JP4578184B2 - Solar panel support bracket - Google Patents

Description

The present invention relates to a solar panel support fitting used when a solar panel (including a solar water heater and a solar battery) is attached to a tiled roof.

When a solar panel is mounted on a tile roof, for example, as described in Patent Document 1, a tile (aluminum tile) made of aluminum or the like and a mounting bracket attached thereto is proposed. It was.
In addition, a wide wooden board is fixed on a ground board (underlying material) covered with a waterproof sheet, and fixing brackets partially covering the tiles are attached on the wooden board. The solar panel was fixed to the roof via this fixing bracket. Of course, the wooden board was fixed to the rafters supporting the field board through nails and the like.

JP-A-6-158792 (FIGS. 1 to 3)

However, in the technique described in Patent Document 1, a solar panel is directly attached to an aluminum roof tile. However, the roof tile made of aluminum is the same as other earthenware or cement roof tiles. Since it is attached to a base plate having a relatively low strength, there is a problem that the attached solar panel is detached when there is a large typhoon or the like.
When the solar panel is supported using the fixing bracket, there is a problem that the load of the solar panel is also covered on the roof tile via the fixing bracket, and the roof tile (especially cement roof tile) is easily broken. In addition, since the fixing bracket is disposed in the lower part of the roof tile (that is, the rainwater passage), the drainage is deteriorated, which causes rain leakage.

The present invention has been made in view of such circumstances, and an object of the present invention is to provide a solar panel support metal fitting that can be easily fixed to a rafter that supports the entire roof, has a long life, and is unlikely to cause rain leakage or the like.

The solar panel support bracket according to claim 1 is a solar panel support bracket that attaches a solar panel to a roof in which tiles are arranged side by side on a base material provided on a plurality of rafters arranged with a gap therebetween. And
(1) A mounting bracket having a base plate fixed on the base material, and a support member which is provided on the base plate and which is erected on and fixed to the base plate. When,
(2) The base plate is disposed in a state of being pressed between the pair of support pillars directly above the base plate and protruding from both sides of the base plate to the rafter via screws or nails. And a long metal plate fixed to the base material.

The solar panel support metal fitting according to claim 2 is a solar panel support metal fitting for attaching a solar panel to a roof in which tiles are arranged on a base material provided on a plurality of rafters arranged with a gap. And
(1) A metal long plate fixed to the rafters from above the base material via screws or nails;
(2) A base plate fixed on the base material, a lower portion having a penetrating portion through which the long plate is inserted in the lateral direction, a lower end fixed to the base plate, and an upper portion provided with screwing means. And a mounting bracket having a supported member.

Solar panel support fitting according to claim 3, wherein, in the solar panel support fitting according to claim 1, wherein the screwing means, sectional inverted U-shape which is disposed to bridge over the supporting pillars forming the pair And a height adjusting means for adjusting the height of the mounting frame of the solar panel.

The solar panel support metal fitting according to claim 4 is the solar panel support metal fitting according to claim 2 , wherein the screwing means is provided with a height adjusting means for adjusting a height of the mounting frame of the solar panel. ing.

The solar panel support metal fitting according to claim 5 is the solar panel support metal fitting according to claim 3 or 4 , wherein the height adjusting means is a long male screw, a female screw screwed into the male screw, and the male screw. And a mounting table provided on the female screw.

The solar panel support fitting according to claim 6 is the solar panel support fitting according to claims 1 to 5 , wherein the long plate is provided with mounting holes at small intervals in the length direction.

In the solar panel support bracket according to any one of claims 1 to 6, the base plate constituting the solar panel support bracket mounted on the base material is fixed to the rafter using a long plate mounted on the base plate. The board can be firmly fixed to the rafter.

In the solar panel support metal fitting according to claim 3 , since the height adjusting means that enables the height adjustment of the solar panel mounting frame via the fixing metal fitting is provided in the screwing means, for example, the shape of a tile Alternatively, the solar panel can be attached to the mounting frame after the height of the mounting frame is adjusted by the height adjusting means according to the installation position. Therefore, the solar panel can be easily attached to the attachment frame without applying an uneven load to the solar panel.

In the solar panel support fitting according to claim 4 , since the height adjusting means that enables the height adjustment of the solar panel mounting frame is provided in the screwing means, for example, according to the shape of the roof tile or the installation position. Thus, after the height of the mounting frame is adjusted by the height adjusting means, the solar panel can be mounted on the mounting frame. Therefore, the solar panel can be easily attached to the attachment frame without applying an uneven load to the solar panel.

In the solar panel support metal fitting according to claim 5 , the height adjusting means has a long male screw, a female screw to be screwed into the male screw, a through-hole to be inserted into the male screw, and provided on the female screw. Since the mounting table is provided, the position of the mounting frame in the height direction can be adjusted with a simple configuration.
And in the solar panel support metal fitting of Claim 6, since the attachment hole is formed in the length direction at small intervals (for example, 3-6 cm) in the metal long board, a rafter (usually 4 One of the mounting holes is positioned above (˜8 cm), and the solar panel support bracket can be easily fixed to the rafters by screws or the like through any of the mounting holes.

Next, embodiments of the present invention will be described with reference to the accompanying drawings for understanding of the present invention.
Here, FIG. 1 is a perspective view showing the mounting structure of the solar panel support fitting according to the first embodiment of the present invention, and FIGS. 2A to 2C are respectively used for the mounting structure of the solar panel support fitting. FIG. 3 is a perspective view of a solar panel support metal fitting according to a modification of the solar panel support metal fitting mounting structure. FIG. 4 is a perspective view showing a mounting structure of a solar panel support bracket according to the second embodiment of the present invention, and FIGS. 5A to 5C are mounting brackets used for the mounting structure of the solar panel support bracket, respectively. It is a top view, a front view, and a side view. FIG. 6 is a perspective view showing a mounting structure of a solar panel support fitting according to the third embodiment of the present invention, and FIGS. 7A to 7C are plan views and front views of the mounting fitting of the solar panel support fitting, respectively. It is a figure and a side view. FIG. 8 is a perspective view showing an attached state of the solar panel.

As shown in FIG. 1 and FIG. 2, the solar panel support fitting 10 used in the solar panel support fitting mounting structure according to the first embodiment of the present invention is entirely made of, for example, a stainless steel material. It has a mounting bracket 11 for fixing the panel to the upper part and a long plate 12 used in combination with the mounting bracket 11. The mounting bracket 11 includes a base plate 15 fixed on a base material 14 placed on a plurality of rafters 13 arranged with a gap, and a support member 16 erected on the base plate 15. Have. In this embodiment, the base plate 15 is made of a plate having a thickness of 3 to 5 mm, a length of 15 to 25 cm, and a width of 3 to 6 cm, for example. The base material 14 usually includes a field board 17, a waterproof sheet 18, and a pier 19 attached on the rafter 13.

The support member 16 has support columns 20 and 21 that face each other with a gap (for example, 4 to 6 cm) therebetween. Each of the support columns 20 and 21 is made of a plate material having a thickness of 4 to 6 mm, a height of 11 to 15 cm, and a width of 2.8 to 3.5 cm, and its lower end is welded to the base plate 15. A connecting plate 22 is provided between the support columns 20 and 21 below the center in the vertical direction, and the height between the connecting plate 22 and the base plate 15 is 1 to 2 cm and the width is 4.5. It has a gap (through portion) 23 of ˜5 cm. The width of the connecting plate 22 in the height direction is about 4 cm. In addition, reinforcing ribs 24 and 25 are provided outside the support columns 20 and 21.

The above-described long plate 12 has a thickness of 2.5 to 4 mm, a width of 4 to 4.2 cm, and a length of 50 to 80 cm, and is lateral to the gap 23 formed on the base plate 15 of the mounting bracket 11. It is designed to be freely movable in the direction. Since the support columns 20 and 21 are provided on both sides in the longitudinal direction of the gap 23, the long material 12 inserted into the gap 23 has a structure that cannot freely move in the longitudinal direction.
As shown in FIG. 1, the long plate 12 is provided with two mounting holes 26 and 27 in the longitudinal direction (width direction) at intervals of 3 to 5 cm in the length direction (lateral direction). . The mounting holes 26 and 27 are tapered so as to expand in diameter on the surface side, and a head of a countersunk screw 30 which is an example of a screw or a nail is fitted therein. In addition, as shown by a two-dot chain line in FIG. 3, the long plate 12 is attached with an inner width in the length direction of, for example, 3 to 5 cm at intervals of 3 to 5 cm in the length direction (lateral direction). It is also possible to provide a long hole 28 which is an example of a hole. The long hole 28 has a tapered shape that expands to the surface side, and is configured to fit a head of a countersunk screw 30 that is an example of a screw or a nail. The position adjustment (fine adjustment) of the scale plate 12 is enabled (see FIG. 1).

Therefore, when the solar panel support fitting 10 is attached to the roof, as shown in FIG. 1, the attachment fitting 11 is arranged at a predetermined position, and the attachment hole formed in the base plate 15 (the diameter is increased in the vertical direction). A countersunk screw is screwed into the countersunk screw hole 29 to fix the base plate 15 on the base plate 17. Next, the long plate 12 is inserted into the gap 23 of the mounting bracket 11 and moved appropriately so that the mounting holes 26 and 27 of the long plate 12 are positioned on at least two rafters 13. The long plate 12 is fixed to the rafter 13 with the countersunk screw 30. As a result, the base plate 15 is pressed and more firmly fixed to the rafter 13 and the field plate 17 thereon.
In the case where the long hole 28 is provided in the long plate 12, first, the countersunk screw 30 is screwed into the long hole 28, and the long plate 12 is temporarily fixed to the rafter 13. The longitudinal plate 12 can be fixed to the rafter 13 with a countersunk screw 30 by adjusting the position in the length direction so that the mounting holes 26 and 27 of the long plate 12 are positioned on at least two rafters 13.

Next, the roof tile 31 is placed on the solar panel support fitting 10. An opening 33 is formed in the peak portion 32 of the roof tile 31 in advance. The size of the opening 33 is such that the upper portions of the opposing support columns 20 and 21 (that is, the support member 16) can freely protrude. The periphery of the opening 33 is flat, and the support pillars 20 and 21 are covered with a cover plate 36a having holes 34 and 35 protruding individually, and the periphery is sealed with a sealing material (caulking material). Rain leakage can be prevented. In addition, as the roof tile 31, for example, the registered design No. 1117289 can be used.
Since screw holes (through holes) 36 and 37 which are examples of screwing means (screw retaining means) are provided on the upper portions of the support pillars 20 and 21 of the mounting bracket 11, the screw holes 36, 37 can be used to fix a solar panel (not shown). In addition, it is preferable to provide at least four such mounting brackets 11 around the solar panel.

Further, as shown in FIG. 3, the screw holes 36 and 37 have an inverted U-shaped (concave) or U-shaped cross section that is disposed over the upper support pillars 20 and 21 from the upper outer side. It is also possible to provide a height adjusting means 53 that allows the height of a mounting frame (not shown) of the solar panel to be adjusted.
The height adjusting means 53 has a bolt 55 which is an example of a long (for example, about 5 to 10 cm) male screw attached to the upper plane portion of the fixing bracket 54. The upper end surfaces of the support columns 20 and 21 are in contact with the lower surface of the upper support portion 56 of the fixing bracket 54.
Fixing holes 57 and 58 are provided on both side wall portions of the fixing bracket 54 at the same positions as the screw holes 36 and 37 of the support pillars 20 and 21, respectively. The fixing bracket 54 is attached and fixed to the support columns 20 and 21 by screws 59 inserted through the fixing holes 57 and 58. Further, a lower end portion of a bolt 55 inserted from below the upper support portion 56 is attached to the upper support portion 56 of the fixing bracket 54, and a nut 60 screwed to the bolt 55 from the upper surface of the upper support portion 56 is used. Its position is fixed.

Further, the height adjusting means 53 has a mounting plate (an example of a mounting table) 61 provided so that the height of the bolt 55 can be adjusted in the height direction. The mounting plate 61 is an example of a female screw that is provided with a through hole 60 a in the center, a bolt 55 is inserted into the through hole 60 a, and is disposed on the lower surface side of the mounting plate 61 and screwed into the bolt 55. The height position of the nut 62 can be adjusted via the washer 63. It is also possible to screw the through hole 60 a of the mounting plate 61 and screw it to the bolt 55.
Thereby, for example, the height of the mounting plate 61 can be adjusted in the height direction of the bolt 55 according to the shape or arrangement position of the roof tile 31. In this embodiment, the height adjusting means 53 is formed by including a bolt 55, a nut 62 and a mounting plate 61.

Then, after mounting a solar panel mounting frame (not shown) on the mounting plate 61, the mounting frame is attached to the washer 65 by a nut 64 which is screwed to the bolt 55 and disposed on the upper surface side of the mounting frame. It fixes on the mounting board 61 via. In use, a double nut using two nuts is used in order to prevent the nut 64 from loosening.
Thus, since the height position of the attachment frame can be adjusted by the height adjusting means 53, the upper surfaces of all the attachment frames attached to the roof can be arranged in substantially the same plane, and the solar panel can be easily attached.

Next, a solar panel support fitting 39 according to the second embodiment of the present invention will be described with reference to FIGS. 4 and 5 (note that the same components as those in the first embodiment are the same as those in the first embodiment). Numbers are omitted and detailed explanations are omitted).
As shown in FIGS. 4 and 5, the solar panel support bracket 39 used in the solar panel support bracket mounting structure according to the second embodiment of the present invention is made of stainless steel, , And a long plate 41 used in combination with the mounting bracket 40.

The mounting bracket 40 includes a base plate 42 fixed on the base material 14 and a support member 43 erected on the base plate 42. In this embodiment, the base plate 42 is made of a stainless steel plate having a thickness of 3 to 5 mm, a length of 15 to 25 cm, and a width of 3 to 6 cm, for example.
The support member 43 is made of a stainless steel plate (thickness: 3 to 5 mm) bent in an inverted L shape, and the lower end portion of the support member 43 is interposed between reinforcing ribs 44 and 45 disposed on both sides of the lower portion. It is welded to. Therefore, a gap (penetrating portion) 46 (similar to the gap 23 of the first embodiment) is formed between the lower end portion of the support member 43 and the base plate 42.

The ribs 44 and 45 are for preventing the support member 43 from falling and forming a gap 46. A mounting portion 47 is formed on the upper portion of the support member 43, and a long hole 48, which is an example of a screwing means (screw fastening means), is provided in this portion so that a part of a solar panel (not shown) is attached. It has become. In addition, the distance from the base board 42 to the mounting part 47 is 8-20 cm, for example. The height of the ribs 44 and 45 is lower than the bottom height of the peak portion 50 of the roof tile 49 (see FIG. 4) to be used, and the ribs 44 and 45 enter the lower space of the peak portion 50 of the roof tile 49. Yes.
Since the long plate 41 is the same as the long plate 12 used in the first embodiment, the description thereof is omitted.

Therefore, when this solar panel support bracket 39 is used, the base plate 42 is fixed to a predetermined position on the base material 14 using a plurality of mounting holes (holes for countersunk screws) 51a provided in the base plate 42. Secure to. Next, the long plate 41 is inserted into the gap 46 of the mounting bracket 40 and appropriately moved in the lateral direction so that the position of at least two mounting holes 26 and 27 of the long plate 41 is directly above the rafter 13. To be located. A countersunk screw 30 reaching the lower rafter 13 is inserted into the mounting holes 26 and 27, and the long plate 41 is firmly fixed to the rafter 13 while pressing the base plate 42 with the long plate 41.

Next, the tile 49 is placed on the base material 14, and a linear notch 51 is formed above the peak portion 50 in the tile 49 placed on the portion where the mounting bracket 40 is provided. The notch 51 has a width and a length through which the column portion 52 of the support member 43 is inserted. As a result, the mounting portion 47 of the support member 43 protrudes from the roof of the roof tile 49, so that the solar panel is fixed on the roof via the mounting bracket 40.

Next, a solar panel support fitting 66 according to a third embodiment of the present invention will be described with reference to FIGS. 6 and 7 (note that the same components as those in the above embodiment are given the same numbers). And the detailed explanation is omitted).
As shown in FIGS. 6 and 7, the solar panel support fitting 66 is made of a stainless steel material, and includes a mounting bracket 67 and a long plate 68 used in combination with the mounting bracket 67.

The mounting bracket 67 has a base plate 69 fixed on a base material (not shown) and a support member 70 erected on the base plate 69. The base plate 69 is substantially T-shaped in plan view. In this embodiment, for example, the thickness is 3 to 5 mm, the total length is 10 to 15 cm, the minimum width is 3 to 6 cm, and the long plate The length L of the portion orthogonal to 68 is 15 to 25 cm, and the width is 3 to 6 cm.
The support member 70 is made of a stainless plate (thickness: 3 to 5 mm) bent into an inverted L shape, and the lower end portion thereof is provided with reinforcing ribs 71 and 72 arranged on one side of the support member 70. The base plate 69 is welded. Therefore, a gap (penetrating portion) 73 (similar to the gap 23 of the first embodiment) is formed between the lower end portion of the support member 70 and the base plate 69.

The ribs 71 and 72 are for preventing the support member 70 from falling and forming a gap 73. A fixing portion 74 is formed on the upper portion of the support member 70, and a screw hole (through hole) 75, which is an example of a screwing means (screw retaining means), is provided in this portion. In addition, the distance from the base plate 69 to the fixing | fixed part 74 is 8-20 cm, for example. The heights of the ribs 71 and 72 are adjusted so that the same effects as the ribs 44 and 45 of the second embodiment can be obtained.
Since the long plate 68 is the same as the long plate 12 used in the first embodiment, the description thereof is omitted.

Further, the screw hole 75 is provided with a height adjusting means 77 that enables the height of the mounting frame 76 (see FIG. 8) of the solar panel 93 to be adjusted.
The height adjusting means 77 has a bolt 78 which is an example of a long (for example, about 5 to 10 cm) male screw attached to the screw hole 75. The bolt 78 is inserted through the screw hole 75 from below the fixing portion 74 of the support member 70, and a lower end portion of the bolt 78 is attached to the fixing portion 74. The position is fixed.
Further, the height adjusting means 77 has a mounting plate (an example of a mounting table) 80 provided so that the height of the bolt 78 can be adjusted in the height direction.

The mounting plate 80 is an example of a female screw that is provided with a through hole 80a at the center, a bolt 78 is inserted into the through hole 80a, and is placed on the lower surface side of the mounting plate 80 and screwed into the bolt 78. The height of the nut 81 can be adjusted via a washer 82. It is also possible to screw a through hole 80 a of the mounting plate 80 and screw it to the bolt 78.
Thereby, for example, the height of the mounting plate 80 can be adjusted in the height direction of the bolt 78 in accordance with the shape or arrangement position of the roof tile. In this embodiment, a height adjusting means 77 is formed having a bolt 78, a nut 81, and a mounting plate 80.

And while inserting the upper part of the volt | bolt 78 in the elongate hole 84 formed in the upper part of the vertical frame (it is also called a vertical rack) 83 which became a cross-sectional reverse concave shape which comprises some attachment frames 76 (long hole 84's). The vertical frame 83 is mounted on the mounting plate 80 in a direction orthogonal to the long plate 68, which may be holes 84 a and 84 b provided on the sides. Next, the vertical frame 83 is fixed onto the mounting plate 80 via a washer 86 by a nut 85 screwed to the bolt 78 and disposed on the upper surface side of the vertical frame 83. After fixing the vertical frame 83 on the mounting plate 80, a horizontal frame (also referred to as a horizontal rack) 87 having a concave cross section is mounted on the upper surface of the vertical frame 83 in a direction perpendicular to the vertical frame 83. The vertical frame 83 and the horizontal frame 87 are fixed using a bolt 88, a washer 89, and a nut 90.
In this way, by adjusting the height position of the mounting frame 76 using the height adjusting means 77, as shown in FIG. 8, all the mounting frames 76 attached to the roof, that is, the upper surfaces of the horizontal frames 87. Can be arranged on substantially the same plane, and the solar panel 93 can be easily attached.

When this solar panel support metal fitting 66 is used, the base plate 69 is fixed to the base material by using a plurality of mounting holes (drill screw holes) 91 and 92 provided in the base plate 69. Fix in position. Next, the long plate 68 is inserted into the gap 73 of the mounting bracket 67 and is appropriately moved in the length (lateral) direction, so that the position of the at least two mounting holes 26 and 27 of the long plate 68 is the rafter. It is located immediately above (not shown). A countersunk screw (not shown) reaching the lower rafter is put into the mounting holes 26 and 27, and the long plate 68 is firmly fixed to the rafter while pressing the base plate 69 with the long plate 68.
Then, as in the second embodiment described above, roof tiles are placed on the base material.

Further, as shown in FIG. 8, when installing the solar panel 93 on the mounting frame 76, on the adjacent horizontal frame 87 arranged at predetermined intervals (width of the solar panel 93, for example, about 50 cm to 5 m). A solar panel 93 is disposed on the surface. Then, both sides of the solar panel 93 placed on the horizontal frame 87 are fixed to the horizontal frame 87 using a fixing plate (not shown). Before attaching and fixing the solar panel 93 to the horizontal frame 87, the connector 95 of the power transmission line 94 connected to the storage battery (not shown) is connected to the solar panel 93.
Thereby, the solar panel 93 can be firmly fixed to the tile roof.
In the third embodiment, the vertical frame 83 is placed on the placement plate 80. However, in the modification of the first embodiment, as shown in FIG. For example, a vertical frame of the solar panel mounting frame is placed.

In the first and second embodiments, the positions of the openings 33 of the roof tile 31 and the notches 51 of the roof tile 49 are determined by the positions where the roof tiles 31 and 49 are arranged. It will be decided to.
The solar panel is usually fixed to the roof via four or more mounting brackets 11 and 40, but the height of the solar panel mounting dimension is not the same as that of the mounting brackets 11 and 40. When the means is not provided, the solar panel is fixed to the mounting brackets 11 and 40 using another auxiliary metal fitting for position adjustment (made of stainless steel).

In the embodiment described above, specific dimensions are used for easy understanding, but the present invention is not limited to these dimensions. Moreover, although the shape of each member is also described specifically, the shape of each member can be changed without changing the gist of the present invention.

The solar panel can be firmly fixed to the tile roof by the solar panel support bracket mounting structure and the solar panel support bracket according to the present invention.

It is a perspective view which shows the attachment structure of the solar panel support metal fitting which concerns on the 1st Embodiment of this invention. (A)-(C) are the top view, front view, and side view of a mounting bracket used for the mounting structure of the solar panel support bracket, respectively. It is a perspective view of the solar panel support metal fitting which concerns on the modification of the attachment structure of the same solar panel support metal fitting. It is a perspective view which shows the attachment structure of the solar panel support metal fitting which concerns on the 2nd Embodiment of this invention. (A)-(C) are the top view, front view, and side view of a mounting bracket used for the mounting structure of the solar panel support bracket, respectively. It is a perspective view which shows the attachment structure of the solar panel support metal fitting which concerns on the 3rd Embodiment of this invention. (A)-(C) are the top view, front view, and side view of the mounting bracket of the solar panel support bracket, respectively. It is a perspective view which shows the attachment state of a solar panel.

10: Solar panel support bracket, 11: Mounting bracket, 12: Long plate, 13: Rafter, 14: Base material, 15: Base plate, 16: Support member, 17: Field plate, 18: Waterproof sheet, 19: Pier 20, 21: support column, 22: connecting plate, 23: gap, 24, 25: rib, 26, 27: mounting hole, 28: long hole, 29: mounting hole, 30: countersunk screw, 31: roof tile, 32 : Mountain part, 33: Opening part, 34, 35: Hole, 36, 37: Screw hole, 36a: Lid plate, 39: Solar panel support bracket, 40: Mounting bracket, 41: Long plate, 42: Base plate, 43: support member, 44, 45: rib, 46: gap, 47: placement part, 48: long hole, 49: roof tile, 50: mountain part, 51: notch, 51a: mounting hole, 52: pillar part, 53: Height adjusting means, 54: Fixing bracket, 55: Bolt, 56: Upper support part, 57, 5 : Fixing hole, 59: Screw, 60: Nut, 60a: Through hole, 61: Mounting plate, 62: Nut, 63: Washer, 64: Nut, 65: Washer, 66: Solar panel support bracket, 67: Mounting bracket , 68: long plate, 69: base plate, 70: support member, 71, 72: rib, 73: gap, 74: fixing part, 75: screw hole, 76: mounting frame, 77: height adjusting means, 78 : Bolt, 79: nut, 80: mounting plate, 80a: through hole, 81: nut, 82: washer, 83: vertical frame, 84: long hole, 84a, 84b: hole, 85: nut, 86: washer, 87: Horizontal frame, 88: Bolt, 89: Washer, 90: Nut, 91, 92: Mounting hole, 93: Solar panel, 94: Transmission line, 95: Connector

Claims (6)

A solar panel support bracket for attaching a solar panel to a roof on which tiles are arranged on a base material provided on a plurality of rafters arranged with a gap,
(1) A mounting bracket having a base plate fixed on the base material, and a support member which is provided on the base plate and which is erected on and fixed to the base plate. When,
(2) The base plate is disposed in a state of being pressed between the pair of support pillars directly above the base plate and protruding from both sides of the base plate to the rafter via screws or nails. A solar panel support bracket, comprising: a metal long plate fixed to the base material. A solar panel support bracket for attaching a solar panel to a roof on which tiles are arranged on a base material provided on a plurality of rafters arranged with a gap,
(1) A metal long plate fixed to the rafters from above the base material via screws or nails;
(2) A base plate fixed on the base material, a lower portion having a penetrating portion through which the long plate is inserted in the lateral direction, a lower end fixed to the base plate, and an upper portion provided with screwing means. A solar panel support bracket, comprising: a mounting bracket including a support member provided. The solar panel support metal fitting according to claim 1 , wherein the screwing means is attached with an inverted U-shaped fixing metal fitting arranged over the pair of supporting pillars, and the fixing metal fitting is attached to the fixing metal fitting. A solar panel support metal fitting, characterized in that a height adjusting means is provided for adjusting a height of a mounting frame of the solar panel. 3. The solar panel support bracket according to claim 2 , wherein the screwing means is provided with a height adjusting means capable of adjusting a height of a mounting frame of the solar panel. . 5. The solar panel support fitting according to claim 3 , wherein the height adjusting means includes a long male screw, a female screw that is screwed to the male screw, and a through-hole that is inserted through the male screw. A solar panel support bracket comprising a mounting table provided on the top. The solar panel support metal fitting according to any one of claims 1 to 5 , wherein the long plate is provided with mounting holes at small intervals in the length direction.

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