JPS61194782A - Solar cell device - Google Patents

Abstract

PURPOSE:To improve the degree of freedom of the arrangement of cells by using a lower electrode connected to a cell on one end side as one electrode of output extracting electrodes, connecting a lower electrode connected to a cell on the other end side to a conductive substrate and employing the conductive substrate as the other electrode of the output extracting electrodes. CONSTITUTION:Adjacent cells 4 are connected by upper transparent electrodes 8 and lower electrodes 6, and the nose section of a lower electrode 6a connected to an upper transparent electrode 8a positioned at one end side is exposed to the outside of a light-transmitting cover 5 and used as one electrode 7a of output extracting electrodes 7. On the other hand, a lower electrode 6b connected to a cell 4b positioned at the other end side is extended up to the edge section of the lower surface of a conductive substance 2 along the end surface of an insulating substance 3, and connected electrically in the edge of the lower surface of the conductive substance 2. The conductive substance 2 exposed to the outside of the light-transmitting cover 5 is employed as the other electrode 7b of the output extracting electrodes 7. According to the system, the output extracting electrodes can be formed simultaneously when shaping the lower electrodes for the cells, thus simplifying the processes.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a solar cell in which a plurality of solar cells are connected, and more particularly to an electrode wiring structure of this solar cell device.

(Prior Art) Conventionally, a substrate having a double structure of a conductive material/insulating material has been used in a thin film solar cell module in which a plurality of solar cells are connected.

Since electrode wiring is applied to this insulating material surface, the wiring must be taken out from both ends of the module, or the wiring must be taken out from one end of the module by devising the arrangement of the cells.

(Problems to be solved by the invention) However, in order to perform such conventional electrode wiring,
Since there are restrictions on cell arrangement, this is not preferable in terms of design and mass production.

(Object of the Invention) In view of the above, an object of the present invention is to improve the degree of freedom in cell arrangement and to provide an electrode wiring structure that is preferable in terms of design and mass production.

(Structure of the Invention) The present invention provides a plurality of solar cells on a conductive substrate provided with an insulating layer on the light-receiving surface side, an upper transparent electrode formed on the upper part of the cell, and a lower part formed on the lower part. In a solar cell device connected through electrodes, the lower electrode connected to the cell located at one end is one electrode of the output extraction electrode, and the lower electrode connected to the cell located at the other end is connected to the cell located at the other end. The present invention relates to a solar cell device connected to the conductive substrate, and the conductive substrate serving as the other electrode of the output extraction electrode.

(Example) An example of the present invention will be described below with reference to the drawings.

FIG. 1 shows an integrated amorphous solar cell module 1 constituting a unit of a solar cell device according to the present invention.

The module 1 includes an amorphous solar cell 4 (hereinafter referred to as a cell) on a substrate having a double structure of a conductive material 2 and an insulating material 3 formed on the light-receiving surface side 2a of the conductive material 2. A plurality of these are provided at intervals, and are covered with a translucent cover 5 made of transparent resin, glass, or the like. and.

This translucent cover 5 can provide high reliability against changes in temperature, humidity, etc.

The insulating material 3 is made by coating or laminating an insulating layer on the conductive material 2, for example.

Adjacent cells 4 are connected by an upper transparent electrode 8 and a lower electrode 6, and the tip of the lower electrode 6a connected to the upper transparent electrode 8a located at one end is connected to the transparent cover 5.
One electrode 7a of the output extraction electrode 7 is exposed to the outside. The lower electrode 6 is formed using vacuum deposition, sputtering, printing, or the like.

On the other hand, the lower electrode 6b connected to the cell 4b located at the other end extends along the end surface of the insulating material 3 to the lower edge of the conductive material 2, and is electrically connected there.

The conductive substance 2 exposed outside the light-transmitting cover 5 is the other electrode 7b of the output extraction electrode 7.

In the module 1 having the above configuration, the output extraction electrode 7
is protruded outside the translucent cover 5 in the form of a plug.
For example, if the terminal 10 of an elastic wiring receiver is made smaller than the interval between the output extraction electrodes 7, it can be inserted and fixed with one touch.

FIG. 3 shows another embodiment, in which an opening 9 is formed in the insulating material 3 near the lower electrode 6b, and the lower mold i6b and the conductive material 2 are electrically connected through the opening 9. We are trying to

(Effects of the Invention) As described above, according to the two aspects of the present invention, the output extraction electrode can be formed simultaneously when forming the lower electrode of the cell, thereby simplifying the process. Furthermore, restrictions on cell placement are eliminated, which is extremely desirable in terms of design and mass production.

[Brief explanation of drawings]

FIG. 1 is a side view showing an embodiment of a solar cell device according to the present invention, FIG. 2 is an open plan view, and FIG. 3 is a partial side view showing another embodiment. 1... Module 2... Conductive substance 3...
Insulating material 4... Cell 6... Lower electrode
8...The upper transparent electrode is made by one person @7 Figure 2 Figure 3 Procedural amendment written type) % type % 2. Name of the invention Solar cell device 3. Person making the amendment Relationship to the case Patent applicant Address: 22-22 Nagaike-cho, Abeno-ku, Osaka Name (5)
04) Sharp Corporation Representative Saeki Asahi 4, Agent 530 Telephone 06 (364) 82535,
Date of amendment order: June 10, 1985 (Shipping date: June 25, 1985) Figure 7-(,': 2θ I\2 Figure 7a~

Claims (1)

[Claims] 1) A plurality of solar cells are formed on a conductive substrate provided with an insulating layer on the light-receiving surface side, with an upper transparent electrode formed on the upper part of the cell and a lower electrode formed on the lower part. In a solar cell device connected through a cell, the lower electrode connected to the cell located on one end side is made to be one of the output extraction electrodes. A solar cell device characterized in that a lower electrode connected to a cell located on the other end side is connected to the conductive substrate, and the conductive substrate serves as the other electrode of the output extraction electrode.