KR20180023361A - A prefabricated roof - Google Patents

Abstract

The present invention relates to a prefabricated roof reinforcing structure for installing a structure. According to the prefabricated roof reinforcing structure for installing a structure, a lower plate (200) is installed on a purlin (100), and a roof plate (500) having a plurality of mountain units (520) is provided. Therefore, the roof plate (500) and the mountain units (520) can be installed on the lower plate (200) at predetermined intervals to be connected together in the width direction. Moreover, a place formed between the lower plate (200) and the roof plate (500) is filled with an insulating material (400) to form the roof. In addition, a reinforcing plate (300) in which a plurality of supporting units (320) are formed can be provided to fix a floor between the lower plate (200) and the roof plate (500) on the lower plate (200). At the same time, the supporting unit (320) can be inserted into the mountain units (520) to reinforce strength while the mountain units (510) support the structure.

Description

A prefabricated roof structure for installation of a structure

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a prefabricated roof structure, and more particularly, to a structure for reinforcing a prefabricated roof structure so that a structure can be installed on a roof.

Roofing is an essential element in building construction. It functions to prevent rain and keep warm. Such a roof is composed of various forms. In the case of a conventional house, there is a thatched roof and a tiled roof. Recently, an example in which a roof is constructed by pouring concrete is widely applied.

On the other hand, in the case of a building having a large area such as a factory, a warehouse, and a gymnasium in addition to a house, it is difficult to form a roof by a method applied to a house, such as pouring concrete, and a roof plate such as a slate, Thereby forming a roof. That is, the roof is formed by arranging the frame on the frame at the point where the roof is to be formed, arranging the roof plates on the frame in sequence, and then nailing the roof. The above method has been widely used because of its advantage of low cost.

However, the structure formed by the roof plate as described above is merely for providing a thin roof plate, so that there is no separate heat insulating structure, which is disadvantageous in that the insulation function is remarkably deteriorated. In addition, since it is vulnerable to impact, there is a fear that it may be damaged by an external stimulus. Therefore, the number of cases in which a roof is formed using a sandwich panel is increasing.

The sandwich panel as described above is formed to have a constant thickness and has the advantage of high strength and excellent heat insulation effect because the heat insulating material is contained therein. However, the sandwich panel is manufactured with a certain size and it is necessary to connect them to each other to construct a roof, which is disadvantageous in that it is difficult to process the connected part. Because it is formed to a thickness of approximately 5 ~ 10cm, it can not be connected and it can not be bonded. Therefore, the connection part is covered with a thin metal plate and the nail is processed.

However, in the above configuration, the nails are exposed to the outside, and the appearance is not cleaned neatly. In addition, if the gap between the connecting parts can not be properly blocked, there is a serious problem that leakage occurs. In addition, the above-mentioned structure has a problem that it is difficult to repair and install the existing installed roof as it is. Therefore, in order to repair the existing roof, there is a problem that the existing roof must be removed and installed.

Accordingly, a structure has been proposed in which a roof can be installed in a prefabricated manner by solving the above problems. Japanese Patent Application Laid-Open No. 10-2009-0092760 (Sep. 9, 2009)), a "roof structure with a built-in roof structure" is a structure in which a roof plate with a raised part is formed at regular intervals and is installed successively and filled with a heat insulating material .

A separate structure may be installed on the conventional prefabricated roof. For example, there is a structure for photovoltaic power generation. A solar power generation structure is installed by installing brackets on the mountain part formed on the roof plate. However, such a structure mounted on a prefabricated roof requires not only a considerable load to be generated but also to withstand wind pressure after installation, and sufficient strength must be secured to stably support the structure. However, since the stiffness of the roof plate itself having the mountain and the valley is not enough to support the load, the present invention aims at providing a reinforced structure of the prefabricated roof which can stably support the structure have.

In the present invention, a roof plate provided with a lower plate on a perlin and provided with a plurality of raised portions is provided on the lower plate so as to be spaced apart from each other at regular intervals, and the space formed between the lower plate and the roof plate is filled with a heat insulating material A reinforcing plate having a plurality of supporting portions formed thereon to fix the bottom between the bottom plate and the roof plate while the supporting portion is fitted in the inside of the convex portion to reinforce the strength so that the convex portion supports the structure The present invention proposes a prefabricated roof reinforcement structure for a structure installation.

According to the present invention, it is possible to effectively reinforce the strength against the mountain portion of the roof plate in the prefabricated roof, so that it is possible to stably support the structure provided on the roof plate, thereby ensuring structural stability.

1 is an illustration of a prefabricated roof in which a reinforcing structure according to the present invention is employed,
Fig. 2 is an exemplary view showing a laminated structure of a prefabricated roof adopting a reinforcing structure according to the present invention, Fig.
FIG. 3 is a view illustrating a state in which a structure is installed on a prefabricated roof having a reinforcing structure according to the present invention,
4 is a perspective view of another embodiment of a prefabricated roof having a reinforced structure according to the present invention.

In the present invention, in order to obtain a reinforcing structure of a prefabricated roof which can stably support a structure,

A roof plate having a plurality of raised portions is provided on the perlite and is provided to be connected to each other in the width direction at regular intervals on the bottom plate and a space formed between the bottom plate and the roof plate is filled with a heat insulating material to form a roof A reinforcing plate having a plurality of supporting portions is provided so that the bottom is fixed to the bottom plate between the bottom plate and the roof plate while the supporting portion is fitted in the inside of the convex portion to reinforce the strength and the structure to support the convex portion The proposed roof reinforcement structure is shown in Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

FIG. 2 is a view showing a laminated structure of a prefabricated roof adopting a reinforced structure according to the present invention. FIG. 3 is a perspective view showing a reinforced structure according to the present invention. FIG. 4 is a view showing another embodiment of a prefabricated roof having a reinforced structure according to the present invention. FIG.

As shown in the figure, the prefabricated roof to which the present invention is applied includes a lower plate 200 installed on purlin 100, a roof plate 500 installed at a predetermined distance from the lower plate 200 on the lower plate 200, The bottom plate 200 has a basic constitution of a heat insulating material 400 that functions as a heat shield while maintaining a space between the roof plates 500.

Perlin is a member which is installed in a direction orthogonal to a rafter in a roof structure of a furniture (frame) type building structure such as a wooden structure, a steel frame structure and a lightweight truss structure, and then joined directly to the roof finishing material through a bonding metal such as a clip. , And the lower plate 200 is fixed thereon.

The lower plate 200 is a metal or synthetic resin plate having a predetermined width, and a plurality of lower plates are provided and connected to each other on the perlin 100.

The roof plate 500 has a plurality of raised portions 520 formed by bending a metal or synthetic resin plate having a predetermined width into a predetermined shape. A connecting portion may be formed at both sides of the hill portion 520 at a height of the hill portion 520. The connecting portions may be connected to each other while overlapping each other. At this time, the roof plate 500 is spaced apart from the lower plate 200 by a predetermined distance, which can be achieved by the heat insulating material 400 and the reinforcing plate 300 described later.

The crest portion 520 may have a narrow width at a central portion thereof in the height direction, so that the bracket 600 for installation of the structure may be detached. The bracket 600 may have a structure in which an opening is opened downward, and is formed to have a curved shape that is in line with the outer curvature of the crest portion 520, so that the bracket 600 is coupled to the crest 520 and is not separated. Of course, the bracket 600 may not be in a shape that matches the outward curvature of the crest 520, but it is preferable to adopt a configuration in which the bracket 600 is formed as described above.

Meanwhile, the structure 700 installed on the roof is provided with a separate support, and the support is fixed to the bracket 600 installed as described above.

The heat insulating material 400 is made of a material having a heat insulating property, such as glass wool, and is formed to have a constant thickness, and is filled in a space formed between the bottom plate 200 and the roof plate 500. Such a heat insulating material 400 plays a role of preventing the roof plate 500 from being crushed when it is pressed by an external force, in addition to the heat insulating function. 2 and 4, depending on the manner in which the roof plate 500 is installed.

In the present invention, the reinforcing plate 300 is provided to support the hill part 520. The reinforcing plate 300 is formed by bending a metal or synthetic resin plate having a predetermined width and is formed with a plurality of supports 320. The reinforcing plate 300 is disposed between the bottom plate 200 and the roof plate 500, And is supported by the hill part 520 by being fitted into the hill part 520.

The supporting portion 320 is formed to have the same size as that of the hill 520 and to fit in the hill 520. Therefore, when the supporting part 320 is fitted in the hill part 520, the plate is attached to the hull so that the strength of the hill part 520 is reinforced. At this time, the bottom of the reinforcing plate 300 comes into contact with the lower plate 200 and can be firmly fixed through fixing means such as bolts.

When the bottom of the reinforcing plate 300 is fixed to the bottom plate 200 as described above, the load applied to the crest 520 can be effectively endured. The reinforcing plate 300 is not floated and the bottom is supported, so that the ability to withstand the load is maximized. Particularly, when the load applied to the crest 520 is applied in an oblique direction, for example, the crest 520 is shaken or deformed even when wind pressure is applied to the structure 700 installed in the crest 520 in an oblique direction The reinforcing plate 300 can be blocked, thereby maximizing the structural stability.

Meanwhile, the reinforcing plate 300 may be formed separately at each of the positions where the crests 520 are formed. The crests 520 may be formed at regular intervals, and the reinforcing plates 300 are separately formed to support only the crests 520 on which the structures 700 are installed. This structure is illustrated in FIG.

Hereinafter, a process of forming a roof and assembling a structure according to the present invention will be described.

First, the lower panel 200 is installed along the perlin 100 installed in the shape of a roof. The bottom plates 200 are arranged so as to be connected to each other, and then fixed firmly by fixing means such as a bolt to be installed without a gap.

When the installation of the lower plate 200 is completed, the reinforcing plate 300 is arranged on the lower plate 200 and the bolts are tightly fixed. The position of the reinforcing plate 300 may be determined by taking into account the position of the ridge 520 formed on the roof plate 500 to be installed later and mounting the supporting portion 320 formed on the reinforcing plate 300 in the ridge 520 The position is determined so that it can be eaten.

When the installation of the reinforcing plate 300 is completed, the heat insulating material 400 is installed. The heat insulating material prepared in advance is placed on the lower plate 200 to be installed. At this time, the heat insulating material 400 may be installed inside the supporting part 320 formed in the reinforcing plate 300. In the state where the heat insulating material 400 is installed inside the supporting part 320, the reinforcing plate 300 is attached to the lower plate 200 ).

When the installation of the heat insulating material 400 is completed, the roof plate 500 is installed on the reinforcing plate 300. While the crest 520 is positioned at the upper end of the support portion 320, the crest 520 is pressed while being pressed downward. In this state, the crest portion 520 of the roof plate 500 is supported by the support portion 320 and the remaining portion is supported by the heat insulating material 400.

When a structure 700 such as a photovoltaic panel is to be installed on the roof with the roof panel 500 installed, a bracket 600 is installed on the hill 520, The structure 700 may be installed on the roof by fixing a support supporting the support 700.

As described above, the present invention can be applied to a roof that has been installed in the past. It is also possible to install the perline 100 on the roof without removing the existing roof, and then to construct the roof by the above- It is possible to construct by way of.

100: Perlin, 200: bottom plate,
300: reinforcing plate, 320: supporting portion,
400: Insulation, 500: Roof plate,
520: a mountain part, 600: a bracket,
700: Structure.

Claims (2)

A roof plate 500 on which a lower plate 200 is installed and a plurality of peak portions 520 are formed on the perlene 100 and is arranged to be connected to each other in the width direction at regular intervals on the lower plate 200, A space formed between the lower plate 200 and the roof plate 500 is filled with a heat insulating material 400 to form a roof,
A reinforcing plate 300 having a plurality of supports 320 is provided so that the bottom is fixed to the lower plate 200 between the lower plate 200 and the roof plate 500 while the supporting portion 320 is fixed to the lower plate 200, Thereby reinforcing the strength,
A prefabricated roof reinforcement structure for installation of a structure for supporting the crest portion (520). The method according to claim 1,
Wherein the reinforcing plate (300) is formed separately for each of the positions where the crests (520) are formed.

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