JP2011032723A - Solar battery panel supporting device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a solar battery panel supporting device which reduces the number of members required for fixing the solar battery panel and facilitates the fixing work. <P>SOLUTION: A plurality of placing members 14 are arranged on the outside face of a structure and a plurality of solar battery panels 13 are arranged side by side and supported on the placing members 14. A press member 22 is detachably fixed on the placing member 14, pressing the corner surface of the solar battery panel 13, at the corner where respective solar battery panels 13 are abutted on each other. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a solar cell panel support device for supporting a solar cell panel on an outer surface of a structure such as a rooftop of a building.

  Conventionally, as this type of solar cell panel support device, for example, a configuration as shown in FIGS. 12 and 13 has been proposed. In this conventional configuration, a frame member 41 made up of a plurality of channel members or the like with openings facing downward is fixed in parallel at intervals on the rooftop of a building. On the frame material 41, a plurality of solar cell panels 42 are supported side by side in the vertical direction and the horizontal direction in a state of being spaced apart from each other. A locking groove 43 that opens upward is formed on the end face of each solar cell panel 42 over the entire length in the extending direction of the end face. Between adjacent solar cell panels 42, a pair of mounting brackets 44 having a substantially inverted U-shaped cross section are fitted in the locking groove portions 43. The solar battery panels 42 are fixed to the frame material 41 by fastening these mounting brackets 44 to the frame material 41 with bolts 45 and nuts 46.

  Moreover, as a conventional solar cell panel support apparatus, the structure which is disclosed by patent document 1, for example is proposed. In this conventional configuration, support rails are laid on the roof surface of the building. The frame of the solar cell panel is provided with a fixing portion for fixing on the support rail. And by fixing this fixing | fixed part to a support rail with a some volt | bolt, the solar cell panel is arranged and supported in the state which put the clearance gap on the support rail. In addition, a seam panel is fitted into the gap between adjacent solar cell panels, and the seam panel is fixed to the support rail with bolts, thereby closing the gap between the solar cell panels.

JP 11-324246 A

However, these conventional solar cell panel support devices have the following problems.
In the conventional configuration shown in FIG. 12 and FIG. 13, the solar cell panel 42 requires a special structure in which the locking groove 43 is formed, so that it is poor in versatility and expensive. Moreover, since the long side part of the adjacent solar cell panel 42 is being fixed by each pair of mounting bracket 44, many mounting brackets 44 were needed and there existed a problem that fixing work took time. In addition, since the number and mounting positions of the mounting brackets 44 are not specified, the number and positioning positions of the mounting brackets 44 vary, and the support strength of the solar cell panel 42 is reduced.

  Moreover, in the conventional structure of patent document 1, the fixing | fixed part provided in the frame of the solar cell panel is directly fixed to the support rail which makes | forms a square pipe shape with a some screw | thread. For this reason, it is necessary to provide a hole for passing a screw through the fixing portion, and it is necessary to screw the screw into the support rail, which takes time and labor for the fixing operation. Since the screw is directly screwed into the support rail as described above, the coupling depth between the screw and the support rail is only the thickness of the top plate of the support rail that forms a square pipe shape. If the thread of the hole is broken, the support strength of the solar cell panel may be significantly reduced.

  The present invention has been made paying attention to such problems existing in the prior art. The object is to provide a solar cell panel support device that can reduce the number of members required to fix the solar cell panel, reduce the material cost, and easily perform the fixing operation. It is to provide.

In order to achieve the above object, the invention of claim 1 is characterized by comprising a pressing member for pressing a corner portion of the solar cell panel on the outer surface of a structure such as a building.
Here, the pressing member for pressing the corner portion is a spot-like corner portion in the state of abutting 2 to 6 adjacent solar cell panels such as a quadrangle and a triangle using one screw. The planar shape is embodied as a circle, an ellipse, a polygon, a T shape, a cross shape, a star shape, or the like. Furthermore, the shape which does not cover the power generation cell of a solar cell is desirable.

  Therefore, in the solar cell panel support device of the present invention, the corner portions in the butted state of the plurality of solar cell panels can be simultaneously pressed and fixed by one pressing member. Therefore, unlike the conventional configuration, it is not necessary to use a large number of mounting brackets or a large number of bolts to fix the solar cell panel, and to reduce the number of members necessary for fixing the solar cell panel. Can do. Therefore, the material cost can be reduced and the fixing work can be simplified.

The invention according to claim 2 is characterized in that the pressing member presses a corner portion in a butted state of a plurality of solar cell panels.
Invention of Claim 3 is equipped with the supporting member fixed to the outer side surface of a structure, The adjacent surface of the supporting surface for supporting the corner | surface back part of a solar cell panel and the corner part of a solar cell panel is provided in the supporting member. A receiving surface for receiving the two end surfaces, and the pressing member is detachably fixed to the support member to press the surface of the corner portion of the solar cell panel.

  According to a fourth aspect of the present invention, the supporting surface and the receiving surface of the supporting member are formed at four locations every 90 degrees, and the pressing member is formed to a size that covers the corner portions of the four solar cell panels that are in contact with each other. It is characterized by.

The invention according to claim 5 is characterized in that an elastic material is provided on the receiving surface of the support member.
The invention according to claim 6 is characterized in that the pressing member is fixed to the support member with a screw.

The invention of claim 7 is characterized in that the support member is attached to a frame material for supporting the solar cell panel.
The invention according to claim 8 is provided with a support member that is fixed to the outer surface of the structure and for mounting the solar cell panel, and the pressing member is detachably fixed to the supporting member, and the sun adjacent to the pressing member. A pressing portion for pressing the surface of the edge of the battery panel is formed.

The invention according to claim 9 is characterized in that the pressing member is formed of an elastic material on a surface in contact with the solar cell panel.
The invention according to claim 10 is characterized in that the pressing member includes an elastic material and a core material embedded in the elastic material, and the core material is located between the surfaces of adjacent solar cell panels.

  As described above, according to the present invention, the number of members required for fixing the solar cell panel can be reduced, the material cost can be reduced, and the fixing operation can be easily performed. Demonstrate the effect that you can.

The principal part perspective view which shows the solar cell panel support apparatus of 1st Embodiment. The partial expanded sectional view in the 2-2 line of FIG. The disassembled perspective view of a solar cell panel support apparatus. The disassembled perspective view which expands and shows a part of solar cell panel support apparatus of FIG. FIG. 3 is an exploded cross-sectional view of the solar cell panel support device of FIG. 2. The principal part top view which shows the solar cell panel support apparatus of 2nd Embodiment. FIG. 7 is a partially enlarged cross-sectional view taken along line 6-6 in FIG. FIG. 7 is a partial enlarged cross-sectional view taken along line 7-7 in FIG. The partial expanded sectional view in the 8-8 line | wire of FIG. The principal part top view which shows the modification of the solar cell panel support apparatus of 2nd Embodiment. The perspective view which shows the example of a change. The principal part top view which shows the conventional solar cell panel support apparatus. The fragmentary expanded sectional view in the 10-10 line | wire of FIG.

(First embodiment)
Below, 1st Embodiment of the solar cell panel support apparatus which actualized this invention is described according to FIGS.

  As shown in FIG.1 and FIG.2, the frame material 12 which consists of several C-shaped steel is being fixed in parallel with the space | interval on the roof which is the outer surface 11 of a building. A plurality of solar cell panels 13 are supported on the frame member 12 via the mounting member 14 in a state where they are arranged in the vertical direction and the horizontal direction with a mutual interval therebetween.

  As shown in FIGS. 2 and 4, a plurality of the mounting members 14 are arranged on the upper surface of each frame member 12 at an interval by bolts 15, nuts 16 and washers 17. A boss portion 18 having a bolt insertion hole 18 a for inserting the bolt 15 and a female screw portion 18 b for screwing a screw 23 described later is formed at the center of each mounting member 14. Adjacent to the outer peripheral portion of the boss portion 18 of each mounting member 14 is a mounting plate 19 for supporting the back surface of the corner portion 13a of the solar cell panel 13 in a mounted state, and the corner portion 13a of the solar cell panel 13. In order to receive the two end surfaces, four receiving plates 20 projecting in the radial direction are formed. The receiving plate 20 is formed every 90 degrees. An elastic material 21 having flexibility such as rubber is bonded and fixed to the side surface of each backing plate 20. The boss portion 18 and the receiving plate 20 are formed at the same height as the thickness of the solar cell panel 13 or slightly lower.

  As shown in FIG. 2 and FIG. 3, in the state where the corner portion of the solar cell panel 13 is placed on the placement plate 19 of the mounting member 14 described above, the four solar cell panels 13 adjacent to each other are in a butted state. A disk-shaped pressing member 22 is disposed on the surface of the corner portion 13a. The pressing member 22 is formed to have a size that covers the corner portion 13a in the butted state of the four solar cell panels 13. Then, the screw 23 is screwed into the female screw portion 18 b of the boss portion 18 of the mounting member 14 through the screw insertion hole 22 a at the center of the pressing member 22, so that the pressing member 22 is mounted on the mounting member 14. It is fixed so as to be removable. As a result, the surface of the corner portion 13 a in the butted state in the four solar cell panels 13 is pressed by the pressing member 22.

Next, a method of installing the solar cell panel 13 on the outer side surface 11 of the building using the solar cell panel support device configured as described above will be described.
When the solar panel 13 is installed, a plurality of frames 12 are arranged in parallel on the outer surface 11 of the structure in advance, and a plurality of mounting members 14 are bolts 15, nuts 16 and washers on the frames 12. 17 are attached at predetermined intervals. And in order to install the solar cell panel 13, as shown in FIG.4 and FIG.5, the corner part 13a of each solar cell panel 13 is arrange | positioned on the mounting member 14. FIG. In this state, the back surface of the corner portion 13a of the solar cell panel 13 is placed on the placement plate 19 of the placement member 14, and two adjacent end surfaces of the corner portion 13a of the solar cell panel 13 are placed on the placement member. 14 abuts against the elastic material 21 of each receiving plate 20. By this contact, the corner portion 13a of the solar cell panel 13 is positioned at a predetermined position on the frame member 12, and the corner portions 13a in the butted state of the four solar cell panels 13 are supported on one mounting member 14. Is done.

  In this state, as shown in FIGS. 4 and 5, one pressing member 22 is placed on the surface of the corner portion 13 a of the four solar cell panels 13, and the pressing member 22 is attached to the mounting member 14 with screws 23. Fix against. By this fixing, the surfaces of the corner portions 13a in the butted state in the four solar cell panels 13 are simultaneously held in a pressed state by the pressing member 22. In this way, as shown in FIG. 1, the fixing operation of the solar cell panel 13 is completed. In addition, in the edge part of the solar cell panel 13 group, only the corner part of the two solar cell panels 13 is mounted, and in the corner part of the solar cell panel 13 group, only the corner part of one solar cell panel is mounted. It is supported by the mounting member 14.

Therefore, according to this embodiment, the following effects can be obtained.
(1) In this solar cell panel support device, a single pressing member 22 can simultaneously press and fix the corner portion 13a in a butted state of a plurality of solar cell panels 13. For this reason, unlike the conventional configuration, there is no need to use a large number of mounting brackets or a large number of bolts for fixing the solar cell panel, and the number of members necessary for fixing the solar cell panel 13 is reduced. be able to. Therefore, the material cost can be reduced, the fixing work can be simplified, and the work efficiency in installing the solar cell panel can be improved.

  (2) In this solar cell panel support device, mounting members 14 are arranged on the frame material 12, and each mounting member 14 is mounted to support the back surface of the corner portion 13 a of the solar cell panel 13. The plate 19 and the receiving plate 20 for receiving two adjacent end faces of the corner portion 13a of the solar cell panel 13 are formed at four locations every 90 degrees. For this reason, the corner part 13a of the butt | matching state of the four solar cell panels 13 can be easily positioned in the predetermined position on the mounting member 14, and the fixing operation | work of the solar cell panel 13 can be simplified further. it can.

  (3) In this solar cell panel support device, an elastic material 21 is provided on each receiving plate 20 of the mounting member 14. Therefore, the elastic material 21 can buffer the two adjacent end faces of the corner portion 13a of the solar cell panel 13 against each receiving plate 20 of the mounting member 14, and also the solar cell panel 13 A certain amount of displacement of the frame member 12 or the mounting member 14 can be absorbed by the elastic deformation of the elastic member 21.

  (4) In this solar cell panel support apparatus, the pressing member 22 is detachably fixed to the mounting member 14 with screws 23. For this reason, the holding member 22 can be easily detached from the mounting member 14 at the time of maintenance and inspection of the solar cell panel 13, and work such as maintenance and inspection of the solar cell panel 13 can be easily performed. it can.

  (5) In this solar cell panel support device, the solar cell panel support device is fixed by a screw 23 screwed into the female screw portion 18 b on the inner peripheral surface of the boss portion 18. Therefore, unlike the configuration of Patent Document 1 described above, the fixing depth of the screw 23 can be secured long, and the risk of screw breakage or the like can be prevented. For this reason, the solar cell panel 13 can be installed in a state having excellent stability against wind. In addition, when the fixing of the solar cell panel 13 is loosened, the female screw portion 18b may be retightened, and the operation is simple.

  (6) In this solar cell panel support device, the small pressing member 22 only presses the corner portion of the solar cell panel 13 in a spot manner. For this reason, the external appearance of the solar cell panel group installed on the outer wall or the like of the building is not impaired, the designability can be improved, and the degree of freedom in designability can be increased.

(Second Embodiment)
Next, a second embodiment of the solar cell panel support device embodying the present invention will be described based on FIGS. 6 to 10 with a focus on differences from the first embodiment.

  Now, in the second embodiment, as shown in FIGS. 6 and 7, the frame material 12A is fixed in parallel in the vertical direction at predetermined intervals on the outer surface 11 such as the roof of the building. The frame material 12B is also fixed at an appropriate position in the lateral direction. A plurality of solar cell panels 13 are supported side by side in the vertical and horizontal directions via the mounting member 14 on the frame members 12A and 12B.

  As shown in FIGS. 7 and 8, the mounting member 14 of this embodiment is formed in a simple flat plate shape, and the framework member 12 </ b> A is supported so as to support the back surface of the outer peripheral edge including the corner portion 13 a in the solar cell panel 13. It is fixed by welding on both sides of the groove 12a at an interval. An elastic support plate 25 made of rubber or the like for elastically supporting the back surface of the outer peripheral edge of the corner portion 13 a of the solar cell panel 13 is bonded and fixed on each mounting member 14.

  As shown in FIGS. 6-8, the corner part 13a of the butt | matching state in four adjacent solar cell panels 13 in the state by which the solar cell panel 13 was supported on the elastic support plate 25 on the mounting member 14 mentioned above. In the meantime, two types of pressing members 22A, 22B are fixed to the mounting member 14 by bolts 26, nuts 27 and washers 28 so as to be detachable. In this case, the nut 27 is previously fixed to the lower surface of the washer 28 by welding, and the bolt 26 is screwed into the nut 27 via the pressing members 22A and 22B and the mounting member 14, thereby mounting the pressing members 22A and 22B. The mounting member 14 is fixed.

  As shown in FIGS. 6 and 7, one holding member 22A is placed on the longitudinal frame member 12A at a portion where the transverse frame member 12B does not intersect the longitudinal frame member 12A. It is arranged on the member 14. The pressing member 22 </ b> A is formed with a planar substantially rectangular holding part 22 b for pressing the surface of the corner part 13 a in the butted state in the four solar cell panels 13. On the other hand, as shown in FIGS. 6 and 8, the other pressing member 22 </ b> B has a longitudinal frame material at a portion where the transverse frame material 12 </ b> B intersects the longitudinal frame material 12 </ b> A. It is arranged on the mounting member 14 on 12A. The pressing member 22B is formed with a planar substantially cross-shaped pressing portion 22c for pressing the surface of the corner portion 13a in the butted state in the four solar cell panels 13.

  As shown in FIGS. 7 and 8, the pressing members 22 </ b> A and 22 </ b> B are composed of an elastic material 29 made of rubber or the like and a core material 30 made of a metal plate embedded in the elastic material 29. A recess 31 for detaching the bolt 26 is formed at the center of the upper surface of the elastic material 29. And while the core material 30 is arrange | positioned ranging between the surfaces of the corner part 13a of the adjacent solar cell panel 13, the elastic material 29 comes into contact with the surface of the corner part 13a of the solar cell panel 13. FIG. .

  As shown in FIGS. 7 and 8, a cap 32 is detachably attached to the recess 31 of each of the pressing members 22A and 22B. The cap 32 covers the head of the bolt 26 so as not to be exposed to the outside.

In this embodiment, the following pressing structure is also provided between the edges of adjacent solar cell panels 13 as necessary.
That is, as shown in FIGS. 9 and 10, the mounting plate 33 is fixed to the upper surface of the required frame members 12 </ b> A and 12 </ b> B extending in the vertical direction or the horizontal direction by welding, and is placed at the center of the upper surface of the mounting plate 33. A locking groove 33a extending in the length direction is formed. Between the edges of the adjacent solar cell panels 13, a pressing member 22 </ b> C is detachably fixed to the mounting plate 33 via the elastic support plate 25 similar to the above. A locking projection 34 having a plurality of anchor-like engaging projections 34 a that can be engaged with the locking groove 33 a of the mounting plate 33 protrudes from the lower center of the pressing member 22 </ b> C. On the upper portion of the pressing member 22C, a planar substantially long rectangular pressing portion 22d for pressing the surface of the edge of the adjacent solar cell panel 13 is formed.

  As shown in FIG. 9, the pressing member 22 </ b> C includes an elastic material 29 made of rubber or the like and a core material 30 made of a metal plate embedded in the elastic material 29, like the pressing members 22 </ b> A and 22 </ b> B. Has been. And while the core material 30 is arrange | positioned ranging over the surface of the edge of the adjacent solar cell panel 13, the elastic material 29 contacts the surface of the edge of the solar cell panel 13. As shown in FIG. The pressing member 22C may be short or long as shown in FIG.

  In addition, in the edge part of the solar cell panel 13 group, only the corner part of two solar cell panels 13 hold | suppresses only the corner part of one solar cell panel in the corner part of the solar cell panel 13 group. Pressed by the member 22A. Or you may make it the edge part of the solar cell panel 13 group be hold | suppressed by 22 C of long pressing members.

Therefore, also in the second embodiment, the same effects as those described in the first embodiment can be obtained.
Further, the second embodiment has the following effects.

(7) Since the outside of the pressing members 22A, 22B, and 22C is made of an elastic material such as rubber, it can be colored in any color. For this reason, the external appearance of a solar cell panel apparatus can be improved.
(8) As described above, the outer sides of the pressing members 22A, 22B, and 22C are made of an elastic material such as rubber. For this reason, when a difference in height occurs on the upper surface of the solar cell panel 13 due to low flatness of the outer side surface 11 of the building or deformation of the frame member 12A, the height difference is absorbed and the solar cell panel 13 The upper surface can be properly pressed.

(Example of change)
In addition, this embodiment can also be changed and embodied as follows.
As shown by a two-dot chain line in FIG. 3, the mounting plate 19 of the mounting member 14 is extended so that it can be supported in a wide range with respect to the frame material 12. In this case, it is convenient to shorten the mounting plate 19 by forming a ruled cut line 19a so that the protruding portion of the mounting plate 19 can be broken.

  As shown in FIG. 11, in the mounting member 14, the elastic material 21 is provided not only on the side surface of the receiving plate 20 but also on the upper surface of the mounting plate 19. Although not shown, an elastic material is also provided on the lower surface of the pressing member 22 that holds the solar cell panel 13.

・ Install solar panel devices on the outside of structures other than buildings, such as on paving stones in open spaces.
・ Install a solar panel device on the outer surface of the outer wall of the building. Therefore, the solar cell panel 13 is supported in an upright state.

-Fix the mounting member 14 directly on the rooftop of a building, etc., without providing the frame material 12.
(Other technical ideas)
The claims that are grasped from the embodiment but are not listed as claims are shown below.

(A) A solar cell panel support device comprising a pressing member for pressing a side excluding a corner portion of a solar cell panel on an outer surface of a structure such as a building.
If comprised in this way, the edge | side of a solar cell panel can be hold | suppressed appropriately.

  (B) It is fixed to the outer surface of the structure, and includes a support member for mounting the solar cell panel, and the pressing member is detachably fixed to the support member, and the end of the solar cell panel adjacent to the pressing member The solar cell panel support device according to the other technical concept (A), wherein a pressing portion for pressing the surface of the edge is formed.

(C) The solar cell panel support device according to the other technical concept (B), wherein the pressing member is formed of an elastic material on a surface in contact with the solar cell panel.
(D) Another technical idea, wherein the pressing member includes an elastic material and a core material embedded in the elastic material, and the core material is located between the surfaces of adjacent solar cell panels. (C) The solar cell panel support apparatus as described in a term.

  DESCRIPTION OF SYMBOLS 11 ... Outer surface of a structure, 12, 12A, 12B ... Frame material, 13 ... Solar cell panel, 13a ... Corner part, 14 ... Support member, 19 ... Support surface, 20 ... Receiving surface, 21 ... Elastic material, 22, 22A , 22B: pressing member, 22b, 22c: pressing part, 23: screw, 26: bolt, 27: nut, 29: elastic material, 30: core material.

Claims (10)

A solar cell panel support device comprising a pressing member for pressing a corner portion of a solar cell panel on an outer surface of a structure such as a building. 2. The solar cell panel support device according to claim 1, wherein the pressing member presses a corner portion in a butted state of a plurality of solar cell panels. A support member fixed to the outer surface of the structure is provided, and the support member receives a support surface for supporting the back surface of the corner portion of the solar cell panel and two adjacent end surfaces of the corner portion of the solar cell panel. The solar cell panel support device according to claim 1, wherein the holding member is detachably fixed to the support member to press the surface of the corner portion of the solar cell panel. . The supporting surface and the receiving surface of the supporting member are formed at four positions every 90 degrees, and the pressing member is formed to have a size that covers the corner portions of the four solar cell panels that are in contact with each other. The solar cell panel support apparatus according to claim 3. The solar cell panel support device according to claim 3, wherein an elastic material is provided on a receiving surface of the support member. The solar cell panel support device according to any one of claims 3 to 5, wherein the pressing member is fixed to the support member with a screw. The said support member was attached to the frame material for supporting a solar cell panel, The solar cell panel support apparatus as described in any one of Claims 3-6 characterized by the above-mentioned. It is fixed to the outer surface of the structure, and includes a support member for mounting the solar cell panel, and the pressing member is detachably fixed to the support member, and the pressing member has an edge surface of the adjacent solar cell panel. The solar cell panel support device according to claim 1, wherein a pressing portion for pressing is formed. The solar cell panel support device according to claim 8, wherein the pressing member is formed of an elastic material on a surface that contacts the solar cell panel. The solar cell according to claim 9, wherein the pressing member includes an elastic material and a core material embedded in the elastic material, and the core material is located between the surfaces of adjacent solar cell panels. Panel support device.

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