JP5915986B2 - Support structure for solar panels - Google Patents

Description

  The present invention relates to a support structure that supports a solar panel, and more particularly, to a support structure for a solar panel that can support a solar panel firmly with respect to an installation surface with a simple configuration.

  In recent years, power generation by solar panels, which is said to be clean energy, has attracted attention, and in particular, it has been spreading to ordinary houses, and it has not been used until now, such as installing on factory roofs, building rooftops, and farmland. Solar panels are also being installed at the locations. For example, when installing on the roof of a house, a roof-integrated solar panel manufactured integrally with a roof member, or a frame using a vertical beam or a horizontal beam on a roof tile, There is an installation method called a roof type that installs solar panels.

Such an installation method is premised on installation mainly on an inclined roof. If a solar panel is installed horizontally on a roof with a substantially flat rooftop such as a rooftop of a building, There was a problem that the incident angle of light became shallow and the power generation amount was reduced.
Therefore, the light receiving surface of the solar panel is tilted and supported at a predetermined angle using a mount for tilting the solar panel.

  For example, in the solar power generation device described in Patent Document 1, the solar cell module is supported at a predetermined inclination angle by a fixing bracket fixed to concrete with an anchor bolt or the like. According to this solar power generation device, the solar cell module can be firmly fixed at a predetermined angle with respect to the installation surface.

Japanese Patent Laid-Open No. 2006-210613

However, the invention described in Patent Document 1 has the following problems.
(1) There is a problem that the construction period becomes long because it is necessary to perform foundation work such as anchor bolt burying work on the concrete which is the installation surface.
(2) In addition, rainwater invades from the hole formed on the installation surface and damages the installation surface, and the formation of the hole causes damage to the concrete surface, resulting in a short life of the installation surface. there were.

  The present invention has been made in view of such a problem, and provides a solar panel support structure that can reduce the number of assembly steps with a simple structure without requiring any special construction on the installation surface. With the goal.

In order to achieve the above object, a solar panel support structure of the present invention is a solar panel support structure that supports a solar panel at a predetermined inclination angle, and is a front end of the first solar panel. The second support that supports the first support member that supports the first solar panel, the rear end of the first solar panel, and the front end of the second solar panel located behind the first solar panel A member, a third support member that supports a rear end of the second solar panel, a front end of the first and second solar panels that are fastened and fixed to the first to third support members, and / or or a fixing member for fixing the rear end, panel space maintaining composed of a metallic plate-like member to maintain the spacing between the solar panel constant by Rukoto fitted between the plurality of solar panels arranged in parallel scan pacer and consists, the panel gap maintaining spacer , Formed by bending perpendicular to the convex ridge portion formed toward the other side opposite from the one side of the plate-like member, on either side of the formation position of the convex ridge portion of the one side the The flange is in contact with the corner portion of the front end of the adjacent solar panel when the protruding portion is fitted between the adjacent solar panels .

  In the solar panel support structure according to the present invention, the first support member includes a fitting portion into which a concrete block is fitted, and a first front end support that supports a front end of the first solar panel. The first front end support portion is provided with a first positioning portion for determining the installation position of the front end of the first solar panel.

In the solar panel support structure according to the present invention, the second support member includes a fitting portion into which a concrete block is fitted, and a first rear portion that supports the rear end of the first solar panel. An end support, and a second front end support that supports the front end of the second solar panel,
The second front end support section is provided with a second positioning section for determining the installation position of the front end of the second solar panel.

  Further, in the solar panel support structure according to the present invention, the third support member includes a fitting portion into which a concrete block is fitted, and a second rear portion that supports the rear end of the second solar panel. It is comprised from the end support part.

  The solar panel support structure according to the present invention includes a back surface side of the installation surface of the first front end support portion and the first rear end support portion and / or the second front end support portion and the second. A rib is formed on the back surface side of the installation surface of the rear end support portion.

  In the solar panel support structure of the present invention, the fitting portion of the first to third support members has a through hole, and is installed on the ground by a fastening member inserted through the through hole. The concrete block and the fitting portions of the first to third support members are fixed.

In the solar panel support structure of the present invention, the fitting portion of the first to third support members has a through hole, and is installed on the ground by a fastening member inserted through the through hole. A concrete block having a rail groove through which the fastening member is inserted is fixed to the fitting portion of the first to third support members .

  In the solar panel support structure of the present invention, the fixing member has a bottom portion, an upright portion, and a panel pressing portion arranged in a substantially Z shape, The front end and the rear end are pressed and fixed by the panel pressing portion.

In the solar panel support structure according to the present invention, when the fixing member is provided with a rain gutter along the front end of the solar panel installed on the first to third support members, According to an installation width, the length of the bottom side portion becomes longer in the length direction .

  In the solar panel support structure of the present invention, the fixing member has a configuration in which a bottom portion, an inclined portion, and a panel pressing portion are continuously arranged in a substantially Z shape, The front end and the rear end are pressed and fixed by the panel pressing portion.

  The solar panel support structure according to the present invention is characterized in that the fixing member has a through-hole through which a fastening member for fixing to each support portion is inserted in the bottom side portion.

  Moreover, the support structure of the solar panel of the present invention is characterized in that the fixing member has a hole that fits in each of the positioning portions in the inclined portion.

The support structure of solar panels of the present invention, prior SL is between the stationary member and the supporting portions, the length of the panel thickness corresponding spacer corresponding to the thickness of the solar panels to be installed It is characterized by having .

The support structure of solar panels of the present invention, the panel thickness corresponding spacer is characterized and Dearuko hollow cylindrical shape.

Furthermore, the solar panel support structure of the present invention is characterized in that the second support member supports a front end and a rear end of a plurality of second solar panels arranged in series .

According to the present invention, the solar panel can be firmly installed on the installation surface by the concrete block and the simple structure.
Moreover, since it can install without making a hole in an installation surface, the water leak by the damage of an installation surface, etc. can be prevented.
Moreover, since it is easy to remove not only the installation but also to return to the current state without taking time, it is possible to save the cost for both installation and removal.
Moreover, a solar panel can be reliably fixed to the 1st-3rd support member with the fixing member which has a shape corresponding to the structure of the solar panel to install.
Furthermore, the gap between adjacent solar panels arranged in parallel by a member having a simple structure can be set to a constant interval, and the vertical shift can be easily adjusted.

It is the perspective view which showed typically the solar panel supported by the support structure which concerns on this invention. It is the side view which showed typically the solar panel supported by the support structure which concerns on this invention. (A) is the side view which showed the structure of the 1st supporting member, (b) is the top view. (A) is the side view which showed the structure of the 2nd supporting member, (b) is the top view. (A) is the side view which showed the structure of the 3rd supporting member, (b) is the top view. (A) is the side view which showed the structure of the fixing member, (b) is the top view. Fig.7 (a) is the figure which showed the structure of the spacer used when a fixing member is fastened and fixed to the 1st-3rd support member, FIG.7 (b)-(c) is a 1st spacer. It is the figure which showed the state which attached to the 1st-3rd supporting member. (A) And (b) is the figure which showed the example which installs a 1st solar panel in a support structure. It is the figure which showed the example which installs the front-end part of a 2nd solar panel in a 2nd supporting member. It is the figure which showed the example which installs the rear-end part of a 2nd sunlight panel in a 3rd supporting member. FIG. 11A is a front view showing the configuration of the second spacer, and FIG. 11B is a bottom view showing the configuration of the second spacer. It is the figure which showed the state in which the spacer was installed in the solar panel arranged in parallel. It is the figure which showed the state which attaches a spacer between sunlight panels. It is the side view which showed typically the solar panel supported by the support structure which concerns on 2nd Embodiment. FIGS. 15A to 15C are views showing a method of fixing each support member to the concrete block. It is the side view which showed typically the solar panel supported by the support structure of the solar panel which concerns on 3rd Embodiment. FIG. 17 is a view showing a solar panel support structure according to the fourth embodiment. 18A is a side view showing the configuration of the fixing member, and FIG. 18B is a top view showing the configuration of the fixing member. FIG. 19 is a view showing a solar panel support structure according to the fifth embodiment. 20A is a side view showing the configuration of the fixing member, and FIG. 20B is a top view showing the configuration of the fixing member.

<First Embodiment>
Next, a support structure for a solar panel according to the first embodiment will be described with reference to the drawings.
FIG. 1 is a perspective view schematically showing a solar panel supported by the support structure according to the present invention, and FIG. 2 schematically shows the solar panel supported by the support structure according to the present invention. It is the side view shown in.

  As shown in the figure, the support structure 100 of the present invention supports two solar panels 1 at a predetermined inclination angle with respect to the ground to be installed. Install several on the roof of the building.

  The support structure 100 includes a first support member 10 that supports the front end of the first solar panel 1 (referring to the left solar panel in the drawing) and the rear end of the first solar panel 1. And a second support member 20 that supports the front end of the second solar panel 1 (refers to the right solar panel in the figure) and a third support that supports the rear end of the second solar panel 1. The supporting member 30 is configured.

  The outer frame portion of the solar panel 1 is placed on each support portion (described later) of the first to third support members 10, 20, and 30 and is clamped and fixed by being pressed from above by the fixing member 40. Is done.

  In addition, the concrete block 3 is fitted in each recess (described later) of the first to third support members 10, 20, 30. As a result, the support structure 100 itself can obtain a load and can be firmly installed on the ground by the load.

Next, the configuration of each support member will be described with reference to FIGS.
FIG. 3A is a side view showing the configuration of the first support member 10, and FIG. 3B is a top view showing the configuration of the first support member 10.
The first support member 10 supports the first solar panel 1 at its front end, and includes a front upright part 11, a bottom part 12, a back upright part 13, and a first solar panel. It is comprised from the front-end support part 14 which supports 1 front-end part.

  The front upright portion 11 and the back upright portion 13 extend so as to rise substantially at right angles from both ends of the bottom surface portion 12, and each of these portions forms a recess in a side view. The front end support portion 14 extends from the end portion of the back upright portion 13 so as to rise upward at a predetermined inclination angle.

  The concrete block 3 described above is fitted into a recessed space formed by the front upright portion 11, the bottom surface portion 12, and the back upright portion 13. The front end support portion 14 is provided with a positioning portion 15 for determining the installation position when the front end portion of the first solar panel 1 is placed in contact with each other, and a through hole 16 through which a fastening member described later is inserted. It has been. The positioning part 15 is erected so as to rise from the front end support part 14.

  A rib 17 for improving the strength of the front end support portion 14 is formed on the ground side (back side) of the back upright portion 13 from the front end support portion 14.

  Note that the height of the back upright portion 13 of the first support member and the inclination angle of the front end support portion 14 can be changed depending on the installation situation and the number of solar panels 1 to be installed.

FIG. 4A is a side view showing the configuration of the second support member 20, and FIG. 4B is a top view showing the configuration of the second support member 20.
The second support member 20 supports the rear end of the first solar panel 1 and the front end of the second solar panel 1.

  As shown in FIG. 4A, the second support member 20 supports the first solar panel 1 at its rear end and supports the second solar panel 1 at its front end. The rear end support portion 21 that supports the rear end of the first solar panel 1, the front upright portion 22, the bottom portion 23, the back upright portion 24, and the second solar panel 1 It is comprised from the front-end support part 25 which supports a front end.

  The front upright portion 22 and the back upright portion 24 are extended so as to rise from both ends of the bottom surface portion 23 at a substantially right angle, and each of these portions forms a recess in a side view.

  As shown in the figure, the front upright portion 22 and the back upright portion 24 have different heights, and the back upright portion 24 has a lower configuration than the front upright portion 22. The back upright portion 24 supports the front end of the second solar panel 1, and has a lower configuration than the front upright portion 22 in order to form a predetermined inclined surface.

  A rear end support portion 21 extends from the end portion of the front upright portion 22 so as to be lowered at a predetermined inclination angle. This is because the front end support portion 14 of the first support member 10 and the rear end support portion 21 of the second support member 20 form a predetermined inclined surface.

  Further, a front end support portion 25 is extended from the end portion of the back upright portion 24 so as to rise at a predetermined inclination angle. This is because the front end of the second solar panel 1 is supported by the front end support portion 25.

  The rear end support portion 21 is formed with a through hole 26 for inserting a fastening member. A rib 28 for improving the strength of the rear end support portion 21 is formed from the rear end support portion 21 to the ground side (back side) of the front upright portion 22.

  The concrete block 3 described above is fitted into a recessed space formed by the front upright portion 22, the bottom surface portion 23, and the back upright portion 24. The front end support portion 25 supports the front end of the second solar panel 1, and determines the installation position when the front end portion of the second solar panel 1 is placed in contact with the front end support portion 25. A positioning portion 27 and a through hole 26 through which the fastening member is inserted are provided. The positioning portion 27 is erected so as to rise from the front end support portion 25.

  Further, a rib 28 for improving the strength of the front end support portion 25 is formed from the front end support portion 25 to the ground side (back side) of the back upright portion 24.

  In addition, the height of the front upright portion 22 and the back upright portion 24 of the second support member and the inclination angles of the rear end support portion 21 and the front end support portion 25 are changed depending on the installation situation and the number of solar panels 1 to be installed. It is possible.

Next, the configuration of the third support member will be described.
FIG. 5A is a side view showing the configuration of the third support member, and FIG. 5B is a top view showing the configuration of the third support member.
As shown in the drawing, the third support member 30 supports the rear end of the second solar panel 1 and supports the rear end 31 of the second solar panel 1. And a front upright portion 32, a bottom surface portion 33, and a back upright portion 34. The front upright portion 32 and the back upright portion 34 are extended so as to rise from both ends of the bottom surface portion 33 at substantially right angles, and each of these portions forms a recess in a side view.

  The front upright portion 32 and the back upright portion 34 have different heights, and the back upright portion 34 has a lower height than the front upright portion 32 as shown in the figure. The rear end support portion 31 extends from the end portion of the front upright portion 32 so as to be lowered downward at a predetermined inclination angle. This is because the front end support portion 25 of the second support member 20 and the rear end support portion 31 of the third support member 30 form a predetermined inclined surface.

The concrete block 3 described above is fitted into a recessed space formed by the front upright portion 32, the bottom surface portion 33, and the back upright portion 34.
The rear end support portion 31 is provided with a through hole 35 for inserting a fastening member. Further, a rib 36 for improving the strength of the rear end support portion 31 is formed from the rear end support portion 31 to the ground side (back side) of the front upright portion 32.

  The inclination angle of the rear end support part 31 and the height of the front upright part 32 can be changed depending on the installation situation and the number of solar panels 1 to be installed.

  Further, as shown in FIG. 2, the height B from the installation surface of the front end support portion 25 of the second support member 20 is higher than the height A from the installation surface of the front end support portion 14 of the first support member 10. Is structured high. This is because the back upright portion 24 of the second support member 20 is configured to be higher than the back upright portion 13 of the first support member 10. When the height B from the installation surface of the front end support portion 25 is the same as or lower than the height A from the installation surface of the front end support portion 14, the shadow of the front upright portion 22 of the second support member 20 is 2 As a result, the amount of power generation is reduced because the solar panel 1 is passed. Therefore, the height B from the installation surface of the front end support portion 25 of the second support portion 20 is configured to be higher than the height A from the installation surface of the front end support portion 14 of the first support portion 10.

Next, the structure of the fixing member that clamps and fixes the frame portion of the solar panel 1 will be described.
6A is a side view showing the configuration of the fixing member, and FIG. 6B is a top view showing the configuration of the fixing member.
As shown in the figure, the fixing member 40 is a substantially Z-shaped plate-like member, and includes a panel pressing portion 41, an upright portion 42, and a bottom portion 43. The upright portion 42 is formed at a substantially right angle with respect to the bottom side portion 43, and the panel pressing portion 41 is also formed at a substantially right angle with respect to the upright portion 42.

Further, a through hole 44 is provided in the bottom side portion 43. The fixing member 40 is fixed to the first to third support members 10, 20, 30 by inserting and fastening a fastening member (for example, a bolt) into the through hole 44. Then, the front end or the rear end of the solar panel 1 is fitted and sandwiched in the opening of the fixing member 40 and is pressed and fixed.
In addition, also in the fixing member 40, in order to improve the whole intensity | strength, the rib 45 is formed over the substantially Z-shaped shape.

Next, the first spacer used when the fixing member is fastened and fixed to the first to third support members will be described.
Fig.7 (a) is the figure which showed the structure of the spacer used when a fixing member is fastened and fixed to the 1st-3rd support member, FIG.7 (b)-(c) is a 1st spacer. It is the figure which showed the state which attached to the 1st-3rd supporting member.
As shown to Fig.7 (a), the 1st spacer 53 is metal, Comprising: It is comprised by the hollow cylindrical shape. Since the diameter of the hollow inner cylinder of the first spacer 53 is slightly larger than the diameter of the bolt to be inserted, it can be smoothly inserted into the bolt. Moreover, it can respond to the thickness of the solar panel 1 installed in the 1st-3rd support members 10-30 by preparing several 1st spacer 53 from which length differs.

And the usage method of this 1st spacer is the front-end support parts 14 and 25 and the rear-end support part 21 of the 1st-3rd support members 10-30, as shown in FIG.7 (b)-(c). , 31 is inserted with a bolt 50 in advance, a washer 52 and a nut 51 are inserted into the bolt 50, and then a first spacer 53 corresponding to the thickness of the solar panel 1 to be installed is inserted. . Then, the fixing member 40 is inserted and fastened and fixed by the nut 52.
In the conventional support structure, a plurality of nuts are inserted through the bolts in order to adjust the height. However, since it takes time to insert the nuts through the bolts, there is a problem that the operation cost is increased. However, a desired height can be easily ensured by inserting the first spacer 53 having a length corresponding to the thickness of the solar panel 1 to be installed through the bolt. Moreover, since the diameter of the hollow inner cylinder is larger than the diameter of the bolt, the first spacer 53 can be smoothly inserted into the bolt, so that the working efficiency can be improved.

Next, the installation method of the solar panel 1 is demonstrated.
FIGS. 8A to 8B are diagrams showing an example in which the first solar panel 1 is installed on the support structure.
As shown in FIG. 8A, the front end portion of the first solar panel 1 is placed so as to contact the positioning portion 15 provided on the front end support portion 14 of the first support member 10. To do. A bolt 50, which is a fastening member, is inserted into the through hole 16 provided in the front end support portion 14 in advance from the ground side (back side), and the screw portion protrudes upward.

  The bolt 50 is a root bolt and can be fitted into the through-hole 16 so that it does not fall during operation. Moreover, since it is a root angle bolt, when it fits in the through-hole 16, the free rotation can be prevented. Then, the washer 52, the nut 51, and the first spacer 53 are inserted into the bolt 50.

  Next, the screw portion of the bolt 50 is inserted into the through hole 44 provided in the bottom side portion 43 of the fixing member 40 so that the panel pressing portion 41 of the fixing member 40 contacts the front end portion of the solar panel 1. Fasten at 52.

Similarly, a bolt 50 is inserted in advance into the through hole 26 of the rear end support portion 21 of the second holding member 20, and a washer 52, a nut 51, and a first spacer 53 are inserted into the bolt 50. And the base part 43 is made to contact the panel holding | suppressing part 41 of the fixing member 40 with the rear-end part of the 1st solar panel 1 mounted in the rear-end support part 21 of the 2nd holding member 20. FIG. A threaded portion of a bolt 50 installed in advance is inserted into the through-hole 44 provided in, and fastened with a nut.
Thereby, the first solar panel 1 can be supported and fixed to the first support member 10 and the second support member 20.

Next, an example in which the second solar panel 1 is installed on the second support member and the third support member will be described with reference to FIGS. 9 and 10.
FIG. 9 is a diagram showing an example in which the front end portion of the second solar panel is installed on the second support member, and FIG. 10 shows the rear end portion of the second solar panel as the third end. It is the figure which showed the example installed in a supporting member.

  First, as shown in FIG. 9, the front end portion of the second solar panel 1 is placed on the front end support portion 25 of the second support member 20. Then, a bolt 50 is inserted in advance into the through hole 26 of the front end support portion 25 of the second holding member 20, and a washer 52, a nut 51, and a first spacer 53 are inserted into the bolt 50. Next, the screw portion of the bolt 50 is inserted into the through-hole 44 provided in the bottom portion 43 of the fixing member 40 so that the panel pressing portion 41 of the fixing member 40 contacts the front end portion of the second solar panel 1. And is fastened with a nut 52.

Similarly, a bolt 50 is inserted in advance into the through hole 36 of the rear end support portion 31 of the third holding member 20, and a washer 52, a nut 51, and a first spacer 53 are inserted into the bolt 50. The panel pressing portion 41 of the fixing member 40 is brought into contact with the rear end portion of the second solar panel 1 placed on the rear end support portion 31 of the third holding member 30, The threaded portion of the bolt 50 installed in advance is inserted into the provided through hole 44 and fastened with a nut.
Thereby, the second solar panel 1 can be supported and fixed to the second support member 20 and the third support member 30.

Next, a description will be given of a member for adjusting a gap between adjacent solar panels when the solar panels supported and fixed by the support structure described above are arranged in parallel.
FIG. 11A is a front view showing the configuration of the second spacer, and FIG. 11B is a bottom view showing the configuration of the second spacer.
As shown in the figure, the second spacer 60 is a metal plate-like member, and includes a contact portion 61, a convex portion 62 provided substantially at the center of the contact portion 61, and both ends of the contact portion 61. It is comprised from the hole 63 provided and the flange 64 formed by bending at right angles from one side of the contact part 61. The convex portion 62 is provided so as to rise from the contact portion 61 at a predetermined height and to have a predetermined width. The hole 63 is for attaching a second spacer 60 to the solar panel 1 by inserting a screw or the like. The flange 64 is for adjusting so-called unevenness, which makes the backlash of adjacent solar panels 1 horizontal.

Next, the installation method of the 2nd spacer 60 is demonstrated.
FIG. 12 is a view showing a state in which the second spacer is installed on the solar panels arranged in parallel, and FIG. 13 is a view showing a state in which the second spacer is attached between the solar panels.
As shown in FIGS. 12 and 13, the second spacer 60 is installed in the gap between the corner portions of the adjacent solar panels 1 of the plurality of already installed solar panels 1. First, the convex part 62 of the second spacer 60 is fitted into the gap, and the solar panel 1 on both sides is moved to the convex part 62 side so that the gap becomes the width of the convex part 62 and the gap A is adjusted. Next, the solar panel 1 is adjusted by bringing the lower surface of the solar panel 1 into contact with the flange 64 so that the vertical shakiness of the solar panels 1 on both sides is substantially parallel to the flange 64. Then, screws or the like are inserted through the holes 63 and fixed to the side surface of the solar panel 1.

  In addition, although the figure has shown the example in which the 2nd spacer 60 is each arrange | positioned 1 each in only one clearance gap of the adjacent solar panel 1, it is not restricted to this, Adjacent solar panel Needless to say, one corner portion may be disposed in another corner portion of the solar panel 1 or in a gap between the corner portions of the solar panel 1.

In this manner, the width of the gap between the solar panels 1 can be made constant by fitting the convex portion 62 of the second spacer 60 into the gap A between the adjacent solar panels 1. Moreover, the shakiness of the vertical direction of the adjacent solar panel 1 can be adjusted by making the lower surface of the solar panel 1 contact | abut to the flange 64. FIG.
The second spacer 60 is not only a solar panel supported and fixed by the support member described above, but also, for example, by a solar panel installed along the slope of a roof of a house or factory, or other methods. It is also possible to attach to the installed solar panels.

<Second Embodiment>
Next, a solar panel support structure according to a second embodiment will be described.
FIG. 14 is a side view schematically showing a solar panel supported by the support structure according to the second embodiment.
In addition, the same code | symbol is attached | subjected about the structure which is common in the case of above-described 1st Embodiment, and the case of this embodiment, and description is abbreviate | omitted.
The support structure of the solar panel according to the second embodiment is for installing the solar panel on the ground such as farmland, not on a flat roof like a roof of a building or an apartment.
As shown in the drawing, a concrete block 3 for fixing the first to third support members 10 to 30 is installed on the ground leveled beforehand, and the first to third concrete blocks 3 are fixed to the concrete block 3. The support members 10 to 30 can be fixed. Then, the solar panels 1 and 2 are supported and fixed to the first to third support members 10 to 30 fixed to the concrete block 3.

Next, with reference to FIG. 15, a method for fixing each support member to the concrete block will be described.
FIGS. 15A to 15C are views showing a method of fixing each support member to the concrete block.
As shown in the drawing, the concrete block 3 has a rail groove 3a formed at substantially the center of the surface on which the first to third support members 10 to 30 are fixed. On the other hand, through holes 12a, 23a, 33a are formed in the bottom portions 12, 23, 33 of the first to third support members 10-30, respectively.
The head of the bolt 51 for fixing the concrete block 3 and the support members 10 to 30 is inserted into the rail groove 3a, and the shaft portion of the bolt 51 is projected from the surface on which the rail groove 3a is formed. Then, the shaft portion of the bolt 51 is inserted into the through holes 12 a, 23 a, 33 a formed in the bottom portions 12, 23, 33 of the support members 10 to 30, and fastened with the nuts 52, so -The 3rd supporting members 10-30 can be fixed.
And a solar panel can be laid on the leveled ground by supporting and fixing the solar panel 1 to the first to third support members 10 to 30 by the method described above.

  Although not shown, the through holes 12a, 23a, 33a are formed in the bottoms 12, 23, 33 of the first to third support members 10-30, so that, for example, a special mounting bracket is attached to the folded plate roof. The first to third support members 10 to 30 can be easily attached, and the solar panel 1 can be supported and fixed. In this case, the bolts that protrude in advance from the top of the folded plate roof are inserted into the through holes 12a, 23a, and 33a of the first to third support members 10 to 30, and fastened and fixed with nuts. The support members 10 to 30 can be attached to the folded plate roof, and the solar panel 1 can be supported and fixed by the first to third support members 10 to 30.

<Third Embodiment>
Next, with reference to FIG. 16, the support structure body of the solar panel which concerns on 3rd Embodiment is demonstrated.
FIG. 16 is a side view schematically showing the solar panel supported by the solar panel support structure according to the third embodiment.
As shown in the figure, unlike the case of installing the two solar panels supported and fixed by the first to third support members 10 to 30 as one unit on the installation surface as in the above-described embodiment, The support structure of the solar panel according to the third embodiment is to support and fix a plurality of solar panels continuously with the first to third support members 10 to 30.
In FIG. 15, four solar panels 1 are continuously supported and fixed by first to third support members 10 to 30, and the second and subsequent adjacent solar panels from the left in the figure. 1 is supported and fixed by a second support member 20. Thus, by supporting and fixing the second and subsequent solar panels 1 with the second support member 20, a plurality of solar panels can be installed on the installation surface continuously.
In FIG. 16, four solar panels are supported and fixed by the first to third support members 10 to 30, but four or more solar panels may be continuously supported and fixed. Is possible.
As described above, also in the third embodiment, the height B from the installation surface of the front end support portion 25 of the second support member 20 is from the installation surface of the front end support portion 14 of the first support member 10. It is higher than the height A. Thereby, it is possible to prevent the shadow of the front upright portion 24 of the second support member 20 from appearing on the second solar panel 1.
Further, the height A from the installation surface of the front end support portion 14 of the first support member 10 and the height B of the installation surface of the front end support portion 25 of the second support member 20 can be the same. Thereby, the solar panels 1 to be installed can be installed at the same height.
Furthermore, when the shadow of the front upright portion 22 of the second support member 20 is transferred to the second and subsequent solar panels 1, the second and subsequent solar panels 1 are supported and fixed. By changing the height of the front upright portion 22 of the support member 20 or the height of the back upright portion 24, it is possible to prevent the shadow from being reflected on the solar panel 1.

<Fourth Embodiment>
Next, with reference to FIGS. 17-18, the support structure body of the solar panel which concerns on 4th Embodiment is demonstrated.
FIG. 17: is the figure which showed the support structure body of the solar panel which concerns on 4th Embodiment, FIG.18 (a) is the side view which showed the structure of the fixing member, FIG.18 (b) It is the top view which showed the structure of the fixing member.
As shown in the drawing, the solar panel support structure according to the fourth embodiment is provided with the solar panel 1 provided with a substantially L-shaped rain gutter 1a in the width direction of the front end. Is. When the solar panel 1 is placed on the front end support portions 14 and 25 of the first support member 10 and the second support member 20, the gutter 1a is positioned on the front end support portions 14 and 25. 17 so as to abut. In such a case, since the distance from the positioning parts 15 and 17 to the frame part of the solar panel 1 is increased, for example, in the panel pressing part 41 of the fixing member 40 shown in FIG. It is difficult to hold down sufficiently.

Therefore, the frame portion of the solar panel 1 can be pressed by the fixing member 70 as shown in FIG.
As shown in the drawing, the fixing member 70 is a substantially Z-shaped plate-like member, and includes a panel pressing portion 71, an upright portion 72, and a bottom portion 73. The upright portion 72 is formed at a substantially right angle with respect to the bottom side portion 73, and the panel pressing portion 71 is also formed at a substantially right angle with respect to the upright portion 72. Further, a through hole 74 is provided in the bottom side portion 73. The fixing member 70 can be fixed to the first and second support members 10 and 20 by inserting a fastening member (for example, a bolt) into the through-hole 74 and fastening it. Then, the front end and the rear end of the solar panel 1 are fitted and sandwiched by the panel pressing portion 71 and pressed and fixed.
In addition, also in the fixing member 70, in order to improve the whole intensity | strength, the rib 75 is formed over the substantially Z-shaped shape.

  The bottom portion 73 of the fixing member 70 has a longer shape than the bottom portion 43 of the fixing member 40 shown in FIG. As described above, even when the distance from the positioning portions 15 and 17 to the frame body portion of the solar panel 1 is large, the fixing member 70 is provided at the front end in the through hole 74 provided in the bottom portion 73. The bolt 50 inserted through the support portions 14 and 25 can be inserted.

<Fifth Embodiment>
Next, with reference to FIGS. 19-20, the support structure body of the solar panel which concerns on 5th Embodiment is demonstrated.
FIG. 19 is a view showing a solar panel support structure according to the fifth embodiment, FIG. 20A is a side view showing the configuration of the fixing member, and FIG. It is the top view which showed the structure of the fixing member.
As shown in the drawing, the solar panel support structure according to the fifth embodiment is such that a thin solar panel 1 is supported by first to third support members 10 to 30.
Thus, the structure of the fixing member for supporting the thin solar panel 1 to the 1st-3rd support members 10-30 is shown below.

  As shown in FIG. 20, the fixing member 80 includes a bottom portion 81, an inclined portion 82, and a panel pressing portion 83 that are connected in a substantially Z shape. Since the inclined portion 82 connected to the end portion of the bottom portion 81 is inclined obliquely upward, the panel pressing portion 83 connected to the end portion of the inclined portion 82 is on the same line as the bottom portion 81. There is no higher position than the bottom 81. The bottom part 81 is provided with a long hole 84, and the inclined part 82 is provided with a rectangular hole 85. Further, two ribs 86 for improving the strength of the fixing member 80 are provided in the width direction of the fixing member 80.

Next, a method for installing the thin solar panel 1 on the support structure will be described.
The thin solar panel 1 is placed so as to contact the positioning portion 15 provided on the front end support portion 14 of the first support member 10. A washer 52 for adjusting the height is inserted into the bolt 50 inserted in advance through the through hole 16 of the front end support portion 14. One or a plurality of the washers 52 are inserted into the bolts 50 depending on the thickness of the thin solar panel 1.
Next, a bolt is inserted into the long hole 82 of the fixing member 80 so that the panel pressing portion 83 comes into contact with the frame body portion of the solar panel 1 and the rectangular hole 85 is fitted into the positioning portion 15. The position is adjusted by moving the fixing member 80 in the length direction of the long hole 82.
The thin solar panel 1 can be sandwiched and fixed to the front end support portion 14 of the first support member 10 by inserting the nut 51 through the bolt 50 and fastening and fixing the fixing member 80.

Further, when the rear end portion of the thin solar panel 1 placed on the rear end support portion 21 of the second support member 20 is sandwiched and fixed by the fixing member 80, the through hole provided in the rear end support portion 21 26 is inserted into the long hole 82 of the fixing member 80 so that the panel pressing portion 83 is in contact with the frame portion of the thin solar panel 1, and the inclined portion 82 is the frame portion. The position of the fixing member 80 is adjusted by moving the fixing member 80 in the length direction of the long hole 82 so as to come into contact with the corner portion of the long hole 82. The thin solar panel 1 can be clamped and fixed to the rear end support portion 21 of the second support member 20 by inserting the nut 51 into the bolt 50 and fastening and fixing the fixing member 80.
The method of fixing the thin solar panel 1 to the front end support portion 25 of the second support member 20 and the rear end support portion 31 of the third support member 30 is the same.

When the thin solar panel 1 is supported by the front end support portion 14 of the first support member 10, the positioning portion 15 is provided on the front end support portion 14. It is possible to prevent the fixing member 80 from rotating or being displaced by fitting into the shape hole 85.
However, although the positioning portion is not provided on the rear end support portion 21 of the second support member 20, the fixing member 80 is formed by the inclined portion 82 coming into contact with the corner portion of the frame portion of the thin solar panel 1. Can be prevented from rotating or being displaced.

DESCRIPTION OF SYMBOLS 1 Solar panel 3 Concrete block 10 1st support member 11, 22, 32 Front standing part 12, 23, 33 Bottom part 13, 24, 34 Back standing part 14, 25 Front end supporting part 16, 26, 35 Through-hole 15 , 27 Positioning portion 17, 28, 36 Rib 20 Second support member 21, 31 Rear end support portion 30 Third support member 40, 70, 80 Fixing member 41, 71, 83 Panel pressing portion 42, 72 Upright portion 43 , 73, 81 Bottom side portion 44, 74, 84 Through hole 50 Bolt 51 Nut 52 Washer 53 First spacer 60 Second spacer 61 Abutting portion 62 Protruding portion 63 Hole 64 Flange 82 Inclined portion 85 Rectangular hole 100 Support Structure

Claims (15)

A solar panel support structure for supporting a solar panel at a predetermined inclination angle,
A first support member for supporting the front end of the first solar panel;
A second support member that supports a rear end of the first solar panel and a front end of a second solar panel located behind the first solar panel;
A third support member for supporting a rear end of the second solar panel;
A fixing member fastened and fixed to the first to third support members and fixing the front end and / or rear end of the first and second solar panels;
A metal plate member made of panel gap maintaining a scan spacers to maintain the distance between the solar panel constant by Rukoto fitted between the plurality of solar panels arranged in parallel, consisting,
The spacers for maintaining a panel interval are formed on a convex ridge formed from one side of the plate-shaped member toward the opposite side, and on both sides of the formation position of the ridge on the one side. A flange formed by being bent perpendicularly to the flange, and when the protruding portion is fitted between the adjacent solar panels, the flange contacts the front corner of the adjacent solar panel. the support structure of a solar panel, wherein the contact. The first support member includes a fitting portion into which a concrete block is fitted, and a first front end support portion that supports a front end of the first solar panel,
2. The sunlight according to claim 1, wherein the first front end support portion is provided with a first positioning portion for determining an installation position of a front end of the first solar panel. Panel support structure. The second support member includes a fitting portion into which a concrete block is fitted, a first rear end support portion that supports a rear end of the first solar panel, and a front end of the second solar panel. And a second front end support part for supporting
3. The sun according to claim 1, wherein the second front end support portion is provided with a second positioning portion for determining an installation position of the front end of the second solar panel. 4. Optical panel support structure.   The third support member includes a fitting portion into which a concrete block is fitted and a second rear end support portion that supports a rear end of the second solar panel. The support structure of the solar panel in any one of Claims 1-3.   On the back surface side of the installation surface of the first front end support portion and the first rear end support portion and / or on the back surface side of the installation surface of the second front end support portion and the second rear end support portion, Ribs are formed, The support structure of the solar panel in any one of Claims 1-4 characterized by the above-mentioned. The fitting portion of the first to third support members has a through hole, and the concrete block installed on the ground by a fastening member inserted through the through hole and the first to third support members of the first to third support members. The fitting part is fixed, The support structure body of the solar panel of any one of Claims 2-4 characterized by the above-mentioned. The fitting portion of the first to third support members has a through hole, and a concrete block having a rail groove which is installed on the ground by a fastening member inserted through the through hole and through which the fastening member is inserted. The solar panel support structure according to any one of claims 2 to 4, wherein the fitting portions of the first to third support members are fixed .   The fixing member has a configuration in which a bottom portion, an upright portion, and a panel pressing portion are connected in a substantially Z shape, and the front end and the rear end of the solar panel are pressed and fixed by the panel pressing portion. A support structure for a solar panel according to any one of claims 1 to 6. When a rain gutter is provided at the front end of the solar panel installed on the first to third support members, the fixing member has a length in the length direction of the bottom portion according to the installation width of the gutter. The support structure for a solar panel according to claim 8, wherein the support structure is longer .   The fixing member has a configuration in which a bottom portion, an inclined portion, and a panel pressing portion are arranged in a substantially Z shape, and the front end and the rear end of the solar panel are pressed and fixed by the panel pressing portion. A support structure for a solar panel according to any one of claims 1 to 6.   The solar panel support structure according to claim 10, wherein the fixing member has a through-hole through which a fastening member for fixing to each support portion is inserted in the bottom side portion. 11. The solar panel support structure according to claim 2 , wherein the fixing member has a hole that fits in each positioning portion in the inclined portion. Between the front Symbol respective support portions and the fixing member, one of the preceding claims, characterized in that it has a length panel thickness corresponding spacer corresponding to the thickness of the solar panels to be installed The support structure of the solar panel of Claim 1. The panel thickness corresponding spacers, the support structure of a solar panel according to claim 13, wherein the Dearuko hollow cylindrical shape. The solar panel according to any one of claims 1 to 14, wherein the second support member supports a front end and a rear end of a plurality of second solar panels arranged in series. Support structure.

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