JP5882382B2 - Solar panel mounting bracket - Google Patents

Description

  The present invention relates to a solar panel mounting bracket used for mounting a solar panel on a roof.

  As a conventional solar panel mounting structure, for example, as shown in FIG. 1 of Patent Document 1, a solar panel is directly mounted on an upper mounting portion of a mounting bracket fixed on a roof. A structure is known in which the upper solar panel is pressed and fixed from above with a panel presser. According to this mounting structure, the installation weight for the roof can be reduced because the installation base can be omitted, and there is no installation base. There are merits such as enabling installation and construction at low cost.

  Further, the applicant configures the metal fitting body of the mounting bracket of this type of solar panel with a plate material, and the upper bent plate portion is bent as the mounting plate portion for mounting the solar panel by bending the upper portion of the plate material. A patent application (Patent Document 2) has been filed for a solar panel mounting bracket that simplifies the structure (by forming the mounting plate portion integrally with the bracket body).

JP 2013-117121 A Japanese Patent Application No. 2013-269149

  In the above-mentioned Patent Document 2, the metal fitting body is composed of a metal half made of a pair of left and right plate members, and the lower part of the pair of metal fitting halves (plate material) is bent to form a folded plate roof or a standing flat roof goby. A pair of left and right holding and fixing portions for holding and fixing the portion from the left and right, and one of the pair of metal fitting halves bends the upper part of the plate material constituting the one metal fitting half to the side. Although the two-part mounting bracket with the curved plate portion as the mounting plate portion is disclosed, there is a merit that such a mounting bracket requires only a small number of parts because it is only two parts, In particular, the metal fitting half (plate material) that includes the mounting plate part must be formed by consolidating many functions into a single plate material, so the plate material itself must be processed into a very complex shape. Because there is a little difficulty in manufacturability and complicated processing It is difficult to form the mounting plate portion which ensures the width of only the outer peripheral edge of the solar panel can be stably placed.

  The present invention seeks to solve the problems of the two-part solar panel mounting bracket as described above. The bracket main body is a pair of sandwiching bodies, and a guide body that guides the sliding movement of the sandwiching bodies. By making the three-part structure consisting of the above, it is easy to manufacture by eliminating the complexity of the shape of each part, it is possible to secure a sufficient mounting width of the mounting plate portion, and to stably mount the solar panel A solar panel mounting bracket is provided.

  The gist of the present invention will be described with reference to the accompanying drawings.

On top of the folded plate roof 1 and the vertical-roofing goby unit 2 to fixable fitting main body 3 of the roof, it is provided plate portion 5 mounting capable placing the outer circumferential edge portion of the solar panel 4 Rutotomoni, the mounting plate In a solar panel mounting bracket in which a fixing bolt 6 for fixing the solar panel 4 placed on the portion 5 is provided in an upright state, the bracket body 3 is a pair of left and right that clamps and fixes the goby portion 2 from the left and right. And a guide body 8 that is disposed between the pair of sandwiching bodies 7 and that guides the sliding movement of the pair of sandwiching bodies 7 between the pair of sandwiching bodies 7. 9 is installed , and the pair of clamping bodies 7 are brought close to each other via the guide body 8 by tightening and rotating the tightening bolts 9 or by tightening and rotating the nuts 10 to which the tightening bolts 9 are screwed. So that the goby part 2 can be clamped and fixed by sliding It is configured, and the pair of the holding member 7 and the guide member 8 is formed of a plate material, the plate material constituting the pair of holding member 7, formed in the bent plate portion whose top is bent sideways In addition, the bent plate-like portion has a plate width in the front-rear direction or the left-right direction in which the outer peripheral edge portions of the two solar panels 4 arranged side by side can be placed and fixed in an adjacent state. is shaped to include, the bent plate portion is configured as a mounting plate unit 5 before the fixing bolts 6 to an upper portion of the guide member 8, characterized in that provided in the upright state This relates to the solar panel mounting bracket.

Further, a plate member constituting the pair of sandwiching bodies 7 is formed with a slide plate portion 11 projecting inwardly facing the pair of sandwiching bodies 7, and the slide plate portion 11 can be slidably inserted and supported. a guide hole 12, either formed in the plate material constituting the guide member 8 or the plate member constituting the guide member 8, a slide plate part 11 projecting toward the both outer sides of the guide body 8 is formed, the slide plate part 11 can slide freely inserted into and supported guide hole 12, is formed in a plate member constituting the front Symbol pair holding member 7, the slide plate part in the guide hole 12 11 by the insertion support, between the pair of holding member 7 is configured so as to be freely and away sliding through the guide body 8, the plate members constituting the pair of holding member 7, the tightening shape bolt insertion holes 13 for inserting bolts 9 It is, in the plate material constituting the guide member 8, which relates to a solar panel mounting bracket according to claim 1, wherein the bolt mounting holes 14 for mounting the fixing bolt 6 is formed.

  Since the present invention is configured as described above, the outer peripheral edge portions of the two solar panels can be stably mounted and fixed on the mounting plate portion having a plate width in the front-rear direction or the left-right direction. The metal fitting body of the invention includes a pair of left and right holding bodies for holding and fixing a goby portion of a folded-plate roof or a vertical thatched roof from the left and right sides, and a sliding movement between the pair of holding bodies provided between the pair of holding bodies. In addition to a three-part configuration consisting of a guide body that guides the plate, both the sandwiching body and the guide body are made of plate material, and the upper part of this plate material is formed on the mounting plate portion, so the processing of each part can be simplified, As a result, each part can be easily manufactured using processing technology such as progressive press, and the plate width (mounting area) of the mounting plate can be easily secured. Excellent solar panel mounting bracket.

Moreover, in this invention, it becomes a solar panel mounting bracket of the structure further excellent in practicality in which the structure which forms a mounting board part integrally in the board | plate material which comprises a pair of clamping body can be implement | achieved simply .

  According to a second aspect of the present invention, a solar panel mounting having a more practical configuration that can be easily designed and realized by a simple configuration of a pair of sandwiching bodies and guide bodies that reliably exhibit the above-mentioned functions and effects. It becomes a metal fitting.

It is a perspective view which shows the example of a structure . It is a disassembled perspective view which shows the structural example . It is a front sectional view showing a fixed state to the roof of the configuration example . It is a description perspective view which shows the use condition of a structural example . It is a perspective view which shows a present Example . It is a disassembled perspective view which shows a present Example . It is a description plane sectional view which shows a present Example . It is a front sectional view showing the fixed state to the roof of this example . It is explanatory perspective view which shows the use condition of a present Example .

  An embodiment of the present invention which is considered to be suitable will be briefly described with reference to the drawings showing the operation of the present invention.

The solar panel mounting bracket according to the present invention is provided between a pair of left and right sandwiching bodies 7 and a pair of left and right sandwiching bodies 7 that sandwich and fix the main body 3 from the left and right sides of the folded roof 1 and the vertical roof roof 2. Thus, a three-part structure comprising a guide body 8 for guiding the contact / separation slide movement between the pair of sandwiching bodies 7, a clamping bolt 9 is installed between the pair of clamping bodies 7, and the clamping bolt 9 is tightened. The pair of clamping bodies 7 are moved close to each other via the guide body 8 by clamping and turning the nut 10 to which the fastening bolt 9 is screwed, and the goby portion 2 is clamped and fixed. A mounting plate portion 5 on which the outer peripheral edge of the solar panel 4 can be mounted is provided on the upper part of the metal fitting body 3 and the solar panel 4 mounted on the mounting plate portion 5 is fixed. A fixing bolt 6 is provided in an upright state.

  Therefore, when the gob portion 2 is clamped and fixed by the pair of clamping bodies 7 by the clamping operation of the clamping bolt 9 or the nut 10, the metal fitting body 3 can be fixed on the roof 1, and the mounting plate portion 5 above the metal fitting main body 3 can be fixed. When the outer peripheral edges of the two solar panels 4 arranged side by side in the front-rear or left-right direction are placed with their outer peripheral edges adjacent to each other and fixed with fixing bolts 6, The solar panel 4 is mounted on the roof 1.

  At this time, the outer peripheral edge portions of the two solar panels 4 are respectively mounted on both sides of the mounting plate portion 5 in the plate width direction on the mounting plate portion 5 having a plate width in the front-rear direction or the left-right direction. By doing so, the mounting area of the outer peripheral edge of the two solar panels 4 on the mounting plate part 5 can be secured widely, whereby the solar panel 4 can be stably mounted and fixed. In addition, this solar panel mounting bracket can also be used for attachment of the end position of the solar panel 4 to be installed adjacently. In this case, for example, the solar panel at the end position only on one side of the mounting plate portion 5 in the plate width direction. It is preferable to place and fix the outer peripheral edge of 4.

Further, in the metal fitting body 3 of the present invention, the pair of sandwiching bodies 7 and the guide body 8 are both made of a plate material, and the upper part of the plate material constituting the pair of sandwiching bodies 7 is formed in the mounting plate portion 5 described above. That is, when the mounting plate portion is integrally formed on one metal half as in Patent Document 2, many functions such as a contact / separation slide structure and a fixing bolt mounting structure are provided in one plate material. However, in the present invention, it is difficult to secure the plate width of the mounting plate portion (mounting area of the solar panel 4). The three-part configuration allows each part to be simplified by distributing the processing to each part, which makes it easy to produce each part using a processing technology such as progressive press and configures each part. Since the plate material to be processed is not subjected to complicated processing, it is possible to easily secure the plate width (mounting area of the solar panel 4) of the mounting plate portion 5.

In addition, for example, a plate member constituting the pair of sandwiching bodies 7 is formed with a slide plate portion 11 that protrudes inwardly of the pair of sandwiching bodies 7, and the slide plate portion 11 is slidably inserted. A guide hole portion 12 that can be supported is formed in a plate material that constitutes the guide body 8, or a slide plate portion that protrudes toward both outer sides of the guide body 8 on the plate material constituting the guide body 8. 11 is formed, the slide plate part 11 slidably inserted supportable guide hole 12, is formed in the plate constituting the front Symbol pair of holding member 7, the slide in the guide hole 12 By inserting and supporting the plate portion 11, the pair of sandwiching bodies 7 are configured to be movable toward and away from each other via the guide body 8, and the plate material constituting the pair of sandwiching bodies 7 is configured as described above. Bolt insertion for inserting the tightening bolt 9 Holes 13 are formed, the plate material constituting the guide member 8, with the configuration of the bolt mounting holes 14 for mounting the fixing bolt 6 is formed, a slide plate part 11 which is inserted into and supported by the guide hole portion 12 When the sliding movement is made with respect to the guide hole portion 12, the pair of holding bodies 7 are moved toward and away from each other via the guide body 8.

Further, when the tightening bolt 9 is inserted into the bolt insertion hole 13 formed in the pair of sandwiching bodies 7, the tightening bolt 9 is installed between the pair of sandwiching bodies 7, and the bolt mounting hole formed in the guide body 8. A fixing bolt 6 is attached to 14.
[Configuration example]
A configuration example will be described with reference to FIGS.

This configuration example is applied to a solar panel mounting bracket for the goby type folded plate roof 1, and as shown in FIG. 1, a mounting capable of mounting the outer peripheral edge portion of the solar panel 4 on the upper portion of the bracket body 3. While providing the mounting plate part 5, the fixing bolt 6 for fixing the solar panel 4 mounted in this mounting plate part 5 is provided in the standing state. The metal fitting body 3 can be designed not only for the folded plate roof 1 but also for a standing flat roof.

In addition, the metal fitting body 3 of this configuration example is provided between a pair of left and right sandwiching bodies 7 that sandwich and fix the goby portion 2 of the folded plate roof 1 from the left and right, and a pair of sandwiching bodies 7. The guide plate 8 has a three-part configuration including a guide body 8 that guides the movement of the contact and separation slide. The mounting plate portion 5 is integrally formed with the guide body 8.

First, the sandwiching body 7 of this configuration example will be described. As shown in FIG. 2, the sandwiching body 7 is configured by a pair of plate material folding bodies 7 configured by bending a plate material, and the plate material folding bodies 7 are opposed to each other on the left and right. The fastening bolts 9 are horizontally disposed between the bent plate members 7 through the bolt insertion holes 13, and nuts 10 are screwed onto the fastening bolts 9. For example, the nuts 10 are tightened. By rotating, the clamping facing portion 18 formed on each plate material folding body 7 is clamped and approached to clamp and hold the goby portion 2, and this solar panel mounting bracket can be fixed on the folded plate roof 1 by this clamping action. (See FIGS. 3 and 4).

  Further, this plate material folded body 7 is formed by bending a single metal plate material to form a U-shaped plate portion 20 having a U-shape in plan view with the opening side facing outward on the bottom plate portion 19. The front plate portion 22 and the rear plate portion 23 that are bent outwardly from the middle plate portion 21 of the U-shaped plate portion 20 are bent to provide the folded reinforcing plate portion 24. A pair of plate-like bent bodies 7 (clamping bodies 7) are arranged opposite to each other so as to face the middle plate portion 21 of the U-shaped plate portion 20.

Further, in the middle of the opposed middle plate portion 21 of the U-shaped plate portion 20, a hole diameter that can insert and support the bolt collar portion of the tightening bolt 9 employing a hexagonal bolt and cannot insert the bolt head portion. The bolt insertion hole 13 having a size is formed so as to penetrate, and in the middle of one of the left and right middle plate portions 21, cuts are formed on both front and rear sides of the bolt insertion hole 13, and the cut portions are pressed from the inside. projecting the stopper protrusion 41 around the outer surface of the middle of the middle plate 21 by (see FIG. 7 embodiment), the detent projections 41 of the front and rear, bolt insertion holes 13 from the opposite outer Kyojitai 7 The tightening bolt 9 is prevented from rotating in contact with or in close proximity to the opposite two side surfaces of the head of the tightening bolt 9 inserted through the nut 10, thereby rotating and loosening the nut 10 screwed on the tightening bolt 9. Can be done easily.

  Further, an opening 17 is formed through the middle plate portion 21 below the bolt insertion hole 13 so as to reach the middle of the front plate portion 22 and the rear plate portion 23. Under the opening 17 formed as above, the sandwiching opposing portion 18 in the form of a band plate having a vertical width equal to the plate width of the middle plate portion 21 is formed.

  In addition, the upper part of the middle plate part 21 is integrally formed with a band plate part that rises upward in a band shape, and the belt plate part is bent at a substantially right angle toward the opposite inner side of the middle plate part 21, This upper bent plate portion is used as a slide plate portion 11.

  Further, the slide plate portion 11 is provided with different heights in the vertical direction between the one provided on the one plate-like bent body 7 and the one provided on the other plate-like bent body 7. When a pair of plate-like bent bodies 7 arranged opposite to each other are brought close to each other, one slide plate portion 11 and the other slide plate portion 11 overlap each other without being brought into contact with each other. Thus, the close movement of the pair of plate-like bent bodies 7 is allowed.

  Further, each slide plate portion 11 is formed with a bolt through hole 25 having a length along the length direction thereof, and the respective slide plate portions 11 are communicated by being superposed vertically. The fixing bolt 6 can be inserted into the bolt through hole 25.

  Further, the front plate portion 22 and the rear plate portion 23 are formed with a plurality of bundling tool through holes 35 used for bundling the wiring of the solar panel 4 with a bundling tool such as a strap or a string.

Next, the guide body 8 of this configuration example will be described. As shown in FIGS. 1 and 2, a rectangular plate material 8 having a surface direction in a substantially horizontal direction and a length in the front-rear direction of the metal fitting body 3. The upper surface portion of the plate member 8 is used as the mounting plate portion 5 described above, and a guide hole portion 12 is formed on the plate member 8 so that the slide plate portion 11 of the sandwiching body 7 can be slidably inserted and supported. The slide plate portion 11 is inserted and supported in the guide hole portion 12 so that the pair of sandwiching bodies 7 can be slidably moved toward and away from each other via the guide body 8 (guide hole portion 12). ing.

  Further, the plate member 8 is formed with cuts at the left and right positions of the central portion thereof, and the guide hole portion in which the left and right cuts open on the lower surface side of the plate member 8 by pressing the plate portion between the left and right cuts downward. 12 and the pressed central plate portion is configured to be a guide support surface 26 that is one step lower than the upper surface portion of the other part, and one of the guide hole portions 12 opens from the guide hole portion 12 to the left of the guide support surface 26. The slide plate portion 11 of the sandwiching body 7 is inserted, and the slide plate portion 11 of the other sandwiching body 7 is inserted from the guide hole portion 12 opened to the right of the guide support surface 26 to As a result, the slide plate portions 11 of the pair of sandwiching bodies 7 are slidably movable (the pair of sandwiching bodies 7 are capable of sliding to and away from each other) using the guide support surface 26 of the guide body 8 as a slide guide. The configuration is as follows.

  Further, a bolt mounting hole 14 is formed through the guide support surface 26 at the center thereof, and each bolt through hole 25 of the slide plate portion 11 supported on the bolt mounting hole 14 and the guide support surface 26 is formed. In addition, the bolt end of the fixing bolt 6 adopting a hexagonal bolt is inserted from below the plate material bent body 8, and a mounting nut is attached to the bolt end of the fixing bolt 6 protruding above the slide plate portion 11 arranged on the upper side. By screwing 27, the fixing bolt 6 is fixed to the mounting plate portion 5 in a standing state in a fall-preventing state, and the pair of sandwiching bodies 7 are bent plate members 8 (guide bodies 8). ). And it is set as the structure which the contact-and-separation slide movement of a pair of clamping body 7 is accept | permitted within the range which can move the bolt through-hole 25 with respect to this fixing bolt 6. FIG.

  Further, the guide support surface 26 is formed with cuts on both the left and right sides of the bolt mounting hole 14, and by pressing the cut portion from above, a detent protrusion 41 is projected on the lower surface of the guide support surface 26, The left and right anti-rotation protrusions 41 abut against or close to the opposite two side surfaces of the head of the fixing bolt 6 inserted through the bolt mounting hole 14 from below the guide support surface 26 to prevent the fixing bolt 6 from rotating. Thus, it is possible to easily rotate and tighten the mounting nut 27 screwed onto the fixing bolt 6 and the fixing nut 30 described later.

  Further, here, the mounting plate portion 5 will be described in more detail. The length in the front-rear direction or the left-right direction in which the outer peripheral edge portions of the two solar panels 4 arranged in parallel in the front-rear direction or the left-right direction can be mounted in an adjacent state. It has a plate shape.

Specifically, the mounting plate portion 5 is longer in the front-rear direction than the front-rear width of the pair of sandwiching bodies 3 and has a front-rear plate width of about 1.5 to 2 times the front-rear longitudinal width dimension of the sandwiching body 3. It has a rectangular plate shape. That is, the mounting plate portion 5 of this configuration example is juxtaposed in the front-rear direction with the fixing bolt 6 interposed therebetween with respect to the inclined direction of the folded plate roof 1 (the length direction of the goby portion 2) as shown in FIG. The outer peripheral edges of the two solar panels 4 can be placed adjacent to each other, and when the solar panels 4 are placed in this way, the outer peripheral edges of the two solar panels 4 are placed. The mounting area on the plate portion 5 can be secured widely, and thus the solar pal 4 can be stably mounted and fixed.

  In addition, the front and rear end portions of the mounting plate portion 5 (the plate material 8 constituting the guide body 8) are bent upward at substantially right angles, and the bent pieces at the front and rear end portions are used as the shift preventing projections 28. When the metal frame portion 29 on the outer peripheral edge portion of the solar panel 4 is placed on the placement plate portion 5, the misalignment projection 28 is arranged in the vicinity of the step portion on the inner periphery of the metal frame portion 29. Therefore, when the solar panel 4 placed on the placing plate portion 5 tries to be displaced in the horizontal direction (horizontal front or horizontal rear), the stepped portion hits the misalignment projection 28 and the misalignment is prevented. It is said.

Further, in this configuration example, the mounting plate portion 5 is formed with a drain hole 15 through which water droplets adhering to the mounting plate portion 5 due to rainfall or condensation are drained downward. . Accordingly, water droplets may adhere to the mounting plate portion 5 due to rain or condensation on the mounting plate portion 5 on which the solar panel 4 is mounted and fixed. However, the water droplets penetrate the mounting plate portion 5. The drainage hole 15 thus formed is drained to the lower side of the mounting plate portion 5, so that even if water droplets adhere to the mounting plate portion 5, it is difficult to stay and rust.

  Specifically, it has a length from the vicinity of the front end of the mounting plate portion 5 to the vicinity of the front hole edge of the bolt mounting hole 14 at both front and rear positions of the mounting plate portion 5 with the bolt mounting hole 14 interposed therebetween. A through hole 15 and a through hole 15 having a length from the vicinity of the rear end of the mounting plate 5 to the vicinity of the rear hole edge of the bolt mounting hole 14 are formed. The drain hole 15 is used.

  Therefore, since the drain hole 15 having such a length is formed, when the outer peripheral edge portion of the solar panel 4 is placed on the mounting plate portion 5, the outer peripheral edge portion of the solar panel 4 blocks all the drain holes 15. In this configuration, water droplets are drained well from the drain hole 15.

Further, in this configuration example, the entire edge portion of each drainage hole 15 is bent downward, and the bent hole edge portion 16 is used as the reinforcing portion 16.

That is, as described above, in this configuration example, in order to improve the mounting stability of the two solar panels 4, the shape of the mounting plate portion 5 is formed into a shape having a length in the front-rear direction. Because of the plate shape having such a length, the mounting plate portion 5 is liable to cause a drop in strength by penetrating the drainage hole 15.

Therefore, in this configuration example, the entire edge of the hole edge of the drain hole 15 is bent, and the bent hole edge 16 is used as the reinforcing part 16, and the reinforcing part 16 is damaged by the formation of the drain hole 15. It is set as the structure which supplements the intensity | strength of the mounting board part 5. FIG. Therefore, the strength of the mounting plate portion 5 of the present configuration example is appropriately ensured while the length and the relatively large drainage hole 15 are formed so as to penetrate through two locations. Since the whole edge of the hole edge of the drain hole 15 is bent downward, the reinforcing part 16 is configured not to prevent drainage from the drain hole 15.

Here, the fixing structure of the solar panel 4 mounted on the mounting plate portion 5 of the present configuration example will be described. The fixing nut 30 screwed to the fixing bolt 6 is fastened to the fixing bolt 6. A fixing member 31 for pressing and fixing the outer peripheral edge portion (metal frame portion 29) of the solar panel 4 placed on the placement plate portion 5 by operation from above is provided.

Specifically, the fixing member 31 of the present configuration example is formed by bending a single metal plate into a substantially U shape so that the protruding plate portions 32 on both sides become the upper portion, and the intermediate portion between the base end portions of the protruding plate portions 32. The plate portion 33 is formed in a lower shape, and the upper portions of the protruding plate portions 32 on both sides are bent outwardly from each other, and this is used as a pressing piece 34 that comes into contact with the upper surface of the outer peripheral edge portion of the solar panel 4, Further, a bolt insertion hole (not shown) through which the fixing bolt 6 is inserted is formed through the center of the intermediate plate portion 33.

  Therefore, in this fixing member 31, one pressing piece 34 presses and fixes the upper surface of the outer peripheral edge portion of the solar panel 4 placed on the front side portion of the mounting plate portion 5 from above, and the other pressing piece 34 is fixed to the front. The upper surface of the outer peripheral edge portion (metal frame portion 29) of the solar panel 4 placed on the rear side portion of the placement plate portion 5 is configured to be pressed and fixed from above (see FIG. 4).

  Further, although not shown, an end fixing member in which the pressing piece 34 exists only on one side may be used for fixing the end position of the solar panel 4 that is adjacently installed.

In the metal fitting body 3 of this configuration example configured as described above, the pair of sandwiching bodies 7 and the guide body 8 including the mounting plate portion 5 are easily integrally formed from a single metal plate material by progressive pressing. It has been confirmed by the applicant's prototype experiment that the mounting plate portion 5 having a width sufficient to mount the outer peripheral edge portion of the solar panel 4 can be formed.

  Reference numeral 40 in the figure denotes a washer.

For the specific embodiment of the present invention will be described with reference to FIGS. 5-9.

In this embodiment, unlike the configuration example described above, the mounting plate portion 5 is provided on the pair of sandwiching bodies 7. In addition, the guide plate 8 is provided with the slide plate 11 and the pair of holding members 7 are provided with guide hole portions 12 through which the slide plate 11 is slidably inserted and supported.

Hereinafter, specific description will be given, but with respect to the same configuration as the configuration example , detailed description will be omitted by attaching the same reference numerals to the drawings.

As shown in FIGS. 5 and 6, the pair of sandwiching bodies 7 according to the present embodiment extend in the form of a band plate in the front-rear direction, not the sliding plate portion 11, at the top of the sandwiching body 7 of the above-described configuration example. A band plate portion is integrally formed, and the upper band plate portion is bent to the opposite outer side of the pair of sandwiching bodies 7 so that the surface direction becomes horizontal, and the upper surface of the upper band plate portion is mounted. The mounting plate part 5 is used.

That is, the mounting plate portion 5 of the present embodiment is configured by two thin plates formed one by one on the sandwiching body 7 instead of a single plate as in the above configuration example. Although the horizontal width of the plate is small, the solar panel 4 can be stably mounted on the two mounting plate portions 5 provided at intervals on the left and right sides (see FIG. 9). Further, the mounting plate portion 5 is also longer in the front-rear direction than the front-rear width of the pair of sandwiching bodies 3 in the same manner as the configuration example , and is about 1.5 to 2 times the front-rear longitudinal width dimension of the sandwiching body 3 The solar pallet 4 is formed in a plate shape having a plate width so that the solar pal 4 can be stably placed and fixed.

  Further, the belt plate portion constituting the mounting plate portion 5 is provided with a bending reinforcing plate portion 36 by bending the front and rear side portions thereof downward substantially at a right angle so that the solar panel 4 is formed in a belt shape. The strength is such that the load can be supported.

Further, the band plate portion constituting the mounting plate portion 5 is not provided with the drainage holes 15 as in the above-described configuration example , and the bundling tool through-holes 35 are formed through the front and rear intermediate positions.

  Further, the pair of sandwiching bodies 7 are formed with longitudinally slit-shaped guide hole portions 12 penetratingly formed at the front and rear positions of the intermediate plate portion 21.

  On the other hand, as shown in FIG. 6, the guide body 8 of this embodiment is composed of a plate material bent body 8 obtained by bending a single metal plate material, and includes a front plate portion 37, a top plate portion 38, and a rear plate portion. It is formed in a plate material bent body 8 having a U-shaped side view, which includes a face plate portion 39.

  Further, on the left and right sides of the front plate portion 37, the top plate portion 38, and the rear plate portion 39 of the bent plate member 8, strip plates extending outwardly in a band shape are formed. The slide plate portion 11 is configured such that the slide plate portions 11 protruding from the front plate portion 37 and the rear plate portion 39 are slidably inserted and supported in the guide hole portions 12 formed in the pair of holding members 7. In this case, as shown in FIGS. 7 and 8, the front plate portion 37 and the rear plate portion 39 are disposed so as to cover the front and rear of the tightening bolt 9, and the slide plate protrudes from the top plate portion 38. The hanging lengths of the front plate portion 37 and the rear plate portion 39, the positions where the slide plate portions 11 are formed, and guides so that the plate portion 11 is slidably placed along the upper surface portion of the placement plate portion 5 in a slidable manner. The formation position of the hole 12 is set and configured.

  Further, the bolt mounting hole 14 is formed through the top plate portion 38 of the plate material bent body 8, and the fixing bolt 6 is fixed to the top plate portion 38. Further, in the top plate 38, cuts are formed on both the left and right sides of the bolt mounting hole 14, and by pressing the cut from above, a non-rotating projection 41 is provided on the bottom surface of the top plate 38, The left and right rotation-preventing protrusions 41 abut against or are close to the opposite two side surfaces of the head of the fixing bolt 6 inserted from below the top plate 38 into the bolt mounting hole 14 to prevent the fixing bolt 6 from rotating. Thus, it is possible to easily rotate and tighten the mounting nut 27 and the fixing nut 30 screwed onto the fixing bolt 6.

  Also in the metal fitting body 3 of the present embodiment configured as described above, the pair of sandwiching bodies 7 and the guide bodies 8 provided with the placing plate portion 5 can be easily formed from a single metal plate material by progressive pressing. It has been confirmed by the applicant's prototype experiment that the mounting plate portion 5 having a plate width sufficient for mounting the outer peripheral edge portion of the solar panel 4 can be formed.

Other configurations are the same as those in the above-described configuration example (some components are not present, but descriptions thereof are omitted).

Note that the present invention is not limited to this embodiment, and the specific configuration of each component can be designed as appropriate.

DESCRIPTION OF SYMBOLS 1 Folded plate roof 2 Seam part 3 Metal fitting body 4 Solar panel 5 Mounting plate part 6 Fixing bolt 7 Clamping body 8 Guide body 9 Tightening bolt
10 nuts
11 Slide plate
12 Guide hole
13 Bolt insertion hole
14 Bolt mounting hole

Claims (2)

The top of the fixable bracket body goby portion of the folded plate roof and vertical roofing, the outer peripheral edge portion can be placed mounting plate part is provided with Rutotomoni solar panels were placed on the mounting plate portion In the solar panel mounting bracket in which fixing bolts for fixing the solar panel are provided in an upright state, the bracket body includes a pair of left and right sandwiching bodies that sandwich and fix the goby portion from the left and right, and the pair of sandwiching bodies be disposed between consists of a guide body for guiding the contact and separation sliding movement between the pair of holding member, said pair of fastening bolts between holding member is bridged, the fastening bolt or fastening rotating this is configured so as to fixedly hold the goby part nut which is screwed fastening bolts the guide body is brought close sliding the pair of holding member through by turning tightening, the pair The sandwich and the guy And body is composed of plate material, plate material constituting the pair of holding member has its upper is formed in bent plate portion for bent sideways, this bent plate portion, the front and rear or right and left Are formed in a shape having a plate width in the front-rear direction or the left-right direction in which the outer peripheral edge portions of the two solar panels arranged side by side can be placed and fixed in an adjacent state. The solar panel mounting bracket according to claim 1 , wherein the fixing bolt is provided in an upright state on an upper portion of the guide body. The plate member that constitutes the pair of sandwiching bodies is formed with a slide plate portion that protrudes toward the opposite inside of the pair of sandwiching bodies, and a guide hole portion that can be slidably inserted and supported by the slide plate portion. either formed in the plate material constituting the guide body or the plate material constituting the guide member, the slide plate part projecting toward the both outer sides of the guide body is formed, slidable with the slide plate part insert supportable guide hole portion is formed in a plate member constituting the front Symbol pair of holding bodies, the guide hole of the slide plate part by inserting supporting the pair of clamping bodies are guide body the is configured so as to be freely and away slid through, the plate material constituting the pair of holding members, bolt insertion holes for inserting the fastening bolt is formed, the plate material constituting the guide body , Solar panel mounting bracket according to claim 1, wherein the bolt mounting holes for attaching the serial fixing bolt is formed.

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