JP2012094607A - Solar cell panel installation frame - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lightweight solar cell panel installation frame which can reduce the burden in installation work and has excellent weather resistance, durability, and corrosion resistance.SOLUTION: A pair of foundation members 12a and 12b is horizontally fixed in parallel to each other on a plurality of bases 11. A plurality of pairs of pole members 13 are provided so as to extend vertically upward from the foundation member 12a. A plurality of pairs of inclined support members 14 are laid across the foundation member 12b and upper ends of the pole members 13. A plurality of pairs of auxiliary members 15 connect lower portions of the pole members 13 to intermediate portions of the inclined support members 14. A plurality of pairs of brace members 16, each pair made up of two pieces intersecting each other, are arranged between the pairs of pole members 13 and attached to the pole members 13 at respective ends. A horizontal member 17 couples upper portions of the pole members 13. Gusset plates 18a, 18b, 18c, and 18d fasten the members at the respective connections. The members are made of fiber-reinforced plastic (FRP).

Description

  The present invention relates to a solar cell panel installation stand.

  As a conventional solar cell panel installation frame, a frame body is formed by assembling steel L-shaped frame materials on a plurality of blocks, and a solar cell panel can be installed on the frame body. (See, for example, Patent Document 1).

JP 11-177114 A

  Since the conventional installation stand for solar cell panels as described in Patent Document 1 is formed by assembling steel members, there is a problem that it is easily rusted. Moreover, since each member was heavy, there also existed the subject that installation work required an effort.

  The present invention has been made paying attention to such a problem, and provides a solar panel mounting base that is lightweight and can reduce the burden of installation work, and is excellent in weather resistance, durability, and corrosion resistance. The purpose is to do.

  In order to achieve the above object, a solar cell panel installation stand according to the present invention is characterized by being composed of a plurality of members made of FRP.

  Since the solar cell panel installation stand according to the present invention is made of FRP (fiber reinforced plastic) members, it is resistant to wind and rain and temperature changes, has excellent weather resistance, durability and corrosion resistance, and has a long life. .

  Since the member made of FRP is very light compared with the steel member of the same shape, the burden of installation work can be reduced compared with the case where a steel member is used. When using steel members, the assembly work was performed on site in consideration of the weight during transportation. However, by using FRP members, they can be transported after being assembled in a factory in advance. , Field work can be shortened. Moreover, installation cost can be reduced by these.

The solar cell panel installation stand according to the present invention is preferably a pair of elongated FRP base members, a plurality of elongated FRP column members, inclined support members, auxiliary members, brace members, and FRP, respectively. Each of the base members are horizontally and parallel to each other, and each column member is provided in parallel to extend vertically upward on one base member, Each inclined support member is provided in parallel and spans the other base member and the upper end portion of each column member, and each auxiliary member is provided in parallel, and a lower portion of each column member and an intermediate portion of each inclined support member Each brace member intersects to form a pair, is provided between the pair of column members, and is attached to each column member at each end. Connect the top of the column members Gusset plates consist structure that secures the members to each other.
In this case, since the assembly strength is high, the solar cell panel can be reliably and firmly supported.

  The solar cell panel installation stand according to the present invention has a plurality of FRP bases, each base member is fixed on the base, and each member is preferably fluorine-coated. In this case, the plurality of bases can be more firmly fixed to the installation surface. Fluorine coating can further improve weather resistance, durability and corrosion resistance.

  ADVANTAGE OF THE INVENTION According to this invention, while being light-weighted and being able to reduce the burden of installation work, the solar cell panel installation stand excellent in weather resistance, durability, and corrosion resistance can be provided.

It is a rear view which shows the mount frame for solar cell panels of embodiment of this invention. FIG. 2 is an enlarged rear view of the solar cell panel installation stand shown in FIG. 1. It is a right view which shows the mount frame for solar cell panels shown in FIG. (A) front view showing first gusset plate of solar cell panel installation stand shown in FIG. 1, (b) right side view, (c) bottom view, (d) front view showing second gusset plate, (E) Right side view, (f) Bottom view, (g) Front view showing third gusset plate, (h) Right side view, (i) Front view showing fourth gusset plate, (j) Right side FIG.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 to 4 show a solar cell panel installation stand according to an embodiment of the present invention.
As shown in FIG. 1 to FIG. 4, the solar cell panel installation base 10 includes, for example, six bases 11 and a pair of base members 12 a and 12 b, and five column members provided corresponding to each other. 13, an inclined support member 14, an auxiliary member 15, a brace member 16, a horizontal member 17, and four types of gusset plates 18 a, 18 b, 18 c, and 18 d.

  As shown in FIGS. 1 to 3, each base 11 is made of FRP, and is formed by placing a square lid portion 11b on a substantially cubic base portion 11a. Each base 11 is fixed to the installation surface so that the upper surface is on the same horizontal plane. The bases 11 are, for example, arranged in such a way that three sets form one set, three sets of each set are arranged in a line with a predetermined interval, and the sets are arranged in parallel with each other with a gap.

  Each of the base members 12a and 12b is made of FRP and is formed by connecting two H-shaped members each having an H-shaped cross section in the length direction. Each base member 12a, 12b is arranged corresponding to each set of bases 11, and is installed horizontally and parallel to each other. As for each base member 12a, 12b, the both ends of each H type | mold material are arrange | positioned on the base 11, and the both sides | surfaces of each H type | mold material are turned up and down, and are fixed to each base 11 with a volt | bolt and a nut.

  Each column member 13 is made of FRP and is elongated and has a rectangular tube shape. Each column member 13 is provided in parallel to each other so as to extend vertically upward from one base member 12a. Each inclined support member 14 is made of FRP and is elongated and has a rectangular tube shape. Each inclined support member 14 is bridged over the other base member 12b and the upper end portion of the corresponding column member 13, and is provided in parallel to each other so that the solar cell panel 1 can be installed thereon. Each auxiliary member 15 is made of FRP and is elongated and has a rectangular tube shape. Each auxiliary member 15 is provided in parallel to each other so as to connect the lower part of the corresponding column member 13 and the intermediate part of the corresponding inclined support member 14.

  Two of each pair of column members 13, the inclined support members 14, and the auxiliary members 15 are arranged with an interval narrower than the width of the solar cell panel 1. When each solar cell panel 1 is installed on each of the pair of column members 13, the inclined support member 14 and the auxiliary member 15 on the inclined support member 14 for each pair, the adjacent solar cell panels 1 do not overlap each other. A predetermined interval is arranged between each pair.

  Each brace member 16 is made of FRP and has a thin and elongated rectangular plate shape. Each pair of brace members 16 intersects to form a pair, and is provided between the pair of column members 13 and attached to each column member 13 at each end. Each pair of brace members 16 connects the upper part of one column member 13 and the lower part of the other column member 13, and the lower part of one column member 13 and the upper part of the other column member 13. The horizontal member 17 is made of FRP and is formed by connecting three L-shaped members having an elongated shape and an L-shaped cross section in the length direction. The horizontal member 17 is provided above the brace members 16 so as to connect the column members 13.

  As shown in FIG. 4, each gusset plate 18a, 18b, 18c, 18d is made of FRP and consists of four types, and is formed by cutting a groove type material. As shown in FIGS. 1 to 3, the gusset plate 18a is connected to the other base member 12b and the inclined support member 14, and the gusset plate 18b is connected to the one base member 12a, the column member 13 and the auxiliary member 15. The connecting portion, the gusset plate 18c is a connecting portion between the auxiliary member 15 and the inclined support member 14, and the gusset plate 18d is a connecting portion between the column member 13 and the inclined support member 14, and is provided so as to fix each member. ing. Each of the gusset plates 18a, 18b, 18c, and 18d is configured to have two symmetrical sets as a pair, sandwiching the connecting portion between the members with the two, and fixing the members with bolts and nuts.

  The base 11, the base members 12a and 12b, the column member 13, the inclined support member 14, the auxiliary member 15, the brace member 16, the horizontal member 17 and the gusset plates 18a, 18b, 18c and 18d made of FRP are coated with fluorine. Yes. Note that the solar cell panel installation base 10 can appropriately change the number and size of each member according to the number of solar cell panels 1 to be installed and the installation location.

Next, the operation will be described.
Since the solar cell panel installation base 10 is formed by assembling FRP members, it is resistant to wind and rain and temperature changes, has excellent weather resistance, durability, and corrosion resistance, and has a long life. Further, weather resistance, durability and corrosion resistance are further enhanced by the fluorine coating.

  Since the FRP member is very light compared to a steel member of the same shape, the solar cell panel installation stand 10 reduces the burden of installation work compared to the case where a steel member is used. Can do. When using steel members, the assembly work was performed on site in consideration of the weight during transportation. However, by using FRP members, they can be transported after being assembled in a factory in advance. , Field work can be shortened. Moreover, installation cost can be reduced by these.

  Since the solar cell panel installation stand 10 has high assembly strength, the solar cell panel 1 can be supported securely and firmly. Moreover, the solar cell panel 1 can be installed spatially efficiently so that the adjacent solar cell panels 1 do not overlap each other. Since the grooved material is cut to form the gusset plates 18a, 18b, 18c, and 18d, the types of members to be molded can be reduced, and the manufacturing cost of the members can be reduced.

DESCRIPTION OF SYMBOLS 1 Solar cell panel 10 Base for solar cell panel installation 11 Base 12a, 12b Base member 13 Column member 14 Inclined support member 15 Auxiliary member 16 Brace member 17 Horizontal member 18a, 18b, 18c, 18d Gusset plate

Claims (3)

  A solar cell panel installation stand characterized by comprising a plurality of members made of FRP. A pair of elongated base members made of FRP;
A plurality of elongated pillar members each made of FRP, an inclined support member, an auxiliary member, and a brace member,
An elongated horizontal member made of FRP;
A gusset plate made of FRP,
Each foundation member is installed horizontally and parallel to each other,
Each column member is provided in parallel so as to extend vertically upward on one base member,
Each inclined support member is provided in parallel and spans the other base member and the upper end of each column member,
Each auxiliary member is provided in parallel and connected to a lower portion of each column member and an intermediate portion of each inclined support member,
Each brace member constitutes a pair by intersecting two, and is provided between the pair of column members and attached to each column member at each end,
The horizontal member connects the upper part of each column member,
The gusset plate is fixing each member,
A stand for installing solar panel. Having multiple bases made of FRP,
Each foundation member is fixed on the base,
That each component is fluorine coated,
The solar cell panel installation stand according to claim 2, characterized in that:

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