CN207702574U - Solar energy and heat-storing warehouse heating system - Google Patents
Solar energy and heat-storing warehouse heating system Download PDFInfo
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- CN207702574U CN207702574U CN201721424357.8U CN201721424357U CN207702574U CN 207702574 U CN207702574 U CN 207702574U CN 201721424357 U CN201721424357 U CN 201721424357U CN 207702574 U CN207702574 U CN 207702574U
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- Prior art keywords
- heat
- water
- storing warehouse
- pipeline
- heating
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- 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
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/20—Solar thermal
-
- 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
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/70—Hybrid systems, e.g. uninterruptible or back-up power supplies integrating renewable energies
Abstract
The utility model belongs to solar heating technical field, more particularly to a kind of solar energy and heat-storing warehouse heating system;Including main controller, solar energy, water tank, heat-storing warehouse, heating terminal, inlet pipeline, water return pipeline;The beneficial effects of the utility model are:The utility model is simple in structure, is easily installed molding, using the heating system of solar energy and heat-storing warehouse complementation, daytime can using solar energy carry out heating, solar energy while heating by extra heat storage in heat-storing warehouse, heating is carried out by heat-storing warehouse release heat when the evening draws on or no light, daytime solar heating, night heat-storing warehouse heats so that system operation cost described in the utility model is low, convenience and high-efficiency.
Description
Technical field
The utility model belongs to solar heating technical field, more particularly to a kind of solar energy and heat-storing warehouse heating system.
Background technology
Solar energy is a kind of pollution-free, inexhaustible green energy resource, promotes heliotechnics, can not only delay
Energy crisis is solved, and has very important meaning to environmental protection, as heliotechnics continues to develop, utilizes solar energy
Heating is the target that people constantly pursue, and due to being influenced by weather, system operation cost is higher for traditional solar heating, night
Electricity or the supply of other supplementary energies, this patent can only be leaned on to devise the heating side of solar energy and heat-storing warehouse complementation when evening or without sunlight
Formula, daytime can using solar energy carry out heating, solar energy while heating by extra heat storage in heat-storing warehouse,
When the evening draws on or no light by heat-storing warehouse release heat carry out heating, daytime solar heating, night heat-storing warehouse heating, realize
Solar heating runs zero cost, no pollution.Continuous rainy days, this system devise auxiliary electric heater unit in order to prevent,
Electricity using also carrying out reasonable distribution use, the design of this system so that the sun according to paddy electricity and peak electricity by intelligence control system
The energy energy makes full use of, and solves the problems, such as that solar heating operating cost is high.
Utility model content
That purpose of the utility model is to solve system operation costs in the prior art is high, needs additional source of energy supply etc. asks
Topic provides a kind of solar energy that can meet solar heating requirement and heat-storing warehouse heating system.
To solve the above-mentioned problems, the utility model provides the following technical solution:
Solar energy and heat-storing warehouse heating system, including main controller, solar energy, water tank, heat-storing warehouse, heating terminal, water inlet pipe
Road, water return pipeline, the inlet pipeline are made of inlet pipeline a, inlet pipeline b, inlet pipeline c, inlet pipeline d, described time
Water lines are made of water return pipeline a, water return pipeline b, water return pipeline c, water return pipeline d, wherein:The solar energy respectively by into
Water lines a carries out unicom of connecting with water return pipeline a with water tank, and heating terminal passes through inlet pipeline b and water return pipeline b and storage respectively
Heat reservoir carries out series connection unicom, and the water tank is located at inlet pipeline c by inlet pipeline c and water return pipeline c and heating terminal unicom
With triple valve M is separately installed on water return pipeline c1With triple valve M2, inlet pipeline d and water return pipeline d respectively with triple valve M1With
Triple valve M2Unicom makes water tank, heating terminal, heat-storing warehouse three unicom parallel with one another.
Preferably, triple valve M1On water return pipeline c, and triple valve M1One end and water return pipeline d unicom so with storage
Heat reservoir is connected to, the triple valve M2On water inlet water lines c, and triple valve M2One end and inlet pipeline d unicom so with storage
Heat reservoir is connected to.
Preferably, it is separately installed with heat detector T on water return pipeline a and inlet pipeline a1With heat detector T2, it is located at water tank and storage
Heat detector T is separately installed in heat reservoir3With heat detector T4, heat detector T is installed positioned at heating terminal5。
Preferably, described to be separately installed with collection hot recycle pump on inlet pipeline a, inlet pipeline b and inlet pipeline c
P1, collection hot recycle pump P2Sum aggregate hot recycle pump P3, electrical heating D is separately installed in water tank and heat-storing warehouse1With electrical heating D2。
Preferably, collection hot recycle pump P is separately installed on inlet pipeline a, inlet pipeline b and inlet pipeline c1, thermal-arrest follows
Ring pumps P2Sum aggregate hot recycle pump P3, collection hot recycle pump P1On water inlet pipe a, collect hot recycle pump P2On water inlet pipe c,
Collect hot recycle pump P3On water inlet pipe b.
Preferably, triple valve M1, triple valve M2, heat detector T1, heat detector T2, heat detector T3, heat detector T4, heat detector T5、
Collect hot recycle pump P1, collection hot recycle pump P2, collection hot recycle pump P3, electrical heating D1, electrical heating D2All with main controller unicom and by master control
Device controls.
The beneficial effects of the utility model are:The utility model is simple in structure, is easily installed molding, using solar energy with
The heating system of heat-storing warehouse complementation can carry out heating, solar energy daytime while heating by extra heat using solar energy
Amount be stored in heat-storing warehouse, when the evening draws on or no light by heat-storing warehouse release heat carry out heating, daytime solar heating,
Night heat-storing warehouse heats so that system operation cost described in the utility model is low, convenience and high-efficiency.
Description of the drawings
Fig. 1 is the system diagram of the utility model solar energy and heat-storing warehouse heating system;
Fig. 2 is the system diagram of the utility model solar energy and heat-storing warehouse heating system;
Wherein:Main controller 1, solar energy 2, water tank 3, heat-storing warehouse 4, heating terminal 5, inlet pipeline 6, water return pipeline 7, water inlet
Pipeline a61, inlet pipeline b62, inlet pipeline c63, inlet pipeline d64, water return pipeline a71, water return pipeline b72, water return pipeline
C73, water return pipeline d74, triple valve M1731, triple valve M2631, heat detector T1711, heat detector T2611, heat detector T331, warming
Device T441, heat detector T551, collection hot recycle pump P1612, collection hot recycle pump P2631, collection hot recycle pump P3621, electrical heating D132, electric
Heat D242。
Specific implementation mode
The utility model is described in detail with reference to the accompanying drawings and embodiments, following implementation is only used for this reality
With novel content, invention content is not limited in following embodiments or embodiment, and described embodiment is only this reality
With novel a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, ordinary skill
Personnel's obtained other embodiment without making creative work, belongs to the model that the utility model is protected
It encloses.
Solar energy and heat-storing warehouse heating system, including main controller 1, solar energy 2, water tank 3, heat-storing warehouse 4, heating terminal 5, into
Water lines 6, water return pipeline 7, the inlet pipeline 6 is by inlet pipeline a61, inlet pipeline b62, inlet pipeline c63, inlet pipeline
D64 is formed, and the water return pipeline 7 is made of water lines a71, water return pipeline b72, water return pipeline c73, water return pipeline d74,
In:The solar energy 2 carries out unicom of connecting by inlet pipeline a61 with water return pipeline a71 with water tank 3 respectively, and heating terminal 5 divides
Unicom of connecting is not carried out with heat-storing warehouse 4 by inlet pipeline b62 and water return pipeline b72, the water tank 3 passes through inlet pipeline c63
With water return pipeline c73 and 5 unicom of heating terminal, triple valve is separately installed on inlet pipeline c63 and water return pipeline c73
M1731 and triple valve M2631, inlet pipeline d64 and water return pipeline d74 respectively with triple valve M1731 and triple valve M2631 unicom
Make water tank 3, heating terminal 5,4 three of heat-storing warehouse unicom parallel with one another.
The triple valve M1731 are mounted on water return pipeline c73, and triple valve M1731 one end and water return pipeline d74 unicom
And then it is connected to heat-storing warehouse 4, the triple valve M2631 are mounted on water inlet water lines c63, and triple valve M2631 one end and water inlet
Pipeline d64 unicom is connected to heat-storing warehouse 4 in turn.
It is separately installed with heat detector T on the water return pipeline a71 and inlet pipeline a611711 and heat detector T2611, it is located at
It is separately installed with heat detector T in water tank 3 and heat-storing warehouse 4331 and heat detector T432, heat detector is installed positioned at heating terminal 5
T551。
It is described to be separately installed with collection hot recycle pump on inlet pipeline a61, inlet pipeline b62, inlet pipeline c63
P1612, collection hot recycle pump P2631 sum aggregate hot recycle pump P3621, it is separately installed with electrical heating in water tank 3 and heat-storing warehouse 4
D132 and electrical heating D242。
Be separately installed on the inlet pipeline a61, inlet pipeline b62 and inlet pipeline c63 collection hot recycle pump P1612,
Collect hot recycle pump P2631 sum aggregate hot recycle pump P3621, collection hot recycle pump P1612 is mounted on water inlet pipe a61, collects hot recycle pump
P2631 are mounted on water inlet pipe c63, collect hot recycle pump P3621 are mounted on water inlet pipe b62.
The triple valve M1731, triple valve M2631, heat detector T1711, heat detector T2611, heat detector T331, heat detector
T441, heat detector T551, collection hot recycle pump P1612, collection hot recycle pump P2631, collection hot recycle pump P3621, electrical heating D132, electricity adds
Hot D242 all with 1 unicom of main controller and controlled by main controller 1.
Embodiment:
The utility model solar energy and heat-storing warehouse heating system, its working principle is that:
1. collecting amount of heat, heat collector tip temperature heat detector T by 2 heat collector of solar energy first1711 and water tank temperature
T331 detect respectively temperature >=10 DEG C when, collect hot recycle pump P1612 start operation, as heat detector T in water tank 3331 detect
When 3 temperature >=70 DEG C of water tank, collect hot recycle pump P1612 is out of service;
2. as heat detector T in water tank 3331 temperature >=50 DEG C detected, and heat detector T in heating terminal 5551 detect
Temperature≤20 DEG C when, triple valve M1731 and triple valve M2631 open inlet pipeline c63, water return pipeline c73, while thermal-arrest follows
Ring pumps P2631 start, and hot water in water tank 3 and the heat exchange of heating terminal 5 are heated.
3. working as 2 heat collector top heat detector T of solar energy1711, water tank heat detector T331, heating terminal heat detector T551 difference
Detect 2 heat collector temperature >=10 DEG C of solar energy, 3 temperature >=70 DEG C of water tank, 5 temperature >=20 DEG C of heating terminal, and heat detector
T441 when detecting 50 DEG C of 4 heat accumulation temperature < of heat-storing warehouse, triple valve M1731 and triple valve M2631 by inlet pipeline c63 and return water
Pipeline c73 switches to inlet pipeline d64 and water return pipeline d74, collection hot recycle pump P2631 start, and 3 hot water of water tank enters heat-storing warehouse
It exchanges heat with phase-change material after 4, and heat storage is got up, heat detector T441 when detecting heat accumulation temperature >=65 DEG C, collects thermal cycle
Pump P2631 is out of service.
4. working as heat detector T1711 detect 2 10 DEG C of heat collector temperature < of solar energy, heat detector T331 detect 3 temperature of water tank
50 DEG C of <, heat detector T551 detect 5 temperature≤20 DEG C of heating terminal, heat detector T441 detect 4 heat accumulation temperature >=50 of heat-storing warehouse
DEG C when, collect hot recycle pump P3621 start, and open inlet pipeline b62 and water return pipeline b72, are to adopt by release heat in heat-storing warehouse 4
It heats warm end 5;
5. working as heat detector T1711 detect 2 10 DEG C of heat collector temperature < of solar energy, heat detector T331 detect 3 temperature of water tank
50 DEG C of <, heat detector T441 when detecting 50 DEG C of 4 heat accumulation temperature < of heat-storing warehouse, if in the paddy electricity period, electrical heating D132 add with electricity
Hot D242 start, when 3 temperature of water tank is increased >=70 DEG C, electrical heating D132 stop, electrical heating D2Heat-storing material is heated in 42 startups
It carries out filling heat, 4 temperature of heat-storing warehouse is increased to stop at >=65 DEG C;If in peak potential period, electrical heating D242 do not start, by electrical heating
D132 start, electrical heating D when 3 temperature of water tank increases >=70 DEG C132 close.
6. working as heat detector T1711 detect 2 10 DEG C of heat collector temperature < of solar energy, heat detector T331 detect 3 temperature of water tank
50 DEG C of <, heat detector T441 detect 4 heat accumulation temperature >=65 DEG C of heat-storing warehouse, if in the paddy electricity period, electrical heating D242 do not start,
Electrical heating D132 start, when 3 temperature of water tank is increased to >=70 DEG C, electrical heating D132 stop;If in peak potential period, electrical heating
D132, electrical heating D242 do not start, collection hot recycle pump P3621 start, and inlet pipeline b62 and water return pipeline b72 are opened, by storing up
Heat reservoir 4 discharges heat and heats for heating terminal 5.
Claims (6)
1. solar energy and heat-storing warehouse heating system, including main controller, solar energy, water tank, heat-storing warehouse, heating terminal, inlet pipeline,
Water return pipeline, the inlet pipeline are made of inlet pipeline a, inlet pipeline b, inlet pipeline c, inlet pipeline d, the return pipe
It route water return pipeline a, water return pipeline b, water return pipeline c, water return pipeline d compositions, it is characterised in that:The solar energy passes through respectively
Inlet pipeline a and water return pipeline a and water tank carry out unicom of connecting, heating terminal respectively by inlet pipeline b and water return pipeline b with
Heat-storing warehouse carries out series connection unicom, and the water tank is located at water inlet pipe by inlet pipeline c and water return pipeline c and heating terminal unicom
It is separately installed with triple valve M on road c and water return pipeline c1With triple valve M2, inlet pipeline d and water return pipeline d respectively with triple valve
M1With triple valve M2Unicom makes water tank, heating terminal, heat-storing warehouse three unicom parallel with one another.
2. solar energy according to claim 1 and heat-storing warehouse heating system, it is characterised in that:The triple valve M1It is mounted on
On water return pipeline c, and triple valve M1One end is connected to water return pipeline d unicom and then with heat-storing warehouse, the triple valve M2Mounted on into
On water water lines c, and triple valve M2One end is connected to inlet pipeline d unicom and then with heat-storing warehouse.
3. solar energy according to claim 1 and heat-storing warehouse heating system, it is characterised in that:The water return pipeline a and into
Heat detector T is separately installed on water lines a1With heat detector T2, heat detector T is separately installed in water tank and heat-storing warehouse3With temperature
Sensor T4, heat detector T is installed positioned at heating terminal5。
4. solar energy according to claim 1 and heat-storing warehouse heating system, it is characterised in that:It is described be located at inlet pipeline a,
Collection hot recycle pump P is separately installed on inlet pipeline b and inlet pipeline c1, collection hot recycle pump P2Sum aggregate hot recycle pump P3, it is located at water
It is separately installed with electrical heating D in case and heat-storing warehouse1With electrical heating D2。
5. solar energy according to claim 1 and heat-storing warehouse heating system, it is characterised in that:The inlet pipeline a, water inlet
Collection hot recycle pump P is separately installed on pipeline b, inlet pipeline c1, collection hot recycle pump P2Sum aggregate hot recycle pump P3, collect hot recycle pump
P1On water inlet pipe a, collect hot recycle pump P2On water inlet pipe c, collect hot recycle pump P3On water inlet pipe b.
6. solar energy according to claim 1 and heat-storing warehouse heating system, it is characterised in that:The triple valve M1, triple valve
M2, heat detector T1, heat detector T2, heat detector T3, heat detector T4, heat detector T5, collection hot recycle pump P1, collection hot recycle pump P2, thermal-arrest follows
Ring pumps P3, electrical heating D1, electrical heating D2All with main controller unicom and controlled by main controller.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721424357.8U CN207702574U (en) | 2017-10-31 | 2017-10-31 | Solar energy and heat-storing warehouse heating system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721424357.8U CN207702574U (en) | 2017-10-31 | 2017-10-31 | Solar energy and heat-storing warehouse heating system |
Publications (1)
Publication Number | Publication Date |
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CN207702574U true CN207702574U (en) | 2018-08-07 |
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ID=63021770
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CN201721424357.8U Active CN207702574U (en) | 2017-10-31 | 2017-10-31 | Solar energy and heat-storing warehouse heating system |
Country Status (1)
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CN (1) | CN207702574U (en) |
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2017
- 2017-10-31 CN CN201721424357.8U patent/CN207702574U/en active Active
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