JP2016063682A5 - - Google Patents

Description

In the longitudinal direction (X direction) of the short side frame 40, the upper flange 41 and the side wall portion 43 have the same length. On the back flange 42 of the short side frames 40, that have are provided notches 42x at a position clash the back flange 52 of the long side frame 50.

On the back flange 52 and bottom flange 54 of the long side frame 50, rear surface flange 42 and notches at positions clash with base flange 44 52x and 54x of the short side frames 40 that are provided.

On the other hand , in the solar cell module 10 according to the present embodiment, the length L of the notch 51x of the upper flange 51 of the long side frame 50 is set to the width W of the upper flange 41 of the short side frame 40 by a predetermined length. Ru Tei to the value plus a M. That is, in the solar cell module 10, the length L of the notch 51x = the width W of the upper flange 41 + the predetermined length M. That is, in the longitudinal direction (Y direction) of the long side frame 50, the end portion of the upper flange 51 extends from the end portion of the side wall portion 53 in the longitudinal direction (Y direction) to the width W of the upper flange 41 by a predetermined length M. It is located inside by adding.

Further, in the solar cell module 10, the notch width of the upper flange 51 of the long side frame 50 which has been cut away in order to connect to each other conventionally, it is only I notching bigger by a predetermined length M. In other words, the in is not greens formed in new frame groove of the drainage. Therefore, the processing man-hour of the frame is the same as the processing man-hour of the frame of the conventional technology (solar cell module not forming drainage grooves).

Claims (5)

A solar panel,
A frame surrounding the periphery of the solar cell panel, and a solar cell module comprising:
The frame includes a first frame and a second frame connected adjacent to each other,
The first frame is
A first side wall for protecting the side surface of the solar cell panel;
A first upper flange extending from the first side wall and supporting the light receiving surface of the solar cell panel;
The second frame is
A second side wall for protecting the side surface of the solar cell panel;
A second upper flange that extends from the second side wall and supports the light receiving surface of the solar cell panel,
In the longitudinal direction of the first frame, the first side wall portion and the first upper flange have the same length,
In the longitudinal direction of the second frame, the end of the second upper flange extends inward from the end of the second side wall by a predetermined length added to the width of the first upper flange. A solar cell module, which is located in The planar shape of the solar cell panel is rectangular,
The solar cell module according to claim 1, wherein the first frame and the second frame are connected at a right angle. The first frame is
A fitting groove formed by the back surface flange supporting the back surface of the solar cell panel, the first side wall portion, and the first upper flange into which the solar cell panel is fitted;
The solar cell module according to claim 1 or 2, wherein the second side wall portion that closes the side opening of the fitting groove has a through hole that connects the fitting groove and the outside. The solar cell module according to claim 3, wherein a buffer material is interposed between the back surface of the solar cell panel and the back surface flange. 5. The gap according to claim 1, wherein a gap is formed between the first upper flange and the second upper flange at a portion where the first frame and the second frame are connected. A solar cell module according to claim 1.