JP2017017987A - Gantry configuration system for planar article such as solar panel - Google Patents

Abstract

PROBLEM TO BE SOLVED: To maintain the strength of a frame, to facilitate transportation of a frame component member, and to facilitate installation and installation.SOLUTION: Provided is a gantry configuration system for a planar article such as a solar panel in which a plurality of vertical rails 31 are disposed substantially in parallel and at a predetermined angle on the base portion 30 and a planar article such as a solar panel can be arrayed and fixed in vertical and horizontal directions on the vertical rails 31. A horizontal frame 20 comprising one unit supporting the plurality of vertical bars 31 is used. The horizontal frame 20 includes a horizontal beam 21 at the upper end thereof, a plurality of support columns 22 for supporting the horizontal beam 21, and a fixing portion 24 for fixing the lower end portion of the support column 22 to the base portion 30. At least two of the cross beam frames 20 are arranged on the front side and the rear side of the mount. A plurality of vertical rails 31 are fixed in rows on the horizontal rail 21 at the upper end of these horizontal rail frames 20 and/or on the upper end portions of the support columns 22. The frame is formed by fixing and fixing the reinforcing members 25, 26, and 27, whereby the planar article can be arrayed and fixed on the vertical bars 31 of the gantry.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a pedestal for installing and supporting and fixing a planar article such as a solar panel (solar cell panel), and more particularly, a gantry configuration system and a gantry configuration method, and a gantry frame used for the gantry. It is about.

  Conventionally, various support frames for constructing a planar article such as a solar panel of a type installed on the ground or on a flat roof or the like regardless of the size of mega solar have been proposed. Examples of these prior arts include those described in the following patent documents.

The solar cell panel support structure according to the invention described in Patent Document 1 below provides an economically easy construction, excellent safety and maintainability, and stands at a predetermined interval on the construction site. A plurality of bases (bases) provided, a support member spanned between the bases (bases), and an attachment part for attaching a solar cell panel provided on the support member are provided.
In this invention, there is a feature in the form of the base, that is, the whole or part of the upper surface of the base is inclined at a predetermined angle, and a support material is attached to the inclined surface to support the solar cell panel in an inclined state. It is.

In the support structure described in Patent Document 2 below, a support structure capable of stably supporting a solar cell module at low cost against the instability of the ground and a support metal fitting therefor are provided.
The base used here is constructed and installed at different heights on the base located on the front side and the base located on the back side, and mounting brackets are fixed to the upper surfaces of the bases at different heights. The solar cell panel can be installed and fixed in an inclined shape, and the structure of the mounting bracket is characteristic.

In the support structure described in Patent Document 3 below, a structure support structure that provides easy and safe mounting work for a structure such as a solar cell module is provided. There is a feature in the configuration of both the guide support part.
Also in the present invention, the foundation foundation concrete foundation is laid on the ground at equal intervals, the base rails are fixed on these concrete foundations, and the base rails are arranged at equal intervals, and the rear end arm of each base rail Are vertically erected, obliquely spanning the vertical beam between the front end of each base beam and the upper end of each rear end arm, and the solar cell module is installed on these vertical beams (FIG. 3). 1, see FIGS. 10 and 23).

The invention described in Patent Document 4 below provides an installation stand that has a simple shape, but has a wide position adjustment range for the crosspieces, and can reduce costs.
In this invention, it is comprised so that those attachment positions can be adjusted little by little by the structure of a horizontal crosspiece and a fixing tool, and a fixing tool and a vertical crosspiece.
In the present invention, the solar panel can be installed in an inclined manner by making the height of the horizontal beam on the near side of the vertical beam different from the height of the horizontal beam located behind.

JP 2007-35849 A JP 2010-258024 A JP 2011-185030 A JP 2011-132780 A

As described above, there are various types of support structures for conventional planar articles such as solar panels, but in the present invention, a concrete base is installed at the installation (construction) location, and this base part A planar article is supported and fixed in a planar or inclined manner via a support structure.
In such a support structure, it is required to reduce the weight thereof, and it is lightweight, but its predetermined strength is also required. In the present invention, this reduction in weight and securing of strength are first performed. First, it must be realized.

Next, in the present invention, facilitating the installation work becomes a problem. Therefore, in order to facilitate the installation work, it is an issue to provide a frame configuration system, a method for mounting a frame such as a solar panel, and a frame for a frame that is an optimum component used for the frame.
Furthermore, by using the frame for the gantry, the transportation of the structural members of the gantry and the simplification and simplification of the installation work are also problems.
In addition, in the present invention, it is a problem to improve the water resistance and corrosion resistance of the constituent elements, which are general requirements for this type of mount.

In order to solve the above-mentioned problem, a first object of the present invention is to arrange a plurality of vertical bars on a base portion substantially in parallel and at a predetermined angle, and a planar article such as a solar panel on the vertical bars. Is a frame construction system for a planar article such as a solar panel that can be arranged and fixed vertically and horizontally, using a vertical beam frame comprising one unit with the vertical beam arranged at the upper end thereof. Is composed of a vertical rail at the upper end, a plurality of columns that support the vertical beam, and a fixed portion that fixes the lower end of the column to the base. A plurality of the vertical beam frames are arranged on the base. A solar panel or the like, characterized in that a frame is formed by appropriately fixing and fixing a reinforcing material between these vertical beam frames, whereby the planar article can be arranged and fixed on the vertical beam of the frame This is a gantry configuration system for a planar article.
Here, the “base” is, for example, a large-scale thing such as a mega solar, where concrete foundations are appropriately arranged on a vast site in parallel in the horizontal or vertical direction. If it is a flat roof on the roof of a concrete building, this flat roof itself becomes a foundation part, and the frame according to the present invention can be installed thereon.
The vertical beam means that a solar panel is installed with an appropriate inclination angle with respect to sunlight, and means a beam arranged in a direction along the inclination direction of the inclined surface.
In the present invention, the predetermined angle of the vertical beam that determines the inclination angle of the solar panel means that the entire range from 0 degrees to 90 degrees is included.

  According to a second aspect of the present invention, in the first aspect of the present invention, the lengths of the columns on the front side and the rear side of the vertical beam frame are made different, and / or the arrangement angles of the columns on the front side and the rear side are different. This is a gantry configuration system for a planar article such as a solar panel, in which vertical bars are arranged in an inclined manner with an appropriate angle.

  According to a third aspect of the present invention, in the first or second aspect of the invention described above, an even number of the vertical beam frames is set as one block, and the bases in units of one block are sequentially arranged in a horizontal direction to form a base. A system for constructing a planar article such as a solar panel, in which a conductive member having electrical conductivity is placed between the blocks and an operation of wiring a ground wire between the blocks is omitted.

  According to a fourth aspect of the present invention, a plurality of vertical bars are arranged substantially parallel and at a predetermined angle on a base part, and a planar article such as a solar panel is arranged and fixed vertically and horizontally on the vertical bars. A frame structure system for a planar article such as a solar panel, which uses a horizontal beam frame composed of one unit that supports the plurality of vertical beams, and the horizontal beam frame includes a horizontal beam at an upper end thereof, It is composed of a plurality of columns that support the horizontal beam and a fixing unit that fixes the lower end of the column to the base. At least two of the horizontal beam frames are arranged on the front side and the rear side of the frame, and these A plurality of vertical beams are arranged and fixed on the horizontal beam at the upper end of the horizontal beam frame and / or on the upper end of the column, and a support is formed by appropriately arranging and fixing a reinforcing member, whereby the frame is formed on the vertical beam of the frame. Saw characterized by being able to array and fix planar articles A frame structure system of the planar articles such Paneru.

  According to a fifth aspect of the present invention, in the fourth aspect of the present invention, the vertical bars are arranged in an inclined manner at an appropriate angle by making the column heights of the front side crosspiece frame and the rear side crosspiece frame different from each other. This is a gantry configuration system for a planar article such as a solar panel.

  According to a sixth aspect of the present invention, in the fourth or fifth aspect of the present invention, the at least two horizontal rail frames are set as one block, and the bases in units of one block are sequentially arranged in a horizontal direction to form a base. A system for constructing a planar article such as a solar panel, in which a conductive member having electrical conductivity is placed between the blocks and an operation of wiring a ground wire between the blocks is omitted.

  According to a seventh aspect of the present invention, in each of the first to sixth aspects of the invention, the vertical beam frame or the horizontal beam frame comprising one unit is foldable and / or extendable and assembleable. A system for constructing a planar article such as a solar panel, which is sometimes carried out in a folded state or a contracted state and can be assembled at an installation site to form a frame.

  According to an eighth aspect of the present invention, a vertical beam frame including a vertical beam that supports a planar article such as a solar panel is formed to be foldable and can be assembled, and a plurality of the vertical beam frames are arranged substantially in parallel on a base portion. After that, the reinforcing material is disposed and fixed between the vertical beam frames to form a frame, and the planar articles can be sequentially disposed and fixed in the vertical and horizontal directions on the plurality of vertical beams of the frame. This is a method for constructing a frame for a planar article such as a solar panel.

  According to a ninth aspect of the present invention, a horizontal beam frame that supports a plurality of vertical beams that support a planar article such as a solar panel is formed to be foldable and / or extendable and assembleable. At least two of these are installed on the front side and rear side of the base part, and then a plurality of vertical bars are arranged and fixed in parallel between these horizontal beam frames, and a reinforcing material is arranged and fixed appropriately to form a frame In addition, the present invention provides a method for constructing a pedestal of a planar article such as a solar panel, in which the planar article can be sequentially arranged and fixed in a vertical and horizontal direction on a plurality of vertical bars of the gantry.

  A tenth aspect of the present invention is a vertical beam frame used in a frame construction system for a planar article such as a solar panel according to the first invention, and the vertical beam frame includes an upper vertical beam, It consists of a single unit as a whole consisting of a plurality of struts that support this, and a fixed part that fixes the lower end of these struts to the base part, and the lengths of the front and rear struts are different, And / or a frame for mounting a planar article such as a solar panel that can change the inclination angle of a vertical beam that supports the planar article such as a solar panel by changing the arrangement angle of the support pillars on the front side and the rear side. It is.

  An eleventh aspect of the present invention is a horizontal beam frame used in the system for constructing a planar article such as a solar panel according to the fourth invention, and the horizontal beam frame includes an upper horizontal beam, It consists of a single unit composed of a plurality of support columns that support this, and a fixed portion that fixes the lower end portions of these support columns to the base portion, on the horizontal beam arranged on the upper end of the horizontal beam frame and It is a frame for a frame of a planar article such as a solar panel in which a plurality of vertical bars can be arranged and fixed substantially parallel to the upper end of the column.

  A twelfth aspect of the present invention is a solar panel or the like according to the tenth or eleventh aspect, wherein the vertical beam frame or the horizontal beam frame is foldable and / or extendable and assembleable. This is a frame for a frame of the planar article.

In the first aspect of the present invention, the vertical beam frame which is one of the components of the pedestal is already formed as one unit, that is, as one complete component, and the vertical beam frame as one unit. Are installed on the base part, and the frame is completed using the reinforcing material, and the installation work becomes very easy.
In other words, the vertical beam frame is manufactured in advance in the factory, transported to the installation site, installed on the base as it is, and further added with reinforcing materials such as braces to complete the frame. Can do it.
After the gantry is completed, a planar article such as a solar panel can be installed and fixed on vertical bars arranged substantially in parallel by a conventional method.

In the second aspect of the present invention, the vertical beam frame of the gantry configuration system includes an upper vertical beam, a plurality of columns supporting the vertical beam, and a fixing unit that fixes the lower end of the column to the base unit. However, the length of the front and rear columns of the plurality of columns supporting the vertical frame is made different, or the arrangement angle of the front and rear columns is made different. Therefore, the vertical rails can be arranged in an inclined manner with an appropriate angle by making both the length and the arrangement angle different.
That is, the vertical beam frame having a desired inclination angle is selected by appropriately changing the length of the column of the vertical beam frame manufactured in the factory in advance. The pier frame can be installed on site.

  According to a third aspect of the present invention, an even number of vertical beam frames is formed as one block, and the blocks in units of one block are sequentially arranged in the horizontal direction to form a plurality of blocks. Since the conductive member having conductivity is stretched over, the work of wiring the ground wire between the respective blocks becomes unnecessary, thereby saving labor.

The fourth aspect of the present invention is different from the above-described invention, that is, a gantry configuration system using a unitized horizontal beam frame instead of using a unitized vertical beam frame.
That is, a horizontal beam frame composed of one unit capable of supporting a plurality of vertical beams is used, and at least two of the horizontal beam frames are arranged on the front side and the rear side of the frame, and these horizontal beams are arranged. A plurality of vertical beams are arranged and fixed on the horizontal beam at the upper end of the frame and / or on the upper end portion of the column, and a frame is formed by appropriately arranging and fixing a reinforcing material.

  The effect is the same as in the first aspect of the invention. The crosspiece frame, which is one of the components of the gantry, is already formed as one unit, that is, as one complete component. Two horizontal beam frames are used and arranged on the base on the front side and the rear side, and a plurality of vertical beams are arranged and fixed on each horizontal beam and / or the upper end of the column. After that, a frame is completed using a reinforcing material, and a solar panel or the like can be installed and fixed on the vertical rail, and the installation work becomes very easy.

In the fifth aspect of the present invention, the heights of the columns of the front and rear horizontal beam frames are different so that the inclination angle of the vertical beam arranged on the front and rear horizontal beam frames can be changed. It is characterized by making it.
As a result, the inclination angle of the vertical rails arranged on the front and rear horizontal rail frames can be freely changed as appropriate.

  In the present invention, this horizontal beam frame is composed of one unit manufactured in the factory in advance, and various horizontal beam frames having different column heights are manufactured in advance and prepared, so that the The vertical beam can be easily installed at a desired inclination angle at the site selected.

  In the sixth aspect of the present invention, as in the third aspect of the present invention, at least two crosspiece frames are formed as one block, and the blocks in units of one block are sequentially arranged in the horizontal direction to form a plurality of blocks. Since a conductive member having conductivity is stretched between the respective blocks, an operation of wiring a ground wire between the respective blocks becomes unnecessary, and labor saving is achieved.

  According to a seventh aspect of the present invention, in any one of the first to fourth aspects of the present invention, the vertical beam frame or the horizontal beam frame formed of one unit is formed of a foldable and / or extendable and assembleable one. Therefore, it is transported in a folded or contracted state at the time of shipment, and can be assembled at the installation site to construct a gantry, which contributes to easier transportation and easier installation work. .

In the eighth aspect of the present invention, a vertical beam frame including a vertical beam that supports a planar article such as a solar panel is formed so as to be foldable and can be assembled, and a plurality of the vertical beam frames are substantially parallel to the base portion. A gantry construction method in which a reinforcing material is disposed and fixed between these vertical beam frames to form a frame, and a planar article can be sequentially arranged and fixed in the vertical and horizontal directions on a plurality of vertical beams of the frame. It is.
By adopting this gantry construction method, the installation work is greatly simplified, and the work efficiency is greatly improved.

  In the ninth aspect of the present invention, unlike the vertical cross frame used in the sixth aspect of the present invention, there is provided a gantry construction method using a foldable and / or extendable and assembleable horizontal cross frame, and its effects Is the same as in the sixth aspect of the invention.

  A tenth aspect of the present invention relates to a vertical frame used in the gantry configuration system according to the first aspect of the present invention, wherein the lengths (heights) of the front side and the rear side of the column are different. And / or the inclination angle of the vertical beam can be changed by changing the arrangement angle of the support columns on the front side and the rear side, and the vertical beam frame having the vertical beam having a desired inclination angle is previously set in the factory. It can be manufactured as one unit.

  The eleventh aspect of the present invention relates to a horizontal beam frame used in the gantry configuration system according to the fourth invention, and this horizontal beam frame can be manufactured in advance as one unit in the factory. In addition, by preparing and preparing those having different lengths of the columns in advance, by appropriately selecting and installing these, it is possible to install and fix the vertical beam with an appropriate inclination angle. It is.

  According to a twelfth aspect of the present invention, the vertical beam frame or the horizontal beam frame according to the tenth or eleventh invention is made foldable and / or extendable and assembleable. Such vertical beam frames and horizontal beam frames can be reduced in volume during shipping and transportation, and can be easily assembled and installed on site, contributing to labor saving.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective explanatory view of a first embodiment relating to a frame configuration system for a planar article such as a solar panel of the present invention. The vertical crosspiece frame used in the above embodiment is illustrated, and (A) is a front view in a folded state, (B) is a right side view of (A), and (C) is during assembly. (D) is a right side view of FIG. (C), (E) is a front view when completed, and (F) is a right side view of (E). It is explanatory drawing which illustrated the state which changed and installed various inclination angles of the vertical beam of the vertical beam frame which concerns on the said embodiment. It is a perspective explanatory view illustrating the second embodiment of the gantry configuration system according to the present invention. The crosspiece frame used for the frame configuration system according to the second embodiment is illustrated, and (A) is a front view in a folded state, (B) is a right side view of FIG. (C) is a front view at the time of assembly, (D) is a right side view of FIG. (C), (E) is a front view at the time of completion, and (F) is a right side view of FIG. (E). . The other embodiment of the crosspiece frame which concerns on this invention is shown in figure, The (A) shows the state folded, The (B) shows the time of an assembly start, The (C) shows that it is assembling. , (D) when completed. The other embodiment of the crosspiece frame which concerns on this invention is shown in figure, The (A) shows the state folded, The (B) shows the time of an assembly start, The (C) shows that it is assembling. , (D) when completed. The other embodiment of the crosspiece frame which concerns on this invention is illustrated, The front view of the state in which (A) was folded, The (B) is the right view of (A) figure, The (C) is The front view at the time of assembly, (D) is a right side view of FIG. (C), (E) is a front view at the time of completion, and (F) is a right side view of (E). The other embodiment of the crosspiece frame which concerns on this invention is shown in figure, The (A) shows the state folded, The (B) shows the time of an assembly start, The (C) shows that it is assembling. , (D) when completed. The other embodiment of the crosspiece frame which concerns on this invention is shown in figure, The (A) shows the state folded, The (B) shows the time of an assembly start, The (C) shows that it is assembling. , (D) when completed. In the gantry configuration system according to the present invention, a one-block gantry is formed using a vertical beam frame composed of one unit, and the one-block gantry is sequentially arranged in the horizontal direction to construct a multi-block gantry. It is explanatory drawing which shows a thing. The other embodiment of the vertical beam frame which concerns on this invention is illustrated, The (A) is a front view, The (B) is a right view, The (C) is the A arrow view seen from the arrow A direction. It is. The vertical beam used for the vertical beam frame shown in FIG. 12 is applied to the horizontal beam of the horizontal beam frame, and a frame is formed. (A) is an overall explanatory view of the frame, (B) FIG. 3 is an enlarged side view of a horizontal beam and a vertical beam.

Embodiments of the present invention will be described below with reference to the accompanying drawings.
FIG. 1 is a perspective explanatory view of an embodiment according to a gantry construction system (hereinafter simply referred to as “gantry construction system”) for a planar article such as a solar panel of the present invention.
The gantry structure system according to the present invention includes a vertical beam frame 10 and a reinforcing material (not shown) for reinforcing the vertical beam frame 10 with a brace between the vertical beam frames 10. A plurality of frames 10 are installed and fixed substantially in parallel on the concrete base portions 30 and 30, and a reinforcing material is appropriately disposed and fixed, thereby completing the mount.

Each vertical beam frame 10 includes a vertical beam 11 that is inclined obliquely in the front-rear direction, support columns 12 and 13 that support the frame, and a fixing unit 14 that fixes the lower ends of the columns 12 and 13 to the base unit 30. , And a lower end vertical frame 15 as a reinforcing member for connecting the front and rear fixing portions 14, 14.
Here, in terms of strength, the lower end vertical frame 15 and the support column 13 extending in the vertical direction can be implemented without being provided. That is, the lower vertical frame 15 and the vertical support 13 serve as a reinforcing material added for the purpose of further reinforcement in the case of installation in a special area such as a snowy area or a strong wind area. Is Umono.

Further, although not shown in the drawing, as the reinforcing material, it is also possible to hang a reinforcing material as a bracing between the vertical columns 13 and 13 adjacent in the horizontal direction. A reinforcing material that connects and reinforces the lower ends can also be passed.
In this way, in the gantry configuration system according to the present invention, a plurality of vertical beam frames 10 are arranged in parallel on the base portion 30, and then various kinds of reinforcing materials are stretched and fixed so that a solar panel or the like can be obtained. The mount is completed.
Then, as will be described with reference to FIG. 2 and subsequent figures, the vertical frame 10 is composed of one unit body that can be folded and / or expanded and contracted.

  FIG. 2 illustrates a vertical beam frame used in the above embodiment, in which (A) is a front view in a folded state, (B) is a right side view of FIG. ) Is a front view at the time of assembly, (D) is a right side view of FIG. (C), (E) is a front view at the time of completion, and (F) is a right side view of FIG.

In the vertical beam frame 10 shown in FIG. 2, the support columns arranged in the vertical direction are not provided.
As can be seen from these drawings, the vertical beam frame 10 used in the gantry construction system of the present invention can be folded and assembled, and the whole frame is formed as one unit and can be reduced in a folded state during transportation. It can be easily assembled and fixed at the installation site.

As well understood from FIG. 2 (C), the columns 12 and 12 at both ends and the columns 12 and 12 at the center are pivotally attached to the vertical beam 11 on which the solar panel is placed so as to be rotatable at the upper ends thereof.
And the fixing | fixed part 14 is fixed to the both ends of the lower end vertical frame 15, The lower end part of the support | pillar 12 is pivotally attached to the fixing | fixed part 14 of the left end part also so that rotation is possible.

  Therefore, the vertical beam frame 10 is folded as shown in FIG. 2A to form a substantially linear rod-like body. That is, it can be folded to have a small volume during unloading and transportation, and at the installation site, as shown in FIG. The both ends and the lower end of the second column 12 from the right in the drawing are fixed to the fixing portion 14 by fixing means such as screws, and assembly installation fixing is performed.

Here, each of the vertical beam 11, the support column 12, and the lower end vertical beam 15 used is made of an L-shaped metal angle material.
However, as can be seen in FIG. 2 (B), the vertical rail 11 has its lower end edge bent upward to form a flange 11t. Due to the presence of the flange 11t, rainwater or the like is configured to drop from the front end of the vertical rail frame 11 onto the ground.

Moreover, since the lower end edge of the vertical beam 11 is bent upward, the shape of the flange 11t is such that when the solar cell panel is mounted on the vertical beam 11, the lower edge of the vertical beam 11 and the tool Therefore, the construction work is easy and the workability is excellent.
The fixing portion 14 is formed of an L-shaped metal fitting, and the support column 12 and the lower end vertical frame 15 are fixed to the fixing portion 14 by fixing means such as a screw.

In the vertical beam frame 10, the inclination angle of the vertical beam 11 is changed by making the length of the column 12 different between the front side and the rear side. This is illustrated by the following FIG.
FIG. 3 is an explanatory diagram illustrating a state in which the vertical beam 11 of the vertical beam frame 10 is installed by changing various inclination angles.

As can be seen from this figure, the vertical beam frame 10 according to the present invention is arranged by changing the length of the column 12 as appropriate, or by changing the arrangement angle of the column 12 or changing the length. By varying the installation angle, the inclination angle of the vertical beam 11 can be set to a desired angle between 0 degrees and 90 degrees.
When the vertical beam 11 is set to 90 degrees, three reinforcing members 19 are disposed between the support column 12 and the vertical beam 11.

In addition, when changing the angle of the vertical beam 11 as described above, the inclination angle of the vertical beam 11 is continuously changed steplessly by devising a connection structure between the upper end of the column 12 and the vertical beam 11. Is also possible.
That is, as an example, long elongated holes are arranged in the longitudinal direction on the vertical rail 11 side as appropriate, one of the elongated holes is selected, and the screw insertion of the upper end portion of the column 12 is inserted at an appropriate position. By aligning the holes and then screwing and fixing them with bolts and nuts, etc., it is possible to change the inclination angle of the vertical beam 11 steplessly and positively or negatively. It becomes.

As can be seen from FIG. 3 and FIG. 2 above, in the vertical beam frame 10 according to the present invention, the structure has a truss structure by the support 12 and the reinforcing material 19 and has extremely high strength in terms of strength. Is built as.
In the above embodiment, four vertical beam frames 10 are arranged in substantially parallel rows. However, the number of the row frames can be freely changed, and the length in the vertical direction can be designed completely freely. Can do.
That is, by appropriately setting the length in the vertical direction, the number of solar cell panels attached in the front-rear direction can be freely set, that is, 1 to 5 or more.

FIG. 4 is a perspective explanatory view illustrating a second embodiment of the gantry configuration system according to the present invention.
In this embodiment, the horizontal beam frame 20 is used without using the vertical beam frame as described above.
The horizontal beam frame 20 is arranged in the horizontal direction on the base portion 30, and has a horizontal beam 21 disposed at the upper end portion, a plurality of support columns 22 for supporting the cross beam, and lower ends of the support columns 22. It consists of a lower end horizontal frame 25 that is laterally reinforced on the side, and a fixing portion 24 that is fixed to the base portion 30 at the lower end portion of the column 22.
The brace 27 disposed between the support columns 22 serves as a reinforcing material.

The crosspiece 21, the lower end horizontal frame 25, and the brace 27 each use an L-shaped angle member made of a metal cross section, and the column 22 uses a metal mold member having a U-shaped cross section.
As described above, a brace 27 as a reinforcing material is appropriately disposed and fixed between the adjacent struts 22.
At least two of the horizontal beam frames 20 having different heights of the columns 22 are used, the column 22 having a low height is disposed on the front side, and the column 22 having a high height is disposed on the rear side. After that, a vertical frame 31 made of a metal mold having a U-shaped cross section is placed and fixed substantially in parallel, and then a reinforcing member 26 and the like are further arranged and fixed to construct a frame such as a solar panel. It is.

It should be noted that the cross beam 21, the support column 22, the reinforcing material 26, etc., which are the respective components constituting the horizontal beam frame 20, can be appropriately set in cross-sectional shape and material depending on the use site, but a special region (multiple When installing in a snowy area, a strong wind area, etc.), it is possible to design them by changing them as appropriate, and the strength can be improved.
This also applies to the vertical frame.

Although not shown, the solar panels and the like can be arranged and fixed vertically and horizontally on the plurality of vertical bars 31 arranged in a row.
The vertical beam 31 may be fixed on the horizontal beam 21 of the horizontal beam frame 20, or the upper end of the column 22 is extended above the horizontal beam 21 and fixed to the upper end of the column 22. Alternatively, it may be fixed to both of them.
Here, the horizontal beam frame 20 is formed from a single unit body as in the case of the vertical beam frame, and will be described in the following FIG. 5 and thereafter, but is foldable and / or extendable or assembleable. Yes.

  FIG. 5 illustrates a crosspiece frame used in the gantry configuration system illustrated in FIG. 4, in which (A) is a front view in a folded state, and (B) is a right side of FIG. Figure, (C) is a front view when assembled, (D) is a right side view of (C) figure, (E) is a front view when completed, (F) is a right side face of (E) figure FIG.

  As can be seen from these drawings, the crosspiece frame 20 used in the gantry configuration system of the present invention can be folded and assembled, and the whole is formed as a single unit, and is folded during unloading and transporting. It can be made small and can be easily assembled and fixed at the installation site.

The structure will be described again. The horizontal frame 21 at the upper end, a plurality of support columns 22 that support the upper frame, braces 27 disposed between the support columns 22, and fixing portions 24 provided at the lower end portions of the support columns 22 Consists of.
The fixing portion 24 is made of an L-shaped metal fitting, and the support column is fixed to the base portion by a fixing means such as a screw.

  As is well understood from FIG. 5C, the upper end portion of each column 22 is pivotally attached to the horizontal rail 21, and similarly, the lower end portion of each column 22 is pivotally pivoted to the lower end horizontal frame 25. The upper ends of the braces 27 are also pivotally attached to the upper ends of the two central support columns 22, and the lower ends thereof are formed in a free state and unitized.

This is assembled as shown in FIG. 5 (E), and the respective pivot attachment parts are fastened and fixed, and the lower ends of the braces 27 and 27 are fixed to the lower ends of the columns 22 at both ends by fixing means such as screws. The frame 20 is assembled and fixed on the base part.
The horizontal beam frame 20 according to this embodiment has a configuration in which the upper end portion of each column 22 extends above the horizontal beam 21.

FIG. 6 illustrates a crosspiece frame according to another embodiment of the present invention, in which (A) shows a folded state, (B) shows the start of assembly, and (C) shows The assembly is shown, and (D) the completed product is shown.
The configuration of the horizontal beam frame 20A is substantially the same as that of the horizontal beam frame 20, but there is no lower end horizontal frame at the lower end.

The horizontal beam frame 20A is different from the horizontal beam frame 20 in its folded form.
As can be seen from FIGS. 6A, 6B, and 6C, the horizontal beam frame 20A has a configuration in which the horizontal beam 21 at the upper end is divided into two at its central portion 21s and is bent. is there.
Other configurations are the same as those of the horizontal rail frame 20.

FIG. 7 illustrates a crosspiece frame according to another embodiment of the present invention, in which (A) shows a folded state, (B) shows the start of assembly, and (C) shows The assembly is shown, and (D) the completed product is shown.
The configuration of the horizontal beam frame 20B is substantially the same as that of the horizontal beam frame 20A, but the folding form is different from that of the horizontal beam frame 20A.

That is, the horizontal beam frame 20B is configured not to be bent at the central portion as in the horizontal beam frame 20A, but to be extendable so that the central portion can be extended to both sides.
That is, it has a form in which the central portion of the horizontal beam 21 overlaps, and the horizontal beam 21 is assembled by sliding it in the left and right outer directions and extending it.
The structure of the other support | pillar 22 and the brace 27 is the same as that of the said horizontal rail frame 20A.

FIG. 8 illustrates a crosspiece frame according to another embodiment of the present invention, in which (A) is a front view in a folded state, (B) is a right side view of FIG. (C) is a front view at the time of assembly, (D) is a right side view of FIG. (C), (E) is a front view at the time of completion, and (F) is a right side view of FIG. (E). .
The horizontal beam frame 20C according to this embodiment has the same configuration as that of the horizontal beam frame 20 illustrated in FIG. 5 except that the braces 27 are arranged differently.

That is, in the horizontal rail frame 20C, two braces 28 are disposed between the support columns 22 in two, respectively, and are disposed in a laterally V-shape symmetrically.
The other folding modes are the same as those of the horizontal beam frame 20 shown in FIG.

FIG. 9 illustrates a crosspiece frame according to another embodiment of the present invention, in which (A) shows a folded state, (B) shows the start of assembly, and (C) shows The assembly is shown, and (D) the completed product is shown.
The horizontal beam frame 20D according to this embodiment has the same configuration as the horizontal beam frame 20A shown in FIG. 6, that is, the horizontal beam 21 is divided into two at its central portion and is bent. However, the arrangement of the braces 28 is different.

In the configuration of the brace 28, in the horizontal rail frame 20D, two braces 28 are respectively disposed between the support columns 22 and arranged in a laterally V-shape symmetrically.
The other folding modes are the same as those of the crosspiece frame 20A shown in FIG.

FIG. 10 illustrates a crosspiece frame according to another embodiment of the present invention, in which (A) shows a folded state, (B) shows the start of assembly, and (C) shows The assembly is shown, and (D) the completed product is shown.
The horizontal beam frame 20E according to this embodiment has the same configuration as the horizontal beam frame 20B shown in FIG. 7, that is, it does not bend at the central portion but extends to both sides at the central portion. It is configured to be stretchable so that it can.
That is, it has a form in which the central portions of the horizontal rails 21 are overlapped, and the horizontal rails 21 are assembled by sliding and extending them in the left and right outer directions.

In addition, the configuration of the brace 28 is similar to the crosspiece frame 20D shown in FIG. 9 in that two braces 28 are arranged between the columns 22 and arranged in a laterally V-shape symmetrically. It is what you are doing.
The other folding modes are the same as those of the cross rail frame 20D shown in FIG.

Next, a method for constructing a frame for a planar article such as a solar panel according to the present invention is as follows.
First, the method of constructing the gantry using the vertical frame is as follows.
(1) First, as a unit, a vertical beam frame including a vertical beam that supports a planar article such as a solar panel is formed to be foldable and assembled.
(2) At the installation site, assemble a plurality of the above-mentioned vertical beam frames, and arrange them in parallel on the base part.
(3) After that, a frame is constructed by appropriately arranging and fixing a reinforcing material between the vertical rail frames arranged in a row.
(4) Finally, the installation is completed by arranging and fixing the solar panel and other planar articles vertically and horizontally on the vertical beam at the top of each vertical beam frame.

Next, the method of constructing the gantry using the horizontal beam frame is as follows.
(1) A horizontal beam frame for supporting a plurality of vertical beams that support a planar article such as a solar panel is formed to be foldable and / or extendable and to be assembled.
(2) Prepare at least two of these horizontal beam frames, and make the column height of the horizontal beam frame on the rear side higher than the column height of the horizontal beam frame on the front side, and place it on the front side and the rear side on the base part And fix.
(3) A vertical beam is placed and fixed on the horizontal beam and / or the upper end of the column of these horizontal beam frames, and the vertical beams are arranged substantially in parallel on the front and rear horizontal frame. The frame is constructed by arranging and fixing the reinforcing material.
(4) Finally, the installation is completed by arranging and fixing the solar panels and other planar items vertically and horizontally on each vertical rail.

Thus, in the gantry construction method according to the present invention, the vertical beam frame or the horizontal beam frame is manufactured in the factory in advance, shipped in a folded state, easily assembled at the installation site, and appropriately provided with a reinforcing material. Using this, the frame can be easily constructed.
The folding or assembling form of each vertical beam frame or horizontal beam frame can be variously modified. In the vertical beam frame, the length of the column is changed as appropriate and / or the columns are arranged. By making the angle different, the inclination angle of the vertical beam can be set continuously from 0 degree to 90 degrees. On the other hand, in the horizontal beam frame, the column height of the horizontal beam frame arranged on the front side and the rear side is set. By preparing a different one in advance, the inclination angle of the vertical beam placed on the upper end thereof can be appropriately changed.

  FIG. 11 shows a frame construction system according to the present invention, in which a single block frame is formed by using a vertical beam frame or a horizontal beam frame consisting of one unit, and the one block frame is sequentially arranged in the horizontal direction. FIG. 11 is an explanatory view showing a structure constituted by using the vertical beam frame 10B.

The vertical beam frame 10B shown in FIG. 11 is slightly different from the vertical beam frame 10 in form.
That is, in the vertical beam frame 10B, the upper ends of the columns 12 and 12 at both ends in the front-rear direction are not aligned with the both ends of the vertical beam 11, and are disposed slightly from the center.

Using the vertical beam frame 10B, these four frames are arranged and fixed on the base portion 30 substantially in parallel.
Thereafter, reinforcing members are appropriately disposed in the front-rear direction, the horizontal direction, and the diagonal crossing direction to form a base for one block A.
The solar panel disposed on the vertical beam frame 10B can be placed horizontally or vertically, and in the case of vertical installation, the vertical beam frames 10B are arranged at substantially equal intervals in substantially equal divisions. Will be.
The gantry for each block can be constructed sequentially in the horizontal direction, and can be constructed continuously such as block B and block C.

At this time, in the present invention, a steel material having electrical conductivity is spanned between the blocks A, B, and C as a bridging bracket for grounding.
In FIG. 11, as can be seen from the enlarged view (E) of the circular portion E, this conductive steel material becomes the conductive member 18.
In the embodiment shown in this figure, the conductive member 18 is stretched between reinforcing members that connect and reinforce the lower ends of the columns 12 on the front side of the vertical rails 10B of the respective blocks.
By constructing the gantry by preliminarily spanning the conductive members 18 between the blocks, the wiring work of the ground wire from the solar panel placed and fixed on the gantry becomes extremely easy.

Such a grounding conductive member 18 can be similarly installed in a gantry configuration system using the crosspiece frame.
That is, at least two horizontal beam frames are arranged and fixed at the front and back, and a plurality of (even number) vertical beams are arranged in parallel and fixed on these horizontal beam frames.
Thereafter, a reinforcing material is appropriately disposed and fixed to form a one-block pedestal.

A plurality of blocks can be constructed by successively constructing the one-block platform in the horizontal direction.
At that time, between the blocks, as described above, a steel material having electrical conductivity as a bridging bracket for grounding is hung between the lower side horizontal frames of the horizontal rail frame.
This steel material having conductivity becomes a conductive member.

By constructing the gantry by preliminarily spanning the conductive members between the blocks, the wiring work of the ground wire from the solar panel placed and fixed on the gantry becomes extremely easy.
Any conductive steel material may be used as long as it has other conductivity.

FIG. 12 illustrates another embodiment of the vertical beam frame according to the present invention, in which (A) is a front view, (B) is a right side view, and (C) is viewed from the direction of arrow A. FIG.
The configuration of the vertical beam frame 10C shown in this figure is substantially the same as the vertical beam frame 10B shown in FIG. 11 of the previous figure, but the vertical beam 11C constituting the vertical beam frame 10C is different from the above embodiment. Have.

That is, as can be seen from FIGS. 12B and 12C, the longitudinal beam 11C is divided into two in the longitudinal direction, and the two substantially U-shaped component members 11Ce and 11Ce face each other with their openings facing each other. These constituent members 11Ce, 11Ce are fixed at a predetermined interval by a plurality of connecting members 11r provided in the longitudinal direction.
Further, the connecting member 11r functions to fix the vertical beam 11C to the support column 12 at the same time.
The configuration of the connecting member 11r will be described again with reference to FIG.

A vertical beam frame 10C is formed by using the vertical beam 11C having the above-described configuration, and a plurality of the vertical beam frames 10C are arranged in a base portion, and a reinforcing material is appropriately fixed over the frame to complete the frame.
The solar cell panel is placed and fixed on the gantry. The vertical beam 11C of the gantry is divided into two parts as described above. Is formed, and the solar cell panel is fixed by a fixing bracket using the groove.

  Therefore, since the groove is provided over the entire length of the vertical beam, the position of the fixing bracket of the solar cell panel can be attached to any position of the vertical beam, and various sizes. The solar cell panel can be easily handled, and the mounting position can be easily changed.

FIG. 13 shows a frame formed by applying the vertical beam 11C used in the vertical beam frame 10C shown in FIG. 12 to the horizontal beam frame, and FIG. 13A is an overall explanatory view of the frame. (B) is an enlarged side view of a horizontal rail and a vertical rail.
In this gantry, the horizontal beam 21C used for the horizontal beam frames 20F and 20F and the plurality of vertical beams 11C spanned on the horizontal beam frame 20F have the same structure.

That is, the side view illustrated in FIG. 13B is for the horizontal beam 21C and the vertical beam 11C. The horizontal beam 21C and the vertical beam 11C have the same configuration, and are simply different in length. Is.
The horizontal crosspiece 21C is divided into two at the center, and is arranged symmetrically so that the openings of the substantially U-shaped components 21Ce and 21Ce face each other, and are connected by connecting members 11r at a plurality of locations in the longitudinal direction. The two constituent members 21Ce and 21Ce are fixed at a fixed interval.

The connecting member 11r basically includes a bolt member 11b, a nut member 11n, and a spacer member 11s. The spacer member 11s is disposed between the constituent members 21Ce, and the bolt member 11b and the nut member 11C are fastened to each other. By wearing, the structural members 21Ce are connected and fixed at regular intervals.
At the time of fastening, the bolt member 11b is inserted into the screw insertion hole at the top of the column 22 of the horizontal beam frame 20F and the nut member 11n is tightened, whereby the horizontal beam 21C is fixed to the upper end of the column 22 of the horizontal beam frame 20F. It will be fixed to the part.

Further, in this gantry, at least two horizontal beam frames 20F are arranged substantially in parallel on the front and rear, and a plurality of vertical beams 11C are spanned and fixed on the horizontal beam frame 20F to complete the gantry. The configuration of the vertical beam 11C also has the same structure as the horizontal beam 21C.
As described above, the frame constructed using the horizontal beam frame 20F and the vertical beam 11C shown in FIG. 13 exhibits the following effects.

In this gantry, since the groove portion is formed over the entire longitudinal direction in both the horizontal beam 21C and the vertical beam 11C, when the vertical beam 11C is fixed on the horizontal beam 21C, its fixing position Can be selected freely.
That is, as indicated by an arrow D in the figure, the interval between the vertical bars 11C can be freely changed and determined. Thereby, it can respond to the solar cell panel from which a magnitude | size differs.

Further, the length of the vertical rail 11C can be freely determined, the fixing positions on both ends thereof can be freely determined, and the front-rear interval of the base portion 30 can be freely set.
Furthermore, the position of the solar cell panel S to be placed and fixed on the vertical beam 11C can be freely changed and determined and fixed as shown by the arrow E.

  As described above, the two-divided vertical beam and the horizontal beam have been described with reference to FIGS. 12 and 13. However, the configuration of the connecting member 11r for connecting and fixing these components can be variously changed without using a spacer member. A screw rod having a large outer diameter and male screw portions engraved at both ends thereof may be used, and both ends thereof may be fixed by nut members, or two other conventional components may be used. Any device that can be fixed at a predetermined interval can be used.

Of course, the vertical beam frame, the horizontal beam frame, and the like are used by using a mold material in which the groove portion is formed in the entire longitudinal direction on the upper surface side instead of the two-divided horizontal beam and the vertical beam. It is also possible to form a gantry.
However, by using the divided body as described above, it is possible to freely change and fix the mutual fixing position of the horizontal beam and the vertical beam and the fixing position of the solar cell panel. It becomes.

  In addition, about this 2 division | segmentation vertical beam and horizontal beam, the mold material in which the groove part was formed in the upper surface side can be utilized instead of the above-mentioned division body, but, more specifically, roll forming (continuous forming) ) Integrated type or aluminum extrusion (pultrusion), etc., with a groove, or with existing grooves (angles, channels, etc.) with grooves (slits, cuts, etc.) It ’s good.

As mentioned above, although embodiment of this invention was described, in this invention, a design change can be suitably carried out as follows.
The design of the size of the vertical beam frame, the form and size of each component frame can be freely changed.
The vertical beam uses the basic angle material, but this can also be a U-shaped mold material. As already mentioned, the bottom edge of the vertical beam is bent upward to It can also be formed.
Furthermore, as in the above-described final embodiment, a two-part vertical beam can be used.
As a matter of course, the vertical rail frames can be arranged on the base portion in succession by arranging two to six or more rows continuously instead of four rows as in the above embodiment.

The fixing portion provided at the lower end of the support column is also a bracket having a substantially L-shaped cross section in the above embodiment, but the shape of this bracket can also be freely changed in design.
The reinforcing material spanned between the vertical beam frames can be freely arranged and fixed.
Like the vertical frame shown in FIG. 2, it is possible to form the vertical frame without providing the lower end vertical frame 15 as a reinforcing material.

Similarly, with respect to the horizontal beam frame, similar to the vertical beam frame, the size and form thereof can be changed as appropriate.
In the crosspiece frame shown in FIGS. 5 to 7, the braces are arranged and fixed so as to be symmetrical in the shape of “C” as left and right, but are arranged so as to be inverted “C”. 8 to 10, the crosspiece frame shown in FIGS. 8 to 10 is arranged and fixed as a brace in a laterally “V” shape of the outer opening symmetrically. It can also be arranged and fixed in a lateral “V” shape of the opening.
In addition, in the case of the above-mentioned one diagonal brace, it is also free to arrange right and left in a right upward or downward direction.

Further, in the horizontal beam frame shown in FIGS. 5 and 8, it is also possible to form the horizontal beam frame without providing the lower edge horizontal frame.
In the horizontal beam frame shown in FIG. 4, the upper horizontal beam 21 and the lower lower frame 25 are arranged on the rear side (back side) of the support column 22. It is free to arrange and fix to the side. Alternatively, as shown in FIG. 5, it is also possible to arrange the horizontal rail on the front side and the lower end horizontal frame on the back side.

  As described above, the present invention is characterized in that the vertical beam frame or the horizontal beam frame is unitized, and the unitized vertical beam frame or horizontal beam frame is formed so that it can be folded and assembled, respectively. , A gantry composition system, a gantry construction method, and a gantry frame (vertical beam frame and horizontal beam frame) used for constructing a frame for a planar article such as a solar panel using one unitized component. It was possible to provide an epoch-making invention.

10, 10B, 10C Vertical beam frame 11, 11C Vertical beam 11Ce Constituent member 11r Connecting member 12, 13 Column 14 Fixing part 15 Lower end vertical frame 18 Conductive member 20, 20A, 20B, 20C, 20D, 20E, 20F Horizontal beam frame 21 , 21C Horizontal beam 22 Post 24 Fixed part 25 Bottom horizontal frame 26 Reinforcement material 27, 28 Brace 30 Base part 31 Vertical beam

Claims (4)

A plurality of vertical rails are arranged on the base portion substantially in parallel and at a predetermined angle, and a planar article such as a solar panel can be arranged and fixed on the vertical rail in a vertical and horizontal manner. A gantry configuration system,
Using a horizontal beam frame consisting of one unit that supports the plurality of vertical beams,
The horizontal beam frame is composed of a horizontal beam at its upper end, a plurality of columns that support the horizontal beam, and a fixed portion that fixes the lower end of the column to the base part.
At least two of the horizontal beam frames are arranged on the front side and the rear side of the frame, and a plurality of vertical beams are arranged and fixed on the horizontal beam at the upper end of the horizontal beam frame and / or the upper end of the column, and are reinforced. The base is formed by arranging and fixing the materials,
Thereby, the planar article system for planar articles such as solar panels can be arranged and fixed on the vertical rails of the platform.   2. The surface of a solar panel or the like according to claim 1, wherein the vertical rails are disposed at an appropriate angle and in an inclined shape by making the column heights of the front horizontal frame and the rear horizontal frame different from each other. -Like article frame configuration system.   The at least two horizontal rail frames are used as one block, and the bases in units of one block are sequentially arranged in the horizontal direction to form the bases, and a conductive member having electrical conductivity is placed between the blocks to connect the ground wire. The system for constructing a planar article such as a solar panel according to claim 1 or 2, wherein an operation of wiring between the blocks is omitted.   The crosspiece frame made up of one unit is foldable and / or extendable and assembleable, and is shipped out in a folded or contracted state at the time of shipment, and assembled at the installation site to form a pedestal. The gantry constituting system for a planar article such as a solar panel according to any one of claims 1 to 3, wherein the system is capable of being constructed.