JPWO2012098638A1 - Mounting bracket on the roof - Google Patents

Abstract

A fixing force for fixing a roof material between a pair of left and right lower plate portions is increased. A mounting bracket 4 on a roof fixed to the folded roof plate 1 includes a pair of left and right first sandwiching plates 5 and a second sandwiching plate 6 each having a substantially C-shaped front surface. In these, downwardly facing side plate portions 8 and 12 are connected to the outside of the flat plate-like upper plate portions 7 and 11, and the first lower plate portions 9 and 13 are connected inward to the lower ends of the side plate portions 8 and 12. Has been established. A first through hole 16 and a second through hole 17 through which the bolt is inserted are provided in the upper plate portions 7 and 11, and the first central axis 16A and the second through hole 16 of the first through hole 16 are provided. The second center axis 17A of the through hole 17 is offset from the center axis 19A of the bolt 15. When the bolt 15 is tightened with the nut 20, the first clamping plate 5 and the second clamping plate 6 are elastically deformed corresponding to the displacement to give strain. The tip portions 21 and 22 of the first lower plate portions 9 and 13 can sandwich the hull portion 2 in this applied strain state. [Selection] Figure 1

Description

  The present invention relates to a mounting bracket on a roof for connecting a roof equipment and a roof material made of metal or the like.

  As shown in FIGS. 19 and 20, in the prior art, the upper plate portions 101 and 102 are overlapped and the lower plate portions 103 and 104 are opposed to each other to form two substantially C-shaped sandwiching plates 105 and 106. The upper plate 101 is provided with a bolt 107 facing upward, the other upper plate 102 is formed with a long hole 108, and the bolt 107 is screwed into the nut 109. A plate-shaped folded roof 110 is fixed by sandwiching a hull portion 111, and the on-roof equipment 112 and the like can be fixed by using bolts 107.

Japanese Utility Model Publication 4-11064 Utility Model Registration No. 3007536

  In the prior art, the bolts 107 are passed through the elongated holes 108 and then screwed into the nuts 109, so that the upper plate parts 101 and 102 are overlapped and fixed together, and this fixing causes the lower plate parts 103 and 104 to mate. The mounting bracket is fixed across the portion 111. The fixing force of the lower plate portions 103 and 104 is caused by the force that the bolt 107 and the nut 109 fix the upper plate portions 101 and 102 to overlap each other. .

  By the way, in recent years, for example, panel-like solar cell modules, rooftop greening facilities, light shielding plates, air conditioner outdoor units, signboards, and other facilities are often installed on roof members such as folding roofs. There is a demand for a mounting bracket on the roof having high connection fixing strength to the roof member and higher reliability.

  The problem to be solved is that, in the mounting bracket on the roof, the upper plate part provided on the pair of left and right sides is fastened to fix the roof material between the lower plate parts of the pair of left and right holding members. It is a point which increases the fixing force which pinches | interposes and fixes a roofing material with a pair of lower board part. Moreover, the attachment is made simple, and further, the contact area to be fixed with the roof material sandwiched between the pair of left and right lower plate portions is increased.

The mounting bracket on the roof according to claim 1 is configured such that a pair of left and right first and second upper plate portions overlap each other vertically, and a pair of left and right first and second lower plate portions face each other. And a pair of left and right first and second sandwiching members disposed such that the second tip is disposed on the left and right of the roofing material and the openings are opposed to each other, the first and second upper plate portions The first and second penetrating portions facing upward and downward are formed so as to communicate with each other, and a linear shaft is passed through the first and second penetrating portions, and a female screw member is fastened to the linear shaft to By fixing the first and second upper plate parts, in the mounting bracket on the roof where the first and second ends sandwich the left and right of the roof material,
The linear shaft is in a non-penetrating state, and the distance between the first and second tips is the same as the width in the left-right direction of the mounted portion of the roof material, and the first and second upper plates When the portions overlap vertically, the communication portion width in the left-right direction of the communication portion communicating with the first and second through portions is formed smaller than the axial width in the left-right direction of the linear shaft. .

  A second aspect of the present invention is the first aspect, wherein the first and second penetrating portions and the linear axis have a circular shape having substantially the same outer diameter in the plane, One or both of the second central axis lines are deviated in the left-right direction with respect to the central axis line of the linear axis.

  A third aspect is characterized in that, in the second aspect, the length of one or both of the first and second penetrating portions in the left-right direction is a long hole larger than the axial width.

  The invention of claim 4 is characterized in that, in any one of claims 1 to 3, one or both of the first and second tips are bent and extended upward or downward to form an edge portion. To do.

  A fifth aspect of the present invention is characterized in that, in any one of the first to fourth aspects, the width of the communication portion in the left-right direction is greater than half of the axial width in the left-right direction of the linear shaft.

  According to the invention of claim 1, the width of the communicating portion is formed smaller than the axial width in the left-right direction of the linear shaft, and the linear shaft is inserted into the first and second penetrating portions to form a straight line. The first and second upper plate portions are fastened with a female screw member to the shape shaft to fix the first and second clamping members, causing elastic deformation and imparting distortion, The first and second tips can be arranged on the left and right sides of the roofing material.

  According to the second aspect of the present invention, it is possible to apply strain accompanying elastic deformation according to the length of the displacement to the first and second clamping members.

  According to the invention of claim 3, by making the first and second penetrating portions into the shape of a long hole, the degree of freedom of insertion of the linear shaft into the first and second penetrating portions can be increased during the attaching process. It is possible to improve the mounting property.

  According to the invention of claim 4, the fixing force to the roofing material can be improved, for example, the contact area between the first and second tips and the roofing material can be increased by the edge portion.

  According to the invention of claim 5, it is possible to ensure the elastic deformation of the first and second clamping members and also to ensure the strength of the linear shaft.

It is a front view which shows Example 1 of this invention. It is the same top view. It is the same side view. It is a front view of the 1st attachment process. It is a front view of the 2nd attachment process. It is a front view of the 3rd attachment process. It is a front view of the use state. It is a side view of the use state. It is a front view which shows Example 2 of this invention. It is the same top view. It is the same side view. It is a front view of the 1st attachment process. It is a front view of the 2nd attachment process. It is a front view which shows Example 3 of this invention. It is a front view which shows Example 4 of this invention. It is a front view which shows Example 5 of this invention. It is the same top view. It is the same side view. It is a disassembled perspective view which shows a prior art. It is a perspective view which shows the use condition.

  Preferred embodiments of the present invention will be described with reference to the accompanying drawings. The embodiments described below do not limit the contents of the present invention described in the claims. In addition, all of the configurations described below are not necessarily essential requirements of the present invention.

  FIGS. 1-8 has shown Example 1, and as shown in FIGS. 6-8, as for the roof structure, the folding roof board 1 which is a roof material on the tight frame (all are not shown) on a beam is the left-right direction. The edge part of the adjacent folding plate roof board 1 is being fixed by the helix part 2 which is the to-be-attached part wound by the top part. The hull portion 2 is provided at the upper end of the neck portion 3 where the end portion of the folded roof sheet 1 is once erected.

  The mounting bracket 4 on the roof that is fixed to the folded roof plate 1 has a substantially C-shaped front surface and includes a pair of left and right first sandwiching plates 5 and a second sandwiching plate 6. The first sandwiching plate 5 disposed on one of the pair of left and right sides has a first side plate 8 facing downward on the outer side in the left-right direction of the flat first upper plate 7, and further the first side plate A first lower plate portion 9 is connected laterally to the lower end of the portion 8 in the left-right direction, and the first opening 10 is directed inward in the left-right direction.

  The second sandwiching plate 6 disposed on the other of the pair of left and right sides is provided with a second side plate 12 facing downward on the outside in the left-right direction of the flat plate-like second upper plate 11, and the second side plate A second lower plate portion 13 is provided laterally inward in the left-right direction at the lower end of the portion 12, and the second upper portion 14 is directed inward in the left-right direction so that the first upper plate portion 7 and the second upper plate portion 7 The upper plate portion 11 is vertically overlapped, and the first opening portion 10 and the second opening portion 14 are arranged to face each other.

  And the 1st penetration part for the volt | bolt 15 which is a linear axis to penetrate the up-down direction at the approximate center of the 1st upper board part 7 and the 2nd upper board part 11 which overlapped up and down, respectively. The first through hole 16 and the second through hole 17 as the second through part are formed. The bolt 15 penetrates upward from the lower side of the second upper plate part 11, and the hexagonal head 18 abuts on the lower surface of the second upper plate part 11, and the male screw shaft 19 of the bolt 15 is A first nut 20 that is a female screw member is screwed together with a washer (not shown) to the male screw shaft 19 that protrudes above one upper plate portion 7. The first diameter A of the first through hole 16 through which the male screw shaft 19 of the bolt 15 passes and the second diameter B of the second through hole 17 are both the third diameter C of the male screw shaft 19. They are the same or slightly larger.

  By tightening the first nut 20, the first upper plate portion 7 and the second upper plate portion 11 that are stacked one above the other are fixed. With this fixing, the first tip 21 of the first lower plate 9 that is inward in the left-right direction comes into contact with one side of the neck 3 in the left-right direction and the second lower plate 13 has a second end. The tip 22 abuts on the other side of the neck 3 in the left-right direction, so that the first lower plate 9 and the second lower plate 13 are attached to the folding roof plate 1 with the mounting bracket 4 sandwiched between the neck 3. It can be fixed to the part 2. For this reason, the space | interval D of the left-right direction between the 1st front-end | tip 21 and the 2nd front-end | tip 22 is formed the same as the thickness of the left-right direction of the neck part 3. FIG.

  In order to fix the rooftop equipment 23 via the mounting bracket 4 attached on the roof in this way, for example, the rooftop equipment 23 is placed on the first upper plate portion 7 and the top surface of the rooftop equipment 23 is also mounted. The reverse L-shaped presser fitting 24 inserted into the male screw shaft 19 is fixed by tightening the second nut 25 to the male screw shaft 19.

  When the first clamping plate 5 and the second clamping plate 6 are fastened with bolts 15 and the first nut 20 and fixed to the side of the flange 2, the first tip 21 and the second tip 22 In order to reinforce the clamping force to the hull portion 2, an elastic force using the strain of the first clamping plate 5 and the second clamping plate 6 is applied.

  In order to apply this distortion, the first central axis 16A of the first through hole 16 or the second central axis 17A of the second through hole 17 is connected to the male screw shaft 19 as shown in FIGS. It arrange | positions so that it may deviate in the left-right direction with respect to the central axis 19A. This is because the male screw shaft 19 is in a non-penetrating state with respect to the first through hole 16 and the second through hole 17, and the first upper plate portion 7 and the second upper plate portion 11 are vertically moved. When overlapping and the distance between the first tip 21 and the second tip 22 is the same as the left and right width of the neck portion 3 in the hull portion 2, the first center axis 16A is set to the left and right of the center axis 19A of the male screw shaft 19. One of the directions is shifted to the left side with a first deflection length E in FIG. 1, and the second central axis 17A is shifted from the central axis 19A of the male screw shaft 19 in the left-right direction. 1 has a second deflection length F and is displaced to the right side, and thus the first sandwiching plate 5 and the first clamping plate 5 in which the first through hole 16 and the second through hole 17 are displaced as described above. A bolt 15 and a first nut 20 are incorporated into the second sandwiching plate 6 and attached to the roofing material.

  That is, by having the first displacement length E and the second displacement length F, the male screw shaft 19 is in a non-penetrating state, and the first upper plate portion 7 and the second When the upper plate portion 11 overlaps vertically and the distance D between the first tip 21 and the second tip 22 is set to be the same as the left and right width of the neck 3, the first through hole 16 and the first The lateral width G of the communicating portion 26 of the second through hole 17 is smaller than the lateral width of the male screw shaft 19, that is, the third diameter C (G≈CE). F, G <C). The communicating portion width G is preferably larger than half of the third diameter C of the male screw shaft 19 (C / 2 <G <C).

  Next, the attachment process of the above configuration will be described. As shown in the first attachment step of FIG. 4, the bolt 15 is inserted through the first through hole 16 from below the second upper plate portion 11 and the first through hole of the first upper plate portion 7. 16, the first nut 20 is screwed into the upper end of the bolt 15, and the first upper plate portion 7 and the second upper plate portion 11 are integrated in a separated state.

  Next, as shown in the second attachment step of FIG. 5, the first tip 21 is brought into contact with one side of the neck portion 3 in the hull portion 2, and the second tip 22 is brought into contact with the other side of the neck portion 3. . Even in this case, the first upper plate portion 7 and the second upper plate portion 11 are separated from each other.

  Then, when the first nut 20 is turned while holding down the bolt 15, the first nut 20 comes into contact with the first upper plate portion 7, and when the first nut 20 is further tightened, the first upper plate portion 7 contacts the second upper plate part 11.

  Further, by tightening the first nut 20, the first upper plate portion 7 and the second upper plate portion 11 are sandwiched between the nut head 18 and the first nut 20 as shown in FIG. A gap between the first upper plate portion 7 and the second upper plate portion 11, a gap between the upper surface of the first upper plate portion 7 and the first nut 20, and a lower surface of the second upper plate portion 11 As a result, there is no gap between the head 15 of the bolt 15 and the center axis 19A of the male screw shaft 19, the first center axis 16A of the first through hole 16, and the second axis of the second through hole 17. The center axis line 17A coincides. In the process in which the gap, the center axis, the first center axis 16A, and the second center axis 17A coincide with each other, the first upper plate portion 7 has the first offset as shown by the one-dot chain line in FIG. The position length E is moved to one side in the left-right direction, and the second upper plate portion 11 is moved to one side in the left-right direction. At this time, since the first tip 21 and the second tip 22 are held constant in the width in the left-right direction of the neck 3, the first upper plate portion 7 is moved by the movement due to the first deviation length E. Elastic deformation occurs in the first side plate portion 8 and the first lower plate portion 9. This elastic deformation force becomes a strain and acts so that the first tip 21 presses the neck 3. Similarly, elastic deformation occurs in the second upper plate portion 11, the second side plate portion 12, and the second lower plate portion 13 due to the movement caused by the second deflection length F, and this elastic deformation force is also distorted. The second deflection length F acts so as to press the neck 3, and the first tip 21 and the second tip 22 press the left and right sides of the neck 3 and are integrated. The pair of left and right first members, the second holding plate 6, and the on-roof equipment 23 can be reliably supported and fixed.

  When the first nut 20 is tightened in this way, the first tip 21 and the second tip 22 of the first sandwiching plate 5 and the second sandwiching plate 6 are caused by the reaction of the neck 3 of the hull portion 2. A force acts to push and spread the force, and the direction of this force coincides with the direction of the force to narrow the communication portion 26 of the first through hole 16 and the second through hole 17. However, since the first through hole 16 and the second through hole 17 do not become narrower than the third diameter C of the male screw shaft 19, the neck portion 3 can be strongly tightened. In addition, the first sandwiching plate 5 and the second sandwiching plate 6 have only the first through hole 16 and the second through hole 17 as the missing portions of the first sandwiching plate 5 and the second sandwiching plate 6. The rigidity of the bolt 15 is high, and the fastening force of the bolt 15 and the first nut 20 can be efficiently converted into a fastening force.

  As described above, according to the first embodiment, the bolt 15 is in the non-penetrating state, and the distance D between the first tip 21 and the second tip 22 is the same as that of the neck 3 of the hull portion 2. When the first upper plate portion 7 and the second upper plate portion 11 overlap with each other at the same distance in the left-right direction, the first through hole 16 and the second through hole 17 are connected to the male screw shaft of the bolt 15. The left and right direction of the communicating portion 26 with the first through hole 16 and the second through hole 17 communicating in the up and down direction by deviating to one side and the other side in the left and right direction with respect to the central axis 19A of 19 respectively. Is formed to be smaller than the third diameter C of the male screw shaft 19, and the first upper plate portion 7 and the second upper plate portion 11 are tightened by tightening the first nut 20. When the center axis 19A of the male screw shaft 19, the first center axis 16A of the first through hole 16, and the second center axis 17A of the second through hole 17 are made to coincide with each other, The one clamping plate 5 and the second clamping plate 6 are elastically deformed corresponding to the first deflection length E and the second deflection length F, respectively. The tip 21 and the second tip 22 can be pressed against the neck 3.

  Further, in accordance with claim 2, the first through hole 16, the second through hole 17 and the male screw shaft 19 have a circular shape with substantially the same outer diameter. Both the first central axis 16A and the second central axis 17A of the second through hole 17 are eccentric in the left-right direction with respect to the central axis 19A of the male screw shaft 19, so that the central axis, When the central axis 16A and the second central axis 17A coincide with each other, the male screw shaft 19 is fitted into the first through hole 16 and the second through hole 17 so that no deviation occurs.

  Further, in correspondence with claim 5, the left and right communication portion width G is formed to be larger than half of the third diameter C of the left and right male screw shaft 19 of the male screw shaft 19, so that the male screw shaft 19 In addition, it is possible to secure the strength of the first clamping plate 5 and the second clamping plate 6 due to the strain within the elastic limit.

  The male screw shaft 19 passes through the first through hole 16 and the second through hole 17 and the first nut 20 is screwed into the first upper plate portion 7 and the second upper plate. The overlapping of the portions 11 can be easily performed.

  Further, by making the length in the front-rear direction orthogonal to the left-right direction of one or both of the first through-hole 16 and the second through-hole 17 substantially the same as the outer diameter of the male screw shaft 19, When the first central axis 16A and the second central axis 17A are made to coincide with each other, there is no gap in the front-rear direction in the male screw shaft 19, the first through hole 16, and the second through hole 17, and distortion is caused. Can be directed to the left or right side.

  Other embodiments will be described below. In addition, the same code | symbol is attached | subjected to the same part as the said Example 1, and the detailed description is abbreviate | omitted.

  FIGS. 9 to 13 show the second embodiment. In the second embodiment, the first through hole 16 ′ and the second through hole 17 ′ are not flat in a circular shape but are elongated holes that are long in the left-right direction. . The first through hole 16 'is an extension of one side in the left-right direction, that is, the left side of the first through hole 16 in the first embodiment, and conversely, the second through hole 17 is the second through hole in the first embodiment. The other side of the hole 17 in the left-right direction, that is, the right side is extended. As in the first embodiment, the first central axis 16'A of the first through hole 16 'is displaced to one side in the left-right direction from the central axis 19A of the male screw shaft 19, and the second through hole 17 The second central axis 17'A is displaced from the central axis 19A of the male screw shaft 19 to the other side in the left-right direction, so that the male screw shaft 19 is in a non-penetrating state and the first upper plate portion 7 and the second upper plate portion 11 overlap each other and the distance between the first tip 21 and the second tip 22 is set to be the same as the left and right width of the neck 3, the first penetration in plan view The left and right communication portion width G ′ of the communication portion 26 of the hole 16 and the second through hole 17 is formed smaller than the third diameter C of the male screw shaft 19.

  Next, the attachment process of the above configuration will be described. As shown in the first attachment step of FIG. 12, the bolt 15 is inserted into the second through hole 17 ′ from below the second upper plate part 11 and the first penetration of the first upper plate part 7. The first nut 20 is threadedly engaged with the upper end of the bolt 15 through the hole 16 ', and the first upper plate portion 7 and the second upper plate portion 11 are integrated in a separated state.

  Then, the first tip 21 is brought into contact with one side of the neck portion 3 in the hull portion 2, and the second tip 22 is brought into contact with the other side of the neck portion 3. Even in this case, the first upper plate portion 7 and the second upper plate portion 11 are separated from each other. At this time, since the first through hole 16 and the second through hole 17 are elongated, the area where the male screw shaft 19 can be inserted is widened. A large degree of freedom is given to the male screw shaft 19 in the insertion into the second through hole 17 ′.

  Further, by tightening the first nut 20, as in the first embodiment, the central axis 19A of the male screw shaft 19, the first central axis 16A of the first through hole 16, and the second through hole In the process in which the second central axis 17A of 17 coincides, the first upper plate portion 7, the first side plate portion 8, the first lower plate portion 9, the second upper plate portion 11, the second side plate Elastic deformation occurs in the portion 12 and the second lower plate portion 13, and the elastic deformation force becomes distortion, and the first tip 21 and the second tip 22 press the left and right sides of the neck portion 3 to be integrated. The pair of left and right first clamping plates 5 and second clamping plates 6 can be reliably supported and fixed.

  Accordingly, the first lower plate is obtained by making the lengths of both the first through hole 16 ′ and the second through hole 17 ′ in the left-right direction larger than the third diameter C of the male screw shaft 19. The opening amount of the first tip 21 and the second tip 22 of the portion 9, the lower plate lower plate second lower plate portion 13 can be increased, and the workability of attachment to the hull portion 2 can be improved. Moreover, although the defect | deletion part expands by making it a long hole, both the 1st through-hole 16 'of the 1st clamping board 5 and the 2nd clamping board 6 and the 2nd through-hole 17' are made into a long hole. By doing so, the size of the elongated holes of the first clamping plate 5 and the second clamping plate 6 can be made small while increasing the opening amount, so that the tightening force does not decrease. If the washer 20A is used, it can be covered with the washer 20A if it is small, so that the strength reduction due to the long hole can be compensated with the washer.

  In Example 3 shown in FIG. 14, the first tip 21 and the second tip 22 of the first sandwiching plate 5 and the second sandwiching plate 6 are bent downward so as to engage with the neck 3, respectively. A first end edge portion 27 and a second end edge portion 28 are formed.

  Therefore, when the first tip 21 and the second tip 22 are brought into contact with the flange portion 2, the contact lengths of the first end edge 27 and the second end edge portion 28 are increased to increase the neck portion 3 respectively. So that the contact area of the fitting 2 with the fitting 2 is increased, and the stability of the fitting 4 and the frictional force of the fitting 4 with the neck 3 of the fitting 2 are improved. The connection between the mounting bracket 4 and the folded roof plate 1 can be strengthened.

  In Example 4 shown in FIG. 15, the first end 21 of the first clamping plate 5 is bent upward so as to be locked to the full height of the hull 2 to form a third end edge 29. It is.

  Therefore, when the third end edge portion 29 is brought into contact with the hull portion 2, the entire third end edge portion 29 can be locked to the full height of the hull portion 2. The contact area of the flange 2 is increased, the stability of the mounting bracket 4 and the frictional force between the neck 3 of the flange 2 of the mounting bracket 4 are improved, and the connection between the mounting bracket 4 and the folded roof plate 1 is strengthened. It can be.

  In the fifth embodiment shown in FIGS. 16 to 18, the first reinforcing rib 30 and the second reinforcing rib 31 are formed on the first holding plate 5 and the second holding plate 6, respectively, in order to increase the strength of elastic deformation. It is a thing.

  Therefore, the first reinforcing rib 30 and the second reinforcing rib 31 are formed, so that the elastic deformation limit in the first sandwiching plate 5 and the second sandwiching plate 6 is improved, thereby strengthening the strain. Can be.

  As described above, the mounting bracket on the roof according to the present invention can be applied to various uses. In the embodiment, the linear shaft is formed by a bolt, but a female screw portion may be formed at both ends of one shaft, and a female screw member such as a nut may be screwed to each of them. And you may interpose the rotation prevention means which fixes or temporarily fixes between the hexagon head part and nut of a volt | bolt arrange | positioned under a 2nd upper board part, and a 2nd upper board part.

1 Folded roof board (roof material)
2 Shell (attached part)
5 1st clamping board 6 2nd clamping board 7 1st upper board part 9 1st lower board part
10 First opening
11 Second upper plate
13 Second lower plate
14 Second opening
15 bolt (linear shaft)
16 First through hole (first through part)
16´ 1st through hole (long hole)
16A First central axis
17 Second through hole (second through part)
17´ second through hole (long hole)
17A Second central axis
19A Center axis
20 First nut (female screw member)
21 First tip
22 Second tip
27 28 29 Edge C Third Diameter D Spacing G Communicating Width

Claims (5)

A pair of left and right laterally extending first and second upper plate portions overlap vertically, and the first and second leading ends of the pair of left and right first and second lower plate portions are on the left and right sides of the roofing material. A first and second pair of left and right clamping members disposed so that their openings face each other; The first and second upper plate portions are fixed by penetrating a linear shaft through the first and second penetrating portions and tightening a female screw member on the linear shaft. In the mounting bracket on the roof where the first and second tips sandwich the left and right of the roof material,
The linear shaft is in a non-penetrating state, and the distance between the first and second tips is the same as the width in the left-right direction of the mounted portion of the roof material, and the first and second upper plates When the portions overlap vertically, the communication portion width in the left-right direction of the communication portion communicating with the first and second through portions is formed smaller than the axial width in the left-right direction of the linear shaft. Mounting bracket on the roof.   The first and second penetrating portions and the linear axis are circular with substantially the same outer diameter, and one or both of the first and second central axes of the first and second penetrating portions are The mounting bracket on the roof according to claim 1, wherein the mounting bracket is deviated in a left-right direction with respect to a central axis of the linear shaft.   The mounting bracket on the roof according to claim 2, wherein a length of one or both of the first and second penetrating portions in the left-right direction is a long hole larger than the axial width.   One or both of said 1st and 2nd front-end | tips are bent and extended upward or downward, and the edge part was formed on the roof of any one of Claims 1-3 characterized by the above-mentioned. Mounting bracket.   The mounting bracket on the roof according to any one of claims 1 to 4, wherein a width of the communication portion in the left-right direction is formed to be larger than a half of a width in the left-right direction of the linear shaft.

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