JP2013155596A - Frame for installing solar battery panel - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a frame for installing a solar battery panel, allowing labor in installation of the solar battery panel to be simplified and installation cost to be reduced.SOLUTION: A frame 100 for installing a solar battery panel 1 on an installation surface 2 of a wall or a roof consists of: an attachment part 370 having one surface and the other surface, and a long side and a short side, and installed with the other surface directed to an installation surface 2; a first holding part 32 provided with a holding member 300 extending from one end of the short side direction of the attachment part 370 to one surface side of the attachment part 370 and having a pair of holding parts by spanning and supporting the solar battery panel 1, the pair of holding parts being formed from one end of the short side direction of the attachment part 370 to one surface side; and a second holding part 33 formed from the other end of the short side direction of an attachment surface to one surface side. The second holding part 33 is formed more closer to the attachment part 370 than to the first holding part 32.

Description

  The present invention relates to a mount used for installing a solar cell panel in a building.

  In recent years, the introduction of power generation systems using solar cell panels has become active due to the serious environmental problems and energy depletion problems accompanying the expansion of fossil fuel consumption. However, the solar cell panel and its installation cost are expensive. Therefore, various ideas have been made to reduce the cost associated with the introduction of a power generation system using a solar battery panel.

  For example, the periphery of the solar cell panel 101 shown in FIG. 17 is sandwiched between a frame member 102 having long legs 102a and a frame member 103 having short legs 103a. The frame members 102 and 103 are screwed to the roof via spacers 104 having inclined portions, so that the solar cell panel 101 is fixed to the roof surface with a predetermined inclination. Therefore, a separate stand is unnecessary, and the cost required for installing the solar cell panel 101 is reduced.

  However, installation of the solar cell panel 101 requires time-consuming work of attaching two types of frame members 102 and 103 to all the solar cell panels to be installed and fixing them to the roof surface. It was a thing.

Japanese Patent No. 3297277

  The present invention is an invention made by paying attention to the above-mentioned problems, and it is an object of the present invention to provide a mount for installing a solar cell panel that simplifies the labor for installing the solar cell panel and reduces the installation cost. .

As means for solving the above problems, the present invention is a pedestal for installing a solar cell panel on a wall or roof installation surface,
A mounting portion that has one side and the other side and a long side and a short side, and the other side is installed toward the installation surface, and extends from one end in the short direction of the mounting unit to one side of the mounting unit; A first holding portion that includes a holding member having a pair of holding portions that bridge and support the solar cell panel, and the pair of holding portions are formed on one surface side from one end in a short direction of the mounting surface. And a second holding portion formed on the one surface side from the other end in the short direction of the attachment portion, and the second holding portion is formed closer to the attachment portion than the first holding portion. It is characterized by that.

  Further, the pair of holding portions extends in the longitudinal direction of the solar cell panel, and the longitudinal dimension of the pair of holding portions is at least twice the longitudinal dimension of the solar cell panel.

  In addition, a coupling member fixed along the installation surface is provided, and the attachment portion extends from the first attachment portion, a first attachment portion arranged to face the installation surface, and the coupling member And a second attachment portion attached to the head.

  In addition, the second attachment portion is a recess formed in the longitudinal direction at the center of the attachment portion in the short direction and opening to the other surface side of the attachment portion.

  In addition, a part of the coupling member attached to the second attachment portion projects from the second attachment portion.

  The coupling member may include a step portion formed toward the second attachment portion, and the second attachment portion may include a claw portion that can be locked to the step portion. .

  The first holding part includes a vertical part extending perpendicularly to the installation surface and a parallel part extending parallel to the installation surface from the vertical part. .

  The vertical portion has one surface, and the holding member is formed in plane symmetry with the mounting portion and the pair of holding portions with a plane including the one surface as a symmetrical surface. It is characterized by providing the holding | maintenance part.

  A plate having a pattern and / or color is provided, and the plate is attached to either the pair of holding portions or the other pair of holding portions.

  In the gantry of the present invention, only the mounting portion of the holding member needs to be arranged on the installation surface. Thus, since the number of parts and installation man-hours of the gantry are small, the installation work can be simplified and the installation time can be shortened, and the cost for introducing the power generation system using the solar battery panel can be reduced.

  Moreover, since the longitudinal dimension of a pair of holding | maintenance part is 2 times or more of the longitudinal dimension of a solar cell panel, several solar cell panel can be attached to a set of mounts. Therefore, the installation work can be further simplified.

  In addition, since the coupling member fixed to the installation surface is provided and the holding member has the second attachment portion that can be attached to the coupling member, the holding member can be installed without driving a screw into the roof surface. Therefore, the occurrence of rain leakage can be prevented.

  Moreover, since the 2nd attaching part is formed in the center of the attaching part, the holding member can improve the stability of the installed mount frame.

  Further, since a gap is formed between the installation surface and the holding member, it is possible to prevent rainwater flowing along the installation surface from entering the gantry. In addition, in the installation work, the handling of the holding member is improved.

  Moreover, when attaching a holding member to a coupling member, a nail | claw part can be hooked on a step part and a holding member can be screwed. For this reason, attachment of a holding member becomes easy and it can reduce the burden concerning installation work, and a staff.

  In addition, the first holding part extends perpendicularly from the one end of the attachment part to the installation surface, and the second holding part extends from the other end of the band-like attachment part to be narrower than the first holding part. Therefore, the solar cell panel held by the pair of holding portions is installed inclined with respect to the installation surface. Therefore, even when fixed to a flat installation surface, the solar cell panel body can receive sunlight efficiently at an appropriate angle.

  Further, the holding member can hold the two solar cell panels in a symmetrical manner by the two pairs of holding portions formed in plane symmetry. Therefore, even if the position of the sun changes, the light receiving surface of one of the solar battery panels receives sunlight optimally, and the power generation efficiency can be improved.

Moreover, if a company name etc. are described on a board, it can also be used as a nameplate. Furthermore, if a plurality of mounts are arranged vertically and horizontally on the wall of the building, it can be used as a signboard.

It is sectional drawing along the width direction of an attaching part which shows the installation aspect of the mount frame of Example 1. FIG. It is the perspective view which showed the mount frame and solar cell panel of Example 2. FIG. It is sectional drawing along the width direction of the attaching part which shows the installation aspect of the mount frame of Example 2. FIG. It is sectional drawing along the width direction of the attaching part which shows the other installation aspect of the mount frame of Example 2. FIG. It is a perspective view which shows the installation aspect of the solar cell panel using the mount frame of Example 2. FIG. FIG. 6 is a perspective view showing a coupling member of Example 3. 10 is a perspective view showing a holding member of Example 4. FIG. 10 is a perspective view showing a holding member of Example 5. FIG. It is sectional drawing along the width direction of the attaching part which shows the mount frame of Example 6. FIG. It is a mount frame of Examples 7 to 9, and is a cross-sectional view along the short direction of the mounting portion. It is a mount frame of Examples 10 to 13, and is a cross-sectional view along the short direction of the mounting portion. It is a mount frame of Example 14, and is a cross-sectional view along the short direction of the mounting portion. It is the perspective view which showed the usage condition of the mount frame of Example 14. FIG. It is the perspective view which showed the other usage condition of the mount frame of Example 14. FIG. It is the block diagram which showed the illuminating device. It is the perspective view which showed the illuminating device using the mount frame of this invention. It is the figure which showed the installation aspect of the conventional solar cell panel.

  Hereinafter, the installation stand for the solar cell panel of the present invention will be described with reference to the drawings.

  As shown in FIG. 1, a gantry 100 according to the present embodiment is for installing a solar cell panel 1 on an installation surface 2 such as a roof surface or a wall surface, and includes a holding member 300.

  The holding member 300 is for holding the solar cell panel 1. The holding member 300 is integrally formed by bending a strip-shaped steel plate having a predetermined width. However, the present invention is not limited to this, and it may be formed by extrusion molding of aluminum. The longitudinal dimension is not particularly limited and can be appropriately adjusted according to the longitudinal dimension of the solar cell panel 1 and the number of solar cell panels 1 used. The holding member 300 has an attachment portion 370 and a pair of holding portions including a first holding portion 32 and a second holding portion 33.

The attachment portion 370 is disposed in contact with the installation surface 2. The attachment portion 370 extends in a band shape along the installation surface 2. A plurality of mounting holes 39 are formed at predetermined intervals in the longitudinal direction at both ends in the width direction.

  The first holding part 32 holds one end 1a of the solar cell panel 1. The first holding part 32 includes a vertical part 34 and a tip part 36. The vertical portion 34 extends from the one end 370a in the width direction of the mounting portion 370 in a strip shape perpendicular to the installation surface 2. The tip portion 36 extends in a band shape from the tip of the vertical portion 34 and is inclined at a predetermined angle with respect to the installation surface 2. A plurality of mounting holes 39 are formed on the center line extending in the longitudinal direction of the tip portion 36.

  The second holding unit 33 holds the other end 1b of the solar cell panel 1. The second holding part 33 has a strip shape. The second holding portion 33 extends from the other end 370b in the width direction of the mounting portion 370 upward at a predetermined angle with respect to the installation surface 2 so as to be narrower than the first holding portion 32. . The second holding portion 33 faces the tip portion 36 of the first holding portion 32, and the inclination angle with respect to the installation surface 2 is equal to and parallel to the tip portion 36. In addition, a plurality of mounting holes 39 are formed in the distal end portion 38 of the second holding portion 33 along the longitudinal direction at predetermined intervals.

  The holding member 300 of the present embodiment is fixed to the roof surface by screwing the screw 14 to the rafter 4 or the like through the mounting hole 39 of the mounting portion 370. Further, the solar cell panel 1 is mounted across the pair of holding portions by screwing the screws 15 into the screw holes on both side surfaces of the solar cell panel 1 through the mounting holes 39 of the tip portions 36 and 38. . The shape of each of the tip portions 36 and 38 is not limited to the present embodiment, and may be bent into a U-shaped cross section and sandwich the edge of the solar cell panel 1. Further, in order to hold the solar cell panel 1 having screw holes on the lower surface of the panel, the respective end portions 36 and 38 may be bent so as to be positioned on the same plane.

  The gantry 100 according to the present invention can be installed simply by arranging the belt-like attachment portion 370 along the installation surface 2. In this way, since the number of parts and installation man-hours of the gantry 100 are small, the installation work can be simplified and the installation time can be shortened, and the cost for introducing the power generation system using the solar battery panel 1 can be reduced. .

  As shown in FIGS. 2 and 3, the gantry 10 includes a coupling member 20, a first attachment portion 37 having an attachment portion disposed along the installation surface 2, and a first member disposed along the coupling member 20. And a holding member 30 composed of two attachment portions 31.

  The coupling member 20 fixes the holding member 30 to the installation surface 2. The connecting member 20 is a triangular prism-shaped rod-shaped body made of steel. However, it is not limited to this, and other polygonal column shapes may be used. Moreover, a steel plate may be bent and formed in a hollow shape, or wood, resin, or a combination of these and a steel material can be formed. The longitudinal dimension of the coupling member 20 is designed according to the sum of the longitudinal dimensions of the plurality of solar cell panels 1. However, the present invention is not limited to this, and may be, for example, the longitudinal dimension of one solar cell panel 1 or may be designed according to the range of the installation surface 2. The coupling member 20 has a fixed surface 21, two attachment surfaces 22, and a fixed piece 23. The fixing surface 21 is one side surface of the coupling member 20 and is disposed in contact with the installation surface 2. The attachment surface 22 is another side surface of the coupling member 20, and a plurality of screw holes 25 are formed at predetermined intervals on a center line extending in the longitudinal direction. The fixing piece 23 has a plate shape extending along the installation surface 2 from both ends of the coupling member 20. A mounting hole 24 is formed at the center of the fixed piece 23.

  The first attachment portion 37 is disposed on the installation surface 2. The first attachment portion 37 extends in a band shape along the installation surface 2. The first attachment portion 37 may have a plurality of attachment holes 39 formed at both ends in the width direction at predetermined intervals in the longitudinal direction.

  The second attachment portion 31 is attached to one attachment surface 22 of the coupling member 20. The second attachment portion 31 extends in a band shape from one end 37a of the first attachment portion 37 along one attachment surface 22 of the coupling member 20. In the present embodiment, the second mounting portion 31 has the same shape and size as the mounting surface 22 of the coupling member 20. A plurality of attachment holes 39 are formed corresponding to the screw holes 25 of the coupling member 20 on the center line extending in the longitudinal direction of the second attachment portion 31.

  The first holding part 32 may further include a parallel part 35. The parallel part 35 extends in a strip shape in parallel to the installation surface 2 from the tip of the vertical part 34, and is interposed between the vertical part 34 and the tip part 36.

  Based on FIG.4 and FIG.5, installation of the mount frame 10 and the solar cell panel 1 of a present Example is demonstrated. A connecting member 20 whose longitudinal direction is directed to the inclination direction of the roof is disposed with the fixed surface 21 in contact with the roof surface. Then, as shown in FIG. 2, the coupling member 20 is fixed to the roof surface by screwing the screw 14 to the rafter 4 through the attachment hole 24 of the fixing piece 23. Next, the second attachment portion 31 is screwed to the one attachment surface 22 of the coupling member 20 with the screw 15. In the present embodiment, the first attachment portion 37 is not fixed to the installation surface 2. However, the first mounting portion 37 may be screwed to the installation surface 2 in order to improve the mounting strength of the holding member 30. Next, the solar cell panel 1 is screwed across the pair of holding portions. Further, the other holding member 30 and the solar cell panel 1 may be attached to the other attachment surface 22 of the coupling member 20. At this time, an attachment hole may be formed in the vertical portion 34 of each holding member 30, and the holding members may be fixed to each other with bolts. A plurality of solar battery panels 1 are attached to a set of mounts 10. The gantry 10 and the solar cell panel 1 installed in this way are arranged in parallel at a predetermined interval and perpendicular to the inclination direction of the roof.

  If the gantry 10 of the present embodiment is used, the holding member 30 is detachably attached to the coupling member 20 by screws 15. As a result, when the holding member 30 is deformed or damaged, the holding member 30 can be easily replaced, and the holding member 30 can be replaced any number of times. At this time, since a screw hole is not newly formed in the installation surface 2, no rain leakage occurs. Moreover, the construction time at the time of maintenance can be shortened and construction cost can be reduced.

  Further, since a plurality of solar cell panels 1 can be attached to the pair of holding portions, the installation work can be simplified. Further, since it is not necessary to drive a screw into the roof surface for each solar cell panel 1, it is possible to prevent the occurrence of rain leakage due to this.

  In addition, since the first holding part 32 extends upward from the attachment part wider than the second holding part 33, the solar cell panel 1 held by the pair of holding parts is relative to the installation surface 2. And tilted. Therefore, it is possible to improve the power generation efficiency by installing the light receiving surface of the solar cell panel 1 facing the sun. For example, when the gantry 10 having the holding member 30 attached to each mounting surface 22 of the coupling member 20 is installed on the roof surface facing south with the longitudinal direction of the coupling member 20 facing the inclination direction of the roof, Since the light receiving surface of the battery panel 1 is tilted east or west, the solar panel 1 can receive the sunrise and sunset with high power generation efficiency. When the sun is located in the south, both solar cell panels 1 generate power evenly. For this reason, electric power can be stably supplied regardless of the sunshine hours.

  Further, if the holding member 30 is attached to each attachment surface 22, the vertical portions 34 are in contact with each other and supported so that the load applied to each attachment surface 22 can be dispersed. In addition, since the space for screwing work can be secured by the parallel portion 35, work efficiency is improved.

  As shown in FIG. 5, the gantry 10 of this embodiment may be installed on the wall surface. The gantry 10 is installed with the longitudinal direction of the coupling member 20 oriented in the vertical direction. The fixing piece 23 of the coupling member 20 is fixed to the foundation, outer wall, trunk edge, pillar, or the like of the building. In this embodiment, the two mounts 10 are arranged in parallel in the horizontal direction at a predetermined interval along the outer wall surface of the window, but the number is not limited. The gantry 10 arranged side by side in this way can generate solar power and can soften the sunlight that is inserted through the window by the gantry 10 and the gap between them. Moreover, since the wiring of the solar cell panel 1 can be stored between the solar cell panel 1 and the holding member 30, the deterioration of the wiring due to wind and rain is prevented and the scenery outside the window viewed from the room is damaged. There is no. Further, the manner of installing the gantry 10 on the wall surface is not limited to this. For example, the coupling member 20 may be installed on the wall surface with the longitudinal direction thereof directed in the horizontal direction. The light receiving surface of the solar cell panel 1 can be mounted upward to improve the power generation efficiency.

  As illustrated in FIG. 6, the frame may include a coupling member 40 having a plurality of fixing pieces 23 arranged at a predetermined interval. In the present embodiment, the respective fixing pieces 23 are arranged at intervals substantially equal to the longitudinal dimension of the solar cell panel 1. However, the present invention is not limited to this, and the fixing pieces 23 may be arranged at arbitrary intervals.

  If the coupling member 40 of the present embodiment is used, since the coupling member 40 has a plurality of fixing pieces 23, the number of fixing points increases, so that the fixing strength of the gantry can be improved.

  As illustrated in FIG. 7, the gantry 11 may include a holding member 50 having another mounting portion and another pair of holding portions.

  The other attachment portion includes a third attachment portion 57 and a fourth attachment portion 51. The third attachment portion 57 is disposed on the installation surface 2 on the attachment surface 22b side of the coupling member 20. The third attachment portion 57 extends in a strip shape along the installation surface 2. The dimension of the third attachment portion 57 is equal to that of the first attachment portion 37. The fourth attachment portion 51 is attached to the attachment surface 22b. The fourth attachment portion 51 extends in a band shape from one end in the width direction of the third attachment portion 57 along the attachment surface 22b, and the dimension thereof is equal to that of the second attachment portion 31. On the center line extending in the longitudinal direction of the fourth attachment portion 51, a plurality of attachment holes are opened corresponding to the screw holes 25 of the coupling member 20.

  The other pair of holding portions holds the other solar cell panel 1. The other pair of holding portions includes a third holding portion 52 and a fourth holding portion 53. The third holding part 52 includes a vertical part 54, a parallel part 55, and a tip part 56. The vertical portion 54 extends from one end of the fourth attachment portion 51 in the width direction perpendicular to the installation surface 2 in a band shape, and is formed integrally with the vertical portion 34. The parallel part 55 has a band shape, and extends in parallel to the installation surface 2 from the tip of the vertical part 54 and in a direction opposite to the parallel part 35. The fourth holding portion 53 extends from the other end of the third attachment portion 57 in the width direction so as to be narrower and wider than the third holding portion 52.

  That is, in FIG. 3, a plane including one surface 34a of the vertical portion 34 is defined as a symmetry plane, and the other attachment portion and the other pair of holding portions are formed integrally with the attachment portion and the pair of holding portions in a plane symmetry. Has been. Here, one surface 34 a of the vertical portion 34 extends perpendicularly to the installation surface 2 from one surface of the second mounting portion 31 facing the mounting surface 22.

  If the gantry 11 of the present embodiment is used, the holding member 50 can hold the solar cell panel 1 in a symmetrically inclined manner by two sets of holding portions formed in plane symmetry. Therefore, even if the position of the sun changes, the light receiving surface of any one of the solar cell panels 1 receives sunlight optimally, and the power generation efficiency can be improved.

  Further, the gantry 11 may include a cover 18 that covers the groove portions 59 formed by the tip portions 36 and 56 and the parallel portions 35 and 55. The cover 18 is a plate that extends in the longitudinal direction of the coupling member 20. The cover 18 is fitted into the groove 59. Covering the groove portion 59 with the cover 18 can hide the screwing portion, which is preferable in appearance. In addition, it is possible to prevent rainwater from entering.

  As shown in FIG. 8, the second holding unit 70 may be a gantry 12 including a holding member that can slide relative to the first holding unit 60.

  The mounting portion of the present embodiment includes a second mounting portion 31 and first mounting portions 77a and 77b that overlap vertically. The upper first mounting portion 77a extends from one end of the second mounting portion 31 in a strip shape in parallel to the installation surface 2. Further, the tip end portion 68 is bent upward at a substantially right angle. The lower first mounting portion 77b extends in a band shape along the installation surface 2, and has the same dimensions as the upper first mounting portion 77a. The lower first mounting portion 77b is interposed between the installation surface 2 and the upper first mounting portion 77a. The lower first attachment portion 77b has a sandwiching portion 71 that is bent in a U-shaped cross section at both edges of the short side and sandwiches the short edge of the upper first attachment portion 77a. ing. As a result, the lower first attachment portion 77b can slide relative to the upper first attachment portion 77a. In addition, since the front end portion 68 of the upper first mounting portion 77a is hooked on the clamping portion 71 as a stopper, the upper and lower first mounting portions 77a and 77b are not detached from each other.

  The first holding part 60 includes a vertical part 34, a parallel part 35, a first holding piece 66, and a hinge 69. The first holding piece 66 is a belt-like plate body and has a screw hole on a center line extending in the longitudinal direction. The hinge 69 has a rotating shaft and two movable pieces connected to the rotating shaft. One movable piece is attached to the longitudinal edge of the parallel portion 35, and the other movable piece is the first movable piece. It is attached to one longitudinal edge of one holding piece 66. The hinge 69 rotatably supports the first holding piece 66 around the rotation axis.

  The second holding unit 70 includes a hinge 69 and a second holding piece 78. One movable piece of the hinge 69 is attached to the longitudinal edge of the lower first attachment portion 77b, and the other movable piece is attached to one longitudinal edge of the second holding piece 78.

  In the holding member of this embodiment, the second holding portion 70 is slidable relative to the first holding portion 60, and the first holding piece 66 and the second holding piece 78 are rotatably supported. ing. Therefore, the second holding part 70 can be slid and moved according to the dimensions of the solar cell panel 1, and the holding pieces 66 and 78 can be attached to the pair of peripheral edges of the solar cell panel 1. Therefore, the range of selection of the solar cell panel 1 to be installed is expanded.

  As shown in FIG. 9, the gantry 13 using a plate-like coupling member 80 laid on the installation surface 2 may be used. The coupling member 80 is rectangular, and the material is preferably a lightweight member such as aluminum. The coupling member 80 has a fixing surface 81 and a mounting surface 82. The fixed surface 81 is one surface of the coupling member 80 and is disposed in contact with the installation surface 2. The attachment surface 82 is the other surface of the coupling member 80, and a plurality of screw holes 85 are provided. Attachment holes 84 are formed at the four corners of the coupling member 80, and the coupling member 80 is installed on the wall surface by screwing the screw 14 to the trunk edge 3 via the attachment hole 84. The attachment hole 84 may be opened according to the position of the trunk edge 3. Further, the coupling member 80 may be installed not only on the wall surface but also on the roof surface. When installing on the roof surface, it is preferable to screw the rafter 4 with screws. The holding member 90 has an attachment hole 99 in the attachment portion, and is screwed to the coupling member 80 by the screw 15.

  As shown in FIG. 10, the mounting portion has one surface 538, another surface 536, and a long side and a short side. The mounting portion is formed in the longitudinal direction of the mounting portion at the center in the short direction of the mounting portion. A second attachment portion 534 formed of a recess opening on the other surface 536 side, and a first attachment portion 574 provided between the second attachment portion 534 and the first holding portion 556, It may be composed of another first mounting portion 576 provided between the second mounting portion 534 and the second holding portion 558. The long and short sides of the mounting portion are in agreement with the long and short directions of the solar cell panel 501, respectively. This mounting portion is installed with the other surface 536 facing the installation surface 2, and the solar cell panel 501 is disposed on the one surface 538 side.

  The second attachment portion 534 is a concave portion having a trapezoidal cross section. The cross-sectional shape is not limited to a trapezoidal shape, and may be a V shape, for example, and can be designed as appropriate according to the shape of the coupling member 520. The depth of the second attachment portion 534 is 20 mm, but is not limited thereto.

  One first mounting portion 574 and the other first mounting portion 576 spread in a band shape in the longitudinal direction of the mounting portion, and are arranged with the other surface 536 facing the installation surface 2. As shown in FIG. 11, the second holding portion 31 may be formed between the first first attaching portion 574 and the first holding portion 556.

  The holding member 530 of the present embodiment shown in FIG. 10 has a second mounting portion 534 formed at the center of the mounting portion, so that the stability of the installed base 500 is improved.

  As shown in FIG. 10, the pair of holding portions includes a first holding portion 556 that extends from one end 548 in the short direction of the attachment portion and holds one edge portion 501a of the solar cell panel 501, and the attachment portion. A second holding portion 558 that is formed at the other end portion in the short-side direction and holds the other edge portion 501b of the solar cell panel 501 may be configured.

  The first holding portion 556 includes a strip-shaped first vertical portion 540 extending perpendicularly to the installation surface 2 from one end 548 of the mounting portion, and a second vertical portion 540 extending from the tip of the first vertical portion 540. A band-shaped inclined portion 542 inclined toward the holding portion 558, a band-shaped contact portion 544 extending from the tip of the inclined portion 542 toward the second holding portion 558, and protruding from the contact portion 544 It comprises a band-shaped first tip portion 546. A plurality of mounting holes 39 are formed in the first tip portion 546.

  The second holding portion 558 includes a second end portion of the attachment portion, a second vertical portion 552 extending perpendicularly to the installation surface 2 from the other end 550 of the attachment portion, and a tip of the second vertical portion 552. A space surrounded by a second tip 554 extending from the first holding portion 556 to the first holding portion 556, and is formed closer to the mounting portion than the first holding portion 556.

  In this embodiment, the edge of the solar cell panel 501 has a side surface and an inclined surface that is inclined inward from the side surface. In this solar cell panel 501, the other edge portion 501b is inserted into the second holding portion 558, and the inclined surface of the one edge portion 501a is in contact with the contact portion 544 of the first holding portion 556. Thus, the side surface is screwed to the first tip portion 546. Thereby, the solar cell panel 501 is bridged and held between the pair of holding portions.

  The gantry 500 of the present embodiment is attached to the gantry 500 simply by inserting the other edge 501b of the solar cell panel 501 into the second holding portion 558 and fixing the one edge 501a with a screw. Therefore, it is possible to simplify the labor for mounting the solar cell panel and shorten the construction period. In addition, since the second holding portion 558 uses the inclined surface of the solar cell panel 501 to hold the other end 501b of the solar cell panel, the second vertical portion 552 that easily accumulates dust can be formed narrowly. .

  As shown in FIG. 10, the coupling member 520 of the present embodiment is a linear rod-like body interposed between the holding member 530 and the installation surface 2, and is formed by, for example, extrusion molding of aluminum. The coupling member 520 has a fixed surface 521 disposed in contact with the installation surface 2 and an attachment surface 522 attached to the second attachment portion 534 of the holding member 530. In this embodiment, the shape of the coupling member 520 is a hexagonal prism shape having a pair of parallel surfaces, one parallel surface being a fixed surface 521, another parallel surface and an inclined surface extending from both ends thereof being a mounting surface 522. It becomes. The shape of the coupling member 520 is not limited to a hexagonal prism shape, and may be a quadrangular prism shape, a triangular prism shape, or the like.

  The coupling member 520 is formed such that when the holding member 530 is attached to the coupling member 520, a part of the coupling member 520 projects from the second attachment portion 534. A gap is formed between them. In the present embodiment, the distance between the pair of parallel surfaces is 25 mm, and the depth of the second attachment portion 534 is 20 mm. For this reason, a gap of 5 mm is formed between the installation surface 2 and the holding member 530. The coupling member 520 is fixed to an anchor bolt provided on the installation surface 2.

  In the gantry 500 according to the present embodiment, since a gap is formed between the installation surface 2 and the holding member 530, rainwater flowing along the installation surface 2 can be prevented from entering the gantry 500. Further, in the installation work, the handling of the holding member 530 is improved.

A method for installing the gantry 500 and the solar cell panel 501 will be described below.
(1) Prepare an anchor bolt (not shown) and install this anchor bolt on the installation surface 2.
(2) A coupling member 520 is prepared, and an anchor bolt is passed through the screw hole 23 of the coupling member 520 and tightened with a bolt (not shown) to fix the coupling member 520 to the installation surface 2.
(3) The holding member 530 is prepared, and the second mounting portion 534 is fixed to the mounting surface 522 of the coupling member 520 with screws (not shown).
(4) A solar cell panel 501 is prepared, the other edge portion 501b is inserted into the second holding portion 558, and the inclined surface of the one edge portion 501a is applied to the contact portion 544 of the first holding portion 556. The side surface of one edge 501a is attached to the first tip 546 with the screw 15.

  Here, the gantry 500 can be installed on the wall surface with the longitudinal direction of the attachment portion facing in the horizontal direction and the second holding portion 558 facing upward. In this installation operation, in order to facilitate the attachment of the holding member 530, the gantry 500 of this embodiment is formed on the attachment surface 522 of the coupling member 520 toward the second attachment portion 534 as shown in FIG. A stepped portion 524 and a claw portion 560 formed on the second attachment portion 534 of the holding member 530 and extending toward the stepped portion 524 may be provided.

  The step portion 524 is a falling step formed on a part of the mounting surface 522. The step portion 524 is formed over the length of the coupling member 520. The claw portion 560 is formed on the side where the other first attachment portion 576 and the second attachment portion 534 intersect, and protrudes on the same surface as the other first attachment portion 576. The claw portion 560 can be formed not only on the second holding portion 558 side but also on the second mounting portion 534 on the first holding portion 556 side. The claw portion 560 can be locked to the step portion 524.

  When the holding member 530 is attached to the coupling member 520, the gantry 500 can lock the holding member 530 by screwing the claw portion 560 to the step portion 524. For this reason, it is easy to attach the holding member 530, and it is possible to reduce the burden and personnel required for the installation work.

  As shown in FIG. 11, the gantry 502 of the present embodiment includes a cover 562 that covers the head of the screw 15 used for the first holding portion 556. The cover 562 has a flat plate shape and is attached to the inclined portion 542 of the first holding portion 556 so as to cover the head of the screw 15. Further, the cover 562 is preferably removed using a dedicated tool.

  By covering the head of the screw 15 with the cover 562, the appearance of the solar cell panel 501 and the gantry 502 is improved. Further, since the screws 15 cannot be easily removed, the solar cell panel 501 can be prevented from being stolen.

  As shown in FIG. 11, the holding member 532 according to the present embodiment has a drain hole 564 formed in the first vertical portion 540. The number of the drain holes 564 and the dimensions thereof are not particularly limited. The gantry 500 can discharge rainwater that has entered the gantry 500 through the drain hole 564, and can prevent an electrical system from being damaged.

  As shown in FIG. 11, the holding member 532 may be composed of a first holding member 566 and a second holding member 568 formed by dividing the attachment portion in the longitudinal direction. In the present embodiment, the holding member is divided at the center of the second mounting portion 534. The divided holding members 532 are connected by bolts 578 and nuts 580.

  The first holding member 566 includes one second mounting portion 570 formed by dividing, one first mounting portion 574 extending from the one second mounting portion 570, and one first And a first holding portion 556 formed at the tip of the mounting portion 574.

  The second holding member 568 includes another second mounting portion 572 formed in a divided manner, another first mounting portion 576 extending from the other second mounting portion 572, and another first mounting portion 572. And a second holding portion 558 formed at the tip of the attachment portion 576.

By dividing the holding member, the holding member 532 can be easily carried and stored in a space-saving manner.

  As shown in FIG. 12, the gantry of this embodiment has two gantry 502 arranged with a plane including one surface of the first vertical part 540 as a symmetry plane, and the first vertical part 540 is connected to each other. It is the connection stand 600 which becomes. The first vertical portions 540 of the holding members 532 are fixed to each other with screws. The connection base 600 can attach the solar cell panel 501 to a pair of holding portions of each holding member 532. And it can install in the wall surface of a building with the longitudinal direction of the attaching part facing a perpendicular direction.

  As another installation mode, as shown in FIG. 13, a connecting frame 600 with the mounting portion horizontally oriented can be installed on the wall surface. At this time, the advertisement panel 602 may be attached to the lower holding member. The advertisement panel 602 is composed of a plate body with a pattern or color and a frame body that holds the four sides of the plate body. As the plate body and the frame body, for example, those made of metal or resin can be used. The advertising panel 602 has the same dimensions and shape as the solar cell panel 501. This advertisement panel 602 is stretched over and held by a pair of holding portions of the lower holding member. The attachment method and mode are the same as those of the solar cell panel 501.

  For example, this company can be used as a nameplate as shown in FIG. Further, if a plurality of connecting frames 600 are arranged vertically and horizontally on the wall surface of the building, it can be used as a signboard as shown in FIG. The connecting frame 600 includes a side cover 604 that covers the side surface.

  The gantry of each of the above embodiments can be used for the lighting device 700 shown in FIGS. 15 and 16, for example.

  The lighting device 700 includes a charge controller that is electrically connected to the output terminal of the solar battery panel 501, a storage battery that is electrically connected to one output terminal of the charge controller, and a lighting that is electrically connected to the other output terminal of the charge controller. A part.

  The charge controller, the storage battery, and the lighting unit are attached to a space formed by being surrounded by the holding member 532 and the solar cell panel 501. The illumination unit includes: a light source 701; a light source controller that controls the light source 701 by PWM (Pulse Width Modulation); a power supply circuit that receives power from the charge controller and supplies the power to the light source 701 and the light source controller; It consists of an electrically connected daylight sensor. As the light source 701, for example, a plurality of LEDs (Light Emitting Diodes) can be used. A microcontroller can be used as the light source controller. The light source 701 is attached with the light emitting portion exposed from the holding member 532. In this embodiment, a plurality of LEDs are used. However, the present invention is not limited to this, and one high-brightness LED may be used.

  The electric power output from the solar cell panel 501 is supplied to the storage battery and the illumination unit via the charge controller (indicated by a solid line arrow in FIG. 15). The light source controller of the illumination unit turns on and off the light source 701 based on the signal from the daylight sensor. In the daytime, the daylight sensor detects the brightness, and the light source controller turns off the light source 701 based on this signal. At this time, the electric power from the solar cell panel 501 is mainly used for charging the storage battery. At night, the daylight sensor detects darkness, and the light source controller turns on the light source 701 based on this signal. At this time, the electric power charged in the storage battery is supplied to the illumination unit (indicated by a broken line arrow in FIG. 15). The lighting device 700 can be used as night lighting to save power. The lighting device 700 can be installed above a signboard attached to a wall surface, for example, and can illuminate the signboard.

  As mentioned above, although the cradle of the present invention has been described, the present invention can be carried out in variously modified, modified, and modified embodiments based on the knowledge of those skilled in the art without departing from the spirit thereof. All belong to the scope of the present invention.

  For example, the roof surface to be installed is not limited to a single flow. For example, it may be a dormitory roof or a gable roof. The building to be installed is not limited to a house. For example, you may install in the wall surface of a condominium, a department store, a building, etc., or a rooftop.

1 ・ 501 ... Solar panel, 2 ... Installation surface, 10 ・ 11 ・ 12 ・ 13 ・ 500 ・ 502 ... Stand, 14 ・ 15 ... Screw, 20 ・ 40 ・ 80 ・ 520 .. Connecting member, 21, 81, 521 ... Fixed surface, 22, 82, 522 ... Mounting surface, 23 ... Fixed piece, 30, 50, 90, 300, 530, 532 ... Holding member, 31 ・ 51 ・ 534 ... second mounting part, 32 ・ 60 ・ 556 ... first holding part, 33 ・ 70 ・ 558 ... second holding part, 34 ・ 54 ... vertical part , 35 ・ 55 ... Parallel part, 36 ・ 38 ・ 56 ... Tip part, 37 ・ 57 ・ 574 ・ 576 ... First mounting part, 370 ... Mounting part

Claims (9)

A stand for installing solar panels on the installation surface of a wall or roof,
A mounting portion that has one side and the other side and a long side and a short side, and the other side is installed toward the installation surface, and extends from one end in the short direction of the mounting unit to one side of the mounting unit; Comprising a holding member having a pair of holding parts for supporting the solar cell panel across;
The pair of holding portions is formed on the one surface side from the first holding portion formed on the one surface side from one end in the short direction of the attachment portion, and on the one surface side from the other end in the short direction of the attachment surface. Two holding parts,
The pedestal characterized in that the second holding part is formed closer to the attachment part than the first holding part.   The pair of holding portions extends in the longitudinal direction of the solar cell panel, and the longitudinal dimension of the pair of holding portions is at least twice the longitudinal dimension of the solar cell panel. Mount. A coupling member fixed along the installation surface;
The mounting portion is
A first mounting portion disposed to face the installation surface;
A second attachment portion extending from the first attachment portion and attached to the coupling member;
The gantry according to claim 1, wherein the gantry is configured by the following.   The pedestal according to claim 3, wherein the second attachment portion is a recess formed in the longitudinal direction at the center in the short direction of the attachment portion and opening to the other surface side of the attachment portion.   5. The pedestal according to claim 3, wherein a part of the coupling member attached to the second attachment portion protrudes from the second attachment portion. The coupling member includes a step portion formed toward the second attachment portion,
The mount according to any one of claims 3 to 5, wherein the second attachment portion includes a claw portion that can be locked to the stepped portion. The first holding part is
A vertical portion extending perpendicular to the installation surface;
A parallel portion extending in parallel to the installation surface from the tip of the vertical portion;
The gantry according to any one of claims 1 to 6, further comprising: The vertical portion has one side;
The holding member includes another mounting portion and another pair of holding portions formed in plane symmetry with the mounting portion and the pair of holding portions, with the plane including the one surface as a symmetrical surface. The gantry according to claim 7. Comprising a plate with a pattern and / or color;
The pedestal according to claim 8, wherein the plate body is attached to either the pair of holding portions or the other pair of holding portions.

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