KR102756669B1 - The internal insulation structure of a building and its construction method - Google Patents

Abstract

The present invention relates, in particular, to an internal insulation structure for a building, which is easy to construct and can be constructed by workers with low skill levels, has little material loss, and has excellent insulation performance, and a construction method thereof, and mainly comprises: a plurality of insulation boards arranged adjacent to each other on an internal wall surface of a building; a rubber body which is fixed in a position in close contact between the plurality of insulation boards and has a plurality of penetration holes formed vertically at regular intervals; and an insulation bar which includes a plurality of soft foam members which are foam-molded into each of the plurality of penetration holes.

Description

{The internal insulation structure of a building and its construction method}

In particular, the present invention relates to an internal insulation structure for a building, which is easy to construct and can be constructed by workers with low skill levels, has little material loss, and has excellent insulation performance, and a construction method thereof.

When the temperature of the interior surface of a building wall falls below the dew point temperature of the indoor air temperature, condensation occurs on the surface of the wall, damaging finishing materials such as wallpaper and causing discomfort to occupants. In addition, the area where condensation occurs easily absorbs or releases heat from the outside, making it a major channel for energy loss for indoor heating and cooling.

To prevent condensation, the walls of buildings facing the outside are usually insulated to prevent thermal bridges. This insulation method is divided into external insulation and internal insulation depending on where the insulation is installed.

External insulation is a method of installing insulation on the outer surface of a wall, that is, the part facing the outside air. Since the entire outer wall of a building is wrapped with insulation, it generally has better insulation performance than internal insulation and causes relatively less thermal bridges. However, it is difficult to construct, so it is expensive, and there is a problem that the exterior finishing materials can be easily damaged.

In contrast, internal insulation is a method of installing insulation on the inner surface of a wall, i.e. the interior side. When constructing a new building, the work is done indoors after the structural construction is complete, so construction is simple, and construction can be done regardless of climate conditions, so the construction cost is relatively low. In addition, it has the advantage of being easy to apply to existing buildings.

Due to these advantages of internal insulation, concrete structures are generally constructed using internal insulation.

However, this internal insulation has the problem that the surface temperature of the wall changes rapidly depending on the temperature change inside the room, which makes condensation more likely to occur than external insulation.

To solve this problem of internal insulation, the insulation performance is improved by increasing the thickness of the insulation material, but this causes another problem of reducing the usability of indoor space.

Recently, research is being continuously conducted on insulating materials that can improve insulation performance while reducing thickness.

Meanwhile, if there is a gap between the insulation materials adhered to the wall during internal insulation, there is a problem in that moisture flows in through the gap, causing condensation, mold growth, and reduced insulation performance.

In order to maintain insulation, urethane foam adhesive, etc. is injected into the gap between the insulation materials. However, there is the inconvenience of having to separately inject urethane foam adhesive into the gap, and cutting and removing the foam exposed on the insulation after the urethane foam adhesive foams with a cutter, etc.

In addition, patent documents such as 0001 have been proposed regarding a filling method that can easily inject filling insulation into the gaps between insulation materials.

Patent Document 0001 is characterized by including a disposition step of disposing a plurality of insulating materials adjacent to each other on a wall surface, an insertion step of inserting a filling insulating material into a space with a width smaller than the width of the space, and an expansion step of expanding the width of the filling insulating material to the width of the space. Since the filling insulating material is inserted into the space with a width smaller than the width of the space and the filling insulating material is expanded simultaneously with or after being inserted into the space, there is an advantage in that the filling insulating material can be easily inserted into the space and the adhesion between the filling insulating material and the plurality of insulating materials can be improved.

However, there is a problem in that it is cumbersome to insert the filling insulation material into the gaps between the insulation material and expand it separately.

KR10-1024552B1 (2011.03.17)

Thus, the present invention, which aims to solve the problems of the past, provides an internal insulation structure for a building and a construction method thereof, which is easy to construct and can be constructed by workers with low skill levels, has little material loss, and has excellent insulation performance.

In order to achieve the above purpose, the present invention comprises: a plurality of insulating boards arranged adjacent to each other on an inner wall surface of a building;

The present invention provides an internal insulation structure for a building, characterized by including a rubber body having a plurality of through holes formed vertically at regular intervals and fixed in a position in close contact between a plurality of insulating boards, and an insulation bar including a plurality of soft foam members foam-molded into each of the plurality of through holes.

It is preferable that the rubber body of the above insulating bar comprises one side wall and the other side wall which are arranged in parallel at regular intervals and extend in the vertical direction respectively, a front side wall which is formed integrally with both ends being perpendicular to the front end of the one side wall and the front end of the other side wall, a rear side wall which is formed integrally with both ends being perpendicular to the rear end of the one side wall and the rear end of the other side wall, and a plurality of baffles which are arranged at regular intervals in the front-back direction between the one side wall and the other side wall to form a plurality of through holes.

And it is preferable that the front and rear length of the rubber body of the above-mentioned insulating bar be formed to be the same as the thickness of the above-mentioned insulating board.

In particular, it is preferable that a plurality of auxiliary grooves extending in the vertical longitudinal direction are formed on the outer surfaces of one side wall and the other side wall of the rubber body of the insulating bar.

And it is preferable that the front wall of the rubber body of the above insulating bar be formed to be curved toward the rear.

It is preferable that an adhesive layer be formed on at least one of one side wall and the other side wall of the rubber body of the above insulating bar and adhered to the side of the above insulating board.

In addition, an insertion groove is formed on at least one of one side wall and the other side wall of the rubber body of the insulating bar,

It is preferable to provide a bar fixing part comprising a hook fixing plate inserted into the insertion groove, a one-side fixing pin extending in one direction from the center of the hook fixing plate and inserted and fixed into a soft foam member of the insulating bar, and the other-side fixing pin extending in the other direction from the center of the hook fixing plate and inserted and fixed into a side surface of the insulating board.

And, the present invention provides a method for constructing an internal insulation structure of a building, including: a) a first insulation board arrangement step in which a first insulation board is attached and arranged on an internal wall surface of a building; b) an insulation bar arrangement step in which an insulation bar, comprising a rubber body having a plurality of penetration holes formed vertically and a plurality of soft foam members foam-molded into each of the plurality of penetration holes, is attached and arranged on a side surface of the first insulation board; and c) a second insulation board arrangement step in which a second insulation board is attached and arranged on an internal wall surface of the building so as to be fixed in position in close contact with the insulation bar.

In particular, the present invention is easy to construct, so that even workers with low skill levels can construct it, and it has the effects of having little material loss and excellent insulation performance.

Figure 1 is a perspective view schematically showing the internal insulation structure of a building according to one embodiment of the present invention.
Figure 2 is a cross-sectional view along line A-A of Figure 1,
Figure 3 is a block diagram schematically showing a construction method of an internal insulation structure of a building according to one embodiment of the present invention.
Figure 4 is a perspective view schematically showing the state in which the first insulation board is placed on the inner wall surface of a building.
Figure 5 is a perspective view schematically showing a state in which an insulation bar is positioned and fixed on the side of the first insulation board.
Figure 6 is a perspective view schematically showing a state in which a second insulation board is placed on an inner wall surface of a building.
Figure 7 is a perspective drawing schematically showing an insulating bar.
Figure 8 is a perspective view schematically showing a state in which an auxiliary groove is formed on the outer surface of an insulating bar.
Figure 9 is a cross-sectional view schematically showing a state in which an insulation bar is installed with an auxiliary groove formed between the first insulation board and the second insulation board.
Figure 10 is a plan view schematically showing a state in which the front wall of the rubber body of the insulation bar is curved toward the rear.
Figure 11 is a cross-sectional view schematically showing the process of installing the first insulation board and the second insulation board on the interior wall of a building, and the front side wall of the intermediate insulation bar is spread out horizontally.
Figure 12 is a perspective view schematically showing a state in which an adhesive layer is formed on one or more of the one side wall and the other side wall of the rubber body of the insulating bar.
Figure 13 is a cross-sectional view sequentially showing the installation process of the first insulation board, the insulation bar with the contact layer formed, and the second insulation board.
Figure 14 is a perspective view schematically showing a state in which an insertion groove is formed on at least one of one side wall and the other side wall of the rubber body of the insulating bar.
Figure 15 is an exploded perspective view schematically showing a state in which the bar fixing part is separated from the insertion groove of the insulation bar.
Figure 16 is a cross-sectional view of Figure 15,
Figure 17 is a cross-sectional view schematically showing a state in which a bar fixing part is inserted and fixed into an insertion hole of an insulating bar.

Hereinafter, a preferred embodiment of the present invention will be described in more detail with reference to the attached drawings. Of course, the scope of the present invention is not limited to the following embodiments, and various modifications may be made by a person having ordinary knowledge in the relevant technical field without departing from the technical gist of the present invention.

FIG. 1 is a perspective view schematically showing the internal insulation structure of a building according to one embodiment of the present invention, and FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1.

As shown in FIGS. 1 and 2, the internal insulation structure of a building according to one embodiment of the present invention largely includes a plurality of insulation boards (20) and insulation bars (30).

The plurality of above-mentioned insulation boards (20) may be composed of, for example, a first insulation board (20a) and a second insulation board (20b).

The above first and second insulation boards (20a, 20b) are vertically arranged adjacent to each other on the inner wall surface of the building (10).

The above insulation bar (30) is vertically fixed in a close contact state between the first insulation board (20a) and the second insulation board (20b) of the plurality of above insulation boards (20).

Hereinafter, the internal insulation structure of the building of the present invention will be described in detail through the construction method of the internal insulation structure of the building of the present invention.

Figure 3 is a block diagram schematically showing a construction method of an internal insulation structure of a building according to one embodiment of the present invention.

As shown in Fig. 3, a method for constructing an internal insulation structure of a building, which is an embodiment of the present invention, largely includes a) a first insulation board arrangement step (hereinafter referred to as 'step a'), b) an insulation bar arrangement step (hereinafter referred to as 'step b'), and c) a second insulation board arrangement step (hereinafter referred to as 'step c').

Figure 4 is a perspective view schematically showing the state in which the first insulation board is placed on the interior wall surface of a building.

First, the step a) above is a step in which the first insulation board (20a) is vertically attached and arranged on the inner wall surface of the building (10) using various methods such as adhesive fixation, as shown in FIG. 4.

Figure 5 is a perspective view schematically showing a state in which an insulation bar is positioned and fixed on the side of the first insulation board.

Next, step b) is a step in which the insulating bar (30) is vertically attached to one side of the first insulating board (20a) as shown in Fig. 5.

Figure 6 is a perspective view schematically showing a state in which a second insulation board is placed on an interior wall surface of a building.

Next, the step c) is a step in which the second insulation board (20b) is vertically attached to the inner wall surface of the building (120) in various ways, such as adhesive fixation, so that the second insulation board (20b) is fixed in position while in close contact with the insulation bar (30), as shown in FIG. 6.

In the past, in order to maintain insulation properties, a urethane foam adhesive or the like was injected into the gap between the first insulation board (20a) in step b) and the second insulation board (20b) in step c) and foam-molded. However, there was a problem in that a separate urethane foam adhesive or the like had to be injected into the gap and that a lot of time was required for foam-molding.

In the present invention, since the insulation property can be improved through the insulation bar (30) that can be easily constructed between the first insulation board (20a) and the second insulation board (20b) within a short period of time, there is an advantage in that there is no need to use a separate urethane foam adhesive, etc. that requires a cumbersome injection process and a lot of time for foam molding.

Figure 7 is a perspective drawing schematically showing an insulating bar.

As shown in Fig. 7, the above-mentioned insulating bar (30) is largely composed of a rubber body (310) and a plurality of soft foam members (330).

The above rubber body (310) can be formed to extend vertically to a certain length in the upper and lower directions of the inner wall surface of the building (10).

On the inside of the above rubber body (310), a plurality of through holes (316) extending in the up-down direction of the inner wall surface of the building (10) can be formed at regular intervals in the front-back direction of the above rubber body (310).

The upper and lower portions of the plurality of above-mentioned through holes (316) can be opened.

The above rubber body (310) may be formed, for example, largely including one side wall (311), the other side wall (312), a front side wall (313), a rear side wall (314), and a plurality of partitions (315).

The above-mentioned one side wall (311) and the other side wall (312) can be formed to extend at regular intervals in the upper and lower directions of the inner wall surface of the building (10) so as to be perpendicular to the inner wall surface of the building (10).

The above-mentioned one-side wall (311) and the other-side wall (312) can be vertically arranged parallel at a constant interval from one side to the other side of the inner wall surface of the building (10).

The two ends of the front side wall (313), that is, one end and the other end of the front side wall (313), can be integrally formed in a state perpendicular to the front end of the one side wall (311) and the front end of the other side wall (312), respectively.

The two ends of the rear wall (314), that is, one end and the other end of the rear wall (314), can be integrally formed in a state perpendicular to the rear end of one side wall (311) and the rear end of the other side wall (312), respectively.

A plurality of the above-described bulkheads (315) can be arranged at regular intervals in the front-back direction of the one side wall (311) and the front-back direction of the other side wall (312) between the one side wall (311) and the other side wall (312) to form a plurality of the above-described through holes (316).

A plurality of the above soft foam members (330) can be filled in a foam-molded state into each of the plurality of above through holes (316).

The plurality of above soft foam members (330) can be made of various types such as soft urethane.

Next, as shown in Fig. 5, the front-rear length (L) of the rubber body (310) of the insulating bar (30) can be formed to be the same as the front-rear thickness (T) of the insulating board (20).

In the past, there was a hassle of having to separately inject urethane foam adhesive into the gap between the first insulation board (20a) and the second insulation board (20b), and then, after foam molding was completed, cutting and removing a portion of the urethane foam exposed to the outer surface of the first insulation board (20a) and the outer surface of the second insulation board (20b) in the outer direction of the gap using a cutter or the like.

In the present invention, since the front-back length (L) of the rubber body (310) of the insulating bar (30) is formed to be the same as the front-back thickness (T) of the insulating board (20), there is no concern that a part of the insulating bar (30) will be exposed toward the outer surface of the insulating board (20), and since there is no need for post-processing to cut a part of the insulating bar (30) with a cutter or the like so that it is not exposed, there is an advantage of less loss of the material forming the insulating bar (30).

Fig. 8 is a perspective view schematically showing a state in which an auxiliary groove is formed on the outer surface of an insulating bar, and Fig. 9 is a cross-sectional view schematically showing a state in which an insulating bar with an auxiliary groove formed between a first insulating board and a second insulating board is installed.

Next, as seen in FIGS. 8 and 9, on the outer surfaces of one side wall (311) and the other side wall (312) of the rubber body (310) of the insulating bar (30), a plurality of auxiliary grooves (311a, 312a) extending a certain length in the up-down direction of the rubber body (310) may be formed at a certain interval in the front-back direction of the rubber body (310).

The insulation property of the insulating bar (30) can be further improved due to the air layer formed in the plurality of auxiliary grooves (311a, 312a).

Figure 10 is a plan view schematically showing a state in which the front wall of the rubber body of the insulating bar is curved toward the rear.

Next, during the process of fixing the insulating bar (30) in a position in close contact between the first insulating board (20a) and the second insulating board (20b), there is a concern that post-processing may occur in which the front wall (313) of the rubber body (310) of the insulating bar (30) protrudes convexly toward the front outer direction of the insulating bar (30) and the convexly protruding portion must be removed by cutting it with a cutter or the like. Therefore, to prevent this, as shown in FIG. 10, the front wall (313) of the rubber body (310) of the insulating bar (30) may be formed to be convexly curved toward the rearward direction of the rubber body (310).

Figure 11 is a cross-sectional view schematically showing the process of installing the first insulation board and the second insulation board on the interior wall of a building, with the front side wall of the intermediate insulation board being spread out horizontally.

In this way, when the front wall (313) of the rubber body (310) of the insulating bar (30) is formed to be convexly curved toward the rear of the rubber body (310), as shown in FIG. 11, during the process in which the insulating bar (30) is pressed between the first insulating board (20a) and the second insulating board (20b), the front wall (313) of the rubber body (310) of the insulating bar (30) protrudes toward the front outer direction of the insulating bar (30) and gradually spreads out to a horizontal state, and the front outer surface of the front wall (313) can be positioned on the same horizontal line as the front outer surfaces of the first and second insulating boards (20a, 20b).

Fig. 12 is a perspective view schematically showing a state in which an adhesive layer is formed on at least one of one side wall and the other side wall of the rubber body of the insulating bar, and Fig. 13 is a cross-sectional view sequentially showing the installation process of the first insulating board, the insulating bar with the contact layer formed, and the second insulating board.

Next, in order to ensure that the insulating bar (30) can be positioned and fixed in a more stable and closely contacted state between the first insulating board (20a) and the second insulating board (20b), as shown in FIG. 12, for example, an adhesive layer (341) may be formed on at least one of one side wall (311) and the other side wall (312) of the rubber body (310) of the insulating bar (30).

A release paper (342) can be detachably attached to the above adhesive layer (314).

The adhesive layer (341) that can be formed on the one side wall (311) can be adhered and fixed in a state of surface contact with the other side surface of the second insulating board (20b).

The adhesive layer (341) that can be formed on the other side wall (312) can be adhered and fixed in a state of surface contact with one side of the first insulating board (20a) as shown in FIG. 13.

Fig. 14 is a perspective view schematically showing a state in which an insertion groove is formed in at least one of one side wall and the other side wall of the rubber body of the insulating bar, Fig. 15 is an exploded perspective view schematically showing a state in which a bar fixing part is separated from the insertion groove of the insulating bar, and Fig. 16 is a cross-sectional view of the combination of Fig. 15.

In order to ensure that the insulating bar (30) can be positioned and fixed in a more stable and closely contacted state between the first insulating board (20a) and the second insulating board (20b), as another example, as shown in FIGS. 14 to 16, an insertion groove (311b, 312b) may be formed in the insulating bar (30) and a bar fixing member (50) may be provided that is inserted and fixed into the insertion groove (311b, 312b).

The insertion groove (311b, 312b) may be formed on at least one of the side wall (311) and the other side wall (312) of the rubber body (310) of the above insulating bar (30).

The insertion grooves (311b) that can be formed on the above-mentioned one-side wall (311) can be formed in multiple numbers at regular intervals in the upper and lower direction of the above-mentioned one-side wall (311).

The insertion grooves (312b) that can be formed in the other side wall (312) can be formed in multiple numbers at regular intervals in the upper and lower direction of the other side wall (312) so as to be staggered with the insertion grooves (311b) of the one side wall (311).

The above bar fixing part (50) may be, for example, largely composed of a catch fixing plate (351), a one-side fixing pin (352), and the other-side fixing pin (353).

The above-mentioned fixing plate (351) can be inserted into each of the insertion grooves (311b, 312b).

The above-mentioned one-sided fixing pin (352) can be horizontally extended to a certain length from the center of one side of the above-mentioned catch plate (351) toward the outside of one side of the above-mentioned catch plate (351).

The above-mentioned other-side fixing pin (353) can be formed to extend horizontally by a certain length from the center of the other side of the above-mentioned catch plate (351) toward the outside of the other side of the above-mentioned catch plate (351).

When the above-described fixing plate (351) is inserted into the insertion groove (311b) of the one-side wall (311), the one-side fixing pin (352) can be inserted and fixed to the other side of the second insulating board (20b) at a certain depth, and the other-side fixing pin (353) can be inserted and fixed to the inside of one side of the soft foam member (330) of the insulating bar (30) at a certain length by various methods such as forcibly fitting and fixing. In this case, the insertion length of the other-side fixing pin (353) inserted and fixed to the inside of one side of the soft foam member (330) of the insulating bar (30) through the fixing plate (351) can be limited.

When the above-described fixing plate (351) is inserted into the insertion groove (312b) of the other side wall (312), the other side fixing pin (353) can be inserted and fixed to a certain depth into one side of the first insulating board (20a), and the one side fixing pin (352) can be inserted and fixed to a certain length into the other side of the soft foam member (330) of the insulating bar (30) in various ways, such as by force-fitting, and at this time, the insertion length of the one side fixing pin (352) inserted and fixed into the other side of the soft foam member (330) of the insulating bar (30) can be limited through the fixing plate (351).

Figure 17 is a cross-sectional view schematically showing a state in which a bar fixing part is inserted and fixed into an insertion hole of an insulating bar.

As seen in Fig. 17, instead of the insertion grooves (311b, 312b), insertion holes (311c, 312c) may be formed in the insulating bar (30), and the catch plate (351) may be inserted and fixed into each of the insertion holes (311c, 312c).

The present invention, configured as described above, has the advantages of being particularly easy to construct, allowing construction by workers with low skill levels, having little material loss, and having excellent insulation performance.

10; Building, 20; Insulation board,
30; Insulating bar, 310; Rubber body,
330; Foaming member.

Claims (14)

A plurality of insulation boards placed adjacent to each other on the interior wall surface of a building;
A rubber body which is fixed in position in a close contact between a plurality of the insulating boards, and which comprises a plurality of side walls and the other side walls which are arranged in parallel at regular intervals and extend in the vertical direction respectively, and a plurality of partition walls which are arranged at regular intervals in the front-back direction between the one side wall and the other side wall to form a plurality of through holes, and an insulating bar which comprises a plurality of soft foam members which are respectively foam-molded into the plurality of through holes, and an insertion groove formed in at least one of the one side wall and the other side wall;
An internal insulation structure for a building, characterized by including a bar fixing part comprising a hook fixing plate inserted into the insertion groove, a one-side fixing pin extending in one direction from the center of the hook fixing plate and inserted and fixed into a soft foam member of the insulating bar, and the other-side fixing pin extending in the other direction from the center of the hook fixing plate and inserted and fixed into a side surface of the insulating board.
In paragraph 1,
The rubber body of the above insulating bar has a front side wall formed integrally with both ends being perpendicular to the front end of one side wall and the front end of the other side wall;
An internal insulation structure of a building, characterized in that it comprises a rear wall formed integrally with both ends being perpendicular to the rear end of one side wall and the rear end of the other side wall.
In the second paragraph,
An internal insulation structure of a building, characterized in that the front-rear length of the rubber body of the above insulation bar is formed to be the same as the thickness of the above insulation board.
In the second paragraph,
An internal insulation structure for a building, characterized in that a plurality of auxiliary grooves extending in the vertical longitudinal direction are formed on the outer surfaces of one side wall and the other side wall of the rubber body of the above-mentioned insulating bar.
In the second paragraph,
An internal insulation structure of a building, characterized in that the front wall of the rubber body of the above insulation bar is formed to be curved toward the rear.
In the second paragraph,
An internal insulation structure for a building, characterized in that an adhesive layer is formed on at least one of one side wall and the other side wall of the rubber body of the insulating bar and is adhered to the side of the insulating board.
a) A first insulation board arrangement step in which a first insulation board is attached and arranged on an inner wall surface of a building;
b) a rubber body including a plurality of side walls and the other side walls which are arranged in parallel at regular intervals and extend in the vertical direction respectively, and a plurality of partitions which are arranged at regular intervals in the front-back direction between the one side wall and the other side wall to form a plurality of through holes, and an insulation bar arrangement step in which an insulation bar including a plurality of soft foam members which are respectively foam-molded into the plurality of through holes is attached and arranged on the side surface of the first insulation board;
c) a second insulation board arrangement step in which a second insulation board is attached and arranged on the inner wall surface of the building so as to be positioned and fixed in close contact with the above insulation bar;
In the step of placing the insulating bar above b), an insertion groove is formed on at least one of one side wall and the other side wall of the rubber body of the insulating bar,
A method for constructing an internal insulation structure of a building, characterized in that it comprises a bar fixing part comprising a catch fixing plate inserted into the insertion groove, a one-side fixing pin extending in one direction from the center of the catch fixing plate and inserted and fixed into a soft foam member of the insulating bar, and the other-side fixing pin extending in the other direction from the center of the catch fixing plate and inserted and fixed into a side surface of the insulating board.
In Article 7,
In the step of b) arranging the insulating bars, the rubber body of the insulating bars is formed integrally with a front wall in which both ends are perpendicular to the front end of one side wall and the front end of the other side wall;
A method for constructing an internal insulation structure of a building, characterized in that it comprises a rear wall formed integrally with both ends being perpendicular to the rear end of one side wall and the rear end of the other side wall.
In Article 8,
A method for constructing an internal insulation structure of a building, characterized in that the front-rear length of the rubber body of the insulation bar in the step of arranging the insulation bar is formed to be the same as the thickness of the insulation board.
In Article 8,
A method for constructing an internal insulation structure of a building, characterized in that, in the step of arranging the insulation bars above b), a plurality of auxiliary grooves extending in the vertical longitudinal direction are formed on the outer surfaces of one side wall and the other side wall of the rubber body of the insulation bar, respectively.
In Article 8,
A method for constructing an internal insulation structure of a building, characterized in that in the step of arranging the insulation bars above b), the front wall of the rubber body of the insulation bar is formed to be curved toward the rear.
In Article 8,
A method for constructing an internal insulation structure of a building, characterized in that an adhesive layer is formed on at least one of one side wall and the other side wall of the rubber body of the insulating bar in the step of arranging the insulating bar and is adhered to the side of the insulating board. delete delete