CN209562509U - A kind of cooling heat collector of heat pipe-type condensation photovoltaic - Google Patents

Abstract

It is disclosed by the utility model to belong to technical field of solar, specially a kind of cooling heat collector of heat pipe-type condensation photovoltaic, including housing, support foot rest, heat emission fan, cross ice chest, heat pipe is fixedly installed at the top of the housing, the heat pipe bottom is fixedly installed with photovoltaic cell through housing, the photovoltaic cell bottom is fixedly installed with radiating copper sheet, heat exchange wing is fixedly mounted in the radiating copper sheet bottom, heat emission fan is fixedly mounted in the housing left side wall and right side wall, fixed screw is fixedly installed in the heat emission fan, the supercooling box cavity bottom right is fixedly installed with air pump, the air pump bottom left is fixedly installed with air entry, vacuum cooled pipe is provided at the top of the air pump, its is structurally reasonable, pass through heat pipe, photovoltaic cell, the cooperation of heat exchange wing and radiating copper sheet, realize the effective use to solar energy, pass through heat emission fan , cross ice chest, air pump, vacuum cooled pipe, compressor cooperation, realize high efficiency and heat radiation.

Description

A kind of cooling heat collector of heat pipe-type condensation photovoltaic

Technical field

The utility model relates to solar engineering technical field, specially a kind of cooling collection hot charging of heat pipe-type condensation photovoltaic It sets.

Background technique

Condensation photovoltaic, which refers to, is converted directly into electric energy by the photovoltaic cell of high transformation efficiency for the sunlight after convergence Technology, CPV are most typical representatives in concentration solar generating technology.The light intensity of focal point can be made at multiplication by condenser Add, but also necessarily brings a large amount of heat simultaneously.And optical-electronic transfer efficiency and photovoltaic battery temperature have close relationship, temperature Degree is higher, and optical-electronic transfer efficiency is lower, and prolonged high temperature also will lead to battery and irreversibly damage.Therefore to photovoltaic electric It is to improve the key measure of photovoltaic cell photoelectric conversion efficiency that heat exchange cooling is taken in pond, and existing condensation photovoltaic cooling device exists Some shortcomings, for example existing cooling device is all water-cooled substantially, and the cooling cooling efficiency of water is relatively low, and heat can not The shortcomings that rationally utilizing, it is therefore desirable to research and develop the novel condensation photovoltaic cooling device of one kind to solve the above problems.

Utility model content

The purpose of this section is to summarize some aspects of the embodiments of the present invention and briefly introduce it is some compared with Good embodiment.It may do a little simplified or omit in this part and the summary of the description of the application and utility model title It is fuzzy to avoid the purpose for making this part, abstract of description and utility model title, and this simplification or omission cannot be used for limiting The scope of the utility model processed.

The problem of heat collector cooling in view of existing condensation photovoltaic, propose the utility model.

Therefore, it the purpose of the utility model is to provide a kind of cooling heat collector of heat pipe-type condensation photovoltaic, can be realized Radiating efficiency is more efficient in use process, and the available effective use of heat.

In order to solve the above technical problems, one aspect according to the present utility model, the utility model provides following technology Scheme:

A kind of cooling heat collector of heat pipe-type condensation photovoltaic comprising housing, heat emission fan, crosses ice chest at support foot rest, described Heat pipe is fixedly installed at the top of housing, the heat pipe bottom is fixedly installed with photovoltaic cell, the photovoltaic cell bottom through housing Portion is fixedly installed with radiating copper sheet, and heat exchange wing is fixedly mounted in the radiating copper sheet bottom, and the housing left side wall and right side wall are equal Heat emission fan is fixedly mounted, fixed screw is fixedly installed in the heat emission fan, the supercooling box cavity bottom right is fixedly mounted There is air pump, the air pump bottom left is fixedly installed with air entry, vacuum cooled pipe is provided at the top of the air pump, and described true Empty cooling tube penetrates through ice chest and connect with casing base, and the vacuum cooled pipe left bottom is provided with liquid return hole, and described time Liquid mouth penetrates through ice chest and is extended to the over cold box interior, and the supercooling box cavity bottom left is fixedly installed with compressor, the mistake Ice chest top left side is fixedly installed with storage nitrogenous hood.

As a kind of a kind of preferred embodiment of the cooling heat collector of heat pipe-type condensation photovoltaic described in the utility model, In: support foot rest is fixedly mounted in the supercooling bottom portion, and non-slip mat is fixedly mounted in the support foot rest bottom.

As a kind of a kind of preferred embodiment of the cooling heat collector of heat pipe-type condensation photovoltaic described in the utility model, In: the storage nitrogenous hood left side top is fixedly installed with liquid injection port, and the storage nitrogenous hood left bottom is fixedly installed with leakage fluid dram.

As a kind of a kind of preferred embodiment of the cooling heat collector of heat pipe-type condensation photovoltaic described in the utility model, In: the radiating copper sheet and photovoltaic cell pass through heat dissipation glue sticking.

As a kind of a kind of preferred embodiment of the cooling heat collector of heat pipe-type condensation photovoltaic described in the utility model, In: the heat emission fan surface is fixedly installed with shield.

As a kind of a kind of preferred embodiment of the cooling heat collector of heat pipe-type condensation photovoltaic described in the utility model, In: the ice chest front surface of crossing is fixedly installed with thermometer.

Compared with prior art, the utility model has the beneficial effects that passing through a kind of cooling collection of heat pipe-type condensation photovoltaic The setting of thermal, it is reasonable in design, by the cooperation of heat pipe, photovoltaic cell, heat exchange wing and radiating copper sheet, realize to too The effective use of positive energy realizes high efficiency and heat radiation by heat emission fan, the cooperation of ice chest, air pump, vacuum cooled pipe, compressor excessively.

Detailed description of the invention

It, below will be in conjunction with attached drawing and real in detail in order to illustrate more clearly of the technical solution of the utility model embodiment Mode is applied the utility model is described in detail, it should be apparent that, the accompanying drawings in the following description is only the utility model Some embodiments for those of ordinary skill in the art without any creative labor, can be with root Other attached drawings are obtained according to these attached drawings.Wherein:

FIG. 1 is a schematic structural view of the utility model；

Fig. 2 is the utility model side structure schematic view；

Fig. 3 is the utility model overlooking structure diagram.

In figure；100 housings, 110 heat pipes, 120 photovoltaic cells, 130 radiating copper sheets, 140 heat exchange wings, 200 support foot rests, Ice chest, 410 air pumps, 420 air entries, 430 vacuum cooled pipes, 440 are crossed in 210 non-slip mats, 300 heat emission fans, 310 fixed screws, 400 Liquid return hole, 450 compressors, 460 storage nitrogenous hoods, 470 thermometers.

Specific embodiment

To keep the above objects, features, and advantages of the utility model more obvious and easy to understand, with reference to the accompanying drawing to this The specific embodiment of utility model is described in detail.

Many details are explained in the following description in order to fully understand the utility model, but this is practical new Type can also be implemented using other than the one described here other way, and those skilled in the art can be without prejudice to this reality With doing similar popularization in the case where novel intension, therefore the utility model is not limited by following public specific embodiment.

Secondly, the utility model combination schematic diagram is described in detail, when the utility model embodiment is described in detail, for just In explanation, indicate that the sectional view of device architecture can disobey general proportion and make partial enlargement, and the schematic diagram is example, The range of the utility model protection should not be limited herein.In addition, the three-dimensional of length, width and depth should be included in actual fabrication Bulk.

It is practical new to this below in conjunction with attached drawing to keep the purpose of this utility model, technical solution and advantage clearer The embodiment of type is described in further detail.

The utility model provides the following technical solutions: a kind of cooling heat collector of heat pipe-type condensation photovoltaic, in use process In, it is more efficient to can be realized radiating efficiency in use, and the available effective use of heat, referring to Fig. 1, including Housing 100, support foot rest 200, heat emission fan 300 and mistake ice chest 400；

Referring to Fig. 1, heat pipe 110 is fixedly installed at the top of housing 100,110 bottom of heat pipe is fixed through housing 100 Photovoltaic cell 120 is installed, 120 bottom of photovoltaic cell is fixedly installed with radiating copper sheet 130, the fixed peace in 130 bottom of radiating copper sheet Heat exchange wing 140 is filled, specific heat pipe 110 is screwed onto the top center of housing 100, and photovoltaic cell 120 is plugged on the bottom of heat pipe 110 Portion, radiating copper sheet 130 are bonded in 120 bottom of photovoltaic cell, and heat exchange wing 140 is screwed onto 100 inner cavity two sides of housing, and housing 100 is used In load-carrying unit, heat pipe 110 is used for electric power storage for collecting heat, photovoltaic cell 120, and radiating copper sheet 130 is for radiating, heat exchange wing 140 convert for heat；

Referring to Fig. 1, crosses 400 bottom of ice chest and support foot rest 200, the fixed peace in 200 bottom of support foot rest is fixedly mounted Non-slip mat 210 is filled, specifically, support foot rest 200 was welded on the quadrangle of 400 bottom of ice chest, non-slip mat 210 is socketed in support leg The bottom of frame 200, support foot rest 200 are used to support device, and non-slip mat 210 is for increasing stability；

Referring to Fig. 1, heat emission fan 300 is fixedly mounted in 100 left side wall of housing and right side wall, is consolidated in heat emission fan 300 Dingan County is equipped with fixed screw 310, specifically, heat emission fan 300 is screwed onto the left side wall and right side wall of housing 100, fixed screw 310 It is screwed on housing 100, heat emission fan 300 is for radiating, and fixed screw 310 is for fixing heat emission fan 300；

Referring to Fig. 1, crosses on the right side of 400 intracavity bottom of ice chest and be fixedly installed with air pump 410,410 bottom left of air pump It is fixedly installed with air entry 420, vacuum cooled pipe 430 is provided at the top of air pump 410, and vacuum cooled pipe 430 penetrates through ice chest 400 connect with 100 bottom of housing, and 430 left bottom of vacuum cooled pipe is provided with liquid return hole 440, and liquid return hole 440 is through supercooling Case 400 is extended to the over inside ice chest 400, is crossed on the left of 400 intracavity bottom of ice chest and is fixedly installed with compressor 450, is crossed ice chest 400 and is pushed up Storage nitrogenous hood 460 is fixedly installed on the left of portion, specifically, air pump 410 was screwed on the right side of the intracavity bottom of ice chest 400, air entry 420 are plugged on the bottom left of air pump 410, and vacuum cooled pipe 430 is plugged on the top of air pump 420 and connects with 100 bottom of housing It connects, liquid return hole 440 is plugged on the left bottom of vacuum cooled pipe 430, and is extended to the over the inner cavity of ice chest 400,450 spiral shell of compressor It connects on the left of the intracavity bottom for crossing ice chest 400, storage nitrogenous hood 460 was welded on the left side at 400 top of ice chest, crosses ice chest 400 and is used for Cold insulation, air pump 410 are used to provide power, and air entry 420 is used for air-breathing, and vacuum cooled pipe 430 returns liquid for cooling heat dissipation For flowing back, compressor cools down for 450 for nitrogen mouth 440, stores up nitrogenous hood 460 for storing liquid nitrogen.

Working principle: it in the cooling heat collector use process of condensation photovoltaic, by heat pipe 110, photovoltaic cell 120, changes The cooperation of hot wing 140 and radiating copper sheet 130, realizes the effective use to solar energy, by heat emission fan 300, cross ice chest 400, The cooperation of air pump 410, vacuum cooled pipe 430, compressor 450, realizes high efficiency and heat radiation.

It is practical not departing from although hereinbefore the utility model is described by reference to embodiment In the case where novel range, various improvement can be carried out to it and can replace component therein with equivalent.Especially, As long as structural conflict is not present, the various features in embodiment disclosed by the utility model can be mutual by any way It is used in combination with, the description of exhaustive is not carried out merely for the sake of omission length to the case where these combinations in the present specification The considerations of with economizing on resources.Therefore, the utility model is not limited to particular implementation disclosed herein, but including falling into All technical solutions in the scope of the claims.

Claims (6)

1. a kind of cooling heat collector of heat pipe-type condensation photovoltaic, it is characterised in that: including housing (100), support foot rest (200), Heat emission fan (300) crosses ice chest (400), is fixedly installed with heat pipe (110) at the top of the housing (100), heat pipe (110) bottom Portion is fixedly installed with photovoltaic cell (120) through housing (100), and photovoltaic cell (120) bottom is fixedly installed with radiating copper Heat exchange wing (140) are fixedly mounted in piece (130), radiating copper sheet (130) bottom, housing (100) left side wall and right side wall Heat emission fan (300) are fixedly mounted, are fixedly installed with fixed screw (310) on the heat emission fan (300), it is described to cross ice chest (400) it is fixedly installed with air pump (410) on the right side of intracavity bottom, air pump (410) bottom left is fixedly installed with air entry (420), it is provided with vacuum cooled pipe (430) at the top of the air pump (410), and the vacuum cooled pipe (430) penetrates through ice chest (400) it is connect with housing (100) bottom, vacuum cooled pipe (430) left bottom is provided with liquid return hole (440), and described Liquid return hole (440) penetrates through ice chest (400) and is extended to the over ice chest (400) inside, described to cross on the left of ice chest (400) intracavity bottom admittedly Dingan County is equipped with compressor (450), and described ice chest (400) top left side of crossing is fixedly installed with storage nitrogenous hood (460).

2. the cooling heat collector of a kind of heat pipe-type condensation photovoltaic according to claim 1, it is characterised in that: described to cross ice chest (400) support foot rest (200) are fixedly mounted in bottom, and non-slip mat (210) are fixedly mounted in support foot rest (200) bottom.

3. the cooling heat collector of a kind of heat pipe-type condensation photovoltaic according to claim 2, it is characterised in that: the storage nitrogenous hood (460) left side top is fixedly installed with liquid injection port, and storage nitrogenous hood (460) left bottom is fixedly installed with leakage fluid dram.

4. the cooling heat collector of a kind of heat pipe-type condensation photovoltaic according to claim 1, it is characterised in that: the radiating copper Piece (130) and photovoltaic cell (120) pass through heat dissipation glue sticking.

5. the cooling heat collector of a kind of heat pipe-type condensation photovoltaic according to claim 1, it is characterised in that: the heat emission fan (300) surface is fixedly installed with shield.

6. the cooling heat collector of a kind of heat pipe-type condensation photovoltaic according to claim 1, it is characterised in that: described to cross ice chest (400) front surface is fixedly installed with thermometer (470).