KR820002355Y1 - Fixed structure of dundation plate of the sun battery - Google Patents

Abstract

No content.

Description

Fixed Structure of Solar Cell Board

1 is a cross-sectional view of the main part of the present invention.

2 is a perspective view of a state in which the bonding state of the packing and the substrate in the present invention is viewed from below.

3 is a perspective view of a state in which the bonding state of the packing and the substrate is seen from below as another case of the present invention.

The present invention relates to a fixed structure of the solar cell substrate in the solar cell clock.

In the conventional solar cell substrate, several silicon solar cells were attached in series on an electrode pattern of a flexible sheet made of polyamide with printed wiring and bonded to a metal substrate.

In fixing the solar cell substrate, a foot is fixed to a lower surface of a metal substrate and a foot is inserted into a module to fix the foot with a screw.

However, when the flexible sheet is used, the position is not matched well, and it is necessary to adhere it to a plate such as a metal substrate in order to correct and reinforce the deflection, and the number of parts increases and the adhesion process increases. Therefore, in order to reduce the manufacturing cost of a solar cell substrate, in recent years, a method has been performed in which a printed wiring is directly performed on a glass epoxy resin and the solar cell is fixed thereto. However, a glass epoxy resin substrate cannot be soldered to the foot like a metal plate, so a separate substrate fixing method is required.

An object of the present invention is to provide a fixed structure of a solar cell substrate made of glass epoxy resin or the like, which cannot be soldered to a foot.

The present invention will be described in detail with reference to the drawings. In Figs. 1 and 2, reference numeral 1 denotes a glass epoxy resin solar cell substrate having wiring patterns 1a provided on its upper surface. At a predetermined position of the wiring pattern 1a, a plurality of silicon solar cells 2 are fixed in series by soldering. The code | symbol 3 is the windshield which performed the appropriate printing 3a on the lower surface, and the outer periphery is well trimmed. Reference numeral 4 denotes a resin packing for fixing the solar cell substrate 1 and the glass 3, and a protrusion 4a is provided at an inner circumference, and the protrusion 4a is a stepped portion 4b at the upper and lower parts of the packing. ), 4c are formed, and a smooth wavy surface 46 is formed on the side surface of the stepped portion 4c.

Reference numeral 5 denotes a watch case that houses the module 6.

The solar cell substrate 1 is supported at the end 5a of the watch case 5 with its side faced on the wavy surface 46 of the packing. In addition, since the solar cell substrate 1 has a packing protrusion 4a located at an outer circumference thereof, when the glass 3 is pressed into the watch case 5 with the packing 4 interposed therebetween, the solar cell substrate 1 is pressed down and fixed by the protrusion 4a. will be. That is, the solar cell substrate 1 is seated in the packing stairs 4c, and the glass 3 is pressed into the packing stairs 4b. The fixing tips of solar cell board are as follows.

Firstly, the solar cell substrate 1 is positioned on the end 5a of the watch case 5, and the packing 4 is placed on the fuselage end 5a so that the wavy surface 4d surrounds the side surface of the solar cell substrate 1. Position it.

Moreover, the glass 4 is press-fitted and fixed in the packing end part 4b from the upper side. At this time, the packing 4 is strongly compressed by the side surface of the glass 3 and the inner circumferential surface of the end 5a of the watch case 5 to secure waterproofness and at the same time the solar cell substrate 1 by the protrusion 4a. Of the glass 3 can be easily inserted when the inner periphery of the packing 4 is trimmed, and the module 6 is press-fitted from the lower side of the watch case 5 and the elastic contact or the conductive rubber is interposed therebetween. And make an electrical connection.

3 shows another embodiment of the present invention, in which the protrusion 1b is provided on the outer circumference of the solar cell substrate 1 and coupled to the notch 4e formed under the packing 4, the solar cell substrate The position of (1) is determined. Moreover, you may install in the board | substrate 1 and the packing 4 so that the protrusion part 1b and the notch part 4e may be reversed.

With the above configuration, the fixing structure of the substrate such as glass epoxy resin, which cannot be mounted on foot, is possible by using packing, and it is not necessary to attach the foot to the substrate, and the assembly is extremely easy. Furthermore, even if the periphery of the substrate is embraced by the packing, the position of the substrate does not fluctuate even when there is an impact, and the packing protrusion plays a role of forming a gap between the glass and the solar panel, thus preventing the damage of the solar cell. It works.

Claims (1)

In addition to placing the Taeang battery substrate 1 on the fuselage end 5a, a resin packing 4 having a protrusion 4a inside which forms the steps 4b and 4c is provided. The outer periphery of the solar cell substrate 1 is arranged between 4c) and the inner circumferential surface of the fuselage end 5a, and the glass 3 is pressed into the stepped portion 4b of the resin packing 4, and the end portion 4c is pressed. The fixed structure of the solar cell substrate, characterized in that to form a wavy surface (4d) on the side.