JPH0559591B2 - - Google Patents

Description

[Detailed description of the invention] The present invention relates to a high voltage solar cell module.

Generally, solar cell modules are used by connecting multiple solar cell elements in series and parallel, but since the output voltage per element is low at 0.5 to 0.6 volts, the output voltage of the entire module is only about 100 volts DC at most. It wasn't too much.

Recently, in some cases, an inverter (DC-AC switching device) is used in combination to exchange an AC voltage of several hundred volts, and there is a demand for a solar cell module that can withstand high AC voltage.

The present invention was made in view of these circumstances, and its purpose is to provide a structure that can sufficiently withstand AC voltages of several hundred volts or more, and that also has a simple device structure and is lightweight. Our goal is to provide a solar cell module that is unique.

The solar cell module of the present invention is a flat device in which a plurality of solar cell elements are molded in a transparent resin, the front side of which is covered with a hard transparent plate, and the back side of which is covered with a sheet body. In the device supported by the body, a cross-sectional shape of approximately L is provided between the outer circumference and side surface of the back surface of the flat device and the metal frame.
It is characterized by the presence of an insulator made of vinyl chloride resin with a thickness of 1.5 mm or more.

Embodiments of the present invention will be described below with reference to the drawings.

On the back side of a rigid transparent plate 1 made of glass, acrylic resin, polycarbonate resin, etc., a plurality of solar cell elements 2 connected in series and parallel in advance are arranged in parallel, and the surrounding area is made of weather-resistant and translucent material such as silicone resin. It is filled with resin 3 and its back side is covered with a back protection sheet material 4. This back protection sheet material 4 is made by laminating a metal thin film 4B to a resin sheet 4A having flexibility and weather resistance such as polyvinyl fluoride, or A metal plate or the like is used. The above-mentioned flat device 5 is usually manufactured in a rectangular shape. The metal frame 6 supports the peripheral portion of the flat device 5, and includes a front frame portion 6A that contacts the front peripheral portion, and a side portion 6 that contacts the side surface.
B, and a shelf 6C for the rear peripheral area.

An insulator 7 having an L-shaped cross section is provided in contact with the inner surfaces of parts 6B and 6C of the metal frame. This insulator 7 is made of vinyl chloride resin and has a thickness of 1.5 mm or more.

Here, when we conducted a convection withstand voltage test using the insulator 7 with a thickness of 1.5 mm, we found that the leakage current was 0.5mA at AC.2000V, the leakage current was 0.9mA at AC.3000V, and there was no insulation breakdown at AC.4000V. The results were obtained. By the way, when we tested a conventional product that does not use an insulator under the same conditions, dielectric breakdown occurred at just 700V AC.

As explained above, according to the present invention, an insulator made of vinyl chloride resin and having a thickness of 1.5 mm or more is provided between the outer circumference of the back surface and the side surface of the flat device and the metal frame for holding the device. As a result of this, it has become possible to realize a high voltage solar cell module with a dielectric strength of 2000 VAC or higher.

In addition, the back side of the flat device is composed of a lightweight sheet, and the insulator to obtain the above-mentioned high voltage resistance only needs to be provided at the periphery of the flat device. The weight of the entire module can be reduced. Furthermore, by simply arranging an insulator having a substantially L-shaped cross section, the above-described high voltage structure can be obtained with a simple structure.

[Brief explanation of the drawing]

The drawings are cross-sectional views showing embodiments of the present invention. 1... Hard transparent plate, 2... Solar cell element, 3...
...Transparent resin, 4... Back protection sheet material, 5... Flat device, 6... Metal frame, 7... Insulator (vinyl chloride resin: thickness 1.5 mm or more).

Claims (1)

[Claims] 1 A device consisting of a flat device in which a plurality of solar cell elements are molded in a transparent resin, the front side of which is covered with a hard transparent plate, and the back side of which is covered with a sheet body, the peripheral portion of which is supported by a metal frame. In the above, an insulator made of vinyl chloride resin having a substantially L-shaped cross-section and a thickness of 1.5 mm or more is interposed between the outer circumference and side surface of the back surface of the flat device and the metal frame. High-voltage solar cell module with special features.