JP3184322U - Solar panel mount - Google Patents

Abstract

A solar panel gantry having a structure suitable for shortening the construction period is provided.
A solar cell panel gantry 1 includes a plurality of single pipes 10 (first single pipes), a single pipe 20 (second single pipes), and a plurality of spiral piles. Single pipe 10 constitutes an inclined surface to which a solar cell panel is attached. The single pipe 20 supports the single pipe 10. The spiral pile has a hollow shape, and spiral blades are formed around it. Spiral piles are embedded in the ground. The single pipe 20 is fixed to the spiral pile while being inserted into the spiral pile.
[Selection] Figure 1

Description

  The present invention relates to a solar cell panel mount.

In recent years, construction of a large-scale power generation facility called a mega solar with a large number of solar cell arrays is increasing. As a mount for a solar cell panel installed in such a facility, there is one described in Patent Document 1, for example. The solar cell panel mount described in the same document is made of reinforced concrete, and the solar cell panel is attached via a support material such as a steel pipe. This gantry is formed by pouring concrete into the formwork at the construction site.
JP 2007-35849 A

  As described above, in the construction of the conventional solar cell panel mount, it is necessary to place concrete in order to provide a mount having sufficient strength even after the solar cell panel is attached. However, this has been a factor in prolonging the construction period.

  This invention is made | formed in view of the said subject, and aims at providing the stand for solar cell panels of a structure suitable for shortening of a construction period.

  A solar cell panel gantry according to the present invention includes a plurality of first single pipe pipes that form an inclined surface to which a solar cell panel is attached, and a plurality of second single pipe pipes that support the first single pipe pipe. A plurality of hollow spiral piles embedded in the ground and having spiral blades formed around them, and each of the second single pipes is inserted into each of the spiral piles And is fixed to the spiral pile.

  In this solar cell panel mount, the second single pipe is inserted and fixed to a spiral pile embedded in the ground. For this reason, it is possible to install a gantry having sufficient strength without placing concrete during construction. Thereby, the process of placing concrete can be omitted and the construction period can be shortened.

  According to the present invention, a solar cell panel mount having a structure suitable for shortening the construction period is realized.

It is a perspective view which shows one Embodiment of the stand for solar cell panels by this invention. It is a perspective view which shows the structure of the ground vicinity in the stand for solar cell panels of FIG. It is a perspective view which shows the spiral pile in the mount frame for solar cell panels of FIG. FIG. 3 is a plan view corresponding to FIG. 2. It is a perspective view which shows the state in which the solar cell panel was attached to the stand for solar cell panels of FIG.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the description of the drawings, the same reference numerals are assigned to the same elements, and duplicate descriptions are omitted.

  FIG. 1 is a perspective view showing an embodiment of a solar cell panel mount according to the present invention. FIG. 2 is a perspective view showing the structure in the vicinity of the ground in the solar cell panel mount of FIG. The solar panel mount 1 includes a plurality of single pipes 10 (first single pipes), single pipes 20 (second single pipes), and spiral piles 30 each.

  The single pipe 10 has a single pipe 10a, a single pipe 10b, and a single pipe 10c, and constitutes an inclined surface to which a solar cell panel is attached. The angle of the inclined surface is, for example, 25 ° from the horizontal plane. The single pipe 10a and the single pipe 10b extend in the horizontal direction and are parallel to each other. The single pipe 10b is provided at a position higher than the single pipe 10a. The single pipe 10c is inclined and extends from the single pipe 10a to the single pipe 10b.

  A single pipe 20 is provided so as to support the single pipe 10. The single pipe 20 extends in the vertical direction. The diameters of the single pipe 10 and the single pipe 20 are, for example, 48.6 mm. The single pipe pipe 10a, the single pipe pipe 10b, the single pipe pipe 10c, and the single pipe pipe 20 are assembled together through a fixing member such as a clamp.

  FIG. 3 is a perspective view showing the spiral pile 30. A spiral blade 30 a is formed around the spiral pile 30. The width | variety (length of the part protruded from the outer peripheral surface of the spiral pile 30) of the blade | wing 30a is about 1.5 cm-2 cm, for example. The spiral pile 30 is preferably galvanized.

  Most of the spiral pile 30 is embedded in the ground as shown in FIG. The length of the spiral pile 30 is, for example, 160 cm. In this case, the length of the portion embedded in the ground is, for example, 155 cm. Moreover, the diameter of the spiral pile 30 is 76 mm, for example. The spiral pile 30 has a hollow shape, and a single pipe 20 is inserted therein. Thus, the single pipe 20 is fixed to the spiral pile 30 while being inserted into the spiral pile 30.

  Two holes 32 are formed in the upper portion (exposed to the ground) of the spiral pile 30 (however, only one hole 32 is shown in FIG. 2). These holes 32 form a pair and are formed at positions facing each other. Similarly, a pair of holes (not shown) are also formed in the single pipe 20. These holes are provided at positions corresponding to the holes 32 of the spiral pile 30.

  As shown in FIG. 4, pins 50 (not shown in FIG. 2) are inserted so as to pass through the pair of holes formed in the single pipe 20 and the pair of holes formed in the spiral pile 30. Yes. The length of the pin 50 is, for example, 130 mm. The single pipe 20 and the spiral pile 30 are fixed to each other by the pin 50.

  Further, four nuts 34 are welded to the upper portion of the spiral pile 30. As can be seen from FIG. 4, the four nuts 34 are arranged at equal intervals. The single pipe 20 is fixed to the spiral pile 30 by bolts 36 fitted to these nuts 34.

  Further, the solar cell panel mount 1 includes a mold 40. The mold 40 has a cylindrical shape and is provided so as to surround the spiral pile 30. The diameter of the mold 40 is, for example, 180 mm. Moreover, the height of the mold 40 is, for example, 70 mm. The mold 40 is filled with mortar (not shown).

  FIG. 5 is a perspective view showing a state in which the solar cell panel is attached to the solar cell panel mount 1. As shown in the figure, the solar cell panel 60 is attached to an inclined surface constituted by the single pipe 10. Thereby, the solar cell panel 60 is supported by the solar cell panel mount 1 in a state having a predetermined inclination angle.

  Next, the effect of the solar cell panel mount 1 will be described. In the solar cell panel mount 1, the single pipe 20 is fixed to the spiral pile 30 embedded in the ground. For this reason, it is possible to install a gantry having sufficient strength without placing concrete during construction. Thereby, the step of placing concrete can be omitted, the work period can be shortened, and the cost can be reduced. Moreover, when concrete is not laid, also when removing the solar cell panel mount 1 and restoring the original state, the construction period can be shortened and the cost can be reduced.

  Further, the spiral pile 30 can be buried in the ground using a hydraulic excavator equipped with a hydraulic auger. By doing so, compared with the case where it embeds by manual work, while being able to shorten a construction period significantly, it becomes easy to embed spiral pile 30 perpendicularly.

  The single pipe 20 and the spiral pile 30 are fixed to each other by pins 50 that pass through a pair of holes formed in each. Thereby, the simple pipe 20 and the spiral pile 30 can be reliably fixed with a simple configuration.

  The single pipe 20 is fixed to the spiral pile 30 with a bolt 36 fitted to the nut 34. Thereby, the single pipe 20 and the spiral pile 30 can be more reliably fixed with a simple configuration.

  A mold 40 is provided around the spiral pile 30 and the mold 40 is filled with mortar. Thereby, the intensity | strength of the mount 1 for solar cell panels can be raised with a simple structure. Moreover, since mortar is easy to remove compared with concrete, it contributes to shortening the work period when the solar cell panel mount 1 is removed to restore the original state.

  If the spiral pile 30 is galvanized, the spiral pile 30 can be prevented from rusting. This leads to a long life of the solar cell panel mount 1.

  When the width of the blade 30a of the spiral pile 30 is 1.5 cm or more, the stability of the spiral pile 30 in the ground is particularly high, which is suitable for increasing the strength of the solar cell panel mount 1.

1 Solar cell panel mount 10 Single pipe (first single pipe)
20 Single pipe (second single pipe)
30 Spiral pile 30a Blade 32 Hole 34 Nut 36 Bolt 40 Formwork 50 Pin 60 Solar panel

Claims (6)

A plurality of first single pipes constituting an inclined surface to which a solar cell panel is attached;
A plurality of second single pipes that support the first single pipe;
A plurality of hollow spiral piles embedded in the ground and having spiral blades formed around them,
Each said 2nd single pipe pipe is being fixed to the said spiral pile in the state inserted in the inside of each said spiral pile, The stand for solar cell panels characterized by the above-mentioned. In the solar cell panel mount according to claim 1,
A pair of holes are formed in each of the second single pipes and the spiral piles,
Each said 2nd single pipe pipe and each said spiral pile are the stand for solar cell panels mutually fixed by the pin which penetrates the said hole formed in each. In the solar cell panel mount according to claim 1 or 2,
Each spiral pile is provided with a nut,
Each said 2nd single pipe pipe is a stand for solar cell panels currently fixed to the said spiral pile by the volt | bolt fitted by the said nut of each said spiral pile. In the stand for solar cell panels in any one of Claims 1 thru | or 3,
A solar panel pedestal further comprising a cylindrical mold provided so as to surround each of the spiral piles. In the stand for solar cell panels according to claim 4,
A solar cell panel gantry filled with mortar in the mold. In the stand for solar cell panels in any one of Claims 1 thru | or 5,
Each spiral pile is a gantry for solar cell panel that is galvanized.

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