JPS5854681A - Solar battery cell mounting substrate - Google Patents

Abstract

PURPOSE:To facilitate the connection of solar battery cells by forming a cell wiring pattern on a metal plate of ?-shape in section and forming a notch for an output terminal, thereby omitting a reinforced material. CONSTITUTION:A metal plate 1 having elasticity is formed in ?-shape in section, and the inner surface is covered with an insulating layer 3. A wiring pattern 5 for connecting five solar battery cells 4 is formed of copper foils on the layer 3. + side and - side output terminals 6, 7 are formed in strip shape at the notches 8, 8, are bent from the base in a reverse direction to the mounting side of the cells 4, and the end is bent in ?-shape in the cell mounting surface direction. In this manner, soldering work of cell reinforcing angle plate and output voltage leading wirings can be omitted.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a solar cell mounting board that has both reinforcement of the solar cell and an output terminal.

In general, the output voltage per solar cell is extremely low, so when using it in electronic devices such as calculators and watches, connect multiple solar cells in series to obtain the desired voltage, and connect it to a printed circuit board (phenol board, epoxy board, etc.). It is used as a unit by being mounted on a board).

However, since the mechanical strength of silicon crystal type solar cells is particularly weak, the cell mounting substrate must be further attached to a reinforcing angle plate, which is a major obstacle to reducing the size and weight of the device and reducing costs. It became.

Furthermore, the conventional method for extracting the output voltage has been to solder the lead wire to the cell mounting board and solder the other end to the supplied part, which has the disadvantage that the assembly work is complicated and takes time. was there.

In view of these conventional drawbacks, the present invention provides a mounting board for a solar battery cell that can omit an angel plate for reinforcing the solar battery cell, as well as omit lead wires for taking out the output voltage and their soldering work. It is.

An embodiment of the present invention will be described in detail below based on the drawings.

FIG. 1 is a diagram showing a mounting substrate and a solar battery cell according to the present invention attached, and FIG. 2 is a longitudinal cross-sectional view of the same essential part.

In the figure, reference numeral 1 indicates an elastic metal substrate, for example, a stainless steel substrate. This substrate has a rectangular shape, and both end portions 2.2 in the diagonal direction are bent in the same direction to form a U-shaped cross section.

The inner surface of this board is coated with insulation@3.
A wiring pattern 5 for connecting the solar cell cell/L/4 to the fifth side stone row is formed of copper foil on Wa. Both ends of this wiring pattern are led to the + side output terminal section 6 and the one side output terminal section 7.

The above + side and - side output terminal parts 6.7 each have notches 8
．． 8 is formed into a strip shape, and as shown in Figure 2, it is bent from its base in the opposite direction to the mounting side of the solar cell cell/1/4, and its tip is bent in a dogleg shape toward the cell mounting surface. has been done.

9 is silver paint for bonding the solar cell C/L/4 to the wiring pattern 5, and 10 is a resist layer provided on the outer surface of the substrate l.

The method for forming the wiring pattern on the stainless steel substrate 1 is as shown in FIGS. Paste 8. On the other hand, a resist layer 4 is formed on the back surface of the substrate (a).

The photosensitive agent 5 is applied onto the copper foil 8 of the stainless steel substrate 1 treated in this way (C), and when the negative film 6 is layered and exposed, the exposed portion of the photosensitive agent 5 is cured (C).

Next, by washing the unexposed portions with water and removing them with an etching solution, a wiring pattern can be formed on the stainless steel substrate.

Since the mounting board of the present invention is constructed in this way, when it is mounted on a calculator as shown in FIG.
．． 7 elastically contacts the power supply pattern 12 provided on the calculation board 1111c, and the output from the solar cell 4 is supplied to the calculation unit via both terminals. Furthermore, this substrate 1 is made of metal (stainless steel) and its both ends 2.2 are bent in the same direction, so that it will not deform even when bending stress is applied. Therefore, the solar cell 4 attached to the inner surface can be sufficiently protected.

As explained in detail above, the solar cell flexible substrate of the present invention is formed by forming an elastic metal plate with a U-shaped cross section, forming a wiring pattern on the inner surface of the plate to attach the solar cell, and Since a part of the plate is cut out to form an output terminal part that comes into elastic contact with the part to which the output voltage is supplied, the angle plate for reinforcing the solar cell, the lead wire for taking out the output voltage, and the soldering work therefor are omitted. This makes it possible to reduce the size, weight, and cost of equipment equipped with this.

[Brief explanation of drawings]

FIG. 1 is a plan view of a mounting board for a solar battery cell according to the present invention, FIG. 2 is a vertical cross-sectional view of the same essential parts, FIGS. Figure 4 shows the same board installed in a calculator. lI/i stainless steel substrate, 3 is an insulation panel, 4 is a solar cell, 5 is a wiring pattern, 6 and 7 output terminals, 8- is a notch, 11 is a calculation board. 12 is power supply pattern agent patent attorney Aihiko Fukushi 2nd f! 1

Claims (1)

[Claims] 1. Form an elastic metal plate into a U-shaped cross section, form a wiring pattern on its inner surface to attach a solar battery cell, and cut out a part of the metal plate to make elastic contact with the part to which the output voltage is supplied. A solar cell top 5 mounting board characterized by forming an output terminal portion.