JP2020117901A - Solar power panel frame, solar power device and installation method of solar power device - Google Patents

Abstract

To enable easy installation of solar power devices.SOLUTION: A solar power panel frame 102 includes a base rail 103 on which a guide groove 107 is opened upward through an opening 112 extending in the longitudinal direction with a width narrower than the width of the guide groove 107 extending in the longitudinal direction, multiple slide members 104 fitted in the guide groove 107 so as to be slidable in the longitudinal direction and having a width larger than the width of the opening 112, multiple pressing members 105 arranged above each of the multiple slide members 104 and extending above the base rail so as to interpose the outer edge part of the solar power panel 101 with the base rail 103, slide members 104 associated with each other vertically so that the outer edge of the solar power panel 101 is interposed between the base rail 103 and each of the multiple panel pressing members 105 and bolts 106 working as multiple fastening members to fasten the panel pressing members 105.SELECTED DRAWING: Figure 2

Description

The present invention relates to a photovoltaic power generation panel mount, a photovoltaic power generation device, and a method for installing a photovoltaic power generation device.

There have been proposed various photovoltaic power generation panel mounts for installing the photovoltaic power generation panels at the installation location, and various photovoltaic power generation devices in which the photovoltaic power generation panels are mounted on the photovoltaic power generation panel mounts.

For example, as shown in FIGS. 12 and 13, the solar power generation device described in Patent Document 1 includes solar cell modules 1a and 1b, a gantry frame 12, an intermediate fixing member 50, an intermediate spacer 20a, and the like.

The solar cell modules 1a and 1b have a solar power generation panel (corresponding to the "solar cell panel" described in Patent Document 1) and a module frame 2 provided at the periphery of the solar power generation panel, and have a roof ridge. Installed side by side. The peripheral edge portion of the photovoltaic power generation panel is inserted into the inner groove portion 3 of the module frame 2 and fixed with an adhesive or the like.

The gantry frame 12 is fixed to the roof along the eaves direction by a fixture formed of a metal plate such as an iron plate, a stainless plate, and a steel plate.

The intermediate fixing member 50 has a flat plate-shaped base portion 50a, a standing wall portion 50b standing upright on the base portion 50a, an eave-side protruding portion 50c, and a ridge-side protruding portion 50d. The base portion 50 a is fixed to the rail bottom surface of the upper guide rail 26 by a drill screw 38 while being inserted in the upper guide rail 26 of the intermediate spacer 20. Further, the eaves side protrusion 50c and the ridge side protrusion 50d are combined with the module frame 2 of the solar cell modules 1a and 1b.

The intermediate spacer 20a includes a lower plate portion 21 and an upper guide rail 26. The lower side plate portion 21 is inserted into the lower side guide rail 15 of the gantry frame 12 and fixed by screwing with a drill screw 38. The intermediate fixing member 50 is fixed to the upper guide rail 26 as described above. Thereby, the intermediate spacer 20a is inserted between the gantry frame 12 and the intermediate fixing member 50.

JP, 2016-065396, A

In the solar power generation device described in Patent Document 1, the solar power generation panel is composed of a large number of members having a complicated shape such as a fixture to a roof, a gantry frame 12, an intermediate fixing member 50, an intermediate spacer 20a, and a module frame 2. It is installed by assembling the stand for the photovoltaic power generation panel.

Further, in the solar power generation device described in Patent Document 1, because of its structure, the orientation of the solar power generation panel is relatively strictly defined by the orientation of the gantry frame 12, so a plurality of solar power generation panels are arranged vertically and horizontally. For placement, it is believed that multiple cradle frames 12 need to be aligned parallel to each other on the roof via the fixture with high accuracy. Therefore, high accuracy is required when mounting the gantry frame 12 to the roof.

As described above, in the conventional solar power generation device, not only general knowledge and technology regarding construction, but also knowledge about a photovoltaic power generation panel mount composed of a large number of members having a complicated shape and installation thereof Installation of photovoltaic panels is difficult due to the need for technology.

The present invention has been made in view of the above circumstances, and provides a photovoltaic power generation panel mount, a photovoltaic power generation device, and a method for installing a photovoltaic power generation device that can easily install a photovoltaic power generation panel. The purpose is to do.

In order to achieve the above object, the photovoltaic power generation panel mount according to the first aspect of the present invention comprises:
A photovoltaic power generation panel mount for installing a photovoltaic power generation panel at an installation location,
A guide rail is formed in which a guide groove extending in the longitudinal direction is formed, and the guide groove is opened upward through an opening extending in the longitudinal direction with a width narrower than the width of the guide groove,
A plurality of slide members that are slidably movable in the longitudinal direction and are fitted into the guide groove of the base rail, and have a width larger than the width of the opening;
A plurality of panel retainers that are disposed above each of the plurality of slide members and that extend above the base rails so as to sandwich the outer edge portion of the photovoltaic power generation panel between the slide rails and the base rails. Members,
A plurality of fastenings for fastening the slide member and the panel holding member, which are vertically associated with each other, so that the outer edge portion of the solar power generation panel is sandwiched by the base rail and each of the plurality of panel holding members. And a member.

In order to achieve the above object, a photovoltaic power generation panel device according to a second aspect of the present invention is
A mount for the photovoltaic panel,
A plurality of photovoltaic power generation panels attached to the photovoltaic power generation panel mount.

In order to achieve the above object, a method for installing a photovoltaic power generation panel according to a third aspect of the present invention is
A method for installing a photovoltaic power generation panel device for installing a photovoltaic power generation panel at an installation location,
A guide groove extending in the longitudinal direction is formed, and the base rail having the guide groove opened upward through the opening extending in the longitudinal direction with a width narrower than the width of the guide groove is installed at the installation location,
By fitting a plurality of slide members having a width larger than the width of the opening into the guide groove of the base rail and slidingly moving the slide member in the longitudinal direction, each of the plurality of slide members is previously moved along the guide groove. Placing it in a fixed position,
In order that the outer edge portion of the photovoltaic power generation panel is sandwiched between the base rail and a plurality of panel pressing members arranged above each of the plurality of slide members and extending above the base rail, Disposing the solar panel and the plurality of panel pressing members,
By fastening the slide member and the panel pressing member, which are associated with each other in the vertical direction, with a fastening member, the outer edge portion of the photovoltaic power generation panel is sandwiched by the base rail and each of the plurality of panel pressing members. including.

According to the present invention, a solar power generation panel can be easily installed.

It is a top view of the solar power generation device concerning one embodiment of the present invention. FIG. 2 is a partial sectional view taken along the line II-II of FIG. 1. FIG. 3 is a partial cross-sectional view taken along the line III-III in FIG. 1. FIG. 4 is a partial cross-sectional view taken along line IV-IV of FIG. 1. It is the elements on larger scale which looked at the part enclosed with the ellipse E of the dashed-dotted line of FIG. 1 from the front. It is a flowchart which shows an example of the installation method of the solar power generation device which concerns on one embodiment of this invention. It is a flow chart which shows an example of details of process 3 in Drawing 6A. It is a top view which shows an example which arrange|positions a photovoltaic power generation panel in the direction which intersects with the longitudinal direction of a guide groove using the mount for photovoltaic power generation panels which concerns on one Embodiment. It is a top view of the photovoltaic power generation panel which concerns on the modification 1. FIG. 8B is a partial cross-sectional view taken along the line VIII_B-VIII_B of FIG. 8A. It is a figure which shows the structure of the base rail and slide member which concern on the modification 2. It is a figure which shows the panel pressing member which concerns on the modification 3, Comprising: (a) is a top view seen from above, (b) is a bottom view seen from below. 9 is a side view of a panel pressing member according to Modification 3. FIG. It is a 1st figure regarding a related technology of this invention. It is a 2nd figure regarding the related technology of this invention.

An embodiment of the present invention will be described below with reference to the drawings. The same elements are denoted by the same reference symbols throughout the drawings.

(Configuration of solar power generation device 100)
As shown in FIG. 1, which is a plan view, a photovoltaic power generation device 100 according to an embodiment of the present invention is a device that includes a photovoltaic power generation panel 101 that receives sunlight to generate power, and is predetermined. It is installed at the installation location P. In the present embodiment, as the installation place P, a roof surface of a substantially horizontal and flat flat roof will be described as an example.

The photovoltaic power generation device 100 includes a plurality of photovoltaic power generation panels 101 and a photovoltaic power generation panel mount 102.

Each of the photovoltaic power generation panels 101 is a panel that receives sunlight to generate power, and has a substantially rectangular flat plate shape. The electric power generated by the solar power generation panel 101 is supplied to the load via a power conditioner (not shown) or the like. The number of solar power generation panels 101 included in the solar power generation device 100 may be one or more.

The photovoltaic power generation panel mount 102 is a mount for installing one or more photovoltaic power generation panels 101 at the installation location P. As shown in FIGS. 1 to 5, the photovoltaic power generation panel mount 102 according to the present embodiment includes a plurality of base rails 103_1 to 103_5, a plurality of slide members 104, a plurality of panel pressing members 105, and a plurality of panel holding members 105. And a bolt 106.

Here, FIG. 2 is a partial cross-sectional view taken along line II-II of FIG. FIG. 3 is a partial cross-sectional view taken along the line III-III in FIG. FIG. 4 is a partial cross-sectional view taken along the line IV-IV in FIG. FIG. 5 is a partially enlarged view of the portion surrounded by the ellipse E of the alternate long and short dash line in FIG. 1 as seen from the front.

Each of the base rails 103_1 to 103_5 is an elongated hollow rod-shaped member having a guide groove 107 extending in the left-right direction, and is made of, for example, a metal. The base rails 103_1 to 103_5 are arranged at the installation location P such that the longitudinal directions thereof are parallel to each other and point in the left-right direction.

In the description of the present embodiment, the base rails 103_1 to 103_5 are described in order from the base rail arranged at the front, but they are described as the base rail 103 unless otherwise distinguished. One or more base rails 103 may be provided on the photovoltaic power generation panel mount 102 according to the number, arrangement method, size, etc. of the photovoltaic power generation panels 101 included in the photovoltaic power generation device 100.

Each of the base rails 103 according to the present embodiment is a member having a substantially rectangular outer shape when viewed in the longitudinal direction, and includes a bottom plate portion 108, two side wall portions 109, and two locking portions 110. .. Each of the bottom plate portion 108, the two side wall portions 109, and the two locking portions 110 has a generally rectangular flat plate shape that is long in the left-right direction.

The bottom plate portion 108 has a bottom surface 111, which is an outer surface thereof, opposed to the installation place P and is fixed by an adhesive agent, a screw, a bolt, or the like (not shown). The direction in which the bottom surface 111 faces is the downward direction, and the opposite direction is the upward direction.

The two side wall portions 109 extend upward from the respective side portions in the width direction of the bottom plate portion 108 substantially vertically to the bottom plate portion 108, and continuously extend in the left-right direction at a predetermined constant height. ..

Here, the width direction of the base rail 103 is a direction intersecting a virtual surface including the longitudinal direction of the guide groove 107 and the direction in which the bottom surface 111 faces, and is the front-back direction in the present embodiment.

The two locking portions 110 are connected to the respective upper ends of the two side wall portions 109, and extend from the upper ends in a direction in which they approach each other. The two locking portions 110 according to the present embodiment have substantially the same size, and are provided substantially parallel to the bottom plate portion 108.

The front ends of the two locking portions 110 (the rear end portion of the front locking portion 110 and the front end portion of the rear locking portion 110) are provided so as to have a predetermined interval in the front-rear direction. Thereby, the two locking portions 110 form the opening 112 extending in the left-right direction.

The inner surface of each of the bottom plate portion 108, the two side wall portions 109, and the two locking portions 110 described above forms the guide groove 107 according to the present embodiment. The guide groove 107 has a width narrower than that of the guide groove 107 and opens upward through an opening 112 extending in the left-right direction.

In the present embodiment, both the guide groove 107 and the opening 112 extend over the entire left-right direction of the base rail 103, so both the left end and the right end of each are open. Either one of the left end and the right end of the guide groove 107 and the opening 112 may be closed, and both or one of the left end and the right end may be configured to be openable and closable.

It is desirable that the bottom plate portion 108, the two side wall portions 109, and the two locking portions 110 have substantially the same thickness. As a result, the base rail 103 can be easily manufactured by bending a metal plate or the like cut into a predetermined size. The method of manufacturing the base rail 103 is not limited to this, and may be manufactured by an appropriate method such as cutting.

Each of the slide members 104 is a member fitted in the guide groove 107 so as to be slidable in the left-right direction along the guide groove 107. The width of each of the slide members 104 is larger than the width of the opening 112. Here, the width of each of the slide members 104 is the length in the front-rear direction when fitted in the guide groove 107. Therefore, the upward movement of the slide member 104 is restricted by being locked by the locking portion 110.

Therefore, the slide member 104 can slide in the left-right direction along the guide groove 107 without slipping out upward from the guide groove 107, and can sandwich the solar power generation panel 101, which will be described later in detail.

Specifically, each of the slide members 104 includes an upper plate portion 113 and two hanging parts 114. Each of the upper plate portion 113 and the two hanging parts 114 has a substantially rectangular flat plate shape that is long in the left-right direction.

The upper plate portion 113 is a portion that is arranged substantially horizontally in the guide groove 107, and its width is smaller than the width of the guide groove 107 and larger than the width of the opening 112.

The upper plate portion 113 includes a nut hole portion 115 substantially at the center, and a nut 116 is provided on the lower surface of the upper plate portion 113. The nut hole portion 115 forms a hole penetrating in the thickness direction of the upper plate portion 113. The nut 116 is fixed to the lower surface of the upper plate portion 113 by welding, metal welding, or the like at positions where the holes of the nut 116 and the nut hole portion 115 are continuous in the vertical direction.

The nut hole 115 may be provided with a female screw continuous with the nut 116, or may not be provided with the female screw. Further, when the female hole is provided in the nut hole portion 115, the nut 116 may not be provided.

The two hanging parts 114 are parts extending downward from the respective widthwise ends of the upper plate part 113, and the height thereof is lower than the height of the guide groove 107. In the present embodiment, each of the two hanging parts 114 extends downward substantially perpendicular to the upper plate part 113.

When the slide member 104 is positioned at a predetermined position by the sliding movement, it is fixed to the base rail 103 by the fixing member 117. In the present embodiment, the fixing member 117 is a screw that penetrates the side wall portion 109 and the hanging portion 114 that are opposed to each other in close proximity to each other.

The fixing member only needs to be able to fix the slide member 104 to the base rail 103, and may be, for example, an adhesive, a bolt, a nut, or the like.

The plurality of panel pressing members 105 are members for sandwiching and holding the outer edge portion of the photovoltaic power generation panel 101 with the base rail 103, and are arranged above the plurality of slide members 104 in association with each other. It Each of the plurality of panel pressing members 105 extends above the base rail 103 so as to sandwich the outer edge portion of the photovoltaic power generation panel 101 with the base rail 103.

The plurality of panel pressing members 105 according to the present embodiment are composed of two types of intermediate pressing members 105a and end pressing members 105b having different configurations. That is, the panel pressing member 105 is a general term for the intermediate pressing member 105a and the end pressing member 105b.

The intermediate pressing member 105 a is a panel pressing member 105 arranged between the adjacent solar power generation panels 101, and a state in which each outer edge portion of the solar power generation panel 101 is sandwiched between the base rail 103. Hold (sandwich) with.

As shown in the cross-sectional views of FIGS. 2 and 3, the intermediate pressing member 105a according to the present embodiment has a first opposing plate portion 118, two first panel positioning portions 119, and two first extending portions. And a section 120. Each of the first opposing plate portion 118, the two first panel positioning portions 119, and the two first extending portions 120 has a substantially rectangular flat plate shape.

The first opposing plate part 118 is a part that is arranged substantially horizontally so that at least a part thereof vertically opposes the upper plate part 113 of the slide member 104 via the opening 112. The first opposing plate portion 118 includes two pairs of parallel side portions (that is, a pair of long side portions and a pair of short side portions) that are parallel to each other. It corresponds to the "first side portion".

The 1st opposing plate part 118 contains the 1st bolt hole part 121 which forms the hole which penetrates an up-down direction in the approximate center. The first opposing plate portion 118 is arranged above the slide member 104 such that the holes of the first bolt hole 121, the nut hole 115, and the nut 116 are arranged substantially vertically.

Each of the two first panel positioning portions 119 is a portion that extends upward from each of the long sides of the first opposing plate portion 118 substantially vertically to the first opposing plate portion 118.

Each of the first panel positioning portions 119 defines the position in the front-rear direction or the left-right direction of the photovoltaic power generation panel 101 by arranging the side surface portions of the photovoltaic power generation panel 101 close to each other. Here, being arranged in the vicinity of the side surface portion of the photovoltaic power generation panel 101 includes contacting the side surface portion and keeping the distance between the side surface portion and the side surface portion within a predetermined range.

The two first extending portions 120 are portions extending above the base rail 103 so as to sandwich the outer edge portion of the photovoltaic power generation panel 101 with the base rail 103.

The two first extending portions 120 according to the present embodiment extend above the base rail 103 by extending from the respective upper end portions of the two first panel positioning portions 119 in directions away from each other. Each of the first extending portions 120 according to the present embodiment extends in a direction substantially perpendicular to the first panel positioning portion 119, and is arranged substantially parallel to the first opposing plate portion 118.

In the present embodiment, the first extending portions 120 are arranged at intervals according to the thickness of the photovoltaic power generation panel 101 between the locking portions 110 located below each of the first extending portions 120, so that the sun The photovoltaic panel 101 can be sandwiched between the base rail 103.

The edge pressing member 105b is the panel pressing member 105 arranged on the outer periphery of the entire plurality of photovoltaic power generation panels 101. One or a plurality of photovoltaic power generation panels 101 are arranged only in one direction with respect to the end pressing member 105b, and the end pushing member 105b has an outer edge portion of the one or a plurality of solar power generation panels 101. It is sandwiched between it and the base rail 103.

As shown in the cross-sectional view of FIG. 4 and the partially enlarged view of FIG. 5, the structure of the end pressing member 105b according to the present embodiment generally includes two sets of the first panel included in the intermediate pressing member 105a. It corresponds to the positioning unit 119 and the first extending unit 120 excluding one set.

Specifically, the end pressing member 105b includes a second opposing plate portion 122, a second panel positioning portion 123, and a second extending portion 124. Each of the second opposing plate portion 122, the second panel positioning portion 123, and the second extending portion 124 has a substantially rectangular flat plate shape.

The second opposing plate portion 122 has the same configuration as the first opposing plate portion 118.

That is, the second opposing plate portion 122 is a portion that is disposed substantially horizontally so that at least a part thereof vertically opposes the upper plate portion 113 of the slide member 104 via the opening 112. The second pair placement plate portion 122 includes two pairs of parallel linear side portions (that is, a pair of long side portions and a pair of short side portions), and one of these long side portions is “ It corresponds to the “second side portion”.

The second counter plate portion 122 includes a second bolt hole portion 125 that forms a hole that penetrates in the vertical direction. The position where the second bolt hole 125 is provided in the second opposing plate portion 122 is approximately the center in the length direction of the second opposing plate portion 122, and the interval with the second panel positioning portion 123 is the above-mentioned. The position is approximately equal to the distance between the 1-panel positioning portion 119 and the second bolt hole 121. The second mounting plate portion 122 is arranged above the slide member 104 such that the holes of the second bolt hole 125, the nut hole portion 115, and the nut 116 are arranged substantially vertically.

The second panel positioning portion 123 is configured similarly to one of the first panel positioning portions 119.

That is, the second panel positioning portion 123 is a portion that extends upward from the one of the long sides of the second counter placement plate portion 122 substantially vertically to the second counter placement plate portion 122. The second panel positioning portion 123 is arranged close to the side surface portion of the photovoltaic power generation panel 101, thereby defining the position of the photovoltaic power generation panel 101 in the front-rear direction or the left-right direction.

The second extending portion 124 is configured similarly to one of the first extending portions 120.

That is, the second extending portion 124 is a portion extending above the base rail 103 to sandwich the outer edge portion of the photovoltaic power generation panel 101 with the base rail 103.

The second extending portion 124 according to the present embodiment extends above the base rail 103 by extending from the upper end portion of the second panel positioning portion 123 in a direction away from the second counter placement plate portion 122 when viewed from above. Put out. The second extending portion 124 according to the present embodiment extends in a direction substantially perpendicular to the second panel positioning portion 123, and is arranged substantially parallel to the second counter placement plate portion 122.

In the present embodiment, the second extending portion 124 is arranged at a space corresponding to the thickness of the photovoltaic power generation panel 101 between the second extending portion 124 and the locking portion 110 located below the second extending portion 124, so that the sunlight The power generation panel 101 can be sandwiched between the base rail 103.

Each of the plurality of bolts 106 is a fastening member that fastens the slide member 104 and the panel pressing member 105 that are associated with each other in the vertical direction.

Each of the plurality of bolts 106 according to the present embodiment is inserted into the washer 126, the first bolt hole 121 or the second bolt hole 125, the nut hole 115 and the nut 116. Provided (that is, inserted). At this time, the bolt 106 is engaged with the nut 116 by a screw action, and is tightened to the nut 116 with a torque having a predetermined magnitude.

Accordingly, the bolt 106 fastens the slide member 104 and the panel pressing member 105, which are associated with each other in the vertical direction, in a state in which a force in a direction approaching each other is applied. The outer edge portion of the photovoltaic power generation panel 101 is sandwiched between the locking portion 110 and the first extending portion 120 or the second extending portion 124, and the slide member 104 is moved upward by the locking portion 110 as described above. Movement is restricted. Therefore, the outer edge portion of the photovoltaic power generation panel 101 is sandwiched between the locking portion 110 and the first extending portion 120 or the second extending portion 124 by the fastening force of the bolt 106.

So far, the configuration of the photovoltaic power generation device 100 according to the embodiment of the present invention has been described. From here, the installation method of the solar power generation device 100 according to the present embodiment will be described.

(Installation method of solar power generator)
The installation method of the solar power generation device according to the present embodiment is a method for installing the solar power generation panel 101 at the installation location P using the solar power generation panel mount 102. In the present embodiment, as shown in FIG. 1, a total of six photovoltaic panels 101 of the same size are arranged in a matrix of two in the front-rear direction and three in the left-right direction. The case where 100 is installed will be described as an example.

The flow of the method for installing the photovoltaic power generator according to this embodiment is shown in the flowchart of FIG. 6A. The installation method of the solar power generation device is started after each member constituting the solar power generation device 100 is prepared.

The base rail 103 is installed in the installation place P according to the predetermined arrangement position of each photovoltaic power generation panel 101 (step 1). Here, the respective arrangement positions of the photovoltaic power generation panels 101 are appropriately determined in consideration of the intervals between the photovoltaic power generation panels 101 according to the structure of the panel pressing member 105.

In the present embodiment, the five base rails 103 are arranged side by side in the front-rear direction at substantially equal intervals in parallel with each other with their longitudinal directions facing the left-right direction as shown in FIG. Each of the base rails 103 is fixed to the installation place P with an adhesive or the like.

Specifically, the base rail 103_1 has the entire front end portion of the photovoltaic power generation panel 101 so that the front end portions of the three photovoltaic power generation panels 101 arranged in front can be sandwiched between the end pressing member 105b. Is positioned in association with.

The base rail 103_3 connects the rear end portions of the three photovoltaic power generation panels 101 arranged in the front and the front end portions of the three photovoltaic power generation panels 101 arranged in the rear between the intermediate pressing member 105a. In order to be able to sandwich, it is positioned in association with the middle of the photovoltaic power generation panels 101 arranged in front and back.

The base rail 103_5 corresponds to the entire rear end portion of the solar power generation panel 101 so that the rear end portions of the three solar power generation panels 101 arranged at the rear can be sandwiched between the rear end portions of the solar power generation panel 101. It is attached and positioned.

The base rails 103_2 and 103_4 are respectively positioned at approximately the middle of the base rails 103_1 and 103_3 and approximately at the middle of the base rails 103_3 and 103_5.

The base rail 103 is fixed to the installation place P by an adhesive or the like at the position determined for each.

The photovoltaic power generation panel 100 may be arranged at the installation place via an appropriate member such as a protection sheet for protecting the installation place. In this case, the base rail 103 may be directly placed on the member and fixed to the installation place P.

As shown in FIG. 6A, a plurality of slide members 104 are arranged (step 2). At this time, when each of the slide members 104 is arranged such that the panel pressing member 105 can sandwich each of the photovoltaic power generation panels 100 at the predetermined arrangement positions, the nut hole portion 115 and the first bolt hole. The part 121 or the second bolt hole 125 is arranged vertically.

Specifically, the slide member 104 is fitted into the guide groove 107 from the left end or the right end of each of the base rails 103 installed in step 1. The position of each of the slide members 104 in the front-rear direction is defined by the guide groove 107. As described above, each of the slide members 104 can slide along the guide groove 107 in the left-right direction without coming out of the guide groove 107. Therefore, by this sliding movement, it can be easily arranged in association with each of the photovoltaic power generation panels 101. Each of the slide members 104 is fixed to the base rail 103 by the fixing member 117 at the arrangement position.

In the present embodiment, when viewed from above, they are arranged at positions corresponding to the intermediate pressing member 105a and the end pressing member 105b shown in FIG. That is, as for the slide members 104, 6 is associated with each of the two photovoltaic panels 101 arranged in the front and rear in the middle of the left-right direction, and 7 is associated with each of the remaining 4 photovoltaic panels 101. ing. Therefore, six, four, eight, four, and six slide members 104 are attached to each of the guide grooves 107 of the base rails 103_1 to 103_5.

The six slide members 104 attached to the base rail 103_1 are arranged so that the two slide members 104 correspond to the front end portions of the three photovoltaic panels 101 arranged in front. The six slide members 104 attached to the base rail 103_5 are arranged so that the two slide members 104 correspond to the rear ends of the three photovoltaic panels 101 arranged rearward.

The four slide members 104 attached to the base rail 103_2 are arranged so as to correspond to the left end portion and the right end portion of each of the three photovoltaic panels 101 arranged in front. The four slide members 104 attached to the base rail 103_4 are arranged so as to correspond to the left end portion and the right end portion of each of the three photovoltaic panels 101 arranged rearward.

Of the eight slide members 104 attached to the base rail 103_3, the slide member 104 arranged at the left end is arranged in association with the left end portion of the photovoltaic power generation panels 101 arranged front and rear on the left side. Further, among the eight slide members 104, the slide member 104 arranged at the right end is arranged so as to be associated with the right end portion of the photovoltaic power generation panels 101 arranged front and rear on the right side. The remaining six slide members 104 attached to the base rail 103_3 are arranged so that the two slide members 104 correspond to each pair of the photovoltaic power generation panels 101 arranged in the front and rear.

As shown in FIG. 6A, the photovoltaic power generation panel 101 and the panel pressing member 105 are arranged above the base rail 103 and the slide member 104 arranged in the steps 1 and 2 (step 3).

In the present embodiment, each of photovoltaic panels 101 is arranged on base rail 103 so as to be surrounded by nut hole portion 115 when viewed from above. Further, the panel pressing member 105 is arranged above each of the slide members 104.

At this time, the panel pressing member 105 is positioned so that the first bolt hole portion 121 or the second bolt hole portion 125 is vertically aligned with the nut hole portion 115 and the nut 116. In addition, the photovoltaic power generation panel 101 is arranged so that the side surface portion thereof is substantially parallel to the first panel positioning portion 119 or the second panel positioning portion 123.

By arranging in this way, the panel pressing member 105 is positioned so that at least a part of the first opposing plate portion 118 or the second opposing plate portion 122 faces the slide member 104 in the up-down direction through the opening 112. To be Further, the first extending portion 120 or the second extending portion 124 extends above the locking portion 110 of the base rail 103 in which the slide member 104 located below the panel pressing member 105 including the first extending portion 120 or the second extending portion 124 is fitted. .. Then, each outer edge portion of the photovoltaic power generation panel 101 is sandwiched between the first extension portion 120 or the second extension portion 124 and the base rail 103.

In step 3, the panel pressing member 105 and the photovoltaic power generation panel 101 may be arranged in various orders. In step 3, as a result of doing this, the outer edge portion of each of the photovoltaic power generation panels 101 is the panel pressing member 105 and the base rail 103 with the panel pressing member 105 being arranged above the slide member 104 as described above. It should be sandwiched between and. In the present embodiment, an example of the details of step 3 will be described with reference to the flowchart of FIG. 6B.

As shown in FIG. 6B, the panel pressing members 105 corresponding to the fourth to fifth base rails 103_4 and 103_5 from the front are arranged (step 31). That is, the panel pressing member 105 is arranged above the slide member 104 attached to the base rails 103_4 and 103_5.

In detail, as shown in FIG. 1, six end holding members 105b are arranged above each of the six slide members 104 attached to the base rail 103_5. In each of the end pressing members 105b, the second panel positioning portion 123 is oriented substantially in the left-right direction so that the second extending portion 124 extends forward, and the second bolt hole portion 125, the nut hole portion 115, and The nuts 116 are arranged so as to be vertically aligned. Each of the end pressing members 105b may be temporarily fixed with the bolt 106.

Temporary fixing means that the bolt 106 is inserted into the first bolt hole 121 or the second bolt hole 125 of the panel pressing member 105, and the vicinity of the tip of the bolt 106 is screwed into the nut 116. That is, a relatively short length portion (the first extending portion 120 or the second extending portion 124 and the locking portion 110) that is predetermined from the tip of the shaft portion of the bolt 106 is vertically aligned with the photovoltaic power generation panel. It is preferable that a length portion capable of forming a gap larger than the thickness of 101) is screwed into the nut 116. As a result, the panel pressing member 105 can be attached to the slide member 104 without causing a large positional deviation while enabling the solar power generation panel 101 to be described later to be arranged.

Further, among the four slide members 104 attached to the base rail 103_4, the end pressing member 105b is arranged above the slide member 104 arranged at the right end. At this time, in the end pressing member 105b, the second panel positioning portion 123 is oriented substantially in the front-rear direction so that the second extending portion 124 extends to the left, and the second bolt hole portion 125 and the nut hole. The portion 115 and the nut 116 are arranged so as to be vertically aligned.

Of the four slide members 104 attached to the base rail 103_4, the end pressing member 105b is arranged above the slide member 104 arranged at the left end. At this time, in the end pressing member 105b, the second panel positioning portion 123 is oriented substantially in the front-rear direction so that the second extending portion 124 extends rightward, and the second bolt hole portion 125 and the nut hole. The portion 115 and the nut 116 are arranged so as to be vertically aligned.

Of the four slide members 104 attached to the base rail 103_4, the intermediate pressing member 105a is arranged above each of the two slide members 104 arranged in the middle. At this time, the intermediate pressing member 105a is configured such that the first panel positioning portion 119 is oriented substantially in the front-rear direction so that the first extending portion 120 extends leftward and rightward, respectively, and the first bolt hole portion is formed. 121, the nut hole 115, and the nut 116 are arranged vertically.

Each of the end pressing member 105b and the intermediate pressing member 105a arranged in association with the base rail 103_4 may be temporarily fixed with a bolt 106.

As shown in FIG. 6B, the three rear photovoltaic panels 101 are arranged on the base rails 103_3 to 103_5 (step 32).

In detail, the installation operator slides the three rear photovoltaic panels 101 from the front to the rear in an appropriate order. At this time, the installation worker, for each of the photovoltaic power generation panels 101, between the first panel positioning portion 119 and the second panel positioning portion 123 of the panel pressing member 105 corresponding to the base rail 103_4, or two second panel positioning portions 123. It is passed between the two panel positioning portions 123. After that, the installation operator slides the photovoltaic power generation panel 101 further rearward so that the second panel positioning portion 123 of the end pressing member 105b corresponding to the base rail 103_5 has a side surface of the photovoltaic power generation panel 101. Contact parts.

As a result, each of the three rear photovoltaic panels 101 is surrounded by the nut hole portion 115 when viewed from above, and the first extending portion 120 or the second extending portion 124 and the base rail 103_4. It is arranged so as to be sandwiched between 103_5.

As described above, the solar power generation panel 101 is easily arranged by sliding each of the solar power generation panels 101 in the direction from the front by using the first panel positioning unit 119 or the second panel positioning unit 123. You can

As shown in FIG. 6B, the panel pressing members 105 corresponding to the second to third base rails 103_2 and 103_3 from the front are arranged (step 33). That is, the panel pressing member 105 is arranged above the slide member 104 attached to the base rails 103_2 and 103_3.

Specifically, as shown in FIG. 1, of the eight slide members 104 attached to the base rail 103_3, the end pressing member 105b is arranged above the slide member 104 arranged at the right end. At this time, in the end pressing member 105b, the second panel positioning portion 123 is oriented substantially in the front-rear direction so that the second extending portion 124 extends to the left, and the second bolt hole portion 125 and the nut hole. The portion 115 and the nut 116 are arranged so as to be vertically aligned.

Of the eight slide members 104 attached to the base rail 103_3, the end pressing member 105b is arranged above the slide member 104 arranged at the left end. At this time, in the end pressing member 105b, the second panel positioning portion 123 is oriented substantially in the front-rear direction so that the second extending portion 124 extends rightward, and the second bolt hole portion 125 and the nut hole. The portion 115 and the nut 116 are arranged so as to be vertically aligned.

Of the eight slide members 104 attached to the base rail 103_3, the intermediate pressing member 105a is arranged above each of the two slide members 104 arranged in the middle. At this time, the intermediate pressing member 105a has the first panel positioning portion 119 oriented generally in the left-right direction so that the first extending portion 120 extends forward and rearward, and the first bolt hole portion 121 and The nut hole 115 and the nut 116 are arranged so as to be vertically aligned.

Each of the end pressing member 105b and the intermediate pressing member 105a arranged in association with the base rail 103_3 may be temporarily fixed with a bolt 106.

Of the four slide members 104 attached to the base rail 103_2, the end pressing members 105b are arranged above the slide members 104 arranged at both ends, and each of the slide members 104 arranged between them. Then, the intermediate pressing member 105a is arranged. The details of the arrangement method of the panel pressing member 105 corresponding to the base rail 103_2 are the same as those of the above-described arrangement method of the panel pressing member 105 corresponding to the base rail 103_4 being replaced with the base rail 103_2. For the sake of simplicity, detailed description of the panel pressing member 105 arranged in association with the base rail 103_2 will be omitted.

As shown in FIG. 6B, the front three photovoltaic power generation panels 101 are arranged on the base rails 103_1 to 103_3 (step 34).

Specifically, the installation operator slides the three photovoltaic panels 101 in the front from the front to the rear in an appropriate order. At this time, the installation operator, for each of the photovoltaic panels 101, between the first panel positioning portion 119 and the second panel positioning portion 123 of the panel pressing member 105 corresponding to the base rail 103_2, or two second panel positioning portion 123. It is passed between the two panel positioning portions 123. After that, the installation operator slides the photovoltaic power generation panel 101 further rearward so that the side surface portion of the photovoltaic power generation panel 101 is attached to the first panel positioning portion 119 of the intermediate pressing member 105a corresponding to the base rail 103_3. To contact.

As a result, each of the three photovoltaic panels 101 in the front is surrounded by the nut hole portion 115 when viewed from above, and the first extending portion 120 or the second extending portion 124 and the base rail 103_2, 2. It is arranged so as to be sandwiched between 103_3.

Thus, also in step 34, as in step 32, by sliding each of the photovoltaic panels 101 from the front to the direction by using the first panel positioning portion 119 or the second panel positioning portion 123, The solar power generation panel 101 can be easily arranged.

As shown in FIG. 6B, the panel pressing member 105 corresponding to the frontmost base rail 103_1 is arranged (step 35). That is, the panel pressing member 105 is arranged above the slide member 104 attached to the base rail 103_1.

Specifically, as shown in FIG. 1, six end holding members 105b are arranged above each of the six slide members 104 attached to the base rail 103_1. In each of the end pressing members 105b, the second panel positioning portion 123 is oriented substantially in the left-right direction so that the second extending portion 124 extends rearward, and the second bolt hole portion 125, the nut hole portion 115, and The nuts 116 are arranged so as to be vertically aligned. Each of the end pressing members 105b may be temporarily fixed with the bolt 106.

As shown in FIG. 6A, the bolt 106 temporarily fixed in step 3 is fastened to the nut 116 by using an appropriate tool or the like, so that the slide member 104 and the panel pressing member 105 associated with each other in the vertical direction are fastened. (Step 4).

Specifically, by tightening the bolt 106 to the nut 116, the slide member 104 and the panel pressing member 105, which are vertically associated in step 3, are fastened by a screw action. Further, the slide member 104 is locked by the locking portion 110 so as to limit the upward movement, as described above. As a result, the outer edge portion of the photovoltaic power generation panel 101 is sandwiched between the first extending portion 120 or the second extending portion 124 and the locking portion 110 by the sandwiching force based on the screw action. The sandwiching force here means a force in a direction in which the first extending portion 120 or the second extending portion 124 and the locking portion 110 are close to each other.

By the installation method of the solar power generation device described so far, the solar power generation device 100 in which the solar power generation panel 101 is firmly held so as not to be blown off by wind or the like is installed at the installation location P.

(Action/effect)
As described so far, the photovoltaic power generation panel mount 102 according to the embodiment has a base rail 103, a plurality of slide members 104, a plurality of panel pressing members 105, and bolts 106 as a plurality of fastening members. With.

The base rail 103 is formed with a guide groove 107 extending in the longitudinal direction, and the guide groove 107 is opened upward through an opening 112 extending in the longitudinal direction with a width narrower than the width of the guide groove 107. Each of the slide members 104 has a width larger than the width of the opening 112, and is fitted into the guide groove 107 of the base rail 103 so as to be slidable in the longitudinal direction. The plurality of panel pressing members 105 are arranged above each of the plurality of slide members 104, and extend above the base rails so as to sandwich the outer edge portion of the photovoltaic power generation panel 101 between the base rails 103. The plurality of bolts 106 include a slide member 104 and a panel pressing member 105, which are vertically associated with each other, so that the outer edge portion of the photovoltaic power generation panel 101 is sandwiched between the base rail 103 and each of the plurality of panel pressing members 105. To conclude.

According to such a photovoltaic power generation panel mount 102, the base rails 103 may be installed in the installation place P at intervals according to the size and the arrangement direction of the solar power generation panel 101. As a result, the slide member 104 moves along the guide groove 107 and is thus arranged at a position corresponding to the size and the arrangement direction of the photovoltaic power generation panel 101. Further, the panel pressing member 105 and the bolt 106 may be arranged in association with the position of the slide member 104.

As described above, if the base rail 103 is installed according to the size and the arrangement direction of the photovoltaic power generation panel 101, the other members 104, 105, and 106 can be easily positioned using the guide rails. Therefore, if there is general construction knowledge and technology for installing the photovoltaic power generation panel 101, knowledge and technology peculiar to the photovoltaic power generation panel mount 102 are almost unnecessary. Therefore, the solar power generation panel can be easily installed.

Further, if the outer edge portion of the photovoltaic power generation panel 101 is located between the first extending portion 120 or the second extending portion 124 and the locking portion 110, the panel pressing member 105 and the slide member 104 are fixed by the bolt 106. By fastening, the outer edge part of the photovoltaic power generation panel 101 can be pinched.

Therefore, when viewed from above, the longitudinal direction of the guide groove 107 and the side surface portion of the photovoltaic power generation panel 101 may be directions diagonally intersecting each other at a desired angle. Even in such a case, by directing the first panel positioning part 119 or the second panel positioning part 123 in the direction along the direction of the side surface part of the photovoltaic power generation panel 101, the first extending part 120 or the first extending part 120 or The outer edge portion of the photovoltaic power generation panel 101 can be sandwiched between the second extension portion 124 and the locking portion 110.

By using the photovoltaic power generation panel mount 102 according to the embodiment, the side surface portion of the photovoltaic power generation panel 101 when viewed from above is directed toward a direction diagonally intersecting the longitudinal direction of the guide groove 107. An example of installing 101 is shown in the plan view of FIG.

FIG. 7: is a top view which shows the example which installed the solar power generation device 100 by setting the roof surface of the roof with a treat different from embodiment as the installation place Q. The solar power generation device 100 has a structure that is substantially the same as that of the embodiment. In the installation place Q shown in FIG. 7, protrusions 127 that protrude upward and extend in the left-right direction are provided on the substantially flat roof surface at substantially equal intervals in the front-rear direction. The height of the protrusion 127 is lower than the height of the base rail 103.

It may be desirable to arrange the photovoltaic power generation panel 101 in a direction in which the side surface portion of the photovoltaic power generation panel 101 obliquely intersects the protruding portion 127 when viewed from above, depending on the solar radiation conditions of the installation location Q and the like. In such a case, when the base rail 103 is arranged such that the side surface portion of the photovoltaic power generation panel 101 and the longitudinal direction of the guide groove 107 are parallel or at right angles when viewed from above, the base rail 103 intersects with the protruding portion 127. Will be done. The protrusion 127 creates a gap between the bottom surface 111 and the flat portion of the installation place Q, which makes it difficult to stably arrange the base rail 103.

With the photovoltaic power generation panel mount 102 according to the present embodiment, as described above, the longitudinal direction of the guide groove 107 and the side surface portion of the photovoltaic power generation panel 101 do not have to be parallel or at a right angle. Therefore, even when the installation place Q includes unevenness such as the protrusion 127, the side surface of the photovoltaic power generation panel 101 should be arranged in a desired direction while the base rail 103 is stably arranged. Can be done easily. Therefore, it becomes possible to easily install the photovoltaic power generation panel 101 according to the shapes of the installation locations P and Q, the solar radiation conditions, and the like.

According to the present embodiment, base rail 103 includes bottom plate portion 108, two side wall portions 109, and two locking portions 110. The bottom plate portion 108 extends in the longitudinal direction of the guide groove 107. The two side wall portions 109 extend upward from the respective widthwise end portions of the bottom plate portion 108. The two locking portions 110 form openings 112 by extending from the respective upper ends of the two side wall portions 109 in directions close to each other.

Such a base rail 103 can be easily manufactured by bending a rectangular flat metal plate or cutting a rectangular rod member. Therefore, it becomes possible to easily manufacture the frame for the photovoltaic power generation panel.

According to the present embodiment, the plurality of panel pressing members 105 include the intermediate pressing member 105a and the end pressing member 105b.

The intermediate pressing member 105a includes a first opposing plate portion 118, a first panel positioning portion 119, and a first extending portion 120. The first opposing plate portion 118 includes a pair of first side portions that are parallel to each other and is arranged so as to include portions that vertically oppose the slide member 104 via the opening 112. The first panel positioning portion 119 extends upward from each of the first side portions of the first opposing plate portion 118. The first extending portion 120 extends from the upper end portion of each of the first panel positioning portions 119 in a direction away from each other and extends above the base rail 103.

With such an intermediate pressing member 105a, by arranging the side surface portion of the photovoltaic power generation panel 101 close to the first panel positioning portion 119, the arrangement direction and position of the photovoltaic power generation panel 101 can be easily made. I can decide. Therefore, the solar power generation panel 101 can be easily installed.

In addition, the intermediate pressing member 105a includes two pairs of the first panel positioning portion 119 and the first extending portion 120 with respect to one first opposing plate portion 118. Thereby, the two photovoltaic panels arranged in different directions via the intermediate pressing member 105a can be sandwiched between the intermediate rail pressing member 105a and the base rail 103. Therefore, it becomes possible to easily install the plurality of photovoltaic power generation panels 101 with a simple configuration.

Further, the intermediate pressing member 105a can be easily formed by bending a rectangular flat metal plate or the like. Therefore, it becomes possible to easily manufacture the photovoltaic power generation panel mount 102.

The end pressing member 105b includes a second opposing plate part 122, a second panel positioning part 123, and a second extending part 124. The second opposing plate portion 122 includes at least one second side portion, and is arranged so as to include portions that vertically face the slide member 104 via the opening 112. The second panel positioning portion 123 is a flat plate-shaped portion that extends upward from one of the second side portions of the second opposing plate portion 122. The second extending portion 124 extends from the upper end portion of the second panel positioning portion 123 in a direction away from the second opposing plate portion 122 and extends above the base rail 103.

With such an end pressing member 105b, by arranging the side surface portion of the photovoltaic power generation panel 101 close to the second panel positioning portion 123, the placement direction and position of the photovoltaic power generation panel 101 can be easily adjusted. Can be decided. Therefore, the solar power generation panel 101 can be easily installed.

Further, in the end pressing member 105b, the second panel positioning part 123 and the second extending part 124 included in one second counter plate part 122 are a pair. Therefore, the structure can be simpler than that of the intermediate pressing member 105a.

In many cases, a plurality of photovoltaic power generation panels 101 are installed as illustrated in FIG. 1, and the photovoltaic power generation panels 101 are arranged in one direction with respect to the panel pressing member 105 around the entire photovoltaic power generation panel 101. It is just placed. For the photovoltaic power generation panel, by adopting the end pressing member 105b for sandwiching the photovoltaic power generation panel 101 at a position where the photovoltaic power generation panel 101 is arranged only in one direction with respect to the panel pressing member 105. The configuration of the gantry 102 can be simplified. Therefore, it is possible to install the photovoltaic power generation panel with a simple configuration.

Further, the end pressing member 105b can be easily formed by bending a rectangular flat metal plate or the like. Therefore, it becomes possible to easily manufacture the photovoltaic power generation panel mount 102.

According to the present embodiment, the fastening member is the bolt 106, and the nut 116 is fixed to the slide member 104. Further, the panel pressing member 105 includes a first bolt hole portion 121 or a second bolt hole portion 125 as a bolt hole portion into which the shaft portion of the bolt 106 is inserted.

As described above, since one of the bolt 106 and the nut 116 is a fastening member and the other is provided on the slide member 104, idling when the bolt 106 and the nut 116 are fastened to each other is prevented, and a sufficient fastening force is applied. Therefore, the outer edge portion of the photovoltaic power generation panel 101 can be easily clamped with a sufficient clamping force. Moreover, since the number of parts is reduced by not using the nut 116 as a separate member, the assembly of the photovoltaic power generation panel mount 102 becomes easy. Therefore, the solar power generation panel 101 can be easily installed.

According to the present embodiment, the guide groove 107 and the opening 112 are open at both ends in the longitudinal direction. Accordingly, the slide member 104 can be easily fitted into the guide groove 107 from any end in the longitudinal direction. Therefore, the photovoltaic power generation panel mount 102 can be easily assembled, and the photovoltaic power generation panel 101 can be easily installed.

According to the present embodiment, the photovoltaic power generation panel mount 102 further includes a fixing member 117 that fixes the slide member 104 to the base rail 103 in order to prevent the slide movement along the guide groove 107. Since the slide member 104 and the panel pressing member 105 are fixed to the base rail 103 by such a fixing member 117, the position of the photovoltaic power generation panel 101 can be more firmly fixed. Therefore, it becomes possible to hold the photovoltaic power generation panel 101 more firmly.

The installation method of the photovoltaic power generation panel mount 102, the photovoltaic power generation device 100, and the photovoltaic power generation device according to the embodiment of the present invention have been described above. The photovoltaic power generation panel mount 102, the photovoltaic power generation device 100, and the method for installing the photovoltaic power generation device according to the present invention are not limited to the above-described embodiments, and may be modified as follows, for example. Good.

(Modification 1)
In the embodiment, the example in which the solar power generation device 100 is installed at the installation place P has been described. Further, it has been described that the solar power generation device 100 configured by substantially the same members as those in the embodiment can be installed even in the installation place Q including the protrusion 127. However, the installation place is not limited to these. The installation location may be, for example, a roof surface such as a folded plate roof, a standing flat roof, or a flat roof. Further, for example, the installation place is not limited to the roof surface, and may be the outer wall surface of a building or structure.

Here, in the installation place Q described with reference to FIG. 7, an example in which the height of the protrusion 127 is lower than the height of the base rail 103 is shown. However, as shown in FIGS. 8A and 8B, the installation location R is a flat flat portion 228 that extends in a strip shape in the left-right direction and a flat flat portion 228 that is higher than the height of the base rail 103. It may include a protrusion 229 that protrudes and has a curved upper surface.

In such a case, even if the base rail 103 is arranged on the flat portion 228, the projecting portion 229 projects greatly, so that it is difficult to arrange the photovoltaic power generation panel 101 on the base rail 103. Further, if the upper surface of the protrusion 229 is curved, it is difficult to dispose the base rail 103 having the flat bottom surface 111 on the protrusion 229 as in the embodiment. A base rail having a curved bottom surface may be prepared so as to be applied to the shape of the protruding portion 229, but in this case, it takes time and effort to manufacture the base rail according to the shape of the installation place R.

In such a case, as shown in FIGS. 8A and 8B, the photovoltaic power generation panel mount 202 may further include an auxiliary member 230 interposed between the installation location R and the base rail 103.

Here, FIG. 8A is a plan view of the solar power generation device 200 according to the first modification. 8B is a partial cross-sectional view taken along line VIII_B-VIII_B of FIG. 8A. In this modification, the photovoltaic power generation device 200 is configured similarly to the photovoltaic power generation device 100 according to the embodiment, except that the photovoltaic power generation panel mount 202 further includes an auxiliary member 230.

The auxiliary member 230 according to the present modification is a tube whose outer shape is a substantially rectangular parallelepiped, and includes a lower fixing portion 231, an upper fixing portion 232, and a connecting portion 233. The length and the number of auxiliary members 230 to be arranged may be appropriately determined according to the shape of the installation place R, the length of the base rail 103, and the like.

The lower fixing portion 231 and the upper fixing portion 232 are substantially rectangular flat plate portions that are parallel to each other. The lower fixing portion 231 is fixed to the flat portion 228 of the installation place R with an adhesive agent, a screw, a bolt or the like (not shown). The upper fixing portion 232 is provided at a position separated from the lower fixing portion 231, and the base rail 103 is fixed by an adhesive agent, a screw, a bolt, or the like (not shown). The bottom surface of the lower fixing portion 231 has a shape corresponding to the flat portion 228 to which the lower fixing portion 231 is fixed, and is flat in this modification. The connecting portion 233 is a portion that connects the lower fixing portion 231 and the upper fixing portion 232, and in the present modification, connects between the respective end portions of the lower fixing portion 231 and the upper fixing portion 232.

By fixing the lower fixing portion 231 to the flat portion 228 of the installation place R, the base rail 103 can be attached to the upper fixing portion 232 with the longitudinal direction of the guide groove 107 oriented in a desired direction. That is, by disposing the base rail 103 at the installation location R via the auxiliary member 230, the base rail 103 can be easily disposed at the installation location R with the longitudinal direction of the guide groove 107 oriented in a desired direction. Therefore, even when the installation location R includes the protruding portion 229 protruding more than the height of the base rail 103, the photovoltaic power generation panel 101 can be easily installed.

In the embodiment, the example in which the base rail 103 includes the bottom plate portion 108, the two side wall portions 109, and the two locking portions 110 to form the guide groove 107 and the opening 112 has been described. However, the base rail is formed with a guide groove extending in the longitudinal direction, and the guide groove may be opened upward through an opening extending in the longitudinal direction with a width narrower than the width of the guide groove. , May be changed as appropriate. Further, the slide member may be configured to be slidable along the guide groove without coming out of the guide groove. A modified example regarding the base rail and the slide member will be described below as Modified Example 2.

(Modification 2)
FIG. 9 is a partial cross-sectional view of the solar power generation device according to Modification 2 along a line corresponding to the line II-II in FIG. 1. In the same figure, the cross section of the base rail 303 and the side surface of the slide member 304 according to the present modification as viewed from the longitudinal direction of the guide groove 307 are shown.

As shown in FIG. 9, the photovoltaic power generator and the photovoltaic power generation panel mount according to the present modification includes a base rail 303 and a slide member 304 instead of the base rail 103 and the slide member 104 according to the embodiment. .. Except for these points, each of the photovoltaic power generation device and the photovoltaic power generation panel mount according to the present modification is configured similarly to the photovoltaic power generation device 100 and the photovoltaic power generation panel mount 102 according to the embodiment. It

As shown in FIG. 9, the base rail 303 according to the present modification includes a bottom plate portion 108 and two side wall locking portions 334 similar to those of the embodiment. The base rail 303 can be manufactured by cutting a substantially rectangular parallelepiped elongated rod-shaped member made of, for example, metal or resin.

As shown in FIG. 9, the two side wall locking portions 334 are substantially right-angled triangular portions arranged symmetrically in the width direction (that is, symmetrical in the front-rear direction in FIG. 9) when viewed in the longitudinal direction. The outer surface of each of the two side wall locking portions 334 is a substantially rectangular flat surface that extends upward from each side portion of the bottom plate portion 108 in the width direction in a direction substantially perpendicular to the bottom plate portion 108. The inner surfaces of the two side wall locking portions 334 are generally rectangular flat surfaces that are inclined so as to approach each other as they go upward.

The inner surface of each of the bottom plate portion 108 and the two side wall locking portions 334 defines a guide groove 307 that is generally trapezoidal and extends in the longitudinal direction. The opening 312 formed by the two side wall locking portions 334 has a width narrower than the width of the guide groove 307 and extends in the left-right direction.

As shown in FIG. 9, the slide member 304 according to the present modification has a trapezoidal outer shape that fits into the guide groove 307, as shown in FIG. Specifically, the slide member 304 includes an upper plate portion 313 and two hanging parts 314. The upper plate portion 313 has substantially the same configuration as the upper plate portion 113 except that the width is shorter than the upper plate portion 113 according to the embodiment.

The two hanging parts 314 are parts that extend downward from each end of the upper plate part 313 in the width direction (the front-rear direction in FIG. 9) so that the distance between the two hanging parts 314 becomes wider as it goes downward. The hanging portion 314 is configured in substantially the same manner as the hanging portion 114 according to the embodiment, except for the angle with respect to the upper plate portion 313 when viewed from the left and right direction.

Also in this modification, the width of the slide member 304 is larger than the width of the opening 312, as in the embodiment. Here, the width of each of the slide members 304 is the length in the front-rear direction when fitted in the guide groove 107. Therefore, the upward movement of the slide member 304 is restricted by being locked by the side wall locking portion 334. Therefore, the slide member 304 can slide in the left-right direction along the guide groove 307 without slipping upward from the guide groove 307, and the sun between the first extending portion 120 and the side wall engaging portion 334 can be performed. It is possible to hold the outer edge of the photovoltaic panel 101.

Although FIG. 9 shows an example in which the intermediate pressing member 105a is applied to the slide member 304, the end pressing member 105b can also be applied to the slide member 304 as in the embodiment.

In the panel pressing member 105 according to the embodiment, the example in which the first opposing plate portion 118 and the second opposing plate portion 122 are both rectangular flat plates has been described. However, a portion corresponding to the first opposing plate portion 118 or the second opposing plate portion 122 of the panel pressing member, that is, the upper surface of the locking portion 110, is disposed and the upper plate portion 113 of the slide member 104 is provided through the opening 112. The shapes of the portions arranged on the upper surface of the locking portion 110 that vertically oppose each other may be appropriately changed. A modification of the panel pressing member will be described below as modification 3.

(Modification 3)
FIG. 10 is a partial cross-sectional view of the solar power generation device according to Modification 3 along the line corresponding to the line II-II in FIG. 1. In the same figure, the side surface of the panel pressing member 405 according to the present modification as viewed from the longitudinal direction of the guide groove 107 is shown. Further, FIG. 11 is a diagram showing a panel pressing member 405 according to Modification 3, where (a) is a plan view seen from above and (b) is a bottom view seen from below.

As shown in FIGS. 10 and 11, the photovoltaic power generation apparatus and the photovoltaic power generation panel mount according to the present modification include a panel pressing member 405 instead of the panel pressing member 105 according to the embodiment. Except for this point, each of the photovoltaic power generation device and the photovoltaic power generation panel mount according to the present modification is configured similarly to the photovoltaic power generation device 100 and the photovoltaic power generation panel mount 102 according to the embodiment. ..

As shown in FIGS. 10 and 11, the panel pressing member 405 according to the present modification includes a third opposing plate portion 435, a third panel positioning portion 436, and a third extending portion 437. The panel pressing member 405 is manufactured, for example, by pressing a disk-shaped metal plate.

The third opposing plate portion 435 is a circular flat plate-shaped portion that is opposed to the slide member 104 through the opening 112. The third opposing plate portion 435 includes a third bolt hole portion 438 that forms a hole that penetrates in the up-down direction at approximately the center.

The third panel positioning portion 436 is a cylindrical portion that extends upward from the outer peripheral portion of the third opposing plate portion 435. The third panel positioning portion 436 is not limited to the cylindrical shape, and may be, for example, a hollow truncated cone shape whose diameter is reduced or expanded upward.

The third extending portion 437 is a portion that extends outward from the upper end of the third panel positioning portion 436 to the upper side of the base rail, and has a hollow annular shape (so-called donut shape) flat plate shape.

Even in the panel pressing member 405 according to the present modification, as in the case of the intermediate pressing member 105a, the panel pressing member 405 is disposed between the adjacent solar power generation panels 101, so that the outer edge portions of the respective solar power generation panels 101 are arranged. Can be sandwiched and held between the base rail 103 and the base rail 103. Therefore, in the embodiment, by adopting the panel pressing member 405 instead of the intermediate pressing member 105a, the same effect as that of the embodiment is obtained.

In addition, in the embodiment, the example in which the plurality of panel pressing members 105 include the intermediate pressing member 105a and the end pressing member 105b has been described. However, the configuration of the plurality of panel pressing members included in the photovoltaic power generation panel mount 102 is not limited to this. For example, the panel pressing member may include the intermediate pressing member 105a, the end pressing member 105b, and the panel pressing member 405. Further, for example, the panel pressing member may include the end pressing member 105b and the panel pressing member 405. Further, for example, the panel pressing member may be configured by only the intermediate pressing member 105a, only the end pressing member 105b, or only the panel pressing member 405.

Although the example in which the fastening member is the bolt 106 has been described in the embodiment, the fastening member is not limited to this.

For example, the fastening member may be a nut. In this case, instead of the nut 116, the shaft portion of the bolt may be fixed to the first opposing plate portion 118 so as to project upward. In this case as well, the shaft portion of the bolt may be arranged in a state of penetrating the first bolt hole portion 121 or the second bolt hole portion 125 as in the present embodiment.

Further, for example, the fastening member is a holding tool such as a clip that holds the upper plate portion 113 of the slide member 104 and the first opposing plate portion 118 of the panel pressing member 105 at the left end and the right end by using elastic force. May be. In this case, the nut 116 and the nut hole 115 may not be provided.

Also by these modifications, the state in which the force in the direction of bringing them closer to each other is applied to the slide member 104 and the panel pressing member 105, which are associated with each other in the vertical direction, is maintained. Therefore, the slide member 104 and the panel pressing member 105, which are associated with each other vertically, are fastened so as to sandwich the outer edge portion of the photovoltaic power generation panel 101 between the base rail 103 and each of the plurality of panel pressing members 105. .. Therefore, the same effect as that of the embodiment is achieved.

Although the embodiments and modifications of the present invention have been described above, the present invention is not limited to these. For example, the invention includes a mode in which a part or all of the embodiment and the modified examples described above are appropriately combined, and a mode in which the mode is appropriately modified.

100,200 Solar power generator, 101 Solar power panel, 102,202 Photovoltaic panel mount, 103,103_1-103_5,303 Base rail, 104,304 Sliding member, 105,405 Panel holding member, 105a Intermediate Pressing member, 105b End pressing member, 106 bolt, 107,307 guide groove, 108 bottom plate part, 109 side wall part, 110 locking part, 111 bottom face, 112,312 opening, 113,313 upper plate part, 114,314 Hanging part, 115 nut hole part, 116 nut, 117 fixing member, 118 first opposing plate part, 119 first panel positioning part, 120 first extending part, 121 first bolt hole part, 122 second opposing plate part , 123 2nd panel positioning part, 124 2nd extending part, 125 2nd bolt hole part, 126 washer, 127 protruding part, 228 flat part, 229 protruding part, 230 auxiliary member, 231 lower fixing part, 232 upper fixing Part, 233 connection part, 334 side wall locking part, 435 third opposing plate part, 436 third panel positioning part, 437 third extension part, 438 third bolt hole part, PQR installation place

Claims (12)

A photovoltaic power generation panel mount for installing a photovoltaic power generation panel at an installation location,
A guide rail is formed in which a guide groove extending in the longitudinal direction is formed, and the guide groove is opened upward through an opening extending in the longitudinal direction with a width narrower than the width of the guide groove,
A plurality of slide members that are fitted in the guide groove of the base rail so as to be slidable in the longitudinal direction, and have a width larger than the width of the opening;
A plurality of panel retainers that are disposed above each of the plurality of slide members and that extend above the base rail to sandwich the outer edge portion of the photovoltaic power generation panel with the base rail. Members,
A plurality of fastenings for fastening the slide member and the panel holding member, which are vertically associated with each other, so that the outer edge portion of the photovoltaic power generation panel is sandwiched by the base rail and each of the plurality of panel holding members. A stand for a photovoltaic power generation panel, comprising: a member. The base rail is
A bottom plate portion extending in the longitudinal direction,
Two side wall portions extending upward from each end portion in the width direction of the bottom plate portion;
The mount for a photovoltaic power generation panel according to claim 1, further comprising: two locking portions that form the opening by extending from respective upper ends of the two side wall portions in directions approaching each other. At least a part of the plurality of panel pressing members,
A first opposing plate portion that includes a pair of first side portions that are parallel to each other and that is disposed so as to include portions that vertically face the slide member through the opening;
A first panel positioning portion extending upward from each of the first side portions of the first opposing plate portion;
The first extending portion extending in a direction away from each other from the upper end portion of each of the first panel positioning portions and extending above the base rail, the sun according to claim 1 or 2. Photovoltaic panel mount. At least a part of the plurality of panel pressing members,
A second apposition plate portion including at least one second side portion and arranged so as to include portions that vertically face each other with the slide member through the opening;
A flat plate-shaped second panel positioning portion extending upward from one of the second side portions of the second opposing plate portion;
The second extension portion extending from the upper end portion of the second panel positioning portion in a direction away from the second counter placement plate portion and extending above the base rail is included. The mount for a photovoltaic power generation panel according to any one of 3 above. At least a part of the plurality of panel pressing members,
A circular third opposing plate portion opposed to the slide member through the opening,
A cylindrical or hollow truncated cone-shaped third panel positioning portion extending upward from the outer peripheral portion of the third opposing plate portion;
The third extension portion that extends upward from the upper end of the third panel positioning portion, each extending upward of the base rail is included. Photovoltaic panel mount. The fastening member is one of a bolt and a nut,
The other of the bolt and the nut is fixed to the slide member,
The said panel pressing member contains the hole part for bolts in which the said shaft part of the said bolt is inserted. The mount for photovoltaic power generation panels of any one of Claim 1 to 5 characterized by the above-mentioned. The guide groove and the opening are open at both ends in the longitudinal direction. The photovoltaic power generation panel mount according to claim 1, wherein the guide groove and the opening are open. The photovoltaic power generation system according to any one of claims 1 to 7, further comprising a fixing member that fixes the slide member to the base rail in order to prevent the slide movement along the guide groove. Panel mount. Further comprising an auxiliary member interposed between the installation location and the base rail,
The auxiliary member is
A lower fixing portion fixed to the installation place,
The mount for a photovoltaic power generation panel according to any one of claims 1 to 8, further comprising an upper fixing part provided at a position separated from the lower fixing part and fixing the base rail. A mount for a photovoltaic power generation panel according to any one of claims 1 to 9,
A photovoltaic power generation device comprising: a plurality of photovoltaic power generation panels attached to the photovoltaic power generation panel mount. A method for installing a photovoltaic power generation panel device for installing a photovoltaic power generation panel at an installation location,
A guide groove extending in the longitudinal direction is formed, and the base rail having the guide groove opened upward through the opening extending in the longitudinal direction with a width narrower than the width of the guide groove is installed at the installation location,
By fitting a plurality of slide members having a width larger than the width of the opening into the guide groove of the base rail and slidingly moving the slide member in the longitudinal direction, each of the plurality of slide members is previously moved along the guide groove. Placing it in a fixed position,
In order that the outer edge portion of the photovoltaic power generation panel is sandwiched between the base rail and a plurality of panel pressing members arranged above each of the plurality of slide members and extending above the base rail, Disposing the solar panel and the plurality of panel pressing members,
By fastening the slide member and the panel pressing member, which are associated with each other in the vertical direction, with a fastening member, the outer edge portion of the photovoltaic power generation panel is sandwiched by the base rail and each of the plurality of panel pressing members. A method for installing a photovoltaic power generation panel device, comprising: Arranging the photovoltaic panel and the plurality of panel pressing members,
Disposing a plurality of panel pressing members extending above the base rail so as to sandwich the outer edge portion of the photovoltaic power generation panel between the base rail and each of the plurality of slide members,
The solar power generation panel is arranged so that the outer edge portion of the solar power generation panel is sandwiched between the base rail and each of the panel pressing members. How to install the solar panel device.

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