JP2000234423A - Solar panel metal fixture for folded-plate roof and solar panel mounting structure for folded-plate roof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To simply mount a solar panel on a folded-plate roof. SOLUTION: A solar panel metal fixture 2 is constituted of a metal fixture main body 4 and a holding member 5 for pushing and holding the ends of solar panels 1 mounted on the metal fixture main body 4 from above. Then, the metal fixture main body 4 is constituted of a mounting piece 6 mounting the ends of the solar panels 1 adjacent to each other thereon, a pair of holding pieces 9 provided in opposition to both ends of the mounting piece 6 and having an interlocking projection 10 interlocked with an interlocking recess section 11 recessed in both slopes on the mountain section 8 of a folded-plate roof and clamping devices 12 for clamping a pair of holding pieces 9 in the approaching direction A.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solar panel mounting bracket for a folded roof and a structure for mounting a solar panel to the folded roof.

[0002]

2. Description of the Related Art Conventionally, as a solar panel mounting bracket for mounting a solar panel on a roof surface, for example, as shown in FIG.
The cap member 30 is fitted in the shape of a letter, and a pair of left and right holding members 31, 31 are arranged on both outer sides of the cap member 30. At the same time, both holding metal fittings 31, 3
1 are brought into contact with each other at the center, so that the bolt 33 and the nut 3
Then, the respective ends of the adjacent solar panels (not shown) are placed on the mounting pieces 35, 35 which are continuously provided on the upper portions of the holding metal fittings 31, 31, and are bolted, nutd, and the like. There is a known solar panel.

[0003]

Therefore, in the conventional solar panel mounting bracket 2 ', the left and right clamping brackets 3' are provided.
In order to attach the pair of clamps 31, 31 to the folded roof 3 with the fixture 32, and to attach the pair of clamps 31, 31 to each other with bolts 33 and nuts 34, in order to attach the pair of clamps 31, 31 to the folded roof 3. Work to tighten until they touch each other is required, and work at a high place requires much labor and time. Further, when fixing the solar panel to the mounting pieces 35, 35 with bolts, nuts, or the like, for example, a hole for inserting a bolt is provided in the solar panel, and the bolt is inserted into the opening 40 of the mounting piece 35 from the hole. It was necessary to tighten with a nut, and the installation of the solar panel was more troublesome.

[0004] The present invention has been made in view of the above points, and an object of the present invention is to attach a solar panel to a folded roof so that the solar panel can be easily attached to the folded roof. An object of the present invention is to provide a structure for mounting a solar panel to a metal fitting and a folded roof.

[0005]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, the present invention relates to a solar panel mounting bracket for mounting a solar panel 1 on a folded roof 3, and includes a mounting bracket main body 4 and a main body.
And the solar panel 1 placed on the upper surface of the mounting body 4
And a pressing member 5 for pressing and holding the end of the member from above,
The mounting bracket body 4 is provided opposite to the mounting piece 6 on which the end of the solar panel 1 is mounted, and both ends of the mounting piece 6, and is provided on both side slopes of the peak 8 of the folded roof 3. A pair of holding pieces 9 having locking projections 10 locked in the locking recesses 11 respectively provided in the recesses, and fastening means 12 for tightening the pair of holding pieces 9 in the approach direction A. With this configuration, a pair of holding pieces 9 of the mounting bracket body 4 are arranged on both sides of the peak 8 of the folded roof 3,
Locking recess 1 in which locking projection 10 is recessed on both side slopes of peak 8
In the state in which the solar panel 1 is locked, it is only necessary to perform the work of tightening the tightening means 12, and it can be easily attached to the crest 8 of the folded roof 3. By pressing and fixing to the mounting piece 6, the solar panel 1 does not need to be perforated, and the solar panel mounting bracket 2 that can be easily mounted can be provided.

The present invention also relates to a mounting structure for mounting a solar panel 1 on a folded roof 3 by means of a solar panel mounting bracket 2, wherein the solar panel mounting bracket 2 is a mounting bracket body 4.
And the solar panel 1 placed on the upper surface of the mounting body 4
And a pressing member 5 for pressing and holding the end of the member from above,
The mounting bracket body 4 is provided opposite to both ends of the mounting piece 6 on which the end of the adjacent solar panel 1 is mounted, and both ends of the mounting piece 6. It is composed of a pair of holding pieces 9 having locking projections 10 locked in locking recesses 11 respectively provided on the slopes, and fastening means 12 for tightening the pair of holding pieces 9 in the approach direction A. A pair of holding pieces 9 of the mounting bracket body 4 are arranged on both sides of the crest 8 of the folded roof 3, and the locking projections 10 of each holding piece 9 are recessed on both side slopes of the crest 8. In the state where the mounting bracket 4 is locked in the locking recess 11, the pair of holding pieces 9 are tightened in the approaching direction A by the tightening means 12 to fix the mounting bracket main body 4 to the ridge portion 8. Solar panel 1 on top of piece 6
And the end portion of the solar panel 1 is pressed and fixed from above by the holding member 5. With such a configuration, a pair of holding of the mounting bracket body 4 is performed. The pieces 9 are arranged on both sides of the crest 8 of the folded roof 3, and the locking projections 10 provided on the holding pieces 9 are locked in locking recesses 11 formed on both side slopes of the crest 8. And fastening means 1
By simply performing the work of tightening 2, the mounting bracket main body 4 can be mounted on the ridge portion 8 of the folded roof 3, so that work at high places can be performed in a short time, and workability is improved. Also,
Since the end of the solar panel 1 is pressed and fixed between the mounting piece 6 and the holding member 5, the solar panel 1 can be more easily attached without making a hole.

[0007]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, an embodiment of the present invention will be described. As shown in FIG.
The peaks 8 are separated by a width E of 00 mm, and a valley 13 is formed between the peaks 8. As shown in FIG. 2 (b), constricted locking recesses 11 are respectively provided on both side slopes of the mountain portion 8, and the locking recesses 11 are formed.
A pair of locking projections 10 provided at respective distal ends of a pair of holding pieces 9 of the mounting bracket body 4 described later are respectively locked therein. The locking recess 11 has a function of increasing the mounting strength of the holding piece 9 and a function of increasing the connection strength between the peaks 8. There are various types of folded roofs, such as a spliced type, a folded type overlap type, and a folded type fitting type, but the present invention can be applied to any type.

As shown in FIG. 1, the solar panel 1 includes a solar cell module 14 and a solar cell module frame 15, and an inner peripheral portion of the solar cell module frame 15 has an insertion recess at an end of the solar cell module 14. A location 16 is provided, and an L-shaped projection 18 is formed on the outer peripheral portion of the solar cell module frame 15 as a concave portion 17 whose inside is opened upward. The holding piece 19 is inserted. Here, the solar cell module 14 is configured by connecting a plurality of solar cells which are the minimum units having a function of converting light energy of the sun into electric energy.

The solar panel mounting bracket 2 is a holding member that presses and holds, from above, a substantially inverted U-shaped mounting bracket main body 4 and a solar cell module frame 15 of the solar panel 1 mounted on the upper surface of the mounting bracket main body 4. 5 is comprised. As shown in FIG. 2A, the size of the mounting bracket body 4 is, for example, 90 mm in vertical width b, 100 mm in horizontal width c, and 55 m in height d.
Although it is set to m, it is of course not limited to this numerical value. 3 shows a layout of the solar panel mounting bracket 2, FIG. 4 (a) is a front view of FIG. 3, and FIG.
Shows side views of FIG. 3 and 4
B in (b) is the direction of the eaves ridge, and 7 in FIG. 4 (b) is a roof base material.

The above-described substantially U-shaped mounting bracket body 4 is shown in FIG.
As shown in FIG. 5, a mounting piece 6 on which the solar cell module frames 15 of the adjacent solar panels 1 are mounted, a pair of holding pieces 9 provided opposite to both ends of the mounting piece 6, and a pair of A pair of locking projections 10 provided at each end of the holding piece 9 and locked in locking recesses 11 respectively formed on both side slopes of the mountain portion 8 of the folded roof 3; It is composed of a bolt 20 and a nut 21 which are fastening means 12 for fastening the piece 9 in the approach direction A. In this example, the mounting piece 6
A reinforcing rib 27 is vertically provided along both sides of the reinforcing rib 27, and a notch 28 is provided at both ends of the reinforcing rib 27. The notch 28 allows a pair of holding pieces 9 to be formed by the reinforcing rib 27. And can be deformed in the approach direction A without being disturbed.

A pressing member 5 for pressing and holding the solar cell module frame 15 of the solar panel 1 from above is disposed on the upper surface of the mounting piece 6 of the mounting bracket body 4. At both ends of the holding member 5, a pair of holding pieces 19 are protruded. Here, a bolt hole 25 is formed in the holding member 5, and a bolt hole 24 is formed in the mounting piece 6 of the mounting bracket 4 at a position facing the bolt hole 25. A bolt 22 is inserted into the bolt hole 24 from below the piece 6. The bolt 22 penetrates a bolt hole 25 of the holding member 5 disposed above the mounting piece 6, and a nut 23 is screwed into a tip of the bolt 22 protruding to the upper surface side of the holding member 5. .

Next, when the solar panel 1 is mounted, the pair of holding pieces 9 of the mounting bracket body 4 are attached to the folded roof 3.
Locking projection 1 at the tip of the holding piece 9
0 are respectively locked in the locking recesses 11 recessed on the slopes on both sides, and in this state, the bolts 20 and the nuts 21 attached to the both holding pieces 9 are tightened, so that the pair of holding pieces 9
Can be fastened in the approach direction A to fix the mounting bracket main body 4 to the peak portion 8. At this time, since the locking projection 10 is locked in the locking recess 11, the mounting bracket main body 4 can be securely fixed without coming off from the mountain portion 8.
After that, each solar cell module frame 15 of the solar panel 1 adjacent to the upper surface of the mounting piece 6 of the mounting bracket main body 4 is mounted, and a pair of pressing pieces 1 provided at both ends of the pressing member 5.
9 is inserted into the recess 17 of the solar cell module frame 15 and the bolts 22 are tightened from above, so that the pressing members 5 can simultaneously press and fix the adjacent solar cell module frames 15 of the solar panel 1. . In addition, only the solar cell module frame 15 of one outermost solar panel 1 is mounted on the upper surface of the mounting piece 6 of the outermost mounting bracket 2, and the pressing member 5
Is inserted into the concave portion 17 of the solar cell module frame 15 and the bolt 22 is tightened from above, so that the outermost solar panel 1 is the same as the central solar panel 1. It can be attached to the peak 8 of the folded roof 3.

However, as described above, the operation of locking the locking projections 10 of the pair of holding pieces 9 to the locking recesses 11 of the ridges 8 and tightening the tightening means 12 is performed. The main body 4 can be securely attached to the mountain portion 8. Further, by simply tightening the bolt 22 from above the holding member 5, the holding member 5 holds the solar cell module frame 15 of the solar panel 1 mounted on the mounting piece 6 of the mounting body 4.
Can be pressed and fixed from above, so that the solar cell module frames 15 of two adjacent solar panels 1 can be pressed and fixed simultaneously and easily by one pressing member 5, and work at a high place Labor and time required for In addition, since the solar cell module frame 15 of the solar panel 1 is pressed and fixed by the mounting piece 6, there is no need to provide a hole for attaching a bolt or the like to the solar panel 1, so that the mounting operation is further simplified. At the same time, rust due to perforation of the solar panel 1 and a decrease in watertightness can be prevented, and the life of the solar cell can be extended. Also, by mounting and pressing and fixing the solar cell module frames 15 of the adjacent solar panels 1 on the upper surface of the mounting piece 6, it becomes easy to construct two adjacent solar panels 1 flush, and the appearance is improved. Get better.

Further, since both sides of the mounting piece 6 of the mounting bracket body 4 are reinforced by the reinforcing ribs 27, the solar cell module frames 15 of the plurality of solar panels 1 are firmly held on the upper surface of the mounting piece 6. The solar panel 1 can be supported, and the mounting strength of the solar panel 1 can be improved. Since notches 28 are provided at both ends of the reinforcing rib 27, a pair of holding pieces 9 are formed by the notches 28.
Can be bent and deformed in the approaching direction A without being disturbed by the reinforcing ribs 27. Therefore, the reinforcing rib 27
Thus, although the mounting piece 6 is reinforced, there is also an advantage that the holding piece 9 can be tightened in the approach direction A with a margin without the reinforcing rib 27 becoming an obstacle.

[0015]

As described above, the invention according to claim 1 of the present invention is a solar panel mounting bracket for mounting a solar panel on a folded roof, comprising: a mounting bracket main body and an upper surface of the mounting bracket main body. A holding member that presses and holds an end of the mounted solar panel from above is provided, and the mounting bracket main body opposes a mounting piece on which the end of the solar panel is mounted and both ends of the mounting piece. And a pair of holding pieces having locking projections that are locked in locking recesses respectively formed on both side slopes of the mountain portion of the folded roof, and tightening the pair of holding pieces in the approaching direction. Since it is constituted by the fastening means, it is arranged on both sides of the crest of the folded roof with a pair of holding pieces of the mounting bracket body, and the locking projections provided on the holding piece are recessed on both side slopes of the crest. Do the work of tightening the tightening means while being locked in the locking recess. It can be easily attached to the peak of the folded roof, and by pressing and fixing the end of the solar panel to the mounting piece with the holding member, there is no need to drill the solar panel, and it can be folded. An object of the present invention is to provide a solar panel mounting bracket capable of easily performing a solar panel mounting operation on a plate roof.

According to a second aspect of the present invention, there is provided a mounting structure for mounting a solar panel to a folded roof with a solar panel mounting bracket, wherein the solar panel mounting bracket is mounted on a mounting bracket main body and an upper surface of the mounting bracket main body. A holding member that presses and holds the end of the solar panel from above, and the mounting bracket main body is a mounting piece on which the end of the solar panel is mounted, and faces both ends of the mounting piece. A pair of clamping pieces provided and having locking projections which are respectively locked in the locking recesses formed on both side slopes of the mountain part of the folded roof, and fastening means for tightening the pair of clamping pieces in the proximity direction And a pair of holding pieces of the mounting bracket main body are arranged on both sides of the crest of the folded roof, and locking projections of each holding piece are recessed on both side slopes of the crest. While being locked in the respective recesses, The fixing piece is fastened in the approaching direction to fix the mounting bracket body to the mountain, the end of the solar panel is placed on the upper surface of the mounting piece of the mounting body, and the end of the solar panel is pressed by the holding member. Since it is pressed and fixed from above, the ridge of the folded roof is sandwiched between a pair of holding pieces of the mounting bracket main body, and locking projections provided on the holding piece are recessed on both side slopes of the mountain. In the state where it is locked in place, the mounting bracket body can be mounted on the mountain part of the folded roof just by performing the work of tightening the fastening means, so the work of attaching the solar panel mounting bracket to the folded roof is easy. In addition, work at a high place can be performed in a short time. In addition, since the end of the solar panel is pressed and fixed between the mounting piece and the holding member, there is no need to drill the solar panel,
As a result, the solar panel can be easily attached to the folded roof, and the workability is greatly improved.

[Brief description of the drawings]

FIG. 1 is a sectional view showing an example of an embodiment of the present invention.

FIG. 2A is a perspective view showing a state in which the same mounting metal body is attached to a mountain part of a folded roof, and FIG. 2B is a perspective view of the mounting metal body.

FIG. 3 is a schematic plan view showing an example of the arrangement of the solar panel mounting bracket according to the first embodiment.

4A is a front view of FIG. 3, and FIG. 4B is a side view.

FIGS. 5 (a) and 5 (b) are perspective views illustrating a mounting state of a conventional solar panel mounting bracket.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Solar panel 2 Solar panel mounting bracket 3 Folded roof 4 Mounting bracket main body 5 Pressing member 6 Mounting piece 8 Mountain section 9 Holding piece 10 Locking projection 11 Locking recess 12 Tightening means A Approaching direction

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Shunichi Fujimoto 2-3-7 Koraibashi, Chuo-ku, Osaka-shi F-term (reference) 2D108 AZ01 BB04 BN06 GG16 KK01 LL01 MM05 NN07 5F051 BA03 JA02 JA09

Claims (2)

[Claims] 1. A solar panel mounting bracket for mounting a solar panel on a folded roof, comprising: a mounting bracket main body;
A holding member that presses and holds an end of the solar panel placed on the upper surface of the mounting body from above, and the mounting body is a mounting piece on which the end of the solar panel is mounted,
A pair of holding pieces provided opposite to both ends of the mounting piece and having locking projections locked in locking recesses respectively formed on both side slopes of the crest of the folded roof; And a tightening means for tightening the holding piece in the approaching direction. 2. A mounting structure for mounting a solar panel to a folded roof with a solar panel mounting bracket, wherein the solar panel mounting bracket includes a mounting bracket main body and an end of the solar panel mounted on an upper surface of the mounting bracket main body. A mounting member for pressing and holding the mounting panel from above, wherein the mounting bracket main body is provided opposite to both ends of the mounting piece on which the end of the solar panel is mounted, and both ends of the mounting piece; A pair of holding pieces having locking projections locked in locking recesses respectively provided on both side slopes of the portion, and fastening means for tightening the pair of holding pieces in the approaching direction. A pair of holding pieces of the mounting bracket main body are arranged on both sides of the crest of the folded roof, and the locking projections of each holding piece are respectively locked in locking recesses formed on both side slopes of the crest. The pair of clamping pieces in the approaching direction The mounting bracket body is fixed to the mountain portion, and the end of the solar panel is placed on the upper surface of the mounting piece of the mounting bracket body, and the end of the solar panel is pressed and fixed from above by the holding member. A solar panel mounting structure for a folded roof.