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Solar panel assembly

A technology for solar panels and components, applied in electrical components, circuits, photovoltaic power generation, etc., can solve the problem of difficulty in ensuring structural strength, and achieve the effect of ensuring structural strength

Pending Publication Date: 2018-11-02
榛硕(武汉)智能科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Laying solar panels on the road needs to bear a huge load. Using tempered glass interlayer to simply encapsulate the solar panels in such an assembly, the load borne by the upper tempered glass will be directly transmitted to the solar panels, and the lower tempered glass Under the reaction of the upper and lower tempered glass will form a squeeze on the solar panel, it is difficult to ensure the structural strength

Method used

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Experimental program
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Effect test

Embodiment 1

[0029] Such as Figure 1-2 As shown, a solar cell panel assembly includes a tempered glass layer 1, a solar cell panel 2, and a substrate 3 from top to bottom. Several structural holes 201 are evenly distributed on the solar cell panel 2. In the structural holes 201 It is filled with a carrying filler 202 for connecting the tempered glass layer 1 and the substrate 3 .

[0030] The solar panel assembly is used for paving traffic roads.

[0031] When the vehicle is running on the highway paved with the solar cell panel assembly, the several structural holes 201 uniformly distributed on the solar cell panel 2 and the load-carrying fillers 202 in the structural holes 201 are properly released by the The tempered glass layer 1 transmits the pressure from the vehicle and bears part of the load of the vehicle by the tempered glass layer 1 to avoid the pressure caused by the tempered glass layer 1 and the substrate 3 being pressed against the solar panel 2 damage. Since the load-ca...

Embodiment 2

[0033] Such as Figure 3-4 As shown, a solar cell panel assembly, the structure and principle of this embodiment is similar to that of Embodiment 1. The difference between this embodiment and Embodiment 1 is that a frame 301 is arranged around the substrate 3, and a frame 301 is arranged on the substrate 3. There is a boss 302 matching the structural hole 201, the frame 301, the boss 302 and the substrate 3 are molded at one time, and the boss 302 passes through the structural hole 201 and is pasted on the tempered glass layer 1 connect. The frame 301, the boss 302 and the substrate 3 can be molded at one time to increase the overall structural strength. The boss 302 is provided with a step 3021, and the height above the step 3021 of the boss 302 is higher than that of the solar cell. Plate 2, so that there is a certain gap between the substrate 3 and the tempered glass layer 1 and the solar cell panel 2, avoiding the impact of the tempered glass layer 1 and the substrate 3 o...

Embodiment 3

[0036] Such as Figure 5-6 As shown, a solar cell panel assembly, the structure and principle of this embodiment are similar to those of Embodiment 1 and Embodiment 2. The difference between this embodiment and Embodiment 1 and Embodiment 2 is that the carrying filler 202 is integrated with stainless steel A processed T-shaped bracket 6 , the top of the T-shaped bracket 6 is pasted and connected to the substrate 3 , and the bottom of the T-shaped bracket 6 is pasted and connected to the tempered glass layer 1 . The height of the T-shaped bracket 6 is higher than the height of the solar cell panel 2, so that there is a certain gap between the substrate 3 and the tempered glass layer 1 and the solar cell panel 2, which avoids the toughening. The pressing of the glass layer 1 and the substrate 3 against the solar cell panel 2 .

[0037] Several induction lamps 4 are arranged in the gap between the tempered glass layer 1 and the solar cell panel 2 . When the solar cell panel ass...

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Abstract

The invention discloses a solar panel assembly, which comprises, in order from top to bottom, a tempered glass layer, a solar panel, and a substrate, wherein the solar panel is uniformly provided witha plurality of structural holes, which are filled with bearing fillers for communicating the tempered glass layer and the substrate. Through the plurality of structural holes uniformly distributed onthe solar cell panel and the bearing fillers in the structural holes, the pressure transmitted by the tempered glass layer is appropriately released, and a portion of the load received by the tempered glass layer is received, thereby avoiding the damage caused by pressing the solar panel by the tempered glass layer and the substrate.

Description

technical field [0001] The invention relates to the field of solar photovoltaic components, in particular to a solar panel component. Background technique [0002] Traditional solar photovoltaic modules generally have a five-layer structure. From top to bottom, they are photovoltaic glass, encapsulation film, battery sheet, encapsulation film and backplane. Cross-linking and curing, the five-layer structure is firmly bonded together, and after the aluminum frame is added and the junction box is sealed with a sealant, a conventional solar photovoltaic module is produced. [0003] At present, solar photovoltaic modules have been applied to traffic roads. The solar photovoltaic pavement that can directly bear the traffic load is an exploratory cutting-edge technology in the field of pavement engineering. The technical difficulty lies in whether the solar photovoltaic modules laid on the pavement can withstand the rolling of vehicles without damage. Laying solar panels on the ...

Claims

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Application Information

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IPC IPC(8): H01L31/048
CPCH01L31/048Y02E10/50
Inventor 刘双
Owner 榛硕(武汉)智能科技有限公司
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