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CN208298844U - A heat-dissipating solar cell module - Google Patents
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CN208298844U - A heat-dissipating solar cell module - Google Patents

A heat-dissipating solar cell module Download PDF

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Publication number
CN208298844U
CN208298844U CN201820610379.1U CN201820610379U CN208298844U CN 208298844 U CN208298844 U CN 208298844U CN 201820610379 U CN201820610379 U CN 201820610379U CN 208298844 U CN208298844 U CN 208298844U
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strip
groove
layer
resin substrate
solar cell
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CN201820610379.1U
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Chinese (zh)
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黄敏艳
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Haimen Pinge Industrial Design Co ltd
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Haimen Pinge Industrial Design Co ltd
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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

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Abstract

The utility model provides a heat dissipation type solar module. The utility model discloses an among the heat dissipation type solar module through the upper surface at metal substrate be provided with a plurality of parallel arrangement's bar slot, adjacent it is protruding all to have a first bar between the bar slot, the basal surface of bar slot and the bellied upper surface of first bar all is provided with solar wafer, and is adjacent welding area between the solar wafer adhere to the side surface of bar slot, the setting of above-mentioned structure has increased the utility model discloses a number of battery piece among the heat dissipation type solar module has improved the utilization ratio to the sunlight, and then has increased this heat dissipation type solar module's output.

Description

A kind of heat radiating type solar cell module
Technical field
The utility model relates to technical field of solar batteries, more particularly to a kind of heat radiating type solar cell module.
Background technique
The maximum advantage of solar energy is that its is inexhaustible, and will not destroy ecology in use Balance, pollution environment.Therefore, solar energy is a kind of environmental-friendly green regenerative energy sources.Solar battery can use half The luminous energy of sunlight is converted to electric energy by conductor PN junction or PIN junction, and any mechanical movement is not needed in conversion process, and will not Environment is polluted, and becomes the Land use systems of most potential solar energy.In existing all kinds of solar batteries, silica-based solar Battery is widely used since high-efficient, manufacturing process is mature.Existing silica-based solar cell include monocrystalline silicon too Positive energy battery, polysilicon solar cell and amorphous silicon thin-film solar cell.Existing silica-based solar component usually wraps Glass cover-plate, the first EVA glue-line, solar battery lamella, the 2nd EVA glue-line and solar cell backboard are included, for convenience The electrical connection of adjacent solar battery piece, it will usually which there are gaps between adjacent solar battery piece, and the presence in gap is led It causes the sunlight for exposing to solar cell module surface to utilize insufficient, thereby reduces the output work of solar cell module Rate.
Summary of the invention
The purpose of the utility model is to overcome above-mentioned the deficiencies in the prior art, provide a kind of heat radiating type solar battery group Part.
To achieve the above object, the utility model proposes a kind of heat radiating type solar cell module, comprising:
Metallic substrates, the upper surface of the metallic substrates are provided with multiple strip grooves arranged in parallel, the adjacent item One first strip bulge, the width phase of the width of the strip groove and first strip bulge are all had between shape groove Together, the cross section of the strip groove and the section of first strip bulge are rectangle, the lower surface of the metallic substrates It is provided with multiple columnar projections being arranged in array;
The strip groove and first strip bulge is completely covered in insulating lacquer layer, the insulating lacquer layer;
Multiple solar battery sheets are respectively arranged at the bottom surface and first strip bulge of the strip groove Upper surface, the side length of the solar battery sheet is of same size with the strip groove, the bottom surface of the strip groove The solar battery sheet of the upper surface of solar battery sheet and adjacent first strip bulge is connected electrically in one by welding It rises, the welding between the adjacent solar battery sheet is attached to the side surface of the strip groove;
EVA encapsulates glue-line, and the upper of the solar battery sheet and the metallic substrates is completely covered in EVA encapsulation glue-line Surface;
Transparent glass cover board, the transparent glass cover board are set on the EVA encapsulation glue-line, the transparent glass cover The lower surface of plate is provided with multiple second strip bulges arranged in parallel corresponding with the strip groove, and each described second Strip bulge is oppositely arranged with the corresponding strip groove;
First resin substrate, the upper surface of first resin substrate are arranged multiple recessed in the first cylindricality of array distribution Slot, a part of each columnar projections of the lower surface of the metallic substrates are embedded into corresponding first cylindrical groove, The lower surface of first resin substrate is provided with multiple the second cylindrical grooves in array distribution;
Multiple elastics, a part of each elastic are embedded into corresponding second cylindrical groove, the elasticity Column includes metal aluminium core, and the surface of the metal aluminium core is provided with caoutchouc layer, and the surface of the caoutchouc layer is provided with Polytetrafluoroethylene ethylene layer;
Second resin substrate, the upper surface of second resin substrate are arranged multiple recessed in the third cylindricality of array distribution Slot, another part of each elastic are embedded into the corresponding third cylindrical groove;
Caoutchouc layer, the caoutchouc layer are set to the lower surface of second resin substrate;
Third resin substrate, the third resin substrate are set to the lower surface of the caoutchouc layer;
Outer weather-proof resin layer, the outer weather-proof resin layer are set to the lower surface of the third resin substrate.
Heat radiating type solar cell module as above, further, the material of the metallic substrates are one in aluminium, copper and iron Kind, the depth of the strip groove is 400-800 microns, and the diameter of the columnar projections is 2-5 centimetres, adjacent column protrusion Spacing is 5-15 millimeters, and the height of the columnar projections is 1-3 millimeters.
Heat radiating type solar cell module as above, further, the insulating lacquer layer with a thickness of 100-200 microns.
Heat radiating type solar cell module as above, further, the material of first, second, third resin substrate are PET Or PEN, the depth of first cylindrical groove are 0.5-1.5 millimeters, second cylindrical groove and the third cylindricality are recessed The depth of slot is 0.2-0.8 millimeters.
Heat radiating type solar cell module as above, further, the diameter of the elastic are 2-5 centimetres, adjacent spring column Spacing be 5-15 millimeter, the height of the elastic is 0.5-2 millimeters.
Heat radiating type solar cell module as above, further, the material of the outer weather-proof resin layer are polytetrafluoroethylene (PTFE), gather Vinylidene, polyvinyl fluoride or ethylene-tetrafluoroethylene copolymer, the outer weather-proof resin layer with a thickness of 100-200 microns, institute State caoutchouc layer with a thickness of 0.5-1.5 millimeters.
Compared with prior art, the utility model has the beneficial effects that:
In the heat radiating type solar cell module of the utility model, the upper surface of metallic substrates is provided with multiple arranged in parallel Strip groove, all have one first strip bulge between adjacent bar groove, the bottom surface of the strip groove and described The upper surface of first strip bulge is provided with solar battery sheet, and the welding between the adjacent solar battery sheet is attached to The setting of the side surface of the strip groove, above structure increases in the heat radiating type solar cell module of the utility model The number of cell piece improves the utilization rate to sunlight, and then increases the output work of the heat radiating type solar cell module Rate;The lower surface of metallic substrates is provided with multiple columnar projections being arranged in array, and each columnar projections in the utility model Middle only a fraction is embedded in the first resin substrate, so that forming exposure between the metallic substrates and first resin substrate The presence in the gap of columnar projections, the gap can quickly conduct the heat that solar battery sheet generates into air, effectively Improve the heat dissipation performance of solar cell module;Multiple elastics are provided in the first resin substrate and the second resin substrate, And the lower surface of the second resin substrate is provided with caoutchouc layer, the setting of double elastic structure can effectively improve solar energy The damping performance of battery component, and by the specific structure of optimization elastic, the mechanical strength of elastic is effectively increased, in day The lower surface of right rubber layer is disposed with third resin substrate and outer weather-proof resin layer, effectively avoids caoutchouc layer long-term Aging occurs in use process.Compared with existing solar cell module, by the solar battery for optimizing the utility model The specific size of component specific structure and each component, so that the solar cell module of the utility model has bigger output While power, also there is excellent heat dissipation performance and anti-seismic performance, so that the service life of the solar cell module Longer and stability is more preferable.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the heat radiating type solar cell module of the utility model.
Fig. 2 is the bottom view of the metallic substrates of the utility model.
Fig. 3 is the schematic cross-section of the elastic of the utility model.
Specific embodiment
As shown in Figure 1-3, the utility model proposes a kind of heat radiating type solar cell modules, comprising: metallic substrates 1, institute The upper surface for stating metallic substrates 1 is provided with multiple strip grooves 11 arranged in parallel, has between the adjacent strip groove 11 There are one first strip bulge 12, the width of the strip groove 11 of same size, item with first strip bulge 12 The cross section of shape groove 11 and the section of first strip bulge 12 are rectangle, the lower surface setting of the metallic substrates 1 There are multiple columnar projections 13 being arranged in array;Insulating lacquer layer 2, the insulating lacquer layer 2 be completely covered the strip groove 11 with And first strip bulge 12;Multiple solar battery sheets 3 are respectively arranged at bottom surface and the institute of the strip groove 11 State the upper surface of the first strip bulge 12, the side length of the solar battery sheet 3 of same size, institute with the strip groove 11 State the sun of the solar battery sheet 3 of the bottom surface of strip groove 11 and the upper surface of adjacent first strip bulge 12 Energy cell piece 3 is electrically connected by welding, and the welding between the adjacent solar battery sheet 3 is attached to the strip groove The side surface 111 of slot 11;EVA encapsulates glue-line 4, and the solar battery sheet 3 and described is completely covered in EVA encapsulation glue-line 4 The upper surface of metallic substrates 1;Transparent glass cover board 5, the transparent glass cover board 5 are set on the EVA encapsulation glue-line 4, The lower surface of the transparent glass cover board 5 is provided with multiple second bar shapeds arranged in parallel corresponding with the strip groove 11 Protrusion 51, each second strip bulge 51 is oppositely arranged with the corresponding strip groove 11;First resin substrate 6, institute Multiple the first cylindrical grooves 61 in array distribution, the following table of the metallic substrates 1 is arranged in the upper surface for stating the first resin substrate 6 A part of each columnar projections 13 in face is embedded into corresponding first cylindrical groove 61, first resin substrate 6 Lower surface be provided with multiple the second cylindrical grooves 62 in array distribution;Multiple elastics 7, a part of each elastic 7 It is embedded into corresponding second cylindrical groove 62, the elastic 7 includes metal aluminium core 71, the metal aluminium core 71 Surface is provided with caoutchouc layer 72, and the surface of the caoutchouc layer 72 is provided with polytetrafluoroethylene ethylene layer 73;Second resin base Multiple third cylindrical grooves 81 in array distribution are arranged in plate 8, the upper surface of second resin substrate 8, each elastic 7 Another part is embedded into the corresponding third cylindrical groove 81;Caoutchouc layer 9, the caoutchouc layer 9 are set to institute State the lower surface of the second resin substrate 8;Third resin substrate 10, the third resin substrate 10 are set to the caoutchouc layer 9 lower surface;Outer weather-proof resin layer 101, the outer weather-proof resin layer 101 are set to the following table of the third resin substrate 10 Face.
Wherein, the material of the metallic substrates 1 is one of aluminium, copper and iron, and the depth of the strip groove 11 is 400-800 microns, the diameter of the columnar projections 13 is 2-5 centimetres, and the spacing of adjacent column protrusion 13 is 5-15 millimeters, described The height of columnar projections 13 is 1-3 millimeters.The insulating lacquer layer 2 with a thickness of 100-200 microns.Described first, second, The material of three resin substrates 6,8,10 is PET or PEN, and the depth of first cylindrical groove 61 is 0.5-1.5 millimeters, described the The depth of two cylindrical grooves 62 and the third cylindrical groove 81 is 0.2-0.8 millimeters.The diameter of the elastic 7 is 2-5 Centimetre, the spacing of adjacent spring column 7 is 5-15 millimeters, and the height of the elastic 7 is 0.5-2 millimeters.The outer weather-proof resin Layer 101 material be polytetrafluoroethylene (PTFE), Kynoar, polyvinyl fluoride or ethylene-TFE copolymer, it is described outer weather-proof Resin layer 101 with a thickness of 100-200 microns, the caoutchouc layer 10 with a thickness of 0.5-1.5 millimeters.
Embodiment 1
As shown in Figure 1-3, the utility model proposes a kind of heat radiating type solar cell modules, comprising: metallic substrates 1, institute The upper surface for stating metallic substrates 1 is provided with multiple strip grooves 11 arranged in parallel, has between the adjacent strip groove 11 There are one first strip bulge 12, the width of the strip groove 11 of same size, item with first strip bulge 12 The cross section of shape groove 11 and the section of first strip bulge 12 are rectangle, the lower surface setting of the metallic substrates 1 There are multiple columnar projections 13 being arranged in array;Insulating lacquer layer 2, the insulating lacquer layer 2 be completely covered the strip groove 11 with And first strip bulge 12;Multiple solar battery sheets 3 are respectively arranged at bottom surface and the institute of the strip groove 11 State the upper surface of the first strip bulge 12, the side length of the solar battery sheet 3 of same size, institute with the strip groove 11 State the sun of the solar battery sheet 3 of the bottom surface of strip groove 11 and the upper surface of adjacent first strip bulge 12 Energy cell piece 3 is electrically connected by welding, and the welding between the adjacent solar battery sheet 3 is attached to the strip groove The side surface 111 of slot 11;EVA encapsulates glue-line 4, and the solar battery sheet 3 and described is completely covered in EVA encapsulation glue-line 4 The upper surface of metallic substrates 1;Transparent glass cover board 5, the transparent glass cover board 5 are set on the EVA encapsulation glue-line 4, The lower surface of the transparent glass cover board 5 is provided with multiple second bar shapeds arranged in parallel corresponding with the strip groove 11 Protrusion 51, each second strip bulge 51 is oppositely arranged with the corresponding strip groove 11;First resin substrate 6, institute Multiple the first cylindrical grooves 61 in array distribution, the following table of the metallic substrates 1 is arranged in the upper surface for stating the first resin substrate 6 A part of each columnar projections 13 in face is embedded into corresponding first cylindrical groove 61, first resin substrate 6 Lower surface be provided with multiple the second cylindrical grooves 62 in array distribution;Multiple elastics 7, a part of each elastic 7 It is embedded into corresponding second cylindrical groove 62, the elastic 7 includes metal aluminium core 71, the metal aluminium core 71 Surface is provided with caoutchouc layer 72, and the surface of the caoutchouc layer 72 is provided with polytetrafluoroethylene ethylene layer 73;Second resin base Multiple third cylindrical grooves 81 in array distribution are arranged in plate 8, the upper surface of second resin substrate 8, each elastic 7 Another part is embedded into the corresponding third cylindrical groove 81;Caoutchouc layer 9, the caoutchouc layer 9 are set to institute State the lower surface of the second resin substrate 8;Third resin substrate 10, the third resin substrate 10 are set to the caoutchouc layer 9 lower surface;Outer weather-proof resin layer 101, the outer weather-proof resin layer 101 are set to the following table of the third resin substrate 10 Face.
Wherein, the material of the metallic substrates 1 is aluminium, and the depth of the strip groove 11 is 500 microns, the column The diameter of protrusion 13 is 4 centimetres, and the spacing of adjacent column protrusion 13 is 10 millimeters, and the height of the columnar projections 13 is 2 millimeters. The insulating lacquer layer 2 with a thickness of 150 microns.The material of first, second, third resin substrate 6,8,10 is PET, institute The depth for stating the first cylindrical groove 61 is 1 millimeter, the depth of second cylindrical groove 62 and the third cylindrical groove 81 It is 0.5 millimeter.The diameter of the elastic 7 is 4 centimetres, and the spacing of adjacent spring column 7 is 10 millimeters, the height of the elastic 7 Degree is 1.5 millimeters.The material of the outer weather-proof resin layer 101 is polytetrafluoroethylene (PTFE), the thickness of the outer weather-proof resin layer 101 Be 150 microns, the caoutchouc layer 10 with a thickness of 1 millimeter.
Show that compared with the solar cell module of existing same size, the heat radiating type of the utility model is too by test The output power of positive energy battery component increases 6.5% than the output power of existing component.
Embodiment 2
The present embodiment provides another heat radiating type solar cell modules, and compared with Example 1, difference is only that, described The material of metallic substrates 1 is copper, and the depth of the strip groove 11 is 400 microns, and the diameter of the columnar projections 13 is 5 lis Rice, the spacing of adjacent column protrusion 13 are 15 millimeters, and the height of the columnar projections 13 is 3 millimeters.The insulating lacquer layer 2 With a thickness of 200 microns.The material of first, second, third resin substrate 6,8,10 is PEN, first cylindrical groove 61 Depth be 1.5 millimeters, the depth of second cylindrical groove 62 and the third cylindrical groove 81 is 0.8 millimeter.It is described The diameter of elastic 7 is 5 centimetres, and the spacing of adjacent spring column 7 is 15 millimeters, and the height of the elastic 7 is 2 millimeters.It is described The material of outer weather-proof resin layer 101 is Kynoar, the outer weather-proof resin layer 101 with a thickness of 200 microns, it is described natural Rubber layer 10 with a thickness of 1.5 millimeters.
Show that compared with the solar cell module of existing same size, the heat radiating type of the utility model is too by test The output power of positive energy battery component increases 5% than the output power of existing component.
Embodiment 3
The present embodiment provides another heat radiating type solar cell modules, and compared with Example 1, difference is only that, described The material of metallic substrates 1 is iron, and the depth of the strip groove 11 is 800 microns, and the diameter of the columnar projections 13 is 2 lis Rice, the spacing of adjacent column protrusion 13 are 5 millimeters, and the height of the columnar projections 13 is 1 millimeter.The thickness of the insulating lacquer layer 2 Degree is 100 microns.The depth of first cylindrical groove 61 is 0.5 millimeter, second cylindrical groove 62 and the third The depth of cylindrical groove 81 is 0.2 millimeter.The diameter of the elastic 7 is 2 centimetres, and the spacing of adjacent spring column 7 is 5 millimeters, The height of the elastic 7 is 0.5 millimeter, and the material of the outer weather-proof resin layer 101 is ethylene-tetrafluoroethylene copolymer, institute State outer weather-proof resin layer 101 with a thickness of 100 microns, the caoutchouc layer 10 with a thickness of 0.5 millimeter.
Show that compared with the solar cell module of existing same size, the heat radiating type of the utility model is too by test The output power of positive energy battery component increases 6% than the output power of existing component.
The above is preferred embodiments of the present invention, it is noted that for the ordinary skill of the art For personnel, without departing from the principle of this utility model, several improvements and modifications can also be made, these are improved and profit Decorations are also considered as the protection scope of the utility model.

Claims (6)

1.一种散热型太阳能电池组件,其特征在于:包括:1. A heat dissipation type solar cell assembly, characterized in that: comprising: 金属基底,所述金属基底的上表面设置有多个平行排列的条形沟槽,相邻所述条形沟槽之间均具有一第一条形凸起,所述条形沟槽的宽度与所述第一条形凸起的宽度相同,所述条形沟槽的横截面和所述第一条形凸起的截面均为矩形,所述金属基底的下表面设置有多个呈阵列排布的柱状凸起;A metal base, the upper surface of the metal base is provided with a plurality of strip-shaped grooves arranged in parallel, and there is a first strip-shaped protrusion between the adjacent strip-shaped grooves, and the width of the strip-shaped grooves is The width of the first strip-shaped protrusion is the same, the cross-section of the strip-shaped groove and the cross-section of the first strip-shaped protrusion are both rectangular, and the lower surface of the metal base is provided with a plurality of Arranged columnar protrusions; 绝缘漆层,所述绝缘漆层完全覆盖所述条形沟槽以及所述第一条形凸起;an insulating varnish layer, the insulating varnish layer completely covering the strip-shaped groove and the first strip-shaped protrusion; 多个太阳能电池片,分别设置于所述条形沟槽的底表面以及所述第一条形凸起的上表面,所述太阳能电池片的边长与所述条形沟槽的宽度相同,所述条形沟槽的底表面的太阳能电池片与相邻的所述第一条形凸起的上表面的太阳能电池片通过焊带电连接在一起,相邻所述太阳能电池片之间的焊带附着于所述条形沟槽的侧表面;A plurality of solar cells are respectively arranged on the bottom surface of the strip-shaped groove and the upper surface of the first strip-shaped protrusion, the side length of the solar cell is the same as the width of the strip-shaped groove, The solar cells on the bottom surface of the strip-shaped grooves are electrically connected to the solar cells on the upper surface of the adjacent first strip-shaped protrusions through welding strips, and the welding between adjacent solar cells tape attached to the side surface of the bar groove; EVA封装胶层,所述EVA封装胶层完全覆盖所述太阳能电池片和所述金属基底的上表面;EVA encapsulation adhesive layer, the EVA encapsulation adhesive layer completely covers the upper surface of the solar cells and the metal base; 透明玻璃盖板,所述透明玻璃盖板设置于所述EVA封装胶层之上,所述透明玻璃盖板的下表面设置有与所述条形沟槽相对应的多个平行排列的第二条形凸起,每个所述第二条形凸起与相应的所述条形沟槽相对设置;A transparent glass cover plate, the transparent glass cover plate is arranged on the EVA encapsulation adhesive layer, and the lower surface of the transparent glass cover plate is provided with a plurality of second parallel grooves corresponding to the strip grooves. a bar-shaped protrusion, each of the second bar-shaped protrusions is arranged opposite to the corresponding bar-shaped groove; 第一树脂基板,所述第一树脂基板的上表面设置多个呈阵列分布的第一柱形凹槽,所述金属基底的下表面的每个柱状凸起的一部分嵌入到相应的所述第一柱形凹槽中,所述第一树脂基板的下表面设置有多个呈阵列分布的第二柱形凹槽;The first resin substrate, the upper surface of the first resin substrate is provided with a plurality of first columnar grooves distributed in an array, and a part of each columnar protrusion on the lower surface of the metal base is embedded in the corresponding first columnar groove. In a cylindrical groove, the lower surface of the first resin substrate is provided with a plurality of second cylindrical grooves distributed in an array; 多个弹性柱,每个弹性柱的一部分嵌入到相应的所述第二柱形凹槽中,所述弹性柱包括金属铝芯,所述金属铝芯的表面设置有天然橡胶层,所述天然橡胶层的表面设置有聚四氟乙烯层;A plurality of elastic columns, a part of each elastic column is embedded in the corresponding second columnar groove, the elastic column includes a metal aluminum core, the surface of the metal aluminum core is provided with a natural rubber layer, and the natural rubber core The surface of the rubber layer is provided with a polytetrafluoroethylene layer; 第二树脂基板,所述第二树脂基板的上表面设置多个呈阵列分布的第三柱形凹槽,每个弹性柱的另一部分嵌入到相应的所述第三柱形凹槽中;A second resin substrate, the upper surface of the second resin substrate is provided with a plurality of third cylindrical grooves distributed in an array, and the other part of each elastic pillar is embedded in the corresponding third cylindrical groove; 天然橡胶层,所述天然橡胶层设置于所述第二树脂基板的下表面;a natural rubber layer disposed on the lower surface of the second resin substrate; 第三树脂基板,所述第三树脂基板设置于所述天然橡胶层的下表面;a third resin substrate, the third resin substrate is disposed on the lower surface of the natural rubber layer; 外耐候树脂层,所述外耐候树脂层设置于所述第三树脂基板的下表面。An outer weather-resistant resin layer, the outer weather-resistant resin layer is disposed on the lower surface of the third resin substrate. 2.根据权利要求1所述的散热型太阳能电池组件,其特征在于:所述金属基底的材质为铝、铜和铁中的一种,所述条形沟槽的深度为400-800微米,所述柱状凸起的直径为2-5厘米,相邻柱状凸起的间距为5-15毫米,所述柱状凸起的高度为1-3毫米。2. The heat dissipation solar cell module according to claim 1, characterized in that: the material of the metal base is one of aluminum, copper and iron, and the depth of the strip groove is 400-800 microns, The diameter of the columnar protrusions is 2-5 cm, the distance between adjacent columnar protrusions is 5-15 mm, and the height of the columnar protrusions is 1-3 mm. 3.根据权利要求1所述的散热型太阳能电池组件,其特征在于:所述绝缘漆层的厚度为100-200微米。3. The heat dissipation solar cell module according to claim 1, characterized in that: the thickness of the insulating varnish layer is 100-200 microns. 4.根据权利要求1所述的散热型太阳能电池组件,其特征在于:所述第一、第二、第三树脂基板的材质为PET或PEN,所述第一柱形凹槽的深度为0.5-1.5毫米,所述第二柱形凹槽以及所述第三柱形凹槽的深度为0.2-0.8毫米。4. The heat dissipation solar cell module according to claim 1, characterized in that: the material of the first, second and third resin substrates is PET or PEN, and the depth of the first cylindrical groove is 0.5 -1.5 mm, the depth of the second cylindrical groove and the third cylindrical groove is 0.2-0.8 mm. 5.根据权利要求4所述的散热型太阳能电池组件,其特征在于:所述弹性柱的直径为2-5厘米,相邻弹性柱的间距为5-15毫米,所述弹性柱的高度为0.5-2毫米。5. The heat-dissipating solar cell module according to claim 4, characterized in that: the diameter of the elastic columns is 2-5 cm, the distance between adjacent elastic columns is 5-15 mm, and the height of the elastic columns is 0.5-2mm. 6.根据权利要求1所述的散热型太阳能电池组件,其特征在于:所述外耐候树脂层的材质为聚四氟乙烯、聚偏氟乙烯、聚氟乙烯或乙烯-四氟乙烯共聚物,所述外耐候树脂层的厚度为100-200微米,所述天然橡胶层的厚度为0.5-1.5毫米。6. The heat dissipation solar cell module according to claim 1, characterized in that: the material of the outer weather-resistant resin layer is polytetrafluoroethylene, polyvinylidene fluoride, polyvinyl fluoride or ethylene-tetrafluoroethylene copolymer, The thickness of the outer weather-resistant resin layer is 100-200 microns, and the thickness of the natural rubber layer is 0.5-1.5 mm.
CN201820610379.1U 2018-04-26 2018-04-26 A heat-dissipating solar cell module Expired - Fee Related CN208298844U (en)

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108376723A (en) * 2018-04-26 2018-08-07 海门市品格工业设计有限公司 A heat-dissipating solar cell module

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108376723A (en) * 2018-04-26 2018-08-07 海门市品格工业设计有限公司 A heat-dissipating solar cell module
CN108376723B (en) * 2018-04-26 2024-12-03 三峡新能源哈密风电有限公司 A heat dissipation type solar cell module

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