CN202757274U - Solar energy modular structure with functions of supplying hot water and generating electricity - Google Patents

Solar energy modular structure with functions of supplying hot water and generating electricity Download PDF

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Publication number
CN202757274U
CN202757274U CN2012203184323U CN201220318432U CN202757274U CN 202757274 U CN202757274 U CN 202757274U CN 2012203184323 U CN2012203184323 U CN 2012203184323U CN 201220318432 U CN201220318432 U CN 201220318432U CN 202757274 U CN202757274 U CN 202757274U
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China
Prior art keywords
heat dissipation
water
hot
dissipation metal
solar energy
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Expired - Fee Related
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CN2012203184323U
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Chinese (zh)
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李文豪
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李文豪
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Priority to CN2012203184323U priority Critical patent/CN202757274U/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
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/50Photovoltaic [PV] energy

Abstract

The utility model relates to a solar energy modular structure with functions of supplying hot water and generating electricity. The solar energy modular structure with the functions of supplying the hot water and generating the electricity comprises a solar energy panel, a framework arranged around the solar energy panel and a heat dissipation device arranged on a shady face and inside the framework, wherein the solar energy panel is provided with an illuminated face and the shady face arranged corresponding to the illuminated face. Excessive heat energy of the solar energy panel is dissipated by the heat dissipation device, and therefore temperature of the solar energy panel is reduced, generating efficiency is improved, and the hot water is produced and supplied. The solar energy modular structure with the functions of supplying the hot water and generating the electricity can be connected with each other in parallel to form a large-area framework, an illuminated area is enlarged, and the generating efficiency is improved.

Description

The solar energy module structure of hot-water supplied and electricity generate function
Technical field
The utility model refers to a kind of solar energy module structure with hot-water supplied and electricity generate function of heat sinking function especially relevant for a kind of application of solar energy module.
Background technology
Solar energy is a kind of emerging regenerative resource in recent years, because it has clean, pollution-free and continuously wait plurality of advantages, already has been applied in the fields such as battery, water heater and obtains good effect.
Because solar energy comprises luminous energy and heat energy, and solar chip only to change luminous energy when using be electric energy, can't utilize its heat energy, the used heat that is not converted into electric energy namely need be guided loss, so that this solar chip can be under a suitable temperature and kept its normal operation.
Yet, present solar panels or the solar energy module known on the market, its structure does not have the heat that it is the unnecessary loose device that overflows, and causes the temperature drift of solar panels or solar energy module and affects generating efficiency.
In addition, all belong to heat-energy in the use of solar water heater, because sunshine in summer is sufficient, environment temperature is also higher, so solar heat-collection plate will make water overheated; Yet when the lower environment of winter temperature, the solar panels in the solar water heater do not have heat energy to absorb, cause still needing to be depleted to city's electricity heating, thereby required just the opposite with real life, so still need power consumption without essential meaning, be as if not save the electricity charge.
The utility model content
Therefore, the purpose of this utility model is to address the above problem and provides that a kind of to have a heat abstractor loose so that unnecessary heat is overflow, by this to promote generating efficiency and with the hot-water supplied of its heat energy recycling and the solar energy module structure of electricity generate function.
Another purpose of the present utility model is to provide a kind of and can be spliced to form the large tracts of land framework, increases light-receiving area with the lifting generating efficiency, and the heat energy of solar energy module can be fallen apart simultaneously excessive hot-water supplied and the solar energy module structure of electricity generate function.
For reaching above-mentioned purpose, the utility model provides the solar energy module structure of a kind of hot-water supplied and electricity generate function, comprising:
One solar panels have the shady face that a sensitive surface and relative this sensitive surface arrange;
One framework, frame are located at around these solar panels; And
One heat abstractor is arranged on this shady face place, and in this framework.
Wherein, these solar panels connect an adapter, and this adapter is arranged on this shady face.
Wherein, this heat abstractor comprises a metallic heat radiating plate, one heat dissipation metal hot-water line, one heat dissipation metal cold water pipe and a plurality of heat dissipation metal communicating pipe, this metallic heat radiating plate is arranged on this shady face below of these solar panels, this heat dissipation metal hot-water line, this heat dissipation metal cold water pipe and these heat dissipation metal communicating pipes interconnect and be arranged between this metallic heat radiating plate and this solar panels and be in contact with it, this adapter is arranged on the top sides of this shady face of contiguous these solar panels, and this heat dissipation metal hot-water line is arranged on this adapter away from a side place of this framework, and have one first water inlet and one first delivery port, this heat dissipation metal cold water pipe and this heat dissipation metal hot-water line arrange abreast, and this heat dissipation metal cold water pipe position is at the side place of this framework away from this adapter, and have one second water inlet and one second delivery port, wherein, this first water inlet and this second water inlet position be in the same side, this first delivery port and this second delivery port position in the same side and be provided with this first water inlet and this second water inlet place is opposite side; And be arranged at intervals these heat dissipation metal communicating pipes between this heat dissipation metal hot-water line and this heat dissipation metal cold water pipe, and vertically be communicated with this heat dissipation metal cold water pipe with this heat dissipation metal hot-water line; One liquid of lower temperature enters in this heat dissipation metal cold water pipe from this second water inlet, the heat energy of this metallic heat radiating plate is taken away after communicating pipe through this heat dissipation metal respectively, and this liquid of the higher temperatures that forms can flow out from this first delivery port again.
Wherein, this metallic heat radiating plate has one first dead slot, and this heat dissipation metal hot-water line and define one second dead slot these heat dissipation metal communicating pipes, corresponding this first dead slot and arranging, and this first dead slot and this second dead slot are in order to accommodating this adapter.
Wherein, these solar panels connect two terminals from a side on every side.
Wherein, this heat abstractor comprises a back cover, a water inlet and a delivery port, this back cover seals this base of frame, make these solar panels, this framework and this back cover define an accommodation space, this water inlet and this delivery port are arranged on this framework periphery respectively, one liquid enters into this accommodation space from this water inlet, and flows out from this delivery port.
Wherein, this liquid is water.
Wherein, more be provided with an entry connecting hole in the same side of this water inlet, side at this delivery port more is provided with a water outlet connecting hole, when carrying out and connecing, this delivery port is communicated with this entry connecting hole of the solar energy module structure of next described hot-water supplied and electricity generate function, and this water outlet connecting hole is for these water inlet 46 connections of the solar energy module structure of next described hot-water supplied and electricity generate function.
The beneficial effects of the utility model: by said structure, it is loose that unnecessary heat is overflow, by this to promote generating efficiency and its heat energy recycled, utilization is spliced to form the large tracts of land framework, increases light-receiving area to promote generating efficiency, and simultaneously can the heat energy of solar energy module is loose excessive, moreover, use in the family small household appliances of LED (light emitting diode) generally all only need use electric power 20-50W (watt), and the solar energy module structure of each hot-water supplied of the present utility model and electricity generate function can produce the about 250W of electric power (watt), can save the electricity charge.
Description of drawings
Fig. 1 is the exploded view of solar energy module structure one first embodiment of the utility model hot-water supplied and electricity generate function.
Fig. 2 is the exploded view of solar energy module structure first embodiment of the utility model hot-water supplied and electricity generate function.
Fig. 3 shows plane in the end of the solar energy module structure of the utility model hot-water supplied and electricity generate function.
Fig. 4 is the exploded view of solar energy module structure one second embodiment of the utility model hot-water supplied and electricity generate function.
Fig. 5 is the stereogram of solar energy module structure second embodiment of the utility model hot-water supplied and electricity generate function.
Fig. 6 is the phantom of solar energy module structure second embodiment of the utility model hot-water supplied and electricity generate function.
Fig. 7 is the cutaway view of solar energy module structure second embodiment of the utility model hot-water supplied and electricity generate function.
Fig. 8 be the utility model hot-water supplied and electricity generate function solar energy module structure the second embodiment in and schematic diagram when connecing.
The primary clustering symbol description
The solar energy module structure of 1 hot-water supplied and electricity generate function; 2 solar panels; 21 sensitive surfaces; 22 shady faces; 23 adapters; 24 terminals; 25 terminals; 3 frameworks; 4 heat abstractors; 41 metallic heat radiating plates; 411 first dead slots; 42 heat dissipation metal hot-water lines; 421 first water inlets; 422 first delivery ports; 43 heat dissipation metal cold water pipes; 431 second water inlets; 432 second delivery ports; 44 heat dissipation metal communicating pipes; 441 second dead slots; 45 back covers; 46 water inlets; 47 delivery ports; 46 ' water outlet connecting hole; 47 ' entry connecting hole; 48 accommodation spaces; 5 insulation materials; 6 base plates.
The specific embodiment
Please refer to Fig. 1 to Fig. 3, the solar energy module structure 1 of the hot-water supplied of present embodiment and electricity generate function comprises solar panels 2, a framework 3 and a heat abstractor 4.
Solar panels 2 have a shady face 22 of a sensitive surface 21 and 21 settings of relative sensitive surface; Solar panels 2 can connect an adapter 23, and adapter 23 is arranged on shady face 22 places.
Framework 3 frames are located at around the solar panels 2.
Heat abstractor 4 is arranged on shady face 22 places of solar panels 2, and in framework 3; In the present embodiment, heat abstractor 4 comprises a metallic heat radiating plate 41 and a heat dissipation metal hot-water line 42, a heat dissipation metal cold water pipe 43 and a plurality of heat dissipation metal communicating pipe 44, metallic heat radiating plate 41 is arranged on the below of the shady face 22 of solar panels 2, and heat dissipation metal hot-water line 42, a heat dissipation metal cold water pipe 43 and a plurality of heat dissipation metal communicating pipe 44 interconnect and are arranged between metallic heat radiating plate 41 and the solar panels 2.
Generally speaking, adapter 23 is arranged on the top sides of contiguous solar panels 2 shady faces 22, and heat dissipation metal hot-water line 42 is arranged on adapter 23 away from one of framework 3 side place, and have one first water inlet 421 and one first delivery port 422, heat dissipation metal cold water pipe 43 arranges abreast with heat dissipation metal hot-water line 42, and 43 of heat dissipation metal cold water pipes are at the side place of framework 3 away from adapter 23, and have one second water inlet 431 and one second delivery port 432, wherein, 431 of the first water inlet 421 and the second water inlets be in the same side, 432 of the first delivery port 422 and the second delivery ports in the same side and be provided with the first water inlet 421 and the second water inlet 431 places are opposite side; And be arranged at intervals a plurality of heat dissipation metal communicating pipes 44 between heat dissipation metal hot-water line 42 and the heat dissipation metal cold water pipe 43, and vertically be communicated with heat dissipation metal cold water pipe 43 with heat dissipation metal hot-water line 42.
One liquid (not shown) of lower temperature enters in the heat dissipation metal cold water pipe 43 from the second water inlet 431, through after each heat dissipation metal communicating pipe 44 heat energy of metallic heat radiating plate 41 is taken away, because heat energy can be up, the liquid of therefore taking away higher temperatures that heat energy forms can flow out from the first delivery port 422 again; Wherein, liquid can be water, but not as limit; Moreover metallic heat radiating plate 41 and/or heat dissipation metal hot-water line 42, a heat dissipation metal cold water pipe 43 and the material of a plurality of heat dissipation metal communicating pipes 44 can be copper, but not as limit.
Moreover metallic heat radiating plate 41 has one first dead slot 411, with accommodating adapter 23; And heat dissipation metal hot-water line 42 with define one second dead slot 441 heat dissipation metal communicating pipe 44, corresponding the first dead slot 411 and arranging is to hold adapter 23 equally.
In detail, the sensitive surface 21 of solar panels 2 is under tanning by the sun for a long time, the ship temperature can increase gradually, cause successively decreasing of whole generating efficiency, therefore, the setting of the heat abstractor 4 that forms by metallic heat radiating plate 41 and heat dissipation metal hot-water line 42 is sequentially taken away the heat energy of solar panels 2 from shady face 22 by metallic heat radiating plate 41, heat dissipation metal hot-water line 42 and liquid, use the temperature that reduces solar panels 2, and then keep the generating efficiency of solar panels 2.
In addition, can be provided with again an insulation material 5 (as shown in Figures 1 and 2) for 41 times at metallic heat radiating plate, by this so that in such as the lower environment of temperature in winter the time, can remain on the temperature that makes solar panels 2 generating efficiency the bests; Moreover, under insulation material 5, can be provided with a base plate 6, in order to heat abstractor 4 and adapter 23 are encapsulated in the framework 3.
By above-mentioned structure, can a plurality of hot-water supplieds of the present utility model and the solar energy module structure 1 of electricity generate function splice, that is the first water inlet 421 of the solar energy module structure 1 of next hot-water supplied and electricity generate function is to be communicated with the first delivery port 422 of the solar energy module structure 1 of a upper hot-water supplied and electricity generate function, the second water inlet 431 of the solar energy module structure 1 of next hot-water supplied and electricity generate function can be communicated with the second delivery port 432 of the solar energy module structure 1 of a upper hot-water supplied and electricity generate function, and the rest may be inferred (as shown in Figure 3).
Refer again to Fig. 4 to Fig. 8, the solar energy module structure 1 of the hot-water supplied of present embodiment and electricity generate function is to comprise solar panels 2, a framework 3 and a heat abstractor 4.
Solar panels 2 have a shady face 22 of a sensitive surface 21 and 21 settings of relative sensitive surface; Solar panels 2 side around it connects two terminals 24,25.
Framework 3 frames are located at around the solar panels 2.
Heat abstractor 4 comprises a back cover 45, a water inlet 46 and a delivery port 47, back cover 45 seals framework 3 bottoms, make solar panels 2, framework 3 and back cover 45 define an accommodation space 48, water inlet 46 and delivery port 47 are arranged on framework 3 peripheries respectively, one liquid (not shown) can enter into accommodation space 48 from water inlet 46, when the liquid (not shown) is filled up whole accommodation space 48 and is touched the shady face 22 of solar panels 2, its heat energy is taken away, afterwards, the liquid (not shown) flows out from delivery port 47 again; And liquid can be water, but not as limit.
More be provided with an entry connecting hole 47 ' in the same side of water inlet 46, side at delivery port 47 more is provided with a water outlet connecting hole 46 ', when wanting to carry out and connecing, delivery port 47 can be communicated with the entry connecting hole 47 ' of the solar energy module structure 1 of next hot-water supplied and electricity generate function, and water outlet connecting hole 46 ' can supply the water inlet 46 of the solar energy module structure 1 of next hot-water supplied and electricity generate function to be communicated with (as shown in Figure 8), with the solar energy module structure 1 that reaches hot-water supplied and electricity generate function and the effect that connects.
By this, utilize the liquid (not shown) that the heat energy of solar panels 2 is taken away, reducing the temperature of solar panels 2, and then keep the generating efficiency of solar panels 2.
In addition, among aforesaid the first embodiment and the second embodiment that the liquid (such as water) that heat energy is taken away is recycling, as the hot water that family's use is had a bath being used in etc.; Moreover, use in the family small household appliances of LED (light emitting diode) generally all only need use electric power 20-50W (watt), and the solar energy module structure 1 of each hot-water supplied of the present utility model and electricity generate function can produce the about 250W of electric power (watt), can save the electricity charge.
The announcement of the above embodiment is not to limit the utility model only in order to the utility model to be described, so the displacement of the change of numerical value or equivalent elements must be subordinate to category of the present utility model such as.

Claims (8)

1. the solar energy module structure of a hot-water supplied and electricity generate function is characterized in that, comprising:
One solar panels have the shady face that a sensitive surface and relative this sensitive surface arrange;
One framework, frame are located at around these solar panels; And
One heat abstractor is arranged on this shady face place, and in this framework.
2. the solar energy module structure of hot-water supplied according to claim 1 and electricity generate function is characterized in that, these solar panels connect an adapter, and this adapter is arranged on this shady face.
3. the solar energy module structure of hot-water supplied according to claim 2 and electricity generate function, it is characterized in that, this heat abstractor comprises a metallic heat radiating plate, one heat dissipation metal hot-water line, one heat dissipation metal cold water pipe and a plurality of heat dissipation metal communicating pipe, this metallic heat radiating plate is arranged on this shady face below of these solar panels, this heat dissipation metal hot-water line, this heat dissipation metal cold water pipe and these heat dissipation metal communicating pipes interconnect and be arranged between this metallic heat radiating plate and this solar panels and be in contact with it, this adapter is arranged on the top sides of this shady face of contiguous these solar panels, and this heat dissipation metal hot-water line is arranged on this adapter away from a side place of this framework, and have one first water inlet and one first delivery port, this heat dissipation metal cold water pipe and this heat dissipation metal hot-water line arrange abreast, and this heat dissipation metal cold water pipe position is at the side place of this framework away from this adapter, and have one second water inlet and one second delivery port, wherein, this first water inlet and this second water inlet position be in the same side, this first delivery port and this second delivery port position in the same side and be provided with this first water inlet and this second water inlet place is opposite side; And be arranged at intervals these heat dissipation metal communicating pipes between this heat dissipation metal hot-water line and this heat dissipation metal cold water pipe, and vertically be communicated with this heat dissipation metal cold water pipe with this heat dissipation metal hot-water line; One liquid of lower temperature enters in this heat dissipation metal cold water pipe from this second water inlet, the heat energy of this metallic heat radiating plate is taken away after communicating pipe through this heat dissipation metal respectively, and this liquid of the higher temperatures that forms can flow out from this first delivery port again.
4. the solar energy module structure of hot-water supplied according to claim 3 and electricity generate function, it is characterized in that, this metallic heat radiating plate has one first dead slot, and this heat dissipation metal hot-water line and define one second dead slot these heat dissipation metal communicating pipes, corresponding this first dead slot and arranging, this first dead slot and this second dead slot are in order to accommodating this adapter.
5. the solar energy module structure of hot-water supplied according to claim 1 and electricity generate function is characterized in that, these solar panels connect two terminals from a side on every side.
6. the solar energy module structure of hot-water supplied according to claim 5 and electricity generate function, it is characterized in that, this heat abstractor comprises a back cover, a water inlet and a delivery port, this back cover seals this base of frame, make these solar panels, this framework and this back cover define an accommodation space, this water inlet and this delivery port are arranged on this framework periphery respectively, and a liquid enters into this accommodation space from this water inlet, and flow out from this delivery port.
7. according to claim 3 or the solar energy module structure of 6 described hot-water supplieds and electricity generate function, it is characterized in that this liquid is water.
8. the solar energy module structure of hot-water supplied according to claim 6 and electricity generate function, it is characterized in that, more be provided with an entry connecting hole in the same side of this water inlet, side at this delivery port more is provided with a water outlet connecting hole, when carrying out and connecing, this delivery port is communicated with this entry connecting hole of the solar energy module structure of next described hot-water supplied and electricity generate function, and this water outlet connecting hole is for this water inlet connection of the solar energy module structure of next described hot-water supplied and electricity generate function.
CN2012203184323U 2012-07-03 2012-07-03 Solar energy modular structure with functions of supplying hot water and generating electricity Expired - Fee Related CN202757274U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2012203184323U CN202757274U (en) 2012-07-03 2012-07-03 Solar energy modular structure with functions of supplying hot water and generating electricity

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2012203184323U CN202757274U (en) 2012-07-03 2012-07-03 Solar energy modular structure with functions of supplying hot water and generating electricity

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Publication Number Publication Date
CN202757274U true CN202757274U (en) 2013-02-27

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105553408A (en) * 2016-02-29 2016-05-04 江西省科学院能源研究所 Solar-photovoltaic-thermal integration module with directly compounded heat-absorbing board and glass cover board

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105553408A (en) * 2016-02-29 2016-05-04 江西省科学院能源研究所 Solar-photovoltaic-thermal integration module with directly compounded heat-absorbing board and glass cover board

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CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20130227

Termination date: 20150703

EXPY Termination of patent right or utility model