KR102560365B1 - Finishing structure of house outside wall surface and construction method thereof - Google Patents

Abstract

The present invention relates to a building wall finishing structure and a construction method thereof, and more particularly, to a building wall finishing structure and a construction method thereof, which can be quickly constructed in a short time without using an adhesive when finishing the wall of a building, thereby improving workability. will be.
The present invention is a building wall finishing structure having a heat insulating material and a gypsum board on the inner surface of a wall of a building, installed to cover the front edge of one side of the side of the heat insulating material, and an angle member to which the gypsum board is coupled to the front side, and one side is fixed to the inside of the wall and includes a bracket coupled to the other side of the angle member.

Description

Building wall finishing structure and its construction method {Finishing structure of house outside wall surface and construction method thereof}

The present invention relates to a building wall finishing structure and a construction method thereof, and more particularly, to a building wall finishing structure and a construction method thereof, which can be quickly constructed in a short time without using an adhesive when finishing the wall of a building, thereby improving workability. will be.

In general, a heat insulation layer for heat insulation, sound insulation, etc. is installed on the inside of the ceiling or wall of a building that is cast with concrete. Several methods of constructing such a heat insulation layer have been proposed and widely used in the prior art.

For example, looking at the conventional insulation layer construction method, which is most commonly and widely used, is as follows.

As shown in FIG. 1 of the accompanying drawings, wooden supports (2) made of square rods are fixedly installed on the inner surface of the wall (1) at regular intervals, and in the space between them, an insulating material (3 ) is filled, and then the finishing material 4 made of gypsum board is finally constructed with an adhesive (B) or a nail through the support (2).

However, in this method of constructing the heat insulation layer, first, nails or screws for fixing the support 2 made of wood to the wall 1 must be used inevitably, so it takes a lot of work time and poor workability. In addition, there is a problem in that the fixing force is weakened due to corrosion of nails or the like when a long period of time has elapsed.

In addition, since the support 2 is made of wood, there is a problem in that distortion occurs due to temperature change and humidity caused by heating and cooling of the building, and furthermore, vertical and horizontal adjustments are made when the finishing material 4 is attached and installed. It is difficult to do, and there is also a problem that it is impossible to construct unless a highly skilled worker.

In addition, as another construction method, as shown in FIG. 2 of the accompanying drawings, the insulating material (3) of Styrofoam made of a plate body is directly attached to the wall (1) using an adhesive (B), and the insulating material (3) After installing connecting members (5) made of materials such as wood, steel, PVC, etc. at regular intervals on the surface of the surface, the finishing material (4) is attached using nails, screws, etc. using the connecting members (5). is a composition

However, in this configuration, the construction of the connecting member 5 for constructing the finishing material 4 on the surface of the insulator 3 must be preceded, so that not only the workability deteriorates, but also highly skilled workers are required to align vertically and horizontally. Or there was a problem that couldn't be constructed.

In addition, in order to solve these problems, recently, as shown in FIG. 3 of the accompanying drawings, a stiff Styro pole cut into a square material is attached to the inner wall surface of the wall 1 at regular intervals, and then, A method of forming a rock wool layer 7 filled with rock wool between them and attaching a finishing material 4 to the styrofoam square member 6 is used.

Although this construction method can solve the above-mentioned problems to some extent, a certain space due to the adhesive layer is inevitably generated between the finishing material 4 and the rock wool layer 7 to be finished, so that the thickness of the wall increases that much, so that the indoor There is a problem in that the space is reduced, and also there is a problem in that the finishing material 4 is not completely fixed in close contact, so that a step is generated and twisted at the connection part of each finishing material 4.

In addition, in the prior art, since the drying of the adhesive layer must be accompanied, the construction time is delayed, and it is difficult to apply the adhesive with a uniform thickness when applying adhesives such as gypsum bond, so there are problems such as poor verticality and flatness.

Korean Patent Publication No. 10-2016-0005842 Korean Patent Publication No. 10-1999-0079302

The present invention is to provide a building wall finishing structure and a construction method thereof, in which workability is improved because it is possible to quickly construct the wall in a short time without using an adhesive when finishing the wall of the building in order to solve the problems of the prior art as described above.

In addition, the present invention is to provide a building wall finishing structure and a construction method thereof in which the quality of the inner wall finish is improved by improving the flatness and verticality of the wall.

In addition, the present invention is to provide a building wall finishing structure and a construction method thereof that are advantageous in preventing condensation by improving the flatness and verticality of the wall.

Various problems to be solved by the present invention are not limited to the above-mentioned problems, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

The present invention for achieving the above objects is a building wall finishing structure having a heat insulating material and a gypsum board on the inner surface of a wall of a building, installed to cover one front edge of the side of the heat insulating material, and the gypsum on the front side. An angle member to which a board is coupled, and a bracket having one side fixed to the inside of the wall and the other side coupled to the angle member.

According to one embodiment, the angle member may include a front plate covering the front edge of the heat insulating material and a side plate extending from the front plate and covering the edge side surface of the heat insulating material.

According to one embodiment, a coupling protrusion is formed on the side plate and is inserted into and coupled to the heat insulating material, and a portion of the side plate is cut into the coupling protrusion to protrude toward an inner surface.

According to one embodiment, the side plate is formed with a protrusion protruding to an outer surface by cutting a portion of the side plate, and when another heat insulator is installed on the side of the heat insulator to which the angle member is coupled, the protrusion is formed on the side of the other heat insulator. It can be inserted into and coupled between adjacent insulation materials.

According to one embodiment, the bracket may be formed of a mounting plate fixedly installed inside the wall, and a bending plate bent forward from the mounting plate and fixedly installed to the side plate of the angle member.

According to one embodiment, the gypsum board is fixedly installed to the front plate of the angle member, and may be installed so that gypsum boards horizontally adjacent to one front plate share it.

According to one embodiment, a moisture barrier may be provided between the insulating material and the gypsum board.

On the other hand, in the construction method of the wall finishing structure of a building, a first step of coupling an angle member to one corner of an insulator cut to a certain size and inserting and coupling the coupling protrusion of the angle member to the insulator, the insulator on the inner surface of the wall The second step of installing the bracket at a position considering the size and thickness of the angle member, the third step of placing the heat insulating material to which the angle member is coupled inside the wall and combining the bracket and the angle member, the front plate of the angle member A fourth step of bonding the gypsum board to the

According to one embodiment, in the fourth step, gypsum boards horizontally adjacent to the front plate of the angle member may be installed to share.

According to one embodiment, after the third step, a 3-1 step of constructing a moisture barrier on the front surface of the heat insulating material may be further included.

The present invention has an effect of improving workability because it is possible to quickly construct in a short time without using an adhesive when finishing the wall of a building.

In addition, the present invention has an effect of improving the quality of the inner wall surface finish by improving the flatness and verticality of the wall.

In addition, the present invention has an advantageous effect on preventing condensation by improving the flatness and verticality of the wall.

1 to 3 are views showing a method for constructing a heat insulation layer according to the prior art.
4 is a view conceptually showing a building wall finishing structure according to the present invention.
5 is a view showing an angle member of a building wall finishing structure according to the present invention.
6 is a view showing another embodiment of the angle member of the building wall finishing structure according to the present invention.
7 is a view showing a construction state of the building wall finishing structure using the angle member of FIG.
8 is a block diagram showing a construction method of a building wall finishing structure according to the present invention.
Figure 9 (a) to (d) is a view showing the construction method of the building wall finishing structure according to the present invention.

Embodiments of the present disclosure are illustrated for the purpose of explaining the technical idea of the present disclosure. The scope of rights according to the present disclosure is not limited to the specific description of the embodiments or these embodiments presented below.

All technical terms and scientific terms used in this disclosure have meanings commonly understood by those of ordinary skill in the art to which this disclosure belongs, unless defined otherwise. All terms used in this disclosure are selected for the purpose of more clearly describing the disclosure and are not selected to limit the scope of rights according to the disclosure.

Expressions such as "comprising", "including", "having", etc. used in this disclosure are open-ended terms that imply the possibility of including other embodiments, unless otherwise stated in the phrase or sentence in which the expression is included. (open-ended terms).

Expressions in the singular form described in this disclosure may include plural meanings unless otherwise stated, and this applies equally to expressions in the singular form described in the claims.

In this embodiment, unless otherwise described, the horizontal direction, the vertical direction, and the width direction refer to directions defined when the finishing material is fixed to the wall surface of a building and viewed from the front.

4 shows a conceptual view of a building wall finishing structure according to the present invention. 4, in the building wall finishing structure of the present invention, a heat insulating material 20 and a gypsum board 30 are installed on the inner surface of the wall 10 of the building, but cover one front edge of the heat insulating material 20. An angle member 110 to which the gypsum board 30 is coupled to the front side, and a bracket 120 having one side fixed to the inner surface of the wall 10 and the other side coupled to the angle member 110 ) may be included.

5 is a view showing an angle member of a building wall finishing structure according to the present invention. Referring to FIG. 5, the angle member 110 is bent backward and extended from a front plate 112 covering the front edge of the front plate 112 and at one end of the front plate 112 to form the insulator 20. It consists of a side plate 114 covering the corner side of (20), and the cross section may be formed in an "L" shape.

In addition, a coupling protrusion 115 protruding toward an inner surface may be formed on the side plate 114 by cutting a portion of the side plate 114 .

So, when the side plate 114 of the angle member 110 is pressed in a state in which the angle member 110 is positioned at the front edge of the insulator 20, the coupling protrusion 115 moves toward the inside of the insulator 20. The angle member 110 is simply coupled to the heat insulating material 20 by being press-fitted.

6 is a view showing another embodiment of the angle member of the building wall finishing structure according to the present invention, and FIG. 7 is a view showing a construction state of the building wall finishing structure using the angle member of FIG. 6 and 7, in the side plate 114, a part of the side plate 114 is cut so that a trapezoidal gap H is formed between the side plate and the protrusion protruding outward. (116) may be formed. More specifically, both sides of the protrusion 116 in the longitudinal direction are cut from the side plate 114, and both ends in the longitudinal direction are integrally provided with the side plate 114 so that the cut portion is the side plate. It is formed by protruding outward so that a trapezoidal void (H) is formed between (114).

So, when installing another insulator 20 on the side of the insulator 20 to which the angle member 110' is coupled, the insulator 20 is pressed from the front. The protruding portion 116 is inserted into the side of the heat insulating material 20 so that the heat insulating material 20 can be more firmly installed by a simple method by making coupling between adjacent heat insulating materials 20.

On the other hand, referring to FIG. 4 again, the bracket 120 is formed in an “L” shape composed of an installation plate 122 and a bending plate 124 bent forward from the installation plate 122, The mounting plate 122 is fixedly installed on the inner surface of the wall 10, and the bending plate 124 is fixedly installed on the side plate 114 of the angle member 110 so that the heat insulating material 20 is installed on the wall 10 ) serves to ensure that it is fixedly installed.

At this time, the bracket 120 is pre-installed on the inner surface of the wall 10 at an appropriate position in consideration of the size of the insulator 20 cut to a certain size and the thickness of the angle member 110, and the angle member 110 Since the angle member 110 and the bracket 120 are fixed and installed using a fixing means such as a bolt after positioning the combined insulator, it can be quickly installed.

Meanwhile, the gypsum board 30 is quickly fixed and installed to the front plate 112 of the angle member 110 using a fixing means such as a bolt, that is, a device such as a magazine drill.

At this time, the front plate 112 of the angle member 110 is installed so that the gypsum boards 30 adjacent in the horizontal direction are in contact with each other to share one front plate 112, so that the heat insulating material 20 is can be prevented from escaping.

That is, one side insulator 20 to cover the left half of the front plate 112 of the angle member 110, that is, the gypsum board 30 covering the front surface of the insulator 20 to which the angle member 110 is installed It is fixedly installed, and the gypsum board 30 covering the front side of the adjacent insulator 20 is fixedly installed so as to cover the right half of the same front plate 112.

Therefore, since the front side of the right end corresponding to the angle member 110 is covered by the gypsum board 30 of the insulator 20 adjacent to the insulator 20 to which the angle member 110 is installed, the insulator 20 is separated. It will be able to be installed firmly without failure.

In addition, although not shown, the gypsum board 30 may be installed as a fireproof gypsum board by overlapping two sheets, and in this case, the performance as a fireproof structure can be secured.

In addition, although not shown, the moisture-proof effect can be further increased by installing a moisture barrier on the front surface of the heat insulating material 20 before installing the gypsum board 30 and then constructing the gypsum board 30 .

Finally, the construction sequence of the present invention will be reviewed.

8 is a block diagram showing a construction method of a building wall finishing structure according to the present invention, and FIG. 9 (a) to (d) are views showing a construction method of a building wall finishing structure according to the present invention.

First, the angle member 110 is coupled to one side edge of the insulator 20 cut to a certain size, and the side plate 114 of the angle member 110 is pressed toward the insulator 20 so that the coupling protrusion 115 is the insulator. A first step (S1) of inserting and coupling to (20) is performed.

Next, a second step (S2) of installing the bracket 120 on the inner surface of the wall 10 at an appropriate location in consideration of the size of the heat insulating material 20 and the thickness of the angle member 110 is performed.

Next, a third step of locating the insulator 20 to which the angle member 110 is coupled to the inner surface of the wall 10 and combining the bracket 120 and the angle member 110 with a fixing means such as a bolt ( S3) is performed.

At this time, when the adjacent insulator 20 is installed, the next insulator 20 is pressed from the front, and the protrusion 116 formed on the side plate 114 of the angle member 110 installed on the adjacent insulator 20 It is installed so as to be inserted and coupled to the side of the insulator 20.

Next, a fourth step (S4) of coupling the gypsum board 30 to the front plate 112 of the angle member 110 by a fixing means such as a bolt is performed.

At this time, the front plate 112 of the angle member 110 is installed so that the gypsum boards 30 adjacent in the horizontal direction are in contact with each other to share one front plate 112, so that the heat insulating material 20 is can be prevented from escaping.

That is, one side insulator 20 to cover the left half of the front plate 112 of the angle member 110, that is, the gypsum board 30 covering the front surface of the insulator 20 in which the corresponding angle member 110 is installed It is fixedly installed, and the gypsum board 30 covering the front side of the adjacent insulator 20 is fixedly installed so as to cover the right half of the same front plate 112.

In addition, after the third step (S3), a 3-1 step (S3-1) of constructing a moisture barrier (not shown) on the front surface of the heat insulating material 20 may be performed twice.

As described above, the present invention does not use gypsum bond when finishing the wall of a building, so it can be quickly constructed in a short time, so the workability is improved, and the flatness and verticality of the wall are improved because no adhesive is used, so that the interior wall finish Quality is improved, and there is an advantageous effect in preventing condensation.

In this embodiment, the angle member 110 and the bracket 120 have been described as being formed in different configurations, but it is obvious that the case where the bracket 120 is integrally formed with the angle member 110 also belongs to the equivalent.

So far, the present invention has been looked at with respect to preferred embodiments. The above-mentioned embodiments should be considered from an explanatory point of view because they are merely illustrative for explaining the specific technical idea pursued by the present invention. Therefore, those skilled in the art to which the present invention pertains will be able to understand that it can be implemented in a modified form within a range that does not deviate from the specific technical idea pursued by the present invention. Furthermore, the scope of the present invention is shown in the claims rather than the above description, and inventions within the scope equivalent to the invention described in the claims should be construed as being included in the scope of the present invention.

10: wall 20: insulation
30: gypsum board 40: moisture proof paper
110,110': angle member 112: front plate
114: side plate 115: coupling protrusion
116: protrusion 120: bracket
122: installation plate 124: bending plate

Claims (10)

In the building wall finishing structure having a heat insulating material and a gypsum board on the inner surface of the wall of the building,
A front plate that is installed only at one corner of the insulator and covers the front surface of the one corner, and a side plate that is formed by being bent backward from one end of the front plate and extending to cover the side of one corner of the insulator in an "L" shape. An angle member to which the gypsum board is coupled to the outside of the front plate;
One side is fixed to the inside of the wall and the other side includes a bracket coupled to the angle member,
A part of the side plate is cut to form a coupling protrusion protruding inward to be inserted and coupled to the insulator,
In the side plate, both sides in the longitudinal direction are cut from the side plate, and both ends in the longitudinal direction are integrally provided with the side plate, and protrusions protruding outward so that a trapezoidal air gap is formed between the cut portion and the side plate are formed, When the other insulator is installed by pressing from the front side of the insulator to which the angle member is coupled, the contact surface between the insulators is slid so that the side of the other insulator is inserted into the protruding part to be coupled between adjacent insulators. Building wall finishing structure.
delete delete delete According to claim 1,
The bracket is a building wall finishing structure composed of a mounting plate fixed to the inside of the wall and a bending plate bent forward from the mounting plate and fixed to the side plate of the angle member.
According to claim 1,
The gypsum board is fixedly installed to the front plate of the angle member, and the gypsum board adjacent to the horizontal direction of one front plate is installed to share, the building wall finishing structure.
According to claim 1,
A building wall finishing structure in which a moisture barrier is provided between the insulation material and the gypsum board.
In the construction method of the building wall finishing structure,
An angle member made of an "L" shape, including a front plate that is installed only at one corner of an insulator cut to a certain size and covers the front surface of the one corner, and a side plate that is bent backward and extended from one end of the front plate. A first step of inserting and coupling the coupling protrusions of the angle members to the insulator,
A second step of installing a bracket on the inner surface of the wall at a position considering the size of the heat insulating material and the thickness of the angle member;
The insulator to which the angle member is combined is placed inside the wall and coupled between the bracket and the angle member. If there is an already installed adjacent insulator, the next insulator is pressed from the front, and the contact surface between the insulators slides, and the angle installed in the adjacent insulator is pressed. Both ends in the longitudinal direction of the side plate of the member are cut from the side plate, and both ends in the longitudinal direction are provided integrally with the side plate, and the cut portion protrudes outward to form a trapezoidal air gap between the side plate and the insulator. A third step of installing so as to be inserted and coupled to the side of the
A gypsum board is coupled to the front plate of the angle member, but among the gypsum boards adjacent in the horizontal direction, one gypsum board is installed to cover the left half of the front plate of the angle member, and the other gypsum board is installed to the right side of the front plate of the angle member A method of constructing a building wall finishing structure, including a fourth step of installing two gypsum boards to cover half and share the front plate of one angle member by making their cross sections contact each other.
delete According to claim 8,
A method of constructing a building wall finishing structure, further comprising a 3-1 step of constructing a moisture barrier on the front of the heat insulating material after the third step.