JP2000079961A - Method for transporting roof panel with solar battery and device for transporting the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for transporting a roof panel with a solar battery wherein transportation efficiency is improved and operation at a site is reduced and to provide a device for transporting the roof panel with a solar battery. SOLUTION: After a solar battery panel 11 is attached to a plurality of roof panels 6 constituting a roof of a building, the roof panels 6 are loaded at a distance on a roof panel transportation device 15 mounted on a platform of a truck, and the panels 6 are transported. Thus since the solar battery panel 11 has been attached to such a roof panel 6 in advance, the roof panels 6 and the solar battery panels 11 need not be transported individually, thereby improving transportation efficiency and reducing operation at a site.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of transporting a roof panel with solar cells, in which a solar panel is attached to a roof panel constituting a roof of a building, and a jig for transporting the roof panel with solar cells.

[0002]

2. Description of the Related Art Conventionally, solar energy has been known as energy that does not adversely affect the environment and ecosystems. In order to utilize this solar energy, solar cells have been installed on roofs of houses and other buildings. Have been done. In installing such a solar cell on the roof of a building, a solar cell panel in which solar cells, which are solar cells, are housed in a waterproof structure is used (Japanese Patent Application Laid-Open No. Hei 8-93160).

[0003] A roof with a solar cell is formed into a certain size on the roof surface after the roof solid is constructed (modularization).
It is formed by arranging solar cell panels. Such a procedure is also performed on the roof of a unit-type building formed by arranging a plurality of roof panels.

[0004]

In a conventional roof panel type roof, a solar cell panel and a roof panel to which the solar cell panel is attached are separately transported to a site by a truck or the like. There is a problem of inefficiency. In addition, since the solar cell panel and the roof panel are separately transported and integrated at the site, there is a problem that the number of site operations increases.

An object of the present invention is to provide a method of transporting a roof panel with solar cells and a jig for transporting the roof panel with solar cells, which can improve the transportation efficiency and reduce the on-site work. is there.

[0006]

The method for transporting a roof panel with solar cells according to the first aspect of the present invention will be described with reference to the drawings. As shown in FIG. After the roof panels 7 are attached to the plurality of roof panels 7, these roof panels 7 are
The present invention is characterized in that these roof panels are transported by being stacked on the roof panel transport jig 55 placed on the roof panel 01 with a space therebetween.

[0007] In the above, the roof panel is applied to various roofs of buildings such as gable type, ridge type or flat type. In addition, the building is not limited to a unit-type building that is built by combining a plurality of box-shaped building units, but a building that can form a roof using a roof panel, such as a building by a panel method, a building that is built by a so-called conventional method. Any building may be used.
In addition, the roof panels may be stacked in any number of stages, but it is naturally desired that the height be within the height limit and be safe when transported by truck.

According to the present invention, the roof panels can be sequentially stacked and transported on the truck bed via the roof panel transportation jig, and can be transported.
Since the solar cell panel is attached in advance, it is not necessary to transport the roof panel and the solar cell panel separately.
Therefore, the transportation efficiency can be improved. In addition, since the solar panel is attached to the roof panel in advance, it is not necessary to attach the solar panel to the roof panel at the site, thereby reducing on-site work.

A transportation jig for a roof panel with solar cells according to a second embodiment of the present invention will be described with reference to the drawings. As shown in FIG. A transportation jig 15 for a roof panel with solar cells, which transports a plurality of roof panels 6 to be configured with a gap therebetween and transports the plurality of roof panels 6, provided on a carrier of a transport truck, and It is characterized by comprising a plurality of stages of mounting bodies 17, 18 which are mounted with a space therebetween.

[0010] In the above, the roof panel is applied to various roofs of buildings such as gable type, ridge type or flat type. In addition, the building is not limited to a unit-type building that is built by combining a plurality of box-shaped building units, but a building that can form a roof using a roof panel, such as a building by a panel method, a building that is built by a so-called conventional method. Any building may be used.
In addition, the roof panels may be stacked in any number of stages, but it is naturally desired that the height be within the height limit and be safe when transported by truck.

According to the present invention, the roof panels can be sequentially stacked and transported on the cargo bed of the truck via the roof panel transportation jig, and can be transported.
Since the solar cell panel is attached in advance, it is not necessary to transport the roof panel and the solar cell panel separately.
Therefore, the transportation efficiency can be improved. In addition, since the solar panel is attached to the roof panel in advance, it is not necessary to attach the solar panel to the roof panel at the site, thereby reducing on-site work.

As shown in FIG. 4, the transportation jig for a roof panel with a solar cell according to the third aspect of the present invention is the same as the transportation jig for a roof panel with a solar cell according to the second aspect. The bodies 17 and 18 can be connected up and down,
Solar panels 11 arranged on both sides of the roof panel 6
The support portions 30, 30 'having a height dimension larger than the thickness dimension of the roof panel 6 including the thickness dimension of the roof panel 6, and the roof panel 6 is mounted on the upper surface with both ends supported by the support portions 30, 30'. And a transverse member 33.

According to the present invention, since the roof panels can be stacked on the mountable bodies that can be connected to each other, a large number of panels can be carried in a single transportation, thereby improving the transportation efficiency.

FIG. 5 shows a transportation jig for a roof panel with solar cells according to a fourth aspect of the present invention. , The pillar members 30, 30 ′ standing upright at the four corners, and two pillar members 30, 3 of these pillar members 30, 30 ′.
Horizontal and parallel connecting members 3 for connecting 0's
1 and 32, and the horizontal member 33 is bridged between the column members 30 and 30 'at right angles to the connecting members 31 and 32, and the horizontal member 33 is attached to the column members 30 and 30'. A fixing means 44 for pressing and fixing the upper surface of the roof panel 6 placed thereon is provided.

In the present invention, since the mounting body is constituted by the column member, the connecting member, the horizontal member, and the like, the structure is simplified, and the handling such as connection and detachment is facilitated.
In addition, since the upper surface of the roof panel is pressed by the fixing means, it is stable, and fixed during transportation.

As shown in FIG. 5, the transportation jig for a roof panel with a solar cell according to the fifth aspect of the present invention is the same as the transportation jig for a roof panel with a solar cell according to the third or fourth aspect. The frame member 33 is provided with a regulating means 35 which engages with the frame 10 on the back surface of the roof panel 6 and regulates the lateral movement of the roof panel 6 so as to be slidable in the lateral direction. is there.

According to the present invention, since the regulating means slides on the horizontal member and engages with the frame on the back surface of the roof panel, the roof panel can be fixed from the back surface side and the size of the roof panel can be reduced. Can respond.

The transportation jig of the roof panel with solar cells according to claim 6 of the present invention is, as shown in FIG.
5. The transportation jig for a roof panel with a solar cell according to any one of the items 5, wherein the transportation jig is used for transporting a roof panel of the roof panel, which is disposed in a building fragrance. It is assumed that.

According to the present invention, the roof panel is mounted on the horizontal member and fixed if the stacking cannot be performed by a method of hooking and fixing the exposed portion because the base plate is not exposed. Since the upper surface is pressed by the means and the frame on the back surface is restricted by the restricting means so as not to slide, it can be easily stacked,
Can be transported efficiently.

A jig for a roof panel with solar cells according to a seventh aspect of the present invention, as shown in FIGS.
7, 58 are vertically connectable, and are detachably attached to the upper surface of the base plate portion 7A at both ends along the width direction of the roof panel 7, and have a thickness dimension of the roof panel 7 and a thickness of the solar cell panel. A supporting portion 60 having a height larger than the sum of the height and a horizontal member 61 having both ends supported by the supporting portion 60 and the roof panel 7 placed on the upper surface thereof. It is characterized by the following.

In the above description, the supporting portion may be of any type as long as it can be attached to the upper surface of the roof plate portion of the roof panel and can attach the horizontal member. Preferably have a plurality of types of lengths so as to correspond to the widths of the roof panels of various sizes.

According to the present invention, the support portion and the horizontal member are mounted on the roof panel, the next roof panel is mounted on the horizontal member, and the next roof panel is further mounted on the roof panel. You can put the mounting bodies and stack them sequentially. The mounting member only needs to include a supporting member and a horizontal member, and a jig having a simple structure may be used, and manufacture, management, and handling are facilitated.

As shown in FIGS. 6 and 7, the jig for a roof panel with a solar cell according to the eighth aspect of the present invention is the horizontal jig for transporting a roof panel with a solar cell according to the seventh aspect. A side fixing member 66 for fixing one side surface of the roof panel 7 placed on the horizontal member 61 is detachably provided on the member 61 or the support portion 60. It is characterized in that an upper surface fixing member 67 slidable along the horizontal member 61 is provided while fixing the other side surface of the roof panel 7 placed on the member 61.

According to the present invention, the roof panel placed on the horizontal member is held on both sides by the fixing members.
Because they are fixed, they can be transported with confidence without moving even if they are stacked in multiple stages.

The jig for a roof panel with a solar cell according to the ninth aspect of the present invention is a jig for transporting a roof panel with a solar cell according to the seventh or eighth aspect as shown in FIGS. The transport jig 55 is for a rectangular roof panel for transporting a rectangular roof panel 7 other than the roof panel if it is arranged at the end of the roof side of the building.

According to the present invention, since the rectangular roof panels can be easily stacked and transported, the transport efficiency can be improved.

[0027]

Embodiments of the present invention will be described below with reference to the drawings. The building 1 shown in FIG.
And an upper floor section 3 provided on the lower floor section 2 and a roof 4 provided above the upper floor section 3. The roof 4 has a roof with solar cells according to the present invention. It is composed of roof panels 6 and 7 with solar cells transported by panel transport jigs 15 and 55 (FIGS. 3 and 7).

The roof 4 is a gable roof. As shown in FIG. 2, the roof panel 6 is composed of four roof panels 6A to 6D arranged at the edge on the wife side, that is, at the kerb. And a rectangular roof panel 7 composed of a plurality of other roof panels 7A to 7D. Of these, the roof panel 6 is partially cut away from the ridge and partially from the outside. Then, as shown in FIGS. 5 and 7, the roof panel 6 and the rectangular roof panel 7 are made of a frame 1 formed of a thin groove-shaped member.
The solar cell panel 11 is attached to the frame 10 and the like, and the solar cell panels 11 are arranged vertically and horizontally as shown in FIG. The attachment of the solar cell panel 11 to each of the roof panels 6, 7 is performed in a factory in advance.

The roof panel 6 and the rectangular roof panel 7 are transported to the site after the solar cell panel 11 is mounted in the factory as described above, but the panels 6 and 7 have exposed base plates. Since the shapes are different from each other, for example, whether they are used or not, dedicated transport jigs are used.

That is, a first embodiment of a roof panel transport jig according to the present invention is a roof panel transport jig 15 as shown in FIG. A plurality of sheets are stacked and transported with an interval. The transport jig 15 is provided with a base frame 16.
A first frame 17 and a second frame 17 which are detachably and sequentially stacked on the base frame 16;
And a frame 18 of the present invention.

The roof panel transportation jig 15
Is to press and fix the roof panel 6 from the upper surface because the base plate of the roof panel 6 is not exposed. FIG.
In this example, such frames 17 and 18 are stacked up to the second level. However, if the roof panels 6 can be stacked safely, for example, four sheets can be stacked within a range that does not violate height restrictions during transportation. The third frame member and the fourth frame member having the same structure can be sequentially connected to the upper portion of the second frame member 18.

The base frame 16 is installed on the loading platform 101 of the truck 100 and includes four square pipe-like columns 20 erected at four corners. A pair of upper connecting members 21 are bridged between the upper ends of the columns 20 so as to face each other. In addition, each 2
A pair of upper connecting members 21 and a pair of first lower connecting members 22 that are vertically parallel to each other are bridged between lower ends of the pillars 20, and the first lower connecting members 22.
A second lower connecting member 23 that is orthogonal to and vertically overlapped is bridged facing each other. The longitudinal direction of the upper connecting member 21 and the first lower connecting member 22 forms a long side of the base frame 16.

A mounting portion 25 for mounting the first frame 17 is formed on the long side surface of each column 20 of the base frame 16. The mounting portion 25 includes a base plate 26 horizontally mounted at a position lower than the upper end surface of the column 20 by a predetermined dimension, an edge plate 27 raised on the upper surface 3 of the base plate 26, and a lower surface of the base plate 26. Pillar 2
The reinforcing rib 28 is formed so as to extend over the 0 side surface. Here, a rubber material is stuck on the upper surface of the base plate 26, and a rubber material is attached on the rubber material of the base plate 26 in a square frame portion formed by the three edge plates 27 and one side surface of the pillar 20. The lower end of the column 20 of the first frame 17 is placed thereon.

The first frame 17 has four square pipe-like columns 30 which are support portions erected at four corners, and a pair of these columns 30 is provided between the upper portions of two columns 30. Upper frame member 3
1 are installed facing each other. In addition, a pair of upper frame members 30 and a pair of lower frame members 32 that are vertically parallel to each other are bridged between the lower portions of the two columns 30 so as to face each other. Orthogonal transverse member 3
3 are installed facing each other. And the upper frame member 3
The longitudinal directions of the first frame member 32 and the lower frame member 32 form the long sides of the first frame body 17. Both ends of the lower frame member 32 are provided so as to extend outside the pillars 30. At the upper ends of the pillars 30, one ends are embedded in the pillars 30 and fixed, and the other ends project in a rectangular shape. A member 34 is provided.

Each of the horizontal members 33 is provided with a pair of positioning brackets 35 serving as regulating means so as to be slidable in the horizontal direction. This positioning bracket 35
The slide member 36 fitted on the outer periphery of the horizontal member 33
And a square tube 37 fixed to the upper surface of the slide member 36
And a positioning plate 38 attached to the upper surface of the square tube 37. Positioning plate 38
Extends in a direction orthogonal to the horizontal member 33, and a portion protruding from the horizontal member 33 is bent upward, and the bent portion 38A is engaged with the frame 10 of the roof panel 6, as shown in FIG. Are adapted. The positioning bracket 35 is fixed to the horizontal member 33 by a bolt 40 or the like at a position where the positioning bracket 35 is engaged with the frame 10. The direction of the bent portion 38A of the pair of positioning brackets 35 is symmetrical to each other.

The dimension between the lower frame member 32 and the horizontal member 33 of the column 30 of the first frame 17 and the upper end of the column 30 is determined by the thickness of the roof panel 6 including the thickness of the solar cell panel 11. The height dimension is larger than the thickness dimension of
The dimension between the columns is determined so that the portion below the columns 30 is placed on the mounting portion 25 of the base frame 17. Therefore, the dimension of the short side direction of the first frame 17 is
Is wider than the short side dimension of the mounting portion 25 by the amount of protrusion of the mounting portion 25.

As described above, the second frame 18 is stacked on the first frame 17, and is structurally almost the same, with only a partial difference. Here, different parts will be described. The lower ends of the pillars 30 ′ at the four corners do not project downward from the lower frame member 32 and the horizontal member 33, and can be fitted to the connection members 35 provided at the upper ends of the columns 30 of the first frame 17. It has become. Then, after inserting the column 30 ′ of the second frame 18 into the connection member 35 of the first frame 17, the connection member of the first frame 17 is inserted from the side surface of the column 30 ′ of the second frame 18. By screwing the bolt 41 toward 35, the two 17 and 18 are connected and fixed. Further, the lower frame member 32 'does not protrude from the side surface of the column 30'.

As shown in FIG. 5, an upper bracket 44, which is a fixing means slidable up and down with respect to the columns 30, 30 ', is provided above the columns 30, 30' of the frames 17, 18 respectively. Is provided. The upper bracket 44 includes a slide body 45 fitted around the pillars 30 and 30 ′,
The slide body 45 is formed to include a pressing member 46 facing the short side direction side of each of the frames 17 and 18. Rubber is applied to a portion of the pressing member 46 that comes into contact with the roof panel 6 to prevent the roof panel 6 from being damaged due to pressing and to prevent slippage due to vibration during transportation. The upper bracket 44 presses the roof panel 6 with the upper bracket 44, and then the bolt 42
, And is fixed to the columns 30, 30 '.

The pressing member 46 of the upper bracket 44
Are formed in a plurality of types having different projecting dimensions from the columns 30, 30 'to the panel side, so that a plurality of types having different width dimensions of the panel 6 can be handled. In addition, the first and second
Although not shown, hooks are provided at appropriate places on the frame bodies 17 and 18 so that they can be hung in a balanced manner by a crane.

Next, the operation of the present embodiment will be described. First, similarly to the transportation method using the rectangular panel transportation jig 55 shown in FIG.
After the base frame 16 is placed on the loading platform 101 of the truck 100, the four mounting portions 25 of the base frame 16 are
The first frame 17 is attached with the lower end of the first frame 17 placed thereon. Next, the positioning bracket 35 of the horizontal member 33 is moved toward the inside, and the roof panel 6 is attached by one sheet.
Put on top. Then, while sliding the positioning bracket 35, the bent portion 38A is pressed against the frame 39 of the roof panel 6 to position the roof panel 6, and then the upper bracket 4 provided on the upper part of the column 30
4 is slid, and the upper surface of the roof panel 6 is pressed by the pressing member 46, and bolts are tightened in this state.

After that, the second frame 18 is connected and fixed on the first frame 17. At this time, the column 3 of the second frame 18
The lower end of 0 'is inserted into the connecting member 34 of the first frame 17, and the column 30' and the connecting member 34 are connected by bolts 42. Next, the next roof panel 6 is loaded on the second frame 18 by the same procedure as the loading of the roof panel 6 on the first frame 17.

After the roof panels 6 have been loaded in a predetermined number of stages, the whole is appropriately fixed with ropes and the like, and transported to the site by truck. At the site, the roof panel 6 which has been transported is taken down from the truck 100 by a procedure reverse to the above, and temporarily stored at a predetermined position for roof formation. At this time, the base frame 16 and the first frame 17 do not need to be removed. On the other hand, the jig 15 from which the roof panel 6 has been removed is assembled in a state in which the roof panel 6 has been transported, then transported to the factory by the truck 100, and processed according to a scheduled schedule.

The present embodiment has the following effects. The roof panel 6 to which the solar cell panel 11 is attached in advance can be transported after being sequentially stacked on the first frame 17 and the second frame 18. Therefore, it is not necessary to transport the solar cell panel and the roof panel separately, and moreover, a plurality of the solar panels and the roof panel can be transported at one time, so that the transport efficiency is improved.

The solar panel 11 is mounted on the roof panel 6 in advance, and after the roof panel 6 is transported to the site, the roof panel 6 is simply mounted on a predetermined panel mounting portion, and the solar cell panel 11 is mounted. Can be configured with a roof. Therefore, since the solar cell panel 11 does not have to be attached to the roof panel 6 on site, the on-site work can be reduced.

The first frame 17 and the second frame 18 are provided with an upper surface bracket 44 and a positioning bracket 35, respectively. When the panel 6 is mounted on each of the frames 17, 18, the panel 6 The upper surface is the upper surface bracket 44
, And the lower surface is restricted from moving in the lateral direction by the positioning bracket 35. Therefore, even if the sheets are stacked in a plurality of stages, they can be safely transported without shifting during transportation. Horizontal member 33 of first frame 17 and second frame 18
The positioning bracket 35 provided on the
Since it is slidable on the upper side, it can be engaged with the frame at the optimum position according to the size of the roof panel 6 to be placed, and the panel of any size can always be reliably prevented from moving in the lateral direction.

First frame 17 and second frame 18
Are assembled using the square pipe-shaped column members 30, 30 ', etc., respectively.
Can be connected to the connecting member 34 embedded in the upper part of the column member 30 of the first frame 17 by inserting the column member 30 ′ of the second frame 18 and fixing it with the bolt 41. Body 1
Up and down connection of 7, 18 can be performed easily in a short time.

The transportation jig 15 for the keraba includes a horizontal member 33.
Since the roof panel 6 can be fixed by the upper surface bracket 44 and the positioning bracket 35 if it is put on the upper part, it is not necessary to use a method of hooking and fixing the exposed portion because the field plate is not exposed. It can be stacked well and easily, and therefore can be transported efficiently.

As shown in FIGS. 6 and 7, a transport jig for a roof panel with solar cells according to a second embodiment of the present invention is a transport for a rectangular roof panel in which a plurality of the rectangular panels 7 are stacked and transported. A jig 55, a cycle 56, and the cycle 56
A first mounting body 57 and a second mounting body 58 that are sequentially and removably stacked in the upper part of the camera are configured.
Although the figure is stacked up to the second level, the rectangular roof panel 7 can be safely and within the height limit during transportation, for example, 4
A third mounting body and a fourth mounting body can be sequentially connected to the upper part of the second mounting body 58 so that the sheets can be stacked.

The wheel 56 is a carrier 101 of the truck 100.
The rectangular roof panel 7 is formed of, for example, a rectangular piece having a predetermined size. The rectangular roof panel 7 is mounted on the upper surface of the wheel block 56.

The first mounting member 57 includes a pair of base members 60 attached to the exposed upper surface of the base plate 7A at both ends in the width direction of the rectangular roof panel 7;
0 and a horizontal member 61 that extends along the short side direction of the panel 7. The base member 60 constituting the supporting portion is formed in a rectangular parallelepiped box shape, is placed on the field plate portion 7A of the panel 7 with the opening facing outward, and is fixed to the panel 7 by tightening the frame 62 with the bolt 48. It is supposed to be. The horizontal member 61 is formed of a square pipe-shaped lower member 61A having a flat cross section and an upper member 61B formed of a groove-shaped member with a lip provided on the lower member 61A with a gap in a planar direction. , 61B are provided with lid plates 63 for closing the vertical openings of the members 61A, 61B.

The horizontal member 61 and the base member 60 are connected by screwing the bolt 48 from the base member 60 side to the back nut 64 attached inside the lower member 61A of the horizontal member 61 and fixing the base member 60 together. The bolt 4 is inserted into the hole of the mounting plate 65 fixed to the back of the web 60.
8 and insert another back nut 64 of the horizontal member 61.
It is done by screwing in.

The second mounting member 58 includes the first mounting member 5.
7 corresponds to a roof panel 7 having a smaller width dimension than the roof panel 7 to which the first mounting body 57 is applied. Therefore, the horizontal member 6
Although there is a length of 1, the same reference numeral is given and the description is omitted.

The horizontal member 6 of the first mounting body 57
On top of 1 another rectangular roof panel 7 is mounted as described above. In this embodiment, the width of the second panel is smaller than that of the first panel. In order to mount and fix the second-stage panel 7 on the horizontal member 61 of the first mounting body 57, a side fixing plate 66 as side fixing means and an upper fixing plate 67 as upper fixing means are provided. Done using

That is, the side fixing plate 66 has a bent portion 66A whose upper portion is bent inward.
Is detachably attached to the cover plate 63 with bolts 48.
Attachment of the side fixing plate 66 to the panel 7 is performed by attaching the bent portion 66A to the frame 62 of the base plate portion 7A of the panel 7.
Then, the bolt 48 is screwed into the cover plate 63 in the main body.

The upper surface fixing plate 67 includes the plate 6
One end of 7 is bent upward first, and its tip is bent downward from the rising portion to form 67A. Upper surface fixing plate 67 and first mounting body 5
7, the upper member of the horizontal member is sandwiched between the fixing plate 67 and the backing metal 68, and the bolt 48 inserted into the back nut 69 attached to the backing metal 68 from above the fixing plate 67. It is done by screwing.

In order to fix the roof panel 7 'with the upper surface fixing plate 67, the bent portion 67a of the upper surface fixing plate 67 is hooked on the frame 62 of the base plate portion 7A of the panel 7', and the fixed plate 67 and the back surface are fixed. What is necessary is just to fully tighten the bolt 48 temporarily fixed to the metal 68.

Next, the operation of the second embodiment will be described. First, the wheel 56 of the transport jig 55 for a rectangular roof panel is installed on the bed 101 of the truck 100, and then the wheel 5
A rectangular roof panel 7 having a predetermined width is placed on the balance 6 in a well-balanced manner. Next, the base member 60 is attached to a predetermined position of the field plate 7A of the panel 7. At this time, the horizontal member 61 is previously attached to and integrated with the upper surface of the base member 80 that is disposed to face the opposite side.

Thereafter, the second-stage rectangular roof panel 7 ′ is placed on the upper surface of the horizontal member 61. The bent portion 6 of the side fixing plate 66 is attached to the frame 10 of the roof panel 7 '.
6A is hooked, and the main body is fixed to the lid 63 of the horizontal member 61. Roof panel 7 with side fixing plate 66
Is fixed, the upper surface fixing plate 67 temporarily fixed to the upper surface of the horizontal member 61 is slid, and the bent portion 67A is attached to the frame 10 of the base plate portion 7A of the panel 7.
And the upper surface fixing plate 67 and the backing metal 68 are fixed by fully tightening the bolts 48.
Thereafter, the third and fourth rows and a predetermined number of rectangular roof panels are stacked by the same procedure.

After the rectangular roof panels 7 have been loaded in a predetermined number of steps, the whole is appropriately fixed with a rope or the like, and the truck 100
And transport it to the site. In the field, by the procedure reverse to the above,
The transported rectangular roof panel 7 and the like are lowered from the truck 100 and temporarily stored in a predetermined position for roof formation. At this time, only the base member 60 needs to be removed from the panel 7 while the base member 60 and the horizontal member 61 remain integrated. On the other hand, after removing the roof panel 7 and the like, the integrated base member 60, the horizontal member 61, the wheel block 56, and the like are collectively transported to the factory by the truck 100 and processed according to the scheduled schedule.

This embodiment has the following effects in addition to the same effects as described above. 1) The first mounting body 57 and the second mounting 58 are provided with a side surface fixing plate 66 and an upper surface fixing plate 67, respectively, and when the panel 7 is mounted on each of the frame bodies 57 and 58, The panel 7 is fixed on one side and the other side by the side surface fixing plate 66 and the upper surface fixing plate 67. Therefore, even if the panels are stacked in a plurality of stages, they can be safely transported without shifting during transportation. 2) The upper surface fixing plate 67 provided on the horizontal member 61 of the first mounting body 57 and the second mounting 58 is
1 can be slid, so that it can be slid in accordance with the width dimension of the roof panel 7 to be placed, and thereby it is possible to freely correspond to a plurality of types of panels 7 having different sizes.

3) First mounting body 57 and second mounting 5
8 is a base member 60 attached to the upper surface of the panel 7,
A horizontal member 61 spanned between the base members 60
, A side fixing plate 66 and an upper fixing plate 67, of which the base member 60 and the horizontal member 61 can be handled as being integrated. Therefore, the structure is simple, and the production and management are easy.

4) Since the rectangular panel transport jig 55 can be fixed by using the frame 62 of the exposed base plate portion of the rectangular roof panel 7 placed on the horizontal member 61, the rectangular roof panel 7 can be fixed. Can be easily stacked, and thus can be efficiently transported.

The present invention is not limited to the above embodiment, but may be modified as follows as long as the object of the present invention can be achieved. That is, in the first embodiment, the positioning bracket 35
Are formed at two places on the left and right, but the riser may be formed on only one of them. With this configuration, the same effect as that of the first embodiment can be obtained, and further, there is an effect that manufacturing is easy because only one rising portion is required.

In the second embodiment, the connection between the base member 60 and the transverse member 61 is performed by connecting the bolt 48 from the side of the base member 60 and the mounting plate 65 attached to the back of the web portion thereof. 9 is screwed to the back nuts 64 provided at two locations in the longitudinal direction, but is not limited to this, and may be as shown in FIG. That is, the width dimension of the horizontal member 61 'is formed to be substantially the same as the width dimension of the base member 60, and two back nuts 64 are fixed in the width direction at the longitudinal end of the horizontal member 61'. The bolt 48 may be inserted from the member 60 side. In this way, the horizontal member 61 'is fixed at two locations in the horizontal direction, as compared with the second embodiment, so that a higher mounting strength is ensured.

Further, in the second embodiment, the side surface fixing plate 66 is fixed with the two bolts 48 by bringing the side surface into contact with the cover plate 63 of the horizontal member 61. However, the present invention is not limited to this.
A long slot may be formed in the vertical direction of the side surface fixing plate 66. In this way, the side fixing plate 66 can be moved in the vertical direction, so that the fixing work of the side surface of the rectangular roof panel 7 becomes easy.

[0066]

As described above, according to the method for transporting a roof panel with solar cells and the jig for transporting the roof panel of the present invention, the roof panel is transported to the truck bed via the roof panel transport jig. The roof panels can be stacked and transported one after the other at intervals, and the solar panels are mounted on the roof panels in advance, so that the roof panels and the solar panel need not be transported separately. Therefore, the transportation efficiency can be improved. In addition, since the solar panel is attached to the roof panel in advance, it is not necessary to attach the solar panel to the roof panel at the site, thereby reducing on-site work.

[Brief description of the drawings]

FIG. 1 is an overall perspective view showing a building having a roof with solar cells according to the present invention.

FIG. 2 is a plan view showing the layout of roof panels of a building according to the present invention.

FIG. 3 is an overall perspective view showing a transportation jig for a roof panel with solar cells according to the first embodiment of the present invention.

FIG. 4 is an exploded perspective view showing a first frame and a second frame of the transportation jig for the roof panel with solar cells according to the embodiment.

FIG. 5 is a side view showing a state in which roof panels are stacked in two stages on a transport jig of the roof panel with solar cells according to the present embodiment, and only the panels are cross-sectioned.

FIG. 6 is an exploded perspective view showing a transportation jig for a roof panel with solar cells according to a second embodiment of the present invention.

FIG. 7 is a side view showing a state in which the roof panel is stacked in two stages on the transportation jig of the roof panel with solar cells of the present embodiment.

FIG. 8 is a side view showing a part of a transportation jig for a roof panel with solar cells according to a modified embodiment of the present invention.

FIG. 9 is a perspective view showing a modification of the present invention.

[Explanation of symbols]

 Reference Signs List 5 roof panel 6 shingle roof panel 7 rectangular roof panel 11 solar cell panel 12 solar cell frame 15 squirrel roof panel transport jig 17 first frame body constituting a plurality of mounting bodies 18 plurality of mounting bodies 30 The column member 33 which is a support part 33 The horizontal member 35 The positioning bracket 55 which is a restricting means 55 The transportation jig for a rectangular roof panel 56 Cycle board 57 The first mounting which comprises a plurality of mounting bodies Mounting body 58 Second mounting body constituting a plurality of mounting bodies 60 Base member 61 as a support part Horizontal member 66 Side fixing plate as side fixing means 67 Top fixing plate as upper fixing means

Claims (9)

[Claims] 1. A solar panel is mounted on a roof panel constituting a roof of a building, and the roof panel is sequentially stacked with a roof panel transport jig placed on a truck bed. A method for transporting a roof panel with solar cells, comprising transporting a roof panel. 2. A transportation jig for a roof panel with a solar cell, wherein a plurality of roof panels to which a solar cell panel is attached and which constitutes a roof of a building are stacked and transported at intervals. A jig for transporting a roof panel with a solar cell, wherein the jig is provided with a plurality of mounting bodies provided on a carrier and for mounting the plurality of roof panels at intervals. 3. The jig for transporting a roof panel with a solar cell according to claim 2, wherein each of the mounting bodies is vertically connectable, is disposed on both sides of the roof panel, and is mounted on the roof panel. A support portion having a height dimension larger than a thickness dimension of the roof panel including a thickness dimension, and a transverse member having both ends supported by the support portion and the roof panel placed on an upper surface thereof A jig for transporting a roof panel with solar cells, which is characterized in that: 4. The jig for transporting a roof panel with a solar cell according to claim 3, wherein the supporting portion includes a column member that is erected at four corners and two column members among these column members. A horizontal and parallel connecting member to be connected to each other, wherein the horizontal member is bridged between the column members orthogonally to the connecting member, and the column member has a structure on the horizontal member. A jig for transporting a roof panel with solar cells, comprising fixing means for pressing and fixing an upper surface of the mounted roof panel. 5. The transportation jig for a roof panel with solar cells according to claim 3, wherein the transverse member is engaged with a frame on the back surface of the roof panel, and the roof panel is moved in a lateral direction. A jig for transporting a roof panel with solar cells, characterized in that a regulating means for regulating the pressure is provided so as to be slidable in the horizontal direction. 6. The transportation jig for a roof panel with a solar cell according to claim 2, wherein the transportation jig transports a roof panel of the roof panel, which is arranged in a building flap. A transportation jig for a roof panel with solar cells, which is used for a job. 7. The jig for transporting a roof panel with solar cells according to claim 2, wherein each of the mounting bodies is vertically connectable, and the base plates at both ends along the width direction of the roof panel. A support portion detachably attached to an upper surface of the portion and having a height dimension larger than a sum of a thickness dimension of the roof panel and a thickness dimension of the solar cell panel; And a horizontal member on which the roof panel is mounted. 8. The transportation jig for a roof panel with solar cells according to claim 7, wherein one side surface of the roof panel mounted on the horizontal member is fixed to the horizontal member or the support portion. Side fixing means to be detachably provided,
On the upper surface of the horizontal member, while fixing the other side surface of the roof panel placed on the horizontal member, upper surface fixing means slidable along the horizontal member is provided. Characteristic roof panel transport jig with solar cells. 9. The transportation jig for a roof panel with solar cells according to claim 7 or 8, wherein the transportation jig is for a rectangular roof panel for transporting a rectangular roof panel other than the shingle roof panel. A jig for transporting a roof panel with solar cells, comprising: