KR101569653B1 - Steel plate roof structure for Solar moudle - Google Patents

Abstract

The present invention relates to a steel roof structure for installing a solar module. The steel roof structure for installing the solar module according to the embodiment of the present invention includes a plurality of pillars (10), a lower ceiling beam (20) which is made of steel materials and is connected to the upper side of pillar, a plurality of steel plates (30) which are received and installed on the lower ceiling steel beam (20) in parallel, an upper protrusive frame (40) whose lower side is fixed on the lower ceiling beam between the adjacent steal plates (30) and which is installed to protrude upwards, an upper ceiling beam (50) which is made of steel materials and is connected to the upper side of the upper protrusive frame (40), and a waterproof function part (60). The present invention reduces construction costs and maintains the waterproof function of a roof.

Description

{Sheet plate roof structure for solar module}

The present invention relates to a steel roof structure, and more particularly, to a steel roof structure for mounting a solar module, which can reduce a construction cost and maintain a waterproof performance by constructing a solar module together with a steel roof structure.

As is well known, a solar module is a solar cell that converts received solar energy directly into electrical energy to produce electricity, and is usually formed in a plate shape.

Such a solar module is mounted on a roof or a roof of a building for smooth reception of sunlight. In this case, a separate solar module support is provided for safe installation of the solar module.

The solar module support base is usually formed by assembling a plurality of angles, and the assembled solar module support base is first installed on the roof or roof of the building, and the solar module is fixed on the solar module support base, .

Early photovoltaic modules have been predominantly installed on sloping roofs of private homes or villas for large-scale generality.

However, according to the tendency of increasing the housing ratio of apartment houses rather than single houses, it has been proposed to install solar modules on various structures in urban areas.

However, since the conventional solar module supporter is made of a complicated structure of weight, it is not only unstable in structure and difficult to work, but also incapable of economic efficiency due to increase in cost and cost of manufacture and installation, and is not standardized and shared, There is a problem in that it is troublesome and inefficient to work because it is necessary to manufacture and install separately each of the supports.

A roof installation device of a solar module (Korean Patent Registration No. 10-1516985, Patent Document 1) is a technique for installing a solar module in a small house, a car park, Discloses a technique for installing a solar module on a steel plate roof relatively easily with four fixed structures having a triangular shape.

Patent Document 1 has the effect of making it possible to relatively easily install a solar module on a steel plate roof which is difficult to install the solar module.

However, in order to install the above-mentioned module in a factory having a high height or a parking lot roof, an operator must move while depressing a steel plate roof. If the position of the structural member supporting the steel plate roof can not be accurately grasped, May occur.

In addition, there is a difficulty in finding the connection part of the photovoltaic module to the roof of the existing steel plate. If the roof is partially unplugged and the photovoltaic module is connected and the waterproofing is not thoroughly performed, There is a possibility that the problem may be introduced.

On the other hand, there is a case where a parking lot having a solar power generation canopy is installed in a park parking lot such as Sejong Lake Park, and this configuration is fixed so that a plurality of photovoltaic modules are completely close to each other to have waterproof performance. There is a problem that it is difficult to remove the solar module.

KR 20-0465958 (March 13, 2013) KR 10-1691933 (April 24, 2014)

The roof structure of a steel sheet for mounting a solar module according to the present invention is intended to solve the problems caused by the conventional technology as described above. When a steel roof structure is built, a solar module is installed together to reduce the construction cost and maintain the waterproof function of the ceiling. .

More specifically, an upper protruding frame for protruding the structure of a steel plate roof structure having a steel plate as a ceiling or a roof to an upper portion of the steel plate is formed and a solar module is connected to the upper protruding frame, I would like to.

Particularly, it is intended to provide a watertight structure around the upper protruding frame protruding through the steel plate, thereby securing the leakage preventing performance which is a basic function of the roof or the ceiling.

In addition, when the solar module is not moved at the same time as the construction of the structure, the upper steel plate is provided at the portion where the solar module is installed, so that a solid roof structure can be provided compared to the conventional steel plate roof structure. So that the solar module can be easily installed without affecting the lower roof and the waterproof performance problem is not caused.

Particularly, in constituting the waterproof function part, the waterproofing member is fitted under the steel plate to the left and right of the frame supporting member connected to the upper protruding frame so that the waterproof performance is maintained, and in addition, So that water spouting phenomenon does not occur at the connection portion of the upper protruding frame, so that the solar module can be installed without penetrating the rainwater under the roof.

In addition, the waterproof member is formed by bending and cutting one steel plate so as to prevent the cost increase due to manufacturing of the waterproof member as much as possible.

In order to solve the above problems, a steel roof structure for mounting a solar module of the present invention is a steel roof structure using a steel sheet as a roof material, comprising: a plurality of pillars (10); A lower steel subaccumulation information 20 connected to the upper portion of the column; A plurality of steel plates (30) placed side by side on the upper portion of the steel underground information (20); An upper protruding frame 40 fixed to the lower sub-chip information 20 between the adjacent lower steel plates 30 and protruding upward; Steel upper bucket information (50) connected to an upper portion of the upper projecting frame (40) and connected to a selected one of the solar module (1) or the upper steel plate (33) One side and the other side are hermetically sealed between the steel plate 30 and the upper projecting frame 40 so that the space between the steel plate 30 and the upper projecting frame 40 is airtightly sealed between the steel plate 30 and the upper projecting frame 40, And a waterproof function portion (60) for preventing penetration of the water.

The steel plate 30 is formed of a steel plate having a continuous valley 31 and a protrusion 32 formed at regular intervals and the waterproof function portion 60 is formed of a steel plate A side wall portion 61b connected vertically from both ends of the bottom portion 61a and a lower wall portion 61b connected to the upper end of the side wall portion 61b in a horizontal direction, A frame supporting member 61 composed of a projecting frame 40 and a fixing upper connecting portion 61c and installed in the same direction as the longitudinal direction of the steel plate 30; An inserting portion 62a inserted upwardly to the bottom of the protrusion 32 of the steel plate 30 and a horizontal portion 62b formed parallel to the steel plate 30 connected to the inserting portion 62a, And a waterproof member 62 which is connected to the end of the horizontal part 62b and is upwardly bent and fixed to the side wall part 61b in tight contact with the fixed part 62c .

In this case, the upper projecting frame 40 is formed of a truss structure having a plurality of steel members coupled together.

Further, it is further characterized in that an H-shaped steel pipe 41 having upper and lower ends connected to the lower pipe information 20 and the upper pipe information 50 is further provided.

Alternatively, the waterproof member 62 may include a bracket portion 62e located on the front side and a flat plate portion 62f located on the rear side of the bracket portion 62e, the chamfered portions being chamfered at both sides of the chamfered portion The steel plate 62d is formed such that the middle portion of the flat plate portion 62f is cut in the longitudinal direction and cut in the direction crossing the front end portion of the longitudinally cut portion, A support member insertion space 62i in which a tightly fixed portion 62c, a horizontal portion 62b and an inserting portion 62a are continuously formed on both sides with respect to the incised portion and the frame supporting member 61 is fitted in the center, A packing insertion groove 62j is formed along the longitudinal direction of the tightly fitting part 62c so that the packing is fitted and coupled and the bracket part is bent downward with respect to the boundary with the flat plate part, The member (62) And an iron plate 62d is cut and folded and the bracket part 62e is fixed to the front face of the lower plateau information 20 by being fixed.

According to the present invention, it is possible to reduce the construction cost and maintain the waterproof function of the roof by constructing the solar module at the time of building the steel roof structure.

More specifically, an upper protruding frame for protruding the structure of a steel plate roof structure having a steel plate as a ceiling or a roof to an upper portion of the steel plate is formed and a solar module is connected to the upper protruding frame, .

Particularly, it is possible to ensure a waterproof property around the upper protruding frame protruding through the steel plate, thereby securing the leakage preventing performance which is a basic function of the roof or the ceiling.

In addition, when the solar module is not moved at the same time as the construction of the structure, the upper steel plate is provided at the portion where the solar module is installed, so that a solid roof structure can be provided compared to the conventional steel plate roof structure. The solar module can be easily installed without affecting the lower roof and waterproof performance is prevented from deteriorating.

Particularly, in constituting the waterproof function part, the waterproofing member is fitted under the steel plate to the left and right of the frame supporting member connected to the upper protruding frame so that the waterproof performance is maintained, and in addition, So that the water spouting phenomenon does not occur at the connection portion of the upper projecting frame, so that the solar module can be installed without penetrating the rainwater under the roof.

Further, since the waterproof member is formed by bending and cutting one steel plate, it is possible to prevent the cost increase due to manufacture of the waterproof member to the utmost.

1 is a perspective view showing an example in which a solar module is installed in a steel roof structure according to the related art.
2 is a side cross-sectional schematic view of a steel roof structure for mounting a solar module according to the present invention;
3 is an exploded perspective view showing the installation state of the waterproof function part in the present invention.
4 is a perspective view showing the assembled state of Fig. 3;
FIG. 5 is a perspective view showing another waterproofing member in the present invention after its manufacture and its manufacturing. FIG.

The present invention relates to a steel plate roof structure in which a steel plate is used as a roofing material.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a steel roof structure for mounting a solar module according to the present invention will be described in detail with reference to the accompanying drawings.

The roof structure of a steel sheet for mounting a solar module of the present invention mainly comprises a column 10, lower plate information 20, a steel plate 30, an upper projecting frame 40, upper plate information 50 and a waterproof function 60 .

The column 10 is for supporting the load of the lower spring information 20 for forming a roof like a normal structure, and the lower part is connected to a concrete foundation and is typically made of H-shaped steel, but not limited thereto, Or the like.

As shown in FIG. 2, the lower plate information 20 is formed of a steel material connected to the upper portion of the column, and FIG. 3 shows an example of a C-shaped steel or the like.

The connection between the Hubuchun information 20 and the column 10 is generally made by connecting a beam made of H-shaped steel to the upper part of the column 10 to form a basic H-shaped steel structure, and the H- And can be fixed by welding and bolting methods.

Or the Hubuchon information 20 may be made of H-shaped steel itself.

As shown in FIG. 2 and FIG. 3, a plurality of steel plates 30 are installed side by side on the upper side of the steel underground pipe information 20.

It is preferable that the steel plate 30 is formed of a steel plate in which the valleys 31 and the protrusions 32 are continuously formed at regular intervals in the same manner as a normal steel plate roof structure.

As shown in FIGS. 2 and 3, the upper protruding frame 40 is fixed to the lower spring information 20 between the lower adjacent steel plates 30, and is protruded upward.

A conventional steel plate roof structure is installed up to the above-mentioned steel plate, and the structure is completed. However, in the present invention, the solar cell module 1 is installed on the upper part using the upper projecting frame 40.

The upper projecting frame 40 shown in Figs. 2 and 4 has a plurality of C-shaped steels parallel to or aligned with the column 10 and other steels formed in an inclined direction from the C-shaped steel to form a truss structure But are not limited to, various steel alloys may take various known connection schemes.

In addition, as shown in FIG. 2, an H-shaped steel pipe 41 having upper and lower ends connected to the lower pipe information 20 and upper pipe information 50 may be further provided so as to stably support the upper load .

The upper buckwheat information 50 is connected to the upper protruding frame 40 and includes a supporting member 42 made of C-shaped steel or the like perpendicular to the upper bucklinformation 50 and a bracket 43, and the like.

The upper peak information 50 is connected to the solar module 1 through a C-shaped steel or the like having a direction orthogonal to the upper peak information 50 and supports the solar module 1.

At this time, the upper steel plate 33 may be selectively connected to the solar module 1 instead of the solar module 1.

When the solar module 1 is not installed at the same time as the construction of the roof structure of the present invention, when the upper steel plate 33 is installed, Preventing the aesthetic hindrance from being hindered by the structure protruded onto the upper protruding frame 30 and protecting the structure of the upper protruding frame 40 and the like.

The waterproof function unit 60 is a main component of the present invention together with the upper protruding frame 40, and one side and the other side of the waterproof function unit 60 are connected to the steel plate 30 and the upper protruding frame 40 The gap between the steel plate 30 and the upper projecting frame 40 is sealed to prevent water from penetrating between the steel plate 30 and the upper projecting frame 40.

The waterproof function portion 60 is composed of a frame supporting member 61 and a waterproof member 62.

The frame support member 61 includes a bottom portion 61a fixed on the lower portion 20a and a side wall portion 61b vertically connected from both ends of the bottom portion 61a, And an upper connection part 61c connected to the upper end of the side wall part 61b in a horizontal direction and fixed to the upper projecting frame 40. [

3, one side of the bracket 63 is fixed to the lower buckle information 20, and the other side of the bracket 63 is fixed to the bottom portion 61a And can be fixed by a method such as bolting.

In addition, the frame support member 61 is provided in the same direction as the longitudinal direction of the steel plate 30.

The waterproof member 62 includes an insertion portion 62a inserted upwardly into the bottom of the projection 32 of the steel plate 30 and a plurality of insertion portions 62a formed parallel to the steel plate 30 connected to the insertion portion 62a And a tightly fixed portion 62c which is bent upward while being connected to the end portion of the horizontal portion 62b and tightly fixed to the side wall portion 61b.

The waterproofing members 62 are provided on both sides of the frame supporting member 61 so as to be installed on the side wall portions 61b on both sides of the frame supporting member 61. The fixing method is to maintain airtightness through welding, And the waterproof performance can be maintained by applying coatings or the like by means of waterproof painting or the like.

Since the upper protruding frame 40 for connecting the solar module 1 must be connected to the lower spring information 20 which is a component capable of supporting the upper load, A frame supporting member 61 having the same structure as the lying C-shaped steel is provided at the clearance, and water intrusion into the bottom of the adjacent steel plate 30 on both sides thereof is prevented A waterproof member 62 is provided.

At this time, the frame supporting member 61 constituting the structure of the lying C-shaped steel itself acts as a drainage path, so that the phenomenon of water sticking can be prevented.

However, when the waterproofing members 62 are installed on both sides of one frame supporting member 61 and fixed in the same manner as welding, there arises a problem that the construction cost is increased and air is lengthened.

In Fig. 5, an embodiment of another waterproofing member 62 for solving this problem is shown.

As can be seen from the drawing, the waterproof member 62 has a bracket portion 62e located on the front side relative to the chamfered and chamfered portion on both side edges, and a flat plate portion 62e located on the rear side of the bracket portion 62e. And an iron plate 62d composed of the iron plate 62f,

The middle portion of the flat plate portion 62f is cut in the longitudinal direction, is cut in the direction crossing the front end portion of the longitudinally cut portion, and is bent twice in the opposite direction on the basis of the longitudinally cut portion.

In Fig. 5, a reference symbol 62g denotes an incision to indicate the incision, and 62h denotes a folding line to be subjected to the banding treatment.

The supporting member insertion space 62i in which the tight fitting portion 62c, the horizontal portion 62b and the inserting portion 62a are continuously formed on both sides with respect to the incised portion and the frame supporting member 61 is fitted in the center, Is formed.

4, the frame supporting member 61 is inserted into the supporting member insertion space 62i. At this time, the packing fixing grooves 62j are formed in the tight fitting fixing portion 62c along the longitudinal direction, So that complete watertightness is achieved between the side wall portions 61b of the frame supporting member 61 and the close contact portion 62c.

On the other hand, the bracket portion 62e is bent downward with respect to the boundary with the flat plate portion 62f, so that the bracket portion 62e is fixed to the front surface of the lower plateau information 20 by a method such as bolting.

As a result, since the two waterproof members 62 are integrally formed by cutting and bending one steel plate 62d, the assembling and the construction in the field can be simplified.

As described above, the roof structure of a steel sheet for mounting a solar module of the present invention has a structure in which the upper projecting frame 40 is provided in spite of the steel roof structure, which is generally vulnerable to an upper load and difficult to work at the upper part. Solar modules can be installed on the roof, which can reduce the construction cost and maintain the waterproof function of the roof.

In addition, despite the structure in which the upper protruding frame 40 passes between the steel plates 30 and protrudes upward, the waterproof function 60 can secure a satisfactory waterproof performance.

Particularly, in constructing the waterproof function unit 60, the waterproofing member 62 is fitted on the right and left sides of the frame supporting member 61 connected to the upper protruding frame 40 under the steel plate 30, The frame supporting member 61 serves as a drainage path itself in the longitudinal direction, thereby preventing the water splashing phenomenon at the connection portion of the upper projecting frame 40, so that rainwater does not penetrate under the roof, The optical module can be installed.

In addition, the waterproofing member 62 is formed by bending and cutting two steel plates 62d so as to prevent the cost increase due to the manufacture of the waterproofing member 62 as much as possible.

1: Module 10: Column
20: Haebuchon Information 30: Steel plate
31: Goal 32:
33: upper steel plate 40: upper projecting frame
41: H-beam 42: support member
43: Bracket 50: Sang Bucheon Information
60: Waterproof function part 61: Frame supporting member
61a: bottom portion 61b: side wall portion
61c: upper connection part 62: waterproof member
62a: Insertion part 62b: Horizontal part
62c: tightly fitted portion 62d: iron plate
62e: Bracket part 62f: Flat plate part
62g: Improvement of section 62h: Folding curve
62i: Support member insertion space 62j: Packing insertion groove

Claims (5)

In a steel plate roof structure in which a steel plate is used as a roofing material,
A plurality of pillars (10);
A lower steel subaccumulation information 20 connected to the upper portion of the column;
A plurality of steel plates (30) placed side by side on the upper portion of the steel underground information (20);
An upper protruding frame 40 fixed to the lower sub-chip information 20 between the adjacent lower steel plates 30 and protruding upward;
Steel upper bucket information (50) connected to an upper portion of the upper projecting frame (40) and connected to a selected one of the solar module (1) or the upper steel plate (33)
One side and the other side are hermetically sealed between the steel plate 30 and the upper projecting frame 40 so that the space between the steel plate 30 and the upper projecting frame 40 is airtightly sealed between the steel plate 30 and the upper projecting frame 40, And a waterproof function portion (60)
Steel roof structure for solar module installation.
The method according to claim 1,
The steel plate 30 is made of a steel plate having a valley 31 and a protrusion 32 continuously formed at regular intervals,
The waterproof function unit (60)
A bottom portion 61a fixed on the lower portion 20 and a side wall portion 61b vertically connected from both ends of the bottom portion 61a; A frame supporting member 61 which is composed of the upper protruding frame 40 and the upper connecting portion 61c and is installed in the same direction as the longitudinal direction of the steel plate 30;
An inserting portion 62a inserted upwardly to the bottom of the protrusion 32 of the steel plate 30 and a horizontal portion 62b formed parallel to the steel plate 30 connected to the inserting portion 62a, , And a waterproof member (62) formed by an upwardly bent portion fixed to the side wall portion (61b) and fixed to the end portion of the horizontal portion (62b) while being fixed thereto. ,
Steel roof structure for solar module installation.
3. The method of claim 2,
Characterized in that the upper projecting frame (40) has a truss structure.
Steel roof structure for solar module installation.
The method of claim 3,
And an H-shaped steel pipe (41) having upper and lower ends connected to the lower pipe information (20) and upper pipe information (50)
Steel roof structure for solar module installation.
3. The method of claim 2,
The waterproofing member 62 is composed of a bracket portion 62e located on the front side and a flat plate portion 62f located on the rear side of the bracket portion 62e on the basis of the chamfered and chamfered portions on both sides, (62d)
The middle portion of the flat plate portion 62f is cut in the longitudinal direction and is cut in the direction crossing the front end portion of the longitudinal cutout portion and the both sides of the longitudinal cutout portion are bent A support member insertion space 62i is formed on both sides of the support member 62c in such a manner that the tightly fixed portion 62c, the horizontal portion 62b, and the insertion portion 62a are continuously formed,
A packing insertion groove 62j is formed in the tightly fitting part 62c along the longitudinal direction,
The bracket portion 62e is bent downward with respect to the boundary with the flat plate portion,
The waterproof member 62 is formed by cutting and bending one steel plate 62d,
Wherein the bracket portion (62e) is fixed to the front surface of the lower buckle information (20)
Steel roof structure for solar module installation.

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