JP7401712B1 - solar roof equipment - Google Patents

Abstract

[Purpose] A solar roof device that is easy to install while ensuring waterproofness in a structure in which solar panels are installed on a roof made of a sheet that can be heat-fused to the surface. [Structure] A sheet-like roof 5 consisting of a sheet layer portion 52 that can be heat-sealed to a heat-insulating base material 51 and a deck plate 53, and a top portion 1a, an inclined side portion 1b, and a seat plate portion 1c. It consists of a frame main body 1 provided with a covering sheet part 12 to be attached, and a connecting sheet part 2 that is heat-sealed to the upper position of both inclined side parts 1b and extends outward from the outer end. A solar frame A, a panel mount 6 and a solar panel 7 arranged and fixed on the top part 1a are provided. The solar frame A is arranged on the sheet-like roof 5, the seat plate part 1c is fixed on the sheet-like roof 5 via the fixing device 8, and the connecting sheet part 2 is attached to the sheet layer part 52 of the sheet-like roof 5. The solar panel 7 is fused and placed on the top portion 1a of the solar frame A via the panel mount 6. [Selection diagram] Figure 1

Description

Application of Article 30, Paragraph 2 of the Patent Act Sanko Metal Industry Co., Ltd., on pages 1 and 2 of the leaflet (product catalog) titled "Hi-Tough EG Solar Frame", stated that Yoshimasa Aizawa, Junichi Masuda, and Yusuke Koga He disclosed the solar roof device he had invented.

Application of Article 30, Paragraph 2 of the Patent Act Sanko Metal Industry Co., Ltd. has published on its website the solar roof device invented by Yoshimasa Aizawa, Junichi Masuda, and Yusuke Koga.

Application of Article 30, Paragraph 2 of the Patent Act Sanko Metal Industry Co., Ltd. published a solar roof device invented by Yoshimasa Aizawa, Junichi Masuda, and Yusuke Koga on the third page of the newspaper ``Nikkan Tekko Shimbun.''

Application of Article 30, Paragraph 2 of the Patent Law Sanko Metal Industry Co., Ltd. published on the third page of the newspaper ``Nikkan Sangyo Shimbun'' about the solar roof device invented by Yoshimasa Aizawa, Junichi Masuda, and Yusuke Koga.

Application of Article 30, Paragraph 2 of the Patent Act Sanko Metal Industry Co., Ltd. published a solar roof device invented by Yoshimasa Aizawa, Junichi Masuda, and Yusuke Koga on the second page of the newspaper ``Daily Nippon Metal News''.

The present invention relates to a solar roof device that can be easily constructed while reliably ensuring waterproofness of the roof portion in a structure in which solar panels are installed on a roof whose upper surface is made of a sheet that can be heat-sealed to the surface.

In recent years, an increasing number of buildings are installing solar panels on their roofs. Patent Document 1 is cited as an example of installing solar panels on a normal roof. In the content disclosed in Patent Document 1, the roof on which the solar panel is installed uses a corrugated plate or the like, and a mounting bracket is used for this.

Moreover, many roofs that are waterproof and airtight are being constructed on rooftops and the like using construction materials made of sheet materials. In particular, the sheet material is mainly composed of synthetic resin, to which is added a member made of fibers, wire mesh, or the like. A construction material in which such a sheet material is laid on a heat insulating base material, a board material such as wood, is a single construction material, and a plurality of such construction materials are provided, and these are placed side by side on a structural material, and adjacent sheets of construction materials are used. The roof is constructed by heat-sealing the ends of the timbers together. Such a roof whose front side is made of sheet material has excellent waterproofness and airtightness over the entire roof surface due to the connection between the sheet materials by heat fusion. When installing solar panels on a sheet roof like this, it is common practice to first install a mount on the sheet roof and then attach the solar panel to the mount. .

Japanese Patent Application Publication No. 2014-163144

At this time, when installing the mount to which the solar panel is attached to the sheet roof, fixing tools such as screws are used to fix the mount to the sheet-shaped outer enclosure. A perforation is formed for the tool. Therefore, by installing the solar panel frame, there is a risk that the waterproofness and airtightness of the sheet roof will be impaired.

For this reason, conventionally, fixing devices such as screws are used to install the frame, and parts such as a sealing material and a waterproof washer made of rubber are used. However, places where solar panels are installed are constantly irradiated with intense sunlight, and the irradiated areas become hot, so the sealing material or waterproof washer described above deteriorates in a short period of time, making it difficult to maintain waterproofness and airtightness. The waterproof performance and airtightness are no longer fulfilled.

In addition, in some cases, waterproofing is applied to the installation location of the solar panel mount on a sheet roof, but in this case, a relatively large penetration is required to install the mount at a predetermined position on the sheet roof. In some cases, a hole is formed, parts of the pedestal are attached thereto, and a new sheet material is repaired around the hole by heat-sealing, etc., and the pedestal is installed. However, such processing has a major problem in that the construction time increases and the construction cost increases accordingly. An object of the present invention is to provide a solar roof device that allows solar panels to be installed on a sheet roof without impairing the excellent waterproofness and airtightness of the sheet roof.

Therefore, as a result of intensive research in order to solve the above problems, the inventors have developed the invention of claim 1 for a heat insulating base material, a deck plate disposed on the lower surface of the heat insulating base material, and a top surface of the heat insulating base material. A sheet-like roof consisting of a heat-sealable sheet layer portion disposed, sloped side portions extending downward from both sides in the width direction of the top portion, and seat plate portions formed on both sides in the width direction from the lower ends of the sloped sides. A frame main body having a cover sheet portion heat-sealed on the surface side, and a frame body heat-sealed above both of the sloped sides and extending from the sloped sides to the outside of the seat plate portion. The solar frame includes a connecting sheet portion extending outward from the end, a panel mount and a solar panel arranged and fixed to the top of the solar frame, and the solar frame is arranged on the sheet-like roof. The seat plate portion is fixed to the sheet roof via a fixing tool, the connecting sheet portion is heat-sealed to the sheet layer portion of the sheet roof, and the The above problem has been solved by providing a solar roof device characterized in that the solar panels are arranged via the panel mount.

The invention according to claim 2 is provided in the solar roof device according to claim 1, wherein an end closing sheet portion for closing a longitudinal end of the solar frame is disposed, and the longitudinal end of the solar frame and the sheet are arranged. The above problem has been solved by providing a solar roof device characterized in that the shaped roof is covered with the sheet layer portion by heat fusion. The invention according to claim 3 is characterized in that in the solar roof device according to claim 1 or 2, the frame main body of the solar frame is formed into a trapezoid by the top portion and both the sloped side portions. The above problem was solved by using it as a roof device.

The invention of claim 4 is made into a solar roof device according to claim 1 or 2, characterized in that double-sided tape is attached to the lower surface side of both the seat plate parts of the solar frame. Solved the problem. The invention of claim 5 is characterized in that, in claim 1 or 2, a double-sided tape is attached to the upper surface side of both the seat plate parts of the solar frame, and the upper surface of the seat plate part and the connecting sheet are bonded via the double-sided tape. The above-mentioned problem was solved by creating a solar roof device in which the parts are glued together. The invention of claim 6 is characterized in that, in claim 2 , an end face door for closing an opening is fixed to the longitudinal end of the solar frame, and the end face door is covered with the end closing sheet portion. The above problem has been solved by creating a solar roof device that is characterized by:

The invention of claim 7 is provided in claim 1 or 2, when a plurality of the solar frames are arranged in series in the longitudinal direction, a strip-shaped connecting sheet portion is provided, and opposite ends of both the solar frames are arranged in series. Both the top portions, both the inclined side portions, and both the seat plate portions are each covered by heat fusion by the band-like connecting sheet portion, and both longitudinal ends of the band-like connecting sheet portion are attached to the sheet-like roof. The above problem has been solved by providing a solar roof device characterized in that the sheet layer portion is coated with heat fusion.

In the invention of claim 1, it is possible to provide a solar roof device in which a solar panel is installed on a sheet-like roof while maintaining the waterproofness and airtightness of the sheet-like roof. It can be a solar panel. To explain the above effect in detail, the solar frame has a frame main body and a connecting sheet part, and the frame main body has sloped side parts that extend downward from both sides in the width direction of the top part, and a width from the lower ends of both of the sloped sides. The cover sheet portion is provided on the surface side of the frame body and is heat-sealed.

The frame body includes a connecting sheet portion that is heat-sealed to an upper position of both the inclined side portions and extends from the inclined side portions beyond the outer end of the seat plate portion. is provided. The connecting sheet portion is heat-sealed and bonded only to the upper portion of the inclined step portion, and is in a free state below the heat-sealed portion. Further, the sheet-like roof is composed of a heat-insulating base material, a deck plate disposed on the lower surface of the heat-insulating base material, and a heat-sealable sheet layer portion disposed on the top surface of the heat-insulating base material.

The solar frame is placed on the sheet-like roof, the seat plate portion is fixed to the sheet-like roof via a fixing device, and the connecting sheet portion is heat-fused to the sheet layer portion of the sheet-like roof. It will be worn. In particular, the connecting sheet portion is heat-sealed and bonded at the upper portion (including the vicinity of the intermediate portion) of the inclined step portion, and below the heat-sealed portion, the connecting sheet portion is in a free state. Thereby, the lower part of the connecting sheet part becomes a free part, and by lifting the lower end of the connecting sheet part upward, the connecting sheet part can be rolled up.

As a result, when trying to fix the solar frame to the sheet roof by screwing fixing tools such as screws into the seat plate of the solar frame placed on the sheet roof, the rolled up connecting sheet allows the The plate portion appears (exposed), making it easier to screw fasteners such as screws into the seat plate portion, and improving the efficiency of the work of installing and fixing the solar frame on the sheet roof.

As a result of the above, the connecting sheet part covers the part where the frame main body of the solar frame and the sheet roof are fixed with fixing tools such as screws, and the connecting sheet part and the sheet layer part of the sheet roof are connected. The structure is heat-fused and bonded, and the fixing parts are covered to prevent rainwater from entering from the fixing parts, and the solar frame has an installation structure that has extremely excellent waterproof and airtightness for sheet roofs. can do.

Such a configuration is extremely simple, and the solar frame can be firmly fixed to the sheet roof using fixing devices such as screws, and watertightness and airtightness can be maintained reliably. . By arranging multiple solar frames side by side at predetermined intervals on a sheet-like roof, or by arranging the solar frames continuously in a straight line in the longitudinal direction, panel stands and solar panels can be installed on a small or large scale. It has a structure that is easy to install on a large scale, is easy to construct, and has excellent effects that can be constructed at a low cost.

In addition, in the present invention, when constructing a solar roof device, the solar frame is placed on the sheet-like roof, and the free part of the connecting sheet part of the solar frame and the sheet-like roof are connected along the longitudinal direction of the solar frame. When using a heat fusing machine for heat fusing work with the sheet layer, most of the heat fusing can be done by moving it in a substantially straight line, making the construction work extremely efficient. It can be made into something excellent. According to the present invention, a solar frame can be installed by heat fusion work without any processing on a sheet-like roof, and furthermore, fixing devices such as screws for installing and fixing the solar frame on a sheet-like roof are provided. This can be done from above the sheet roof at any time, making the construction work extremely simple and quick.

In the invention according to claim 2, an end closing sheet portion is arranged to close the longitudinal end portion of the solar frame, and the longitudinal end portion of the solar frame and the sheet roof are heat-sealed to the sheet layer portion. With the structure in which the solar frame is covered with , it is possible to create a solar frame on a sheet-like roof with a structure that is even more excellent in waterproofness and airtightness.

In the invention according to claim 3, the frame main body of the solar frame has a trapezoid shape formed by the top portion and both the sloped side portions, thereby making the solar frame a strong structure, and by forming it into a stand, the cross section is flat. This makes it even easier to install the panel frame. In the invention according to claim 4, double-sided tape is attached to the lower surface side of both the seat plates of the solar frame, so that the solar frame can be positioned at a predetermined position on the sheet roof. This makes it easier to fix with fixing tools such as screws.

In the invention according to claim 5, a double-sided tape is attached to the upper surface side of both the seat plates of the solar frame, and the upper surface of the seat plate and the connecting sheet parts are attached to each other via the double-sided tape. As a result, the waterproofness and airtightness between the sheet roof and the solar frame can be further improved. In the invention according to claim 6, an end face door for closing an opening is fixed to the longitudinal end of the solar frame, and the end face door is covered with the end closing sheet part, so that the solar frame can be made even stronger.

In the invention according to claim 7, when a plurality of the solar frames are arranged in series in the longitudinal direction, a strip-shaped connecting sheet portion is provided, and opposing ends of both the solar frames are connected to each other by the strip-shaped connecting sheet portion. The top portion, both of the sloped side portions, and both of the seat plate portions are covered by heat fusion, and both ends in the longitudinal direction of the band-shaped connecting sheet portion are heat fused to the sheet layer portion of the sheet roof. The covered structure allows a structure suitable for installing a large-scale solar panel corresponding to a large-scale sheet roof.

(A) is a front view of the present invention, and (B) is an enlarged view of part (α) in (A). (A) is an enlarged vertical sectional side view of the main part of the present invention, and (B) is an enlarged view of the main part at a position different from (A) and adjacent to the solar panels arranged along the longitudinal direction of the solar frame. FIG. (A) is a perspective view of a main part of the present invention, and (B) is an enlarged view of (β) part of (A). (A) is a perspective view of a solar frame attached to a sheet roof, and (B) is a perspective view of (A) with a lower support portion of a panel mount attached. (A) is a perspective view of the solar frame, (B) is a longitudinal sectional front view of the solar frame, and (C) is an enlarged view of the (γ) portion of (B). (A) is a perspective view of a solar frame being placed on a sheet-like roof, and (B) is a perspective view of a connecting sheet portion being rolled up and both seat plate portions being fixed with a fixing tool. (A) is a perspective view of a state in which the connecting sheet portion of the solar frame is heat-sealed on a sheet-like roof, and (B) is a perspective view of a panel frame being installed on the solar frame in the state of (A). . (A) to (F) are schematic illustrations of the construction process of the present invention. (A) is a perspective view of the finished state of the longitudinal end of the solar frame, (B) is a plan view of the end closing sheet section, and (C) is the connection point in the longitudinal direction of the solar frame with the strip-shaped connecting sheet section. It is a perspective view showing the state to be finished.

Hereinafter, embodiments of the configuration of the present invention will be described based on the drawings. In the present invention, the terms X direction and Y direction are used to indicate directions in order to make the explanation easier to understand. In the present invention, with solar frame A as a reference, its longitudinal direction is defined as the X direction, and its width direction is defined as the Y direction. Furthermore, when the solar frame A is installed on the sheet roof 5, the X direction and Y direction of the sheet roof 5 are made to coincide with the X direction and Y direction of the solar frame A. The longitudinal direction (X direction) and the width direction (Y direction) are indicated at the main locations in the figure. In the constituent elements of the present invention described below, the reference for indicating the direction shall all follow the above-mentioned X direction and Y direction.

The solar roof device of the present invention mainly includes a solar frame A, a sheet roof 5, a panel mount 6, a solar panel 7, a fixing device 8, etc. (see FIGS. 1 and 2). Note that the solar frame A is sometimes referred to as a through-base material. In the present invention, a solar frame A is fixedly installed on a sheet roof 5 using fixing devices 8 such as screws, and the fixing devices 8 are connected to a connecting sheet portion 2 of the solar frame A and a sheet layer portion 52 of the sheet roof 5. The structure is such that the solar panel 7 is installed on the solar frame A via the panel mount 6.

The solar frame A is composed of a frame body 1 and a connecting sheet portion 2 (see FIG. 5). The frame body 1 is composed of a base part 11 and a covering sheet part 12, and the covering sheet part 12 is coated with resin on the upper surface of the base part 11 [see FIGS. 5(B) and 5(C)]. The covering sheet portion 12 is coated with resin on the surface of the base portion 11 by heat fusion, adhesive, or the like. The base part 11 is mainly made of a metal material, and the cover sheet part 12 is made of a material that can be heat-sealed, and has resin as its main component, and is provided with a net-like metal material, a fiber material, etc., and has a high strength. It is made of reinforced material [see Figures 5(B) and (C)].

The base portion 11 serves as a skeleton for modeling the shape of the frame body 1, and also serves as the core of the frame body 1. The frame main body 1 has a top portion 1a, an inclined side portion 1b, and a seat plate portion 1c, and inclined side portions 1b, 1b extending downward from both sides of the top portion 1a in the width direction (Y direction) are formed. Seat plate portions 1c, 1c are formed on both sides in the width direction (Y direction) from the lower ends of the inclined side portions 1b, 1b [see FIGS. 5(A) and 5(B)].

The top portion 1a and both inclined side portions 1b form a substantially trapezoidal shape. The substantially trapezoidal frame main body 1 has a covering sheet portion 12 on its entire upper surface and a base portion 11 on its lower surface. Both inclined side parts 1b, 1b have an inclination angle that inclines outward in the width direction (Y direction) from the top to the bottom, and there are various inclination angles from gentle to old inclination angles. It is determined according to the situation in which the shaped roof 5 is constructed [see FIGS. 5(A) and 5(B)].

To give an example of the main dimensions of solar frame A, the height is approximately 90 mm, the width direction (Y direction) of the top portion 1a is approximately 66 mm, and the width direction (Y direction) including both seat plate portions 1c, 1c. The size is about 250mm. Further, although the solar frame A has a substantially trapezoidal shape, it may also have a substantially rectangular parallelepiped shape or a substantially rectangular shape. The frame body 1 is made of metal, specifically molten zinc/aluminum, magnesium alloy plated steel plate, etc., but is not limited to these materials and may be a general steel plate.

A frame fixing bolt 63 constituting a panel frame 6, which will be described later, is provided on the top portion 1a. The frame fixing bolt 63 includes a bolt portion 63a, a washer portion 63b, a packing portion 63c, and a nut 63d. The frame fixing bolt 63 serves to fix a panel frame 6, which will be described later, on the top portion 1a of the solar frame A when it is installed. The bolt part 63a of the frame fixing bolt 63 is attached to the top part 1a of the solar frame A in a state of protruding vertically upward from the top surface of the top part 1a, and the washer part 63b is attached to sandwich the top and bottom surfaces of the top part 1a. and a packing portion 63c are arranged [see FIG. 1(B)].

Then, the lower receiving part 61 and the upper holding part 62 of the panel mount 6 are attached to the top part 1a of the solar frame A via the bolt part 63a of the fixing bolt 63 and the nut 63d. Further, as described above, the panel mount 6 has a lower support portion 61, an upper holding portion 62, and a mount fixing bolt 63 [see FIGS. 1(B) and 2].

Two connecting sheet parts 2 are provided for the frame main body 1, and a part of each connecting sheet part 2 is thermally melted from the upper position to the substantially middle position of both inclined side parts 1b, 1b of the frame main body 1. They are joined at the same time [see Figures 5(A) and (B)]. The connecting seat part 2 is attached so as to extend from the inclined side part 1b to a position that projects further outward than the outer end of the seat plate part 1c (see FIG. 5).

In other words, when the connecting sheet part 2 is arranged closely along the surfaces of the inclined side part 1b and the seat plate part 1c, the lower outer end of the connecting sheet part 2 is attached to the seat plate part 1c. It is configured to protrude further outward than the outer end [see FIGS. 5(A) and 5(B)]. Therefore, the total length of the connecting seat portion 2 in the width direction (Y direction) is set to be larger than the sum of the dimensions of the inclined side portion 1b and the seat plate portion 1c in the width direction (Y direction). [See Figure 5(B)].

The connecting sheet portion 2 is made of the same material as the covering sheet portion 12 of the frame body 1, and the connecting sheet portion 2 can be joined to the covering sheet portion 12 by heat fusion. To join the connecting sheet part 2 to the inclined side part 1b of the frame main body 1 by heat fusion, first, double-sided tape is pasted on the upper part of the inclined side part 1b. The covering sheet part 12 and the connecting sheet part 2 are heat-sealed while alignment for joining the connecting sheet part 2 to the covering sheet part 12 is performed.

There is also a means for heat-sealing and bonding the connecting sheet portions 2 in an unformed flat state before the frame body 1 is formed into a trapezoidal shape, but this will be described later. In either case, by using the double-sided tape in this manner, the connecting sheet portion 2 is heat-sealed and bonded to the covering sheet portion 12 of the inclined side portion 1b at an accurate position. Note that the connecting sheet portion 2 may be bonded to the frame body 1 with an adhesive.

The connecting sheet portion 2 is heat-sealed and joined from an upper portion to a substantially middle portion in the height direction of the inclined side portion 1b of the frame body 1. As a result, only the portion from the upper part to the intermediate part of the connecting sheet part 2 is joined to the inclined side part 1b by heat fusion, and the part below this heat fusion part is a freely movable part. [See Figure 5(C)]. This free portion of the connecting sheet portion 2 will be referred to as a free portion 2a of the connecting sheet portion 2. In the above-described connecting sheet portion 2, the portion that is heat-sealed and bonded to the covering sheet portion 12 of the frame body 1 will be referred to as a heat-sealed fixed portion 2b. In the Y direction (width direction) of the solar frame A, the solar frame A is formed longer than the heat-sealed fixed portion 2b.

When the connecting sheet portion 2 is left as it is, the free portion 2a hangs down due to its own weight so as to substantially follow the inclined side portion 1b and the seat plate portion 1c. Furthermore, by holding the lower end of the free portion 2a of the connecting sheet portion 2 and lifting it upward, the connecting sheet portion 2 can be rolled up with respect to the frame body 1 [Fig. 5(B) ), see Figure 6(B)]. Such a structure is extremely effective in installing and fixing the solar frame A to the sheet roof 5, which will be described later. By rolling up the free portion 2a of the connecting sheet portion 2, the seat plate portion 1c of the frame body 1 is exposed.

In other words, as described above, the connecting sheet part 2 is heat-sealed and joined from the upper part of the inclined side part 1b of the frame main body 1 to approximately the middle part to form the heat-sealed fixed part 2b, and this part is integrated with the frame body 1. The part below this heat-sealed fixed part 2b is the free part 2a of the connecting sheet part 2, and only the upper part of the connecting sheet part 2 is joined to the inclined side part 1b by heat-sealing. , the area below this heat-sealed area is free [see Figure 5(C)].

As will be reiterated, the free portion 2a of the connecting sheet portion 2 will hang down due to its own weight along the inclined side portion 1b and the seat plate portion 1c, and the free portion 2a of the connecting sheet portion 2 will hang down due to its own weight. By holding the lower end of the frame and lifting it upward, it can be rolled up against the frame body 1. When fixing the solar frame A placed on the sheet roof 5, by rolling up the free portion 2a of the connecting sheet portion 2, the seat plate portion 1c located below the free portion 2a appears (exposed). ), and it is possible to easily screw the fixing device 8 such as a screw for fixing the solar frame A to the sheet roof 5 from above the seat plate portion 1c onto the sheet roof 5 [Fig. 6(B) reference〕. In addition, it is preferable to use a screw (such as a chip suppressing screw) that does not easily generate chips during drilling as the fixing tool 8.

In order to manufacture such a solar frame A, although not particularly shown, the following steps are required. In the frame body 1, rectangular connecting sheet parts 2 are provided on both sides in the width direction (Y direction) of an unformed rectangular flat metal plate material before the base part 11 is formed into a trapezoid shape and on the covering sheet part 12. They are arranged parallel to each other. At this time, if double-sided tape is pasted on either the flat base part 11 or the connecting sheet part 2, the positioning of the base part 11 and the connecting sheet part 2 can be temporarily fixed, allowing accurate thermal melting. It becomes easier to perform the dressing work. Then, a position closer to the center in the width direction (Y direction) of the base portion 11 and the connecting sheet portion 2 are heat-sealed and bonded using a heat-sealing machine to form a heat-sealed fixed portion 2b.

At this time, the areas on both sides in the width direction (Y direction) of the flat base part 11 and the connecting sheet part 2 are not heat fused and become free parts 2a, and the free parts 2a of the connecting sheet part 2 are the flat base parts. 11 so that it can be rolled up on both sides in the width direction (Y direction). Then, with the connecting sheet parts 2, 2 bonded by heat fusion on both sides of the flat base part 11 in the width direction (Y direction), the flat base part 11 in an unmolded state is bendered using a bender or a mold. Alternatively, the solar frame A is manufactured by molding it into a substantially trapezoidal cross section using a mold or the like.

The solar frame A is usually transported to the site with the connecting sheet portion 2 bonded to the frame body 1 by heat fusion. In addition, depending on the construction site situation or work situation, the solar frame A is transported with the frame body 1 and the connecting sheet part 2 separated, and the connecting sheet part 2 is attached to the frame body 1 during construction site work. may be joined by heat fusion. The connecting sheet portion 2 serves to cover the fixing device 8 that fixes the seat plate portion 1c of the solar frame A onto the sheet roof 5, and therefore the connecting sheet portion 2 is connected to the connecting covering sheet portion 2. It may also be called.

The solar frame A is provided with an end-closing sheet portion 41 that closes the longitudinal direction (X-direction) end portion of the solar frame A since it is in an open state as it is [Fig. 2(A), 3(B), FIG. 9(A), etc.]. The end closing sheet portion 41 is made of the same material as the covering sheet portion 12 and the connecting sheet portion 2 described above. Since the solar frame A is left open at its longitudinal direction (X direction) end, it is provided with an end closing sheet section 41 that closes this end. The end closing sheet portion 41 is made of the same material as the covering sheet portion 12 and the connecting sheet portion 2 described above. There is an opening at the end of the solar frame A in the longitudinal direction (X direction), and an end surface door 3 for closing the opening is fixed [see FIG. 2(A)].

The end side door 3 is made of metal and has a side door main plate 31 having the same shape as the opening. Orthogonal fixing margins 32 are formed [see FIG. 2(A)]. The end surface door 3 is arranged at the opening at the longitudinal direction (X direction) end of the solar frame A, and the fixing allowance 32 of the end surface door 3 and the inner surface of the base portion 11 of the solar frame A are It is attached via adhesive fixing means.

Next, the end closing sheet portion 41 covers the mounting portion of the end surface door 3 of the solar frame A [see FIGS. 2(A), 3(B), and 9(A)]. The end closing sheet portion 41 is equivalent to the covering sheet portion 12, the connecting sheet portion 2, etc. of the solar frame A. The end closing sheet portion 41 is a sheet material formed in a substantially “mountain” shape or a substantially “W” shape, and has a trapezoidal upper covering surface 41a and a U-shaped lower covering surface 41b. [See Figure 9(B)].

Then, the upper covering surface 41a is used to cover the top part 1a of the solar frame A, both inclined side parts 1b, 1b, and the opening, and cover the area around the upper covering surface 41a, the top part 1a of the solar frame A, and the inclined side parts. The portion 1b is joined by heat fusion. At this time, if the end closing sheet part 41 is folded in a yachio-yo fold over the top part 1a and the inclined side part 1b of the solar frame A, it will fit well (see FIG. 9(A)). .

Further, the lower covering surface 41b is joined to the connecting sheet portion 2 covering the washer portion 63b of the solar frame A and the sheet layer portion 52 of the sheet roof 5 by heat fusion. Furthermore, a circular support sheet part 43 may be used, and by using the support sheet part 43, the corner formed by the longitudinal direction (X direction) end of the solar frame A and the sheet roof 5 can be to improve waterproofness. The support sheet portion 43 is made of the same material as the connecting sheet portion 2, and is joined by heat fusion [see FIG. 9(A)].

[ See Figure 1(B)]. The sheet layer portion 52 is made of the same material as the covering sheet portion 12, the connecting sheet portion 2, etc. of the solar frame A. In addition, when heat-sealing and joining the end closing sheet part 41 to the longitudinal direction (X direction) end of the solar frame A, first apply double-sided tape across the space between the solar frame A and the sheet roof 5. By attaching the end sealing sheet 41, the position of the end closing sheet 41 can be accurately aligned, and the end closing sheet 41 can be installed with high precision without shifting during the heat fusion work.

Next, in the case where a plurality of solar frames A are arranged in series and in a straight line along the longitudinal direction (X direction), the solar frames A, which are adjacent to each other in the longitudinal direction (X direction), are opposed to each other. A band-shaped connecting sheet portion 42 is provided at the end portion, and the opposing portions of both adjacent solar frames A may be covered by the band-shaped connecting sheet portion 42 [Fig. 3 (B), Fig. 4 , see Figure 9(C)]. The strip-shaped connecting sheet portion 42 is made of the same material as the connecting sheet portion 2.

The strip-shaped connection sheet portion 42 is disposed at end portions opposite to each other in the longitudinal direction (X direction) of both the solar frames A, A, and the strip-shaped connection sheet portion 42 connects to both the top portions 1a and both the inclined portions. The side portions 1b, 1b and the seat plate portions 1c, 1c are covered and bonded to each other by heat fusion. The strip-shaped connection sheet portion 42 covers both sides of the solar frame A in the width direction (Y direction) when viewed from the front, and both sides of the strip-shaped connection sheet material 42 in the longitudinal direction are heated to the sheet layer portion 52 of the sheet-shaped roof 5. Joined by fusion.

In addition, in the heat-sealing work of the strip-shaped connecting sheet portion 42, the top portions 1a, both inclined side portions 1b, 1b, and both seat plate portions of the opposing portions of both solar frames A, A adjacent in the longitudinal direction (X direction) are 1c, 1c and the sheet layer portion 52 of the sheet-like roof 5 in advance with double-sided tape n, it is possible to heat-seal and bond the strip-shaped connecting sheet portion 42 at an accurate position, and the heat-sealing work is also efficient. Can be done.

As described above, the panel mount 6 has a lower support part 61 and an upper holding part 62 [see FIG. 1(B), FIG. 2, FIG. 3, and FIG. 4(B)]. The lower receiving part 61 is a longitudinally elongated member, and its cross-sectional shape perpendicular to the longitudinal direction is approximately hat-shaped or convex (see FIGS. 2 and 3). On the upper end surface of the lower receiving part 61, a plurality of through holes through which the frame fixing bolts 63 pass are arranged in a line at predetermined and equal intervals. The upper holding part 62 is a longitudinally elongated member similar to the lower receiving part 61, and has a plurality of through holes through which the frame fixing bolts 63 pass are arranged in a line at predetermined and equal intervals. (See Figure 7).

Then, the top portion 1a of the solar frame A is arranged so that the longitudinal direction of the lower supporting portion 61 and the upper holding portion 62 is orthogonal to the longitudinal direction (X direction) of the solar frame A in which a plurality of solar frames A are arranged in parallel on the sheet roof 5. placed on top. The solar panel 7 has a rectangular or square plate shape, and is arranged between adjacent panel frames 6, 6, so that both opposing sides of the solar panel 7 are fitted with the panel frames 6. It is held in the vertical direction by the lower mating receiving part 61 and the upper holding part 62, and is fixed by the bolt part 63a and nut 63d of the frame fixing bolt 63 (see FIG. 2).

The upper holding portion 62 has a substantially inverted L-shape or a flat plate-like cross section orthogonal to the longitudinal direction. Usually, a plurality of solar panels 7 are centrally arranged at predetermined positions on the sheet roof 5. In the case of a large-scale solar group in which a large number of solar panels 7 are assembled, the upper holding part 62 of the panel mount 6 has a substantially inverted L-shaped cross section at the end of the assembly. [See Figures 2(A) and 7(B)]. Further, between the adjacent solar panels 7, 7, a flat plate-shaped upper holding part 62 of the panel mount 6 is used to fix both opposing sides of the adjacent solar panels 7, 7 [Fig. 2(B) ), see Figure 7(B)]. In addition, in FIG. 3(A), illustration of the upper holding part 62 of the panel mount 6 is partially omitted.

In the present invention, the seat plate part 1c of the solar frame A placed on the sheet-like roof 5 is fixed to the sheet-like roof 5 with a plurality of fasteners 8 such as screws, and the fasteners 8 are attached to the solar frame A. By heat-sealing and bonding the connecting sheet portion 2 and the sheet layer portion 52 of the sheet-like roof 5, the area around the fixing device 8 is made completely waterproof. This can prevent moisture such as rainwater from flowing in from the solar frame A installed on the sheet roof 5. Furthermore, by performing thermal fusion bonding between the free portion 2a of the connecting sheet portion 2, the inclined side portion 1b of the frame body 1, and the covering sheet portion 12 of the seat plate portion 1c, the fixing tool 8 on the seat plate portion 1c The surrounding area can be made waterproof.

Next, construction of the solar roof device according to the present invention will be explained. First, we will outline the construction process in order. A sheet roof 5 having a heat-sealable sheet layer portion 52 is provided with sloped side portions 1b, 1b extending downward from both sides in the width direction (Y direction) of the top portion 1a, and from the lower ends of both sloped side portions 1b, 1b. A frame main body 1 consists of seat plate parts 1c, 1c formed on both sides in the width direction (Y direction), and a cover sheet part 12 that is heat-sealed on the front side, and both inclined side parts 1b, 1b. A solar frame A consisting of a connecting sheet part 2 that is heat-sealed to an upper position and extends from the inclined side parts 1b, 1b to the outer ends of the seat plate parts 1c, 1c is arranged. At the same time, the connecting sheet portion 2 and the sheet layer portion 52 of the sheet roof 5 are heat-sealed, and the solar panel 7 is placed on the top portion 1a of the solar frame A via the panel mount 6.

The above construction will be described in detail according to the steps. First, the solar frame A is placed on the sheet roof 5 on which the heat-sealable sheet layer 52 is laid on the surface of the heat insulating base material 51 [FIG. 6(A) , see FIG. 8(B)]. Here, it is preferable that the longitudinal direction (X direction) of the solar frame A is arranged along the flow direction of the sheet roof 5. Further, at this time, a double-sided tape n is attached to the lower surface side of both seat plate parts 1c and 1c of the solar frame A [see FIG. 1(B) and FIG. 6(A)].

As a result, the solar frame A is temporarily fixed to the sheet roof 5 for positioning, and the free portion 2a of the connecting sheet portion 2 and the sheet layer portion 52 of the sheet roof 5 are connected by the double-sided tape n. Heat fusion work can be performed without positional deviation between the two (see Figure 6(A)). The double-sided tape n at this time is preferably a waterproof butyl tape.

A through hole 1d is pre-drilled in the seat plate parts 1c, 1c, and by inserting a fixing device 8 such as a screw into the through hole 1d and screwing it into the sheet roof 5, the solar frame A is attached to the sheet roof 5. [See Figures 6(B) and 8(C)]. The fastener 8 in the form of a screw is screwed into the metal deck plate 53. As a result, the solar frame A is extremely firmly fixed to the sheet roof 5.

When fixing the solar frame A on the sheet-like roof 5 with fixing devices 8 such as screws, first lift upward the lower ends of the free parts 2a of the connecting sheet parts 2 on both sides of the solar frame A in the width direction (Y direction). By rolling up the free portion 2a, the seat plate portion 1c is exposed, making it easier to insert fixing screws into the through holes of the seat plate portion 1c (see FIG. 6(B)). Then, a plurality of solar frames A are arranged side by side on the sheet roof 5 at predetermined intervals. Furthermore, in order to install a large-scale solar system, a plurality of solar frames A, A, . . . are arranged in a straight line in the longitudinal direction (X direction).

Then, the free portion 2a of the connecting sheet portion 2 of the solar frame A is lowered as it is, and the outer end portion protruding from the seat plate portion 1c of the connecting sheet portion 2 is installed on the sheet layer portion 52 of the sheet roof 5, and the connecting sheet portion 2 is connected. The free portion 2a of the sheet portion 2 and the contact portion with the sheet layer portion 52 are heat-sealed [see FIGS. 7(A) and 8(E)]. Here, the heat fusion work between the free portion 2a of the connecting sheet section 2 and the sheet layer section 52 can be performed linearly along the longitudinal direction (X direction) of the solar frame A. Therefore, in thermal fusion along the longitudinal direction (X direction) of the solar frame A, work efficiency can be improved by using a self-propelled thermal fusion machine.

By doing this, the fasteners 8 such as screws (especially around the screw head) that fasten the seat plate part 1c of the solar frame A onto the sheet-like roof 5 can be attached to the connecting sheet part 2 and the sheet-like roof 5. It becomes covered by heat fusion bonding with the layer part 52, and the waterproofness of the eight fixing parts is ensured. Heat fusion bonding is also performed on the inclined side portion 1b of the frame body 1 of the solar frame A, the covering sheet portion 12 in the seat plate portion 1c, and the free portion 2a of the connecting sheet portion 2, so that High waterproofness can be ensured.

Further, a double-sided tape n is pasted on the upper surface side of both seat plate parts 1c and 1c of the solar frame A, and the upper surface of the seat plate part 1c and the free part 2a of the connecting sheet part 2 are pasted together via the double-sided tape n. In some cases, it may arrive [see Figure 1(B)]. As a result, although the seat plate portions 1c and 1c and the free portion 2a are not heat-sealed, the free portion 2a at the non-heat-sealed portion is also adhesively fixed onto the seat plate portion 1c and stabilized. can be in a state.

Further, an end surface door 3 is attached to the longitudinal direction (X direction) end of the solar frame A, and is further finished with an end closing sheet part 4. Furthermore, a strip-shaped connection sheet portion 42 is provided at a connection point between the solar frames A in the longitudinal direction (X direction) of the solar frames A. In this way, a plurality of solar frames A, A, . . . are arranged in parallel on the sheet layer portion 52 of the sheet roof 5. A panel mount 6 is installed on the top portion 1a of these solar frames A arranged in parallel, and a solar panel 7 is arranged on the panel mount [see FIGS. 7(B) and 8(F)].

A...Solar frame, 1...Frame body, 1a...Top part, 1b...Slanted side part,
1c...Seat plate part, 11...Base part 11, 12...Covering sheet part, 2...Connection sheet part,
2a...Free portion, 3...End surface door, 41...End closing sheet part, 42...Band-shaped connecting sheet part,
5...Sheet roof, 51...Insulating base material, 52...Sheet layer portion, 53...Deck plate,
6...Panel mount, 7...Solar panel, 8...Fixing tool, n...Double-sided tape.

Claims (7)

A sheet-like roof consisting of a heat-insulating base material, a deck plate placed on the lower surface of the heat-insulating base material, a heat-sealable sheet layer portion placed on the top surface of the heat-sealing base material, and a sheet roof extending downward from both sides of the top in the width direction. A frame body consisting of an inclined side portion and seat plate portions formed on both sides in the width direction from the lower ends of the inclined side portions, and a frame body provided with a heat-sealed covering sheet portion on the surface side; a solar frame comprising a connecting sheet part heat-sealed to an upper position of the side part and extending from the inclined side part outward beyond the outer end of the seat plate part; The solar frame is provided with a panel mount and a solar panel arranged and fixed on the top, the solar frame is arranged on the sheet-like roof, the seat plate part is fixed on the sheet-like roof via a fixing device, and the connecting sheet A solar roof device characterized in that a solar panel is heat-sealed to a sheet layer portion of the sheet roof, and the solar panel is placed on the top of the solar frame via the panel frame. 2. The solar roof device according to claim 1, wherein an end-closing sheet portion is disposed to close a longitudinal end of the solar frame, and the longitudinal end of the solar frame and the sheet roof are connected to the sheet layer portion. A solar roof device characterized by being coated by heat fusion. 3. The solar roof device according to claim 1, wherein the frame main body of the solar frame is formed into a trapezoid by the top portion and both the sloped side portions. 3. The solar roof device according to claim 1, wherein a double-sided tape is attached to the lower surface of both the seat plates of the solar frame. In claim 1 or 2, a double-sided tape is attached to the upper surface side of both the seat plate parts of the solar frame, and the upper surface of the seat plate part and the connecting sheet parts are attached to each other via the double-sided tape. A solar roof device characterized by: 3. The solar panel according to claim 2 , wherein an end face door for closing an opening is fixed to the longitudinal end of the solar frame, and the end face door is covered with the end closing sheet portion. roof equipment. In claim 1 or 2, when a plurality of the solar frames are arranged in series in the longitudinal direction, a strip-shaped connecting sheet portion is provided, and opposing ends of both the solar frames are connected to each other by the strip-shaped connecting sheet portion. The top portion, both of the sloping side portions, and both of the seat plate portions are coated by heat fusion, and both ends in the longitudinal direction of the band-shaped connecting sheet portion are heat fused to the sheet layer portion of the sheet roof. A solar roof device characterized by being covered with.

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