KR20180054035A - A Prefabricated Non-Combustible Composite Bathroom Wall System And Installation Method Thereof - Google Patents

Abstract

The present invention relates to a prefabricated non-combustible composite wall system and an installation method thereof and, more specifically, relates to a prefabricated non-combustible composite wall system and an installation method thereof, wherein so as to easily and quickly install a bathroom wall in case of bathroom construction, a prefabricated bathroom wall and a wall panel surrounding a bathroom are combined to produce one wall to minimize a thickness of the wall. Moreover, an internal space by reducing the thickness of the wall is utilized, and bathroom installation time can be shortened. In addition, construction costs can be reduced.

Description

Field of the Invention [0001] The present invention relates to a prefabricated non-combustible composite wall,

The present invention relates to a prefabricated fireproof composite wall for a bathroom and a method of installing the same, and more particularly, to a fireproof composite wall for a bathroom, which is constructed by assembling a prefabricated bathroom wall and a wall panel enclosing the bathroom so that the bathroom wall can be installed easily and quickly, The present invention relates to a prefabricated fire-proof composite wall for a building bathroom and a construction method capable of minimizing the wall thickness of a factory, utilizing the interior space of a reduced wall thickness, reducing the time required for installing the bathroom, and reducing the construction cost.

In a conventional building, a built-in bathroom has a double-walled bathroom by installing a bathroom wall panel in the wall of a masonry wall or a concrete wall.

In addition, the existing bathroom construction is a wet type that installs the floor tiles by the tile in the field. The labor cost is expensive, the waste is much, and the construction period is long.

In addition, wall piping was installed between the bathroom wall and the prefabricated wall panel wall.

In addition, existing prefabricated bathroom panels are made of FRP (Fiber Reinforced Plastic) or SMC (Sheet Molding Compound) and connected to floor waterproofing and wall panels.

However, there is a problem that the mold production due to the bottom plate standardization must be used for the increase of the building cost and the mass construction prefabricated bathroom construction.

In order to solve the above-mentioned problems, there have been a lot of different types of built-in bathrooms in recent years, but there are still difficulties and problems with the double wall and the bottom plate.

Therefore, when building a built-in bathroom, there is a need for a single-walled, assembled bathroom wall and flooring that is installed regardless of quantity, but it has not yet satisfied that.

The object of the present invention is to provide an improved bathroom prefabricated fireproof composite wall for bathroom, waterproofing the bathroom floor for waterproofing, and a method of installing the same in order to solve the problems of the prior art for the above- By using the composite wall panel as a part of the structure attached to the wall, it is intended to secure the internal space, shorten the air, reduce the construction cost, and apply it to a small variety of specifications.

Also, there is no risk of fire because all materials entering the wall system are used as incombustibles.

The structure of the fireproof composite wall for bathroom according to the present invention is finished by a metal stud frame constituting a wall structure and a composite fireproof panel on the bathroom side and is disposed at the upper end, the lower end, the right end and the left end of the bathroom- A wall face plate made of stone, ceramic, metal, or wood; an aluminum foil sheet having a thickness of less than 1 mm disposed so as to face the wall face plate; and a density A hard foamed phenol foam of 50 kg / m 3 to 80 kg / m 3, and a plurality of metal round rods 9 mm in thickness, which are connected between the upper and lower pipe frames and arranged parallel at regular intervals do.

The dry-type fire-retardant composite panel according to the present invention greatly reduces the weight of the panel itself by molding the hard foamed phenol foam into the panel core, and further, each pipe frame is disposed at each edge portion of the panel, Is simple and simple to manufacture, high quality can be expected even at a low cost.

Also, there is no risk of fire by using non-combustible material.

This panel was installed in the metal stud wall structure of the factory and then the wall was constructed. Then, the wall was connected with the wall in the field, and the prefabricated fireproof composite wall with the wall and panel was installed at once. Then the sound insulating material was installed in the wall, Close the bathroom wall. Rockwool and glass fiber may be installed as a sound insulating material. This rock face or glass fiber is a sound insulation material, but it is also a thermal insulation material. It is also non-combustible.

The bottom waterproofing plate of the existing prefabricated bathroom is made of FRP or SMC by mold, and the price is expensive and applied only to mass production. Also, when the floor rings, the bottom plate is installed on the mortar like the conventional tile construction method, so the construction cost is expensive and there is no merit of dry type.

In the present invention, after waterproofing jaws are provided with steel angles on the floor, waterproofing of the urethane is performed, waterproofing of the waterproofing seas and jaws is made, and water leakage test is performed after the waterproofing jaws are attached to the metal studs Install the wall between the wall panels.

Since the prefabricated bathroom wall according to the present invention is provided with a piping system in the wall frame, it is possible to save space (about 5 cm) occupied by the piping system in the conventional system, and by inserting a sound insulating material therein, .

Also, by installing a gypsum board on the outside of the bathroom, it is possible to reduce the thickness of the existing bathroom wall by about 50% or more, and thus it is possible to widen the use space of the living space of the narrow space such as the one room, the officetel and the living house.

Also, by installing the ceiling plate after installing the wall, installing the mortar on the floor, and then installing the floor tile, it is possible to reduce personnel cost, construction cost, construction cost, and construction period.

1 is a perspective view showing the inside of a built-in bathroom wall according to the present invention.
2 is a perspective view showing the outer side of the assembled bathroom wall.
3 is a cross-sectional view showing the construction of the assembled bathroom wall.
4 is a cross-sectional view showing the construction of the assembled bathroom wall.
5 is a cross-sectional view showing a construction process of the assembled bathroom wall.
Fig. 6 shows a configuration used for connecting the assembly type bathroom wall.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Hereinafter, the contents described in the following embodiments are described as embodiments for carrying out the present invention, and the present invention is not limited to the contents described below.

In addition, terms and words used in the specification and claims should not be construed as being limited to ordinary or dictionary terms, but should be construed to mean and concept consistent with the technical idea of the present invention, The concept of terminology can be properly defined in order to explain it in terms of

FIG. 1 is a perspective view of an assembled bathroom wall structure according to an embodiment of the present invention, showing an inner structure of the assembled bathroom wall panel, that is, a side structure disposed inside the bathroom.

As shown in FIG. 1, a bathroom composite panel 1 having a composite bathroom wall structure according to an embodiment of the present invention includes a bathroom tile 3 disposed inside a bathroom, a hard foamed A panel combined with a phenol foam core and a metal stud frame 6.

The bathroom tile 3, which is an outer surface (bathroom wall) of the bathroom composite panel 1, is made of a plate material such as stone, ceramic, or marble, and its thickness is suitably about 7 to 10 mm. It can also be configured in the form of a Slice Jade to add aesthetic appeal. The total thickness of the phenol foam core to which the bathroom tile 3 is attached and the aluminum foil sheet to which the phenol foam core is attached is suitably about 15 to 18 mm.

The metal stud frame 6 is a wall frame in which metallic angular pipes are connected to each other. A zinc plated square pipe frame having a hollow interior and a square cross section is disposed at the upper, lower, right and left ends of the metal stud frame 6, that is, at each rim portion. And serves to firmly support the overall appearance of the bathroom composite panel 1 by preventing deformation of the frame and the frame frame. The width of the metal stud frame 6 is preferably about 80 to 100 mm, the length is about 225 cm, and the width is about 50 mm.

Fig. 2 shows another embodiment. It is shown that a phenol foam board 5a having a thickness of about 15 mm shown in Fig. 1 is used. The bathroom tile (3) is attached to one side of the phenol foam board (5a), and the metal stud frame (6) is attached to the other side.

FIG. 3 is a view showing a specific form or configuration of the bathroom composite panel 1 of FIGS. 1 and 2 installed in the bathroom. As shown in FIG. 3, a bathroom composite panel 1 is installed between a ceiling plate 2 and a floor slab 13 inside a bathroom. On the side of the inside of the bathroom with respect to the metal stud frame 6, A bathroom tile 3 is disposed on the other side and a gypsum board 16 having a thickness of approximately 9.5 mm is superimposed on the other side. After the bathroom composite panel 1 is installed and the other steps are finished, the sound insulating material 7 such as rockwool and glass fiber is inserted into the metal stud frame 6, and then the gypsum board 16 ).

Electricity or piping equipment can be installed using the free space inside the metal stud frame 6, and it is possible to make the bathroom wall with the minimum thickness by using the space inside the wall. Fig. 3 is an example of this, and a drain line is disposed inside the wall. The piping 15 of the drain line extends from the outside using the internal space of the metal stud frame 6 and is connected to the water receiving connection part 8 for connecting the faucet inside the bathroom. When the piping 15 is a hot water line It is possible to cover the entire hot water line by using the heat insulating material 14 or the like in order to keep the temperature of the heated water. Since the pipe 15 and the heat insulating material 14 can be disposed inside the wall, the bathroom composite panel 1 has a thickness of about 94 mm from the bathroom tile 3 inside the bathroom to the gypsum board 16 finish .

3, a waterproofing plate 12 made of a urethane material is coated on the upper surface of the floor slab 13 corresponding to the bottom of the bathroom, and the waterproofing plate 12 A plurality of floor tiles may be formed on the upper surface of the mortar 11, A watertight jaw 9 made of a waterproof material is disposed between the bathroom composite panel 1 and the subsequent floor slab 13 to solve problems such as leakage of water penetrating between the waterproof plate 12 and the mortar 11 do.

A floor angle 22 is provided between the bathroom composite panel 1 and the floor slab 13 and a bottom connecting portion 21 fixed to the side surface of the metal stud frame 6 and the bottom angle 22 are fixed do. A height adjuster 30 made of a rubber material may be used between the bathroom composite panel 1 and the bottom slab 13 to adjust the height of the bathroom composite panel 1. The shapes of the wall connecting portion 20, the bottom connecting portion 21, the bottom angle 22 and the height adjusting portion 30 are shown in FIG. Such a construction is a factory that manufactures a wall panel that is about half the height of a wall in a bathroom or a bathroom with a large space, and it is easy to install by connecting it to the top, left and right sides. Construction cost is low and air is saved.

Fig. 4 shows another example of the construction of the assembled bathroom wall, in which the bathroom composite panel 1 is produced in the factory in advance and installed in the field. In this case, the method of forming the bathroom composite panel 1 by foaming the hard urethane on the back surface of the bathroom tile 3 and then installing it on the metal stud frame 6 (see FIG. 2) And then installs it if there is an existing wall. In addition, the sound insulating material 7 or the gypsum board 16 inside the metal stud frame 6 is installed after the other process is completed.

5 is a schematic view showing a process of installing the bathroom composite panel 1 on the floor. (B) waterproofing jaws (9) or bottom angles (22) are installed along the water lines to provide urethane waterproofing; (c) The metal stud frame 6 of the body 1 is connected and fixed to each other to complete the (d) bathroom partition wall structure.

FIG. 6 shows a configuration used for connection of the assembly type bathroom wall and includes panel connecting portions 23, 24, 25 and 26 for connecting and fixing the metal stud frames 6 of the bathroom composite panel 1, A wall connecting portion 20, a height adjusting portion 30, and the like. Each of the panel connecting portions 23, 24, 25 and 26 is provided with a groove or an engaging hole. By fastening and fixing the groove or the engaging hole to a fixing screw to be fastened to the metal stud frame 6, (6) can be connected and fixed.

As described above, the assembled bathroom wall according to the present invention can be used in a bathroom constructed in hotels, apartments, multi-family houses, general houses, dormitories, military barracks, etc., C) installing a bathroom wall above the steel watertight jaw; and d) installing floor tiles on the mortar after installing the ceiling panel. Reduces costs and shortens pores than installing bathrooms. In addition, since it is manufactured in accordance with the drawing figures in the factory, it is installed after being brought into the field, it can be made about 5 to 6 times faster than the existing bath wall installing process. Also, since the sound insulating material formed inside is also used as a heat insulating material, A superior bathroom panel can be manufactured.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention.

1. Bathroom composite panel 2. Ceiling plate
3. Bathroom tiles 5a. Nonflammable phenol foam core board
6. Metal stud frame 7. Sound insulating material
8. Faulting connection 9. Waterproof chin
10. Floor tiles 11. Mortar
12. Waterproof plate 13. Floor slab
14. Insulation 15. Piping
16. Gypsum board 20. Wall connection
21. Floor connection 22. Floor angle
23, 24, 25, 26. Panel connection portion 30. Height adjusting portion

Claims (4)

In a prefabricated bathroom wall,
Bathroom tiles are located inside the bathroom,
A phenol foam board attached to the bathroom tile,
An aluminum foil sheet adhered to the phenol foam board,
A metal stud frame for supporting the panel and made of a plurality of angled pipes,
A pair of gypsum boards are attached to the metal stud frame,
A sound insulating material is formed inside the metal stud frame,
Wherein the plurality of panel connecting portions are connected to each other by using a plurality of panel connecting portions. The method according to claim 1,
Wherein the metal stud frame is provided with an electric or piping facility inside the metal stud frame. The method according to claim 1,
Wherein the sound insulating material is a rock surface or glass fiber. A method of installing a composite fire-proof composite wall for a bathroom,
The method comprising the steps of: fabricating a metal stud frame having a wall structure by joining a plurality of angular pipes;
Attaching an aluminum foil sheet to a phenol foam board,
Attaching a bathroom tile to the phenol foam board,
Attaching the panel to the metal stud frame and installing the panel in the bathroom;
Reinforcing a sound insulating material in the metal stud frame;
Attaching a gypsum board to the side surface of the metal stud frame,
Wherein a plurality of panel connecting portions are used to connect and fix the bathroom walls to each other.

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