KR101250655B1 - Prefabricated wall - Google Patents

Abstract

The present invention can be completed in the construction site with a tile or a figure is pre-formed, the wall can be completed by a simple method, while the moisture content is low, it can be used in a humid environment, and excellent heat resistance, good thermal insulation, excellent soundproofing prefabricated Regarding the wall, the prefabricated wall according to the present invention comprises a base plate produced by a compression method using polystyrene, an adhesive means applied on one surface of the base plate, and a tile attached to the adhesive means, Insertion grooves formed along the longitudinal direction of the base plate is formed.

Description

Prefabricated Wall

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to prefabricated walls, and more particularly, to prefabricated walls that are prefabricated and installed dry at a construction site.

With the development of modern building technology, the construction capacity of each architect is improving. This improvement in building construction capacity is to first manufacture the building into blocks, then to assemble these block buildings to complete the building.

In this way, the building construction ability is improved to reduce the construction period of the building much, but it still takes a lot of time in the finish interior work. In the interior finishing work, there is plastering of the interior walls of the building, and bathroom construction in the case of living spaces. Plastering of the walls is the work of smoothing the walls for paperwork, and the bathroom work is the waterproofing and the tiles of the walls. There is this. In the case of commercial buildings, there is a case where tile construction is performed directly on the wall without the plastering of the wall.

When building facades such as tiles on a wall in an art museum or a large number of public buildings, tiles are attached by hand using mortar, which causes a lot of manpower and time, which ultimately increases the construction cost of the building. Becomes

Meanwhile, in residential buildings such as apartments, bathroom construction is a wet construction in which waterproofing is applied to the bathroom floor and tiles are manually attached to the walls of the bathroom using mortar. When the bathroom construction is done through such wet construction, a lot of manpower and time are consumed, and the cost is ultimately increased, and in addition, a lot of mortar is used in the wet construction, which increases the load on the bathroom floor, putting a lot of burden on the building. do. In particular, it is not desirable to construct a bathroom by the wet method in an apartment or a residential complex, which is built on a high-rise building and bears a great burden by the load of the building itself.

In order to solve such a problem, some are performing wall or bathroom construction by the so-called dry method. There is a bathroom construction using UBR (Unit BathRoom) as a kind of dry method currently used. UBR is a bathroom construction method using a synthetic resin material, such as plastic, to manufacture and install a bath tub and vanity wall in a unit block form. Such UBR has a tendency that the frequency of use is gradually decreased due to resonance or ringing phenomenon, difficult to cope with various plane shapes of the bathroom, and quality problems.

On the other hand, in another dry method without using the UBR, a base plate (wall) for constructing tiles and the like is installed on an unfinished wall, and a tile or the like is attached to the base plate or, if necessary, an art. It is done by drawing a picture. However, there is a merit of reducing the burden on buildings by not using mortar in such a dry process, but it also takes a lot of manpower and time because it is necessary to attach tiles or draw artistic drawings by hand in the field. There is still a disadvantage that the overall construction cost increases. On the other hand, in such a dry method, the base plate (wall) used is usually manufactured by using a CRC board and a gypsum board, so-called cement board, CRC board is heavy because it is heavy and contains a lot of moisture, It is difficult to use in existing bathrooms, and gypsum board has sufficient heat resistance in its own way, but it is not satisfactory enough.

Therefore, it is possible to reduce the burden on the building by installing the dry method, while providing a large number of pre-worked walls such as tile construction, so that the installation can be easily and simply installed at the construction site, and the cost increase can be suppressed. It would also be desirable to provide prefabricated walls that are excellent in heat resistance and low in moisture content.

The object of the present invention is that the tile attachment or figure is pre-formed to complete the wall by a simple method in the construction site, while the moisture content is low, it can be used in a humid environment and also excellent heat resistance, good heat insulation, sound insulation It is to provide an excellent prefabricated wall.

Prefabricated wall according to the present invention according to the object of the present invention consists of a base plate produced by a compression method using polystyrene, the adhesive means applied on one surface of the base plate, and the tile attached to the adhesive means, Characterized in that the insertion groove is formed in the longitudinal direction on the side of the base plate.

The base plate of the prefabricated wall according to the present invention is characterized by having a specific gravity of 0.6 to 0.8, a water content of 0.1% or less, a length change rate when absorbing 0.01% of water, and a thermal conductivity of 0.033 W / m ₂ K.

The adhesive means of the prefabricated wall is characterized in that the heat resistance of 70 ℃, the pot life time that can be used after mixing the main material and the mixing agent is 30 minutes, the drying time is modified epoxy which takes 24 hours at 20 ℃.

In the prefabricated wall, when the adhesive means is applied, the object is first subjected to an epoxy primer treatment.

The prefabricated wall is characterized in that connected to each other via a connecting means connected to the insertion groove.

When using the prefabricated wall according to the present invention, unlike the conventional method of attaching the tile using the adhesive means such as mortar on the wall by completing the wall using the CRC board and gypsum board simply by connecting the prefabricated walls by There is an effect that can simplify the process.

In addition, because the prefabricated wall according to the present invention is completed in advance in the factory and installed in the building construction site, there is an effect that can reduce the construction cost due to the shortening of air and reducing the man-hour of the contractor.

In addition, since the prefabricated wall according to the present invention is installed by a dry method, there is an effect that the wall construction can be performed even in winter.

In addition, since the base plate used in the prefabricated wall according to the present invention is produced by extrusion molding polystyrene, there is an excellent waterproof performance, it is possible to reduce the cost by minimizing the waterproof construction in places such as bathrooms.

In addition, since the base plate of the prefabricated wall of the present invention is made of a polystyrene material, there is an effect of having excellent sound insulation and heat insulation performance.

In addition, the quality is improved through the simplification of the process, and the construction errors are greatly reduced.

In addition, since the prefabricated wall is used in advance, it is unnecessary to cut the prefabricated wall in the field, thereby preventing the generation of scattering dust and achieving eco-friendliness.

In addition, if the prefabricated wall is produced in a customized manner in advance, there is an effect that can minimize the generation of construction waste at the construction site.

1 is an exploded perspective view showing the structure of a prefabricated wall according to the present invention.
Figure 2 illustrates the connection of the prefabricated wall according to the invention using the connecting means.
Figure 3 illustrates the completion of the wall using the prefabricated wall and the connecting means according to the invention.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

1 is a view showing the configuration of a prefabricated wall according to the present invention.

As shown in Figure 1, the prefabricated wall 100 according to the present invention is a base plate 10, the adhesive means 20 is applied on one surface of the base plate, and attached to the adhesive means to be attached to the base plate Consisting of tiles 30.

An insertion groove 11 is formed in the side surface of the base plate along the longitudinal direction of the base plate. The insertion groove 11 is for connecting a plurality of prefabricated walls according to the present invention, the horizontal connector of the "prefabricated wall connection structure" filed with the same applicant to the applicant of the present invention, the vertical connector and the closing connector Wall connections are inserted. The insertion groove may be formed on one side of the base plate (a of FIG. 1) or on both sides of the base plate (b of FIG. 1).

The base plate is produced by extruding polystyrene (Poly-stylen). The polystyrene is acid and alkali resistant, non-toxic environmentally friendly material, excellent heat and cold resistance, excellent performance as an insulating heat insulating material, and also excellent in moisture and soundproof performance. Therefore, it is used in various parts other than the material of the wall, and its usage is increasing rapidly.

The polystyrene constituting the base plate is finally extruded to have a specific gravity of about 0.6 to 0.8.

The base plate produced by extrusion molding polystyrene as described above is shown in Table 1 below.

division Invention crc board Gypsum board Length change rate when absorbing moisture (%) 0.01 or less 0.06 0.02 Moisture content (%) 0.1 below 10 0.5 importance 06-0.8 1.3 0.6-1.0 Thermal Conductivity (w / M ² k) 0.033 0.25 16.9

As can be seen from Table 1, the base plate of the prefabricated wall according to the present invention produced by using polystyrene shows a rate of change in length when absorbing 0.01% of water, which is twice as much as that of a conventional stone plate, CRC board. Six times superiority. That is, even when the base plate of the prefabricated wall according to the present invention is used in a bathroom having a lot of moisture, there is no influence on the change of the length of the base plate, so that the tiles installed on the base plate are not deformed at all. You will not.

In addition, the base plate according to the present invention shows excellent superiority of about 100 times than CRC board and about 5 times than gypsum board in water content. That is, even if the base plate according to the present invention is installed in a place where a lot of moisture, such as bathroom, the moisture content is low, the problem that may occur due to the moisture content, that is, the dampness always occurs in the bathroom, and the growth of mold due to excessive moisture content Problems such as this can be prevented.

In addition, the base plate according to the present invention has a specific gravity of 0.6 to 0.8, which imposes less load on the building than the CRC board.

As such, when using the base plate of the prefabricated wall according to the present invention, it has a very superior performance than the conventional wall using the CRC board and gypsum board.

The adhesive means applied to the baseplate of the prefabricated wall and used to attach the tile 30 on the baseplate is epoxy resin. The epoxy resin is a modified epoxy resin and has excellent adhesion to plastic products such as polystyrene. In addition, the modified epoxy resin has a heat resistance of 70 ℃, the pot life of the available time after mixing the main material and the curing agent is 30 minutes, the drying time is about 24 hours at 20 ℃.

Then, before the modified epoxy is applied to the base plate, an epoxy primer treatment is first performed on the object base plate and the tile.

Table 2 shows the test results performed by the Korea Institute of Construction Materials for the modified epoxy, which is an adhesive means according to the present invention.

Test result (Korea Building Materials Testing Institute) Test Items unit division result Test Methods Specific gravity-topic - One 1.65 KS M 3705: 2006 Specific gravity-hardener - One 1.68 KS M 3705: 2007 The tensile strength N / ㎣ One 73.4 KS M 3006: 2003 Compressive strength N / ㎣ One 103.1 KS M 3015: 2003 Flexural strength N / ㎣ One 102.8 KS M 3015: 2003 Tensile Shear Adhesion Strength (Subject: Metal) N / ㎣ One 12.6 KS M 3734: 2006

Figure 2 is a view illustrating the connection of the prefab wall using the horizontal connector, the vertical connector and the finishing connector of the "prefabricated wall connection structure" filed by the applicant of the present invention as the same according to the present invention . Figure 2 (a) is a view showing the horizontal connection of the two prefabricated wall 100 by using a horizontal connector (A), using a vertical connector (B) of Figure 2 (b) FIG. 2 is a view illustrating vertically connecting two prefabricated walls 100 at a corner portion, and FIG. 2 (c) illustrates connecting one prefabricated wall 100 using a finishing connector C at a door or the like. Figure is shown.

Since the ends of the wall connecting portions A1, B1, C1 of the connecting bodies as the connecting means, which are fitted into the insertion grooves of the prefabricated walls, are formed in a sawtooth shape, the prefabricated walls are firmly fixed by the connecting members.

3 is a view illustrating a state of completing a prefabricated wall by the method described in FIG. As can be seen from the drawings, it can be seen that the wall can be installed very simply by using the plurality of prefabricated walls according to the present invention and the above-described connecting bodies.

When using the prefabricated wall formed integrally with the base plate and the adhesive means and tiles as described above will have the features as described below.

Unlike conventional methods of completing the walls using CRC boards and gypsum boards and attaching the tiles using mortar-like adhesive means on the walls, the process can be simplified by simply connecting the modular prefabricated walls.

In addition, since the factory completes the prefabricated wall in advance and installs it at the construction site, the construction cost is reduced due to the shortening of air and the reduction of the man-hour of the contractor.

In addition, since the prefabricated wall according to the present invention is installed by a dry method, it is possible to perform wall construction even in winter.

In addition, since the base plate used in the prefabricated wall according to the present invention is produced by extruding polystyrene, it has excellent waterproofing performance, thereby reducing costs by minimizing waterproof construction in places such as bathrooms.

In addition, the use of polystyrene can have excellent sound insulation and heat insulating performance.

In addition, the simplification of the process improves quality and greatly reduces construction errors.

In addition, since the prefabricated wall is used in advance, cutting of the prefabricated wall is unnecessary in the field, thereby preventing the generation of scattering dust and ensuring environmental friendliness.

In addition, when the prefabricated wall is produced in a customized manner, it is possible to minimize the generation of construction waste at the construction site.

In addition to the above, there are many features.

As described above, by installing the prefabricated wall according to the present invention on the unfinished wall of the finished building, the number of workers and working time is much reduced than before, and the load burden on the building is not reduced because no mortar is used. It substantially improves the durability of the building.

10: base plate 20: adhesive means
30: Tile 11: Insertion Groove
100: prefabricated wall

Claims (5)

In the prefabricated wall consisting of a base plate, an adhesive means applied on one surface of the base plate, a tile attached to the adhesive means, the insertion groove is formed along the longitudinal direction of the base plate on the side of the base plate,
The base plate has a specific gravity of 0.6 to 0.8, a moisture content of 0.1% or less, a length change rate when absorbing moisture of 0.01%, and a thermal conductivity of 0.033 W / m ₂ K. delete The prefabricated wall according to claim 1, wherein the base plate is manufactured by extrusion molding polystyrene. The method of claim 1, wherein the adhesive means is heat resistance of 70 ℃, the pot life is 30 minutes, the usable time after mixing the main material and the mixing agent, the drying time is characterized in that the modified epoxy takes 24 hours at 20 ℃ Prefabricated wall. The prefabricated wall according to claim 1, wherein the prefabricated walls are connected to each other horizontally or vertically through a connecting means connected to the insertion groove.

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