KR20180138225A - Fireproof partition structure and its construction method - Google Patents

Abstract

The present invention relates to a construction method of a fireproof partition wall in the form of a non-bearing wall installed in various buildings and a construction method thereof, and more particularly to a construction method of a fireproof partition wall using a lightweight stud and a double gypsum board Wherein the flame retardant sheet is attached to the opposite ends of the gypsum board and the gypsum board at opposite ends of the light gypsum board so that the mutually end fixed portions of the gypsum boards are staggered with each other, Since the fireproof sealant is filled between the mutual end fixing portions of the fireproof gypsum boards, the fireproof partition walls can be lightened by using the lightweight studs. Thus, the fireproof gypsum walls can be lightened, By mixing fireproof gypsum board, it is not only economical but also excellent fire resistance And since the end fixing portions between the general gypsum board and the fireproof gypsum board do not overlap with each other, the flame or heat can be prevented from being transmitted or passed through the mutual clearance, so that the fire resistance performance is excellent. The width of the lightweight studs can be varied or the width of the lightweight studs can be adjusted so that the fireproof partition walls having various thicknesses can be constructed according to the purpose of the construction. The lightweight studs can be thermally conducted or the lightweight stud itself can be deformed by overheating It is effective to produce more excellent fire resistance and durability.

Description

[0001] Fireproof partition structure and its construction method [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a construction method of a fireproof partition wall in the form of a non-bearing wall installed in various buildings and a construction method thereof, and more particularly, And the fixing parts of the general gypsum board and the fireproof gypsum board are staggered with each other, and a fire is generated through the flame-retardant sheet and the fireproof sealant treatment between the stitches and the gypsum board of the general gypsum board. It is possible to efficiently block the heat transfer and the flame transmission as well as the combustion of the partition, and to improve the workability of the refractory partition wall.

The 'Fire Rescue Structure' defined by the Building Law means the structure confirmed by the head of the Korea Institute of Construction Technology and confirmed by the fire resistance performance. The fire resistance performance standard is determined according to the height of the building, the number of floors, It is stipulated that it should be a refractory structure capable of withstanding.

In addition, the fireproof partition is used as an inner wall for partitioning or isolating the inner space of a general building or a prefabricated building, so that a building permit can be obtained only if it has a fireproof performance for each use.

On the other hand, a partition used as a non-bearing wall is generally called "SGP partition", that is, a steel plate is attached to the outside of the gypsum board. However, the existing SGP partition does not satisfy the fire resistance performance required by Korea Institute of Construction Technology This is because, when heat is applied from one side of the partition, the gypsum board alone can not effectively block the heat from being transferred to the other side. In particular, it is used as a frame for forming a partition or as a column for connecting a partition and a partition There is a problem in that it can not pass the fire resistance test because the heat is transferred through the C-type stud.

Accordingly, as in the case of Japanese Patent Registration No. 10-0899597, a separate fireproof partition is attached to the front and rear surfaces of the C-shaped stud which constitutes the inner skeleton, and the fireproof fiber board is attached to the outer side of the fireproof gypsum board, A flame-retardant fiber board and a flame-retardant fiber board are disposed on the outer side of the flame retardant fiber board. The flame retardant fiber board and the flame retardant gypsum board are disposed on both sides of the flame retardant gypsum board. There has been found a fireproof partition and a construction method thereof in which a gypsum board is further adhered so that the heat transfer to the other space and the transmission of the flame can be effectively blocked when a fire occurs in one space separated by the partition.

However, in the above-described refractory partition and the partition wall constructed using the same, the flame-retardant gypsum board and the flame retardant fiber board are simply attached to the existing C-type stud, and then the partition wall is constructed using the existing flame retardant gypsum board and the flame retardant fiber board So that the heat and flame of high temperature can flow into the inside of the partition wall through the gaps between the flame-retarding gypsum boards, and it can leak out to the other side, which is a fundamental solution.

That is, when the flame resistant gypsum board and the flame retardant fiber board are attached to the surface of the C-type stud as described above and the flame retardant gypsum board and the flame retardant fiber board connecting the flame retardant gypsum board and the flame retardant fiber board are fixed to each other, there will be a gap between them. Heat or flame can escape to the other space through the inside of the partition wall and it takes considerable effort and time to attach the flame retardant gypsum board and the flame retardant fiber board to the surface of the C type stud. Because it is very uneconomical.

In addition, even when the existing refractory partition wall is constructed, the lower runner and the upper runner are fixedly installed on the floor and the ceiling of the room, and the C-type stud is measured and fixed between the upper and lower runners at regular intervals Since the flameproof board and the flame retardant fiber board must be attached and fixed to the surface of the C-type stud in a state in which the C-type stud is formed, it is necessary to pay considerable care and effort in fixing the C- It is difficult to obtain a firm fixing force of the flame retardant gypsum board and the flame retardant fiber board which are fixedly installed.

Further, when the spacing between the C-type studs is not uniform and the ends of the two gypsum boards are not positioned exactly at the center of the C-type studs and are fixed to one side, the gap between the neighboring gypsum boards The flame or the heat can flow into the partition wall more rapidly through the partition wall, thereby failing to function as an efficient fire partition wall.

In the case of conventional refractory partitions, a mineral wool (or glass wool) charged between flame-retarded gypsum boards positioned before and after a partition wall, that is, a C-type stud, has a density of 24 to 140 K and a thickness of 50 to 100 mm In the case of mineral wool, since it is filled with a height of 2.5 ~ 3.0m in the narrow gap of the front and back flame-retarding gypsum boards, the deflection gradually occurs with time. As a result, the upper part of the refractory partition wall is filled with mineral wool And the lower end of the refractory partition wall is filled with the mineral wool in a high density state, so that the refractory performance is not uniformly exhibited on the entire surface of the refractory partition wall.

Accordingly, the applicant of the present invention has an inner panel in which a mineral wool is filled in a steel sheet and both side ends thereof are fitted with female and male fittings as in Patent Registration No. 10-1590860, The flame retardant gypsum board and the flame retardant fiber sheet are fixed to the front and rear surfaces of the inner panel and the flame retarding panel is fixed to the surface of the flame retardant gypsum board,

It is possible to easily fix the flameproof board and the flameproof panel by using the continuously inserted inner panel, so that the construction of the flameproof panel can be performed more quickly and easily, and the boundary line between the inner panel and the flameproof board and the flame- And the upper runner and the lower runner are not exposed to the outside, so that a more compact and beautiful partition wall can be completed, and a construction method thereof And have registered and registered.

However, since the refractory partition structure and the construction method thereof use the inner panels filled with the mineral wool continuously, the weight of the partition itself is very heavy and the construction is very troublesome due to the heavy weight. In fact, The inner panel of the state is relatively expensive, and the construction cost rises greatly.

In general, the partition is constructed with different thickness depending on the area to be partitioned. The partition thickness of the small scale is not more than about 120 mm before and after, while the size of the large partition is 150 mm before and after the partition. When the inner panel filled with the electric mineral wool is used, it is necessary to newly manufacture the entire inner panel according to the thickness of the partition, so that the construction period is very long and the economical It is very unfavorable, and it is extremely unreasonable in terms of material supply and operation.

Korean Patent No. 10-0899597 (Registered May 20, 2009) Korean Registered Patent No. 10-1590860 (Registered on January 27, 2016)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems described above, and it is an object of the present invention to provide a gypsum board and a fireproof gypsum board which are double fixedly formed using both sides of a lightweight stud, And a fireproof sheet is attached to each of the opposite ends of the gypsum board and the mutual end fixing portions of the gypsum board and the fireproof sealant is filled between the mutual end fixing portions of the fireproof gypsum boards,

The refractory partition wall can be constructed using lightweight studs that can easily be manufactured in various widths. Therefore, the refractory partition wall can be constructed more quickly and easily, and the end fixing portions between the general gypsum board and the fireproof gypsum board can be staggered And the width of the lightweight stud can be variably adjusted according to need, or the lightweight stud can be prevented from being overheated, thereby realizing a more economical and efficient refractory partition wall. The present invention has been made in view of the above problems, and it is an object of the present invention to provide a construction method of a fireproof partition wall having such a structure.

According to an aspect of the present invention, there is provided a lighting device comprising: a runner fixedly mounted on a ceiling and a floor; a lightweight stud fixed to the wall between the runners; and a flame retardant sheet attached to both sides of the lightweight stud And a fireproof gypsum board is adhered to the outer surface of the general gypsum board in close contact with the other gypsum boards, And a fireproof sealant is filled between the end portions of adjacent fireproof gypsum boards.

The present invention can be realized by using a lightweight stud so that the entire fireproof partition wall can be reduced in weight, thereby achieving excellent workability as well as excellent economical efficiency. By mixing a common gypsum board and a fireproof gypsum board, Since the end fixing portions between the general gypsum board and the fireproof gypsum board do not overlap with each other, the flame or heat can be prevented from being transmitted or passed through the mutual gaps, so that the fireproof performance is excellent. It is possible to apply various widths of refractory partition walls depending on the purpose of construction by using the variable width or the width control function of the lightweight studs and it is possible to prevent the lightweight stud itself from being deformed by overheating or the heat conduction through the lightweight studs And further excellent fire resistance and It has the effect of directing the composition.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a plan view showing the entire construction of a fire-
2 is an enlarged cross-sectional view of the portion "A"
3 is an enlarged cross-sectional view of the portion "B &
Fig. 4 is an enlarged cross-sectional view of "C"
Fig. 5 is a side view of the entire fire-proof partition wall according to the present invention
6 to 12 are views showing a construction process of a fireproof partition wall according to the present invention,
6 shows a state in which runners are installed using upper and lower slabs
7 shows a state in which a lightweight stud is applied using a wall and a runner
8 is a view showing a process in which a flameproof sheet is adhered to both surfaces of a lightweight stud
9 shows a process of fixing a general gypsum board using lightweight studs
10 is a view showing a process of attaching a flameproof sheet to a fixing part at the end of a general gypsum board
Fig. 11 is a process diagram of attaching and fixing a fireproof gypsum board to the surface of a general gypsum board
12 is a view showing a state in which a flameproof sealant is formed between the end portions of the fire-
13 is a view showing another embodiment of a general gypsum board fixing part in a refractory partition wall according to the present invention.
14 is an enlarged perspective view showing another embodiment of the lightweight stud in the refractory partition wall according to the present invention.
Fig. 15 is an overall plan view of the lightweight stud shown in Fig. 14
16 is an enlarged fragmentary perspective view showing still another embodiment of the lightweight stud in the refractory partition wall according to the present invention.
Fig. 17 is a plan view of the lightweight stud shown in Fig. 16
18 is an enlarged sectional view showing still another embodiment of the lightweight stud in the refractory partition wall according to the present invention

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor may properly define the concept of the term to describe its invention in the best possible way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an enlarged sectional view of a portion A of FIG. 1, FIG. 3 is an enlarged sectional view of a portion "B" of FIG. 1, and FIG. 4 is an enlarged sectional view of a fireproof partition wall of FIG. Fig. 5 is a side view of the entire construction of the fire partition wall according to the present invention. Fig.

As shown in the drawings, the refractory partition wall according to the present invention is composed of an upper runner 10 installed using a ceiling slab or ceiling finishing material and a lower runner 10 'installed using a floor slab, The lightweight studs 20 and 20 'are vertically installed and fixed at predetermined intervals between the first and second light emitting units 10 and 10'.

The lightweight studs 20 and 20 'are formed by bending a metal plate or by extruding a metal material. The lightweight studs 20 and 20' are formed by protruding from the upper and lower ends of one web 21 and the upper web 21, respectively. And has flanges 22 and 22 'as a whole and has a planar shape of "C" as a whole.

Flame retardant sheets 30 and 30 'are attached to both sides of the lightweight studs 20 and 20', that is, both sides of the lightweight studs 20 and 20 ' ') Is a non-woven fabric made of polyester fiber impregnated with a sodium silicate-based inorganic flame retardant to prevent self-combustion from flames and high-temperature heat, and to prevent flame and heat from being blocked It can be attached to the surface of the lightweight studs 20 and 20 'by using a flame-retardant adhesive.

The general gypsum boards 40 and 40 'are fixed to both sides of the lightweight studs 20 and 20' with the flame retardant sheets 30 and 30 'attached thereto, ) 40 'designates a commonly used gypsum board, and is a kind of fireproof building material made by mixing gypsum and admixture such as sawdust.

The general gypsum boards 40 and 40 'are continuously arranged along the longitudinal direction of the partition wall. The ends of the general gypsum boards 40 and 40' are connected to the lightweight studs 20 and 20 ' And the width of the lightweight studs 20 and 20 'is fixed so as to have a spacing distance of half the width of the general gypsum boards 40 and 40', the lightweight studs 20 and 20 ' 20) 20 'are screwed on the side surfaces of the general gypsum boards 40 and 40' in a skipped shape.

Next, another flame retardant sheet 30 or 30 'is attached to an end portion between the general gypsum boards 40 and 40', thereby forming flames and heat It is possible to shut off the flow of the gas.

In the general gypsum boards 40 and 40 ', a galvarium sheet 41 covering one side surface and four edges is closely adhered. The galvarium sheet 41 is made of a relatively inexpensive material, (40 ') which are known to be excellent in heat insulation and flame retardancy and which are very suitable for reinforcing the general gypsum board (40) (40') and can be easily broken in handling and transportation or construction process, Thereby enhancing the durability of the battery.

Further, in a state where the general gypsum board 40 (40 ') is fixed to the flame-retardant sheet 30 (30') and fixed thereto, the surface of the general gypsum board 40 (40 ' The gypsum boards 50 and 50 'are brought into close contact with each other and the adjacent gypsum boards 20 and 20' are adjacent to each other with respect to the lightweight studs 20 and 20 ' The end portions of the fireproof gypsum boards 50 and 50 'may be simultaneously screwed.

Since the fire retardant gypsum boards 50 and 50 'have improved fire resistance and fire resistance as compared with the general gypsum boards 40 and 40', they have a disadvantage that they are relatively expensive. Therefore, As shown in FIG.

In addition, a steel sheet 52 is closely adhered to one side surface of the fireproof gypsum boards 50 and 50 ', that is, the entire surface facing the room, and is formed at the end portion The steel sheet 52 may be secured to the lightweight studs 20 and 20 'using the flanges 51 and 51' as the flanges 51 and 51 ' It is.

That is, the flanges 51 and 51 'of the fireproof gypsum boards 50 and 50' adjacent to each other are put in close contact with each other to penetrate the overlapping flanges 51 and 51 ' 20 'so that the two side fire retarding gypsum boards 50 and 50' can be fixed at the same time, and between the ends of the adjacent fire retarding gypsum boards 50 and 50 ' A gap corresponding to the width of the projections 51 and 51 'is generated.

In such a gap, the fireproof sealant 60 is injected to completely block the gaps between the fireproof gypsum boards 50 and 50 'adjacent to each other by the fireproof sealant 60, It is possible to prevent the flow of flame or heat into the space between the fireproof gypsum boards 50 and 50 'due to the fireproof sealant 60.

In addition, the steel sheet 52 can further enhance the durability of the fireproof gypsum boards 50 and 50 ', and can also fulfill a role as a wall finishing material of a partitioned space. It also serves to prevent the surface of the fireproof gypsum board 50 (50 ') from being damaged or broken by the heat.

Accordingly, the fire-proof partition wall according to the present invention can prevent the flame and the heat from being burned or lost due to the flame and the heat, as well as affecting the other partition space through the clearance of the partition wall. It is possible to effectively prevent the spread of the fire through the partition wall.

The construction of the refractory partition wall according to the present invention having such a structure will be described in more detail as follows.

First, in order to construct the refractory partition wall according to the present invention, a runner fixing step using a ceiling and a floor is performed on a boundary of a space to be partitioned. By using a ceiling slab or ceiling finishing material as shown in FIG. 6, The lower runner 10 'is fixedly installed on the bottom surface of the upper runner 10 and the vertically opposed runners 10 and 10' .

A plurality of lightweight studs 20 and 20 'are fixed at regular intervals using the runners 10 and 10', and the lightweight studs 20 and 20 ' The light gauge studs 20 and 20 'may be spaced apart from each other by a predetermined gap between the gypsum board 40 and the gypsum board 40, It is necessary to apply a construction such that the width corresponds to a half of the width 40 '.

The standard gypsum boards 40 and 40 'and the fire gypsum boards 50 and 50' described below should be the same in size. The stud mounting step should be very precise and detailed will be.

Next, in the state that the lightweight studs 20 and 20 'are fixedly installed to the runners 10 and 10' and the lightweight studs 20 and 20 ' The flame retardant sheet 30 or 30 'separately provided as shown in FIG. 8 may be uniformly adhered to the mounting surface of the lightweight stud 20 or 20' The first gypsum board fixing step of attaching the general gypsum boards 40 and 40 'using both sides of the lightweight studs 20 and 20' is performed.

That is, in the first gypsum board fixing step, the gypsum boards 40 and 40 'are raised from the one side wall to the other side wall with the general gypsum boards 40 and 40' 20 'so that the ends of the general gypsum boards 40, 40' are positioned to the middle of the lateral sides of the lightweight studs 20, 20 '. Then, The operation of screwing the boards 40 and 40 'and screwing the ends of the other general gypsum boards 40 and 40' into the lightweight studs 20 and 20 'is repeated will be.

At this time, the left and right spacings of the lightweight studs 20 and 20 'are spaced by a half of the entire width of the general gypsum boards 40 and 40', and consequently the lightweight studs 20 and 20 ' 'Have a skipped shape as shown in FIG. 9, and the general gypsum boards 40 and 40' are fixed.

After the fixed installation of the general gypsum boards 40 and 40 'is completed with respect to the position where the first gypsum board fixing step is to be performed, the respective gypsum boards 40 and 40' As shown in Fig. 10, another flame retardant sheet attaching step in which another flame retardant sheet 30 or 30 'is attached and formed.

That is, since the gypsum boards 50 and 50 ', which are continuously fixed using the lightweight studs 20 and 20', will generate gaps therebetween, the flameproof sheets 30 and 30 ' The gaps between the general gypsum boards 50 and 50 'can be completely sealed as they are formed on the surfaces of the gypsum boards 50 and 50'.

When the second flame retardant sheet attaching step is performed, the fire retardant gypsum boards 50 'are brought into close contact with the outer surfaces of the general gypsum boards 40 and 40', and the general gypsum boards 40 and 40 ' The fire retarding gypsum boards 50 and 50 'may be screwed in a one-step skipping manner as shown in FIG. 11 by using the remaining lightweight studs 20 and 20', which are not fixed.

That is, if the general gypsum boards 40 and 40 'are fixedly installed using the lightweight studs 20 and 20 in the order of No. 1, No. 3, No. 5 and No. 7, the gypsum board 50 The light weight studs 20 and 20 'in the order of No. 2, No. 4, No. 6, and No. 8 are fixedly installed. As each of the gypsum boards is staggered and fixed to each other, And the overall durability of the refractory partition wall can be greatly improved as well.

In addition, when the step of fixing the fireproof gypsum boards 50 and 50 'is completed, a sealing step of injecting the fireproof sealant 60 into the gaps between the fireproof gypsum boards 50 and 50' is performed As shown in FIG. 12, the fireproof sealant 60 completely seals the gaps between the fireproof gypsum boards 50 and 50 ', and effectively blocks flames, heat, and the like that may enter the gaps And also serves as a joint between the fireproof gypsum boards 50 and 50 ', so that the entire fireproof partition wall can be rendered beautifully.

The refractory partition wall of the present invention, which is completed by the steps and the steps as described above, can be very easily constructed by the lightweight studs 20 and 20 'inside the wall, as well as the general gypsum boards 40 and 40' The fireproof gypsum boards 50 and 50 'are mixed to greatly reduce the total construction cost. Since the gap between the gypsum boards is completely blocked and sealed, the flame or the heat does not pass from the space partitioned to the other space, Can effectively block and delay the spread of the < / RTI >

Further, according to the present invention, since the general gypsum board reinforcing step is further performed on the entire one surface of the general gypsum board 40 and the end portions of all the four sides, it is possible to further improve the fire resistance. A galvarium sheet 41 is attached to one side of the light gauge body 40 ', that is, the entire surface facing the lightweight studs 20 and 20', and the galvarium sheet 41 is bent at its ends, The durability of the general gypsum boards 40 and 40 'itself can be greatly improved by reinforcing the end portions of the four sides 40 and 40'.

In addition, the fire retarding gypsum boards 50 and 50 'may further include a fire gypsum board reinforcing step for closely fixing the steel sheet 52 to the entire surface facing the partitioned space, The durability of the fireproof gypsum boards 50 and 50 'can be greatly improved, and at the same time it can function as a beautiful interior finish material. The steel sheets 52 are bent at the ends of the fireproof gypsum boards 50 (50 ') 50' as well as the flanges 51 'and 51' of the outwardly projecting flanges 51 'are formed by the steel sheet 52 as well as the reinforcement of the four end faces of the gypsum board 50' When the flanges 51 and 51 'of the fireproof gypsum boards 50 and 50' are overlapped with each other and screwed to the lightweight studs 20 and 20 ' So that a simple and quick fixation to the lightweight studs 20 and 20 'can be achieved.

Particularly, in the present invention, before the process of fixing the first gypsum board to the general gypsum boards 40 and 40 ', the board holder 70, which is separately provided as shown in FIG. 13, The board holder insertion step of coupling the board holder 70 to the general gypsum board 40 or 40 'can prevent the gap between the gypsum boards 40 and 40' It should be preceded by the board fixing step.

That is, after the first flame-retardant sheet attaching step is performed on the surfaces of the lightweight studs 20 and 20 ', the gypsum boards 50 and 50' The board holder 70 is inserted in the board insertion grooves 71 and 71 'on both sides of the board holder 70 so that the board holder 70 can be cut vertically and continuously. When the respective ends of the two ordinary gypsum boards 40 and 40 'are inserted into the board insertion grooves 71 and 71', the gap between the general gypsum boards 40 and 40 ' And can be completely cut off and removed by the board holder 70.

In the process of attaching the second flame retardant sheet, the flame retardant sheet 30 '(30') may be formed in the same manner as the first flame retardant sheet 30 ' The flame retardant sheets 30 and 30 'are formed so as to have a larger size so that the whole of the board holder 70 can be accommodated, so that double and triple clearance can be achieved.

According to still another embodiment of the present invention, the step of inserting a separate heat insulating holder may be further performed prior to the step of installing the stud. The lightweight studs 20 and 20 ' Since the heat conduction rate is relatively high, heat is rapidly moved from one side to the other side due to the heat conduction action of the lightweight studs 20 and 20 'when a fire occurs .

Further, when high heat is concentrated on the lightweight studs 20 and 20 'themselves, there arises a problem that the lightweight studs 20 and 20' are twisted or bent due to thermal deformation. In the present invention, In order to solve the problem, it is possible to further apply the heat insulating holder insertion step to the lightweight studs 20 and 20 'by using the heat insulating holder 80, which is separately provided as shown in Figs. 14 and 15.

That is, the lightweight studs 20 and 20 'made up of one web 21 and flanges 22 and 22' protruding from the upper and lower ends of the web 21, And a heat insulating holder 80 made of flame-retardant silicone or a flame-retardant synthetic resin material is inserted between the cut webs 21, and the heat insulating holder 80 is formed in the vertical lengthwise direction The web insertion grooves 81 and 81 'are formed on both sides so that the cut ends of the web 21 can be inserted. The vertical length direction is defined between the web insertion grooves 81 and 81' The hollow portion 82 is formed.

Accordingly, after the divided webs 21 are inserted into the web insertion grooves 81 and 81 ', respectively, the heat-retaining holder 80 and the web 21 are securely coupled and fixed using separate fixing bolts .

Therefore, the heat insulating holder 80 prevents the heat generated by the fire generated from one side of the lightweight studs 20 and 20 'from being transmitted to the other side, and also serves as a buffer for the hollow portion 82 So as to mitigate damage to the refractory partition wall due to explosion due to fire or collision in the room.

Particularly, since the heat insulating holder 80 can be manufactured with various widths, the width of the lightweight studs 20 and 20 'can be adjusted as a whole by replacing and inserting only the heat insulating holder 80, The widths of the studs 20 and 20 'can be adjusted so that the wall thickness of the entire refractory partition wall can be adjusted.

16, the webs of the lightweight studs 20 and 20 'are cut and formed so that the divided webs 21 are overlapped and fixed to each other in a state in which they are overlapped with each other. The divided webs 21 are provided with through holes 23 and 23 'which are successively spaced apart from one another in the transverse direction so that these two holes 23 and 23' It is possible to perform the lightweight stud width adjusting step in which the web 21 is engaged and fixed via the fixing bolt 24 and the fixing nut 25. [

That is, since the webs 21 are provided with the fastening holes 23 and 23 'arranged in the transverse direction, the mutual coincidence positions of the fastening holes 23 and 23' The width of the flanges 22 and 22 'can be adjusted as shown in FIG. 5A. Thus, the width of the flanges 22 and 22' can be adjusted to vary the thickness of the entire fireproof partition wall .

In consideration of the length, width, or overall structure of the partition wall, the thickness of the light weight studs 20 and 20 'has been conventionally adjusted to various widths. Conventionally, the lightweight studs 20 and 20' The width of the lightweight studs 20 and 20 'can be adjusted by changing the width of the web 21 and the fastening holes 23 and 23' So that adjustment can be made.

Therefore, considering the thickness of the partition wall to be installed, it is possible to adjust the thickness of the fireproof partition wall immediately after performing the stud installation step .

At this time, in order to prevent heat conduction through the divided and overlapped webs 21, the flame-retardant silicon pads 90 are further inserted between the divided webs 21 as shown in FIG. 18, It is possible to prevent the high temperature of the one flange 22 or 22 'from being transmitted to the other flange 22 or 22' as the web 21 is fixed to the flange 22 or 22 ' The lightweight studs 20 and 20 'can be prevented from being deformed due to the high temperature, which is very effective.

As described above, the refractory partition wall according to the present invention exhibits excellent fire resistance as well as excellent fire resistance and fire resistance, and is also excellent in heat insulation and noise shielding effect.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the present invention as defined by the appended claims. Examples should be understood.

10, 10 ': Runner
20,20 ': lightweight stud 21: web
22, 22 ': flange 23, 23': fastener
24: Fixing bolt 25: Fixing nut
30, 30 ': flame retardant sheet
40, 40 ': General gypsum board 41: Galvarium sheet
50,50 ': Fireproof gypsum board 51,51': Flange
52: Steel sheet
60: Fireproof sealant
70: Board holder 71, 71 ': Board insertion groove
80: Duck holder 81,81 ': web insert groove
82: Hollow part
90: Flame-retardant silicone pad

Claims (15)

The lightweight studs 20 and 20 'fixed to the walls and between the runners 10 and 10' fixed to the ceiling and the floor and between the runners 10 and 10 ' Flame retardant sheets 30 and 30 'are attached to both sides of the gypsum boards 20 and 20', and on both sides of the runners 10 and 10 'and the lightweight studs 20 and 20' And another flame retardant sheet 30 or 30 'is attached between the end portions of the adjacent common gypsum boards 40 and 40', and the gypsum board 40 ' The gypsum boards 50 and 50 'are tightly attached to the outer surfaces of the upper and lower gypsum boards 40 and 40' by screwing them using the runners 10 and 10 'and the lightweight studs 20 and 20' And a fireproof sealant (60) is filled between the end portions of the fireproof gypsum boards (50) and (50 ').
The method according to claim 1,
The general gypsum boards 40 and 40 'are connected to one gypsum board 40 (40') on one lightweight stud 20 (20 ') in the form of a one-time skip with respect to the continuously installed lightweight studs 20 and 20' The fire retardant gypsum boards 50 and 50 'can be used for the lightweight studs 20 and 20' in which the general gypsum boards 40 and 40 'are not fixed The end portions of the general gypsum boards 40 and 40 'and the end portions of the fireproof gypsum boards 50 and 50' for the lightweight studs 20 and 20 ' Wherein the fireproof partition wall is formed by alternately staggering each other.
The method according to claim 1,
The general gypsum boards (40) and (40 ') are constructed such that the inside surface of a general gypsum board (40) (40') and a galvarium sheet (41) Construction structure.
The method according to claim 1,
The fire retardant gypsum boards 50 and 50 'are constructed such that the steel sheets 52 that surround the entire outer surfaces of the fireproof gypsum boards 50 and 50' and the flanges 51 and 51 ' Wherein the refractory partition wall is formed in a substantially rectangular shape.
The method according to claim 1,
A board holder (70) is coupled between the end portions of adjacent gypsum boards (40) and (40 ') adjacent to each other,
Wherein the board holder (70) is formed with board insertion grooves (71, 71 ') on both sides along the vertical length direction.
The method according to claim 1,
The lightweight studs 20 and 20 'are configured to have a "C" shape in cross section with one web 21 and two flanges 22, 22' The heat insulating holder 80 is inserted between the divided webs 21,
The heat insulating holder 80 is configured such that the web insertion grooves 81 and 81 'are formed at both sides in the vertical length direction and the hollow portion 82 is formed at the intermediate portion along the vertical length direction. Construction of wall.
The method according to claim 1,
The lightweight studs 20 and 20 'are configured to have a "C" shape in cross section with one web 21 and two flanges 22, 22' And the divided webs 21 and 21 'are overlapped and fixed to each other,
The divided webs 21 and 21 'are formed with through holes 23 and 23 which are continuous in the transverse direction to connect the fastening holes 23 and 23' of the webs 21 and 21 ' The webs 21 are fastened to each other by using the fixing bolts 24 and the fixing nuts 25 so that the flanges 22 22 '), the width of the lightweight studs (20, 20') can be varied and adjusted.
8. The method of claim 7,
Wherein a flameproof silicone pad (90) is inserted and formed between the webs (21) and (21 ') overlapping each other.
A runner fixing step of fixing upper and lower runners by using a ceiling and a floor;
A stud mounting step of mounting lightweight studs at regular intervals between the upper and lower runners so as to have a distance of a half distance from the width of a general gypsum board;
Attaching a flame retardant sheet to both sides of each lightweight stud;
A first gypsum board fixing step of fixing the gypsum board to the light gyro stud at the same time to fix the gypsum board to the general gypsum board in a skipping manner with respect to the lightweight stud;
A second flame retardant sheet attaching step of attaching a flame retardant sheet to a boundary portion between the opposite ends of the general gypsum board;
The fireproof gypsum board is brought into close contact with the outer surface of the general gypsum board so that each end of the fireproof gypsum board is positioned on the lightweight stud having no fixed gypsum board, A second gypsum board fixing step of simultaneously fixing together;
And a sealing step of injecting a fireproof sealant into the mutual gaps between the fireproof gypsum boards.
10. The method of claim 9,
And a general gypsum board reinforcing step of bending and attaching a galvalume steel sheet so that the general gypsum board closely adheres to one side and all sides of the front side of the first gypsum board fixing step. Way.
10. The method of claim 9,
Reinforcing the gypsum board by bending and attaching the steel sheet so that the flange protrudes from the end faces of the four sides of the gypsum board, Wherein the refractory partition is formed by a plurality of refractory members.
10. The method of claim 9,
And inserting a board holder between the ends of the adjacent gypsum boards prior to the first gypsum board fixing step to insulate the entrance of the flame and the heat into the gaps of the general gypsum board Wherein the refractory partition wall is made of a resin.
10. The method of claim 9,
Prior to the stud mounting step, inserting an adiabatic holder into which a web of lightweight studs consisting of one web and two flanges is cut in the longitudinal direction and a hollow portion formed in the vertical longitudinal direction is inserted between the divided webs; Wherein the fireproof partition wall is further provided with a fireproof partition wall.
10. The method of claim 9,
Prior to the stud mounting step, a web of lightweight studs consisting of one web and two flanges is cut in the longitudinal direction and the divided webs are superimposed and fixed to one another, depending on the spacing between flanges according to the amount of overlap of the webs Wherein the step of adjusting the width of the lightweight stud and the step of adjusting the width of the fireproof partition wall allow the variable thickness of the fireproof partition wall to be varied.
15. The method of claim 14,
Wherein a step of adjusting the lightweight stud width is carried out by further inserting a flame resistant silicone pad between the webs which are overlapped and fixed to each other.

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