JPH08288533A - Anchor bolt for installing solar cell on roof - Google Patents

Abstract

PURPOSE: To provide anchor bolts for installing a solar cell on a roof, which absorb vibrations in the lengthwise and lateral directions and can prevent solar cell modules and the like from being broken. CONSTITUTION: Anchor bolts 3 for installing a solar cell on a roof are respectively constituted of each mounting plate part 11, which is fixed on a roof board 4 by driving nails, for example, in the board 4, and each support pillar part 12, which is vertically provided on this mounting plate part 11 and has a screw part 12a formed on its point part. In each support pillar part 12, screw parts 12b are formed on the base end part of the part 12 and at the same time, a vibration absorbing part 12c, which is formed by bending twistingly the part 12 as much as one rotation, is formed between the screw parts 12b formed on the base end part and the screw part 12a formed on the point part. Threaded hole parts 11a, into which the screw parts 12b formed on the base end part of each support pillar part 12 are screwed, are formed in each support pillar part 12.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an anchor bolt for installing a solar cell module or a base support frame on which the solar cell module is installed on a roof.

[0002]

2. Description of the Related Art FIG. 7 shows three solar cell modules 21.
It is the side view which showed the state which installed the base support stand 22 to which the ... was mounted on the field board 24 with the conventional anchor bolt 23 for roof installation. The conventional anchor bolts 23 for installation on the roof are fixed to the mounting plate portion 23a fixed by, for example, nailing the base plate 24, and are vertically fixed by being welded to the mounting plate portion 23a. And a column portion 23b formed with a screw portion. A hole (not shown) of the base support pedestal 22 is fitted into the threaded portion of the tip of the column 23b, and a nut is fastened to the threaded portion of the tip of the column 23b so as to sandwich the base pedestal 22 from above and below. As a result, the base support frame 22 of the solar cell module is fixed to the anchor bolt 23. The mounting plate portion 23a and the pillar portion 23b are both made of metal, and the pillar portion 23b is erected straight in a direction perpendicular to the mounting plate portion 23a.

[0003]

However, the above-mentioned conventional anchor bolts 23 for installation on the roof have the above-mentioned support 2
With respect to the shaking generated in a direction substantially orthogonal to the standing direction of 3b, although the pillar portion 23b is slightly bent to absorb the shaking, it is possible to absorb the shaking in the standing direction of the pillar portion 23b. The pillar portion 23b does not bend with respect to parallel shaking (for example, vertical pitching such as pushing up in an earthquake), so that the load increased due to the shaking causes the solar cell module 21, the base support base 22, or the connecting portion. However, they have a drawback that they are likely to be damaged.

In view of the above circumstances, the present invention provides an anchor bolt for installing a solar cell on a roof, which is capable of absorbing longitudinal and lateral vibrations and preventing damage to the solar cell module and the like. To aim.

[0005]

An anchor bolt for installing a solar cell on a roof according to the present invention comprises a mounting plate portion mounted on a roof plate of the roof, and a column portion standing on the mounting plate portion. In the anchor bolt for installation on the roof of the solar cell configured so that the solar cell module or the base support frame is attached to the tip portion of the pillar portion, a screw portion is formed at the base end portion of the pillar portion, and A vibration absorbing portion formed of a bent strut portion that is non-parallel to the upright direction of the strut portion is formed between the screw portion of the base end portion and the distal end portion, and the mounting plate portion has a base end portion of the strut portion. Is formed with a screw hole portion to which the screw portion of is connected.

The anchor bolt for installing a solar cell on a roof according to the present invention comprises a mounting plate portion to be mounted on a roof plate of the roof, and a column portion standing upright on the mounting plate portion. In the anchor bolt for installation on the roof of the solar cell configured such that the solar cell module or the base support frame is attached to the tip end, a screw portion is formed at the base end portion of the pillar portion, and the base end portion A vibration absorbing part made of an elastic member different from the constituent material of the support part is formed between the screw part and the tip part, and the screw part at the base end part of the support part is coupled to the mounting plate part. It is characterized in that a screw hole portion is formed.

Further, a threaded hole portion of the mounting plate portion may be formed so as to penetrate therethrough so that a threaded portion of the base end portion of the support column portion can project to a lower surface of the mounting plate portion.

[0008]

According to the above structure, since the vibration absorbing portion formed of the bending support portion or the vibration absorbing portion formed of the elastic member is formed, even when the support portion shakes in parallel to the standing direction,
The pillar portion easily bends and absorbs the load increased by the shaking, and the load is applied to the solar cell module, the base support frame,
Alternatively, it is possible to prevent the damage from being directly applied to the connecting portion and prevent them from being damaged.

In order to mount the anchor bolts for installation on the roof to the roof, first, mount the mounting plate of the anchor bolt on the roof plate of the roof, and make a hole of a size corresponding to the original rod-shaped portion of the column. Or the roof tile is placed above the mounting plate portion, or after the roof tile is placed, the hole is opened, and then the base end portion of the column portion is inserted from the hole to the screw hole of the mounting plate portion. The threaded portion formed on the base end is screwed. Therefore, even when the vibration absorbing portion is made larger than the original rod-shaped portion of the support column, it is sufficient that the roof tile has a hole having a size corresponding to the rod-shaped portion, and there is no problem in caulking to the hole. .

Further, when the screw hole portion of the mounting plate portion is formed so as to penetrate and the screw portion of the base end portion of the support column portion is projected to the lower surface of the mounting plate portion, the screw portion of the base end portion and the screw portion Since the connection with the base plate is obtained, the fixing strength of the mounting plate portion to the base plate can be increased.

[0011]

【Example】

(Embodiment 1) The present invention will be described below with reference to the drawings showing the embodiment.

FIG. 1 is a side view showing a state in which a base support frame 2 to which three solar cell modules 1 ... Are attached is installed on a field board 4 by anchor bolts 3 ... It is a figure.

Anchor bolt 3 for installation on the roof of this embodiment
Is a mounting plate portion 11 fixed to the base plate 4 by, for example, driving a nail, and is erected on the mounting plate portion 11,
The support 12 has a threaded portion 12a at its tip. And the said pillar part 12 is the screw part 1 in the base end part.
2b is formed, and a vibration absorbing portion 12c is formed between the screw portion 12b at the base end and the screw portion 12a at the tip end. Further, the mounting plate portion 11 is formed with a screw hole portion 11a into which a screw portion 12b of the base end portion of the support column portion 12 is screwed.

The vibration absorbing portion 12c is formed by twisting the strut portion 12 for one rotation, and a bending strut portion that is non-parallel to the upright direction of the strut portion 12 is formed by the screw bending for one rotation. It is formed.

According to the above structure, the support portion 12 has a vibration absorbing portion 12c which is a bent support portion which is non-parallel to the upright direction of the support portion 12 due to one turn of the support portion 12 being bent.
Since the pillars 12 are formed, the pillars 12 easily bend and absorb the load increased by the shaking even when the pillars 12 shake in parallel with the standing direction of the pillars 12. It is possible to prevent the damage from being directly applied to the support frame 2 or the connecting portion.

Further, since the vibration absorbing portion 12c is formed by bending the column portion 12, a separate member for forming the vibration absorbing portion 12c is unnecessary, and the cost of the anchor bolt 3 is reduced. it can.

In order to attach the above-mentioned anchor bolts 3 for installation on the roof to the roof, first, the attachment plate portion 11 of the anchor bolt 3 is attached to the roof plate 4, and the size corresponding to the original rod-shaped portion of the support portion 12 is attached. The roof tile with holes is placed above the mounting plate portion 11, or the roof tile is placed and then the hole is drilled. Then, the base end portion of the column 12 is inserted through the hole, and the screw portion 12b formed at the base end portion is screwed into the screw hole 11a of the mounting plate portion 11. Therefore, even when the vibration absorbing portion 12c is made larger than the original rod-shaped portion of the support column 12, it is sufficient that the roof tile has a hole having a size corresponding to the rod-shaped portion, which causes a problem in caulking the hole. There is no.

Next, the threaded portion 1 at the tip of the strut portion 12
2a is fitted with a hole (not shown) of the base support frame 2,
A nut is fastened to the screw portion 12a at the tip of the column portion 12a so as to sandwich the base support base 2 from above and below,
The base support base 2 of the solar cell module may be fixed to the anchor bolt 3.

(Embodiment 2) Another embodiment of the present invention will be described below with reference to FIG.

Anchor bolt 3 for installation on the roof of this embodiment
The vibration absorbing portion 12c is formed by twisting the column 12 in a corrugated shape, and by the corrugation of the corrugation, a bent column portion that is non-parallel to the standing direction of the column 12 is formed.

Also in this structure, the column 12 has
Since the vibration absorbing portion 12c is formed by a bent strut portion that is not parallel to the standing direction of the strut portion 12 due to the corrugation of the corrugated portion of the strut portion 12, the vibration absorbing portion 12c is formed even with respect to the shaking parallel to the standing direction of the strut portion 12. The pillar portion 12 easily bends and absorbs a load increased by shaking, and prevents the load from being directly applied to the solar cell module 1, the base support frame 2, or the connecting portion, and prevents damage to them. The cost of the anchor bolt 3 can be reduced. The attachment can be performed in the same manner as in the first embodiment.

(Embodiment 3) Another embodiment of the present invention will be described below.

In the above-mentioned embodiment, the vibration absorbing portion 12c of the roof-installing anchor bolt 3 is formed by deforming the support portion 12, whereas the vibration-absorbing portion of the roof-installing anchor bolt 3 of this embodiment is absorbed. The part 12c is formed of an elastic member (for example, rubber).

Also in this structure, the vibration absorbing portion 12c
Can absorb the load increased by the shaking, prevent the load from being directly applied to the solar cell module 1, the base support frame 2, or the connecting portion, and prevent damage to them. In addition, it is possible to have a higher vibration absorbing capacity than in the case where the support 12 is deformed to form the vibration absorbing portion 12c. In addition, the anchor bolt 3 of this configuration
Can be attached in the same manner as in the first embodiment.

(Embodiment 4) Another embodiment of the present invention will be described below with reference to FIGS.

In the above-mentioned embodiments, the vibration absorbing portion 12 is attached to the roof-installing anchor bolt 3 that supports the base support frame 2.
Whereas c is provided, in the present embodiment, the vibration absorbing portion 12c is provided on the column portion 12 of the anchor bolt 3 for installation on the roof that directly supports the solar cell module 1.

Anchor bolt 3 for installation on the roof shown in FIG.
Is a mounting plate portion 11 that is fixed to the base plate 4 by, for example, driving a nail, a column portion 12 that is erected on the mounting plate portion 11 and has a threaded portion 12a at the tip, and the column portion. Solar cell modules 1 fixed to 12 and adjacent to each other
1, a support plate 13 for supporting the frame portion, and a clamp plate 14 having a substantially U-shaped cross section for sandwiching the support plate 13 and the solar cell module 1 supported by the support plate 13.

The column portion 12 has a threaded portion 1 at the base end thereof.
2b is formed, and a vibration absorbing portion 12c is formed between the screw portion 12b at the base end and the screw portion 12a at the tip end. The vibration absorbing portion 12c is formed of an elastic member (for example, rubber) as in the third embodiment. Further, the mounting plate portion 11 is formed with a screw hole portion 11a into which the screw portion 12b of the base end portion of the column portion 12 is coupled.

FIG. 5 shows another example of the vibration absorbing portion 12c. As in the first embodiment, the supporting column 12 is formed by bending the screw for one rotation, and the supporting column is formed by bending the screw for one rotation. It is an example having a bent column portion that is not parallel to the erected direction of 12.

FIG. 6 is common in that it has a vibration absorbing portion 12c having the same structure as the anchor bolt 3 for installation on the roof shown in FIG. 5, but the support plate 13 supports the frame portion of one solar cell module 1. It is different in that it is configured to do.

As described above, even when the vibration absorbing portion 12c is provided on the support pillar portion 12 of the roof-installing anchor bolt 3 which directly supports the solar cell module 1, the vibration absorbing portion 12c is increased due to the shaking. Since such a load can be absorbed, it is possible to prevent the load from being directly applied to the solar cell module 1 or the like and prevent damage to them. The attachment can be performed in the same manner as in the first embodiment.

Although not shown in the above embodiment, the screw hole portion 11a of the mounting plate portion 11 is formed so as to penetrate therethrough, and the screw portion 12b at the base end of the column portion 12 is formed on the lower surface of the mounting plate portion 11. It may be allowed to project. In this case, the screw portion 12b of the base end portion is screwed into the base plate 4, so that the fixing strength of the mounting plate portion to the base plate can be increased. Of course, in this case, the screw portion 12b at the base end portion
It is desirable that the tip has a sharp tip like a wood screw.

[0033]

As described above, according to the present invention, even when the anchor bolt for roof installation is shaken in parallel with the standing direction of the pillar, the pillar is easily bent and increased by the shake. It is possible to absorb the load, prevent the load from being directly applied to the solar cell module, the base support frame, or the connecting portion, and prevent the damages.

[Brief description of drawings]

FIG. 1 is a side view showing a state in which a base support stand is installed on a field board with an anchor bolt for installation on a roof of the present invention.

FIG. 2 is a side view showing a state in which a base support frame is installed on a base plate by anchor bolts for installation on a roof according to another embodiment of the present invention.

FIG. 3 is a side view showing a state in which a base support frame is installed on a field board by anchor bolts for installation on a roof according to another embodiment of the present invention.

FIG. 4 is a side view showing a state in which a solar cell module is directly installed on a base plate with anchor bolts for installation on a roof according to another embodiment of the present invention.

5 is a perspective view showing a modified example of the anchor bolt for installation on the roof of FIG. 4. FIG.

FIG. 6 is a perspective view showing a modified example of the anchor bolt for installation on the roof of FIG.

FIG. 7 is a side view showing a state in which a base support stand is installed on a base plate by a conventional roof installation anchor bolt.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Solar cell module 2 Base support stand 3 Anchor bolts for roof installation 4 Field plate 11 Mounting plate part 12 Strut part 12c Vibration absorption part 13 Support plate 14 Clamp plate

Claims (3)

[Claims] 1. A mounting plate portion to be mounted on a roof roof plate, and a pillar portion standing upright on the mounting plate portion, so that a solar cell module or a base support frame can be mounted to a tip portion of the pillar portion. In the roof installation anchor bolt of the solar cell configured in, the thread portion is formed at the base end portion of the pillar portion, and between the thread portion of the base end portion and the tip end portion of the pillar portion. A vibration absorbing part is formed which is a bent strut that is non-parallel to the standing direction, and a screw hole is formed in the mounting plate to which a screw part at the base end of the strut is coupled. Anchor bolts for solar cell roof installation. 2. A mounting plate portion to be mounted on a roof roof plate, and a support portion standing upright on the mounting plate portion, so that the solar cell module or the base support frame can be mounted to the tip portion of the support portion. In the roof installation anchor bolt of the solar cell configured in, the thread portion is formed at the base end portion of the pillar portion, and between the thread portion of the base end portion and the tip end portion of the pillar portion. A vibration absorbing portion formed of an elastic member different from the constituent material is formed, and a screw hole portion to which a screw portion of the base end portion of the support column is coupled is formed in the mounting plate portion. Anchor bolts for installing batteries on the roof. 3. The screw hole portion of the mounting plate portion is formed so as to penetrate therethrough, and the screw portion of the base end portion of the support column portion is configured to be able to project to the lower surface of the mounting plate portion. An anchor bolt for installing a solar cell on a roof according to claim 1 or 2.