KR101286774B1 - Waterproof prefabricated wall and Installation Method using the same - Google Patents

Abstract

The present invention relates to a method of constructing the ordered and waterproof prefabricated wall and the ordered and waterproofed prefabricated wall, wherein the upper runner 10 fixed to the ceiling and tracks are disposed on the upper and lower sides, and a plurality of the tracks are installed at regular intervals between the walls. A stud 20 for maintaining shape and reinforcement, an insulation member 30 inserted into the stud 20 between the upper runner 10 and the upper runner 10 adjacent thereto, and the stud 20 of the stud 20. A lower runner 100 into which a lower end and a lower end of the heat insulating member 30 are inserted and fixed, and gypsum finishing so that the stud 20 and the heat insulating member 30 are not exposed to the outside before and after the upper and lower runners 10 and 100. In the prefabricated wall formed of the board 40, the lower runner 100 is formed by bending the plate formed long in the longitudinal direction, in contact with the floor side of the building, the height of the foam concrete is poured from the floor of the building "┗┛ "In shape The bent water runner 110, and; A horizontal horizontal bending portion 120 which is bent at right angles symmetrically to the upper and left outer sides of the waterproof runner part 110 and horizontally, and the lower portion of the heat insulating member 30 is caught; The gypsum board vertical coupling part 130 which is bent orthogonally to the outer end of the hanging horizontal stepped portion symmetrically formed on the left and right sides and is vertically extended upward, and the lower surface of the gypsum board 40 corresponding to the vertically extended outer surface 130. )Wow; It is formed in the shape of a plate, the both ends of the plate-shaped corresponding to the inner perpendicular surface of the engaging horizontal stepping portion 120 and the gypsum board vertical coupling portion 130, the lower surface of both ends of the locking horizontal stepping portion It characterized in that it is formed by;

Description

Order prefabricated wall and installation method using the same {Waterproof prefabricated wall and Installation Method using the same}

The present invention relates to an order and waterproof prefabricated wall and a method of constructing an order and waterproof prefabricated wall using the same, and more particularly, the surrounding environment during the construction of the prefabricated wall, the water generated in the process of pouring concrete and curing the wall. Condensation according to the temperature difference of the moisture prevents moisture from penetrating the bottom side of the gypsum board by moisture generated, thereby preventing the gypsum board from rotting, and the lower surface of the gypsum board The present invention relates to an order and waterproof prefabricated wall and a method of constructing an order and waterproof prefabricated wall using the same, which can prevent mold and other habitats, as well as increase durability through blocking moisture infiltration.

In general, in order to construct walls inside and outside of a building, after arranging bricks on the floor in line, cement mortar is applied to the upper surface of the brick, and then another brick is laminated on the cement mortar, thereby repeating the ceiling from the floor. The construction should be suitable for the height of the wall to reach. Next, the wet method of completing a wall by plastering back and forth both surfaces which formed the wall with the brick laminated | stacked by cement mortar again is mentioned.

However, the wall constructed by such a wet method is very heavy, the workability of stacking bricks individually and the workability is inferior, and it takes a lot of construction time, there has been a limit to apply to a high-rise building.

Accordingly, a prefabricated wall construction method is introduced as a new construction method. The prefabricated wall construction method is a method of installing walls in advance between a floor and a ceiling of a place where a wall of a building is to be constructed in advance, and then attaching a plasterboard to both sides or one side of the panel to perform wall construction. This is called dry process.

Looking at such a dry method, as shown in Figure 1, the lower runner 100 and the upper runner 10 is installed on the floor and ceiling of the building. After that, a plurality of studs 20 are installed between the lower runner 100 and the upper runner 10, and then mineral wool between the studs 20 and adjacent studs (rock surface; MINERAL WOOL; ROCK WOOL; rock Heat-resistant mineral fiber manufactured artificially, which is non-combustible, lightweight, heat-insulating, sound-absorbing, durable material) or glass wool (flame retardant, best fire-retardant performance, heat insulation, sound absorption, reflecting composition life Combine the thermal insulation member 30 of the excellent building material. Next, after the upper and lower runners and studs, the heat insulating member is assembled, the wall is constructed by combining the gypsum board 40 on the front and rear surfaces. Here, on the floor concrete of the building where the lower runner 100 is located, it is constructed from the floor side in the order of soundproofing material-floor concrete foam-spouting (floor floor plastering; plastering) -ondol flooring.

However, when constructing the wall by the dry method as described above, despite the advantages there is a significant weakness. Such a weak point is that as shown in Figure 1, after installing the lower runner 100 of the ┗┛ shape on the floor of the building, so that the gypsum board used for wall construction on the outside and the bottom side of the lower runner directly contact. As it is installed, it absorbs water contained by concrete pouring and the like, and the durability is considerably reduced by water. That is, when rainwater enters the wall construction process or uses construction water during the construction process, water accumulates on the floor of the building. As water penetrates into the lower part of the gypsum board, mold is generated in the gypsum board. Such stains were generated, resulting in unsightly appearance, and odor was generated by the growth by microorganisms such as molds.

That is, when looking at the above-described construction procedure of the floor side, as the gypsum board is coupled to the front and rear of the lower runner in contact with the floor surface, a large amount of moisture included in the foam concrete work for floor insulation is in the concrete curing process. Some evaporate but some are absorbed by the gypsum board, causing problems as described above. In general, the constructed gypsum board absorbs moisture at a considerably high height from 300 mm to 600 mm from the floor due to the impregnation of water, thereby deteriorating the durability of the gypsum board due to moisture and proliferating and propagating microorganisms such as molds. Only the loss of function as a wall is the result.

Moreover, fungi harmful to the human body, such as mold caused by moisture, have to provide a deterioration of the living environment and an unclean environment for hygiene, causing significant problems to the public health.

Therefore, it is obvious that the construction quality is deteriorated due to such a problem, and in order to overcome this problem, the wall has to be reconstructed after the completion of the construction, thereby causing a huge waste of cost.

Therefore, the present invention has been created to solve the problems described above, after the lower runner is installed on the floor of the building, when the gypsum board is installed in the front and rear of the lower runner or after the construction, the water is in direct contact with the gypsum board It is possible to improve the durability of gypsum board, which is vulnerable to water, and to achieve high construction quality without any damage to the appearance, and to prevent the growth of fungi such as mold caused by water, thereby providing a clean and clean living environment. It is an object of the present invention to provide a possible order and waterproof prefabricated wall and a method of constructing the order and waterproof prefabricated wall using the same.

In order to achieve the above object, the ordered and waterproof prefabricated wall according to the present invention has an upper runner 10 fixed to the ceiling, and tracks are disposed on the upper and lower sides, and a plurality of the tracks are installed at regular intervals between them to maintain and reinforce the shape of the wall. Stud 20 and the heat insulating member 30 is inserted into the stud 20 between the upper runner 10 and the upper runner 10 adjacent to the lower end of the stud 20 and the thermal insulation Gypsum board 40 finishing the lower runner 100 is inserted and fixed to the bottom of the member 30 and the upper and lower runners 10 and 100 so that the stud 20 and the heat insulating member 30 are not exposed to the outside. In the prefabricated wall formed by, the lower runner 100 is formed by bending the plate formed long in the longitudinal direction, in contact with the floor side of the building, bent in a "┗┛" shape to the height of the foam concrete is poured from the floor of the building. Waterproof run 110 and; A horizontal horizontal bending portion 120 which is bent at right angles symmetrically to the upper and left outer sides of the waterproof runner part 110 and horizontally, and the lower portion of the heat insulating member 30 is caught; The gypsum board vertical coupling part 130 which is bent orthogonally to the outer end of the hanging horizontal stepped portion symmetrically formed on the left and right sides and is vertically extended upward, and the lower surface of the gypsum board 40 corresponding to the vertically extended outer surface 130. )Wow; It is formed in the shape of a plate, the both ends of the plate-shaped corresponding to the inner perpendicular surface contacting the horizontal hook portion 120 and the gypsum board vertical coupling portion 130, the lower surface of both ends of the horizontal hook portion It characterized in that it is formed by; a plurality of anti-falling member 140 is locked to the 120 to prevent the heat insulating member 30 to fall to the waterproof runner portion 110 side.

Here, it extends from the outer end of the locking horizontal step portion 120 and horizontally folded inwardly, connected to the gypsum board vertical coupling portion 130 is kept horizontal while the bottom of the gypsum board 40 is locked By the gypsum board vertically coupled portion 130, characterized in that the gypsum board settle horizontal portion 200 is formed.

On the other hand, at least one or more fixed penetration holes 112 are formed in the left and right sides of the waterproof runner 110 so that when the foam concrete or urethane foam is installed on the floor of the building, the waterproof runner portion ( 110) Bubble concrete or urethane foam is introduced into the water, characterized in that the waterproof runner 110 is formed to be fixed in place without shaking.

On the other hand, the order and waterproof prefabricated wall construction method according to the present invention in the prefabricated wall is installed to partition the space of the pre-built building, according to the form of partitioning the space on the floor and ceiling of the building to a predetermined height and runner Runner basic construction step (S100) for constructing the order of the waterproof runner portion and the waterproof lower runner; Frame construction step (S200) for installing a plurality of studs for maintaining the shape and reinforcement of the wall is installed at a predetermined interval between the upper runner and the lower runner and the waterproof runner; A heat insulating member pretreatment step (S300) for coupling the drop preventing plate to the upper side of the waterproof runner so as not to fall after the insulating material such as mineral wool or glass wool is installed as the waterproof runner of the lower runner for the order and the waterproof; A first wall surface construction step (S400) of correspondingly coupling a gypsum board to one outside of front and rear surfaces of the upper runner and the lower runner; An insulation member construction step (S500) of constructing an insulation such as mineral wool or glass wool between the studs; A second wall surface construction step (S600) of correspondingly joining a gypsum board to the remaining one surface of the front and rear surfaces of the upper runner and the lower runner after the first wall surface construction step; After the prefabricated wall is formed, flooring forming step (S700) for the sound insulation and insulation construction on the building floor side of the prefabricated wall side; It is characterized in that the construction; forming a ceiling (S800) to form a ceiling with a gypsum panel on the prefabricated wall.

Here, the floor floor forming step (S700) is a soundproofing reconstruction step (S710) for dustproof, soundproofing the bottom of the building and the waterproof runner portion; Placing and curing the foundation concrete up to a predetermined constant height of the bent upper portion of the waterproof runner for insulation and sound insulation on the surface subjected to the soundproofing reconstruction step (S720); Plastering treatment evenly on one surface of the cured through the foundation concrete pouring, and the ventilation control step of embedding heating means such as heating pipe (S730); It is characterized in that it is constructed as an ondol floor construction step (S740) for constructing high-density concrete with high thermal conductivity and heat preservation on the floor surface flat and evenly ground through the ventilation process step.

According to the present invention, after the lower runner is installed on the floor of the building, the gypsum board is bent and protruded to the outside of the lower runner so that water does not come into direct contact with the gypsum board after the construction of the gypsum board. By forming the vertical coupling portion, the water generated by the foam concrete work for thermal insulation construction, as the gypsum board vulnerable to water is directly coupled to the gypsum board vertical coupling portion that is bent and protruded without being joined from the bottom of the lower runner. It does not penetrate into the gypsum board, and it bends to prevent direct contact with the gypsum board even if water flowing from the surroundings after curing or construction collects on the bottom side of the lower runner, thereby enhancing the durability of the gypsum board, High construction quality can be achieved, and the growth of fungi such as mold caused by water is suppressed. There is a clean and provides a possible effect of a clean living environment.

1 is a side view of installation of a conventional prefabricated wall.
Figure 2 is a perspective view of the lower runner of the order and waterproof prefabricated wall according to the present invention.
Figure 3 is an overall installation side view of the order and waterproof prefabricated wall according to the present invention.
Figure 4 is a perspective view showing another embodiment of the lower runner of the order and waterproof prefabricated wall according to the present invention.
5 is an overall installation side view showing another embodiment of the lower runner of the order and waterproof prefabricated wall according to the present invention.
6 is a block diagram showing the construction method of the order and waterproof prefabricated wall according to the present invention.
Figure 7 is a block diagram showing a construction method for forming the floor of the order and waterproof prefabricated wall according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the order and waterproof prefabricated wall and the order and waterproof prefabricated wall construction method using the same.

Figure 2 is a perspective view of the lower runner of the order and waterproof prefabricated wall according to the present invention, Figure 3 is an overall installation side view of the order and waterproof prefabricated wall according to the present invention, Figure 4 is a view of the order and waterproof prefabricated wall according to the present invention Figure 5 is a perspective view showing another embodiment of the lower runner, Figure 5 is an overall installation side view showing another embodiment of the lower runner of the order and waterproof prefabricated wall according to the present invention, Figure 6 is an order and waterproof assembly according to the present invention Figure 7 is a block diagram showing the construction method of the wall, Figure 7 is a block diagram showing the construction method for forming the floor of the order and waterproof prefabricated wall according to the present invention.

In the order and waterproof prefabricated wall according to the present invention, water generated due to foam concrete pouring and water flowing from the outside or condensation due to high humidity and temperature is collected under the gypsum board of the prefabricated wall and absorbed into the gypsum board. It is formed to prevent water from penetrating into the gypsum board by the lower runner in order to prevent the degradation of the surrounding environment, the unsatisfactory result and the deterioration of the construction quality, such as the gypsum board mixing due to the decrease of durability of the gypsum board and mold. As shown in 2 and 3, it can be achieved through the lower runner (100).

Here, the upper runner 10 fixed to the ceiling for constituting the prefabricated wall, and the tracks are arranged in the upper and lower portions, and a plurality of them are installed at regular intervals between the studs 20 for maintaining the shape and reinforce the wall, and Insulation member 30 inserted into the stud 20 between the upper runner 10 and the upper runner 10 adjacent to each other, and the stud 20 and the insulating member 30 before and after the upper and lower runners 10 and 100. For gypsum board 40 which finishes so as not to be exposed to the outside, detailed description is omitted to clarify the configuration of the present invention.

The lower runner 100 is formed by bending a plate formed long in the longitudinal direction so that water does not penetrate from the lower portion of the gypsum board 40. The waterproof runner part 110, the hook horizontal stepped part 120, and the gypsum board vertical Combination portion 130, the fall prevention member 140 is composed.

The waterproof runner part 110 is in contact with the floor side of the building so that water does not penetrate into the gypsum board, and is bent in a shape of "┗┛" from the floor of the building to the height of foaming concrete. That is, the waterproof runner unit 110 is formed so that the vehicle or people can cross the river in a state not wet with water through a bridge over the river, the foam concrete containing a large amount of water and the gypsum board contacted from the foam concrete In order to prevent water from penetrating into the gypsum board is formed so as not to contact the foam concrete at a certain height, even if water is introduced into the foam concrete, water does not penetrate into the gypsum board side and is treated by collecting water on the waterproof runner part 110 side. will be.

On the other hand, at least one fixed penetration hole 112 is formed in the left and right sides of the waterproof runner 110. The fixed input hole 112 is bubble concrete or urethane foam is introduced into the waterproof runner unit 110 through the fixed input hole 112 when the construction of the bubble concrete or urethane foam on the building floor the waterproof runner unit 110 ) Is formed to be fixed in place without shaking.

The hanging horizontal step portion 120 is supported by mineral wool, glass wool, etc., which are filled for the purpose of heat insulation and soundproofing in the prefabricated wall, the drop preventing member 140 which will be described later so as not to fall to the lower, is caught, Waterproof runner 110 is bent at right angles symmetrically to the upper left and right and extends horizontally.

The vertical coupling portion 130 is formed so that the gypsum board is coupled to the outside to form a wall, it is formed so that the gypsum board is coupled on the position where the contact with water is blocked by the waterproof runner 110, the It is bent orthogonally to the outer end of the hanging horizontal step portion 120 symmetrically formed on the left and right to extend vertically upward. Then, one side of the lower surface of the gypsum board 40 is vertically extended to the outer side.

As mentioned above, the drop preventing member 140 may include a heat insulating member 30 such as mineral wool, glass wool, etc., which is dropped toward the waterproof runner part to prevent a decrease in function due to damage of the heat insulating member. Supporting the lower portion of the, is formed in a plate-like shape, both end portions of the plate-shaped correspond to the inner perpendicular surface of the engaging horizontal step portion 120 and the gypsum board vertical coupling portion 130, the lower end of both ends The surface is latched to the horizontal step portion 120 is provided with a plurality to prevent the heat insulating member 30 falls to the waterproof runner portion 110 side.

On the other hand, as shown in Figures 4 and 5, when the gypsum board 40 corresponding to the gypsum board vertical coupling portion 130, in order to maintain the horizontal of the gypsum board 40 and to increase the ease of construction It is also preferable to further form the gypsum board settling horizontal portion 200.

Here, the gypsum board settle horizontal portion 200 is extended from the outer end of the hanging horizontal stepped portion 120 is horizontally bent inwardly overlapping, connected to the gypsum board vertical coupling portion 130 is connected to the gypsum board ( 40) The lower end of the gypsum board vertical coupling part 130 is formed to correspond to the outer surface while being held horizontally.

The order and waterproof prefabricated wall according to the present invention can be achieved through the waterproof runner unit 110 to the lower runner 100, for partitioning the space of the building previously built using the lower runner (100). As shown in Figure 6, the construction method of the order and waterproof prefabricated wall, runner basic construction step (S100)-frame construction step (S200)-insulation member pre-treatment step (S300)-first wall surface construction step (S400)- Thermal insulation member construction step (S500)-the second wall surface construction step (S600)-floor floor forming step (S700)-ceiling forming step (S800) is constructed.

The runner basic construction step (S100) installs the upper runner on the ceiling side according to the form of partitioning the space on the floor and ceiling of the building. Then, the waterproof runner part is bent to a certain height so that the moisture contained in the foam concrete to be constructed through the floor floor forming step to be described later on the floor side of the building is directly exposed to the gypsum board so that the gypsum board is not absorbed. Install the lower runners for level and waterproofing on the concrete floor of the building.

The framework construction P (S200) is installed between the upper runner and the lower runner for the order and waterproof at regular intervals to install a stud for maintaining the shape of the wall and reinforcement.

Insulating member pretreatment step (S300) is prepared by combining the fall prevention plate to the upper side of the waterproof runner portion so as not to fall after the insulation material such as mineral wool or glass wool as the waterproof runner portion of the order and waterproof lower runner. Here, it is preferable to use a non-ferrous metal or a composite plate material having a durability that can support the load of a general heat insulating member and having a relatively strong humidity.

The first wall surface construction step (S400) is correspondingly coupled to the gypsum board on one side of the front and rear surfaces of the upper runner and the lower runner. Here, when corresponding to the gypsum board, it is preferable to construct a lower runner having a gypsum board horizontal portion bent so that the gypsum board can be supported in a horizontal state as in another embodiment of the present invention shown in FIG. .

The insulation member construction step (S500) is to perform a thermal insulation and sound insulation, dustproof, etc. of the wall by constructing a heat insulating material such as mineral wool or glass wool between the studs.

The second wall surface construction step (S600) is that the gypsum board is coupled to the opposite side of the gypsum board constructed through the above-described first wall surface construction step, the first of the front and rear surfaces of the upper runner and the lower runner After the wall surface construction step, the other side of the gypsum board is combined to correspond. Here, it is also preferable to construct a lower runner in which the gypsum board horizontal part is bent so that the gypsum board can be supported in a state where the lower part of the gypsum board is horizontally maintained, as in another embodiment of the present invention shown in FIG. 4.

The floor floor forming step (S700) after the prefabricated wall is formed, the soundproofing and heat insulation construction in the building floor side of the prefabricated wall lower side, as shown in Figure 7, the sound insulation material construction step (S710)-curing step (S720) Floor flooring is formed through the) -bangsing processing step (S730) -ondol floor construction step (S740).

The sound insulation material construction step (S710) is a step of applying the sound insulation material to the floor surface of the building to prevent the sound from ringing down by the impact on the floor in the user walking or moving.

In the curing step (S720) after diluting the concrete with water and diluting, a large amount of bubbles are generated to form a number of micropores by forming a concrete surface containing a large number of bubbles after curing the concrete, thereby insulating and soundproofing It is a step of constructing and curing foam concrete that can have an effect. Here, it is preferable that the construction of the bubble concrete is not poured more than the top dead center of the waterproof runner portion of the lower runner.

In other words, when foam concrete is poured beyond the position where the gypsum board is installed, moisture contained in the foam concrete is absorbed through the gypsum board, which causes the durability of the gypsum board and the deterioration of the living environment due to the mold. The curing step is to determine the gypsum board construction quality of the order and waterproof prefabricated panel because the wall is reinstalled or re-installation cost accordingly.

The ceiling forming step (S800) is a step to form a ceiling by coupling the gypsum panel and the like piece to the caring channel installed on the ceiling.

After the lower runner is installed on the floor of the building by the construction method and the lower runner of the present invention, water is not directly contacted with the gypsum board after the construction of the gypsum board to the front and rear of the lower runner, and thus the durability of the gypsum board. This promoted, it is possible to achieve a high construction quality of the wall without appearance damage, it is obvious that it is possible to provide a clean and clean living environment by suppressing the growth of fungi such as mold caused by water.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the invention as defined in the appended claims. Is within the scope of the description.

10: upper runner 20: stud
30: insulation member 40: gypsum board
100: lower runner 110: waterproof runner
112: fixed insertion hole 120: horizontal hook step
130: vertical joining gypsum board 140: drop prevention member
200: gypsum board inner horizontal part
S100: Runner basic construction stage S200: Frame construction stage
S300: pretreatment step of insulation member S400: construction step of the first wall surface
S500: insulation step construction step S600: second wall surface construction step
S710: reconstruction step S720: curing step
S730: Bangbang treatment step S740: Ondol floor construction step
S700: flooring forming step S800: ceiling forming step

Claims (5)

The upper runner 10 fixed to the ceiling, the tracks are arranged in the upper and lower parts and a plurality of them are installed at regular intervals between the studs 20 for maintaining the shape and reinforcing the wall, and adjacent to the upper runner 10 A heat insulation member 30 inserted into the stud 20 between the upper runner 10, a lower runner 100 into which a lower end of the stud 20 and a lower end of the heat insulation member 30 are inserted and fixed; In the prefabricated wall formed of a gypsum board 40 to finish the stud 20 and the heat insulating member 30 to the outside before and after the upper and lower runners 10 and 100, the lower runner 100 in the longitudinal direction A waterproof runner part 110 which is formed by bending the formed plate body and is in contact with the floor side of the building, and is bent in a "┗┛" shape from the floor of the building to a height at which foam concrete is poured; A horizontal horizontal bending portion 120 which is bent at right angles symmetrically to the upper and left outer sides of the waterproof runner part 110 and horizontally, and the lower portion of the heat insulating member 30 is caught; The gypsum board vertical coupling part 130 which is bent orthogonally to the outer end of the hanging horizontal stepped portion symmetrically formed on the left and right sides and is vertically extended upward, and the lower surface of the gypsum board 40 corresponding to the vertically extended outer surface 130. )Wow; It is formed in the shape of a plate, the both ends of the plate-shaped corresponding to the inner perpendicular surface contacting the horizontal hook portion 120 and the gypsum board vertical coupling portion 130, the lower surface of both ends of the horizontal hook portion Formed by a plurality of drop preventing members 140 to prevent the heat insulating member 30 from falling toward the waterproof runner part 110, and formed at the outer side of the hook horizontal step portion 120. Extends inward and horizontally folded inward, and is connected to the gypsum board vertical coupling part 130 to be held at the bottom of the gypsum board 40 while being held horizontally on the outer surface of the gypsum board vertical coupling part 130. The gypsum board settled horizontal portion 200 is formed to correspond, and at least one fixed input hole 112 is formed in the left and right sides of the waterproof runner 110 to fix the bubble concrete or urethane foam to the floor of the building. The waterproof runner parts through ipgong 112, 110 is a cellular concrete or polyurethane foam flowing into the inner side order, and moisture Prefabricated wall, characterized in that the waterproof runner part 110 is formed so as to be fixed in position without shaking.
delete delete In the prefabricated wall installed to partition the space of the pre-built building, the runner for constructing the upper runner and the lower runner for waterproofing and the waterproof runner having a certain height bent to a certain height according to the form of partitioning the space on the floor and ceiling of the building. Basic construction step (S100); Frame construction step (S200) for installing a plurality of studs for maintaining the shape and reinforcement of the wall is installed at a predetermined interval between the upper runner and the lower runner and the waterproof runner; A heat insulating member pretreatment step (S300) for coupling the drop preventing plate to the upper side of the waterproof runner so as not to fall after the insulating material such as mineral wool or glass wool is installed as the waterproof runner of the lower runner for the order and the waterproof; A first wall surface construction step (S400) of correspondingly coupling a gypsum board to one outside of front and rear surfaces of the upper runner and the lower runner; An insulation member construction step (S500) of constructing an insulation such as mineral wool or glass wool between the studs; A second wall surface construction step (S600) of correspondingly joining a gypsum board to the remaining one surface of the front and rear surfaces of the upper runner and the lower runner after the first wall surface construction step; After the prefabricated wall is formed, flooring forming step (S700) for the sound insulation and insulation construction on the building floor side of the prefabricated wall side; Including the ceiling forming step (S800) to form a ceiling with a gypsum panel on the prefabricated wall; The floor floor forming step (S700) is a soundproofing construction for soundproofing, dustproof to the bottom of the building and waterproof runner portion Step S710; Placing and curing the foundation concrete up to a predetermined constant height of the bent upper portion of the waterproof runner for insulation and sound insulation on the surface subjected to the soundproofing reconstruction step (S720); Plastering treatment evenly on one surface of the cured through the foundation concrete pouring, and the ventilation control step of embedding heating means such as heating pipe (S730); Ordering and waterproofing prefabricated wall construction method characterized in that the construction by the construction step (S740) to install a high density of high thermal conductivity and heat preservation on the floor surface of the floor ridge flat and evenly through the ventilation process step.
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