KR101993745B1 - Fireproof partition structure and its construction method - Google Patents

Abstract

The present invention relates to a construction structure and a construction method of a fireproof partition wall of a non-bearing wall type installed in various buildings, and more specifically, using a double-sided lightweight studs fixed a general gypsum board and fireproof gypsum board double Forming, but mutual end fixing between the gypsum board and the mutual end fixing between the fireproof gypsum boards are arranged to cross each other, and the flame-resistant sheet is attached to each side of the lightweight studs and the mutual end fixing parts of the general gypsum board, respectively, As the fireproof sealant is charged between the end portions between the fireproof gypsum boards, it is constructed by using a lightweight stud, so that the overall weight of the fireproof partition wall can be realized. By using fireproof gypsum board, it is economical as well as excellent fire resistance. It can be obtained at the same time, and because the end fixing parts between ordinary gypsum board and fireproof gypsum board do not overlap each other, it is possible to block the transmission or passage of flame or heat through mutual gaps, so the fire resistance performance is very excellent. It is possible to construct fireproof partition walls of various thicknesses according to the construction purpose by varying the width of the stud or by adjusting the width of the lightweight stud, and the thermal stud through the lightweight stud or the lightweight stud itself is deformed by overheating. Blocking is to produce more excellent fire resistance and durability.

Description

Construction structure of fireproof partition wall and its construction method {Fireproof partition structure and its construction method}

The present invention relates to a construction structure and a construction method of a fireproof partition wall of a non-bearing wall type installed inside various buildings, and more specifically, a general gypsum board and a fireproof gypsum board using both sides of a stud arranged at regular intervals. Forming fixed in sequence, but the fixed parts of the gypsum board and the fireproof gypsum board is arranged to cross each other at the same time the fire occurs through the flame-retardant sheet and fireproof sealant processing between the stud and the gypsum board and the interview portion of the gypsum board In this case, it is possible to effectively block the heat transfer and flame transfer as well as the combustion of the partition, and to greatly improve the constructability of the fireproof partition wall.

'Fireproof structure' prescribed by the Building Act means the structure approved by the head of the Korea Institute of Construction Technology after confirming the fireproof performance, and the fireproof performance standard is set for each heating time in case of fire according to the height, number of floors and area of each building. It is stipulated that the structure should be fireproof.

In addition, a fireproof partition is also used as an inner wall for partitioning or isolating the internal space of a general building or a prefabricated building.

On the other hand, the partition used as non-bearing wall is commonly known as 'SGP partition', that is, the steel plate is attached to the outside of the gypsum board. The existing SGP partition does not meet the fire resistance performance required by the Korea Institute of Construction Technology. This means that when heat is applied from one side of the partition, the internal gypsum board alone does not effectively block heat conduction to the other side, and it is particularly used as a pillar to form a partition or as a column to connect between the partition and the partition. There is a problem that the heat resistance is not passed because the heat transfer is made through the type C stud.

Accordingly, as shown in Korean Patent No. 10-0899597, each fireproof partition is attached to the front and rear of the C-shaped studs forming the inner skeleton, the individual fireproof partition is attached to the flame-retardant fiberboard on the outside of the flame-resistant gypsum board, The outer surface of the flame-retardant fiber board is attached to the coated molten galvanized steel sheet forming the outer surface of the partition, and another flame-retardant fiber board and flame retardant to effectively block heat transfer between the front, rear and flame-retardant gypsum board of the C-shaped studs In the event of a fire in one space separated by a partition with a gypsum board attached, a fireproof partition and its construction method have been devised to effectively block heat transfer and flame transfer to the other space.

However, the above fireproof partitions and partition walls constructed using the same are obtained by simply attaching a flame-resistant gypsum board and a flame-retardant fiber board to a conventional C-type stud, and then constructing a partition wall by using a conventional flame-resistant gypsum board and a flame-retardant fiber board. It is not only a problem because the hot heat and flame through the gap between the flame-resistant gypsum board can not only flow into the partition wall, but also leak to the other side is not a fundamental solution.

In other words, if the flame-resistant gypsum board and flame-retardant fiber board is attached to the surface of the C-type stud attached to the flame-retardant gypsum board and flame-retardant fiber board to connect them in the state attached to the gap there will be a gap between them This allows hot heat or flames to leak into the other space via the interior of the partition wall, and requires considerable effort and work time to attach flame-retardant plasterboard and flame-retardant fiberboard to the surface of the C-type studs, respectively. This is extremely uneconomical.

In addition, even if you look at the process of installing the existing fire-proof partition wall, the lower runner and the upper runner are fixedly installed on the indoor floor and the ceiling, respectively, and the C-type studs are measured and fixed at regular intervals between the upper and lower runners. In the formed state, since the flame-resistant gypsum board and the flame-retardant fiber board must be attached and fixed to the surface of the C-type stud, considerable care and effort are required to fix the C-type studs at equal intervals, as well as the C-type stud. If the installation interval is not constant, it is difficult to obtain a firm fixing force of the flame-resistant gypsum board and flame-retardant fiber board that is fixed using this installation.

Furthermore, when the installation intervals of the C-type studs are not constant and the ends of both gypsum boards do not correspond exactly to the center portion of the C-type studs and are fixed in a biased state to one side, the gap between the flameproof gypsum boards adjacent to each other is fixed. Through the inflow of flame or heat into the partition wall can be made more quickly through the case of failing to act as an efficient fire-resistant partition wall.

In addition, in the case of conventional fire-resistant partitions, mineral wool (or glass wool) filled between partition walls, that is, between flame-retardant gypsum boards placed before and after the C-shaped studs, has a density of 24 to 140 K and a thickness of 50 to 100 mm. In the case of mineral wool, the gap between the flameproof gypsum board before and after is filled with the height of 2.5 ~ 3.0m, so that sagging occurs gradually over time. Therefore, the top of the fireproof partition wall is not filled with mineral wool at all. Since the poor condition is produced and the lower part of the fireproof partition wall is filled with mineral wool in a high density state, it has a fatal disadvantage that it does not exhibit even fire resistance performance on the entire surface of the fireproof partition wall.

Accordingly, the applicant of the present invention has a mineral wool is filled in the steel sheet as shown in Patent Registration No. 10-1590860, and both sides of the inner panel is provided with the inner panel is formed between the upper runner and the lower runner continuous insertion of the inner panel. In this state, by attaching the flame-resistant gypsum board and flame-retardant fiber sheet on the front and rear of the inner panel and fixed to the flame-resistant finish panel to the surface of the flame-resistant gypsum board,

Fireproof gypsum board and flameproof finish panel can be easily fixed by using the inner panel inserted continuously so that the construction of fireproof partition wall can be done more quickly and easily. The fireproof partition structure and its construction method are characterized by the staggered fixing so that they do not overlap so that excellent flame retardancy can be produced, and the upper runner and the lower runner are not exposed to the outside, thereby completing a more compact and beautiful partition wall. It was created and registered.

However, the above-mentioned fireproof partition structure and its construction method use the inner panel filled with mineral wool continuously so that the partition itself is very heavy, and the construction is very cumbersome due to the high weight, and the mineral wool is filled with The inner panel of the state is relatively very expensive, the construction cost has a problem that greatly increases.

In addition, the partitions are usually constructed with different thicknesses according to the area to be partitioned. The small partition thickness is only about 120mm before and after, whereas the large partitions are thicker than the small partitions before and after 150mm. The durability of the partition is improved according to the construction.In case of using the inner panel of mineral wool filling, the entire inner panel must be newly manufactured according to the thickness of the partition. It is very disadvantageous and extremely unreasonable in terms of material supply and operation.

Republic of Korea Patent No. 10-0899597 (registered May 20, 2009) Republic of Korea Patent No. 10-1590860 (registered on Jan. 27, 2016)

The present invention is to solve the problems as described above, by using both sides of the lightweight stud fixed to form a double gypsum board and fireproof gypsum board, fixed between the end of the gypsum board and the mutual end between the gypsum board As the parts are arranged to cross each other, and the flame-resistant sheet is attached to each of the two ends of the lightweight studs and the fixed ends of the general gypsum board, respectively, and filling the fire prevention seal between the mutual end fixing between the fireproof gypsum board,

Fireproof partition walls can be constructed using lightweight studs that can be easily manufactured in various widths, so that the construction of fireproof partition walls can be made more quickly and easily, and the end fixing parts between ordinary gypsum board and fireproof gypsum board are fixed so as not to overlap As a result, it is possible to produce more excellent flame retardancy, and if necessary, the width of the light stud can be variably applied or the light stud can be prevented from being overheated, thereby achieving a more economical and efficient fireproof partition wall. It is an object of the present invention to provide a construction structure and a construction method of the fire-resistant partition wall having.

The present invention for achieving the above object is provided with a runner fixed to the ceiling and the floor and between the runner and a light weight stud fixed to the wall, the side of the light stud attached to the flame-resistant sheet formed , Both sides of the runner and lightweight studs are fixed to the general gypsum board in close contact with each other, the end of the adjacent gypsum board is formed by attaching another flame-resistant sheet, the outer surface of the general gypsum board in close contact with the fire gypsum board Screws are fixed using a runner and a lightweight stud, and a fireproof sealant is formed between ends between neighboring fireproof gypsum boards.

Since the present invention is constructed using a light weight stud, it is possible to realize the weight reduction of the entire fireproof partition wall, and the construction property is very excellent as well as the economical efficiency. Since the end fixing parts between ordinary gypsum board and fireproof gypsum board do not overlap each other, it is possible to block the transmission or passage of flame or heat through mutual gaps, so it is very excellent in fire resistance performance. By varying the width or by adjusting the width of the lightweight studs, the fireproof partition walls of various thicknesses can be constructed according to the purpose of construction.The lightweight studs prevent heat conduction or deformation of the lightweight studs by overheating. Better fire resistance and fire resistance The effect is to produce a composition.

1 is a plan view of the entire construction of a fireproof partition wall according to the present invention
FIG. 2 is an enlarged cross-sectional view of part “A” in FIG. 1; FIG.
3 is an enlarged cross-sectional view of a portion “B” in FIG. 1.
4 is an enlarged cross-sectional view of a portion “C” in FIG. 1.
5 is a side view of the entire construction of a fireproof partition wall according to the present invention
6 to 12 is a construction process diagram of the fire-resistant partition wall according to the present invention,
6 is a state diagram of the construction of the runner using the upper, lower slab
7 is a state in which the construction of a lightweight stud using the wall and the runner
8 is a process of attaching the flame resistant sheet formed on both sides of the lightweight stud
9 is a process of fixing a general gypsum board using a lightweight stud
10 is a process of attaching the flame-resistant sheet to the end fixing part of the general gypsum board
11 is a process of attaching and fixing the fireproof gypsum board on the surface of the general gypsum board
12 is a state in which a flame-proof sealant is formed between the ends of the fireproof gypsum board
Figure 13 is a functional diagram showing another embodiment of the general gypsum board fixing part in the fire-resistant partition wall according to the present invention
Figure 14 is an enlarged perspective view showing another embodiment of the lightweight stud in the fire-resistant partition wall according to the present invention
FIG. 15 is an overall cross-sectional view of the lightweight stud according to FIG. 14. FIG.
16 is an enlarged exploded perspective view showing another embodiment of the lightweight stud in the fireproof partition wall according to the present invention
17 is a cross-sectional view of the lightweight stud according to FIG.
18 is an enlarged cross-sectional view showing another embodiment of the lightweight stud in the fire-resistant partition wall according to the present invention.

The terms or words used in this specification and claims are not to be construed as being limited to the common or dictionary meanings, and the inventors can appropriately define the concept of terms in order to explain their invention in the best way. Based on the principle, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

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

1 is an overall construction plan view of a fireproof partition wall according to the present invention, FIG. 2 is an enlarged sectional view of portion “A” in FIG. 1, FIG. 3 is an enlarged sectional view of an “B” portion in FIG. 1, and FIG. 5 is an enlarged cross-sectional view of the "C" section, and FIG. 5 is an overall construction side view of the fireproof partition wall according to the present invention.

As shown in the figure, the fire-resistant partition wall according to the present invention comprises an upper runner 10 installed using a ceiling slab or a ceiling finish and a lower runner 10 'installed using a floor slab. Lightweight studs 20 and 20 'installed vertically at regular intervals between the 10 and 10' are fixed.

In this case, the lightweight studs 20 and 20 'are formed by bending the metal plate or by extruding the metal, and are formed to protrude from the upper and lower ends of the one web 21 and the mall web 21. It has two flanges 22 and 22 'and has a planar shape of "c" overall.

In addition, both sides of the lightweight studs 20 and 20 ', that is, both sides in the direction of partitioning the interior, are provided with flame retardant sheets 30 and 30'. ') Is a non-woven fabric made of polyester fiber impregnated with sodium silicate-based liquid inorganic flame retardant, which prevents self-combustion from flame or high temperature heat and prevents flame and heat from passing through. The flame retardant adhesive may be attached to the surface of the lightweight studs 20 and 20 '.

Thus, the general gypsum boards 40 and 40 'are respectively attached to and fixed to both sides of the light studs 20 and 20' in the state where the flame retardant sheets 30 and 30 'are attached. (40 ') refers to a gypsum board that is commonly used, and is a board made of a mixture of gypsum and admixtures such as sawdust.

In addition, the general gypsum boards 40 and 40 'are disposed continuously along the longitudinal direction of the partition wall, and the ends of each of the general gypsum boards 40 and 40' are the lightweight studs 20 and 20 '. At the same time to be fixed to the surface, the light studs 20, 20 'of the width of the array is fixed to have a distance of half the distance of the width of the plain gypsum board 40, 40' as the stud ( 20) (20 ') is that the general gypsum board 40, 40' is screwed to the side in the form of skipping one space.

Subsequently, another flameproof sheet 30 or 30 'is attached to an end portion between the general gypsum boards 40 and 40' so that a flame and heat are generated as a gap between the general gypsum boards 40 and 40 '. Can again block the inflow.

Here, the general gypsum boards 40 and 40 ′ are formed with the galvalume sheet 41 covering the entire surface of one side and all four ends thereof, and the galvalume sheet 41 belongs to a relatively inexpensive material and is workable. It is known to be easy and excellent in heat insulation and flame retardant, so that it is very suitable for reinforcing the general gypsum board 40, 40 ', and can easily be broken during handling and transportation or construction process. It will serve to enhance the durability of the.

In addition, the fixing of the general gypsum boards 40, 40 'and in close contact with the flameproof sheet 30, 30' is made, the surface of the general gypsum boards 40, 40 ' Fireproof gypsum boards 50, 50 'are in close contact with each other with respect to the lightweight studs 20, 20', which are spaced apart by the general gypsum boards 40, 40 ', which are not fixed. The end portions of the fireproof gypsum boards 50 and 50 'may be screwed at the same time.

At this time, the fireproof gypsum boards 50 and 50 'are more improved in flame resistance and fire resistance than the general gypsum boards 40 and 40', and have a relatively expensive disadvantage. It will be located in.

In addition, the one end surface of the fire-resistant gypsum board (50, 50 '), that is, the entire surface facing the room, the steel sheet 52 is formed in close contact with the four sides, the end is formed As the steel sheet 52 is bent to form flanges 51 and 51 'of outwardly protruding, the steel sheets 52 may be fixed to the lightweight studs 20 and 20' by using the flanges 51 and 51 '. It is.

That is, in the state in which the flanges 51 and 51 'of the fireproof gypsum boards 50 and 50' which are adjacent to each other overlap each other and are in close contact with each other, the light weight studs therein through the overlapped flanges 51 and 51 ' 20) (20 ') by screwing both sides of the gypsum board 50, 50' can be fixed at the same time, the flange between the ends of the adjacent fireproof gypsum boards 50, 50 ' The gap corresponding to the width of the 51 and 51 'is generated.

Such a gap is injected into the fire sealant 60 to completely block the gaps between the fireproof gypsum boards 50 and 50 'adjacent to each other by the fire sealant 60, as well as by the fire sealant 60. It is also possible to produce a joint effect, it is possible to block the flow of flame or heat into the gap between the fireproof gypsum board 50, 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 also can faithfully serve as a wall finishing material in a partitioned space, and It will also serve to prevent damage and damage to the surface of the fireproof gypsum board 50, 50 'by the heat.

Accordingly, the fire-resistant partition wall according to the present invention can prevent the partition wall itself from burning or disappearing due to flame and heat, as well as the fact that the flame and heat affect the other partition space through the gap of the partition wall. This can effectively prevent the spread of fire through the partition wall.

Referring to the construction process of the fire-resistant partition wall according to the present invention of such a structure in more detail as follows.

First, in order to construct a fireproof 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, and an upper runner using a ceiling slab or a ceiling finishing material as shown in FIG. 6. The fixed installation of the runners 10 and 10 'which are vertically opposed to the bottom runner 10' is fixed to the bottom surface corresponding to the lower part of the upper runner 10. Will be done.

Subsequently, a plurality of lightweight studs 20 and 20 'are fixedly installed at equal intervals using the runners 10 and 10', but the lightweight studs 20 and 20 'are illustrated in FIG. As described above, the fixed space is fixed to both sides of the wall in the partition space, and then fixedly installed at equal intervals on the inner side of the partition space. The interval between the lightweight studs 20 and 20 'is the general gypsum board 40. It should be constructed to be half width of 40 '.

In addition, the standard gypsum board 40, 40 'and the fireproof gypsum board 50, 50' to be described later should be the same as that used in the stud installation step is to be made very precise and detailed will be.

Subsequently, the step of attaching the first flame retardant sheet to both sides of the lightweight studs 20 and 20 'in a state where the fixed runners 10 and 10' and the lightweight studs 20 and 20 'are installed. After performing the process of uniformly attaching the flame retardant sheets 30, 30 'separately provided as shown in Figure 8 to the attachment surface of the lightweight studs 20, 20', The first gypsum board fixing step of attaching the general gypsum boards 40 and 40 'by using both sides of the light weight studs 20 and 20' is performed.

That is, in the first gypsum board fixing step, the general gypsum boards 40 and 40 'are prepared and the general gypsum boards 40 and 40' are set up from one wall to the other wall in the state of preparing the lightweight gypsum board 20 ( 20 ') refers to a process of fixing, the end of the general gypsum board 40, 40' is to be positioned to the middle of the side of the lightweight studs 20, 20 'and then using a general gypsum fixing bolt Screw the board 40 (40 ') and subsequently connect another end of the gypsum board 40 (40') by screwing the light stud 20, 20 'repeatedly will be.

At this time, the left and right intervals of the lightweight studs 20 and 20 'have a gap between half of the total width of the general gypsum board 40 and 40', and thus the lightweight studs 20 and 20 '. ') Has a form skipped one space as shown in Figure 9 will produce a fixed state gypsum board 40, 40'.

As described above, when the fixed installation of the general gypsum boards 40 and 40 'is completed with respect to the position to be partitioned through the first gypsum board fixing step, each end of the general gypsum boards 40 and 40' which are adjacent to each other. As shown in FIG. 10, the second flame retardant sheet attachment step of attaching and forming another flame retardant sheet 30, 30 ′ may be performed.

That is, the general gypsum boards 50 and 50 'installed in a row using the lightweight studs 20 and 20' as described above will have a gap therebetween, so that the flameproof sheets 30 and 30 'are The gap between the gypsum boards 50 and 50 'can be completely sealed as it is attached to the surface between the gypsum boards 50 and 50'.

When the second flame retardant sheet attaching step is made, the fireproof gypsum board 50, 50 ′ is brought into close contact with the outer surface of the general gypsum board 40, 40 ′ and then the general gypsum board 40, 40 ′. ) Is not fixed to the fireproof gypsum board (50, 50 ') in the form of skipping one space as shown in Figure 11 using the remaining studs (20, 20').

That is, if the general gypsum board 40, 40 'is fixedly installed using the light studs 20, 20' of the first and the third and fifth, seventh order the fireproof gypsum board 50 ( 50 ') is the 2nd, 4th, 6th, and 8th light studs 20, 20' in order to be fixedly installed. As such, each gypsum board is fixedly staggered from each other and thus the gap between the gypsum boards. Can not only prevent the sequential operation, but also greatly improve the overall durability of the fireproof partition wall.

In addition, when the fixing step for the fireproof gypsum board 50, 50 'is finished, the sealing step of injecting the fireproof sealant 60 into the gaps between the fireproof gypsum boards 50, 50' is performed. As shown in FIG. 12, the fire sealant 60 completely seals a gap between the fireproof gypsum boards 50 and 50 'and effectively blocks a flame or heat that may flow into these gaps. Since it serves as a joint between the fireproof gypsum boards 50 and 50 ', it is possible to produce the beauty of the entire fireproof partition wall together.

Fireproof partition wall of the present invention completed by such a step and process can be made very simple wall construction by the light weight studs 20, 20 'of the interior gypsum board 40, 40' and It is possible to greatly reduce the overall construction cost by mixing fireproof gypsum boards 50 and 50 ', and since the gap between gypsum boards is completely blocked and sealed, the flame or heat does not flow from the partitioned space to the other space. It can effectively block and delay the spread.

Furthermore, in the present invention, by further performing a general gypsum board reinforcing step for the entire surface of one side of the general gypsum board 40 and the end portions of all four sides, it is possible to produce more excellent fire resistance, the general gypsum board 40 The galvalume sheet 41 is attached to one side of the 40 ', that is, the entire surface facing the lightweight studs 20 and 20', and the galvalume sheet 41 is bent at an end to the plain gypsum board. By working so that the reinforcement is also made to the four edges of the 40 (40 '40), the durability of the general gypsum board 40 (40') itself can be greatly improved.

In addition, the fireproof gypsum board (50, 50 ') also by additionally performing a fireproof gypsum board reinforcement step of tightly fixing the steel sheet 52 with respect to the entire surface facing the partitioned space, to the steel sheet 52 It is possible to greatly improve the durability of the fireproof gypsum board (50, 50 '), as well as to function as a beautiful interior finishing material, by bending each end of the steel sheet 52 fireproof gypsum board (50) Fireproof gypsum boards 50, 50 'are constructed so that the flanges 51, 51' of the outward protrusion are formed by the steel sheet 52 as well as the reinforcement of the four end faces of the 50 '. When the flanges 51, 51 'of each of the flanges are superimposed on each other and the screws are fastened to the lightweight studs 20 and 20' which are temporarily posted, the solid connection between the fireproof gypsum boards 50 and 50 'and Simple and fast fixing to the lightweight studs 20 and 20 'can be achieved.

In particular, in the present invention, before the fixing process for the general gypsum board 40, 40 'in the first gypsum board fixing step, using the board holder 70 provided separately as shown in FIG. In order to more effectively block the gap between the gypsum board 40, 40 ', the board holder insertion step of coupling the board holder 70 to the general gypsum board 40, 40' is the first gypsum It should be preceded before the board fixing step.

That is, after performing the first flame-retardant sheet attaching step to the surface of the light stud 20, 20 'and the adjacent gypsum board 50, 50' is disposed adjacent to each other in the opposite ends of the The board holder 70 is inserted, but the board holder 70 has the board insertion grooves 71 and 71 'on both sides thereof, and is vertically continuously formed to be used to cut the required length, and flame-resistant silicone or flame-retardant resin The gap between the two gypsum boards 40 and 40 'is inserted into the board insertion grooves 71 and 71' by inserting each end of both sides of the general gypsum boards 40 and 40 '. It can be completely blocked and removed by the board holder 70.

As described above, the board holder insertion step may be performed prior to the first gypsum board fixing step, and the flame retardant sheets 30 and 30 'may be formed in the process of performing the second flame retardant sheet attaching step. As the flame retardant sheets 30 and 30 ′ are attached to a larger size so that the entire board holder 70 can be accommodated, double and triple gap removal operations can be performed.

Next, as another embodiment of the present invention, prior to the stud installation step, the step of inserting a separate insulating holder is further provided, wherein the lightweight studs 20 and 20 'are typically extruded metal materials. It is used for molding or cutting the metal plate by cutting it to the required length, and since the thermal conductivity is relatively high, the heat moves quickly from one side to the other side due to the thermal conductivity of the lightweight studs 20 and 20 'in case of fire. It can be seen that.

In addition, when high heat is concentrated in the light studs 20 and 20 'itself, problems such as twisting or bending the light studs 20 and 20' due to thermal deformation are generated. In order to solve the problem, as shown in FIGS. 14 and 15, an insulation holder insertion step for the lightweight studs 20 and 20 ′ may be additionally applied using an insulation holder 80 provided separately.

That is, the web 21 of the web 21 with respect to the lightweight studs 20 and 20 'consisting of one web 21 and flanges 22 and 22' protruding to one side from the upper and lower ends of the web 21. The vertical longitudinal direction is cut in the middle, and the insulation holder 80 made of flame retardant silicone or flame retardant synthetic resin is inserted between the cut webs 21, and the thermal insulation holder 80 is formed in the vertical longitudinal direction. Web insertion grooves 81 and 81 'are formed on both sides to allow the cut end of the web 21 to be inserted therebetween, and a vertical longitudinal direction is formed between the web insertion grooves 81 and 81'. Therefore, the hollow portion 82 is formed.

Accordingly, when the divided webs 21 are respectively inserted into the web insertion grooves 81 and 81 ′, the heat insulating holder 80 and the web 21 are firmly coupled and fixed by using a separate fixing bolt. Will be.

Therefore, the heat insulating holder 80 prevents heat generated by fire generated from one side of the light weight studs 20 and 20 'from being transferred to the other side, and also serves as a buffer due to the hollow portion 82. It can act to mitigate the damage of the fire-resistant partition wall due to explosion or fire in the room.

In particular, the heat insulating holder 80 may be manufactured with various widths, so that the width of the studs 20 and 20 ′ can be adjusted as a whole by replacing only the heat insulating holder 80. Due to the width adjustment of the studs 20, 20 ′, it is possible to control the wall thickness of the entire fireproof partition wall.

Subsequently, prior to the stud installation step as another embodiment, as shown in FIG. 16, the webs of the lightweight studs 20 and 20 'are cut and formed so that they are coupled to each other in a state where the divided webs 21 are overlapped. However, the web 21 of the division is formed through the fastening holes 23, 23 'continuously spaced apart in the transverse direction, respectively, so that these fastening holes 23, 23' in a state to match each other Through the fixing bolt 24 and the fixing nut 25 it is possible to perform the light weight stud width adjustment step to be fixed to the web 21 is coupled.

That is, since the fastening holes 23 and 23 'arranged in the transverse direction are formed in the respective webs 21, as shown in FIG. As described above, the width of the flanges 22 and 22 'may be adjusted, and through the width adjustment of the flanges 22 and 22', the construction thickness of the entire fireproof partition wall may be changed. .

Such wall thickness control has been constructed in various thicknesses in consideration of the length and width of the partition wall or the overall structure. In the past, the light weight studs 20 and 20 'were manufactured to have different widths. Although the method of adopting a lightweight stud of the width is applied, in the present invention, the width of the lightweight studs 20, 20 'through variable coupling to the web 21 and the fastening holes 23, 23' of the division. The adjustment is made.

Therefore, in consideration of the thickness of the partition wall to be installed in advance to the above-mentioned light weight stud width adjustment step, the stud installation step is performed according to the advantages that can immediately adjust and apply the thickness of the fireproof partition wall in the field Will produce.

In this case, in order to prevent thermal conduction through the divided and overlapped webs 21, the flameproof silicon pad 90 is further inserted between the divided webs 21 as shown in FIG. By coupling and fixing the web 21, the high temperature at one flange 22, 22 'can be prevented from being transferred to the other flange 22, 22', as well as by the flame retardant silicon pad 90. Lightweight studs 20, 20 'can be suppressed from deformation due to high temperature is very effective.

As described above, the fire-resistant partition wall according to the present invention is to produce excellent flame resistance and fire resistance as well as excellent workability, and also has excellent thermal insulation and noise blocking effect.

The embodiments described in the present specification and the drawings shown in the drawings are only the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, and various equivalents and modifications that may be substituted for them are provided. It should be understood that there may be examples.

10,10 ': Runner
20,20 ': Lightweight stud 21: Web
22,22 ': Flange 23,23': Fastening hole
24: fixing bolt 25: fixing nut
30,30 ': Flame Retardant Sheet
40,40 ': General Gypsum Board 41: Galvalume Sheet
50,50 ': Fireproof gypsum board 51,51': Flange
52: steel sheet
60: fireproof sealant
70: Board holder 71,71 ': Board insertion groove
80: Dungeon Holder 81,81 ': Web insertion groove
82: hollow part
90: flameproof silicone pad

Claims (15)

In the construction of the fire-resistant partition wall formed by fixing the flame-resistant sheet and gypsum board by using the upper and lower runners and studs, and filling the flame-proof sealant between the gypsum board,
Between the upper and lower runners 10, 10 'and the wall is provided with a light stud 20, 20' is provided separately, the flame resistant sheet on both sides of the light stud 20, 20 ' 30 and 30 'are attached to each other, and the lightweight studs 20 and 20' have a cross-section "c" shape having one web 21 and two flanges 22 and 22 '. And the flame retardant silicon pads 90 are inserted between the divided webs 21 and 21 'by cutting and dividing the webs 21 in the vertical longitudinal direction. ') Are fixed to each other and the divided webs 21 and 21' are formed to penetrate laterally continuous fastening holes 23 and 23 'to fasten the overlapping webs 21 and 21'. As the webs 21 are fastened to each other by using the fixing bolts 24 and the fixing nuts 25, the balls 23 and 23 'are fixed to the fastening holes 23 and 23'. According to the width between the flanges 22, 22 ' The width of the studs 20 and 20 'is configured to be variable,
Between the ends of the general gypsum boards 40 and 40 'neighboring each other, another flame-retardant sheet 30 and 30' are attached to each other, and the general gypsum boards 40 and 40 'are general gypsum boards ( 40) (40 ') is configured so that the galvalume sheet 41 surrounding the inner front and all sides of the cross section is formed in close contact,
Fireproof gypsum board 50, 50 'is screwed to the outer surface of the general gypsum board 40, 40' using the runners 10, 10 'and lightweight studs 20, 20'. The fireproof gypsum boards 50 and 50 'surround the outer front surface and the four sides of the flange 51, 51' is formed so that the steel sheet 52 is formed in close contact with each other, the neighboring fireproof gypsum board Between the ends between the 50 (50 ') is configured by filling a fire sealant (60),
The general gypsum board 40, 40 'is a general gypsum board 40 to one lightweight stud 20, 20' in the form of skipping one space with respect to the continuously installed lightweight studs 20, 20 ' 40 ') two end portions are screwed at the same time, and the fireproof gypsum boards 50 and 50' are made with respect to the lightweight studs 20 and 20 'where the general gypsum boards 40 and 40' are not fixed. Also fixed to the end of the gypsum board 40, 40 'and fireproof gypsum board 50, 50' for the lightweight studs 20, 20 'as the end is configured to be fixed at the same time in the form of skipping one space Construction structure of a refractory partition wall, characterized in that the parts are alternately arranged sequentially. A runner fixing step of fixing the upper and lower runners by using the ceiling and the floor;
A web of lightweight studs consisting of one web and two flanges is cut in the longitudinal direction, and a flame retardant silicon pad is inserted between the divided webs so that these webs are overlapped and fixed to each other, but the flanges are formed according to the overlap amount of the webs. Lightweight stud width adjustment step of allowing the width of the light weight stud and the resulting thickness of the fire-resistant partition wall is variable construction according to the separation distance;
A stud installation step of fixing the lightweight studs at equal intervals so as to have a distance of half of the width of the general gypsum board between upper and lower runners;
A first flame retardant sheet attaching step of attaching a flame retardant sheet to both sides of each lightweight stud;
General gypsum board is a general gypsum board reinforcing step of bending and attaching the galvalume steel sheet to be in close contact with one side of the entire surface and all four ends;
A board holder insertion step between inserting board holders between ends of neighboring general gypsum boards to prevent flame and heat from entering into the gaps of the general gypsum boards;
A first gypsum board fixing step of fixing the end portions of the general gypsum board to the light weight studs at the same time so as to be combined with the general gypsum board in a skipping space with respect to the light weight studs;
A second flame retardant sheet attachment step of attaching a flame retardant sheet to a boundary portion between ends of the general gypsum board;
A fireproof gypsum board reinforcing step of bending and attaching and forming a steel sheet to be in close contact with one side of the fireproof gypsum board and the four sides of the fireproof gypsum so that a flange protrudes from the four ends;
Fireproof gypsum boards are in close contact with the outer surface of the gypsum boards so that each end of the fired gypsum boards is positioned on a lightweight stud that is skipped as long as the general gypsum boards are not fixed. A second gypsum board fixing step of simultaneously fixing and fixing;
And a sealing step of injecting and forming a fireproof sealant into the mutual gaps between the fireproof gypsum boards. delete delete delete delete delete delete delete delete delete delete delete delete delete

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