CN204923185U - From operation solar energy heating system - Google Patents
From operation solar energy heating system Download PDFInfo
- Publication number
- CN204923185U CN204923185U CN201520585797.6U CN201520585797U CN204923185U CN 204923185 U CN204923185 U CN 204923185U CN 201520585797 U CN201520585797 U CN 201520585797U CN 204923185 U CN204923185 U CN 204923185U
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- CN
- China
- Prior art keywords
- heat
- supply box
- heat supply
- solar energy
- energy heating
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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
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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
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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
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/40—Solar thermal energy, e.g. solar towers
- Y02E10/44—Heat exchange systems
Abstract
The utility model discloses from operation solar energy heating system belongs to solar thermal energy and utilizes technical field, the technical problem that will solve provides a from operation solar energy heating system, becomes the clean energy of indoor heating with the sun heat energy of gathering, and energy -concerving and environment -protective and the cost is lower, the technical scheme who adopts is: it is equipped with a plurality of fresh air inlets for sealed flat form cuboid box and bottom plate to adopt hot case, it passes through mount slope and installs on the roof to adopt hot case, defeated calorimeter fixed mounting adopt hot bottom of the case board and with adopt hot incasement portion intercommunication, and defeated calorimeter pass through the heat -transfer pipe will hot air transportation to the room in, defeated calorimeter has the heat transfer fan for box inside one side of rectangle through square support mounting, a permanent magnet is do not installed to two adjacent minutes that are close to the box of square support, the inside opposite side of defeated calorimeter removes the frame through the electromagnetic switch activity of installing, two angles of surplus that the frame both ends were installed a permanent magnet respectively and were corresponded square support are respectively moved in the activity, electromagnetic switch is connected with starting source.
Description
Technical field
The utility model self-operating solar energy heating device, belongs to solar energy utilization technique field.
Background technology
At present; under the overall background of energy-saving and emission-reduction protection of the environment; it is gas-firing that the heating of people house becomes fire coal gradually, though clean pollution-free, need install thick master, a gas pipeline; combustion furnace etc.; waste time and energy, also need to pay expensive expense, and the clean heat energy of natural solar radiation; failing to make full use of, is very unfortunate.Mostly current solar heating aspect, be to adopt vacuum tube type heat collector, and some heat collector conducts heat by the electric fan that power consumption is large entirely, and can not automatic operating.
Utility model content
The utility model overcomes the deficiency that prior art exists, and technical problem to be solved is to provide a kind of self-operating solar energy heating device, the solar thermal energy of Bian collection is become the clear energy sources of indoor heating, energy-conserving and environment-protective and cost is lower.
In order to solve the problems of the technologies described above, the technical scheme that the utility model adopts is: self-operating solar energy heating device, comprise heat supply box, defeated hot device and heat-transfer pipe, heat supply box is the flat-shaped rectangular box body of sealing and base plate is provided with multiple fresh air inlet, heat supply box is inclined and mounted on roof by fixed mount, described defeated hot device is fixedly mounted on heat supply box base plate and is communicated with heat supply box inside, and hot-air is delivered within doors by heat-transfer pipe by defeated hot device;
Described defeated hot device is that the box house side of rectangle is provided with heat transfer fan by square set, two adjacent angles near casing of described square set are separately installed with a block permanent magnet, the inner opposite side of described defeated hot device is provided with movable movable stand by electromagnetic switch, described movable movable stand two ends are separately installed with a block permanent magnet and the residue two of corresponding square set props up angle respectively, and described electromagnetic switch is connected with startup power supply.
One side frame of described heat supply box is installed with communicating pipe, and multiple heat supply box was connected in turn by communicating pipe.
It is low iron safety glass or transparent plastic sheet that the top board of described heat supply box makes material, and it is pasted with multiple convex lens, and described convex lens are optically focused convex lens, or are Fenier lens, or are cylindrical mirror.
Be fixed with multiple second solar panel below the base plate of described heat supply box, and the both positive and negative polarity of described second solar panel connects power supply network by rectification adverser.
Be provided with temperature detect switch (TDS) in described heat supply box, described temperature detect switch (TDS) is connected with the electromagnetic switch in defeated hot device and controls the opening and closing of electromagnetic switch, is also provided with the small fan controlled by temperature detect switch (TDS) in heat-transfer pipe.
It is insulation material that the circumferential side frame of described heat supply box makes material, and its base plate is coated with high temperature resistant heat-absorbing material.
The startup power supply of described electromagnetic switch is AC AC power or ultracapacitor.
First solar panel is installed in described heat supply box, and provides electric energy for described heat transfer fan or electromagnetic switch.
Described heat-transfer pipe is double layer hollow structural pipe wall.
Described heat-transfer pipe is made up of insulating foam body material.
The utility model compared with the existing technology has following beneficial effect.
1, the utility model collects solar energy heating inner air by heat supply box, by defeated hot device, hot-air is sent within doors, realize winter low power consumption heat supply within doors, replace the use of coal combustion, coal gas, natural gas, save a large amount of expense and the valuable energy, and energy-conserving and environment-protective.
2, in the utility model, two fixed two permanent magnets moved according to magnetic fields, can make the spinning of heat transfer fan not power consumption power, do not need electric power to drive, and save grid electricity fee cost.
3, the utility model installs temperature detect switch (TDS) in heat supply box, air themperature in monitoring case, then opens defeated hot device supply warm braw, then control defeated hot device and decommission, realize the full automation of warm braw supply lower than design temperature higher than design temperature.
Accompanying drawing explanation
Below in conjunction with accompanying drawing, the utility model is described in further detail.
Fig. 1 is structural representation of the present utility model.
Fig. 2 is the structural representation of defeated hot device in the utility model.
Fig. 3 is the structural representation of heat supply box in the utility model.
In figure: 1 is heat supply box, 2 is defeated hot device, and 3 is heat-transfer pipe, 4 is fixed mount, and 5 is roof, and 6 is casing, 7 is square set, and 8 is heat transfer fan, and 9 is permanent magnet, 10 is electromagnetic switch, and 11 is movable movable stand, and 12 is startup power supply, 13 is the first solar panel, and 14 is the second solar panel, and 15 is temperature detect switch (TDS), 16 is convex lens, and 17 is communicating pipe.
Detailed description of the invention
Fig. 1-3 is structural representation of the present utility model, is described in detail below to various structures embodiment of the present utility model.
Embodiment one
Self-operating solar energy heating device, comprise heat supply box 1, defeated hot device 2 and heat-transfer pipe 3, heat supply box 1 is the flat-shaped rectangular box body of sealing and base plate is provided with multiple fresh air inlet, heat supply box 1 is inclined and mounted on roof 5 by fixed mount 4, described defeated hot device 2 is fixedly mounted on heat supply box 1 base plate and is communicated with heat supply box 1 inside, and hot-air is delivered within doors by heat-transfer pipe 3 by defeated hot device 2;
Described defeated hot device 2 is that the inner side of casing 6 of rectangle is provided with heat transfer fan 8 by square set 7, two adjacent angles near casing 6 of described square set 7 are separately installed with a block permanent magnet 9, the inner opposite side of described defeated hot device 2 is provided with movable movable stand 11 by electromagnetic switch 10, described movable movable stand 11 two ends are separately installed with a block permanent magnet 9 and the residue two of corresponding square set 7 props up angle respectively, and described electromagnetic switch 10 is connected with startup power supply 12.
It is low iron safety glass that the top board of described heat supply box 1 makes material, and it is pasted with multiple optically focused convex lens.
It is insulation material that the circumferential side frame of described heat supply box 1 makes material, and its base plate is coated with high temperature resistant heat-absorbing material.
The startup power supply 12 of described electromagnetic switch 10 is AC AC power or ultracapacitor.
Described heat-transfer pipe 3 is double layer hollow structural pipe wall.
Working method: heat-collecting box 1 collects solar energy heating inner air by optically focused convex lens, startup power supply 12 is supplied a small amount of electric energy drive activity movable stand 11 and is moved left and right, two blocks of permanent magnets about 9 be arranged on movable movable stand 11 are movable, utilize magnetic field to drive heat transfer fan 8 to rotate the hot-air absorbed in heat-collecting box 1, and send into indoor by heat-transfer pipe 3.
The present embodiment is the simplest self-operating solar energy heating device, can realize heating within doors, but needs the unlatching of people's Non-follow control electromagnetic switch 10 to send warm braw.
Embodiment two
Self-operating solar energy heating device, comprise heat supply box 1, defeated hot device 2 and heat-transfer pipe 3, heat supply box 1 is the flat-shaped rectangular box body of sealing and base plate is provided with multiple fresh air inlet, heat supply box 1 is inclined and mounted on roof 5 by fixed mount 4, described defeated hot device 2 is fixedly mounted on heat supply box 1 base plate and is communicated with heat supply box 1 inside, and hot-air is delivered within doors by heat-transfer pipe 3 by defeated hot device 2;
Described defeated hot device 2 is that the inner side of casing 6 of rectangle is provided with heat transfer fan 8 by square set 7, two adjacent angles near casing 6 of described square set 7 are separately installed with a block permanent magnet 9, the inner opposite side of described defeated hot device 2 is provided with movable movable stand 11 by electromagnetic switch 10, described movable movable stand 11 two ends are separately installed with a block permanent magnet 9 and the residue two of corresponding square set 7 props up angle respectively, and described electromagnetic switch 10 is connected with startup power supply 12.
One side frame of described heat supply box 1 is installed with communicating pipe 17, and multiple heat supply box 1 was connected in turn by communicating pipe 17.
It is transparent plastic sheet that the top board of described heat supply box 1 makes material, and it is pasted with multiple Fenier lens.
It is insulation material that the circumferential side frame of described heat supply box 1 makes material, and its base plate is coated with high temperature resistant heat-absorbing material.
Described heat-transfer pipe 3 is made up of insulating foam body material.
The present embodiment is the simplest self-operating solar energy heating device, can realize heating within doors, but needs the unlatching of people's Non-follow control electromagnetic switch 10 to send warm braw.
The working method of the present embodiment is identical with embodiment one.
The present embodiment needs Non-follow control electromagnetic switch 10 unlatching to send warm braw too.
Multiple heat-collecting box 1 is connected, and the supply of hot-air is strengthened, and ensures that hot-air supply is sufficient within doors.
Embodiment three
Self-operating solar energy heating device, comprise heat supply box 1, defeated hot device 2 and heat-transfer pipe 3, heat supply box 1 is the flat-shaped rectangular box body of sealing and base plate is provided with multiple fresh air inlet, heat supply box 1 is inclined and mounted on roof 5 by fixed mount 4, described defeated hot device 2 is fixedly mounted on heat supply box 1 base plate and is communicated with heat supply box 1 inside, and hot-air is delivered within doors by heat-transfer pipe 3 by defeated hot device 2;
Described defeated hot device 2 is that the inner side of casing 6 of rectangle is provided with heat transfer fan 8 by square set 7, two adjacent angles near casing 6 of described square set 7 are separately installed with a block permanent magnet 9, the inner opposite side of described defeated hot device 2 is provided with movable movable stand 11 by electromagnetic switch 10, described movable movable stand 11 two ends are separately installed with a block permanent magnet 9 and the residue two of corresponding square set 7 props up angle respectively, and described electromagnetic switch 10 is connected with startup power supply 12.
It is transparent plastic sheet that the top board of described heat supply box 1 makes material, and it is pasted with multiple cylindrical mirror.
Be provided with temperature detect switch (TDS) 15 in described heat supply box 1, described temperature detect switch (TDS) 15 is connected with the electromagnetic switch 10 in defeated hot device 2 and controls the opening and closing of electromagnetic switch 10, is also provided with the small fan controlled by temperature detect switch (TDS) 15 in heat-transfer pipe 3.
It is insulation material that the circumferential side frame of described heat supply box 1 makes material, and its base plate is coated with high temperature resistant heat-absorbing material.
The startup power supply 12 of described electromagnetic switch 10 is AC AC power or ultracapacitor.
Described heat-transfer pipe 3 is double layer hollow structural pipe wall.
The working method of the present embodiment is identical with embodiment one.
The present embodiment does not need Non-follow control electromagnetic switch 10 unlatching to send warm braw, temperature detect switch (TDS) 15 is installed in heat supply box 1, when temperature detect switch (TDS) 15 measures the temperature of the temperature in heat supply box 1 higher than indoor by the temperature-sensing element such as thermistor or bimetal leaf, just send signal order about startup power supply 12 energising start to supply warm braw, when measuring the temperature of the temperature in heat supply box 1 lower than indoor, just send signal and order about startup power supply 12 power-off, stop supply warm braw, realize warm braw supply automation.
Embodiment four
Self-operating solar energy heating device, comprise heat supply box 1, defeated hot device 2 and heat-transfer pipe 3, heat supply box 1 is the flat-shaped rectangular box body of sealing and base plate is provided with multiple fresh air inlet, heat supply box 1 is inclined and mounted on roof 5 by fixed mount 4, described defeated hot device 2 is fixedly mounted on heat supply box 1 base plate and is communicated with heat supply box 1 inside, and hot-air is delivered within doors by heat-transfer pipe 3 by defeated hot device 2;
Described defeated hot device 2 is that the inner side of casing 6 of rectangle is provided with heat transfer fan 8 by square set 7, two adjacent angles near casing 6 of described square set 7 are separately installed with a block permanent magnet 9, the inner opposite side of described defeated hot device 2 is provided with movable movable stand 11 by electromagnetic switch 10, described movable movable stand 11 two ends are separately installed with a block permanent magnet 9 and the residue two of corresponding square set 7 props up angle respectively, and described electromagnetic switch 10 is connected with startup power supply 12.
It is low iron safety glass that the top board of described heat supply box 1 makes material, and it is pasted with multiple Fenier lens.
Be fixed with multiple second solar panel 14 below the base plate of described heat supply box 1, and the both positive and negative polarity of described second solar panel 14 connects power supply network by rectification adverser.
Be provided with temperature detect switch (TDS) 15 in described heat supply box 1, described temperature detect switch (TDS) 15 is connected with the electromagnetic switch 10 in defeated hot device 2 and controls the opening and closing of electromagnetic switch 10, is also provided with the small fan controlled by temperature detect switch (TDS) 15 in heat-transfer pipe 3.
It is insulation material that the circumferential side frame of described heat supply box 1 makes material, and its base plate is coated with high temperature resistant heat-absorbing material.
The startup power supply 12 of described electromagnetic switch 10 is AC AC power or ultracapacitor.
Described heat-transfer pipe 3 is made up of insulating foam body material.
The working method of the present embodiment is all identical with embodiment three with effect.
The present embodiment is fixed with multiple second solar panel 14 below heat supply box 1 base plate, collect a large amount of solar energy and be converted into electric energy, for power supply network within doors provides a large amount of electric energy to use, avoid having a power failure and the non-serviceable situation of most electrical equipment, and reduce energy consumption cost.
Embodiment five
Self-operating solar energy heating device, comprise heat supply box 1, defeated hot device 2 and heat-transfer pipe 3, heat supply box 1 is the flat-shaped rectangular box body of sealing and base plate is provided with multiple fresh air inlet, heat supply box 1 is inclined and mounted on roof 5 by fixed mount 4, described defeated hot device 2 is fixedly mounted on heat supply box 1 base plate and is communicated with heat supply box 1 inside, and hot-air is delivered within doors by heat-transfer pipe 3 by defeated hot device 2;
Described defeated hot device 2 is that the inner side of casing 6 of rectangle is provided with heat transfer fan 8 by square set 7, two adjacent angles near casing 6 of described square set 7 are separately installed with a block permanent magnet 9, the inner opposite side of described defeated hot device 2 is provided with movable movable stand 11 by electromagnetic switch 10, described movable movable stand 11 two ends are separately installed with a block permanent magnet 9 and the residue two of corresponding square set 7 props up angle respectively, and described electromagnetic switch 10 is connected with startup power supply 12.
It is transparent plastic sheet that the top board of described heat supply box 1 makes material, and it is pasted with multiple cylindrical mirror.
Be provided with temperature detect switch (TDS) 15 in described heat supply box 1, described temperature detect switch (TDS) 15 is connected with the electromagnetic switch 10 in defeated hot device 2 and controls the opening and closing of electromagnetic switch 10, is also provided with the small fan controlled by temperature detect switch (TDS) 15 in heat-transfer pipe 3.
It is insulation material that the circumferential side frame of described heat supply box 1 makes material, and its base plate is coated with high temperature resistant heat-absorbing material.
First solar panel 13 is installed in described heat supply box 1, and provides electric energy for described electromagnetic switch 10.
Described heat-transfer pipe 3 is made up of insulating foam body material.
The working method of the present embodiment is all identical with embodiment three with effect.
The present embodiment has the first solar panel 13 at heat supply box 1 internal fixtion, collects solar energy and is converted into electric energy, for startup power supply provides electric energy, avoids causing equipment out of use because having a power failure, and reduces energy consumption cost.
Embodiment six
Self-operating solar energy heating device, comprise heat supply box 1, defeated hot device 2 and heat-transfer pipe 3, heat supply box 1 is the flat-shaped rectangular box body of sealing and base plate is provided with multiple fresh air inlet, heat supply box 1 is inclined and mounted on roof 5 by fixed mount 4, described defeated hot device 2 is fixedly mounted on heat supply box 1 base plate and is communicated with heat supply box 1 inside, and hot-air is delivered within doors by heat-transfer pipe 3 by defeated hot device 2;
Described defeated hot device 2 is that the inner side of casing 6 of rectangle is provided with heat transfer fan 8 by square set 7, two adjacent angles near casing 6 of described square set 7 are separately installed with a block permanent magnet 9, the inner opposite side of described defeated hot device 2 is provided with movable movable stand 11 by electromagnetic switch 10, described movable movable stand 11 two ends are separately installed with a block permanent magnet 9 and the residue two of corresponding square set 7 props up angle respectively, and described electromagnetic switch 10 is connected with startup power supply 12.
It is low iron safety glass that the top board of described heat supply box 1 makes material, and it is pasted with multiple optically focused convex lens.
Be provided with temperature detect switch (TDS) 15 in described heat supply box 1, described temperature detect switch (TDS) 15 is connected with the electromagnetic switch 10 in defeated hot device 2 and controls the opening and closing of electromagnetic switch 10, is also provided with the small fan controlled by temperature detect switch (TDS) 15 in heat-transfer pipe 3.
It is insulation material that the circumferential side frame of described heat supply box 1 makes material, and its base plate is coated with high temperature resistant heat-absorbing material.
First solar panel 13 is installed in described heat supply box 1, and provides electric energy for described heat transfer fan 8.
Described heat-transfer pipe 3 is double layer hollow structural pipe wall.
Working method: heat-collecting box 1 collects solar energy heating inner air by optically focused convex lens, when first solar panel 13 electric energy is sufficient, direct drive heat transfer fan 8 rotates to indoor supply warm braw, when the first solar panel 13 electric power supply is not enough, startup power supply 12 is supplied a small amount of electric energy drive activity movable stand 11 and is moved left and right, two blocks of permanent magnets about 9 be arranged on movable movable stand 11 are movable, magnetic field is utilized to drive heat transfer fan 8 to rotate the hot-air absorbed in heat-collecting box 1, and send into indoor by heat-transfer pipe 3, reduce electric power energy consumption cost.
The present embodiment has achieved solar time heat supply, stops the automatic operating pattern of heat supply without the solar time.
Experiment shows that every 100 square metres of rooms solar thermal energy radiant energy used collects heat energy by 10 to 20 square meter heat supply box 1 in the winter time, because of every square meter in the winter time time sun heat radiation can be equivalent to about seven hectowatts heat energy, cloudless sky can gather 8-9 hour, if on average take 5 hours heat energy just can meet whole day house heating energy completely, adopt full winter the utility model can save electric energy expense 70-80%.
The utility model only needs a small amount of startup power supply, and the heat transfer fan 8 not power consumption of defeated heat, and by permanent magnet magnetic energy driving spinning, heat transfer air is directly entered the room, thus save a large amount of electric power, and realization does not need to manage and protect, and automatically opens, constantly running.
The temperature-sensing element of temperature detect switch (TDS) 15 described in the utility model is bimetal leaf, or is thermistor, or is that platinum wire, copper wire, tungsten filament are as temperature element.
Heat supply box 1 in the utility model adopts frame to add the structure of top board, base plate, when weather is warmmer, removablely to dispel the heat to solar panel.
Bian hot case 1 top board pastes countless optically focused convex lens or Fenier lens, the refraction of light can be greatly reduced, make collection light efficiency superelevation, even if to slant its thermal efficiency still very high for top board and sunlight wide-angle, this makes casing can be installed on roof in low-angle slope, easy wind resistance and save installation cost.
By reference to the accompanying drawings embodiment of the present utility model is explained in detail above, but the utility model is not limited to above-described embodiment, in the ken that those of ordinary skill in the art possess, various change can also be made under the prerequisite not departing from the utility model aim.
Claims (10)
1. self-operating solar energy heating device, it is characterized in that: comprise heat supply box (1), defeated hot device (2) and heat-transfer pipe (3), heat supply box (1) is the flat-shaped rectangular box body of sealing and base plate is provided with multiple fresh air inlet, heat supply box (1) is inclined and mounted on roof (5) by fixed mount (4), described defeated hot device (2) is fixedly mounted on heat supply box (1) base plate and is communicated with heat supply box (1) inside, and hot-air is delivered within doors by heat-transfer pipe (3) by defeated hot device (2);
Casing (6) the inner side that described defeated hot device (2) is rectangle is provided with heat transfer fan (8) by square set (7), two adjacent angles near casing (6) of described square set (7) are separately installed with a block permanent magnet (9), the inner opposite side of described defeated hot device (2) is provided with movable movable stand (11) by electromagnetic switch (10), described movable movable stand (11) two ends are separately installed with a block permanent magnet (9) and the residue two of corresponding square set (7) props up angle respectively, and described electromagnetic switch (10) is connected with startup power supply (12).
2. self-operating solar energy heating device according to claim 1, is characterized in that: a side frame of described heat supply box (1) is installed with communicating pipe (17), and multiple heat supply box (1) was connected in turn by communicating pipe (17).
3. self-operating solar energy heating device according to claim 1 and 2, it is characterized in that: it is low iron safety glass or transparent plastic sheet that the top board of described heat supply box (1) makes material, and it is pasted with multiple convex lens (16), described convex lens are optically focused convex lens, or be Fenier lens, or be cylindrical mirror.
4. self-operating solar energy heating device according to claim 1 and 2, it is characterized in that: be fixed with multiple second solar panel (14) below the base plate of described heat supply box (1), and the both positive and negative polarity of described second solar panel (14) connects power supply network by rectification adverser.
5. self-operating solar energy heating device according to claim 1 and 2, it is characterized in that: temperature detect switch (TDS) (15) is installed in described heat supply box (1), described temperature detect switch (TDS) (15) is connected with the electromagnetic switch (10) in defeated hot device (2) and controls the opening and closing of electromagnetic switch (10), is also provided with the small fan controlled by temperature detect switch (TDS) (15) in heat-transfer pipe (3).
6. self-operating solar energy heating device according to claim 1 and 2, is characterized in that: it is insulation material that the circumferential side frame of described heat supply box (1) makes material, and its base plate is coated with high temperature resistant heat-absorbing material.
7. self-operating solar energy heating device according to claim 1 and 2, is characterized in that: the startup power supply (12) of described electromagnetic switch (10) is AC AC power or ultracapacitor.
8. self-operating solar energy heating device according to claim 1 and 2, is characterized in that: be provided with the first solar panel (13) in described heat supply box (1), and provide electric energy for described heat transfer fan (8) or electromagnetic switch (10).
9. self-operating solar energy heating device according to claim 1 and 2, is characterized in that: described heat-transfer pipe (3) is double layer hollow structural pipe wall.
10. self-operating solar energy heating device according to claim 1 and 2, is characterized in that: described heat-transfer pipe (3) is made up of insulating foam body material.
Priority Applications (1)
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CN201520585797.6U CN204923185U (en) | 2015-08-06 | 2015-08-06 | From operation solar energy heating system |
Applications Claiming Priority (1)
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CN201520585797.6U CN204923185U (en) | 2015-08-06 | 2015-08-06 | From operation solar energy heating system |
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CN201520585797.6U Expired - Fee Related CN204923185U (en) | 2015-08-06 | 2015-08-06 | From operation solar energy heating system |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105932950A (en) * | 2016-07-18 | 2016-09-07 | 宝钢建筑系统集成有限公司 | Weather-proof photovoltaic module |
CN106988379A (en) * | 2017-04-20 | 2017-07-28 | 浙江科技学院 | The fresh water collecting device and fresh water collecting method of a kind of Natural Circulation |
CN111595039A (en) * | 2020-06-01 | 2020-08-28 | 吴克郴 | Solar water heater installation device based on electromagnetic transformation |
-
2015
- 2015-08-06 CN CN201520585797.6U patent/CN204923185U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105932950A (en) * | 2016-07-18 | 2016-09-07 | 宝钢建筑系统集成有限公司 | Weather-proof photovoltaic module |
CN106988379A (en) * | 2017-04-20 | 2017-07-28 | 浙江科技学院 | The fresh water collecting device and fresh water collecting method of a kind of Natural Circulation |
CN111595039A (en) * | 2020-06-01 | 2020-08-28 | 吴克郴 | Solar water heater installation device based on electromagnetic transformation |
CN111595039B (en) * | 2020-06-01 | 2021-10-26 | 潘枫 | Solar water heater installation device based on electromagnetic transformation |
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Granted publication date: 20151230 Termination date: 20170806 |
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CF01 | Termination of patent right due to non-payment of annual fee |