KR20220033767A - Apparatus for manufacturing a double wall pipe having expansion - Google Patents

Abstract

The present invention provides a solar roof structure which comprises: a solar panel; a fixed body connected to two or more fixed structures fixed to a structure in which a solar roof is formed and configured to enable installation angle adjustment of the solar panel; and a connection unit detachable from a predetermined portion of the solar panel configuring a solar panel structure, fastened to the fixed body connected to the fixed structures, and fastened to the fixed body to enable the solar panel to slidingly move in a horizontal direction based on the fixed body.

Description

Solar roof structure {Apparatus for manufacturing a double wall pipe having expansion}

The present invention relates to a solar roof structure required for solar power generation.

In general, a container is made of a metal material to protect and transport the cargo stored inside. In the past, it has been used as a means to transport cargo efficiently, economically and safely, but in recent years, , gas, etc. are installed and used for various purposes such as warehouses, restaurants, and houses.

Due to the advantages of such containers, farmhouses store agricultural tools, seeds, fertilizers, etc., and are used as farmhouses installed on farmland to take a break for a while.

However, in the case of containers installed on farmland, it is difficult to supply electricity, so facilities that can generate electricity are required. Among them, solar cell modules, which are natural energy that can be easily generated and used, are increasingly installed.

However, when the solar cell module is installed in the container, there is a risk of damage during transportation, so the solar cell module and various equipment are transported and installed to the site where the container is installed. In most cases, the method used was to make a hole in the upper surface of the container, fix the bracket using fastening members such as bolts and nuts, and fix the support that supports the solar cell module to the bracket. As the strength of the part where the hole was drilled was weakened, a separate reinforcing plate had to be installed to prevent it from being deformed or damaged even in strong winds. .

Accordingly, although it is somewhat cumbersome, a method of transporting the generator and welding equipment to the place where the container is installed and welding a bracket fixed to the upper surface of the container and a support for supporting the solar cell module to the bracket were used, but even at this time, heavy equipment is transported In addition to the problem that must be done, once the solar cell module is installed in the container, it is difficult to dismantle it, which limits the use of the container for other purposes.

The present invention provides a photovoltaic roof structure for improving the installability of a roof type photovoltaic system.

In order to achieve the above object to be solved, the solar roof structure according to an embodiment of the present invention is connected to a solar panel and at least two or more fixing structures fixed to the structure in which the solar roof is formed, the solar panel A fixed body capable of adjusting the installation angle of the photovoltaic panel structure, detachable from a predetermined portion of the photovoltaic panel constituting the photovoltaic panel structure, and fastened to a fixed body connected to the fixed structure, the photovoltaic panel based on the fixed body It may include a connection part fastened to the fixed body so that the sliding movement in the left and right direction.

According to an embodiment of the present invention, the solar panel has a first shape so that the left side can be combined with the right side of the other solar panel, and the right side of the solar panel is formed on the left side of the other solar panel Having a second shape that can be combined with the first shape, and forming a photovoltaic panel structure through the coupling between the at least two or more photovoltaic panels, wherein the connection part is located at both ends of the photovoltaic panel structure. It can be connected to the left and right lower parts of the panel.

According to an embodiment of the present invention, the solar panel may include at least one connection hole formed in left and right lower portions, and the connection part may be connected to the solar panel through the connection hole.

According to an embodiment of the present invention, the connection part may be adhered to the left and right lower rear surfaces of the solar panel through an adhesive.

According to an embodiment of the present invention, at least one or more supports installed on the upper rear portion of the solar panel structure to support the solar panel structure may be further included.

According to an embodiment of the present invention, the solar roof structure is formed using a first solar panel structure composed of at least one solar panel and a second solar panel structure composed of at least one or more panels, The first solar panel structure and the second solar panel structure may further include at least one upper end connecting portion for coupling in an inclined form.

According to an embodiment of the present invention, the structure may be a container, and the fixing structure may be a corner casting formed at each corner of the container.

According to an embodiment of the present invention, the fixture includes an insertion coupling member fitted to an upper portion of the corner casting, a first fixing member connected to the insertion coupling member, and one side of the first fixing member and hinged, A second fixing member rotated based on the first fixing member, one side is connected between one side of the first fixing member and the insertion coupling member, and the other side is connected on the second fixing member to the second fixing member It may include an angle adjusting member for adjusting the angle of the member.

According to an embodiment of the present invention, the connecting portion has one surface of the guide member coupled to one surface of the second fixing member, one surface is fixedly coupled to the solar panel, and the other surface is slidably movable based on the guide member. A sliding body coupled to the guide member may be provided.

According to an embodiment of the present invention, the guide member has a coupling hole, and the connection part further includes a bracket having a plurality of fastening holes that can be fastened based on the coupling hole and the fastening means, and the second The fixing member has a fixing hole, and any one of the fixing hole, the coupling hole, and the plurality of fastening holes may be fastened to the guide member based on a fastening means.

According to an embodiment of the present invention, the connecting portion includes a guide member having one surface coupled to the fixture, one surface being fixedly coupled to the solar panel, and the guide member having the other surface slidably movable based on the guide member. A sliding body to be coupled may be provided.

According to the above-described embodiment of the present invention, by enabling left and right assembly between solar panels and forming a solar roof based on this, it is possible to improve the assembling property of the solar system.

1 is a view showing a front part of a solar panel for forming a solar roof according to an embodiment of the present invention.
2 is a view showing a rear portion of a solar panel for forming a solar roof according to an embodiment of the present invention.
3 is a view for explaining a structure of a connection part connected to a solar panel for forming a solar roof according to an embodiment of the present invention.
4 is a view showing a coupling relationship of a solar panel for forming a solar roof according to an embodiment of the present invention.
5 is a view showing a container as a structure in which a solar roof structure according to an embodiment of the present invention will be formed.
6 is a view for explaining a fixture according to an embodiment of the present invention.
7A to 7C are views for explaining a process in which a fixture according to an embodiment of the present invention is coupled to a corner casting.
8 is a view showing a solar roof structure according to an embodiment of the present invention.
9 is a view showing a solar roof structure according to another embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described with reference to the drawings. The following detailed description is provided to provide a comprehensive understanding of the methods, devices, and/or systems described herein. However, this is merely an example, and the present invention is not limited thereto.

In describing the embodiments of the present invention, if it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. And, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users and operators. Therefore, the definition should be made based on the content throughout this specification. The terminology used in the detailed description is for the purpose of describing embodiments of the present invention only, and should in no way be limiting.

Hereinafter, a solar panel and a solar roof using the same will be described with reference to the accompanying drawings.

1 is a view showing a front part of a solar panel for forming a solar roof according to an embodiment of the present invention, FIG. 2 is a view showing a rear part of a solar panel for forming a solar roof according to an embodiment of the present invention 3 is a view for explaining the structure of a connection part connected to a photovoltaic panel for forming a photovoltaic roof according to an embodiment of the present invention, and FIG. 4 is a photovoltaic roof formation according to an embodiment of the present invention It is a view showing the coupling relationship of the solar panel for , Figure 5 is a view showing a structure that is a structure in which a solar roof structure according to an embodiment of the present invention will be formed, Figure 6 is a view showing the solar panel according to an embodiment of the present invention It is a view for explaining a fixed body, Figures 7a to 7c is a view for explaining a process in which the fixture according to an embodiment of the present invention is coupled to the corner casting.

1 to 3 , the solar panel 100 according to an embodiment of the present invention is connected to at least one or more fixtures 200 fixed to the top of the structure, and is formed on the rear surface of the fixture. A connection part 110 connected to the fixed body 200 may be provided so as to be movable left and right with reference to 200 .

The solar panel 100 may have a connection hole 102 for fastening with the connection part 110 . Specifically, the solar panel 100 has two or more connection holes 102 for fastening with the connection unit 110 in the lower left portion and two or more connection holes for fastening with the connection unit 110 in the lower right portion. (102) may be provided.

In addition, the plurality of connection holes 102 may be closed by a cap (not shown) that is detachable when connected to the connection part 110 . That is, when connection of the connection part 110 is required, the cap is removed and the fastening member 114a of the connection part 110 is inserted into the connection hole 102 and then fastening means (not shown) to the fastening member 114a. ), the connection unit 110 and the solar panel 100 can be combined.

On the other hand, the solar panel 100 may be provided in a state in which the connection part 110 is fastened. Specifically, the solar panel 100 in a state in which the connection unit 110 is coupled to the connection hole 102 may be provided.

In an embodiment of the present invention, the connection part 110 is a member for fastening to the rear portion of the solar panel 100 , for example, a rear edge portion (a portion in which the fastening hole 102 is formed) of the solar panel 100 ). It can be detached through Specifically, the connection unit 110 may be provided in a detachable form on the rear surface of the solar panel 100 or may be provided in the form of a separate component.

In addition, the connection part 110 may be attached to the rear surface of the solar panel 100 . Specifically, the connection unit 110 may be attached to the rear surface of the solar panel 100 using an adhesive, for example, a user's desired rear surface portion, left and right lower edge portions, and the like.

In addition, the solar panel 100 has a first shape 104 that one side can be coupled to the other side of the other solar panel 100 for compatibility with the other solar panel 100, The other side may have a second shape 106 that can be coupled and fastened to one side of the other solar panel.

For example, when the first shape 104 is a “L” shape, the second shape 106 may be a “L” shape, or when the first shape 104 is a protruding shape, the second shape 106 is It may have a groove shape, but is not limited thereto.

Through this, as shown in FIG. 4 , two or more solar panels 100 may be combined in a left direction or a right direction to form a solar panel structure 20 . Specifically, when a solar panel 100 having a right side of the first shape 104 and a left side of the second shape 106 is used, by coupling at least two solar panels 100 to each other, the horizontal direction It is also possible to form the solar panel structure 20 of the expanded form. In this case, the connection part 110 is fastened to the lower left edge of the photovoltaic panel 100 at the left end of the photovoltaic panel structure 20 , and the sunlight at the right end of the photovoltaic panel structure 20 . It may be fastened to the lower right edge of the panel 100 .

In addition, when three or more photovoltaic panels 100 are connected to form the photovoltaic panel structure 20 , the connecting part 110 is the photovoltaic panel 100 at the left end of the photovoltaic panel structure 20 . It is fastened to the lower left edge, and is fastened to the lower right edge of the solar panel 100 at the right end in the solar panel structure 20 as well as additionally disposed in the center portion in the solar panel structure 20 It may also be fastened to the left and right lower portions of the solar panel 100 .

According to the embodiment of the present invention as described above, it has been described as an example to provide a solar panel 100 having a right side of the first shape 104 and a left side of the second shape 106, A solar panel 100 may be provided having first and second shapes 104 , 106 on top and bottom sides, and first and second shapes 104 , 106 on right and left sides. Through this, the solar panel 100 may be coupled to each other in the vertical direction as well as in the left and right directions to form the solar panel structure 20 .

On the other hand, when using the solar panel 100 having the upper side of the first shape 104 and the lower side of the second shape 106 by coupling at least two solar panels 100 to each other, the vertical direction It is also possible to form the solar panel structure 20 of the expanded form. In this case, the connection part 110 may be fastened to the left and right lower edges of the first solar panel 100 in the solar panel structure 20 .

On the other hand, using the solar panel 100 having first and second shapes 104 and 106 on the upper and lower side surfaces, and first and second shapes 104 and 106 on the right and left sides, the sunlight When the panels 100 are coupled to each other, the solar panel structure 20 of the horizontal and vertical directions may be formed.

In this case, a plurality of connection units 110 may be fastened to the lower rear surface of the solar panel 20 in order to stably connect and support the solar panel structure 20 to the fixture 200 .

In an embodiment of the present invention, the connection part 110 is, as shown in FIG. 3 , a guide member 112 having one surface coupled to the fixed body 200 and the other surface being fixedly coupled to the solar panel 100 and , it may be made of a sliding body 114 coupled to the guide member so that one surface is slidably movable with respect to the guide member 112 .

At this time, the guide member 112 is provided with a coupling hole 112a corresponding to the hole (not shown) of the fixture 200, and a predetermined fastening means (not shown) by matching the coupling hole 112a and the hole. ), for example, may be fixed to the fixture 200 using a screw.

The sliding body 114 is coupled to enable sliding movement (left and right movement) based on the guide member 112 , and may be detachably attached to the rear surface of the solar panel 100 . To this end, the sliding body 114 may include at least two fastening members 114a on the upper surface, that is, on the surface detachably attached to the rear surface of the solar panel 100 .

In an embodiment of the present invention, the fastening member 114a may be a hole corresponding to the connection hole 102 formed in the solar panel 100 or an adhesive material attached to the rear surface of the solar panel 100 . Here, when the fastening member 114a is in the form of a hole, after matching the fastening member 114a and the connecting hole 102, the solar panel 100 is connected to the connecting part 110 by using a bolt and a screw. The main body 114 may be connected.

Meanwhile, the guide member 112 of the connection part 110 according to an embodiment of the present invention may be coupled to the fixing body 200 through a predetermined bracket 116 .

In this case, the bracket 116 has at least two fastening holes 116a, and coincides with the coupling hole 112a of the guide member 112, any one of the fastening holes 116a and the hole of the fixing body 200. Thus, the connection part 110 can be fastened to the fixture 200 using a predetermined fastening means (eg, a screw).

In the embodiment of the present invention, the fixing body 200 is formed at a predetermined angle, for example, the fixing structure 300 formed on the top of the structure in a inclined form as much as the installation angle of the solar panel 100 or the solar panel structure 20. can be coupled to

In an embodiment of the present invention, when the structure corresponds to the container, the fixed structure 300 may be a corner casting as shown in FIG. 5 . That is, the fixing structure 300 may be a corner casting, which is the fixing structure 300 formed in the corner portion of the container.

Accordingly, the fixing body 200 may be coupled to each corner casting, and the fixing body 200 and the connecting part 110 may be coupled to each other. That is, in the embodiment of the present invention, the fixture 200 may be coupled to the corner casting of the container in a form inclined by a predetermined angle, for example, the installation angle of the solar panel 100 or the solar panel structure 20 . In addition, it may be coupled to the corner casting to adjust the installation angle of the solar panel 100 or the solar panel structure 20 .

In order to be coupled to the corner casting, the fixing body 200 is, as shown in FIG. 6 , an insertion coupling member 210 fitted to an upper portion of the corner casting, and a first fixing member connected to the insertion coupling member 210 . (220), and a second fixing member 230 that is hingedly coupled to one side of the first fixing member 220 and rotates based on the first fixing member 220, and one side of the first fixing member 220 and One side is connected between the insertion coupling members 210 , and the other side is connected on the second fixing member 230 to include an angle adjusting member 240 for adjusting the angle of the second fixing member 230 .

In the embodiment of the present invention, the insertion coupling member 210 may be composed of a first member 210a coupled to the upper inner side of the corner casting, and a second member 210b in contact with the upper surface of the corner casting.

Through this configuration, as shown in FIGS. 7A to 7C , when the insertion coupling member 210 is fitted on the upper part of the corner casting, the first member 210a is inserted into the upper inner side of the corner casting and then the second member ( 210b) can be coupled to the corner casting by pushing it in the outward direction (direction A) in a state positioned on the upper surface of the corner casting.

On the other hand, the angle adjusting member 240 is a part of the first fixing member 220, that is, one end is rotatably coupled to the first fixing member 220 between the second member 210b and the second fixing member 230. The first rotating member 240a that becomes a, one end is rotatably connected to the other end of the first rotating member 240a with respect to the first rotating member 240a, and the other end is based on the end of the first rotating member 240a It may include a second rotation member 240b coupled to a portion of the second fixing member 230 to be rotatable. The angle of the second fixing member 230 can be freely adjusted by using the first and second rotation members 240a and 240b.

In this case, the guide member 112 of the connection part 110 may be coupled to one surface of the second fixing member 230 .

Through the structure as described above, the fixing body 200 is fixed to the corner casting of the container, is connected to the guide member 112 of the connection part 110 in a state inclined at a predetermined angle, and the sliding body of the connection part 110 . By moving the photovoltaic panel 100 coupled to 114 left and right and combining it with the neighboring photovoltaic panel 100, a photovoltaic roof structure can be formed.

A solar roof structure installed using the above-described configuration will be described with reference to FIGS. 8 to 9 .

8 is a view showing a solar roof structure according to an embodiment of the present invention.

As shown in FIG. 8 , in order to form a solar roof structure 400 , the fixture 200 may be coupled to at least two or more fixing structures 300 formed in the upper left and right corners of the structure. In this case, the fixing body 200 may be coupled to each of the fixing structures 300 in a state in which the angle is adjusted to match the installation angle of the solar panel structure 20 .

Then, the guide member 112 of the connection part 110 is connected to the second fixing member 230 of the fixing body 200 .

Then, the sliding body 114 is coupled to the guide member 112 , and the solar panel 100 is connected to the sliding body 114 using the fastening member 114a of the sliding body 114 .

By performing this process, the connection part 110 is connected to each fixture 200, the solar panel 100 is connected to the connection part 110, and then each solar panel using the sliding body 114 ( The solar roof structure 400 can be formed by connecting the solar panels 100 to each other by sliding 100 in the left and right directions.

At this time, a plurality of supports 410 for supporting the photovoltaic panels 100 on the ground are installed at the upper end of the rear part of the photovoltaic panel structure 20 made of the photovoltaic panel 100 of the photovoltaic roof structure 400 . can be

9 is a view showing a solar roof structure according to another embodiment of the present invention.

As shown in FIG. 9 , the solar roof structure 500 may be formed in a container. That is, the solar roof structure 500 is based on the first solar panel structure 30 formed based on the corner casting formed on the two corner portions in the horizontal direction of the container and the corner casting formed on the other two corner portions. It may be composed of the formed second solar panel structure 40 .

To this end, the photovoltaic roof structure 500 according to another embodiment of the present invention has an upper connection part 510 for interconnecting upper portions of the first solar panel structure 30 and the second solar panel structure 40 . ) may be further included.

In this case, the upper connection part 510 is the first solar panel structure 30 and the second solar panel structure based on the upper portion where the first solar panel structure 30 and the second solar panel structure 40 meet. It is possible to enable rotational movement of (40). Through this, the angle of the solar roof formed by the first solar panel structure 30 and the second solar panel structure 40 may be changed.

To this end, the fixture 200 may be coupled to a corner casting formed in each corner portion of the container. At this time, the fixture 200 may be coupled to each corner in a state in which the angle is adjusted to match the installation angle of the first solar panel structure 30 and the second solar panel structure 40 .

Then, the guide member 112 of the connection part 110 is connected to the second fixing member 230 of the fixing body 200 .

Then, the sliding body 114 is coupled to the guide member 112 , and the solar panel 100 is connected to the sliding body 114 using the fastening member 114a of the sliding body 114 .

By performing this process, the connection part 110 is connected to each fixture 200, the solar panel 100 is connected to the connection part 110, and then each solar panel using the sliding body 114 ( By sliding and moving the solar panels 100 in the left and right directions, the solar roof structure 500 can be formed.

The above description is merely illustrative of the technical idea of the present invention, and various modifications and variations are possible by those skilled in the art to which the present invention pertains without departing from the essential characteristics of the present invention. Accordingly, the embodiments expressed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed by the following claims, and all technical ideas that are equivalent to or within the equivalent range should be construed as being included in the scope of the present invention.

20: solar panel structure
100: solar panel
102: hole for connection
110: connection part
112: guide member
112a: coupling hole
114: sliding body
114a: member for fastening
116: bracket
200: fixed body
210: insertion coupling member
210a, 210b: first and second members
220: first fixing member
230: second fixing member
240: angle adjustment member
240a, 240b: first and second rotation members
300: structure

Claims (11)

In the solar roof structure,
solar panels and
A fixed body connected to at least two or more fixed structures fixed to a structure in which a solar roof is formed, and the installation angle of the solar panel can be adjusted;
It is possible to attach and detach to a predetermined portion of the solar panel constituting the solar panel structure, and is fastened to a fixture connected to the fixed structure, the high A solar roof structure comprising a connection that is fastened to a stagnant.
According to claim 1,
The solar panel is
The left side has a first shape so that it can be combined with the right side of the other solar panel, and the right side of the solar panel has a second shape that can be combined with the first shape formed on the left side of the other solar panel have,
Forming a solar panel structure through the bonding between the at least two or more solar panels,
A solar roof structure for connecting the connecting portion to the lower left and right lower portions of the solar panel located at both ends of the solar panel structure.
3. The method of claim 1 or 2,
The solar panel is
and at least one connection hole formed in the left and right lower portions,
The connection part,
A solar roof structure, characterized in that it is connected to the solar panel through the connection hole.
3. The method of claim 1 or 2,
The connection part,
A solar roof structure, characterized in that it is adhered to the left and right lower rear portions of the solar panel through an adhesive.
3. The method of claim 2,
The solar roof structure further comprising a support that is installed at least one or more on the upper rear portion of the solar panel structure to support the solar panel structure.
3. The method of claim 2,
The solar roof structure,
A first solar panel structure composed of at least one or more solar panels, and
It is formed using a second solar panel structure composed of the at least one panel,
The photovoltaic roof structure further comprising at least one upper connection part for coupling one surface of the first solar panel structure and the second solar panel structure in an inclined form.
7. The method of claim 6,
The structure is a container, and the fixed structure is a solar roof structure that is a corner casting formed at each corner of the container.
8. The method of claim 7,
The fixture is
an insertion coupling member fitted to an upper portion of the corner casting;
a first fixing member connected to the insertion coupling member;
A second fixing member that is hinge-coupled to one side of the first fixing member and is rotationally moved based on the first fixing member;
One side of the first fixing member is connected between one side of the first fixing member and the insertion coupling member, the other side is connected to the second fixing member, the solar roof structure comprising an angle adjusting member for adjusting the angle of the second fixing member .
9. The method of claim 8,
The connection part,
a guide member having one surface coupled to one surface of the second fixing member;
A solar roof structure having a sliding body having one surface fixedly coupled to the solar panel and the other surface coupled to the guide member so as to be slidably movable based on the guide member.
9. The method of claim 8,
The guide member has a coupling hole,
The connection part,
Further comprising a bracket having a plurality of fastening holes that can be fastened based on the coupling hole and fastening means,
The second fixing member,
A solar roof structure having a fixing hole, wherein any one of the fixing hole, the coupling hole, and the plurality of fastening holes is fastened to the guide member based on a fastening means.
3. The method of claim 2,
The connection part,
a guide member having one surface coupled to the fixed body;
A solar roof structure having a sliding body having one surface fixedly coupled to the solar panel and the other surface coupled to the guide member so as to be slidably movable based on the guide member.

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