CN201259285Y - Solar auxiliary heating and cooling station system - Google Patents

Solar auxiliary heating and cooling station system Download PDF

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Publication number
CN201259285Y
CN201259285Y CNU2008200965387U CN200820096538U CN201259285Y CN 201259285 Y CN201259285 Y CN 201259285Y CN U2008200965387 U CNU2008200965387 U CN U2008200965387U CN 200820096538 U CN200820096538 U CN 200820096538U CN 201259285 Y CN201259285 Y CN 201259285Y
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CN
China
Prior art keywords
heat
cold
circulatory mediator
primary
pipe
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Expired - Fee Related
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CNU2008200965387U
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Chinese (zh)
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牟端
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牟端
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Priority to CNU2008200965387U priority Critical patent/CN201259285Y/en
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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
    • 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
    • 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
    • Y02B10/70Hybrid systems, e.g. uninterruptible or back-up power supplies integrating renewable energies

Abstract

The utility model discloses a solar-powered subsidiary heating and cooling station system. A flow control valve is arranged on a primary side hot and cold circulating medium return tube of a plate type heat exchanger; a heating circulating medium outlet of a heat-preserving water tank is connected with the primary side hot and cold circulating medium return tube through a pipeline; a secondary side hot and cold circulating medium supply inlet of the plate type heat exchanger is connected with a secondary side hot and cold circulating medium return tube; a secondary side hot and cold circulating medium supply outlet is connected with a secondary side hot and cold circulating medium supply tube; and an electronic controller is connected with a primary side hot and cold circulating medium return tube temperature sensor, a primary side hot and cold circulating medium inlet tube temperature sensor, a secondary side hot and cold circulating medium supply tube temperature sensor, a heat-preserving water tank temperature sensor, an indoor temperature sensor, an outdoor temperature sensor, a circulating water pump A and the flow control valve. The utility model, which can implement the functions of heat supply, cold supply and domestic hot water supply, is characterized by simple structure, convenient control, high long-term reliability and cheapness.

Description

The cold power of solar-assisted heat station system
Technical field
The utility model relates to field of energy-saving technology, relates in particular to a kind of regional heating, cold supply system.
Background technology
Along with growth in the living standard, many places need the heating in winter, and summer, refrigeration provided life hot water the whole year, needed to save simultaneously the energy and protection environment again.Regional heating, regional central cooling and solar water heating system all are the effective energy-conserving and environment-protective technology that has been proved to be separately.Existing regional central cooling needs to finish with the different pipe-line system of two covers with regional heating.Increase cost, caused unnecessary waste.
Summary of the invention
The purpose of this utility model be to overcome above-mentioned shortcoming and provide a kind ofly can realize heat supply, cooling and the triple functions of life with hot water is provided has simple in structurely, control is convenient, long-term reliability height, the cold power of the solar-assisted heat that price is low station.
The purpose of this utility model and solve its technical problem underlying and realize by the following technical solutions: the cold power of the utility model solar-assisted heat station system, comprise heat-exchangers of the plate type, warming water tank, electronic controller, expansion drum, water circulating pump A, wherein: heat-exchangers of the plate type is provided with the cold circulatory mediator inlet of primary side district heating, the cold circulatory mediator outlet of heat-exchangers of the plate type primary side district heating, the cold circulatory mediator inlet of secondary side heat supply, the cold circulatory mediator outlet of secondary side heat supply, the cold circulatory mediator inlet of primary side district heating links to each other with the cold circulatory mediator feed tube of primary side heat, the cold circulatory mediator outlet of primary side district heating links to each other with the cold circulatory mediator liquid back pipe of primary side heat, and the cold circulatory mediator liquid back pipe of primary side heat is provided with flow control valve; Warming water tank is provided with heat supply circulatory mediator inlet, the outlet of heat supply circulatory mediator, cold water inlet, hot water outlet; Be connected by pipeline between the heat supply circulatory mediator of warming water tank inlet and the hot cold circulatory mediator feed tube of primary side, pipeline is provided with valve A; The heat supply circulatory mediator outlet of warming water tank is connected by pipeline with the cold circulatory mediator liquid back pipe of primary side heat, and pipeline is provided with valve B; The cold circulatory mediator inlet of heat-exchangers of the plate type secondary side heat supply links to each other with the cold circulatory mediator liquid back pipe of secondary side heat, the hot cold circulatory mediator feed pipe of secondary side is provided with expansion drum; The cold circulatory mediator outlet of secondary side heat supply is connected with the cold circulatory mediator feed pipe of secondary side heat, and the cold circulatory mediator liquid back pipe of secondary side heat supply is provided with water circulating pump A; The cold water inlet of warming water tank links to each other with cold water pipe, hot water outlet links to each other with hot-water line;
The cold circulatory mediator liquid back pipe temperature sensor of primary side heat, the cold circulatory mediator feed tube temperature sensor of primary side heat, the cold circulatory mediator feed pipe temperature sensor of secondary side heat, warming water tank temperature sensor, indoor temperature transmitter, outdoor temperature sensor, water circulating pump A and flow control valve link to each other with electronic controller.
The cold power of above-mentioned solar-assisted heat station system, wherein: cold water pipe, the cold circulatory mediator liquid back pipe of secondary side heat, the cold circulatory mediator feed tube of primary side heat are respectively equipped with filter A, filter B, filter C.
The cold power of above-mentioned solar-assisted heat station system, wherein: the cold circulatory mediator feed tube of primary side heat is provided with controlled valve A, controlled valve C, the cold circulatory mediator liquid back pipe of primary side heat is provided with controlled valve D, the cold circulatory mediator liquid back pipe of secondary side heat is provided with between the cold circulatory mediator inlet of controlled valve F, filter B and secondary side heat supply and is provided with controlled valve B, the cold circulatory mediator feed pipe of secondary side heat supply is provided with controlled valve E, and cold water pipe, hot-water line are respectively equipped with controlled valve H, controlled valve G.
The cold power of above-mentioned solar-assisted heat station system, wherein: be connected to the pipeline that is used to connect solar thermal collector on the valve A15, valve B links to each other with water circulating pump B with pipeline, and water circulating pump B and filter D link, and water circulating pump B links to each other with electronic controller.
The cold power of above-mentioned solar-assisted heat station system, wherein: valve A goes up with pipeline and links to each other with the outlet of solar heat collector to supply heat circulatory mediator, filter D links to each other with solar heat collector to supply heat circulatory mediator inlet through pipeline, and the solar thermal collector temperature sensor on the solar thermal collector links to each other with electronic controller.
The cold power of above-mentioned solar-assisted heat station system, wherein: valve A and valve B link to each other with secondary side in the regional heating cooling system through pipeline.
The utility model compared with prior art, as can be known from the above technical solutions, solar water heating system, the regional heating system, zone these three kinds of systems of central cooling system combine together, give full play to strong point separately, remedied the weakness of every kind of technology, thereby form a comparatively perfect system, adopting simple pipeline to connect switches, at cooling and simultaneously just in summer for life hot water, in heat supply simultaneously in winter with for life hot water, other the time supply to live and use hot water.Realized heat supply, cooling and provide life with the triple functions of hot water has simple in structurely, and control is convenient, long-term reliability height, the characteristics that price is low, thereby the market prospects that have.
Description of drawings
Fig. 1 is the structural representation of embodiment 1.
Fig. 2 is the structural representation of embodiment 2.
Fig. 3 is the structural representation of embodiment 3.
Fig. 4 is the structural representation of embodiment 4.
Mark among the figure:
1, heat-exchangers of the plate type, 2, the cold circulatory mediator inlet of primary side district heating, 3, the cold circulatory mediator outlet of primary side district heating, 4, the cold circulatory mediator inlet of secondary side heat supply, 5, the cold circulatory mediator outlet of secondary side heat supply, 6, warming water tank, 7, heat supply circulatory mediator inlet, 8, the outlet of heat supply circulatory mediator, 9, cold water inlet, 10, hot water outlet, 11, electronic controller, 12, expansion drum, 13, water circulating pump A, 14, flow control valve, 15, valve A, 16, valve B, 17, controlled valve A, 18, controlled valve B, 19, controlled valve C, 20, controlled valve D, 21, controlled valve E, 22, controlled valve F, 23, controlled valve G, 24, controlled valve H, 25, filter A, 26, filter B, 27, filter C, 28, the cold circulatory mediator liquid back pipe temperature sensor of primary side heat, 29, the cold circulatory mediator feed tube temperature sensor of primary side heat, 30, the cold circulatory mediator feed pipe temperature sensor of secondary side heat, 31, warming water tank temperature sensor, 32, indoor temperature transmitter, 33, outdoor temperature sensor, 34, the cold circulatory mediator feed tube of primary side heat, 35, the cold circulatory mediator liquid back pipe of primary side heat, 36, the cold circulatory mediator liquid back pipe of secondary side heat, 37, the cold circulatory mediator feed pipe of secondary side heat; 38, cold water pipe; 39, hot-water line; 40, water circulating pump B, 41, filter D, 42, solar thermal collector, 43, solar heat collector to supply heat circulatory mediator inlet, 44, the outlet of solar heat collector to supply heat circulatory mediator, 45, the solar thermal collector temperature sensor,
The specific embodiment
Below in conjunction with accompanying drawing and preferred embodiment, to the specific embodiment, structure, feature and effect thereof according to the cold power of the solar-assisted heat station that the utility model proposes, describe in detail as after.
Embodiment 1:
Referring to Fig. 1, the cold power of solar-assisted heat station system comprises heat-exchangers of the plate type (1), warming water tank (6), electronic controller (11), expansion drum (12), water circulating pump A (13), wherein: heat-exchangers of the plate type (1) is provided with the cold circulatory mediator inlet 2 of primary side district heating, the cold circulatory mediator outlet 3 of heat-exchangers of the plate type 1 primary side district heating, the cold circulatory mediator inlet 4 of secondary side heat supply, the cold circulatory mediator outlet 5 of secondary side heat supply, the cold circulatory mediator inlet 2 of primary side district heating links to each other with the cold circulatory mediator feed tube 34 of primary side heat, the cold circulatory mediator outlet 3 of primary side district heating links to each other with the cold circulatory mediator liquid back pipe 35 of primary side heat, and the cold circulatory mediator liquid back pipe 35 of primary side heat is provided with flow control valve 14; Warming water tank 6 is provided with heat supply circulatory mediator inlet 7, heat supply circulatory mediator outlet 8, cold water inlet 9, hot water outlet 10; Be connected by pipeline between the heat supply circulatory mediator of warming water tank 6 inlet 7 and the hot cold circulatory mediator feed tube 34 of primary side, pipeline is provided with valve A15; The hot cold circulatory mediator liquid back pipe of the outlet 8 of the heat supply circulatory mediator of warming water tank 6 and primary side 35 is connected by pipeline, and pipeline is provided with valve B16; The cold circulatory mediator inlet 4 of heat-exchangers of the plate type secondary side heat supply links to each other with the cold circulatory mediator liquid back pipe 36 of secondary side heat, the hot cold circulatory mediator feed pipe 37 of secondary side is provided with expansion drum 12; The cold circulatory mediator outlet 5 of secondary side heat supply is connected with the cold circulatory mediator feed pipe 37 of secondary side heat, and the cold circulatory mediator liquid back pipe 36 of secondary side heat supply is provided with water circulating pump A13; The cold water inlet 9 of warming water tank 6 links to each other with cold water pipe 38, hot water outlet 10 links to each other with hot-water line 39;
The cold circulatory mediator liquid back pipe temperature sensor 28 of primary side heat, the cold circulatory mediator feed tube temperature sensor 29 of primary side heat, the cold circulatory mediator feed pipe temperature sensor 30 of secondary side heat, warming water tank temperature sensor 31, indoor temperature transmitter 32, outdoor temperature sensor 33, water circulating pump A13 and flow control valve 14 link to each other with electronic controller 11.
Cold water pipe 38, the cold circulatory mediator liquid back pipe 36 of secondary side heat, the cold circulatory mediator feed tube 34 of primary side heat are respectively equipped with filter A25, filter B 26, filter C27.
The cold circulatory mediator feed tube 34 of primary side heat is provided with controlled valve A17, controlled valve C19, the cold circulatory mediator liquid back pipe 35 of primary side heat is provided with controlled valve D20, the cold circulatory mediator liquid back pipe 36 of secondary side heat is provided with 4 of the cold circulatory mediator inlets of controlled valve F22, filter B 26 and secondary side heat supply and is provided with controlled valve B18, the cold circulatory mediator feed pipe 37 of secondary side heat supply is provided with controlled valve E21, and cold water pipe 38, hot-water line 39 are respectively equipped with controlled valve H24, controlled valve G23.
In district cooling season, valve A15 and valve B16 keep apart warming water tank 6 heat supply circulatory mediators inlet 7 and outlet 8 fully with the regional heating cooling system, hot water in the warming water tank 6 is by the auxilliary heating of electricity, primary side cooling circulatory mediator in the regional heating cooling system passes to the cooling circulatory mediator of secondary side to cold, passes to the room refrigeration by its cold.In heat supply season, valve A15 and valve B16 are communicated with the domestic water in the heat supply circulatory mediator heating water tank in the usefulness regional heating cooling system to warming water tank heat supply circulatory mediator inlet 7 and outlet 8 fully with the regional heating cooling system.When not heat supply and cooling, the domestic water in the auxilliary heating water tank of electricity consumption.
Embodiment 2:
Referring to Fig. 2, be connected to the pipeline that is used to connect solar thermal collector 42 on the valve A15, valve B16 links to each other with water circulating pump B40 with pipeline, and water circulating pump B40 and filter D41 link, and water circulating pump B40 links to each other with electronic controller 11, and all the other are with embodiment 1.
Embodiment 3:
Referring to Fig. 3, valve A15 goes up with pipeline and links to each other with solar heat collector to supply heat circulatory mediator outlet 44, filter D41 links to each other with solar heat collector to supply heat circulatory mediator inlet 43 through pipeline, solar thermal collector temperature sensor 45 on the solar thermal collector 42 links to each other with electronic controller 11, and all the other are with embodiment 2.In district cooling season, valve A15 and valve B16 keep apart warming water tank heat supply circulatory mediator inlet 7 and outlet 8 fully with the regional heating cooling system, hot water in the warming water tank 6 is earlier by solar thermal collector 42 heating, heat by electricity is auxilliary when solar energy is not enough, primary side cooling circulatory mediator in the regional heating cooling system passes to the cooling circulatory mediator of secondary side to cold, passes to the room refrigeration by its cold.In heat supply season, valve A15 and valve B16 control are communicated with warming water tank heat supply circulatory mediator inlet 7 and outlet 8 respectively with solar thermal collector 42 or regional heating cooling system, hot water in the warming water tank 6 by solar thermal collector 42 heating, is used the domestic water in the heat supply circulatory mediator heating water tank in the regional heating cooling system earlier when solar energy is not enough.When not heat supply and cooling, with the domestic water in solar thermal collector 42 or the auxilliary heating water tank of electricity.
Embodiment 4:
Referring to Fig. 4, valve A15 and valve B16 link to each other with secondary side in the regional heating cooling system through pipeline, and all the other are with embodiment 1.

Claims (6)

1, the cold power of a kind of solar-assisted heat station system, it is characterized in that: comprise heat-exchangers of the plate type (1), warming water tank (6), electronic controller (11), expansion drum (12), water circulating pump A (13), wherein: heat-exchangers of the plate type (1) is provided with the cold circulatory mediator inlet of primary side district heating (2), the cold circulatory mediator outlet of heat-exchangers of the plate type (1) primary side district heating (3), the cold circulatory mediator inlet of secondary side heat supply (4), the cold circulatory mediator outlet of secondary side heat supply (5), the cold circulatory mediator inlet of primary side district heating (2) links to each other with the primary side cold circulatory mediator feed tube of heat (34), the cold circulatory mediator outlet of primary side district heating (3) links to each other with the primary side cold circulatory mediator liquid back pipe of heat (35), and the primary side cold circulatory mediator liquid back pipe of heat (35) is provided with flow control valve (14); Warming water tank 6 is provided with heat supply circulatory mediator inlet (7), the outlet of heat supply circulatory mediator (8), cold water inlet (9), hot water outlet (10); Be connected by pipeline between the heat supply circulatory mediator of warming water tank (6) inlet (7) and the hot cold circulatory mediator feed tube of primary side (34), pipeline is provided with valve A (15); The heat supply circulatory mediator outlet (8) of warming water tank (6) is connected by pipeline with the primary side cold circulatory mediator liquid back pipe of heat (35), and pipeline is provided with valve B (16); The cold circulatory mediator inlet of heat-exchangers of the plate type secondary side heat supply (4) links to each other with the secondary side cold circulatory mediator liquid back pipe of heat (36), the hot cold circulatory mediator feed pipe of secondary side (37) is provided with expansion drum (12); The cold circulatory mediator outlet of secondary side heat supply (5) is connected with the secondary side cold circulatory mediator feed pipe of heat (37), and the cold circulatory mediator liquid back pipe of secondary side heat supply (36) is provided with water circulating pump A (13); The cold water inlet (9) of warming water tank (6) links to each other with cold water pipe (38), hot water outlet (10) links to each other with hot-water line (39);
Primary side heat cold circulatory mediator liquid back pipe temperature sensor (28), primary side heat cold circulatory mediator feed tube temperature sensor (29), secondary side heat cold circulatory mediator feed pipe temperature sensor (30), warming water tank temperature sensor (31), indoor temperature transmitter (32), outdoor temperature sensor (33), water circulating pump A (13) and flow control valve (14) link to each other with electronic controller (11).
2, the cold power of solar-assisted heat as claimed in claim 1 station system is characterized in that: cold water pipe (38), secondary side heat cold circulatory mediator liquid back pipe (36), the primary side cold circulatory mediator feed tube of heat (34) are respectively equipped with filter A (25), filter B (26), filter C (27).
3, the cold power of solar-assisted heat as claimed in claim 1 or 2 station system, it is characterized in that: the primary side cold circulatory mediator feed tube of heat (34) is provided with controlled valve A (17), controlled valve C (19), the primary side cold circulatory mediator liquid back pipe of heat (35) is provided with controlled valve D (20), the secondary side cold circulatory mediator liquid back pipe of heat (36) is provided with controlled valve F (22), be provided with controlled valve B (18) between the cold circulatory mediator inlet of filter B (26) and secondary side heat supply (4), the cold circulatory mediator feed pipe of secondary side heat supply (37) is provided with controlled valve E (21), cold water pipe (38), hot-water line (39) is respectively equipped with controlled valve H (24), controlled valve G (23).
4, the cold power of solar-assisted heat as claimed in claim 3 station system, it is characterized in that: valve A is connected to the pipeline that is used to connect solar thermal collector (42) on (15), valve B (16) links to each other with water circulating pump B (40) with pipeline, water circulating pump B (40) and filter D (41) link, and water circulating pump B (40) links to each other with electronic controller (11).
5, the cold power of solar-assisted heat as claimed in claim 3 station system, it is characterized in that: valve A (15) goes up with pipeline and links to each other with solar heat collector to supply heat circulatory mediator outlet (44), filter D (41) links to each other with solar heat collector to supply heat circulatory mediator inlet (43) through pipeline, and the solar thermal collector temperature sensor (45) on the solar thermal collector (42) links to each other with electronic controller (11).
6, the cold power of solar-assisted heat as claimed in claim 3 station system is characterized in that: valve A (15) and valve B (16) link to each other with secondary side in the regional heating cooling system through pipeline.
CNU2008200965387U 2008-07-28 2008-07-28 Solar auxiliary heating and cooling station system Expired - Fee Related CN201259285Y (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CNU2008200965387U CN201259285Y (en) 2008-07-28 2008-07-28 Solar auxiliary heating and cooling station system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CNU2008200965387U CN201259285Y (en) 2008-07-28 2008-07-28 Solar auxiliary heating and cooling station system

Publications (1)

Publication Number Publication Date
CN201259285Y true CN201259285Y (en) 2009-06-17

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Family Applications (1)

Application Number Title Priority Date Filing Date
CNU2008200965387U Expired - Fee Related CN201259285Y (en) 2008-07-28 2008-07-28 Solar auxiliary heating and cooling station system

Country Status (1)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109595666A (en) * 2018-12-03 2019-04-09 湖南达道新能源开发有限公司 A kind of energy-saving type heating intake apparatus of heat consumer

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109595666A (en) * 2018-12-03 2019-04-09 湖南达道新能源开发有限公司 A kind of energy-saving type heating intake apparatus of heat consumer

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GR01 Patent grant
EXPY Termination of patent right or utility model
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20090617

Termination date: 20140728