JP5933799B1 - Installation method of solar panel mounting column by rock bolt method - Google Patents

Abstract

[PROBLEMS] It is possible to install a pillar for installing a solar panel mount on a steep slope where it is impossible to enter a heavy hole drilling machine that opens a large hole, and at the construction side by reducing the risk of slope failure after installation. Providing a method for installing solar panel mounting posts using a rock bolt system that can ensure safety and can adjust the level between multiple solar panel mounting posts in a three-dimensional terrain regardless of the slope. . A first step of embedding and installing a lock bolt material 1 on a support installation surface, and a support plate 2 having a substantially U-shaped cross section provided on the bottom surface with a base plate 21 having an insertion hole for the lock bolt material 1 in the center, are inserted. A second step of inserting the lock bolt material 1 into the hole and adjusting the level by the double nuts 11, 12 to fix the column 2, and a step of installing the mesh formwork 3 on the column installation surface surrounding the outer periphery of the column 2 3 steps and a fourth step of placing and curing concrete in the mesh formwork 3. [Selection] Figure 6

Description

  The present invention provides a rock bolt for embedding a solar panel frame installation column in the ground when installing a large number of solar panels on a vast steep slope or three-dimensional terrain when installing a mega solar power generation facility. The present invention relates to a method of installing a column for installing a solar panel mount.

  Conventionally, when installing a mega solar power generation facility, first of all, a vertical hole for placing foundation concrete at equal intervals is opened in a vast area to be installed, and a pillar for installing a solar panel frame is installed in this vertical hole. By pouring and solidifying the concrete with the base of the base installed, the stand for installing the stand is fixed to the concrete foundation, and a solar panel stand is installed on each stand for installing the stand (for example, (See Patent Documents 1 and 2).

Japanese Patent Laid-Open No. 08-170790 JP 2007-19331 A

However, when there are a lot of boulders and rocks on a vast steep slope, it is impossible for a conventional heavy-duty concrete base to make a large hole diagonally so that a drilling heavy machine can enter the steep slope.
In addition, the conventional concrete foundation in a vast steep slope has a risk of slope collapse, and there is a problem in safety in terms of construction.
In addition, in the case of a three-dimensional terrain regardless of the sloping land, it is difficult to adjust the level between a large number of solar panel frame installation columns.

  The problem to be solved by the present invention is that it is possible to install a column for installing a solar panel mount even on a steeply inclined place where a heavy hole drilling machine that opens a large hole is impossible, and the risk of slope failure after installation is reduced. By reducing the number, it is possible to ensure safety in terms of construction, and for installation of solar panel mounts using a rock bolt system that allows level adjustment between multiple columns for installing solar panel mounts on three-dimensional terrain regardless of the slope. It is in providing the installation method of a support | pillar.

In order to solve the above-mentioned problem, the installation method of the solar panel gantry installation column by the rock bolt method according to claim 1,
A first step of embedding and installing a rock bolt material on the support installation surface;
Secondly, a support plate having a substantially U-shaped cross section provided on the bottom with a base plate having an insertion hole for the lock bolt material in the center is inserted, and a lock bolt material is inserted into the insertion hole and a level is adjusted with a double nut to fix the support column. Process,
A third step of installing a mesh formwork on the support installation surface in a state of surrounding the outer periphery of the support;
A fourth step of placing concrete in the concrete formwork and embedding and curing the mesh formwork with concrete protruding outward from the mesh formwork;
It was set as the characteristic characterized by comprising.

Moreover, the installation method of the solar panel frame installation support | pillar by the rock bolt system of Claim 2 is the installation method of the solar panel frame installation support column by the lock bolt system of Claim 1 ,
The first step includes
A first step of drilling a hole having a diameter larger than that of the rock bolt material with a hole drilling machine such as a leg drill on the column installation surface;
A second step of inserting a lock bolt material into the drilled hole;
A third step of injecting grout into the hole;
A fourth step of curing the grout;
It was set as the characteristic characterized by comprising.

Moreover, the installation method of the solar panel gantry installation support | pillar by the rock bolt system of Claim 3 is the installation method of the solar panel gantry installation support | pillar by the lock bolt system of Claim 1 or 2 ,
The base plate is made wider than the cross-sectional area of the substantially U-shaped cross section.

Moreover, the installation method of the solar panel frame installation support | pillar by the rock bolt system of Claim 4 is the installation method of the solar panel frame installation support column by the lock bolt system of any one of Claims 1-3 ,
A mesh line is disposed in the concrete formwork.

In the method of installing the solar panel mount installation column according to claim 1, a large hole is formed by using the lock bolt method in which the lock bolt material is embedded and installed on the column installation surface as a base as described above. Even on steep terrain where drilling heavy machinery cannot enter, using a light drilling machine such as a leg drill, it is possible to install a solar panel frame installation column, and after installation using the lock bolt method It is possible to reduce the risk of slope failure, and to secure the safety in terms of construction.
In addition, use a column with a substantially U-shaped cross section with a base plate having a lock bolt material insertion hole in the center on the bottom, and insert the lock bolt material into the insertion hole and adjust the level with a double nut to fix the column. As a result, the level adjustment between a plurality of columns for installing the solar panel mount on the three-dimensional landform can be easily performed by adjusting the position of the double nut with respect to the lock bolt regardless of the slope.
In addition, as described above, the mesh formwork is used as the concrete formwork, and the mesh formwork is embedded and cured with the concrete protruding outside from the mesh formwork, so that the work for removing the formwork can be omitted. The mesh formwork functions as mesh bars embedded in the concrete, and the strength of the concrete foundation can be increased.

Further, in the method for installing the solar panel mount installation column according to claim 2, as described above, a hole having a diameter larger than that of the lock bolt material is formed on the column installation surface with a light hole drill such as a leg drill. By drilling holes, it becomes possible to easily drill holes even on steep slopes where it is impossible for a drilling heavy machine to make a large hole.

Further, in the method for installing the solar panel gantry support column by the rock bolt method according to claim 3, as described above, the area of the base plate is made wider than the cross-sectional area of the substantially U-shaped column, so that the inside of the concrete foundation It becomes possible to increase the fixing strength of the support column.

Moreover, in the installation method of the solar panel mount installation support | pillar by the rock bolt system of Claim 4 , as above-mentioned, the intensity | strength of a concrete foundation can be raised by arrange | positioning a mesh reinforcement in a mesh formwork. It becomes like this.

It is a front view which shows the installation state of the solar panel by the installation method of the support | pillar for solar panel frame installation by the rock bolt system of Example 1. FIG. It is a side view which shows the installation state of the solar panel by the installation method of the support | pillar for solar panel frame installation by the rock bolt system of Example 1. FIG. It is a 1st process drawing which shows the installation method of the support | pillar for solar panel frame installation of Example 1. FIG. It is a 2nd process figure which shows the installation method of the support | pillar for solar panel frame installation of Example 1. FIG. It is a 3rd process figure which shows the installation method of the support | pillar for solar panel frame installation of Example 1. FIG. It is a 4th process figure which shows the installation method of the support | pillar for solar panel mount installation of Example 1. FIG. It is a 5th process figure showing the installation method of the solar panel frame installation prop of Example 1. FIG. FIG. 7 is a transverse sectional view taken along line S8-S8 in FIG. FIG. 7 is a perspective view of FIG. 6. It is a 1st process drawing which shows the installation method of the support | pillar for solar panel mount installation of Example 2. FIG. It is a 2nd process figure which shows the installation method of the support | pillar for solar panel mount installation of Example 2. FIG. It is a 3rd process figure which shows the installation method of the support | pillar for solar panel frame installation of Example 2. FIG.

  Embodiments of the present invention will be described below with reference to the drawings.

The installation method of the solar panel mount installation support | pillar by the rock bolt system of Example 1 is demonstrated based on FIGS.
The installation method of the solar panel gantry installation column by the lock bolt method of the first embodiment corresponds to the invention according to claims 2 to 6, and the lock bolt material 1, the solar panel gantry installation column 2, The mesh mold 3 is used as a main configuration.

More specifically, when the rock bolt material 1 is inserted into a natural ground, the stability of the entire slope is enhanced by the mutual relationship with the natural ground, and the slope is prevented from collapsing.
Double nuts 11 and 12 are screwed onto the upper end side of the lock bolt material 1.

The solar panel gantry installation column 2 serves to support the gantry 5 on which the solar panel 4 is installed, and has a substantially U-shaped cross section as shown in FIG.
A base plate 21 wider than the cross-sectional area of the support column 2 is fixed to the bottom surface of the support column 2. , 12 has an insertion hole for tightening and fixing the base plate 21 to the lock bolt material 1.

  As shown in FIGS. 6 and 8, the mesh mold 3 serves to harden the connecting portion between the lower end of the support column 2 and the lock bolt material 1 with concrete.

  Next, the installation method of the solar panel mount installation support | pillar by the rock bolt system of the said Example 1 is demonstrated using the installation work process drawing of FIGS.

First, as shown in FIG. 3, a hole 7 having a diameter larger than that of the lock bolt material 1 is drilled on the column installation surface 6 with a lightweight drilling machine such as a leg drill.
Next, as shown in FIG. 4, the rock bolt material 1 is inserted into the drilled hole 7, and the grout 8 is injected into the hole 7 and cured.
Next, as shown in FIG. 5, the lock bolt material 1 is inserted into the insertion hole formed in the center of the base plate 21 provided on the bottom surface of the support column 2, the level is adjusted with the double nuts 11 and 12, and the base plate 21 is tightened. By fixing, the connection between the lock bolt material 1 and the support column 2 is fixed.
Next, as shown in FIGS. 6, 8, and 9, the mesh formwork 3 is installed on the support column installation surface 6 while surrounding the outer periphery of the support column 2 in a state of surrounding the outer periphery of the support column 2.
Next, as shown in FIG. 7, the concrete 9 is placed and cured in the mesh formwork 3 to complete the installation of the solar panel gantry installation column 2.
In addition, it is desirable to arrange the mesh streak 10 in the mesh formwork 3.
Thereafter, a solar panel frame is installed on each frame installation column 2.

  Next, the effect of the first embodiment will be described.

  In the installation method of the solar panel frame installation column according to the lock bolt method of the first embodiment, as described above, a large hole is formed by using the lock bolt method in which the lock bolt material 1 is embedded and installed on the column installation surface 6 as a foundation. It is possible to install a solar panel frame support column 2 by drilling with a light hole drilling machine such as a leg drill even on steep slopes where it is impossible to enter a heavy hole drilling machine that can open a hole. This can reduce the risk of slope failure after installation, and can thereby secure the safety in terms of construction.

  Further, a column plate 2 having a base plate 21 having an insertion hole for the lock bolt material 1 in the center and having a substantially U-shaped cross section provided on the bottom surface is used. By fixing the support column 2, the level adjustment between the solar panel mount installation support columns 2 and 2 in the three-dimensional terrain regardless of the slope is possible by adjusting the double nuts 11 and 12 with respect to the lock bolt material 1. It becomes easy to adjust the position.

  In addition, the mesh form 3 is installed on the support installation surface 6 so as to surround the outer periphery of the support 2, and concrete 9 is placed in the mesh form 3 for curing so that the lower end of the support 2 is locked. A solid support foundation in which the connecting portion with the bolt material 1 is solidified with concrete 9 can be formed.

  In addition, since a hole 7 having a diameter larger than that of the lock bolt material 1 is drilled on the support installation surface 6 with a light drilling machine such as a leg drill, a drilling heavy machine that opens a large hole cannot be suddenly entered. It becomes possible to drill holes on slopes easily.

  Moreover, the fixing strength of the support | pillar 2 in a concrete foundation can be raised now by making the area of the baseplate 21 larger than the cross-sectional area of the cross-sectional substantially U-shaped support | pillar 2 in a concrete foundation.

  Further, by using the mesh formwork 3 as the concrete formwork, the mesh formwork 3 can be embedded in the concrete foundation, so that the work for removing the formwork can be omitted and the strength of the concrete foundation can be increased. Become.

  Moreover, the strength of the concrete foundation can be increased by arranging the mesh streaks 10 in the mesh formwork 3.

  Next, another embodiment will be described. In the description of the other embodiments, the same components as those of the first embodiment are not shown, or the same reference numerals are given and the description thereof is omitted, and only the differences are described.

  The apparatus of the second embodiment corresponds to the invention described in claim 1.

  This Example 2 shows the modification of Example 1, and omits the concrete foundation construction process by the mesh formwork 3 in the said Example 1, as shown to the process drawing of FIGS. 10-12. .

  In Example 2, even if the concrete foundation construction work is omitted, even when the column 2 is installed on a steep slope, the column 2 is not installed at a right angle (inclined shape) with the inclined surface as shown in FIGS. By installing vertically, it is possible to prevent a bending stress from acting between the rock bolt material 1 and the support column 2.

  Therefore, in the second embodiment, the same effect as in the first embodiment can be obtained, and the additional effect that the work period and the work cost can be shortened by reducing the work process and the material cost can be obtained.

  Although the present embodiment has been described above, the present invention is not limited to the above-described embodiment, and design changes and the like within a scope not departing from the gist of the present invention are included in the present invention.

  For example, in the first embodiment, the mesh mold 3 is used, but a normal concrete mold can be used.

  Moreover, although the leg drill was used in Example 1, other lightweight drilling machines can be used.

The rock bolt material 1 is preferably subjected to anticorrosion treatment such as galvanization.
Moreover, the specific shape of the rock bolt material 1 is arbitrary.

DESCRIPTION OF SYMBOLS 1 Rock bolt material 11 Nut 12 Nut 2 Prop for solar panel mount installation 21 Base plate 3 Mesh formwork (concrete formwork)
4 Solar panel 5 Mount 6 Strut installation surface 7 Hole 8 Grout 9 Concrete 10 Mesh

Claims (4)

A first step of embedding and installing a rock bolt material on the support installation surface;
Secondly, a support plate having a substantially U-shaped cross section provided on the bottom with a base plate having an insertion hole for the lock bolt material in the center is inserted, and a lock bolt material is inserted into the insertion hole and a level is adjusted with a double nut to fix the support column. Process,
A third step of installing a mesh formwork on the support installation surface in a state of surrounding the outer periphery of the support;
A fourth step of placing concrete in the mesh formwork and embedding and curing the mesh form with concrete protruding outward from the mesh formwork;
The installation method of the pillar for solar panel frame installation by the rock bolt system characterized by comprising. In the installation method of the solar panel mount installation support | pillar by the rock bolt system of Claim 1,
The first step includes
A first step of drilling a hole having a diameter larger than that of the rock bolt material with a hole drilling machine such as a leg drill on the column installation surface;
A second step of inserting a lock bolt material into the drilled hole;
A third step of injecting grout into the hole;
A fourth step of curing the grout;
The installation method of the pillar for solar panel frame installation by the rock bolt system characterized by comprising. In the installation method of the solar panel frame installation column by the rock bolt method according to claim 1 or 2,
The base plate is wider than the cross-sectional area of the column having a substantially U-shaped cross section . In the installation method of the solar panel frame installation column by the rock bolt system according to any one of claims 1 to 3,
A method for installing a solar panel pedestal support column by a rock bolt method, wherein mesh lines are arranged in the mesh formwork .

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