JP6749188B2 - Solar power generation unit and solar cell module repair method - Google Patents

Description

The present invention relates to a photovoltaic power generation unit in which solar cell modules installed on, for example, a flat surface or a roof are arranged, and a method for repairing the solar cell modules.

As a solar power generation unit in which solar cell modules (solar cell panels) are arranged in an array, for example, one described in Patent Document 1 is proposed. This solar power generation unit is one in which solar cell modules are arranged on a frame provided on a mount, and a reinforcing member and a reinforcing panel are installed on the back surface of the solar cell module to be used as a carport roof.
A large number of solar cell modules are generally arranged and installed outdoors, and some cells may be damaged due to exposure to natural environments such as wind and rain and deterioration over time. In this case, it is common to remove the entire solar cell module of the unit unit from the gantry and replace it with a new solar cell module, but the replacement work is time-consuming, costly, and not economical.

On the other hand, in Patent Document 2, a new cell of the same shape and size is fixed on the cover glass of the defective cell of the solar cell module with a silicone adhesive or the like, and the connector is welded to another normal cell for connection. It is repaired by doing. This allowed the cells to be repaired without removing the failed cell.

JP, 2013-117097, A JP, 2003-158286, A

However, in the solar cell module described in Patent Document 2 described above, a new cell for replacement is installed on the cover glass provided on the defective cell and fixed by adhering with a silicone adhesive or the like. , It took a lot of time to install it, and the work under the hot sun was difficult.

The present invention has been made in view of the above circumstances, and provides a photovoltaic power generation unit and a method for repairing a solar cell module, which enables repairing a defective solar cell module easily and in a short time. The purpose is to

The photovoltaic power generation unit according to the present invention is a photovoltaic power generation unit to which a solar cell module is attached, an existing solar cell module, a new solar cell module installed on the light-receiving surface of the existing solar cell module, and an existing solar cell module. A fixture for fixing the newly installed solar cell module to the battery module is provided.
According to the present invention, a new solar cell module is installed on the light-receiving surface without removing the existing solar cell module that has failed, and the existing solar cell module and the new solar cell module are locked by a fixture. By fixing, the new solar cell module can be easily attached without replacing the existing solar cell module.

Further, it is preferable that the newly installed solar cell module has a shape smaller than that of the existing solar cell module.
By installing a new solar cell module, which is smaller in size and has a smaller light receiving area than the existing solar cell module that has failed, on the light receiving surface of the existing solar cell module, the installation work becomes easier.

The fixture is a fixture having a first fixing part attached to the frame part of the new solar cell module and a second fixing part attached to the frame part of the existing solar cell module, and the new solar cell module. It is characterized in that it is installed in the opposite position.
By attaching the fixing brackets to the frame part of the existing solar cell module and the frame part of the new solar cell module and fixing them, and by installing the fixing brackets at the opposite positions, the tightening torque in the direction of sandwiching the new solar cell module can be improved. You can call.

A method of repairing a solar cell module according to the present invention includes a step of installing a new solar cell module on a light-receiving surface of an existing solar cell module, and a fixing tool attached to a frame portion of the existing solar cell module and the new solar cell module. And a process.

According to the solar power generation unit and the method for repairing a solar cell module according to the present invention, a new solar cell module is installed on the light-receiving surface of an existing solar cell module that has failed or damaged, and the existing solar cell module is fixed by a fixture. By fixing the newly installed solar cell modules to each other, the newly installed solar cell module can be easily and easily attached without the trouble of removing the existing solar cell module. Therefore, the trouble of removing the defective solar cell module can be saved and the repair cost can be reduced.

1 is a front view of a solar power generation unit including a solar cell module according to a first embodiment of the present invention. It is a top view which shows the arrangement|sequence of the solar cell module of the solar power generation unit shown in FIG. It is sectional drawing of the part which fixed the frame part of the existing solar cell module to the attachment member. It is a perspective view which shows the state which fixed the new solar cell module on the existing solar cell module which failed. It is sectional drawing of the state which fixed the solar cell module shown in FIG. 4 with the fixing metal fitting. It is a principal part side view which shows the fixed state of the new solar cell module by a 1st modification. It is a principal part sectional view which shows the fixed state of the new solar cell module by a 2nd modification. FIG. 8 is a cross-sectional view of a portion where a frame portion of the solar cell module according to the second embodiment is fixed to a mounting member. It is a fragmentary sectional view of the state where the new installation solar cell module was fixed with the fixing metal fittings on the existing installation solar cell module which failed.

Hereinafter, a method of repairing the photovoltaic power generation unit and the solar cell module according to the first embodiment of the present invention will be described with reference to FIGS. 1 to 5.
As shown in FIGS. 1 and 2, the photovoltaic power generation unit 1 according to the embodiment of the present invention is a solar power generation system in which a plurality of solar cell modules 4 are arranged above a pedestal 3 installed on an installation surface 2 such as the ground surface. The battery array 5 is arranged. In this embodiment, the solar cell array 5 is formed in a plate shape having an inclined surface that is inclined in the east-west direction, and the two sets of solar cell arrays 5 are installed in a mountain shape or a roof shape in which the inclination directions are different in the east direction and the west direction. However, they may be inclined in the same direction.

The pedestal 3 has a support member 8 fixed to an upper portion of a base portion 7 installed on the installation surface 2 at a predetermined interval, and a beam member 9 connected to the upper portion thereof. Each support member 8 is formed in, for example, a truss structure, but may be a pillar. For example, two sets of the support members 8 are installed apart from each other in the inclination direction of the solar cell array 5, one of which is the support member 8A installed near the lower end portion 5a of the solar cell array 5, and the other of which is the solar cell array 5. The support member 8B is installed at a position closer to the lower end 5a side than the upper end 5b. An attachment member 10 forming a rafter is fixed to the upper portion of the beam member 9 on its side surface via a connecting member 11 in an inclined state. The beam member 9 and the mounting member 10 are arranged in a direction orthogonal to each other in a plan view.

Regarding the tilted posture of the pair of solar cell arrays 5 and the mounting member 10 formed in a mountain shape, there is a slight gap between each upper end portion 5b. A maintenance space 12 having a height and a lateral width that allow an operator to stand up to walk or perform maintenance and inspection work is formed between the upper ends 5b and the support members 8B on both sides.
In the maintenance space 12, the height of the upper end portion 5b is, for example, about 180 cm to 230 cm, the height of the support member 8B is, for example, about 100 cm to 150 cm, and the distance between the pair of support members 8B is, for example, about 150 cm. The lower end portion 5a is considerably lower than the upper end portion 5b, and has a height of about 37 cm from the installation surface 2, for example.

Then, in the mounting members 10 arranged at a predetermined interval, a plurality of (for example, six in FIG. 1, 6) solar cell modules 4 from the upper end portion 5b to the lower end portion 5a thereof are screwed at the frame portion 4d with screws 14 Are respectively fixed to the mounting member 10. That is, as shown in FIG. 3, the frame portion 4d of the solar cell module 4 is formed in a substantially E-shaped cross section, and a cell including the light receiving surface 4b of the solar cell module 4 is fitted in the U-shaped space at the top. However, it can be screwed in the U-shaped part on the lower side.
Therefore, the existing solar cell module 4A is fixed by screwing the screw 14 into the lower surface 4da of the frame portion 4d from the upper back surface of the mounting member 10 having a substantially U-shaped cross section as shown in FIG. Moreover, the plurality of solar cell modules 4 are arranged and fixed in the vertical and horizontal directions on the mounting member 10 to form the solar cell array 5. Although the screw holes are formed in advance on the upper surface of the mounting member 10 and the lower surface 4da of the frame 4d at predetermined intervals, they may be formed at the time of screwing.

Further, in the solar power generation unit 1, a pair of solar cell arrays 5 are installed facing each other in the east-west direction along the inclination angle of the mounting member 10. Since the solar cell array 5 has an appropriate angle along the inclination angle of the mounting member 10, for example, an inclination angle of 15°, it can receive sunlight over the morning and afternoon of the day. A pair of mountain-shaped solar cell arrays 5 are arranged so that their upper end portions 5b face each other with a slight gap therebetween.

In FIG. 2, it is assumed that some existing solar cell modules 4 of the solar cell array 5 have failed. The existing solar cell module 4 that has failed is indicated by reference numeral 4A. Moreover, in the present embodiment, as shown in FIG. 4, a new solar cell module 4P is attached on the light receiving surface 4b of the defective solar cell module 4A. The new solar cell module 4P has a smaller light receiving area than the existing solar cell module 4A and has a small vertical and horizontal dimension.

Generally, after installation of the existing photovoltaic power generation unit 1, some solar cell modules 4 may break down after several years to several decades have passed. In that case, at the time of replacement of the defective solar cell module 4A, due to technological progress, the solar cell module 4P having a size smaller than that at the time of installation is capable of producing a power generation output of the same level or more. Therefore, as the newly installed solar cell module 4P, a small one having smaller vertical and horizontal dimensions than the failed solar cell module 4A is installed.

4 and 5 show a mounting structure for such a new solar cell module 4P. In this case, the newly installed solar cell module 4P is placed at approximately the center of the light receiving surface 4b of the failed solar cell module 4A. Then, a pair of fixing fittings 13 are fitted in the facing frame portion 4c of the newly installed solar cell module 4P and the facing frame portion 4d of the defective solar cell module 4A, respectively. The fixing member 13 is made of a metal member such as stainless steel or steel, and has a pressing torque due to its thin plate shape.
The fixing bracket 13 includes a first fixing portion 13a having a substantially L-shaped cross section that abuts on the upper surface and the side surface of the frame portion 4c of the new solar cell module 4P, and the side surface and the lower surface of the frame portion 4d of the defective solar cell module 4A. It is integrally formed with a substantially L-shaped second fixing portion 13b that contacts 4da and a connecting portion 13c that connects the first and second fixing portions 13a and 13b.

Then, as shown in FIG. 5, each fixing metal fitting 13 is fixed by screwing a screw 14 into the existing screw hole of the frame portion 4d of the defective solar cell module 4A from the lower surface of the second fixing portion 13b to fix it. The solar cell module 4P is pinched and fixed by being pressed by the elastic torque of the first fixing portion 13a of the fixing metal fitting 13 facing each other.
Further, the first fixing portion 13a of the fixing member 13 may be fixed by screwing the screw 14 into a screw hole (not shown) of the frame portion 4c of the new solar cell module 4P.

The photovoltaic power generation unit 1 according to the present embodiment has the above-mentioned configuration, and a method of repairing the defective solar cell module 4A will be described next.
When a failure occurs in one of the existing solar cell modules 4 of the pair of mountain-shaped solar cell arrays 5 in the photovoltaic power generation unit 1 shown in FIG. 2, as shown in FIG. 4, the failed solar cell module 4A The new solar cell module 4P is installed on the light receiving surface 4b of the.

Then, two fixing metal fittings 13 are attached from opposite side portions of the newly installed solar cell module 4P, and the first and second fixing brackets 13 are attached to the frame section 4c of the newly installed solar cell module 4P and the frame section 4d of the failed solar cell module 4A. The fixing portion 13a and the second fixing portion 13b are fitted and pressed.
Then, the new solar cell module 4P can be fixed on the failed solar cell module 4A by screwing the screw 14 into the screw hole of the frame portion 4d from the lower surface of the second fixing portion 13b.

As described above, according to the repair structure and the repair method for the solar cell module 4A of the solar power generation unit 1 according to the present embodiment, the defective solar cell module 4A can be replaced with a relatively small size and output without replacement. By fixing the large new solar cell module 4P with the plurality of fixing brackets 13, the solar cell module 4 can be repaired easily and at low cost.

Moreover, since the newly installed solar cell module 4P is smaller than the existing solar cell module 4A that has failed, even if the installation height becomes high, the amount of sunlight incident on the normal solar cell modules 4 in the surroundings will be affected. Do not give. In particular, if the newly installed solar cell module 4P is installed substantially at the center of the existing solar cell module 4A, the effect of blocking the incident light on the other solar cell modules 4 becomes smaller.
Moreover, when the solar cell module 4 is repaired, the fixing bracket 13 is simply attached to the defective solar cell module 4A and the new solar cell module 4P by the screw 14 and fixed integrally, so that the cells are fixed with an adhesive or the like. It is easier to install and costs less than when using

The present invention is not limited to the solar power generation unit 1 according to the above-described embodiment, and can be appropriately changed or replaced without departing from the gist of the present invention, and any of these can be applied to the present invention. included. Hereinafter, modified examples and the like of the present invention will be described, but the same or similar parts or members as those of the above-described embodiment will be denoted by the same reference numerals, and description thereof will be omitted.

FIG. 6 shows a photovoltaic power generation unit 1 according to a first modification of the above-described embodiment.
In FIG. 6, a relatively small new solar cell module 4P is placed on the light-receiving surface 4b of the failed solar cell module 4A, and fixing brackets 13 are attached to the four side frame portions 4c and 4d.
When fixing each fixing member 13, for example, the lower surface of the second fixing portion 13b is fixed to the lower surface 4da of the frame portion 4d of the defective solar cell module 4A by the screw 14 as in the above embodiment.
According to this modification, the fixing metal fitting 13 is fixed to the frame portions 4c and 4d on each of the four sides of the solar cell module 4A in which the new solar cell module 4P has failed, so that the solar cell module 4P can be more firmly fixed.

The installation position of the small-sized new solar cell module 4P with respect to the failed solar cell module 4A does not necessarily have to be the center of the failed solar cell module 4A. For example, a frame portion 4d on any one or two sides 4c may be overlapped and attached at a biased position.
Further, the number of fixing fittings 13 is not limited to four, and an appropriate number can be attached according to the size of the solar cell module 4.

Further, the newly installed solar cell module 4P does not necessarily have to be smaller than the failed solar cell module 4A, and may have the same size as the failed solar cell module 4A. In this case, the fixture 13 for fixing the newly installed solar cell module 4P on the defective solar cell module 4A may be formed in a substantially U-shaped cross section.
Alternatively, with the newly installed solar cell module 4P installed on the failed solar cell module 4A, the screws 14 may be screwed into the screw holes of the frame portions 4c and 4d to be fixed.
Even in this case, the failed solar cell module 4A can be repaired easily and at low cost.

Next, a fixing structure of the newly installed solar cell module 4P according to the second embodiment of the present invention will be described with reference to FIGS. 8 and 9. Also in this embodiment, the structure is such that the new solar cell module 4P is fixed on the existing solar cell module 4A by the fixing metal fitting 20, and in the second embodiment, the configuration of the frame portions 18, 19 is the first. This differs from the one embodiment.
FIG. 8 is a cross-sectional view of an essential part showing a mounting structure of the existing solar cell module 4A to the mounting member 10. In FIG. 8, the frame portion 18 of the existing solar cell module 4A includes a receiving portion 18a having a substantially U-shaped cross section for fitting the end portions of the four sides of the substantially plate-shaped solar cell module body, and the receiving portion 18a. Four sides are formed in a cross-sectional shape including a hollow frame portion 18b formed on the lower side and a mounting portion 18c having a screw insertion hole formed by extending the lower surface of the hollow frame portion 18b inward. The mounting portion 18c is installed on the mounting member 10 and is fixed by tightening the screw 14 or the nut 15 onto the mounting portion 18c from the back side of the upper surface of the mounting member 10.

In FIG. 9, a relatively small new solar cell module 4P is placed in the approximate center of the light receiving surface 4b of the failed solar cell module 4A. The frame portion 19 of the newly installed solar cell module 4P has the same configuration as the frame portion 18, and different symbols are used to distinguish between the solar cell modules 4A and 4P. The frame portion 19 has a receiving portion 19a, a hollow frame portion 19b, and a mounting portion 19c.
Fixing fittings 20 are fitted into the facing frame portions 19 of the new solar cell module 4P and the facing frame portions 18 of the defective solar cell module 4A, respectively. The fixing bracket 20 includes a first fixing portion 20a having a substantially L-shaped cross section that abuts the receiving portion 19a and the hollow frame portion 19b of the frame portion 19 of the newly installed solar cell module 4P, and the frame portion of the defective solar cell module 4A. The second fixing portion 20b having a substantially L shape that abuts the receiving portion 18a, the hollow frame portion 18b, and the mounting portion 18c of 18 and the connecting portion 20c that connects the first and second fixing portions 20a and 20b are integrally formed. Has been done.

Then, each fixing member 20 is fixed by screwing a screw 14 into a screw hole formed in the mounting portion 18c of the frame portion 18 of the failed solar cell module 4A from the lower surface of the second fixing portion 20b. The newly installed solar cell module 4P is fixed by being clamped by the first fixing portion 20a of the fixing metal fitting 20 that faces the upper surface and the side surface. The newly installed solar cell module 4P is fixed to the mounting member 10 via the frame portion 18 of the existing solar cell module 4A installed below it.

In addition, although the solar power generation unit 1 according to the present invention is installed so that the inclined surface faces in the east-west direction, it may be installed in the north-south direction instead.
Further, in the above-described embodiment, the fixing fitting 13 is provided as the fixing device, but the present invention is not limited to this, and the screw 14, the resin fixing device, or the like may be used.

1 solar power generation unit 3 frame 4 solar cell module 4A defective solar cell module 4P new solar cell module 4c, 4d, 18, 19 frame 5 solar cell array 8, 8A, 8B support member 10 mounting member 13, 20 fixed Bracket 14 screw

Claims (4)

In a solar power generation unit with a solar cell module attached,
Existing solar cell module,
A new solar cell module installed on the light-receiving surface of the existing solar cell module,
A solar power generation unit, comprising: a fixture for fixing a new solar cell module to the existing solar cell module. The solar power generation unit according to claim 1, wherein the new solar cell module is formed smaller than the existing solar cell module. The fixture has a first fixing portion attached to the frame portion of the new solar cell module and a second fixing portion attached to the frame portion of the existing solar cell module, The photovoltaic power generation unit according to claim 1 or 2, wherein the photovoltaic power generation units are installed at opposing positions. Installing a new solar cell module on the light receiving surface of an existing solar cell module;
Attaching a fixture to the frame portion of the existing solar cell module and the new solar cell module,
A method for repairing a solar cell module, comprising:

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