KR102497901B1 - Roof fixed installation structure of solar module - Google Patents

Abstract

The present invention relates to a roof fixing installation structure of a solar module. The roof fixing installation structure of the solar module comprises: a roof panel (91) in which a plurality of reinforcing protrusion portions (92) are formed at predetermined intervals; a lower bracket (20) closely attached to an upper portion of the roof panel (91); an upper bracket (10) fixed to an upper side of the lower bracket (20); and a quadrangular tube body (30). Therefore, the present invention can stably maintain an installation state of the structure.

Description

Roof fixed installation structure of solar module}

The present invention relates to a fixed installation structure for a roof of a photovoltaic module, and more particularly, a lower bracket adhered to a reinforcing protrusion of a roof panel formed of a sandwich panel, and a quadrangular space by fixing the upper bracket to the upper portion of the lower bracket. By forming a part, combining a square tube body on the square space part, and combining the legs of the solar panel on the square tube body to increase the adhesion between the structures, the installation state of the structure is stable. It relates to a roof fixing installation structure of a photovoltaic module that enables easy assembly and disassembly by means of a close contact structure and fastening bolts as well as being able to be maintained.

Energy consumption in countries around the world, including Korea, is increasing every year, and greenhouse gas emissions due to energy use are also rapidly increasing in proportion to energy consumption. Accordingly, the development of eco-friendly alternative energy has long been a major concern in each country's energy retention policy, and the need and importance of alternative energy development is increasing year by year.

In recent years, in view of the above situation, technology development has been actively conducted to install solar cell-integrated solar module panels on the roofs of buildings and to use the eco-friendly energy obtained from the solar modules in buildings. are losing

However, since most of the existing solar module installation structures are installed in a structure in which the legs supporting the solar modules are directly fixed on the roof, stable fixation is not secured, and it is difficult to generate support against shaking. there was.

Registered Patent No. 10-2452995

Therefore, the present invention was invented to eliminate the above problems, and a lower bracket that is in close contact with the reinforcing protrusion of a roof panel formed of a sandwich panel, and a quadrangular space by fixing the upper bracket to the upper part of the lower bracket to form a space, The quadrangular tube body is combined on the quadrangular space, and the solar panel leg body is combined on the quadrangular tube body to increase the adhesion between the structures, so that the installation state of the structure can be stably maintained. In addition, it was completed as a technical task with an emphasis on the roof fixing installation structure of the photovoltaic module that facilitates assembly and disassembly by close contact structure and fastening bolts.

The present invention for achieving the above technical problem, in constituting a roof fixing installation structure of a solar module, a plurality of reinforcing protrusions 92 are formed at regular intervals roof panel 91; a lower bracket 20 closely adhered to an upper portion of the roof panel 91 including the reinforcing protrusion 92; The lower brackets 20 include floor supports 21 horizontally adhered to the upper surface of the roof panel 91 from the inclined lower points 7 on both sides of the reinforcing protrusions 92, and the inner side of the floor supports 21 on both sides. The inclination table 23 extending along the inclined surface of the reinforcing protrusion 92 and in close contact with the inclined surface, the lower flange part 25 horizontally extending outward from the upper end of the inclined ramp 23 in close contact on both sides, and the both sides It is composed of a connecting rod 27 connected to the facing inner surface of the connecting rod 23 and in close contact with the upper surface of the reinforcing protrusion 92, and the lower reinforcing protrusion 92 is formed from the through hole 27a on the connecting rod 27. an upper bracket 10 fixed on the roof panel 91 by fastening bolts 73 penetrating the roof panel 91 and fixed to the upper side of the lower bracket 20; The upper bracket 10 is in close contact with the upper surfaces of the lower flange parts 25 on both sides, and the upper flange parts 11 are fixed to each other by fastening bolts 72, and the upper flange parts 11 on both sides. It consists of a vertical stand 13 extending vertically upward from the inner end and a horizontal stand 15 connecting the upper ends of the both sides of the upright stand 13, so that the horizontal stand 15 and the both sides of the vertical stand 13 And a quadrangular space is formed by the connecting rod 27, and along the reinforcing protrusion 92 in a state in which a plurality of lower brackets 20 and upper brackets 10 are coupled on the reinforcing protrusion 92. A quadrangular tube body 30 provided in close contact with a plurality of arrayed quadrangular spaces through penetration; The quadrangular tube body 30 is fixed to each other by coupling bolts 71 to the through holes 15a and 30a formed on the upper surface of the horizontal base 15 and the quadrangular tube body 30, and the quadrangular tube body ( 30), including configuring the leg body 81 of the solar panel to be vertically coupled, and the connecting rod 27 of the lower bracket 20 to be positioned horizontally at a lower height than the lower flange portion 25 And, the horizontal inner end of the lower flange part 25 is formed to protrude more inward than the horizontal inner end of the upper flange part 11, so that the lower surface of the rectangular tube body 30 is lower flange part 25 It is configured to be seated and closely adhered to the upper surface of the horizontal protrusion side, and the “C” type reinforcing body 97 is closely fixed to the lower end of the roof panel 91 located on the vertical lower side of the reinforcing protrusion 92, and the reinforcement The fastening bolt 73 penetrating the roof panel 91 including the lower reinforcing protrusion 92 from the through hole 27a on the connecting rod 27 closely attached to the upper surface of the protrusion 92 is a “C” type reinforcing body. It is configured to be fixed by passing through (97), and the reinforcing protrusion 92 is formed in a trapezoidal shape that is formed with a narrow upward direction from the lower side to the upper side, and the close-up inclined table 23 is formed in a corresponding trapezoidal shape, It is configured to be in close contact along the inclined surface of the reinforcing protrusion 92, and protruding rail parts 19 are formed on the inner side on the upright stand 13 on both sides of the upper bracket 10, respectively, and are in close contact with the upright stand 13 Rail grooves 39 into which the protruding rail parts 19 are inserted are formed on both side walls 31 of the rectangular tube body 30, respectively, on the upper bracket 10 in which the protruding rail parts 19 are formed. It is configured to secure the horizontal mobility of the rectangular tubular body 30 with the rail groove portion 39 formed thereon, and the spaced space portion 29 is formed between the lower surface of the rectangular tubular body 30 and the upper surface of the connecting rod 27. In addition, a moisture absorption pad 59 is provided on the spaced space portion 29 to prevent corrosion by absorbing moisture generated between the lower surface of the rectangular tube body 30 and the upper surface of the connecting rod 27. Solar energy characterized by constituting It provides a fixed installation structure for the roof of the module.

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In addition, a plurality of elastic springs 52 are provided vertically on the spaced space portion 29 to provide elasticity to each other against external force shaking, so that a stable installation state is maintained.

According to the present invention described above, a lower bracket adhered to the reinforcing protrusion of a roof panel formed of a sandwich panel, and an upper bracket fixed to an upper portion of the lower bracket to form a quadrangular space portion, There is an effect of stably maintaining the installation state of the structure by combining the square tube body and increasing the adhesion between the structures by combining the leg body of the solar panel on the square tube body.

In addition, there is an effect such as to facilitate assembly and disassembly by the close contact structure and fastening bolts.

1 is a perspective embodiment of a roof fixing installation structure of a solar module according to the present invention
Figure 2 is a cross-sectional embodiment of Figure 1
3 to 7 are examples of use according to the present invention
8 and 9 are examples of modified embodiments according to the present invention

Hereinafter, specific details for the implementation of the present invention will be described in more detail with reference to the accompanying drawings.

The present invention forms a quadrangular space by fixing a lower bracket adhered to a reinforcing protrusion of a roof panel formed of a sandwich panel, and an upper bracket on top of the lower bracket, and a quadrangular tube body is formed on the quadrangular space. Combined, and by combining the leg body of the solar panel on the square tube body to increase the adhesion between the structures, it is possible to stably maintain the installation state of the structure, and to assemble and It relates to a fixed installation structure for a roof of a photovoltaic module that facilitates disassembly. Referring to FIGS. 1 to 9, the roof panel 91, the lower bracket 20, the upper bracket 10, and the rectangular tube body 30 are made including

For the implementation of the present invention, a roof panel 91 is first provided as shown in FIGS. 3 and 6 . The roof panel 91 is formed with a plurality of reinforcing protrusions 92 at regular intervals for reinforcement.

The present invention is to implement a structure coupled to the reinforcing protrusion 92. Specifically, as shown in FIGS. 1 and 3, the upper part of the roof panel 91 including the reinforcing protrusion 92 A lower bracket 20 that is in close contact is provided.

As shown in FIGS. 1 and 3, the lower bracket 20 includes a floor support 21 horizontally adhered to the upper surface of the roof panel 91 from the inclined lower point 7 on both sides of the reinforcing protrusion 92, and A close-up ramp 23 that extends along the inclined surface of the reinforcing protrusion 92 from the inside of the bottom supports 21 on both sides and adheres to the inclined surface, respectively, and a lower plan that horizontally extends outward from the upper end of the close-up inclined base 23 on both sides, respectively. It consists of branches (25).

At this time, the floor support 21, the close contact ramp 23, and the lower flange portion 25 have a symmetrical shape on both sides, and a connecting rod 27 is provided to integrate them.

In addition, the reinforcing protrusion 92 is formed in a trapezoidal shape, which is formed in a narrow upward direction from the lower side to the upper side, and the close contact slope 23 is formed in a corresponding trapezoidal shape to the inclined surface of the reinforcing protrusion 92. It is configured to adhere closely along.

The connecting rod 27 is connected to the facing inner surface of the both sides close-fitting ramp 23 and is configured to be in close contact with the upper surface of the reinforcing protrusion 92, and as shown in FIG. 4, the through hole 27a on the connecting rod 27 It is fixed on the roof panel 91 by fastening bolts 73 penetrating the roof panel 91 including the lower reinforcing protrusion 92.

At this time, although not shown, protrusions are formed at regular intervals on the inner surfaces of the floor support 21, the close-inclined base 23, and the connecting rod 27 that are in close contact with the surface of the roof panel 91 including the reinforcing protrusion 92. In this case, since the protrusions are pressurized and adhered to the surface of the roof panel 91 including the reinforcing protrusions 92, it is possible to secure a greater fixing force between them, thereby increasing installation stability.

On the other hand, the upper bracket 10 is fixed to the upper side of the lower bracket 20.

The upper bracket 10 is in close contact with the upper surfaces of the lower flange parts 25 on both sides, and the upper flange parts 11 are fixed to each other by fastening bolts 72, and the upper flange parts 11 on both sides. It consists of a vertical stand 13 extending vertically upward from the inner end and a horizontal stand 15 connecting the upper ends of the both sides of the upright stand 13, so that the horizontal stand 15 and the both sides of the vertical stand 13 And a quadrangular space portion is formed by the connecting rod 27.

Under this structure, as shown in FIGS. 5 and 6, a plurality of quads arranged along the reinforcing protrusion 92 in a state in which a plurality of lower brackets 20 and upper brackets 10 are coupled on the reinforcing protrusion 92. A quadrangular tube body 30 is provided so that it penetrates and adheres to the space of the, at this time, the quadrangular tube body 30 is formed on the upper surface of the horizontal table 15 and the quadrangular tube body 30 as shown in FIG. Fastening bolts 71 are coupled to the through holes 15a and 30a and are fixed to each other.

And, as shown in FIG. 7, the leg body 81 of the solar panel is vertically coupled to the quadrangular tube body 30.

Due to the above configuration, it is easy to assemble and dismantle the solar panel on the roof, and also it is possible to easily replace the solar panel without disassembling the structure. In addition, by adjusting the length of the quadrangular tube body 30, it is easy to install a plurality of solar panels on the quadrangular tube body 30.

As a modified embodiment of the configuration of the present invention as described above, as shown in FIG. 2, the connecting rod 27 of the lower bracket 20 is positioned at a lower height than the lower flange portion 25, and the lower flange portion ( The horizontal inner end of 25) is formed to protrude more inward than the horizontal inner end of the upper flange part 11, so that the bottom surface of the rectangular tube body 30 is on the upper surface of the horizontally protruding side of the lower flange part 25. It is structured so that it fits snugly.

In this case, as shown in (b) of FIG. 2, a separation space 29 is formed between the lower surface of the rectangular tube body 30 and the upper surface of the connecting rod 27. At this time, as shown in FIG. 8, the moisture absorbing pad 59 is provided on the separation space 29 so that the moisture generated between the lower surface of the rectangular tube body 30 and the upper surface of the connecting rod 27 is absorbed By doing so, corrosion can be prevented.

In addition, when a plurality of elastic springs 52 are provided vertically on the spaced space portion 29, a stable installation state can be maintained by providing elasticity to each other against external force shaking.

When using the elastic spring 52, installation grooves (not shown) are provided on the lower surface of the rectangular tube body 30 and the upper surface of the connecting rod 27 to secure the vertical fixing stability of the elastic spring 52. It is desirable to form

In addition, as another modified embodiment, as shown in FIG. 4, a “C”-shaped reinforcing body 97 is tightly fixed to the lower end of the roof panel 91 located on the vertical lower side of the reinforcing protrusion 92, and the reinforcing protrusion 92 The fastening bolt 73 penetrating the roof panel 91 including the lower reinforcing protrusion 92 from the through hole 27a on the connecting rod 27 closely attached to the upper surface of (92) is a “C” type reinforcing body ( 97), it is possible to secure the installation fixing force of the lower bracket 20 and the upper bracket 10.

As another modified embodiment, as shown in FIG. 9, protruding rail parts 19 are formed on the inner side of the upright stand 13 on both sides of the upper bracket 10, respectively, and are in close contact with the upright stand 13. Rail groove parts 39 into which the protruding rail parts 19 are inserted are formed on both side walls 31 of the pipe body 30, and on the upper bracket 10 in which the protruding rail parts 19 are formed, the rail groove parts ( 39) can be configured to secure the horizontal mobility of the rectangular tube body 30 formed thereon. In addition, due to the formation of the protruding rail portion 19 and the rail groove portion 39, the reinforcing force against the bending of the upright stand 13 on both sides of the upper bracket 10 and the walls 31 on both sides of the square tube body 30 this increases

At this time, when a pair of rollers 58 are provided on both sides of the upper side of the connecting rod 27, the movement flexibility of the quadrangular tube body 30 is secured.

In addition, in order to support the load of the upper bracket 10, the quadrangular tube body 30, and the solar panel provided on the upper side of the lower bracket 20, the floor support 21 positioned in parallel horizontally as shown in FIG. ) And a vertical support portion 61 may be provided between the lower flange portion 25. At this time, the vertical support portion 61 may be formed in the form of a plate body or a rod, and may be provided with an elastic spring as necessary to secure greater resistance to external force.

According to the roof fixing installation structure of the photovoltaic module of the present invention as described above, the lower bracket adheres to the reinforcing protrusion of the roof panel formed of a sandwich panel, and the upper bracket is fixed to the upper portion of the lower bracket to form a quadrangular space. Forming, combining the square tube body on the square space, and combining the leg body of the solar panel on the square tube body to increase the adhesion between the structures to maintain the installation state of the structure stably In addition, assembly and disassembly are facilitated by the close contact structure and fastening bolts.

The present invention described above has been described with reference to one embodiment shown in the drawings, but this is only exemplary, and those skilled in the art can make various modifications and equivalent other embodiments therefrom. will have to be clarified. Therefore, the true technical protection scope of the present invention should be construed by the appended claims, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

10: upper bracket 11: upper flange
13: vertical bar 15: horizontal bar
20: lower bracket 21: floor support
23: contact ramp 25: lower flange
27: connecting rod 30: quadrangular tube body
81: leg body 91: roof panel
92: reinforcement protrusion

Claims (7)

In configuring the roof fixing structure of the solar module,
a roof panel 91 in which a plurality of reinforcing protrusions 92 are formed at regular intervals;
a lower bracket 20 closely adhered to an upper portion of the roof panel 91 including the reinforcing protrusion 92;
The lower brackets 20 include floor supports 21 horizontally adhered to the upper surface of the roof panel 91 from the inclined lower points 7 on both sides of the reinforcing protrusions 92, and the inner side of the floor supports 21 on both sides. The inclination table 23 extending along the inclined surface of the reinforcing protrusion 92 and in close contact with the inclined surface, the lower flange part 25 horizontally extending outward from the upper end of the inclined ramp 23 in close contact on both sides, and the both sides It is composed of a connecting rod 27 connected to the facing inner surface of the connecting rod 23 and in close contact with the upper surface of the reinforcing protrusion 92, and the lower reinforcing protrusion 92 is formed from the through hole 27a on the connecting rod 27. It is fixed on the roof panel 91 by the fastening bolt 73 penetrating the roof panel 91 including,
an upper bracket 10 fixed to the upper side of the lower bracket 20;
The upper bracket 10 is in close contact with the upper surfaces of the lower flange parts 25 on both sides, and the upper flange parts 11 are fixed to each other by fastening bolts 72, and the upper flange parts 11 on both sides. It consists of a vertical stand 13 extending vertically upward from the inner end and a horizontal stand 15 connecting the upper ends of the both sides of the upright stand 13, so that the horizontal stand 15 and the both sides of the vertical stand 13 And a quadrangular space is formed by the connecting rod 27,
In a state in which a plurality of lower brackets 20 and upper brackets 10 are coupled on the reinforcing protrusions 92, 4 provided to penetrate and closely adhere to the quadrangular space portions arranged along the reinforcing protrusions 92 each tubular body (30);
The quadrangular tube body 30 is fixed to each other by fastening bolts 71 coupled to the through holes 15a and 30a formed on the upper surface of the horizontal base 15 and the quadrangular tube body 30,
It is made by including configuring the leg body 81 of the solar panel to be vertically coupled on the quadrangular tube body 30,
The connecting rod 27 of the lower bracket 20 is positioned horizontally at a lower height than the lower flange portion 25, and the horizontal inner end of the lower flange portion 25 is higher than the horizontal inner end of the upper flange portion 11. It is formed to protrude further inward, so that the lower surface of the rectangular tube body 30 is configured to be seated and closely adhered to the upper surface of the horizontally protruding side of the lower flange portion 25,
A “C”-shaped reinforcing body 97 is tightly fixed to the lower end of the roof panel 91 located at the vertical lower side of the reinforcing protrusion 92, and the connecting rod ( 27) The fastening bolt 73 penetrating the roof panel 91 including the lower reinforcing protrusion 92 from the through hole 27a on the upper side is configured to pass through the “C” type reinforcing body 97 and be fixed,
The reinforcing protrusion 92 is formed in a trapezoidal shape with a narrow upward direction from the lower side to the upper side, and the close contact slope 23 is formed in a corresponding trapezoidal shape so as to adhere along the inclined surface of the reinforcing protrusion 92. make up,
On both side walls 31 of the quadrangular tube body 30, protruding rail parts 19 are formed on the inner side of the upper bracket 10 on both sides of the upright stand 13, and are in close contact with the upright stand 13. Rail groove parts 39 into which the protruding rail parts 19 are inserted are formed on the upper bracket 10 where the protruding rail parts 19 are formed, and the rail groove parts 39 are formed on the quadrangular tube body 30. It is configured to ensure horizontal mobility,
A spaced space 29 is formed between the lower surface of the quadrangular tube body 30 and the upper surface of the connecting rod 27, and a moisture absorption pad 59 is provided on the spaced space 29 to form a quadrangular shape. Roof fixed installation structure of a solar module, characterized in that configured to prevent corrosion by absorbing moisture generated between the lower surface of the tube body 30 and the upper surface of the connecting rod 27.
delete delete delete delete delete According to claim 1,
A roof fixed installation structure of a solar module characterized in that a plurality of elastic springs 52 are vertically provided on the spaced space portion 29 to provide elasticity to each other against external force shaking, thereby maintaining a stable installation state. .

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