JPS5928388Y2 - Fixed structure of solar cell substrate - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to a structure for fixing a solar cell substrate in a solar cell watch.

Conventional solar cell substrates are made by soldering several silicon solar cells in series onto a printed electrode pattern of a polyimide flexible sheet, which is then attached to a metal substrate.

The conventional method for fixing this solar cell substrate was to braze the legs to the bottom of the metal substrate, fit the legs into the module, and secure them with screws.

However, when a flexible sheet is used, it must be attached to a plate material such as a metal substrate in order to correct warpage and reinforce it, which increases the number of parts and increases the number of processes for attachment.

Therefore, in order to reduce the manufacturing cost of solar cell substrates, recently, printed wiring is applied directly to glass epoxy resin.
Attempts have been made to use this as a substrate by soldering solar cells on it.

However, unlike metal plates, the legs cannot be soldered to glass epoxy resin boards, so a different method of fixing the board is required.

An object of the present invention is to provide a fixing structure for a solar cell substrate made of glass epoxy resin or the like that cannot be touched by feet.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

In Figures 1 and 2, 1 indicates a wiring pattern 1 on the top surface.
This is a solar cell substrate made of glass epoxy resin provided with a.

A plurality of silicon solar cells 2 are fixed in series at predetermined positions of the wiring pattern 1a by soldering.

3 is a windshield glass with parting printing 3a on the lower surface, and the outer periphery is chamfered.

4 is a resin backing for fixing the solar cell substrate 1 and the glass 3, and a flange portion 4a is provided on the inner periphery.

This collar portion 4a has stepped portions 4b and 4 at the upper and lower portions of the backing 4.
It forms C.

Furthermore, the side surface of the stepped portion 4C is a gently wavy surface 4d.

5 is a watch case that houses the module 6.

The solar cell substrate 1 is placed on the stepped portion 5a of the watch case 5 with its side surface surrounded by the backing wavy surface 4d.

The solar cell substrate 1 also has a backing collar 4 on the outer periphery.
a is placed thereon, so that when the glass 3 is press-fitted into the watch case 5 through the backing 4, it is pressed and fixed by the flange portion 4a.

That is, the solar cell substrate 1 settles within the backing step portion 4C.

The glass 3 is press-fitted into the backing step 4b.

The procedure for fixing the solar cell substrate is as follows.

First, the solar cell substrate 1 is placed on the stepped portion 5a of the watch case 5.

Next, the backing 4 is placed on the side step portion 5a so that the wavy surface 4d hugs the side surface of the solar cell substrate 1.

Further, the glass 4 is press-fitted into the backing step portion 4b from above and fixed.

At this time, the backing 4 is strongly compressed by the side surface of the glass 3 and the inner peripheral surface of the stepped portion 5a of the watch case 5 to ensure waterproofness, and at the same time press and fix the solar cell substrate 1 with the collar portion 4a.

Incidentally, if the inner periphery of the backing 4 is chamfered, the glass 3 can be easily assembled.

The module 6 may be inserted from below the watch case 5 and electrically connected via spring contact or conductive rubber.

FIG. 3 shows another embodiment of the present invention, in which a solar cell substrate 1
The solar cell substrate 1 is positioned by providing a convex portion 1b on the outer periphery of the solar cell substrate 1 and engaging the convex portion 1b with a cutout portion 4e provided below the backing 4.

Note that there is no problem in providing the convex portion 1b and the notch portion 4e on the substrate 1 and the backing with the convex portion 1b reversed.

With the above configuration, a structure for fixing a substrate made of glass epoxy resin or the like to which feet cannot be attached is possible through the backing.

Furthermore, since there is no need to attach feet to the board and assembly is extremely easy, the manufacturing cost of the watch can be reduced.

Furthermore, since the peripheral edge of the substrate is held by the backing, the substrate is prevented from shifting due to impact.

In addition, the flange functions as a spacer to create a gap between the glass and the solar cell substrate, which has the important effect of preventing the solar cell from cracking.

[Brief explanation of the drawing]

Fig. 1 and Fig. 2 show an embodiment of the present invention, Fig. 1 is a sectional view of the main part, Fig. 2 is a perspective view from below showing the state in which the backing and the substrate are engaged, and Fig. 3 is the embodiment of the invention. Showing another example of
FIG. 3 is a perspective view of the engagement state between the backing and the substrate, viewed from below. DESCRIPTION OF SYMBOLS 1...Solar cell substrate, 1a...Wiring pattern, 1b...Protrusion, 2...Solar cell, 3...Glass, 3a...Partition printing, 4...Backing, 4a...Brim portion, 4b. 4C... Stepped portion, 4d... Wavy surface, 4e
...Notch, 5...Watch case, 5a
・・・・・・Step part, 6...Module, 7...
...Back cover, 8...O ring, 9...
・Middle frame.

Claims (2)

[Scope of utility model registration request] (1) While placing the solar cell substrate 1 on the side step portion 5a,
A resin backing 4 having stepped portions 4b and 4C is provided on the inside, and the stepped portion 4C is disposed between the outer circumference of the solar cell substrate 1 and the inner peripheral surface of the side step portion 5a, and the resin backing 4 has stepped portions 4b and 4C. A fixing structure for a solar cell substrate, characterized in that a glass 3 is press-fitted into a stepped portion 4b of No. 4. (2) The solar cell substrate fixing structure according to claim 1, wherein the stepped portion 4C has a wavy surface 4d on its side surface.