JP6179806B2 - Mounting frame for solar cell module and solar cell device - Google Patents

Description

  The present invention relates to a frame for a solar cell module and a solar cell device.

  In Patent Document 1, the lower frame base of the rear photovoltaic power generation apparatus is stacked and stacked on the upper frame base of the front photovoltaic power generation apparatus, and a pressing member is disposed on the stacking portion, so that the weight of the front stage is increased. A method of firmly installing and fixing the latter photovoltaic power generation apparatus is disclosed.

JP 2006-274619 A

  By the way, since there are various shapes and dimensions of the roof or the like on which the solar cell module is installed, there are cases where it is desired to extend the length of the frame by connecting two or more mount frames. In this case, it is an important issue to easily and firmly connect the gantry frames to each other.

  A solar cell module gantry frame according to the present invention includes a plurality of gantry frames each having a first upper wall, a first lower wall, and a first side wall, a second upper wall, and a second lower wall. A member having a substantially U-shaped cross section having a wall and a second side wall, and is inserted into the gantry frame with the tips of the second upper wall and the second lower wall facing each first side wall, and each first And a connecting member fixed to each longitudinal end of each gantry frame so that the side wall and the second side wall face each other with a predetermined interval.

  The solar cell device according to the present invention includes a fixed portion fixed to the roof, an anchor provided on the fixed portion, and a shaft portion protruding to the front side of the roof, and a first lower wall fixed to the shaft portion of the anchor. The solar cell module frame and the solar cell module fixed on the first upper wall of the solar cell module frame.

  The gantry frame for a solar cell module according to the present invention has a strong connection structure while easy to connect the gantry frames.

It is a figure which shows the solar cell apparatus which is an example of embodiment of this invention. It is AA sectional view taken on the line of FIG. FIG. 3 is an enlarged view of a main part of FIG. 2. It is a perspective view of the mount frame for solar cell modules which is an example of the embodiment of the present invention. It is BB sectional drawing of FIG. It is a disassembled perspective view of the mount frame for solar cell modules shown in FIG.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the drawings.
The drawings referred to in the embodiments are schematically described, and the dimensional ratios of the components drawn in the drawings may be different from the actual products. Specific dimensional ratios and the like should be determined in consideration of the following description.

  In the present specification, “substantially **” is intended to include “substantially the same” as an example and includes what is recognized as substantially the same as the same.

  Below, the structure which attaches the solar cell module 11 to the roof 100 in which the slate tile 102 which is a roof material was spread using the solar cell mount frame 20 which is an example of embodiment of this invention, and the anchor 50 is illustrated. To do. However, application of the gantry frame 20 is not limited to the roof 100.

1-3 is a figure which shows the solar cell apparatus 10 which is an example of embodiment of this invention.
As shown in FIGS. 1 to 3, the solar cell device 10 includes a solar cell module 11, a solar cell frame 20 (hereinafter referred to as “long frame 20”) to which a plurality of frame frames are connected, an anchor, 50. In the present embodiment, the two frame frames 21 a and 21 b and the connection member 30 constitute one long frame 20.

  The solar cell module 11 includes a solar cell panel 12 in which a plurality of solar cell elements are sandwiched between protective members such as glass plates, and a module frame 13 (hereinafter simply referred to as “frame 13”) installed on the periphery of the panel. Have. The frame 13 protects the periphery of the solar cell panel 12 and also functions as a member for attaching the solar cell module 11 to the long frame 20.

  In the present embodiment, the solar cell module 11 is disposed on the long frame 20 so that the longitudinal direction of the solar cell module 11 having a substantially rectangular shape in plan view is substantially orthogonal to the longitudinal direction of the long frame 20. ing. The plurality of solar cell modules 11 are arranged, for example, such that the long sides and the short sides are substantially parallel to each other between adjacent modules. The “plan view” means a planar shape when viewed from the direction perpendicular to the light receiving surface of the solar cell panel 12.

  The frame 13 preferably has a flange 14 (see FIG. 3) along each long side. The flange portion 14 projects outward in the width direction of the frame 13, which is the side opposite to the side where the solar cell panel 12 is disposed. The collar part 14 has a substantially L-shaped cross section cut in the width direction of the frame 13, for example. As will be described in detail later, the frame 13 is fixed to the long frame 20 by using the collar 14.

  The long frame 20 is fixed to the anchor 50 so that the longitudinal direction thereof is along the direction of the roof of the roof 100. On the long frame 20, the frame 13 of the solar cell module 11 is placed and fixed. In the girder direction of the roof 100 (direction perpendicular to the building direction), a plurality of gantry frames 20 are arranged substantially in parallel with each other at an appropriate interval. It is preferable to arrange two or more long frames 20 under one solar cell module 11.

  In the present embodiment, since the longitudinal direction of the solar cell module 11 is the digit direction, the plurality of gantry frames 20 are arranged along the building direction. However, the frame 13 provided with the flange portion 14 of the solar cell module 11 and the long frame 20 only need to intersect, and the present invention is not limited to this embodiment. For example, when the longitudinal direction of the solar cell module 11 is the building direction, the longitudinal direction of the long frame 20 may be configured to be the girder direction of the roof 100.

  The anchor 50 has a plate-like fixing portion 51 fixed to the roof, and a shaft portion 52 provided substantially perpendicular to the surface of the fixing portion 51. The fixing portion 51 is fixed to the roof plate 101 via the slate roof tile 102 with a drill screw 53, for example. The shaft portion 52 protrudes to the front side of the slate roof tile 102. As will be described in detail later, the long frame 20 is fixed to the shaft portion 52. Two or more anchors 50 are preferably provided on each of the gantry frames 21a and 21b.

Hereinafter, the configuration of the long frame 20 will be described in detail with further reference to FIGS.
4-6 is a figure which shows the elongate frame 20 which comprises the solar cell apparatus 10. As shown in FIG.

  As shown in FIGS. 4 to 6, the long frame 20 includes two gantry frames 21 a and 21 b arranged in a straight line, and one connecting member that is inserted into the opening of each gantry frame and connects them. 30. In the long frame 20, the longitudinal ends of the gantry frames 21a and 21b are abutted with each other, and the connecting members 30 are fixed to the longitudinal ends. In this embodiment, the shape and dimensions of the gantry frames 21a and 21b are the same. Note that the frame lengths in the longitudinal direction of the gantry frames 21a and 21b may be arbitrarily set as long as the cross-sectional shapes are substantially the same. Hereinafter, the contents common to the gantry frames 21a and 21b will be described using the gantry frame 21a as an example.

  The gantry frame 21a is a substantially U-shaped member having a cross section having an upper wall 22a (first upper wall), a lower wall 23a (first lower wall), and a side wall 24a (first side wall). The gantry frame 21a is fixed to the anchor 50 with the upper wall 22a positioned above the lower wall 23a and the side wall 24a along the vertical direction. Here, the substantially U-shaped cross section means that the cross-sectional shape obtained by cutting the gantry frame 21a in the direction (width direction) orthogonal to the longitudinal direction thereof is substantially U-shaped. The lengths of the upper wall 22a and the lower wall 23a are substantially the same in both the longitudinal direction and the width direction, and are provided substantially parallel to each other.

  The upper wall 22a is a part on which the solar cell module 11 is placed. Bolt holes 27a (first upper wall bolt holes) through which bolts 37 for fixing the solar cell module 11 are inserted are formed in the upper wall 22a. The bolt hole 27a is preferably formed at the longitudinal end of the gantry frame 21a into which the connection member 30 is inserted.

  The lower wall 23a is a portion to which the shaft portion 52 of the anchor 50 is fixed. A through hole 25a through which the shaft portion 52 of the anchor 50 can be inserted is formed in the lower wall 23a. The long frame 20 is fixed to the shaft portion 52 with nuts 54 and 55 inserted into the through holes 25a and 25b of the frame frames 21a and 21b, respectively. Specifically, the long frame 20 is placed on the nut 54 attached to the shaft portion 52, and the nut 55 is attached to the shaft portion 52 from the long frame 20 and fixed. In addition, it is preferable to fix between the nuts 54 and 55 and the elongate frame 20 via a washer. As a result, the load applied to the long frame 20 can be received over a wide area, so that deformation of the long frame 20 can be suppressed.

  The side wall 24a is a portion that connects the upper wall 22a and the lower wall 23a. Bolt holes 26a (first side wall bolt holes) through which bolts 36 for fixing the connection member 30 are inserted are formed in the side walls 24a. It is preferable that a plurality of (for example, two) bolt holes 26a are formed at the longitudinal ends of the gantry frame 21a into which the connecting member 30 is inserted.

  The connection member 30 is fixed to each of the gantry frames 21a and 21b, and connects the gantry frames 21a and 21b to each other. The connection member 30 has a substantially U-shaped cross section having an upper wall 31 (second upper wall), a lower wall 32 (second lower wall), and a side wall 33 (second side wall), like the gantry frames 21a and 21b. It is a member. The lengths of the upper wall 31 and the lower wall 32 are substantially the same in both the longitudinal direction and the width direction, and are provided substantially parallel to each other.

  The connecting member 30 is inserted into the gantry frames 21a and 21b with the tips of the upper wall 31 and the lower wall 32 facing the side walls 24a and 24b. The side walls 24a, 24b and the side wall 33 are fixed to the longitudinal ends of the gantry frames 21a, 21b so as to face each other with a predetermined interval. That is, the openings of the connection member 30 and the openings of the gantry frames 21a and 21b are arranged so that the openings of the connection members 30 face each other, and the tips of the upper wall 31 and the lower wall 32 of the connection member 30 are the side walls 24a of the gantry frames 21a and 21b. It fixes so that it may contact 24b. The width direction lengths of the upper wall 31 and the lower wall 32 are substantially the same as or slightly shorter than the width direction lengths of the upper walls 22a and 22b and the lower walls 23a and 23b, and the long frame 20 is a portion to which the connecting member 30 is fixed. The cross-sectional shape can have a substantially square shape. As a result, the long frame 20 has a high mechanical strength at the connection portion of the gantry frames 21a and 21b, and can receive a large load.

  The tips of the upper wall 31 and the lower wall 32 are substantially in contact with the inner surfaces of the side walls 24a and 24b. The connecting member 30 is preferably fixed with the upper wall 31 in contact with the upper walls 22a and 22b of the gantry frames 21a and 21b and the lower wall 32 in contact with the lower walls 23a and 23b. In such a case, the side wall 33 is disposed substantially parallel to the side walls 24a and 24b so as to connect the tips of the upper walls 22a and 22b and the tips of the lower walls 23a and 23b.

  Bolt holes 35 (second upper wall bolt holes) through which bolts 37 for fixing the solar cell module 11 are inserted are formed in the upper wall 31. The bolt hole 35 is preferably formed at a position overlapping the bolt holes 27a and 27b formed in the gantry frames 21a and 21b. The frame 13 of the solar cell module 11 is fixed to the upper wall 22a using bolts 37 inserted into the bolt holes 35 and the bolt holes 27a from below. In this embodiment, the two solar cell modules 11 are fixed using the bolt 37 inserted only into the bolt hole 27a without using the bolt hole 27b.

  More specifically, the bolt 37 is provided so that the shaft portion 39 protrudes upward from the upper wall 22a. The bolt 37 is fixed to the upper wall 22 a and the upper wall 31 by a nut 41. A presser fitting 42 having a substantially U-shaped cross section for pressing the flange portion 14 of the frame 13 is attached to the shaft portion 39 of the bolt 37 protruding upward from the upper wall 22a. Specifically, the two solar cell modules 11 are placed on the upper wall 22a so that the flanges 14 face each other across the shaft portion 39, and the presser fitting 42 is attached across the flanges 14. It is done. The presser fitting 42 is fixed by a nut 43.

  In this way, the frames 13 of the two solar cell modules 11 are fixed to the longitudinal ends of the gantry frame 21a. Although the load of the two solar cell modules 11 is applied to the end portion in the longitudinal direction, since the connection member 30 is fixed here, the large load can be stably received without causing bending or the like in the gantry frame 21a. It is possible. The bolt 37 is used for fixing the solar cell module 11 and also serves to fix the connection member 30 and the gantry frame 21a.

  The side wall 33 is a portion that connects the upper wall 31 and the lower wall 32. The side wall 33 is formed with a plurality of bolt holes 34 (second side wall bolt holes) through which bolts 36 for fixing the connection member 30 are inserted. In the present embodiment, a total of four bolt holes 34 are formed corresponding to each of the gantry frames 21a and 21b.

  In the present embodiment, four bolts 36 are used. All of the four bolts 36 are attached from the side walls 24 a and 24 b of the gantry frames 21 a and 21 b to the side wall 33 of the connection member 30. The bolt 36 is inserted from the bolt hole 34 side, for example, and the tip of the shaft portion 38 protrudes to the outside of the side wall 24a through the bolt hole 26a. A nut 40 is attached to the protruding portion, and the side walls 24a, 24b and the side wall 33 are inserted. Fixed to. In this way, the frame can be extended by connecting the gantry frames 21a and 21b by a simple operation of attaching the bolt 36.

  As described above, the long frame 20 has a strong connection structure while the connection work between the gantry frames 21a and 21b is easy. Moreover, since the mechanical strength in the longitudinal direction edge part of mount frame 21a, 21b becomes high by attaching the connection member 30, the big load of the solar cell module 11 can be received stably in the said edge part.

The above embodiment can be appropriately changed in design without departing from the object of the present invention.
For example, in the above embodiment, the nut 40 is used. However, for example, a screw may be cut in the bolt holes 26a and 26b formed in the gantry frames 21a and 21b so that the nut is not used.

  DESCRIPTION OF SYMBOLS 10 Solar cell apparatus, 11 Solar cell module, 12 Solar cell panel, 13 Module frame, 14 collar part, 20 Solar cell mount frame (long frame), 21a, 21b Mount frame, 22a, 22b, 31 Upper wall, 23a , 23b, 32 Lower wall, 24a, 24b, 33 Side wall, 25a, 25b Through hole, 26a, 26b, 27a, 27b, 34, 35 Bolt hole, 30 Connection member, 36, 37 Bolt, 38, 39 Shaft part, 40 , 41, 43, 54, 55 Nut, 42 Presser bracket, 50 Anchor, 51 Fixed part, 52 Shaft part, 53 Drill screw, 100 Roof, 101 Roof plate, 102 Slate tile

Claims (3)

A plurality of gantry frames having a substantially U-shaped cross section each having a first upper wall, a first lower wall, and a first side wall;
A member having a substantially U-shaped cross section having a second upper wall, a second lower wall, and a second side wall, with the ends of the second upper wall and the second lower wall directed toward the first side walls. Connecting members that are inserted into the gantry frame and fixed to the longitudinal ends of the gantry frames so that the first side walls and the second side walls are opposed to each other at a predetermined interval;
A first side wall bolt hole formed in each first side wall of each gantry frame;
At least two second side wall bolt holes formed in the second side wall of the connection member;
At least two bolts inserted through the first side wall bolt holes and the second side wall bolt holes, respectively, and attached from the first side walls to the second side wall;
A first upper wall bolt hole formed in at least one of the first upper walls of the gantry frame;
A second upper wall bolt hole formed in the second upper wall of the connection member;
A fixing bolt for a solar cell module that is inserted through the first upper wall bolt hole and the second upper wall bolt hole, and whose shaft portion protrudes upward from the first upper wall of the gantry frame;
A frame for a solar cell module comprising: In the frame for solar cell modules according to claim 1,
A frame frame for a solar cell module, wherein tips of the second upper wall and the second lower wall of the connection member are in contact with the first side wall of the frame frame. An anchor having a fixed portion fixed to the roof, and a shaft portion provided on the fixed portion and protruding to the front side of the roof;
The frame for a solar cell module according to claim 1 or 2 , wherein the first lower wall is fixed to the shaft portion of the anchor;
A solar cell module fixed on the first upper wall of the frame frame for the solar cell module;
A solar cell device comprising:

Images