KR102138147B1 - Snap-on roof plate assembly with cigs solar cell module - Google Patents

Abstract

The present invention relates to a fitted-coupled type roof plate assembly having a solar module applied thereto. Particularly, a roof plate and a support plate on which the solar module is mounted and fixed can be fitted and coupled without separate coupling pieces through a first clip file and a second clip file to improve workability, and the roof plate and the support plate are coupled in a form of teeth between the first and second clip files to improve wind pressure resistance. Moreover, the more smooth roof plate assembly can be completed by guiding various wiring of the solar module to a space unit formed between the roof plate and the support plate, and the temperature of the roof plate is prevented from being raised by circulating outside air through the space unit in which the wiring is guided, thereby increasing power generation efficiency of the solar module.

Description

SNAP-ON ROOF PLATE ASSEMBLY WITH CIGS SOLAR CELL MODULE}

According to the present invention, the roof plate and the support plate on which the solar module is mounted are fixed to be fitted without separate coupling pieces to each other through the first clip file and the second clip file, thereby improving workability, and supporting the roof plate and the roof plate. The plate is combined with the first and second clip piles in a serrated form to improve the wind pressure resistance, as well as to guide the various wiring of the solar module to the space formed between the roof plate and the support plate. It is possible to complete a smooth roof plate assembly, and in addition, the external air is distributed through the space where the wiring is guided to prevent the temperature rise of the roof plate to increase the power generation efficiency of the solar module. It relates to an expression roof plate assembly.

Generally, roof panels having various structures and materials are used as exterior materials for roofs of buildings.

These roof panels are fixedly fixed and mounted on the furin of the roof, and fastening means such as metal strips or fastening clips are required for such bonding and interconnection of panels, and various shapes are formed depending on the panels to be joined to each other. It requires a bonding structure or a bonding method with, and requires a lot of manpower and precision to connect and fix it on the roof in this way, so it takes a long time and repairs defects due to leaks and prolongation of connecting parts when used for a long time. The back will follow.

The conventional roof panel connection method uses a joint cap as a fastening means in a simple overlapping manner of both panels, and is also configured to directly fix the structure using a fastening bolt.

However, this method is susceptible to external temperature changes, and there is a risk of leakage due to gaps in the joints due to expansion and contraction of the panel.

In addition, a protruding finish method is also used as a conventional roof panel connection method, which is a method of watertight caulking the joints and connecting them with clips. However, according to this method, a separate finishing device such as plywood is required on the upper surface of the roof frame, resulting in an increase in construction cost and hassle, and after construction, it is difficult to replace or release, and the rigidity of the panel itself cannot be guaranteed. There was a problem.

In order to improve the above-mentioned problem, a number of panel connection structures having an improved structure have been applied and registered in Korea.

As an example, the registered utility model No. 208231 has a feature that the connection state between the panels is more tight with a spring nut for supporting a baton bar connecting each panel and a fixing bolt fixing the baton cap, but the prior art According to this, there was a problem that the construction cost could be increased due to the complexity of the components.

In addition, the fixing bolt is exposed to the outside as it is, and the appearance is not good, and there is a problem that a leak may occur between the bolt and the assembly when used for a long time. There was a problem in that more energy loss occurs as it is released to the outside.

Republic of Korea Utility Model No. 208231

The present invention has been devised in view of the above problems, and the first object of the present invention is that the roof plate and the support plate mounted with the solar module are separately coupled to each other through the first clip file and the second clip file. An object of the present invention is to provide a fitting-type roof plate assembly to which a solar module capable of improving workability by being able to be fitted without a piece is applied.

The second object of the present invention is that the roof plate and the support plate are combined with the first and second clip piles in a serrated form to improve wind pressure resistance, as well as being formed between the roof plate and the support plate. By guiding various wires of the solar module to the space part, a smoother roof plate assembly can be completed, and in addition, by distributing outside air through the space part where the wiring is guided, the temperature rise of the roof plate is prevented to increase the power generation efficiency of the solar module. The present invention is to provide a fitting-type roof plate assembly to which a solar module can be increased.

According to a feature for achieving the above object, the first invention relates to a fitting-type roof plate assembly to which a solar module is applied, and for this purpose, a plurality of first clip files fixed to the roof frame; and the clip A plurality of roof plates that are respectively formed on both sides of the first cap coupling portion fitted to the pile and the second cap coupling portion externally fitted to the first cap coupling portion fitted to the first clip pile; and, A pair of fitting rail portions protruding upward between the first cap coupling portion and the second cap coupling portion of the roof plate; and, the second clip file individually coupled to each fitting rail portion; and CIGS sunlight on the upper surface The module is seated and fixed, and both sides have support plates having a coupling portion fitted to each of the second clip files; and, to prevent sagging of the support plate, the lower portion is tightly coupled to the upper central area of each roof plate, The upper portion is made of a support plate that is in close contact with the center region of the bottom surface of the support plate, and the coupling portion is formed in a serrated shape toward the inside from the side wall portions bent downward from the support plate, and each side wall portion. Consists of a locking portion, each of the second clip pile is a seating portion coupled to the upper fitting portion of the fitting rail portion, a locking jaw portion extending horizontally eccentrically in one direction from the top of the seating portion, and upward from the locking jaw portion It is extended and consists of a support portion that is in close contact with the inner edge of the support plate, and the roof plate and the support plate are combined with each other in the form of serrations with the first and second clip piles to improve wind resistance performance, and support the roof plate and support. Guide the various wiring of the solar module to the space formed between the plates, and distribute the outside air through the space where the wiring is guided to increase the power generation efficiency of the solar module according to preventing the temperature rise of the roof plate. It is characterized by having.

The second invention is characterized in that, in the first invention, the support plate is integrally bonded to and fixed to the support plate and the roof plate through an adhesive tape for waterproofing.

The third invention, in the first invention, is characterized in that the engaging portion of the support plate is fitted in a serrated form in the space between the supporting portion and the engaging jaw portion of the second clip file and is coupled without a mutually engaging piece.

In the fourth invention, in the first invention, the first clip pile is a base fixed by being coupled to the roof frame with an engaging piece, and a plurality of agents formed integrally upwardly protruding in the center of the base and formed in a serrated shape on both sides. The first and second cap coupling portions of the roof plate are formed of a cap fixing portion on which one catching projection is formed, and a cap portion protruding in a trapezoidal shape with a narrower width toward the upper portion, and a second formed in a serrated shape on both lower sides of the cap portion. It is made of a locking protrusion, and the roof plate can be simply combined by a fitting coupling method without a separate coupling piece through a first cap coupling portion coupled to a first clip pile and a second cap coupling portion external to the first cap coupling portion. It is possible to improve the workability, and the first catching projection of the first clip file and the second catching projection of the first and second cap coupling portions are combined so as to overlap each other in a serrated form, thereby preventing waterproofing and ventilation as well as separation from each other. It is characterized in that it is configured to improve the wind pressure resistance.

In the fifth invention, in the fourth invention, the cap fixing portion is configured such that an upper inclined surface is formed with a downward slope that is symmetrical in the form of a roof, and it is configured to easily enter the first cap coupling portion of the roof plate. At the distal end, a first catching protrusion formed in a sawtooth shape is formed in two stages, and an extension part having a narrow width is formed integrally with the base at the bottom of the first catching protrusion disposed at the bottom.

According to the fitting-type roof plate assembly to which the solar module of the present invention is applied, first: the roof plate is fitted into the first clip file, the second clip file is fitted into the fitting rail of the roof plate, and the solar module is The fixed support plate is fitted to the second clip file, so that a separate joining piece is not required, and thus the workability is very excellent.

In addition, it is possible to complete the smoother roof plate assembly by guiding various wirings of the solar module to the space formed between the roof plate and the support plate, and also, by distributing external air through the space portion where the wiring is guided, the temperature of the roof plate. As well as rising, there is an effect that can increase the power generation efficiency of the solar module.

In addition, since the support plate is installed to be spaced apart from the roof plate, there is an effect of preventing the water accumulation phenomenon of the solar module fixed to the upper surface of the support plate.

In addition, since the roof plate and the support plate are coupled to the first clip file and the second clip file in a serrated shape, separation is prevented unless the force is forcibly opened to increase the wind pressure resistance due to strong wind.

1 is a construction state diagram of the fitting module-type roof plate assembly is applied to the solar module,
Figure 2 is an exploded view of Figure 1,
3 is an enlarged view of the roof plate extracted from FIG. 2,
Figure 4 is an enlarged view showing the combined state of the roof plate and the first clip file and the second clip file and the support plate extracted from Figure 1,
5 is an enlarged view of the first and second clip files extracted from FIG. 2;
6 is an enlarged view showing a combined state of a roof plate and a second clip pile according to another embodiment.

The following objects, other objects, features and advantages of the present invention will be readily understood through the following preferred embodiments related to the accompanying drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms.

Rather, the embodiments introduced herein are provided to ensure that the disclosed contents are thorough and complete and that the spirit of the present invention is sufficiently conveyed to those skilled in the art.

The embodiments described and illustrated herein also include its complementary embodiments.

In the present specification, the singular form also includes the plural form unless otherwise specified in the phrase. As used herein,'comprise' and/or'comprising' does not exclude the presence or addition of one or more other components.

Hereinafter, the present invention will be described in detail with reference to the drawings. In describing the following specific embodiments, various specific contents have been prepared to more specifically describe and understand the invention. However, a reader who has knowledge in this field to understand the present invention can recognize that it can be used without a variety of specific contents. It should be noted that, in some cases, parts that are commonly known in describing the invention and that are not significantly related to the invention are not described in order to avoid confusion in describing the invention.

Hereinafter will be described in detail with reference to the accompanying drawings with respect to the fitted roof plate assembly fitted with a solar module according to the present invention.

1 is a construction state diagram of a fitting-type roof plate assembly to which a solar module is applied, FIG. 2 is an exploded view of FIG. 1, FIG. 3 is an enlarged view of the roof plate extracted from FIG. 2, and FIG. 4 is an extract from FIG. 1 It is an enlarged view showing the combined state of the roof plate and the first clip file and the second clip file and the support plate, and FIG. 5 is an enlarged view of the first and second clip files extracted from FIG. 2.

1 to 5, the present invention allows the roof plate and the support plate to which the solar module is mounted and fixed to be fitted without separate coupling pieces to each other through the first clip file and the second clip file. The workability can be improved, and the roof plate and the support plate are combined with the first and second clip piles in a serrated form to improve the wind pressure resistance, as well as a space formed between the roof plate and the support plate. In addition, by guiding various wiring of the solar module, a smoother roof plate assembly can be completed, and in addition, by distributing external air through the space where the wiring is guided, the temperature of the roof plate is prevented from rising, thereby increasing the power generation efficiency of the solar module It relates to a fitting-type roof plate assembly to which a solar module is applied.

The fitting-type roof plate assembly to which the solar module of the present invention is applied is largely composed of four parts, which include a first clip file 10, a roof plate 20, a second clip file 30, and a support plate ( 40).

The first clip pile 10 is fixed to the roof frame 200 of the building at regular intervals, and is fixed to the roof frame 200 by a coupling piece (S) and fixed base 11, and It consists of a cap fixing part 12 which protrudes integrally upward in the center of the base 11 and has a plurality of first catching protrusions 121 formed in a tooth shape on both sides.

Here, the base 11 is formed with a guide rail 111 capable of engaging the coupling pieces S on both sides around the cap fixing portion 12, so that the roof plate 20 is in close contact without interference of the coupling pieces S. It is configured to be able to.

In addition, the cap fixing part 12 is a structure in which a downwardly inclined surface 12a, which is symmetrical in the form of a roof from the center of the upper portion, is formed, and the inside of the first cap coupling portion 21a formed on the roof plate 20 is It is configured to be easy to improve assembly.

In addition, the shopping center cap fixing part 12 has a plurality of first catching protrusions 121 formed in a serrated shape at the distal ends of both sides of the inclined surface 12a, and is formed in two stages, and at the bottom of the first catching protrusion 121 disposed at the bottom. It is configured such that the extension portion 122 having a narrow width is integrally formed with the base 11.

The configuration of the cap fixing portion 12 induces that the first cap coupling portion 21a of the roof plate 20 is fitted in a sawtooth shape to the first catching protrusion 121 formed in two stages. Here, although the first catching protrusion 121 is described in two stages as an embodiment, it is needless to say that it can be composed of one stage, three stages, and four stages.

In addition, the roof plate 20 has a first cap coupling portion 21a that is fitted to the first clip pile 10 on both sides and a first cap coupling portion 21a that is fitted to the first clip pile 10. ), the second cap coupling portions 21b are formed by being overlapped with each other.

The first and second cap coupling portions 21a and 21b of the roof plate 20 are integrally formed on both sides of the lower portion of the cap portion 211 and the cap portion 211 which is externally inserted into the cap fixing portion 12. It consists of a second catching projection (212).

Here, the cap portion 211 is formed to protrude in a trapezoidal shape that narrows in width toward the upper portion, and has a shape corresponding to the cap fixing portion 12.

In addition, each of the second catching protrusions 212 is formed in two steps in a sawtooth shape to correspond to the first catching protrusion 121 of the cap fixing part 12. The first horizontal portion 212a horizontally extending inward to the distal portion of the cap portion 211, the inclined portion 212b inclined downward from the first horizontal portion 212a to the outside, and the inclined portion 212b ) Is made by a second horizontal portion 212c extending horizontally from the distal end portion toward the extension portion 122 of the cap fixing portion 12.

Each of the second catching projections 212 is formed between the distal end portion of the cap portion 211 and the first horizontal portion 212a, and teeth are formed between the inclined portion 212b and the second horizontal portion 212c, respectively. Formed in two steps.

That is, each of the second catching protrusions 212 is coupled to the first catching protrusion 121, and when the roof plate 20 is separated, the first horizontal part 212a and the second horizontal part 212c ) Is caused by interference caused by each first catching protrusion 121 of the cap part 211, so that separation is prevented unless the force is forcibly opened, so that a structure capable of improving the wind pressure resistance performance by strong wind is provided. Is prepared.

Meanwhile, a drainage path 213 is further formed on the top of the cap portion 211 in the first cap coupling portion 21a, which is external to the cap fixing portion 12 of the first clip pile 10, and ice by snowfall is further formed. It is configured to facilitate drainage in the event of a dam or heavy rain.

In addition, the roof plate 20 has a pair of fitting rail portions 22 projecting upward between the first cap coupling portion 41 and the second cap coupling portion 41.

The fitting rail portion 22 reinforces the rigidity of the roof plate 20 to support the weight of the support plate 40, and also functions to fix the second clip pile 30.

The second clip pile 30 serves as a medium for fixing the support plate 40 apart from the roof plate 20, and the lower portion is fixed to the fitting rail portion 22 by interference fit. .

The support plate 40 is secured by seating and fixing the CIGS solar module 50 on the upper surface, and both sides have a structure having a coupling portion 41 that is fitted to each of the second clip files 30.

"의 형태로 성형되는 걸림부(412)로 구성된다.Here, the coupling portion 41 is a side wall portion 411 that is bent downward from the support plate 40 and a toothed structure toward the inside from an end of each side wall portion 411 "

It consists of a locking portion 412 is molded in the form of ".

" 형태로 성형된 받침부(33)로 구성된다.In addition, the second clip pile 30 has a seating portion 31 coupled to the upper portion of the fitting rail portion 22 by an interference fit, and is horizontally extended to be eccentrically extended in one direction from the upper portion of the seating portion 31. The jaw portion 32 and the engaging jaw portion 32 extend upwardly so as to be in close contact with the inner edge of the support plate 40 to support it."

It consists of a support portion (33) molded in the form.

"와 같이 삼각형태를 갖다.In the above, the locking jaw portion 32 positioned between the seating portion 31 and the supporting portion 33 is to ensure rigidity and support."

"It has a triangular shape.

In addition, the combination of the support plate 40 and the second clip file 30 described above, the locking portion 412 of the support plate 40, the support portion 33 and the locking jaw portion of the second clip file 30 ( 32) It is fitted in the form of a tooth in the interspace so that it can be combined without mutually engaging pieces.

Meanwhile, in order to prevent the support plate 40 from sagging, the supporting plate 60 is closely coupled to the upper central region of each roof plate 20, and the upper portion is in the lower central region of the supporting plate 40. It is tightly coupled.

"의 형태로 성형된다.The support plate 60 is interposed between the roof plate 20 and the support plate 40 to support the central region of the support plate 40,"

It is molded in the form of ".

At this time, the support plate 60 is fixed by being integrally bonded to the support plate 40 and the roof plate 20 through an adhesive tape 61 for waterproofing.

In addition, the wiring 51 of the CIGS solar module 50 fixed to the support plate 40 is guided through the space SP formed between the roof plate 20 and the support plate 40 to the outside. You can prevent exposure.

In addition, it is possible to increase the power generation efficiency of the CIGS solar module 50 by preventing the temperature rise of the roof plate 20 by distributing external air through the space SP.

Meanwhile, as shown in FIG. 6, in another embodiment, each fitting rail portion 22 of the roof plate 20 forms fitting grooves 221 on both protruding sides, and the seating portion of the second clip file 30 is formed. (31) may be configured by further forming a fitting projection 311 corresponding to the fitting groove (221).

This structure is such that the binding force of the second clip pile 30 coupled to the fitting rail portion 22 by forcibly fitting is further enhanced to further enhance the wind pressure resistance.

In addition, the seating portion 31 of the second clip file 30 is unevenly coupled to the fitting groove 221 of the fitting rail portion 22 through the fitting protrusion 311, thereby determining the engagement position without lifting. As a result, since the horizontality of the support plate 40 is increased, a structure capable of further increasing the power generation efficiency of the solar module 50 is provided.

As described above, the fitting-type roof plate assembly to which the solar module according to the present invention is applied has the following differentiation.

First: The roof plate is fitted into the first clip file, the second clip file is fitted into the roof plate's fitting rail, and the support plate to which the solar module is fixed is fitted into the second clip file, so that it is separately combined. It does not require a piece, so it has the advantage of excellent workability.

Second: As a space formed between the roof plate and the support plate, various wiring of the solar module can be guided to complete a smoother roof plate assembly, and external air is also distributed through the space portion where the wiring is guided to provide the roof plate. In addition to the temperature increase, it is possible to increase the power generation efficiency of the solar module.

Third: By installing the support plate spaced apart from the roof plate, it is possible to prevent water stagnation of the solar module fixed to the upper surface of the support plate.

Fourth: Since the roof plate and the support plate are coupled to the first clip file and the second clip file in a serrated shape, separation is prevented unless the force is forcibly opened to increase the wind pressure resistance performance by strong wind.

The configurations shown in the embodiments and drawings described in this specification are only the most preferred embodiments of the present invention and do not represent all of the technical spirit of the present invention, and various equivalents that can replace them at the time of this application It should be understood that there may be and variations.

10: first clip file 11: base 111: guide rail
12: Cap fixing part 12a: Slope
121: first jam projection 122: extension
20: roof plate 21a: first cap coupling portion 21b: second cap coupling portion
211: cap portion 212: second catching projection
212a: first horizontal portion 212b; Slope
212c: 2nd horizontal part 213: Drainage
22: fitting rail portion 221: fitting groove
30: second clip file 31: seating portion 311: fitting projection
32: engaging jaw portion 33: base
40: support plate 41: engaging portion 411: side wall portion
412: jam
50: solar module 51: wiring
60: base plate 61: adhesive tape
100: fitted roof plate assembly with photovoltaic modules
200: roof frame
S: Coupling piece SP: Space

Claims (5)

A plurality of first clip files 10 fixed to the roof frame 200;
The first cap coupling portion 21a that is fitted into the first clip file 10 and the second cap that is externally fitted into the first cap coupling portion 21a that is fitted into the first clip file 10. A plurality of roof plates 20 having coupling portions 21b formed on both sides;
A pair of fitting rail portions 22 projecting upward between the first cap coupling portion 41 and the second cap coupling portion 41 of the roof plate 20;
A second clip file 30 individually coupled to the fitting rail portions 22;
The CIGS solar module 50 is mounted on the upper surface and fixed, and both sides have a support plate 40 having an engaging portion 41 fitted to each of the second clip piles 30;
In order to prevent sagging of the support plate 40, the lower portion is tightly coupled to the upper central region of each roof plate 20, and the upper portion is closely supported to the central region of the bottom surface of the support plate 40. Including;,
The coupling portion 41 is composed of a side wall portion 411 that is bent downward from the support plate 40, and a locking portion 412 that is formed in a serrated shape from the end of each side wall portion 411 toward the inside. ,
Each of the second clip files 30 includes a seating portion 31 coupled to the upper portion of the fitting rail portion 22 by an interference fit, and a locking jaw portion extending horizontally eccentrically in one direction from the upper portion of the seating portion 31. It is composed of a support portion 33 extending upward from the locking jaw portion 32 and the inner edge of the support plate 40,
The roof plate 20 and the support plate 40 are combined with the first and second clip piles 10 and 30 in a sawtooth shape to improve wind pressure resistance, and the roof plate 20 and the support plate ( 40) guides various wirings 51 of the solar module 50 to the spaces SP formed between the roofs, and distributes external air through the spaces SP where the wirings 51 are guided to the roof In order to increase the power generation efficiency of the solar module 50 according to preventing the temperature rise of the plate 20,
The support plate 60 is fixed by being integrally bonded to the support plate 40 and the roof plate 20 through an adhesive tape 61 for waterproofing,
The engaging portion 412 of the support plate 40 is fitted in a serrated form in the space between the supporting portion 33 and the engaging jaw portion 32 of the second clip file 30 and is coupled without mutually engaging pieces,
The first clip pile 10 is coupled to the roof frame 200 by a coupling piece (S) and fixed to the base 11, and protrudes upwards integrally in the center of the base 11 and has serrations on both sides. It is made of a cap fixing portion 12 on which a plurality of molded first catching protrusions 121 are formed,
The first and second cap coupling portions 21a and 21b of the roof plate 20 are capped portions 211 protruding in a trapezoidal shape with a narrower width toward the upper portion, and serrated on both lower sides of the cap portion 211. It is made of a molded second catching projection 212,
The roof plate 20 is separated through a first cap coupling portion 21a coupled to the first clip pile 10 and a second cap coupling portion 21b external to the first cap coupling portion 21a. It is possible to improve the workability by allowing it to be simply joined in a fitting-fitting manner without a coupling piece (S),
The first catching protrusion 121 of the first clip file 10 and the second catching protrusion 212 of the first and second cap coupling parts 21a and 21b are combined so as to overlap each other in a serrated form, thereby providing waterproof and ventilation. Of course, it is possible to prevent the separation between each other, it characterized in that it is configured to improve the wind pressure resistance, the fitted roof plate assembly with a solar module is applied.
delete delete delete According to claim 1,
The cap fixing part 12 is configured such that a downwardly inclined surface in which the upper portion is symmetrical in the form of a roof starting from the center is formed to facilitate entry into the first cap coupling portion 21a of the roof plate 20, and both side inclined surface end portions are formed. The first catching protrusion 121 formed in a sawtooth shape is formed in two stages, and an extension part 122 with a narrow width is formed at the bottom of the first catching protrusion 121 disposed at the bottom. A fitting-type roof plate assembly with a solar module, characterized in that it is integrally formed.

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