JP5251773B2 - Solar panel support device - Google Patents

Description

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

  Conventionally, as this type of solar cell panel support device, for example, configurations as shown in FIGS. 5 and 6 have been proposed. In this conventional configuration, a frame material 31 made of a plurality of steel materials is fixed in parallel to each other on an outer surface such as a rooftop of a building. A plurality of solar cell panels 32 are supported on the frame material 31 side by side in a state of being spaced apart. A locking groove 33 that opens upward is formed on the end face of each solar cell panel 32 over the entire length in the extending direction of the end face. Between the end faces of the adjacent solar cell panels 32, a pair of attachment fittings 34 having a substantially U-shaped cross section are fitted in the engaging groove portions 33. The solar battery panels 32 are fixed to the frame material 31 by fastening these mounting brackets 34 to the frame material 31 with bolts 35 and nuts 36.

  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 arranged on the roof of a building. The solar cell panel has a frame on the outer periphery, and is fixed on the support rail with screws in the frame. In this state, the solar cell panels are supported side by side on the support rail with a gap therebetween. In addition, a seam panel is provided in the gap between adjacent solar cell panels, and the seam panel is disposed so as to cover the seam with screws fixed to the support rail across the gap.

JP 11-324246 A

However, these conventional solar cell panel support devices have the following problems.
In the conventional configuration shown in FIGS. 5 and 6, since the long side portions of the adjacent solar cell panels 32 are fixed by the pair of mounting brackets 34, a large number of mounting brackets 34 are required as a whole. It takes time to fix and remove the battery panel 32. Moreover, since the position of the mounting bracket 34 is not specified, it takes time to position the mounting bracket 34. Therefore, not only when the solar cell panel 32 is assembled but also when the solar cell panel 32 is exchanged or maintained. Moreover, the thing of the special structure in which the latching groove part 33 was formed in the outer frame part was required as a solar cell panel.

  Furthermore, in the conventional configuration described in Patent Document 1, since the fixing portion of the frame body of each solar cell panel is fixed to the support rail by a plurality of screws, the number of parts increases, and the fixing and removing work is troublesome. It took. Therefore, even in the configuration of Patent Document 1, it takes time to replace and maintain the solar cell panel 32 as well as when the solar cell panel 32 is assembled. In addition, since the screw for fixing the joint panel crosses the gap between the solar battery panels, when the electric wire is accommodated in the gap, there is a problem that it becomes difficult to accommodate the electric wire due to the screw being in the way.

  The present invention has been made paying attention to such problems existing in the prior art. The purpose is to reduce the number of members required for fixing the solar cell panel, to facilitate installation, replacement, maintenance, etc. of the solar cell panel, and to the gap between the solar cell panels. It is providing the solar cell panel support apparatus which can accommodate suitably.

  In order to achieve the above object, the present invention provides a solar cell panel support device for supporting a plurality of solar cell panels side by side on an outer surface of a structure, and a support member fixed to the outer surface of the structure, A pressing member that is detachably mounted on the supporting member, and the supporting member includes a pair of receiving surfaces for receiving, in a mounted state, the back surfaces of the opposing edge portions of two adjacent solar cell panels. A pair of ridges facing the end faces of both solar cell panels, the one ridge is formed with a pressing portion for pressing the surface of one solar cell panel, and the other ridge is formed with the other While pressing the surface of the solar cell panel, the pressing member covering the opening between the two protrusions is fixed.

  Therefore, in the solar cell panel support device of the present invention, if a plurality of support members are arranged in parallel on the outer surface of the structure in advance, the space between the receiving surface of one of the support members and the pressing portion in the adjacent support member. A plurality of solar cell panels are arranged on the support member by inserting one end edge portion of the solar cell panel and supporting the other end edge portion of the solar cell panel on the support portion of the other support member. Can be arranged. Thereafter, by attaching a pressing member to one of the protrusions of each supporting member, the edge portion of the solar cell panel supported by the supporting portion of the supporting member can be pressed and fixed. For this reason, 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 the number of members necessary for fixing the solar cell panel is reduced. be able to. Therefore, the fixing work can be simplified. In addition, since the pressing member is detachably attached to the support member, the solar cell panel can be easily removed from the support member by removing the press member from the support member, so that the maintenance of the solar cell panel, etc. Can be easily performed.

The said structure WHEREIN: It is preferable to make the clearance gap between the said both protrusions into the accommodation space of wiring.
Moreover, in the said structure, it is preferable that the said pressing member is detachably fixed to the bending part of the upper end of a protrusion with a screw | thread.

  As described above, according to the present invention, it is possible to simplify the configuration necessary for fixing the solar cell panel, and it is possible to easily perform the fixing operation of the solar cell panel.

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 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 conventional solar cell panel support apparatus. FIG. 6 is a partially enlarged sectional view taken along line 6-6 in FIG.

Below, one 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 as the outer surface 11 of a building (structure). A plurality of solar cell panels 13 are placed and supported on the frame material 12 with support members 14 in a state of being spaced apart from each other in the vertical and horizontal directions.

  As shown in FIGS. 1 to 3, the support member 14 includes a long flat plate-like main body portion 14 a at the bottom, and the main body portion 14 a is provided with a plurality of bolts 16 and nuts 17 via a washer 15. It is fixed in a direction extending along the upper surface of. The upper surfaces of both width end portions of the main body portion 14a of the support member 14 form a pair of receiving surfaces 14d. Further, on the upper surface of the main body portion 14a, the first and second protrusions 14b and 14c extend in parallel over the entire length of the main body portion 14a in a state of being spaced apart in the width direction of the main body portion 14a. Is formed. Bending portions 14e and 14f are formed at the upper ends of the first and second protrusions 14b and 14c in the same direction. One bent portion 14f is positioned lower than the other bent portion 14e. The other bent portion 14e constitutes a pressing portion. A concave portion 18 for inserting a tool is formed in the bent portion 14f of the second protrusion 14c so as to correspond to the position of the bolt 16.

  As shown in FIGS. 2 and 3, a groove-like locking opening to the side is formed on one side upper portion of the support member 14 by the main body portion 14 a, the first protrusion 14 b and the bent portion 14 e. A portion 19 is formed. And in this latching | locking part 19, one edge part 13a of the edge parts 13a and 13b which two adjacent solar cell panels 13 oppose is inserted. On the other upper side of each support member 14, a support portion 20 is formed that is open upward by the main body portion 14 a and the second protrusion 14 c. The other end edge portion 13 b of the solar cell panel 13 is supported by the support portion 20.

  As shown in FIGS. 1 to 3, a long flat plate-like pressing member 21 extending in the same direction as the frame member 12 is provided on the upper surface of the second protrusion 14 c on the support portion 20 of the support member 14. 22 is detachably attached. And the surface of the other edge part 13b in the solar cell panel 13 is hold | suppressed by this pressing member 21. FIG.

  As shown in FIG.2 and FIG.3, while opening toward the surface side of the solar cell panel 13 between the said main-body part 14a, the 1st protrusion 14b, and the 2nd protrusion 14c, of the main-body part 14a A space 23 extending over the entire length in the length direction is formed. And the electric wire 24 connected to each solar cell panel 13 is accommodated in this space 23. FIG. In addition, the opening of the space 23 is closed by attaching the pressing member 21 on the second protrusion 14 c of the support member 14 in the accommodated state of the electric wire 24.

Next, a method for installing the solar cell panel 13 on the roof, which is the outer side surface 11 of the building, using the solar cell panel support device configured as described above will be described.
Now, when installing the solar cell panel 13, a plurality of frame members 12 are arranged and fixed in advance on the outer surface 11 of the building, and a support member 14 is placed on the frame members 12 via a washer 15. It is fixed by a plurality of bolts 16 and nuts 17. As shown in FIGS. 3 and 4, the solar cell panel 13 is supported between a pair of adjacent support members 14. That is, if the back surface of the edge portion 13 a of the solar cell panel 13 is placed on the receiving surface 14 d of both width ends of the support member 14, the edge portion 13 a of one solar cell panel 13 is inserted into the locking portion 19. Then, the surface is pressed by the bent portion 14e. Further, the edge portion 13 a of the other solar cell panel 13 is supported by the other support portion 20 of the support member 14. For this reason, a plurality of solar cell panels 13 can be arranged on the support member 14 in an orderly manner.

  Thereafter, as indicated by a chain line in FIG. 4, the electric wires 24 connected to the solar cell panels 13 are accommodated in the space 23 on the support member 14 and wired. In this state, when the pressing member 21 is arranged on the bent portion 14f on the second protrusion 14c of the support member 14 and fixed by the screw 22, the pressing member 21 causes the solar cell panel 13 to be fixed as shown in FIG. The surface of the other edge part 13b is pressed down. At the same time, the opening of the space 23 is closed by the pressing member 21 so that the electric wires 24 in the space 23 on the support member 14 are not exposed to the outside.

Therefore, this embodiment has the following effects.
(1) In the solar cell panel support device of this embodiment, the solar cell panel 13 can be installed by using the long support member 14 and the long pressing member 21. For this reason, 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 the number of members necessary for fixing the solar cell panel can be reduced. . Therefore, material costs can be reduced, and fixing work and maintenance work of the solar cell panel 13 can be facilitated.

  (2) In this embodiment, by removing the pressing member 21, the surface side of one end edge portion 13a of the solar cell panel 13 is released. Therefore, the end edge portion 13 a on the released side of the solar cell panel 13 is slightly raised, and the other end edge portion 13 b is pulled out from the locking portion 19. What is necessary is just to reverse this order at the time of attachment of the solar cell panel 13. FIG. As described above, the removal and attachment of the solar cell panel 13 is very easy, and the labor for maintenance and panel replacement can be reduced.

  (3) In the solar cell panel support device of this embodiment, a space 23 that opens toward the surface side of the solar cell panel 13 is formed between the locking portion 19 and the support portion 20 of the support member 14. Yes. For this reason, unlike patent document 1 mentioned above, the electric wire 24 connected to each solar cell panel 13 can be accommodated in the space 23 without a problem.

  (4) In the solar cell panel support device of this embodiment, since the pressing member 21 is installed on the upper surface of the bent portion 14f, the head of the screw 22 for fixing the pressing member 21 faces upward. Therefore, the screw 22 can be easily attached and detached.

  (5) In the solar cell panel support device of this embodiment, when performing a maintenance operation or the like of the electric wires in the space 23, the operation or the like can be easily performed by removing the pressing member 21.

  (6) In the solar cell panel support device of this embodiment, the pressing member 21 can prevent the electric wires 24 in the space 23 from being exposed to the outside, can improve the appearance, and can be protected by ultraviolet rays. Deterioration of the outer sheath of the electric wire can be suppressed.

(Example of change)
In addition, this embodiment can also be changed and embodied as follows.
-In the said embodiment, although it was the structure which installs the solar cell panel 13 on the roof of a building, a solar cell panel support apparatus can be installed in the outer wall surface of a building, and a solar cell panel can be supported sideways on the outer wall. To do so. In this case, it is preferable that the frame member 12 and the support member 14 are arranged so as to extend in the horizontal direction.

-The support member 14 is directly fixed to the outer surface 11 such as a building without providing the frame member 12 in the above embodiment.
-The solar cell panel support device embodying the present invention is installed on a place other than the outer side of the building, such as a park site or a slope of a bank.

(Other technical ideas)
The technical idea which is grasped from the embodiment but is not described in the claims is as follows.

  (A) The solar cell panel support device according to any one of claims 1 to 3, wherein the support member is installed on a plurality of parallel frames. If it does in this way, a solar cell panel support device can be supported appropriately on the outside face of a building.

  (B) The solar cell panel support device according to item (A), wherein the frame material is made of C-shaped steel, and the support member is made of a plate material. If comprised in this way, weight reduction will be attained.

  DESCRIPTION OF SYMBOLS 11 ... Outer surface of a structure, 12 ... Frame material, 13 ... Solar cell panel, 13a, 13b ... End edge part, 14 ... Support member, 14a ... Main-body part, 14b ... 1st protrusion, 14c ... 2nd protrusion, 14d ... receiving surface, 14e ... bent portion, 14f ... bent portion, 19 ... locking portion, 20 ... support portion, 21 ... pressing member, 22 ... screw, 23 ... space, 24 ... electric wire.

Claims (3)

In the solar cell panel support device for supporting a plurality of solar cell panels side by side on the outer surface of the structure,
A support member fixed to the outer surface of the structure, and a pressing member that is detachably mounted on the support member;
The support member includes a pair of receiving surfaces for receiving the back surfaces of the opposing edge portions of two adjacent solar cell panels in a mounted state, and a pair of protrusions respectively facing the end surfaces of both solar cell panels. The one protrusion is formed with a pressing portion for pressing the surface of one solar cell panel, and the other protrusion is pressed against the surface of the other solar cell panel, and between the two protrusions. A solar cell panel support device, wherein the pressing member covering the opening is fixed. The solar cell panel support device according to claim 1, wherein a gap between the two protrusions is used as an accommodation space for wiring. The solar cell panel support device according to claim 1 or 2, wherein the pressing member is detachably fixed to a bent portion at an upper end of the ridge with a screw.

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