KR20090086733A - Method of construction of dry walls using cellulose fiber reinforced cement boards and autoclaved lighweight concrete panels - Google Patents

Abstract

A dry construction method of a wall is provided to integrate insulation and finish works for interior and exterior walls of a building using cellulose fiber reinforced cement boards and autoclaved lightweight concrete panels, thereby improving work efficiency. A dry construction method of a wall using cellulose fiber reinforced cement boards(1) and autoclaved lightweight concrete panels(2) is as follows. A runner(4) or a pair of L-shaped angles(8) are set up in the ceiling and floor of a building. The autoclaved lightweight concrete panels are fixed to both side of the runner or angles to form a space(6) between the autoclaved lightweight concrete panels. A plurality of injection ports for insulation material are punched on the autoclaved lightweight concrete panels, and aqueous soft insulation foam(3) is injected through the injection ports into the space formed between the autoclaved lightweight concrete panels. The cellulose fiber reinforced cement boards are attached onto the autoclaved lightweight concrete panels. A plurality of injection ports for insulation material are punched on the cellulose fiber reinforced cement boards and the autoclaved lightweight concrete panels. Aqueous soft insulation foam is injected through the injection ports into the space between the autoclaved lightweight concrete panels, and then sealed.

Description

Method of construction of dry walls using cellulose fiber reinforced cement boards and autoclaved lighweight concrete panels

The present invention relates to a method of constructing a dry wall using a non-asbestos fiber reinforced cement board and a lightweight foam concrete panel, and more specifically, to asbestos-free fiber reinforced cement board and lightweight foam concrete, such as interior and exterior walls, intergenerational walls, and partition walls of buildings. Formed into panels and injecting self-extinguishing post-foaming insulation between lightweight foam concrete panels to integrate the interior and exterior walls of the building with insulation, providing excellent insulation and fire and sound insulation as well as easy construction. The present invention relates to a construction method for building walls by a dry construction method capable of shortening and improving workability.

Conventional drywall systems for constructing interior and exterior walls of buildings, intergenerational walls and the like have generally used concrete panels or steel studs.

However, in the case of drywall using a concrete panel, the work efficiency is lowered due to the weight of the panel itself, and thus the work efficiency is lowered, and the load itself is increased, which is undesirable because the weight of the panel itself must be used. The drywall using steel studs is formed by installing a plurality of studs along the upper and lower tracks (runners) installed on the ceiling and the floor, and combining the interior and exterior structural plywood on both sides thereof to overcome the disadvantages of the concrete panel. However, the main, auxiliary insulation or sound absorbing material such as rock wool should be inserted between the gaps of the studs or in the inner grooves, and a plurality of fixing pins should be installed on the studs to prevent the heat insulating material or sound absorbing material from flowing downward. Drywall of different materials to ensure performance The disadvantages are the increased cost and the poor constructability of system complexities.

In addition, there is a dry method of installing exterior panels such as metal, stone, glass, etc. on concrete walls, but this can only be done by highly skilled workers, such as fixing fixtures in order to install stone, glass, etc. There was a disadvantage of deterioration, in which case the insulation was sandwiched between the walls of the building and the insulation was carried out separately from the finishing work.

Conventionally used as a thermal insulation method for the existing wall is a styrofoam lamination method, which is easy and inexpensive by fixing the styrofoam to the wall using an adhesive and then fixing the gypsum board using a gypsum board bond on the outer surface of the styrofoam. There is an advantage, but if the connection portion of the styrofoam is not in close contact with the insulation leak occurs, the sound absorption performance is poor, there is a flammable toxic gas occurs in the fire and it was difficult to extinguish the fire.

In addition, the polyurethane layer is formed by foaming rigid urethane without using styrofoam on the ceiling or wall of an apartment or building, and finishing it with gypsum board, panel, ocher layer, etc. Although the construction method for heat insulation, waterproofing and soundproofing is disclosed in Korean Patent Laid-Open Publication No. 2003-45890 (published on June 12, 2003), in this case, the surface of the foamed urethane layer is uneven, and thus the space between the finishing layer It is difficult to maintain the airtightness of the thermal insulation and waterproof structure due to the gaps generated in the gap, and even when the surface layer evenly, there was a problem of poor workability.

On the other hand, multi-family multi-family houses such as apartments and townhouses, which are typical residential forms of urban dwellers, are increasingly demanding sound insulation or sound insulation for minimizing damage to others and for maximum privacy. Even in this regard, the demand for more environmentally friendly materials is increasing in order to protect residents' health and environment.

Therefore, if it can be easily installed on the wall as a wall finishing material, it is excellent in fire resistance, sound insulation, heat insulation and light weight, and has excellent workability. Of course, it is expected to be very desirable in terms of insulation effect and environmental protection.

It would also be highly desirable in terms of construction economy if the finishing and insulation construction could be done in one piece.

Accordingly, the present inventors use environmentally friendly and lightweight insulating materials and finishes to overcome the problems of the prior art as described above, as well as excellent thermal insulation and fire resistance and sound insulation, as well as easy construction and shorten construction period and improve workability. As a result of repeated studies and tests on the construction method of the drywall which can be planned, the present invention has been completed.

It is an object of the present invention to provide a construction method of a dry wall that can integrate the finishing and insulation construction of interior and exterior walls, intergenerational walls, etc. using a non-asbestos fiber reinforced cement board, a lightweight foam concrete panel, and a post-foaming insulation.

Another object of the present invention is eco-friendly by foaming with water without using any existing environmentally destructive foaming agent, and after the installation of the panel and board for the wall is injected into the panel post-foaming to exhibit excellent heat insulation effect, sound absorption performance, self-extinguishing performance. It is to provide a construction method of drywall that can be.

Dry wall construction method of the present invention for achieving the above object is

Installing a runner or a pair of "a" angles on the ceiling and the floor of the building;

Securing a space between the lightweight foam concrete panels by fixing the lightweight foam concrete panels to the outer both sides of the runner or the pair of angles with a fixing member; And

Drilling a plurality of inlets for insulator injection into the lightweight foam concrete panel and injecting the aqueous soft insulation foam into the space formed between the lightweight foam concrete panels through the inlet, and then asbestos-free fibers on the outer both sides of the lightweight foam concrete panel Joining the reinforced cement board, or

The non-asbestos fiber-reinforced cement board is coupled to both outer sides of the lightweight foam concrete panel, and the plurality of inlets for insulator injection are injected into the non-asbestos fiber-reinforced cement board and the lightweight foam concrete panel. Injecting the aqueous soft insulation foam into the space formed between the panel and then the sealing process.

The first step in the construction method of the present invention is to fix the runner or "a" angle to the ceiling and floor of the building, the runner is fixed using a known fixing member such as nails or pieces, the "a" "The angles are fixed with a known fixing member, such as an O-bolt or hook bolt, with one side facing the ceiling or bottom and a pair of angles facing each other, with a water-based soft insulation between the two angles. Secure enough space to infuse the foam.

Thus, the runner or angle is fixed to the ceiling and the bottom surface, and then the lightweight foam concrete panel is fixed to the outside on both sides of the runner or a pair of angles facing each other vertically protruding from the ceiling or the bottom surface with the fixing member. Fastening members include known ones such as O-bolts or hook bolts.

The lightweight foamed concrete panel (ALC) is made of cement and siliceous raw material (SiO ₂ ), foaming agent and admixture in lime, and reinforced with reinforcing bars to make slurry with water. It is known as a building material with structurally stable plate-shaped Tobermorite crystals. It is an inorganic material that is not burned and does not generate toxic gas in case of fire.It has excellent fire resistance, and fine independent bubbles block conduction of heat, so it is about a quarter lighter than ordinary concrete and has more than 10 times better insulation effect. Of course, it shows excellent sound insulation and sound absorption, and can be easily cut and processed like wood. It is also an excellent dry material.

The ALC panel usually has a thickness of 5 to 20 cm, a length of 180 to 400 cm, and a width of 30 to 60 cm, but this is adjustable according to site conditions and demands, and the present invention is not limited to this numerical range.

In installing a plurality of ALC panels on the wall, the left and right continuous panels are successively faced to each other and fixed to the runner or angle, and then the connecting portion is sealed using a known sealing material, or the left and right unevenness on the connecting surface with the neighboring panel. The structure may be formed so that the convex-convexities are engaged with each other when they are joined together, and then the sealing process may be performed with a known sealing material.

In addition, when the height difference between the floor and the ceiling is to be connected to the plurality of ALC panels up and down, the upper and lower connection portions of the panel may be joined using a twisted wire anchor, and the reinforcing member may be selectively added. .

As described above, the ALC panel is fixedly installed, and then, in some cases, a slight distance from the ceiling or the bottom surface may occur. In this case, the urethane may be filled in a space that is spaced apart for tightly fixing the panel.

After fixing the ALC panel as described above, a plurality of injection holes for injecting the heat insulating material into the space formed between the ALC panel is drilled, and the aqueous soft heat insulating foam is injected through the injection hole. The injection hole is formed by drilling at a predetermined interval in an arbitrary position of the ALC panel using a drilling tool such as a drill.

The aqueous soft insulating material is a two-component modified polymer insulating material that is foamed approximately 100 times by a gas formed in a reaction of water by mixing two liquids of water and resin and polyisocyanate. It generates no harmful substances such as compounds or formaldehyde.

In addition, since it is injected through the injection hole and foamed in a volume of about 100 times, bubbles formed by the foaming of only 1% of the material can obtain excellent heat insulation and sound absorption effect, and can exhibit excellent airtightness.

Once injected and foamed, the aqueous soft insulating material does not peel off unless physical force is applied and good adhesion to all materials.

The thermal conductivity of the aqueous flexible insulating material of the present invention can minimize the heat loss to less than 0.034 Kcal / mh ℃, semi-open cell (semi-open cell) structure has excellent sound absorption performance as well as humidity control surface condensation occurs It doesn't work. In addition, even if close to the fire does not melt or ignite in heat, the surface is carbonized only the fire extinguishes the self-extinguishing heat insulation is excellent.

In addition, the aqueous soft insulating material of the present invention is foamed within about 5 seconds after being injected between ALC panels and can be applied regardless of the shape of the construction part up to the vertical surface as well as the curved portion, thus achieving excellent airtightness and making a significant contribution to shortening air. can do.

That is, in the case of the conventional polystyrene foam panels, since the panels are foamed in advance and provided between the walls or attached to the walls, the insulation is difficult to maintain when the wall structure does not match the shape of the polystyrene foam. In addition, urethane foam is provided on the wall by spraying and finishing work in that state, so if the sprayed surface is uneven, it is difficult to maintain the airtightness of the insulation structure. On the other hand, in the case of the present invention, since the insulation is injected into the space in a state where a certain space is secured between the ALC panels, there is no room for the above problems.

After injecting the aqueous soft insulating foam and foaming is completed, asbestos-free fiber reinforced cement board is bonded to the outer both sides of the ALC panel using a piece or a known fixing pin.

The non-asbestos fiber reinforced cement board (CRC board) is manufactured through an autoclave curing process after pressurizing at a high pressure of about 10,000 tons by mixing Portland cement, cellulose fiber, silica sand and additives with water. High strength and high density asbestos free fiber reinforced cement board, which can replace gypsum board, calcium silicate board, etc., with little change in length according to temperature variation, and excellent in water resistance, fire resistance, sound insulation, building interior, exterior, ceiling, interior It is an environmentally friendly dry finish that can be used in various ways. The CRC board is thinner than the ALC panel and has a thickness of about 0.3 to 1.5 cm.

According to the present invention, after bonding the CRC board to the ALC panel, it is optionally possible to apply wallpaper or tiles, paint over it or finish with other known finishes.

In addition, according to the present invention, after fixing the ALC panel to a runner or an angle, the CRC board is directly coupled to both outer sides of the ALC panel, and a plurality of inlets for insulator injection are penetrated through arbitrary positions of the CRC board and the ALC panel. By drilling, the aqueous soft insulating foam may be injected into the space between the ALC panels through the injection hole and then sealed.

The wall of the building provided by the construction method of the present invention as described above is excellent in fire resistance and sound insulation performance as well as the thermal insulation effect, the construction process is easy to achieve standardization and standardization of the product, construction by the dry construction method As a result, the construction period can be shortened and the construction cost can be reduced.

In addition, according to the present invention, by using the asbestos-free fiber reinforced cement board, lightweight foam concrete panel and post-foaming insulation material, it is possible to integrate the finishing and insulation construction of interior and exterior walls, intergenerational walls, etc., thereby improving work efficiency and economic efficiency. have.

In addition, according to the present invention is eco-friendly by foaming with water without using any existing environmentally destructive foaming agent, after installing the panel and board for the wall is injected into the panel after foaming to exhibit excellent insulation effect, sound absorption performance, self-extinguishing ability. It is possible to provide a construction method of drywall that can be.

Looking at the construction method of the present invention in more detail with reference to the accompanying drawings as follows.

First, the ceiling and the bottom surface of the space to be built to the wall to be aligned vertically, and fixed to the ceiling of the building by using a pair of "a" angle (8) using the O-bolt (5), The runner 4 is fixed to the floor by nails or pieces (not shown).

Here, the pair of "a" angles 8 should be spaced apart corresponding to the widths of the runners 4 installed to face each other.

Then, the lightweight foamed concrete panel 2 is fixed to the outer both sides of the runner 4 and the pair of angles 8 by fixing with a fixing member such as an O-bolt 7 or a hook bolt. Allow a space to form between the panels 2.

After the lightweight foam concrete panel 2 is fixedly installed, a plurality of inlets (not shown) are drilled at intervals over the panel 2 to inject and foam the aqueous flexible insulating foam 3 through the inlets. .

The aqueous soft insulation 3 is foamed 100 times after injection to fill the space formed between the lightweight foam concrete panels 2. Such aqueous soft insulation 3 can finish foaming within about 5 seconds after being injected.

After foaming is completed by injecting the aqueous soft insulating material 3, the non-asbestos fiber-reinforced cement board 1 is bonded to the outer both sides of the lightweight foamed concrete panel 2 using pieces or fixing pins (not shown). Let's do it.

Optionally, the non-asbestos fiber reinforced cement board 1 may be bonded to the lightweight foam concrete panel 2 and then coated with a wallpaper, tile or paint thereon for finishing.

Also optionally, after fixing the lightweight foamed concrete panel 2 to the runner 4 and the "a" angle (8), asbestos-free fiber reinforced cement board (1) on both outer sides of the lightweight foamed concrete panel (2) Directly joining, puncturing a plurality of injection holes penetrating the board (1) and the panel (2) at regular intervals, the aqueous soft insulating foam (3) can be injected and foamed through the injection hole, in this case the asbestos free The inlet formed on the fiber reinforced cement board 1 should be sealed.

The drawings of the present invention show a pair of lightweight foamed concrete panels 2 and asbestos free fiber reinforced cement boards 1, respectively, but in the case of installing a plurality of lightweight foamed concrete panels 2 on the wall, they are continuous from side to side. After the panels are continuously joined to each other and fixed to the runner 4 and the angle 8, the joints are sealed using a known sealing material, or the left and right uneven structures are formed on the connection surface with the neighboring panels, thereby forming the unevenness. These can be meshed with each other and then sealed with a known sealing material.

In addition, when the height difference between the floor and the ceiling is large, and it is necessary to connect the plurality of lightweight foam concrete panels (2) up and down, the upper and lower connecting portions of the panel can be combined with a long iron.

In addition, the lightweight foamed concrete panel (2) is fixed to the runner (4) and the angle (8) in a state where the ceiling or the floor and spaced apart (6) may occur, in this case for close fixing of the panel (2) Urethane may be filled and filled in the space 6 spaced apart.

1 is a partial cross-sectional view and a partially enlarged view of a wall constructed in accordance with the drywall construction method of the present invention.

Claims (6)

Installing a runner or a pair of "a" angles on the ceiling and the floor of the building; Securing a space between the lightweight foam concrete panels by fixing the lightweight foam concrete panels to the outer both sides of the runner or the pair of angles with a fixing member; And Drilling a plurality of inlets for insulator injection into the lightweight foam concrete panel and injecting the aqueous soft insulation foam into the space formed between the lightweight foam concrete panels through the inlet, and then asbestos-free fibers on the outer both sides of the lightweight foam concrete panel Joining the reinforced cement board, or The non-asbestos fiber-reinforced cement board is coupled to both outer sides of the lightweight foam concrete panel, and the plurality of inlets for insulator injection are injected into the non-asbestos fiber-reinforced cement board and the lightweight foam concrete panel. Dry wall construction method comprising the step of injecting a water-based soft insulating foam into the space formed between the panel and the sealing treatment. The method of claim 1, wherein when the lightweight foamed concrete panel is connected to the wall from side to side, the panels are sealed to the runner or the angle by continuously joining the panels from side to side and sealing the joints. The method of claim 1, wherein when the lightweight foamed concrete panels are connected to the wall from side to side, forming a left and right uneven structure on the connection surface of the panels continuous from side to side to allow the unevenness to interlock with each other, and then sealing treatment. Dry wall construction method characterized in that. The method of claim 1, wherein when the lightweight foamed concrete panels are to be connected up and down, the dry wall construction method is characterized by combining the vertical connecting portions of the panels arranged up and down with a long iron. The method of claim 1, wherein when the lightweight foam concrete panel is slightly separated from the ceiling or the bottom surface, the urethane foam is filled. The method of claim 1, further comprising finishing with a wallpaper, tile or paint over the asbestos free fiber reinforced cement board.

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