -source uses multipurposely air conditioning system. The utility model discloses solar panel's the backheat mouth of a river is taken over with the entry of back water pump through the water return valve and is connected, the export takeover of back water pump and the backheat water connection union coupling of heat collector, the outlet connector of heat collector takes over with intaking of solar panel and is connected, the heat supply water export of heat collector falls into two the tunnel behind heat supply water pump, be connected through a building heat supply water valve and the hot water import takeover of the indoor adherence heat exchanger of a building all the way, another way falls into two branch roads, respectively with the entry linkage of second floor heat supply water valve with confession life hot water valve, the export of second floor heat supply water valve is connected with the hot water import takeover of the indoor adherence heat exchanger of second floor, the return water access connection of parallelly connected back and heat collector is taken over to the return water takeover and the return water of the indoor adherence heat exchanger of second floor of the indoor adherence heat exchanger of a building. The utility model discloses heating in winter and cooling in summer are realized to make full use of natural environment's the available solar energy and the soil energy, improve air conditioning system's efficiency, reduction initial cost, energy saving consumption.

Description

Solar energy soil source comprehensively utilizes air conditioning system
Technical field
This utility model is related to architectural environment air conditioning system field, is a kind of comprehensive utilization solar energy and soil source energy Air conditioning system.
Background technology
Heat supply in winter, summer cooling, to meet the need in the comfortable environment of an activation space of people are needed in modern architecture building Ask, heat supply in winter, summer cooling consumes mass energy, therefore the urgently available energy of exploitation natural environment, and solar energy is clear Clean regenerative resource, soil maintains throughout the year essentially constant temperature, therefore, Development & Multipurpose use solar energy and soil energy Source, realizes heat supply in winter and summer cooling, meanwhile, aerofluxuss of the cooling in summer using soil to compressor are cooled down, drop The pressure ratio of low compression machine, improves the efficiency of air conditioning system, reduces the energy consumption of air conditioning system, also saves cooling water recirculation system, Reduce initial cost.But the research report and specific embodiment of related the problems referred to above is there are no at present.
Utility model content
This utility model is to overcome weak point of the prior art, there is provided a kind of utilization natural environment it is available too It is positive, to reduce the pressure ratio of compressor, wasted work to be reduced with the soil energy, the coefficient of performance of air conditioning system is improved, obtain air-conditioning The effects of energy conservation and environmental protection of system.
This utility model is achieved through the following technical solutions:
A kind of solar energy soil source comprehensively utilizes air conditioning system, it is characterised in that including the first stop valve, second section Only valve, adherent heat exchanger, second floor heat supply water valve, domestic hot-water supply valve, heat supply water pump, heat collector, back water pump, Stall in second floor room Indoor adherent heat exchanger, back-water valve (BWV), cross valve, the first heating power expansion valve, the 3rd stop valve, the 4th stop valve, the 5th stop valve, Second heating power expansion valve, compressor, the 6th stop valve, Stall heat supply water valve, solar heat-collection plate and ground heat exchanger.
The backheat mouth of a river of the solar heat-collection plate is connected through back-water valve (BWV) with the inlet connection of back water pump, and back water pump goes out Mouth adapter is connected with the backheat water adapter of heat collector, and the water outlet pipe of heat collector is connected with the water inlet adapter of solar heat-collection plate, The heat supply water out of heat collector is divided into two-way after heat supply water pump, adherent in Stall heat supply water valve with Stall room all the way to change The hot water inlet adapter connection of hot device, another road is divided into two branch roads, enters with second floor heat supply water valve and domestic hot-water supply valve respectively Mouth connection, second floor supplying hot water valve outlet port is connected with the hot water inlet adapter of adherent heat exchanger in second floor room, adherent in Stall room to change The connecting of hot device is connected with after the connecting parallel connection of adherent heat exchanger in second floor room with the backwater import of heat collector;
The outlet of the compressor is connected with the second interface of cross valve, and the first interface of cross valve is divided into four tunnels, and first Road is connected through the first stop valve with the refrigerant inlet adapter of adherent heat exchanger in Stall room, and the second tunnel is through the second stop valve It is connected with the refrigerant inlet adapter of adherent heat exchanger in second floor room, the 3rd tunnel is in parallel through the 6th stop valve, the 4th stop valve It is connected with the inlet connection of compressor afterwards, the 4th tunnel is connected with the discharge connection of the second heating power expansion valve, the 4th of cross valve connects Mouthful it is connected with the discharge connection of adherent heat exchanger in adherent heat exchanger in Stall room, second floor room, the 3rd interface of cross valve is distinguished It is connected with the import of the first heating power expansion valve entrance sleeve and the 3rd stop valve, the first heating power expansion valve discharge connection and the 3rd section Only it is connected with the inlet connection of ground heat exchanger after the outlet parallel connection of valve, the discharge connection of ground heat exchanger is respectively through the Four stop valves, the 5th stop valve are connected with the inlet connection of compressor and the inlet connection of the second heating power expansion valve.
The floor quantity according to building structure need determine, per layer can to set an interior adherent in each room Heat exchanger, the turnover pipeline between indoor adherent heat exchanger is connected in parallel.The quantity of the ground heat exchanger is according to building sides Long-pending size, the decision of the size of air conditioning system load.
This utility model has the following technical effect that:
Solar energy soil source of the present utility model comprehensively utilizes air conditioning system, make full use of natural environment it is available too It is positive to realize heat supply in winter and summer cooling with the soil energy, meanwhile, the pressure ratio of compressor is reduced, improve air conditioning system Efficiency, reduces initial cost, energy saving consumption.
Description of the drawings
Fig. 1 is the schematic diagram that this utility model solar energy soil source comprehensively utilizes air conditioning system.
Specific embodiment
This utility model is described in detail below in conjunction with the drawings and specific embodiments
As shown in figure 1, solar energy soil source of the present utility model comprehensively utilizes air conditioning system, it is characterised in that bag Include the first stop valve 1, the second stop valve 2, adherent heat exchanger 3, second floor heat supply water valve 4, domestic hot-water supply valve 5 in second floor room, supply Heat-exchanger pump 6, heat collector 7, back water pump 8, adherent heat exchanger 9, back-water valve (BWV) 10, cross valve 11, the first heating power expansion valve in Stall room 12nd, the 3rd stop valve 13, the 4th stop valve 14, the 5th stop valve 15, the second heating power expansion valve 16, compressor the 17, the 6th end Valve 18, Stall heat supply water valve 19, solar heat-collection plate 20 and ground heat exchanger 21.
The backheat mouth of a river of the solar heat-collection plate 20 is connected through back-water valve (BWV) 10 with the inlet connection of back water pump 8, backwater The backheat water adapter of the discharge connection of pump 8 and heat collector 7 is connected, the water outlet pipe of heat collector 7 and entering for solar heat-collection plate 20 Water adapter connection, the heat supply water out of heat collector 7 is divided into two-way after heat supply water pump 6, all the way through Stall heat supply water valve 19 With in Stall room adherent heat exchanger 9 hot water inlet adapter be connected, another road respectively with second floor heat supply water valve 4 and domestic hot-water supply The entrance connection of valve 5, second floor heat supply water valve 4 is exported and is connected with the hot water inlet adapter of adherent heat exchanger 3 in second floor room, Stall room Enter with the backwater of heat collector 7 after the connecting of interior adherent heat exchanger 9 is in parallel with the connecting of adherent heat exchanger 3 in second floor room Mouth connection.
The outlet of the compressor 17 is connected with the second interface of cross valve 11, and the first interface of cross valve 11 is divided into four Road, the first via is connected through the first stop valve 1 with the refrigerant inlet adapter of adherent heat exchanger 9 in Stall room, and the second tunnel is passed through Second stop valve 2 with second floor room adherent heat exchanger 3 refrigerant inlet adapter be connected, the 3rd tunnel through the 6th stop valve 18, It is connected with the inlet connection of compressor after the parallel connection of 4th stop valve 14, the 4th tunnel connects with the discharge connection of the second heating power expansion valve 16 Connect, the 4th interface 24 of cross valve 11 connects with the discharge connection of adherent heat exchanger 3 in adherent heat exchanger 9 in Stall room, second floor room Connect, the 3rd interface of cross valve 11 is connected respectively with the import of the entrance sleeve of the first heating power expansion valve 12 and the 3rd stop valve 13, Inlet connection after the outlet parallel connection of the discharge connection of the first heating power expansion valve 12 and the 3rd stop valve 13 with ground heat exchanger 21 Connection, the discharge connection of ground heat exchanger 21 enters respectively through the 4th stop valve 14, the 5th stop valve 15 with compressor 17 The inlet connection of mouth adapter and the second heating power expansion valve 16 connects.
The floor quantity according to building structure need determine, per layer can to set an interior adherent in each room Heat exchanger, the turnover pipeline between indoor adherent heat exchanger is connected in parallel.The quantity of the ground heat exchanger is according to building sides Long-pending size, the decision of the size of air conditioning system load.
When in the winter time, the recirculated water in solar heat-collection plate 20 absorbs the hot water of the heat intensification of external environment through backwater Valve 10 enters heat collector 7 with back water pump 8, and two-way is divided into after heat supply water pump 6, enters one through Stall heat supply water valve 19 all the way Adherent heat exchanger 9 provides thermal source for Stall rooms in building room, and another road is divided into two branch roads, carries through domestic hot-water supply valve 5 Domestic hot-water supply, enters adherent heat exchanger 3 in second floor room and provides thermal source for second floor rooms through second floor heat supply water valve 4, and one The backwater of adherent heat exchanger 9 is in parallel with the backwater of adherent heat exchanger 3 in second floor room in building room enters heat collector 7, the water outlet of heat collector 7 Into solar heat-collection plate 20.Meanwhile, the first stop valve 1, the second stop valve 2 are opened, and the 3rd stop valve 13 is closed, the 4th cut-off Valve 14 is opened, the 5th stop valve 15 is closed, the 6th stop valve 18 is closed, and the high temperature and high pressure gas that compressor 17 is discharged are through four-way The second interface of valve 11, first interface respectively enter in Stall room adherent heat exchanger 3 in adherent heat exchanger 9 and second floor room, with room Interior air heat exchange releases heat, supplements solar energy and is not enough to supplement heating to interior during indoor heating, condenses into liquid By the reducing pressure by regulating flow of the first heating power expansion valves of Jing 12 after the 4th interface, the 3rd interface of cross valve 11 into low-temp low-pressure liquid, Into ground heat exchanger 21, the 4th stop valves of gas Jing 14 for absorbing the heat of vaporization boiling of soil return compressor 17.
At summer, the recirculated water in solar heat-collection plate 20 absorbs the hot water of the heat intensification of external environment through backwater Valve 10 enters heat collector 7 with back water pump 8, and domestic hot-water is provided through domestic hot-water supply valve 5 after heat supply water pump 6, and second floor is supplied Hot water valve 4 and Stall heat supply water valve 19 are closed.Meanwhile, the first stop valve 1, the second stop valve 2 are opened, the 3rd stop valve 13 dozens Open, the 4th stop valve 14 is closed, the 5th stop valve 15 is opened, the 6th stop valve 18 is opened, the High Temperature High Pressure that compressor 17 is discharged Gas enters ground heat exchanger 21 through the second interface of cross valve 11, the 3rd interface and the 3rd stop valve 13, releases heat Measure to soil, after the 5th stop valve 15 enters the reducing pressure by regulating flow of the second heating power expansion valve 16, Jing first ends the liquid of condensation Valve 1, the second stop valve 2 respectively enter in Stall room adherent heat exchanger 3 in adherent heat exchanger 9 and second floor room, with room air Heat exchange absorbs the heat in room, and for the interior space cooling low-temperature receiver is provided, and the 4th of the gas Jing cross valves 11 of evaporation of absorbing heat the The 6th stop valves of Jing 18 return compressor 17 after interface, first interface 21.
The above is only preferred implementation of the present utility model, it is noted that general for the art For logical technical staff, on the premise of without departing from this utility model principle, some improvements and modifications can also be made, these change Enter and retouch also to should be regarded as protection domain of the present utility model.

Claims (1)

1. a kind of solar energy soil source comprehensively utilizes air conditioning system, it is characterised in that including the first stop valve, the second cut-off Adherent heat exchanger, second floor heat supply water valve, domestic hot-water supply valve, heat supply water pump, heat collector, back water pump, Stall room in valve, second floor room Interior adherent heat exchanger, back-water valve (BWV), cross valve, the first heating power expansion valve, the 3rd stop valve, the 4th stop valve, the 5th stop valve, Two heating power expansion valves, compressor, the 6th stop valve, Stall heat supply water valve, solar heat-collection plate and ground heat exchanger;It is described too The backheat mouth of a river of positive energy collecting plate is connected through back-water valve (BWV) with the inlet connection of back water pump, the discharge connection and heat collector of back water pump The adapter connection of backheat water, the water outlet pipe of heat collector takes over the water inlet of solar heat-collection plate and is connected, the supplying hot water of heat collector Outlet is divided into two-way after heat supply water pump, all the way in Stall heat supply water valve and Stall room adherent heat exchanger hot water inlet Adapter connection, another road be connected respectively with the entrance of second floor heat supply water valve and domestic hot-water supply valve, second floor supplying hot water valve outlet port and The hot water inlet adapter connection of adherent heat exchanger, pastes in Stall room in the connecting of adherent heat exchanger and second floor room in second floor room It is connected with the backwater import of heat collector after the connecting parallel connection of wall heat exchanger;The outlet of the compressor and the second of cross valve Interface connects, and the first interface of cross valve is divided into four tunnels, the first via adherent heat exchanger in the first stop valve and Stall room Refrigerant inlet adapter connection, the refrigerant inlet adapter of the second tunnel adherent heat exchanger in the second stop valve and second floor room connects Connect, the 3rd tunnel is connected after the 6th stop valve, the parallel connection of the 4th stop valve with the inlet connection of compressor, and the 4th tunnel is hot with second The discharge connection connection of power expansion valve, the 4th interface of cross valve and adherent heat exchange in adherent heat exchanger in Stall room, second floor room The discharge connection connection of device, the 3rd interface of cross valve enters respectively with the first heating power expansion valve entrance sleeve and the 3rd stop valve Inlet connection after the outlet parallel connection of mouth connection, the first heating power expansion valve discharge connection and the 3rd stop valve with ground heat exchanger Connection, the discharge connection of ground heat exchanger respectively through the 4th stop valve, the 5th stop valve and compressor inlet connection and The inlet connection connection of the second heating power expansion valve.
CN201621181255.3U 2016-10-27 2016-10-27 Solar energy soil -source uses multipurposely air conditioning system Expired - Fee Related CN206131274U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201621181255.3U CN206131274U (en) 2016-10-27 2016-10-27 Solar energy soil -source uses multipurposely air conditioning system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201621181255.3U CN206131274U (en) 2016-10-27 2016-10-27 Solar energy soil -source uses multipurposely air conditioning system

Publications (1)

Publication Number Publication Date
CN206131274U true CN206131274U (en) 2017-04-26

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106352456A (en) * 2016-10-27 2017-01-25 天津商业大学 Construction air-conditioning system by comprehensive utilization of solar energy and soil source

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106352456A (en) * 2016-10-27 2017-01-25 天津商业大学 Construction air-conditioning system by comprehensive utilization of solar energy and soil source

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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: 20170426

Termination date: 20171027