JP2012149403A - Support member of frame crosspiece member, and support structure of frame crosspiece member for solar energy utilization device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a new technology for installing a crosspiece member (frame crosspiece member) on a roof, in relation to a fixing structure of the crosspiece member constituting a frame for installing a solar energy utilization device on a roof and the like.SOLUTION: A support member 30 of a vertical crosspiece member 10 as a frame crosspiece member constituting a frame on which a device is installed has: support parts 30a, 30b facing the side face parts 10a, 10b of the frame crosspiece member, respectively; through-hole parts 31a, 31b provided in the support parts 30a, 30b, respectively, and for fixing a fastening mechanism 43 as a fixing member provided on the side of the frame crosspiece member; and cutout parts 32a, 32b provided in the support parts 30a, 30b, respectively, and leading to the through-hole parts 31a, 31b from the outsides of the support parts 30a, 30b, respectively.

Description

  The present invention relates to a solar energy utilization device such as a solar battery panel installed on a roof of a building, and more specifically, a beam member constituting a pedestal for installing these solar energy utilization devices on a roof or the like. It is about the technology to support.

  Conventionally, in a solar energy utilization device such as a solar cell panel installed on the roof of a building, a support member is installed on the roof, and the beam member is supported by the support member, and the solar cell panel on the beam member The structure which arrange | positions etc. side by side is known, and the literature which discloses related technology also exists (for example, refer patent document 1).

  The technology disclosed in Patent Document 1 is configured to install a support member at a plurality of locations in the inclination direction of the roof and to support a long beam member with the plurality of support members. A groove part (first holding part) is formed in the crosspiece member, and a hexagon nut (first fastening member) is inserted into the groove part in a non-rotatable and slidable manner. In addition, a support hole for inserting a long bolt is formed in the support piece of the support member, the hexagon nut is aligned with the position of the support hole, and a long bolt (first fastening member) is formed from the outside of the support member. Is inserted into the support hole and screwed into the hexagon nut so that the crosspiece member is fixed to the support member. Further, the hex nut is provided with an operation portion, and by having this operation portion, the hex nut in the groove portion can be slid.

JP 2010-261257 A

  However, when construction is performed using the configuration disclosed in Patent Document 1, it is necessary to move the hexagon nut within the groove portion of the long crosspiece member, which requires a lot of construction time. In addition, it is necessary to prepare a dedicated hex nut having an operation section, which causes labor and cost for manufacturing compared to the case of using a versatile hex nut.

  Also, in high places such as on the roof, fine manual work such as inserting small hex nuts into the grooves using fingers, fine manual work such as sliding hex nuts, and spring washers, flat washers, etc. on the bolts When performing fine manual work such as assembling and inserting bolts into hexagon nuts inserted in grooves, it is necessary to be more careful, such as paying attention not to drop parts, which imposes a heavy burden on the operator At the same time, it takes a lot of work time.

  Therefore, in view of the above problems, the present invention relates to a fixing structure of a beam member constituting a frame for installing a solar energy utilization device on a roof or the like, and for installing a beam member (frame member for frame) on the roof. A new technology is proposed.

  The problem to be solved by the present invention is as described above. Next, means for solving the problem will be described.

That is, as described in claim 1,
A support member for a frame member for a frame that constitutes a frame for installing the device,
A support portion facing the side surface portion of the pedestal beam member;
A through hole provided in the support,
A through-hole portion for fastening a fixing member provided on the pedestal beam member side;
A notch provided in the support,
A notch that communicates from the outside of the support into the through hole,
A support member having

Moreover, as described in claim 2,
The support portion of the support member is composed of two plate-like members that are erected at intervals,
The frame member for the gantry can be inserted between the support portions.
It is to be configured.

Moreover, as described in claim 3,
A support structure for a frame member for a stand of a solar energy utilization device,
The pedestal beam member is constituted by a member of a long member,
A groove portion that is continuous in the longitudinal direction is formed on the side surface of the pedestal beam member,
The groove portion is provided with a fixing member for fastening to a support member that supports the pedestal beam member,
The support member is
A support portion facing the side surface portion of the pedestal beam member;
A through hole provided in the support,
A through-hole portion for fastening a fixing member provided on the pedestal beam member side;
A notch provided in the support,
A notch that communicates from the outside of the support into the through hole,
Have
The fixing member is
By passing through the notch, it is inserted into the through hole.
A support structure for a frame member for a gantry of a solar energy utilization device.

Moreover, as described in claim 4,
A method for installing a frame member for a stand of a solar energy utilization device,
The pedestal beam member is constituted by a member of a long member,
A groove portion that is continuous in the longitudinal direction is formed on the side surface of the pedestal beam member,
The groove portion is provided with a fixing member for fastening to a support member that supports the pedestal beam member,
The support member is
A support portion facing the side surface portion of the pedestal beam member;
A through hole provided in the support,
A through-hole portion for fastening a fixing member provided on the pedestal beam member side;
A notch provided in the support,
A notch that communicates from the outside of the support into the through hole,
Have
Temporarily fixing the fixing member to the pedestal beam member;
Loosening the temporarily fixed fixing member;
Inserting the loosened fixing member into the through hole through the notch, and
A step of fixing the pedestal beam member to the support member by the fixing member inserted into the through-hole portion;
The installation method of the crosspiece member for mounts of the solar energy utilization apparatus which has this.

  As effects of the present invention, the following effects can be obtained.

That is, in the invention according to claim 1,
The fixing member can be inserted into the through-hole portion through the notch, and the fixing work can be completed using the fixing member. The fixing member is previously disassembled by temporary fixing or the like on the pedestal beam member side. Etc. are no longer necessary. And even when working on high places such as on the roof, workers can work without paying attention to falling parts, lightening the work load, and completing the work in a short time. can do.

In the invention according to claim 2,
It becomes possible to make the said notch part oppose with respect to the groove part formed in the crosspiece member side, and it becomes possible to slide the fixing member provided in a groove part and to insert in a through-hole part.

In the invention according to claim 3,
The fixing member can be inserted into the through-hole portion through the notch, and the fixing work can be completed using the fixing member. The fixing member is previously disassembled by temporary fixing or the like on the pedestal beam member side. Etc. are no longer necessary. And even when working on high places such as on the roof, workers can work without paying attention to falling parts, lightening the work load, and completing the work in a short time. can do.

In the invention according to claim 4,
The fixing member can be inserted into the through-hole portion through the notch, and the fixing work can be completed using the fixing member. The fixing member is previously disassembled by temporary fixing or the like on the pedestal beam member side. Etc. are no longer necessary. And even when working on high places such as on the roof, workers can work without paying attention to falling parts, lightening the work load, and completing the work in a short time. can do.

The figure which shows the whole outline | summary of one Embodiment of this invention. The figure shown about the state of the support member after installation, a vertical beam member, and a horizontal beam member. (A) is a figure shown about the accommodation of the solar cell panel in the eaves side. (B) is a figure shown about the accommodation of the solar cell panel in the ridge side. (A) is a perspective view shown about the structure of a supporting member and a vertical beam member. (B) is a perspective view shown about the state which fixed the vertical beam member to the supporting member. Sectional drawing shown about the state which fixed the vertical beam member to the supporting member. (A) is a figure shown about the example which forms a notch part from the opposite side about a supporting member. (B) is a figure shown about the structure which provides two through-hole parts and a notch part about a support member. (C) is a figure shown about the structure which provides a step-shaped notch part about a supporting member. (D) is a figure which shows about the structure which provides the notch part which leads to the up-and-down middle part of a through-hole part about a supporting member. (E) is a figure shown about the structure which provides the hole part branched about a supporting member. (A) is a figure shown about the other Example of a supporting member. (B) is a figure shown about the Example which provided the two fixing leg parts about the supporting member. (C) is a figure shown about the Example which provided one fixing leg part about the support member. The figure explaining construction of a vertical beam member.

FIG. 1 shows an overall outline of an embodiment of the present invention.
As shown in FIG. 1, the present invention is applied to a solar energy utilization device 2 installed on a roof 1. As an embodiment, a plurality of solar cell panels 3, 3. It is supposed to be arranged.
Further, the gantry 4 is composed of a vertical beam member 10 arranged with the depth direction toward the roof 1 as a longitudinal direction, and a horizontal beam member 20 arranged with the horizontal direction as a longitudinal direction toward the roof 1. 4, solar cell panels 3, 3... Are mounted and fixed.
In addition, as a solar energy utilization apparatus installed on a roof, various apparatuses (for example, a solar water heater etc.) which utilize sunlight and solar heat other than a solar cell panel are assumed.

  As shown in FIG. 1, a plurality of vertical beam members 10, 10 are arranged at intervals, and a plurality of horizontal beam members 20, 20 are also arranged at intervals. And each vertical beam member 10 and the horizontal beam member 20 are arrange | positioned so that it may mutually orthogonally cross, and the cross-beam-like mount frame 4 is comprised. Further, support members 30 and 30 are installed at a plurality of locations of the roof material of the roof 1, and the vertical beam member 10 is fixed to the support members 30 and 30, and the horizontal beam member 20 is mounted on the vertical beam member 10. Is supposed to be fixed.

  Moreover, FIG. 2 shows the state of the support member 30, the vertical beam member 10, and the horizontal beam member 20 after installation. A support member 30 is fixed on the roofing material 1A by a fastening member such as a bolt. Further, the vertical beam member 10 is fixed to the support member 30 by a fastening member such as a bolt. The horizontal beam member 20 is placed on the upper surface of the vertical beam member 10, and the horizontal beam member 20 is fixed to the vertical beam member 10 by fixing members 71 and 72. Further, the lower side of the end portions of the solar cell panels 3 and 3 are placed on the horizontal beam member 20. A cap member 80 is attached to the upper portion of the crosspiece member 20, and the upper end portion of the left solar cell panel 3 in the drawing is pressed by the cap member 80. Further, the upper end portion of the right solar cell panel 3 in the drawing is pressed by a pressing piece portion 81 provided on the crosspiece member 20. As described above, the solar cell panels 3 and 3 are fixed to the crosspiece member 20.

  Further, as shown in FIG. 2, the horizontal rail member 20 is formed with a groove portion 25 into which an end portion of the solar cell panel 3 can be inserted, and a substantially U-shaped groove portion 25 that is open to the side. It has become. Thereby, when installing the solar cell panel 3, while inserting the edge part of the solar cell panel 3 in the groove part 25 in the state which inclined the solar cell panel 3, and temporarily setting in the horizontal surface part 20e, a solar cell panel It is possible to install the solar cell panel 3 by defeating 3. In this embodiment, the groove portion 25 is formed between the pressing piece portion 81 and the lateral surface portion 20e.

  In addition to the embodiment shown in FIGS. 1 and 2, the horizontal beam member 20 may be fixed to the support members 30 and 30, and the vertical beam member 10 may be fixed on the horizontal beam member 20. In the description of the embodiments, the terms “vertical” and “horizontal” are used for convenience in understanding the positional relationship, and do not limit the scope of the invention. In addition, the roof 1 is assumed to be a sloped roof having a slope, a roof having any form, such as a flat roof having no slope and a roof having an arc shape. In addition to being fixed on the roofing material 1A, the support member 30 is also assumed to be fixed to other parts such as other metal fittings, mounts, and concrete surfaces.

  FIG. 2 shows the part of the cross beam member 20 in the middle part of the vertical beam member 10 in the longitudinal direction. However, as shown in FIG. 2) By using the horizontal beam member 91 having the same configuration as that of the horizontal beam member 20 shown in FIG. 2, the solar cell panel 3 can be fixed on the eaves side. The crosspiece member 91 is configured to have an inclined surface 91a to facilitate draining. Similarly, as shown in FIG. 3 (b), on the ridge side (in the case of an inclined roof), the same material as the crosspiece member 20 shown in FIG. 2 is used, and the decorative material 92 is used in combination. Thereby, fixation of the solar cell panel 3 in the ridge side is realizable. Thus, in each part in the longitudinal direction of the vertical beam member 10, an embodiment of a horizontal beam member suitable for each part can be obtained.

Next, the structure regarding a support member is demonstrated.
4A is a perspective view showing the configuration of the support member 30 and the vertical beam member 10, FIG. 4B is a perspective view showing the state where the vertical beam member 10 is fixed to the support member 30, and FIG. It is sectional drawing shown about the state which fixed the vertical beam member 10 to.
As shown in FIGS. 4 (a), 4 (b), and 5, the vertical beam member 10 is a hollow member made of an extrusion molded product, and has a substantially portal shape having side surface portions 10a and 10b and an upper surface portion 10c in a cross-sectional view. It is comprised as a member of.

  Further, as shown in FIGS. 4A, 4B, and 5, the side surface portion 10a is formed with a concave groove portion 11a that opens toward the outer lateral direction. The groove 11 a is formed continuously in the longitudinal direction of the support member 30 and is opened at the end of the support member 30 in the longitudinal direction. And through this open part, the bolt head 40a (FIG. 5) of the bolt 40 as the first fastening member can be inserted into the groove 11a, and the bolt head 40a (FIG. 5) is inserted into the groove 11a. In the state, the bolt shaft portion 40b protrudes outward from the open portion of the groove portion 11a.

  Moreover, as shown in FIG. 5, the groove part 11a is comprised so that it can contact | abut on two surfaces of the hexagonal bolt head 40a in the top | upper surface part 11c and the bottom face part 11d, and, thereby, rotation of the volt | bolt 40 is carried out. Being regulated.

  As shown in FIG. 5, the cross section of the vertical beam member 10 is bilaterally symmetric, and the other side surface portion 10b is similarly formed with a groove portion 11b. The groove portion 11b includes another bolt 40. The bolt head 40a is to be inserted.

  Further, as shown in FIGS. 4A, 4B, and 5, the support member 30 is a member made of sheet metal processed sheet metal or the like, and supports 30a and 30b that are erected at intervals. The bottom portions 30c on which the support portions 30a and 30b are raised at both ends are formed to form a substantially U-shaped cross section with the upper side open. Moreover, the bottom face part 30c is to be fixed to a roof material side (not shown).

  Further, as shown in FIGS. 4A and 5, the interval between the support portions 30a and 30b of the support member 30 is secured so that the vertical beam member 10 can be inserted from above, and the vertical beam member 10 is supported by the support portion 30a. -In the state inserted between 30b, the side part 10a * 10b of the vertical beam member 10 is arrange | positioned so that it may each oppose to the support parts 30a * 30b of the support member 30. FIG.

  Further, as shown in FIGS. 4A and 5, the support portions 30a and 30b of the support member 30 are respectively formed with through-hole portions 31a and 31b penetrating in the plate thickness direction of the support portions 30a and 30b. Yes. Further, the support portions 30a and 30b of the support member 30 are respectively formed with cutout portions 32a and 32b that communicate from the outside of the support portions 30a and 30b into the through-hole portions 31a and 31b. In the illustrated example, the notches 32a and 32b are formed in the longitudinal direction of the vertical beam member 10 and are formed to face the groove 11a.

  Then, as shown in FIGS. 4A and 4B and FIG. 5, the bolt shaft portions 40b and 40b are inserted into the through-hole portions 31a and 31b from the longitudinal direction of the vertical beam member 10 through the notches 32a and 32b. can do. In other words, by sliding the bolt 40 with respect to the vertical beam member 10 (groove portion 11a), the shaft portions 40b and 40b can be inserted into the through-hole portions 31a and 31b. And the bolt 40 axial part 40b * 40b inserted in the through-hole part 31a * 31b protrudes from the inner side (side of the side part 10a * 10b) to the outer side (opposite side of the side part 10a * 10b).

  Also, as shown in FIGS. 4A, 4B and 5, by fastening a nut 42 as a second fastening member to a bolt shaft portion 40b protruding from the support portions 30a and 30b via a washer 41. The side surface portions 10a and 10b of the vertical beam member 10 are fixed to the side surface portions 10a and 10b of the support member 30, respectively.

  Further, as shown in FIGS. 4A and 4B and FIG. 5, the through-hole portions 31a and 31b of the support member 30 are formed into a long hole shape that is long in the vertical direction, so that the bolt shaft portions 40b and 40b with respect to the support member 30 are formed. The adjustment of the vertical position is allowed. This is because the vertical beam member 10 is fixed to the support member 30 at a plurality of locations in the longitudinal direction. However, depending on the installation state of the support member 30, the vertical beam member 10 may be largely bent. This is because there is a concern that it may be necessary to fix with. With respect to this concern, by making the through-hole portions 31a and 31b into a long hole shape, it becomes possible to adjust the position of fixing the vertical beam member 10 to the support member 30, and without greatly bending the vertical beam member 10 It becomes possible to fix to the support member 30.

Moreover, about the through-hole part 31a and the notch part 32a which are formed in the support part 30a of the support member 30 shown to Fig.4 (a), in addition to the form of FIG.4 (b), to Fig.6 (a)-(d). The form as shown is also conceivable.
The support member 30A shown in FIG. 6A is an example in which a cutout portion 32c communicating with the through hole portion 31d is formed from the direction opposite to the cutout portion 32a shown in FIG. 4B. Further, the support member 30B shown in FIG. 6B is an example in which two through-hole portions 31e and 31f are provided, and cutout portions 32e and 32f communicating with the respective through-hole portions 31e and 31f are formed. A support member 30C shown in FIG. 6C is an example in which a notch 32g connected to the through hole 31g in a stepped manner from above is formed. Moreover, like support member 30D shown in FIG.6 (d), the notch part 32h connected to the middle part of the up-down direction of the through-hole part 31h is formed, and it can adjust in any direction up and down with respect to the notch part 32h. It is good also as doing. As described above, various embodiments of the through hole portion and the notch portion can be adopted.

  Further, the relationship between the first fastening member (bolt 40) and the second fastening member (nut 42) in the configuration shown in FIGS. 4A and 5 may be reversed. That is, the nut 42 is accommodated in the groove portion 11 a and the bolt head 40 a of the bolt 40 is arranged outside the support portion 30 a of the support member 30.

  Furthermore, about the structure of the supporting member 30 shown by Fig.4 (a), it is also considered that it is set as the form shown to Fig.7 (a)-(c). In Fig.7 (a), it is set as the supporting member 30L which comprised the length in the vertical beam member direction smaller. In FIG. 7B, when the supporting members 30M are fixed to other metal fittings (not shown) by providing the supporting members 30M with the fixing leg portions 30m and 30m facing each other with a gap therebetween. The configuration can be adopted in In FIG.7 (c), it is set as the form which can be employ | adopted when fixing the supporting member 30N to other metal fittings etc. which are not shown in figure by setting it as the supporting member 30N which provided one fixing leg part 30n. .

And it becomes possible to perform construction excellent in workability | operativity by employ | adopting the above structure.
At the time of construction, as shown in FIGS. 4 (a), 5 and 8, a fastening mechanism 43 is prepared by assembling the bolt 40, the washer 41 and the nut 42, and the bolt head 40a of the bolt 40 is attached. It is inserted into the groove 11 a of the vertical beam member 10. Preparation of the fastening mechanism 43 and attachment of the fastening mechanism 43 to the vertical beam member 10 can be performed on the ground. In addition, when the vertical beam member 10 is supported by the support member 30 at a plurality of locations, a fastening mechanism 43 corresponding to the number of the support members 30 is prepared, and the longitudinal beam member 10 is fastened at a plurality of locations in the longitudinal direction. The working structure 43 is arranged. Further, in the state of being arranged, the fastening mechanism 43 is temporarily fixed by temporarily fastening the nut 42 so that the movement of the fastening mechanism 43 is restricted.

  The above work is an assembling work of the vertical beam member 10, and this series of work can be performed on the ground, and since it is not a high place work on the roof, care must be taken not to drop the parts. Therefore, the work load can be reduced, and the work can be completed in a short time. In addition, about the position of the fastening mechanism 43 temporarily fixed, it is preferable to perform according to arrangement | positioning of the support member 30 in order to reduce the moving amount | distance of the fastening mechanism 43 in a post process.

  Further, as shown in FIGS. 4A, 5, and 8, on the roof 1, the support members 30 and 30 are installed at predetermined positions, and the vertical rails are connected to the support members 30 and 30. The member 10 is placed. Next, with respect to each fastening mechanism 43, the bolts 40b are inserted from the notches 32a into the through holes 31a by loosening the temporarily fixed nuts 42 and sliding the fastening mechanism 43, respectively. . After the insertion, the vertical beam member 10 can be fixed to the support member 30 by fixing the nut 42 firmly.

  The above work is a work of fixing the vertical beam member 10 to the support member 30. The content of the work is as simple as loosening the temporarily fastened nut 42, moving the fastening mechanism 43, and fastening the nut 42 again. Therefore, it can be easily performed. Further, since the bolt head 40a of the fastening mechanism 43 is inserted in the groove 11a in advance, and the nut 42 is only loosened and not removed, there is no fear that each part will fall. For this reason, the operator can perform the work without paying attention to the falling parts, the work load can be reduced, and the work can be completed in a short time.

The above is the embodiment of the present invention, and the present invention can have the following contents.
As shown in FIGS. 4A and 4B and FIG.
A support member 30 of the vertical beam member 10 as a frame member for a frame that constitutes a frame for installing the device,
Support portions 30a and 30b facing the side surface portions 10a and 10b of the frame member for the frame,
Through holes 31a and 31b provided in the support portions 30a and 30b,
Through-hole portions 31a and 31b for fastening a fastening mechanism 43 as a fixing member provided on the pedestal beam member side;
Notches 32a and 32b provided in the support portions 30a and 30b,
Notches 32a and 32b communicating from the outside of the support portions 30a and 30b into the through-hole portions 31a and 31b;
The support member 30 having

  As a result, as shown in FIG. 4B, the fixing member (fastening mechanism 43) is inserted into the through-hole portions 31a and 31b through the notches 32a and 32b, and the fixing work is completed using the fixing member. Thus, it is not necessary to disassemble the fixing member (fastening mechanism 43) provided in advance on the pedestal beam member side by temporary fixing or the like. And even when working on high places such as on the roof, workers can work without paying attention to falling parts, lightening the work load, and completing the work in a short time. can do.

In addition, as shown in FIGS. 4A and 4B and FIG.
The support portions 30a and 30b of the support member 30 are constituted by two plate-like members that are erected at an interval,
The pedestal beam member can be inserted between the support portions 30a and 30b.
It is to be configured.

  As a result, as shown in FIG. 5, the notches 32a and 32b can be opposed to the groove 11a formed on the frame member side, and the fixing member provided in the groove 11a is slid to pass through the hole. It can be inserted into 31a and 31b.

As shown in FIGS. 4 and 8,
A support structure for a frame member for a stand of a solar energy utilization device,
The vertical beam member 10 as the frame member for the gantry is constituted by a member of a long member,
A groove portion 11a continuous in the longitudinal direction is formed on a side surface of the frame member for the gantry,
The groove portion 11a is provided with a fastening mechanism 43 as a fixing member for fastening to the support member 30 that supports the pedestal beam member,
The support member 30 is
Support portions 30a and 30b facing the side surface portions 10a and 10b of the frame member for the frame,
Through holes 31a and 31b provided in the support portions 30a and 30b,
Through-hole portions 31a and 31b for fastening a fastening mechanism 43 as a fixing member provided on the pedestal beam member side;
Notches 32a and 32b provided in the support portions 30a and 30b,
Notches 32a and 32b communicating from the outside of the support portions 30a and 30b into the through-hole portions 31a and 31b;
Have
The fastening mechanism 43 as the fixing member is
By passing through the notches 32a and 32b, it is inserted into the through-holes 31a and 31b.
A support structure for a frame member for a gantry of a solar energy utilization device.

  As a result, as shown in FIG. 4B, the fixing member (fastening mechanism 43) is inserted into the through-hole portions 31a and 31b through the notches 32a and 32b, and the fixing work is completed using the fixing member. Thus, it is not necessary to disassemble the fixing member (fastening mechanism 43) provided in advance on the pedestal beam member side by temporary fixing or the like. And even when working on high places such as on the roof, workers can work without paying attention to falling parts, lightening the work load, and completing the work in a short time. can do.

As shown in FIGS. 4 and 8,
A method for installing a frame member for a stand of a solar energy utilization device,
The vertical beam member 10 as the frame member for the gantry is constituted by a member of a long member,
A groove portion 11a continuous in the longitudinal direction is formed on a side surface of the frame member for the gantry,
The groove portion 11a is provided with a fastening mechanism 43 as a fixing member for fastening to the support member 30 that supports the pedestal beam member,
The support member 30 is
Support portions 30a and 30b facing the side surface portions 10a and 10b of the frame member for the frame,
Through holes 31a and 31b provided in the support portions 30a and 30b,
Through-hole portions 31a and 31b for fastening a fastening mechanism 43 as a fixing member provided on the pedestal beam member side;
Notches 32a and 32b provided in the support portions 30a and 30b,
Notches 32a and 32b communicating from the outside of the support portions 30a and 30b into the through-hole portions 31a and 31b;
Have
A step of temporarily fixing the fastening mechanism 43 as the fixing member to the pedestal beam member;
Loosening the temporarily fixed fixing member;
Inserting the loosened fixing member through the notches 32a and 32b into the through holes 31a and 31b;
A step of fastening the pedestal beam member to the support member 30 by the fixing member inserted into the through-hole portions 31a and 31b;
The installation method of the crosspiece member for mounts of the solar energy utilization apparatus which has this.

  As a result, as shown in FIG. 4B, the fixing member (fastening mechanism 43) is inserted into the through-hole portions 31a and 31b through the notches 32a and 32b, and the fixing work is completed using the fixing member. Thus, it is not necessary to disassemble the fixing member (fastening mechanism 43) provided in advance on the pedestal beam member side by temporary fixing or the like. And even when working on high places such as on the roof, workers can work without paying attention to falling parts, lightening the work load, and completing the work in a short time. can do.

  The configuration of the present invention can be widely applied to a mount used in a solar energy utilization device such as a solar battery panel installed on the roof of a building.

DESCRIPTION OF SYMBOLS 1 Roof 1A Roof material 2 Solar energy utilization apparatus 3 Solar cell panel 4 Mount 10 Vertical beam member 20 Horizontal beam member 30 Support member 31a Through-hole part 32a Notch part 40 Bolt 40a Bolt head 40b Bolt shaft part 41 Washer 42 Nut 43 For fastening Structure

Claims (4)

A support member for a frame member for a frame that constitutes a frame for installing the device,
A support portion facing the side surface portion of the pedestal beam member;
A through hole provided in the support,
A through-hole portion for fastening a fixing member provided on the pedestal beam member side;
A notch provided in the support,
A notch that communicates from the outside of the support into the through hole,
A support member for a frame member for a gantry. The support portion of the support member is composed of two plate-like members that are erected at intervals,
The frame member for the gantry can be inserted between the support portions.
The support member for the pedestal beam member according to claim 1. A support structure for a frame member for a stand of a solar energy utilization device,
The pedestal beam member is constituted by a member of a long member,
A groove portion that is continuous in the longitudinal direction is formed on the side surface of the pedestal beam member,
The groove portion is provided with a fixing member for fastening to a support member that supports the pedestal beam member,
The support member is
A support portion facing the side surface portion of the pedestal beam member;
A through hole provided in the support,
A through-hole portion for fastening a fixing member provided on the pedestal beam member side;
A notch provided in the support,
A notch that communicates from the outside of the support into the through hole,
Have
The fixing member is
By passing through the notch, it is inserted into the through hole.
Support structure for a frame member for a stand of a solar energy utilization device. A method for installing a frame member for a stand of a solar energy utilization device,
The pedestal beam member is constituted by a member of a long member,
A groove portion that is continuous in the longitudinal direction is formed on the side surface of the pedestal beam member,
The groove portion is provided with a fixing member for fastening to a support member that supports the pedestal beam member,
The support member is
A support portion facing the side surface portion of the pedestal beam member;
A through hole provided in the support,
A through-hole portion for fastening a fixing member provided on the pedestal beam member side;
A notch provided in the support,
A notch that communicates from the outside of the support into the through hole,
Have
Temporarily fixing the fixing member to the pedestal beam member;
Loosening the temporarily fixed fixing member;
Inserting the loosened fixing member into the through hole through the notch, and
A step of fixing the pedestal beam member to the support member by the fixing member inserted into the through-hole portion;
The installation method of the crosspiece member for mounts of a solar energy utilization apparatus which has.

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