KR200496640Y1 - Solar panel construction module for roof - Google Patents

Abstract

The present invention is to provide a solar panel construction module for a roof that can satisfy the construction conditions for a solar panel for a string roof while reducing material costs with a minimum number of parts.
That is, the present invention is provided with a plurality of C-beams 10 that are spaced apart on the roof panel 1 and support the solar panel P from the lower portion, and the C-beams 10 have an opening 11 As it is disposed toward the top, a plurality of supporting bent parts 20 protrude downward from the bottom surface 12 corresponding to the opening part 11, and the supporting bent parts 20 are formed on the surface of the roof panel 1 It is fastened by the fixture (J) in a grounded state, and the C-beam 10 is characterized in that it is provided to be spaced apart from the surface of the roof panel 1 by the protruding length of the supporting bent portion 20.
When using the solar panel construction module for the roof, the distance between the roof panel and the solar panel is at least 100mm apart by the sum of the longitudinal size of the C-beam and the longitudinal size of the support bend, so that the current roof solar panel construction conditions It is simply satisfied, and in particular, has the advantage of being able to stably fix the solar panel along with excellent field workability due to the installation structure using a single C-beam without additional component assembly.

Description

Solar panel construction module for roof}

The present invention is a solar panel construction module for a roof, and to explain this in more detail, it relates to a solar panel construction module for a roof that can satisfy the construction conditions of a solar panel for a string roof while reducing material costs with a minimum number of parts.

In recent years, as a substitute for fossil energy due to the depletion of fossil fuels and serious environmental pollution, etc., solar modules capable of obtaining pollution-free, noise-free and unlimited supply energy have been widely used. As the production efficiency is proportional to the area of the used solar panel, the economic feasibility is greatly reduced when installed on the general site. am.

And as roof-mounted solar modules are regulated to be installed at least 100mm away from the roof surface for future maintenance and ventilation while facilitating future maintenance and ventilation, various types of support members for installing solar modules away from the roof at the construction site are constantly being developed.

As an example, in the conventionally disclosed Patent Publication No. 10-2012-0043469, in fastening to the protruding bent portion of a roof panel having a plurality of upwardly protruding bent portions, the front/rear and lower portions form an open shape. A technique has been previously disclosed, including an upper support portion and a bracket provided with hooks on both sides of the upper support downward, and coupling bolts and nuts for pressing the hook portions on both sides to be fixed to the bent portion.

In addition, in Patent Publication No. 10-2012-0067789, which is another prior art, in fastening to the protruding bent parts of a roof panel having a plurality of upwardly protruding bent parts, the upper part so that the lower part, the front part, and the rear part form an open state. The second hanging plate in a state where the first hanging plate is supported on one side of the bent part among brackets provided with first and second hanging plates on both sides of the supporting plate and the upper supporting plate downward, respectively, and the hanging plates on both sides A technique including a coupling unit provided on the bent portion to maintain a state in which the bracket is fixed to the bent portion by pressing the bent portion has been previously proposed.

However, the prior art attempts to provide a bracket for installing an additional structure while maintaining the durability of the roof panel, but in constructing a photovoltaic power generation unit, the bracket is first installed on the roof panel, and the upper surface of the bracket is longitudinally After bolting the extended frame, as the frame is configured to support the photovoltaic unit, the number of construction parts increases, and each part must be assembled and coupled to each other at the site, resulting in a problem of deterioration in workability.

KR 10-2012-0043469 A (2012.05.04.) KR 10-2012-0067789 A (2012.06.26.)

In the present invention, a new technology has been invented to solve all the problems of the prior art, and the distance between the roof panel and the solar panel is at least 100mm apart by the sum of the longitudinal size of the C-beam and the longitudinal size of the support bend The solution of the present invention is to provide a roof solar panel construction module that can easily satisfy the current roof solar panel construction conditions.

In addition, the purpose is to provide a solar panel construction module for the roof that can stably fix the solar panel along with excellent field workability due to the installation structure using a single C-beam without additional component assembly.

In addition, although not separately described, other objects within the scope that can be inferred in view of the specific contents and claims for implementing the following design are also included in the overall task of the present invention.

As a specific means for solving the above-described problem, the present invention constitutes a solar panel construction module for a roof, but a plurality of Cs arranged spaced apart on the roof panel 1 to support the solar panel P from the lower part. A shaped steel 10 is provided, and the C-shaped steel 10 is arranged such that the open portion 11 faces upward, and a plurality of support bent portions 20 on the bottom surface 12 corresponding to the open portion 11 is formed to protrude downward, and the support bent portion 20 is fastened by the fixture J in a state of being grounded to the surface of the roof panel 1, and the C-beam 10 is extended by the protruding length of the support bent portion 20. It is characterized in that it is provided to be spaced apart from the surface of the roof panel (1).

At this time, the support bent portion 20 protrudes into an inclined tube 20A of an upper wide lower narrow shape, the size of which decreases toward the bottom, and a supporting surface 22 is provided at the bottom, or the support bent portion (20) is opposite to each other, one side is connected to the C-beam 10, and the other side is disposed to be inclined downward, and a pair of inclined plates (20B) and the lower end of the inclined plate (20B) are connected to each other to form a supporting surface (22) It is characterized by consisting of.

In addition, the sum of the vertical height of the C-beam 10 and the protruding height of the support bent portion 20 is 100 mm or more, and the support surface 22 is interviewed on the top of the roof panel 1, It is arranged to coincide with the position of the support beam 30 disposed at the bottom, and the fixture (J) is configured to simultaneously pass through the support surface 22, the roof panel 1 and the support beam 30 during construction to be fastened. to be

In addition, the supporting bent part 20 is integrally press-formed on the C-beam 10 by the mold part 100, and the mold part 100 is a lower plate on which the mold 112 is formed on the upper surface ( 110), the upper plate 120 installed to open and mold with the lower plate 110, and having an upper core 122 engaged with the mold 112 on the lower surface, and the upper and lower plate 110 ( 120) characterized in that it includes a feeding unit 130 for controlling the distance between the supporting bent parts 20 by adjusting the moving length of the C-beam 10.

According to the specific means for solving the above-mentioned problems, the present invention makes the distance between the roof panel and the solar panel at least 100mm by the sum of the longitudinal size of the C-beam and the longitudinal size of the support bend, so that the current roof solar light It has the advantage of being able to simply satisfy the panel construction conditions.

In particular, due to the installation structure using a single C-beam without additional component assembly, on-site constructability is excellent, so that the number of working hours can be significantly reduced and the solar panel can be stably fixed.

1 is a state diagram showing an example in which a solar panel construction module for a roof provided by the present invention is installed.
Figure 2 is a configuration diagram showing a solar panel construction module for a roof as a whole according to an embodiment of the present invention.
Figure 3 is a configuration diagram showing the support bending portion of the solar panel construction module for the roof.
Figure 4 is a configuration diagram showing a mold for forming a support bent portion of the solar panel construction module for the roof.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, in the description of the present invention, if it is determined that the subject matter of the present invention may be unnecessarily obscured as an obvious matter to those skilled in the art with respect to the related known function, the detailed description thereof will be omitted. Throughout the specification, when a part is said to be "connected" to another part, this includes not only the case where it is "directly connected" but also the case where it is "indirectly connected" with another member interposed therebetween. .

1 is a state diagram showing an example of an installed solar panel construction module for a roof provided by the present invention, and FIG. 2 is a configuration diagram showing an overall solar panel construction module for a roof according to an embodiment of the present invention.

The present invention relates to a solar panel construction module for roof, which is spaced at least 100mm between the roof panel and the solar panel by the sum of the vertical size of the C-beam and the vertical size of the support bend, so that the current roof solar panel It simply satisfies the panel construction conditions and, in particular, has excellent on-site workability due to the installation structure using a single C-beam without additional parts assembly, as well as C-beam (10) and supporting bending part to stably fix the solar panel Including (20), it is the main composition.

The solar panel P is mainly installed on the roof or rooftop of a house or various buildings, as shown in FIG. 1, and the current regulations stipulate that the construction be performed by lifting at least 100 mm from the roof panel 1.

The solar panel construction module for the roof according to the present invention is provided with a plurality of C-beams 10 that are arranged side by side and spaced apart on the roof panel 1 to support the solar panel P from the bottom, as shown in FIG. As shown, the C-beam 10 is provided to cross the support beam 30 disposed under the roof panel 1.

Here, the C-beam 10 is preferably formed as a standard product distributed on the market having width * length of '100mm * 50mm', '125mm * 50mm', and '150mm * 50mm'.

In addition, while the C-beam 10 is disposed such that the opening 11 faces upward, a plurality of support bent parts 20 having a predetermined interval on the bottom surface 12 corresponding to the opening 11 are downward A protrusion is formed.

The support bent portion 20 is firmly fastened by the fixture J in a state of being grounded to the surface of the roof panel 1, and the C-beam 10 extends to the roof panel 1 by the protruding length of the support bent portion 20. It is provided to be spaced apart from the surface.

For example, if the installation height (vertical height) of the C-beam 10 installed on the roof panel 1 is 50 mm, the supporting bent portion 20 has a height of at least 50 mm or more from the bottom surface 12 form an extrusion.

Accordingly, when the support bent portion 20 is installed in a state in which it is grounded on the surface of the roof panel 1, the roof panel 1 and the The distance between the photovoltaic panels (P) is at least 100 mm apart, so that the current roof solar panel construction conditions can be satisfied.

With the above configuration, the solar panel construction module for roof provided by the present invention can be installed directly on the roof panel 1 using a single C-beam 10 without assembling additional parts. Due to the support bending portion 20, the construction stability of the solar panel P is secured, and there is an advantage in that material costs can be reduced and the construction period can be significantly shortened.

3 is a configuration diagram showing a bending support portion of a solar panel construction module for a roof.

Referring to FIG. 3 (a), the support bent portion 20 protrudes into an inclined tube 20A having an upper and lower narrow shape, the size of which decreases toward the bottom, so that the support surface 22 is formed at the bottom. It shows the equipped state. Meanwhile, although FIG. 3 (a) shows a state in which the supporting bent portion 20 is formed in a rectangular inclined tube 20A, it is not limited thereto and a configuration in which it is formed in a circular tube or other polygonal column shape is also possible.

As another embodiment of the support bending part, in FIG. 3 (b), the support bending part 20 is opposed to each other, one side is connected to the C-beam 10, and the other side is inclined downward. A pair of inclined plates (20B) ) and the bottom of the inclined plate 20B may be connected to each other to form a receiving surface 22.

The support surface 22 is interviewed on the upper part of the roof panel 1 and is arranged to coincide with the support steel 30 disposed under the roof panel 1, so that during construction, the fixture J is placed on the support surface 22, The roof panel 1 and the support beam 30 are simultaneously penetrated to achieve a solid fastening state.

In this way, as the support bent portion 20 is formed of an inclined pipe 20A or an inclined plate 20B in the shape of an upper wide and lower hip, compared to the lower area of the supported bent portion 20 in contact with the roof panel 1 The upper area connected to the C-beam 10 is formed to be expanded so that the solar panel P support load applied from the top is efficiently distributed, thereby improving durability.

4 is a configuration diagram showing a mold part for forming a support bent part of a roof solar panel construction module, and the support bent part 20 is integrally press-formed on a C-beam 10 by a mold part 100. .

The mold unit 100 has a lower plate 110 on which a mold 112 is formed on the upper surface, and an upper core installed to open and mold with the lower plate 110 and engage with the mold 112 on the lower surface. A feeding unit for controlling the distance between the supporting bent portion 20 by adjusting the longitudinal movement length of the C-beam 10 between the upper plate 120 provided with the 122 and the upper and lower plates 110 and 120 ( 130).

In operation, when the C-beam 10 is moved by a predetermined length by the feeding unit 130, the bottom plate 12 of the C-beam 10 is formed by the combination operation of the upper and lower plates 110 and 120. ) is press-formed to form the support bent portion 20, and then the C-beam 10 is moved by a predetermined length by the feeding portion 130 in a state where the upper and lower plates 110 and 120 are mold-opened. When the upper and lower plates 110 and 120 are molded together, the support bending portion 20 is continuously formed at predetermined intervals by repeatedly performing the process of matching operation.

4 shows a state in which the upper core 122 is disposed on the upper part and the mold 112 is disposed on the lower part, with the bottom plate 12 of the C-beam 10 located at the lower part, but this It is not limited, and a configuration in which the bottom plate 12 of the C-beam 10 is placed at the top, the upper core 122 is placed at the bottom, and the mold 112 is placed at the top is also possible.

As described above, the most preferred embodiment of the present invention has been described in the detailed description of the present invention, but various modifications and implementations are possible within a range that does not deviate from the technical scope of the present invention. Therefore, the scope of protection of the present invention should not be limited to the above embodiments, but the scope of protection should be recognized from the techniques of the claims to be described later and from these techniques to equivalent technical means.

1: roof panel
10: C-beam
11: opening 12: bottom surface
20: support bending part
20A: inclined pipe 20B: inclined plate
22: base
30: support beam
100: mold part
110: House version 112: Molding mold
120: Senate version 122: Sancore
130: feeding unit
J: fixture P: solar panel

Claims (5)

Support beams 30 are spaced apart from each other under the roof panel 1,
A plurality of C-beams 10 spaced apart on the roof panel 1 and supporting the solar panel P from the lower portion are provided to cross the supporting beams 30,
The C-beam 10 is disposed so that the opening 11 faces upward, and a plurality of supporting bent parts 20 protrude downward on the bottom surface 12 corresponding to the opening 11,
The support bent portion 20 is fastened by a fixture J in a state of being grounded to the surface of the roof panel 1, and the C-beam 10 extends to the surface of the roof panel 1 by the protruding length of the support bent portion 20. It is provided to be spaced apart from, the sum of the vertical height of the C-beam 10 and the protruding height of the support bent portion 20 is 100 mm or more,
The support bent portion 20 is opposed to each other, one side is connected to the C-beam 10, and the other side is disposed to be inclined downward, and a pair of inclined plates 20B and a support connecting the lower end of the inclined plate 20B to each other It consists of cotton 22,
The support surface 22 is interviewed on the top of the roof panel 1 and arranged to coincide with the position of the support beam 30, so that during construction, the fixture J is connected to the support surface 22, the roof panel 1 and the support A solar panel construction module for a roof, characterized in that it is configured to be fastened by penetrating the section steel 30 at the same time.
According to claim 1,
The support bending part 20 is integrally press-formed on the C-beam 10 by the mold part 100, and the mold part 100 is a lower plate 110 on which a molding mold 112 is formed on the upper surface And, the upper plate 120 installed to open and mold with the lower plate 110 and having an upper core 122 engaged with the mold 112 on the lower surface, and the upper and lower plates 110 and 120 Roof solar panel construction module, characterized in that it comprises a feeding unit 130 for controlling the distance between the supporting bent parts 20 by adjusting the length of movement of the C-beam 10 in the longitudinal direction between them.
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