JP2022037195A - Panel lamination method of solar panel device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lamination method that enables effective use of a mount in a solar panel device.

SOLUTION: A solar panel device includes a cradle 10 composed of a frame 11 and a leg 12 fixed to the frame 11 and installed on the installation surface, and a first solar panel 20 mounted on the cradle 10, and a second solar panel 30 is mounted on the first solar panel 20 and fixed to the first solar panel 20 or the cradle 10 with a fixture 31, or adhered to the first solar panel 20 with an adhesive, a backflow prevention current limiting element 22 is connected to an output line 21 from the solar panel with a small power generation voltage, and the solar panel with a large power generation voltage is stacked so as not to flow back to the small solar panel, and the power generated is taken out from both solar panels.

SELECTED DRAWING: Figure 1

COPYRIGHT: (C)2022,JPO&INPIT

Description

The present invention relates to a panel stacking method for a solar panel device.

Recently, there has been a growing interest in environmental issues, and there is a tendency for clean recycled energy to attract attention. For example, many solar parnell devices that generate electrical energy from sunlight are installed, regardless of whether they are companies or ordinary households.

This solar panel device is configured with a solar panel module mounted on a gantry, but if it is exposed to harsh environments for a long time after installation, the performance of the solar panel module will deteriorate or break down. In some cases, you have to replace it with a new solar panel device and dispose of the deteriorated and failed solar panel device.

For discarded solar panel appliances, it is desirable to reuse resources as much as possible. For example, the glass and elements of the solar panel module may be crushed and heated to soften the filler, and the glass and elements may be separated and recovered. It has been proposed (Patent Document 1, Patent Document 2).

Further, when a failure occurs in the cell array of the solar panel, a repair method has been proposed in which the replacement cell array is adhered on the failed cell array and electrically connected to the adjacent cell array (Patent Document 3). ).

Japanese Unexamined Patent Publication No. 2011-173099 JP-A-2019-6839 Japanese Patent Application Laid-Open No. 2003-158286

By the way, when disposing of the solar panel device, the gantry must be disposed of even though it is hardly damaged.

In view of this point, the present invention is a method of laminating a second solar panel on a first solar panel device so that the gantry can be effectively used until both solar panels are broken. The challenge is to provide.

Therefore, the panel stacking method of the solar panel device according to the present invention comprises a frame and legs fixed to the frame, and consists of a pedestal installed on the installation surface and a first solar panel mounted on the pedestal. A second solar panel having a transparent glass, a transparent sheet or a transparent film on the light receiving surface is mounted on the first solar panel, and is fixed to the first solar panel or pedestal with a fixture. Alternatively, it was adhered to the first solar panel with an adhesive, the generated power was taken out from the second solar panel, and a backflow prevention current limiting element was connected to the output line of the solar panel having a low generated voltage. It is characterized by that.

One of the features of the present invention is that the first solar panel is mounted and fixed on the gantry, and the second solar panel is laminated on the first solar panel and fixed or bonded. ..
As a result, when the lower first solar panel deteriorates due to long-term use or exposure to a bad environment and fails, the use of the second solar panel can generate electricity, so that the gantry can be effectively used. ..

The second solar panel may be a normal solar panel known to those skilled in the art, that is, a solar panel having a structure in which a solar panel module is mounted on a substrate and covered with a protective glass, and is in the form of a sheet that has been recently developed. Alternatively, it may be a film-shaped solar panel, or may be a translucent solar panel composed of a transparent sheet-shaped, transparent film-shaped or transparent glass-shaped solar panel.

In particular, when a translucent solar panel made of a transparent sheet-shaped, transparent film-shaped or transparent glass-shaped solar panel is used, before the first solar panel deteriorates or fails, for example, on the first solar panel at the time of manufacture. It can also be mounted and glued to the solar panel, which can increase the power generated by the solar panel.

The output of the first solar panel may be cut off when the solar panel deteriorates and fails, or the output may be continued as it is.
When the output is continued, the generated voltage of the first and second solar panels is different, for example, the generated voltage is lowered due to the deterioration of the first solar panel, and the current from the second solar panel is the first solar. There is a risk of backflow to the panel. Therefore, it is preferable to provide a limiting element so that the current does not flow back from the second solar panel to the first solar panel.

Further, the solar panel device in which the above-mentioned first and second solar panels are laminated is also new. That is, according to the present invention, the frame is composed of a frame and legs fixed to the frame, a pedestal installed on the installation surface, a first solar panel mounted on the pedestal, and the first solar panel. It is equipped with a second solar panel which is mounted on the above-mentioned first solar panel or fixed to the above-mentioned first solar panel or a gantry with a fixture, or is adhered to the above-mentioned first solar panel with an adhesive and the generated power is taken out. It is possible to provide a solar panel device characterized by.

It is a figure which shows typically the preferable embodiment of the repair method of the solar panel apparatus which concerns on this invention. It is a figure which shows the 2nd Embodiment schematically.

Hereinafter, the present invention will be described with reference to specific examples shown in the accompanying drawings. FIG. 1 shows a preferred embodiment of the solar panel device according to the present invention. In the figure, the gantry 10 is composed of a rectangular frame 11 and legs 12 fixed to the frame 11 and holding the frame 11 in an inclined state, and the legs 12 are installed on an installation surface such as the roof of a building.

A first solar panel 20 is mounted on the frame 11 of the gantry 10 and fixed by bolts and nuts, and a second solar panel 30 is mounted on the first solar panel 20 by a fixture 31. It is fixed to.

Power generated by the output line 22 is taken out from the first solar panel 20, and a limiting element 23 for preventing backflow is connected to the output line 22.

If a long time has passed since the solar panel device 10 was installed, or if the solar panel 20 is deteriorated or fails when it is installed in a bad environment, a second solar panel 20 is placed on the first solar panel 20. The solar panel 30 is mounted. Since the flange 30A for fixing is formed on the second solar panel 30, when the fixture 31 is hooked between the flange 30A and the frame 11 of the gantry 10 and tightened, the second solar panel 30 is fastened to the frame 11. By connecting the output line of the second solar panel 30, the generated power of the second solar panel 30 can be taken out.

At this time, if the limiting element 22 is connected to the output line 21 of the first solar panel 20, the generated current of the second solar panel 30 does not flow back to the first solar panel 20, and the first solar panel A life of 20 can be guaranteed.

FIG. 2 shows a second embodiment, in which the same reference numerals as those in FIG. 1 indicate the same or corresponding portions. In this example, a transparent sheet-like translucent solar panel (which may be in the form of transparent glass or a transparent film) is used for the second solar panel 30, and the second solar panel 30 is the first solar panel. It is adhered to 20.

When the second solar panel 30 is a translucent solar panel made of a transparent sheet, it is mounted on and adhered to the first solar panel 20 at the time of manufacturing, for example, before the first solar panel 20 deteriorates or breaks down. You can also do it.

10 Stand 11 Frame 12 Legs 20 First solar panel 30 Second solar panel 32 Fixture

Claims (2)

It consists of a frame (11) and legs (12) fixed to the frame (11), a pedestal (10) installed on the installation surface, and a first solar panel (20) mounted on the pedestal (10). ), A second solar panel (30) made of transparent glass, a transparent sheet or a transparent film is mounted on the first solar panel (20), and a fixture (31) is mounted. ) Is fixed to the first solar panel (20) or the gantry (10), or is adhered to the first solar panel (20) with an adhesive, and the output line of the second solar panel (30) is attached. While connecting to the output line (21) of the first solar panel (20) and extracting the generated power from the second solar panel (30) together with the generated power of the first solar panel (20). A panel stacking method for a solar panel device, characterized in that a current limiting element (22) for preventing backflow is connected to the output line of a solar panel having a low generated voltage. The panel stacking method of the solar panel device according to claim 1, wherein a current limiting element (22) for preventing backflow is connected to the output line (21) of the first solar panel (20).

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