KR20190041560A - Fireproof partition structure and its construction method - Google Patents

Abstract

The present invention relates to a fireproof partition wall of a non-bearing wall type installed inside various kinds of buildings. More specifically, a precast (PC) unit of fixing an ordinary gypsum board to a steel frame is inserted and fixed between reinforcement posts installed at equal intervals with respect to a partition wall construction part. When the steel frame and the ordinary gypsum board are sequentially fixed between the reinforcement post and a structure wall, a fireproof gypsum board is closely fixed to the entire construction part of the partition wall including the ordinary gypsum board of the PC unit such that overall durability of the partition wall and close coupling force among components are improved, thereby maintaining a stable construction state of the partition wall. Moreover, a prefabricated PC unit is sequentially assembled with the reinforcement post such that a construction period and construction cost for the entire precipitation wall can be reduced, thereby being economic. Moreover, the PC unit can be manufactured in various sizes, thereby quickly combining and installing various PC units in accordance with the construction height and area of the partition wall. Moreover, structural stability with respect to the entire partition wall is excellent such that gap occurrence, deformation, or bending among the components can be prevented to provide excellent construction quality and maintain a high quality construction state for a long period, thereby providing an effect of increasing fireproof efficiency.

Description

FIREFLOW PARTITION STRUCTURE AND STRUCTURE METHOD THEREOF FIELD OF THE INVENTION [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a fireproof partition wall in the form of a non-bearing wall installed in various buildings, more particularly, A PC unit (precast unit) fixed to the iron frame is inserted and fixed. An iron frame and a general gypsum board are sequentially fixed between the reinforced pillar and the structural wall, and then a fireproof gypsum board The present invention relates to a fireproof partition reinforced wall which can effectively prevent heat and flame from being transmitted as well as durability and fire resistance of the partition itself.

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.

Furthermore, when the area for installing the partition wall is very large and wide, the load acting on the wall is concentrated entirely on the stud and the runner, so that the durability of the partition wall itself is deteriorated separately from the fire resistance. In the process of constructing the partition wall, there is a gap between the gypsum board and the stud, or a gap between the gypsum board and the runner due to the construction error or the accumulation of load and fatigue acting on each member, It is not satisfactory or has a closed end which lowers the refractory efficiency due to heat transfer.

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 view of the above problems, and it is an object of the present invention to provide a PC unit in which a reinforcing support is vertically installed at regular intervals with respect to a partition wall installation portion, and a general gypsum board is fixed to an iron frame and a fixing unit for fixing the steel frame to the general gypsum board sequentially between the reinforcing support and the wall of the structure and fixing the precast unit to the gypsum board, The fire gypsum board is tightly fixed to the whole of the gypsum boards, and the gap between the general gypsum board and the fireproof gypsum boards is constructed so as to perform a flame-

The structural stiffness of the whole partition is greatly increased by the reinforced pillar, and the factory PC PC unit can be quickly applied in the field, so that the construction period can be shortened and the construction cost can be reduced. The structural stability is excellent and the deformation of the partition wall itself And a method of constructing the fireproof partition reinforced wall having a feature that the fire resistance can be further shaped by suppressing the occurrence of gaps, and a method of constructing the same.

According to an aspect of the present invention, there is provided a vertical stiffener having a plurality of vertical reinforcing pillars at regular intervals in a partitioning construction unit, and a general gypsum board is fixedly mounted on front and rear surfaces of the PC unit, And an iron frame is inserted and fixed between the vertical reinforcement column and the wall of the structure of the partitioning unit, and a general gypsum board is tightly fixed to the front and rear surfaces of the iron frame,

The upper runner and the lower runner are fixedly installed on the ceiling portion and the bottom portion of the structure in the partitioning construction portion to fix the PC unit using the vertical reinforcement pillars and the upper runner and the lower runner, The steel frame and the general gypsum board are fixed by the vertical reinforcement column and the side runner while the side runners are fixedly installed, and between the PC units stacked in the vertical direction between the adjacent vertical reinforcement columns, And a horizontally reinforced pillar fixedly connected to the pillar is fixedly inserted and fixed on the surface of a general gypsum board fixed to the entirety of the partitioning unit so that the construction of the fireproof partition reinforcing wall can be realized .

Still another object of the present invention is to provide a vertical reinforcing step of installing two to n vertical reinforcing pillars of square steel pipes at equal intervals between a structure ceiling portion of a partition wall construction portion and a structure bottom portion; A lower runner working step of fixing a lower runner to the bottom of the structure between the vertical reinforcing pillars; A unit inserting step of sequentially inserting 1 to n PC units formed by fixing a general gypsum board on the front and rear surfaces between neighboring vertical reinforcing pillars from the bottom of the structure toward the ceiling portion; A horizontal reinforcing step of inserting and fixing a horizontally reinforced pillar between the upper PC unit and the lower PC unit in the unit inserting step; An upper runner working step of fixing the upper runner to the structure ceiling portion between the vertical reinforcement strands; An upper frame mounting step of inserting and fixing an iron frame between the upper runner and the upper horizontal support column; A side runner working step of fixing the side runner to the structure wall of the partition wall installation part; A side frame mounting step of inserting and fixing an iron frame between the side runner and the vertical reinforcement post; A general gypsum board finishing step of closely fixing a general gypsum board to the front and rear surfaces of the upper iron frame and the side iron frame; A fire retarding gypsum board finishing step of firmly fixing the fire retarding gypsum board on the entire surface of the general gypsum board of the PC unit and the general gypsum board fixed to the upper and both ends of the PC unit outer partition wall construction part; A flameproof sealant is injected between the side walls of the structure wall and the fireproof gypsum board, between the bottom of the structure and the bottom of the fireproof gypsum board, between the top of the structure ceiling and the fireproof gypsum board, To thereby achieve a method of constructing a reinforced partition wall.

The present invention is characterized in that the overall durability of the partition wall and the tightening force between the respective components are improved by the reinforcing pillars made of a rectangular tubular body vertically erected so that the construction state of the partition wall can be maintained more firmly and stably, Since the PC unit can be manufactured in a variety of sizes, it is possible to reduce the construction time and the construction cost of the entire partition wall, It is possible to quickly assemble various PC units according to the installation height and area of the partition wall, and it is excellent in the structural stability against the entire partition wall to prevent occurrence of crevices, deformation or warping of each component, Because the construction can be maintained for a long time, Efficiency will be further improved to be effective.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an overall schematic view of a partition wall according to the present invention; Fig.
Fig. 2 is a view showing the progressive incision state of the partition wall according to the present invention
3 is a side sectional view of the partition wall according to the present invention
Fig. 4 is an enlarged cross-sectional view of the lower end of the partition wall from the overall view of Fig.
Fig. 5 is an enlarged cross-sectional view of the middle portion of the partition wall from the overall view of Fig.
Fig. 6 is an enlarged cross-sectional view of the column connecting portion of the partition wall from the overall view of Fig.
Fig. 7 is an enlarged cross-sectional view of an upper end section of the partition wall from the overall view of Fig.
Fig. 8 is an overall plan view of the partition wall according to the present invention
Fig. 9 is an enlarged cross-sectional view of one end of the partition wall from the overall view of Fig.
Fig. 10 is an enlarged cross-sectional view of the column connecting portion of the partition wall from the overall view of Fig.
11 to 38 are views showing a construction process of the partition wall according to the present invention,
Fig. 11 is a view showing a state in which a vertical reinforcing support is provided with respect to the partitioning-
12 is an illustration of a lower fixed state of the vertical reinforcing pillars
Fig. 13 is a view showing a state in which the vertical reinforcement column and the lower runner are installed
14 is an enlarged perspective view showing a state in which the vertical reinforcement column and the lower runner are installed;
Fig. 15 is a front view of a state in which the PC unit is inserted between the vertical reinforcing pillars; Fig.
16 is a perspective view showing a state in which the PC unit is inserted between the vertical reinforcing pillars
17 is an exploded perspective view of the PC unit
18 is a cross-sectional enlarged view of the steel frame in the PC unit
19 is a sectional view of the PC unit
20 is a cross-sectional view of the entire side of the PC unit
21 is an enlarged cross-sectional view of the middle part of the PC unit
22 is a view showing a planar coupling degree between the PC units inserted in the vertical reinforcing stiffener
23 is a view showing a process of joining a horizontal reinforcement column to an upper portion of a PC unit
Fig. 24 is a view showing the whole of the state in which the horizontally-
25 is an enlarged perspective view showing a state in which the horizontally-
Fig. 26 shows a connection state diagram for the vertical reinforcing pillars
27 shows a state in which another PC unit is inserted and fixed in the vertical reinforcing steel strut
28 shows a state in which a lower runner is additionally provided to the partition wall construction portion
29 shows a state in which the upper runner is additionally provided to the partition wall wall construction portion
30 shows a state in which the PC unit is fixed up to the ceiling
31 shows a state in which a side runner is installed with respect to a partition wall wall construction portion
32 shows a state in which the iron frame is fixedly installed using the side runner
33 is an exploded perspective view of the side steel frame and the horizontal reinforcement pillars
Fig. 34 is a perspective view of the side steel frame and the horizontal reinforcing support,
35 is a view showing a state in which a general gypsum board is entirely fixed with respect to a partition wall wall-
36 is a cross-sectional enlarged view of a vertical reinforcing column joint portion of a partition wall in which a general gypsum board is installed
37 is a view showing a state in which a fireproof gypsum board is closely fixed to the surface of a general gypsum board
Fig. 38 is a view showing a flame-retardant sealant treatment state against a gap between fire-
39 is an enlarged cross-sectional view
40 is a whole view showing another example of the partition wall according to the present invention
41 is a whole view showing still another example of the partition wall according to the present invention
42 is a whole view showing still another example of the partition wall according to the present invention
43 is an exploded perspective view showing another embodiment of the PC unit of the partition wall according to the present invention.
44 is a front partial sectional view of the PC unit according to Fig. 43
45 is a perspective view showing another embodiment of the PC unit of the partition wall according to the present invention.
Figure 46 is a front partial sectional view of the PC unit according to Figure 45

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.

2 is a perspective view of the partition wall according to the present invention, FIG. 3 is a side sectional view of the partition wall according to the present invention, FIG. 4 is a sectional view of the partition wall according to the present invention, Fig. 5 is an enlarged sectional view of the intermediate portion of the partition wall from the entire view of Fig. 3, Fig. 6 is an enlarged sectional view of the column coupling portion of the partition wall from the entire view of Fig. Fig. 7 is an enlarged sectional view of an upper end portion of the partition wall from the entire view of Fig. 3, Fig. 8 is an overall plan view of the partition wall according to the present invention, Fig. 9 is an enlarged end view of one end of the partition wall from Fig. 10 is an enlarged cross-sectional view of the column connecting portion of the partition wall from the whole view of Fig.

As shown in the drawings, the fireproof partition reinforcing wall according to the present invention is made for partitioning an internal space of a building into various sizes, and can be widely used in a structure having a general ceiling or a structure for commercial or industrial use. And excellent fire resistance and expansion to various heights and widths.

In the refractory partition reinforced wall of the present invention, the bottom portion and the ceiling portion of the structure are formed by the slab, and the partitioning portions are formed on the portions where the wall of the structure is formed on both sides, However, in some cases, one end of the partition wall may be in close contact with the wall of the structure, while the other end of the partition wall may be in the form of a " Or a " C " shape, so that a predetermined space can be secured.

That is, the refractory partition reinforced wall of the present invention is fixedly installed using the structure wall 301, the structure ceiling 302, and the structure bottom 303 of the partition wall installation part 300, and the partition wall installation part The vertical reinforcing pillars 10 and 10 'made of metal square pipes are installed upright from the bottom 303 of the structure to the top of the structure ceiling 302 at predetermined intervals and the vertical reinforcing pillars 10 'Are sequentially stacked from the lower side to the upper side, and the PC units 200 and 200'

Horizontally reinforcing pillars 20 and 20 'which are connected and fixed to the vertical reinforcing pillars 10 and 10' are inserted between the PC units 200 and 200 '.

After the PC units 200 and 200 'produced in the factory are sequentially inserted and fixed between the vertical reinforcing pillars 10 and 10', the structure wall 301 and the adjacent vertical reinforcing pillars 10 and 10 ' The steel frame 210 is inserted and fixed between the structure ceiling portion 302 and the upper horizontal supporting posts 20 and 20 ' The boards 100 and 100 'are fixed to the front and rear surfaces of the iron frame 210 so that the gypsum boards 100 and 100' do.

At this time, the PC units 200 and 200 'are factory-produced in a state in which general gypsum boards 100 and 100' are closely fixed to the front and rear surfaces of the iron frame 210, PC units 200 and 200 'having general gypsum boards 100 and 100' are inserted and fixed in the entire space between the structural wall 301 and the adjacent vertical reinforcing pillars The steel frame 210 is inserted between the upper and lower horizontal supporting posts 20 and 20 'and between the structure ceiling portion 302 and the lower horizontal supporting posts 20 and 20'. The general gypsum boards 100 and 100 'are held tightly fixed to the front and back surfaces of the partition wall wall assembly 300 as a whole.

In this state, the fireproof gypsum boards 110 and 110 ', which are separately provided on the surface of the general gypsum board 100', are closely contacted with each other, and then the gypsum boards 100 and 100 ' The fireproof gypsum board 110 and the fireproof gypsum boards 110 and 110 'have a double refractory structure by screwing them to the PC units 200 and 200' and the iron frame 210 will be.

The spacing between the vertical reinforcing pillars 10 and 10 'is determined according to the width of the PC units 200 and 200' manufactured in the factory. When the width of the cubicle wall unit 300 is narrow The vertical reinforcing pillars 10 and 10 'may be spaced apart from each other by about two and the vertical reinforcing pillars 10 and 10' may be spaced at equal intervals The use number of the vertical reinforcing pillars 10 and 10 'may be increased or decreased according to the width of the partition wall mounting portion 300. [

In addition, when the ceiling height of the partition wall installation part 300 is very high, the vertical reinforcing pillars 10 and 10 'may be used as a single body of the extrusion molding. Preferably, the vertical reinforcing pillars 10 and 10' It may be ideal to extend the struts 10 and 10 'upwards continuously so as to have an appropriate length with the ceiling using a welding or fastening method.

In particular, in the case of the first vertical reinforcement column 10 (10 ') adjacent to the structural wall 301, it is preferable to use a single formed object as it is, if possible, and the second vertical reinforcement column 10, (11 ') having a length corresponding to the height of the PC unit (200') and the PC unit (200 ') in the case of the nth vertical reinforcing stiffener It may be more efficient to sequentially insert and fix the PC unit 200, 200 '.

The fixed installation structure of the vertical supporting columns 10 and 10 'is a state in which the vertical supporting columns 10 and 10' are placed and placed on the bottom portion 303 of the structure in the partition wall mounting portion 300 The bending brackets 60 and 60 'are separated from the bottom of the structure 303 and the bending brackets 60 and 60' are separated from the bottom ends of the lower ends of the vertical reinforcing pillars 10 and 10 ' The vertical reinforcing pillars 10 and 10 'can be fixedly installed by welding or fastening them to the vertical reinforcing pillars 10 and 10'.

That is, the bending brackets 60 and 60 'are manufactured by bending the metal steel material in a "B" shape, and the bending brackets 60 and 60' The anchor bolts are fixed to the bottom part 303 of the structure so as to correspond to the positions of the fastening holes so that they are fastened to each other and the vertical reinforcement pillars 10 and 10 ' It is also possible to form the lower part of the lower part of the lower part of the main body 10 so that the lower part of the lower part of the main body 10 can be fastened together through a separate bolt and nut. You might be able to work.

The vertical reinforcement columns 10 and 10 'are fixed by using the structure ceiling portion 302 and the structure bottom portion 303 and the ceiling portion between the vertical reinforcement columns 10 and 10' The upper and lower runners 30 and 30 'and the lower runners 40 and 40' are fixed to the bottom part 303 and the bottom part 303 along the installation direction of the partition wall. The side runners 50 and 50 'are fixedly installed.

"자 단면의 형강을 사각틀체의 형태로 접합 형성하여 된 철제프레임(210)과, 상기 철제프레임(210)의 안치부(212)(212')를 이용하여 전면 및 후면에 일반석고보드(100)(100')를 밀착 고정하여 이루어지는 것으로, 상기 철제프레임(210)의 내부에는 PC유닛(200)(200')의 크기에 따라 다수의 스터드(220)(220')가 등간격으로 고정되어 있는 것이다.Particularly, the PC units 200 and 200 'have fitting grooves 211 in which the vertical reinforcing pillars 10 and 10' or the horizontal reinforcing pillars 20 and 20 'are inserted, (212) and 212 '

And the front and rear surfaces of the gypsum boards 100 and 200 'are formed on the front and back surfaces of the steel frame 210 and the front and rear surfaces of the steel frame 210 by using the steel frame 210, A plurality of studs 220 and 220 'are fixed at regular intervals in the steel frame 210 according to the size of the PC units 200 and 200' It is.

The fixing brackets 70 and 70 'are separately inserted into the four fitting grooves 211 of the iron frame 210 and fixed to the fitting grooves 211 of the iron frame 210 The brackets 70 and 70 'are inserted at regular intervals and the studs 220 and 220' are fixed to the inside of the iron frame 210 at regular intervals, The gypsum boards 100 and 100 'are brought into close contact with each other using the surfaces of the mounting brackets 212 and the studs 220 and 220' And the studs 220 and 220 'so that the general gypsum boards 100 and 100' are tightly fixed to each other.

Since the general gypsum boards 100 and 100 'can not be manufactured in the same size as the PC units 200 and 200', but are mass-produced within a normal size, the general gypsum board 100 ' The gypsum boards 100 and 100 ', which are arranged and arranged in an array, may be spaced apart from each other by a distance It should be designed and manufactured so that the mutual end boundary portions of the general gypsum boards 100 and 100 'can be positioned on the surfaces of the studs 220 and 220'.

Particularly, since the ends of the two general gypsum boards 100 'and 100' are simultaneously fixed to the studs 220 and 220 ', in this case, the end gaps of the general gypsum board 100' The first flame retardant sheet 230 and the second flame retardant sheet 230 'are attached to both surfaces of the studs 220 and 220' in order to prevent the flame or the heat from flowing into the partition wall. The gypsum boards 100 and 100 'are tightly fixed to each other so that the flame is prevented from flowing into the partition wall by the first flame retardant sheets 230 and 230' It is possible to prevent a rapid conduction to the second electrode 220 '.

The fireproof gypsum board 100 'fixed to the PC units 200 and 200' and the iron frame 210 for closing the structural wall 301 and the structure ceiling 302 are closely contacted with each other The general gypsum boards 100 and 100 'which are fixed are identical to each other and the general gypsum boards 100 and 100' of the PC units 200 and 200 ' The general gypsum boards 100 and 100 ', which are fixed in situ to the iron frame 210, are used to fill gaps between the wall and the pillar or between the ceiling and the pillar in the field, And the same material and thickness.

The iron frame 210 in the PC units 200 and 200 'also has the steel frame 210 used in the PC units 200 and 200' to fill the gap between the wall and the pillar or between the ceiling and the pillar. And the steel frame 210 is cut in the field according to the distance between the wall and the pillar or between the ceiling and the pillar, all of the same object having the same shape and sectional shape.

In addition, in order to improve the fire resistance and structural rigidity of the general gypsum board 100 ', a galvannealed steel sheet 101 is formed in close contact with the entire one surface and the end surfaces of the four sides, And the general gypsum boards 100 and 100 'should be tightly fixed so as to face the inside of the partition wall.

In the case of the fire retardant gypsum boards 110 and 110 ', a steel sheet 111 of a material having improved fire resistance and durability is tightly fixed to the entire one surface and the end surfaces of the four sides, The flange 112 is formed by bending a steel sheet 111 at four ends of each of the flanges 110 and 110 '.

Therefore, the fireproof gypsum boards 110 and 110 'are tightly fixed to the outer surfaces of the general gypsum boards 100 and 100', while the steel sheet 111 faces the outside of the partition wall, So that the seat 111 can be substantially exposed to the inside of the room. Through this, it is possible to attach and apply various finishing materials as well as the effect of the interior decoration.

The adjacent fire gypsum boards 110 and 110 'are formed by inserting screws or fastening bolts into the overlapping portions of the gypsum boards 110 and 110' so that the flanges 112 overlap each other. 'Or through the studs 220, 220' or the stationary brackets 70, 70 ', the upper runners 30, 30' or the lower runners 40, 40 'or the side runners 50 The gypsum boards 110 and 110 'may have a width corresponding to the protruding width of the flange 112, so that a gap may be formed between the gypsum board 110' and the fixed brackets 70 and 70 ' The gap between the fireproof gypsum boards 110 and 110 'can be completely filled with the flame-retardant sealant 120 as the flame-retardant sealant 120 is injected into the gap, So that the joint effect of the wall can be produced.

Before the gypsum boards 110 and 110 'are tightly fixed to the surfaces of the general gypsum boards 100 and 100', the gypsum boards 100 and 100 ' It is preferable that the gypsum board 110 and the fire gypsum boards 110 and 110 'are staggered so that they do not coincide with each other and a general gypsum board 100 The flame or heat is introduced into the partition wall through the gap between the fireproof gypsum boards 110 and 110 'by attaching the second flame retardant sheet 130 or 130' to the surface of the fire retardant gypsum board 100 ' It is possible to block the same again.

As described above, the refractory partition wall reinforced by the present invention has excellent structural stability due to the vertical reinforcing pillars 10 and 10 'and the horizontal reinforcing pillars 20 and 20' The PC units 200 and 200 'produced by the factory can be repeatedly inserted and fixed by using the horizontal supporting posts 20 and 20' and the horizontal supporting posts 20 and 20 ' And a double refractory structure formed by the general gypsum board 100 'and the fire retardant gypsum boards 110 and 110' and a double refractory structure formed by the first and second flame retardant sheets 230 and 230 ' 130 '), it is possible to delay and prevent the flame or the heat from being transmitted and diffused from one space to the other space as much as possible.

In addition, the number of the vertical stiffeners 10 and 10 'can be freely increased or decreased according to the width and height of the partition wall installation portion 300, and the number of upward stacking of the PC units 200 and 200' So that it is very reasonable to perform quick and economical construction for almost all the work sites irrespective of the width and height of the partition wall construction part 300. [

The construction sequence and the process of the fireproof partition reinforced wall of the present invention with the above structure will be described in more detail with reference to the accompanying drawings.

In order to construct the refractory partition reinforced wall of the present invention, after the width and height of the partition wall installation portion 300 are measured, the partition wall installation portion 300 is installed in accordance with the size or size of the PC units 200 and 200 ' The number of PC units 200 and 200 'to be applied to the vertical reinforcing pillars 10 and 10' and the number of the metal pieces to be inserted between the wall and the ceiling, The size of the frame 210 and the amount of the general gypsum board 100 'and the fireproof gypsum boards 110 and 110' should be checked and prepared beforehand.

11, the vertical reinforcing pillars 10 and 10 'are installed upright to the partition wall installing portion 300, and the vertical reinforcing pillars 10 and 10' are installed upright from the wall structure 301 of the partition wall installation portion 300 The first vertical supporting columns 10 and 10 'are installed upright in a state of being spaced apart from the wall 301 of the one side structure by a predetermined distance.

At this time, the first vertical supporting columns 10 'and 10' may be a single vertical supporting columns 10 'and 10' from the bottom 303 of the structure to the ceiling 302 of the structure The second vertical supporting columns 10 and 10 'spaced apart from the first vertical supporting columns 10 and 10' are formed in the PC unit 200 'in consideration of the specifications of the PC units 200 and 200' 200 and 200 ', respectively, as shown in FIG.

12, the vertical supporting columns 10 and 10 'are rigidly fixed by using the bending brackets 60 and 60' separately provided to the bottom part 303 of the structure, The bending brackets 60 and 60 'are formed by bending the metallic steel into a "B" shape.

Therefore, when the bending brackets 60 and 60 'are returned to both sides of the lower ends of the vertical reinforcing pillars 10 and 10' with the vertical reinforcing pillars 10 and 10 ' The lower horizontal portions of the rear bending brackets 60 and 60 'are fixed to the structure bottom portion 303 using an anchor bolt or the like and the side vertical portions of the bending brackets 60 and 60' 10 'are welded or bolted together so that the vertical reinforcing pillars 10 and 10' can be firmly fixed by the bending brackets 60 and 60 ' do.

In the state where the vertical reinforcement columns 10 and 10 'are fixedly installed, the bottom of the structure 303 is provided with a lower runner 10' between the vertical reinforcement columns 10 and 10 ' 40 '40' are fixedly installed to fix the PC units 200 and 200 'and the iron frame 210 to be positioned at the lower end of the partition wall.

That is, the lower runners 40 and 40 'are extruded metal materials having both side ends bent upward along the longitudinal direction as shown in FIG. 14, and the structure wall 301 and the vertical reinforcement columns 10 and 10' And can be easily and firmly fixed to the bottom 303 of the structure between the vertical supporting posts 10 and 10 'using an anchor bolt or a knife block.

15 and 16, in the state where the cut vertical columns 11 and 11 'are fixed to the first vertical supporting columns 10 and 10' adjacent to the first vertical supporting columns 10 and 10 ' The first PC unit 200 and the second PC unit 200 are inserted into the vertical reinforcement columns 10 and 10 'through the upper portion of the PC unit 200' Since the steel frame 210 constituting the steel frame 210 is formed with the fitting grooves 211 having a depth corresponding to the size of the vertical reinforcing pillars 10 and 10 ' The PC units 200 and 200 'can be inserted and lowered between the vertical reinforcement columns 10 and 10'.

In this case, the PC units 200 and 200 'are factory-produced in a state in which general gypsum boards 100 and 100' are tightly fixed to both side surfaces of the iron frame 210, 20, the PC units 200 and 200 'themselves have fire resistance and durability sufficient to function as a small-sized partition wall.

"자 단면의 형강을 사각 프레임 형태로 접합 형성하여 만들어진 철제프레임(210)에 대하여 내부에 일정 간격(일반석고보드의 크기에 따라)으로 금속재 스터드(220)(220')를 설치한 후, 상기 철제프레임(210)의 안치부(212)(212')와 상기 스터드(220)(220')의 표면에 일반석고보드(100)(100')를 밀착시킨 상태에서 나사못 등을 이용하여 상호 견고하게 나사 고정함에 따라 만들어지는 것이다.That is, the PC units 200 and 200 'have the upper fitting groove 211 and the lower fitting portions 212 and 212'

The metal studs 220 and 220 'are installed at predetermined intervals (depending on the size of the general gypsum board) in the steel frame 210 formed by joining the sections of the cross-section steel frame in the form of a square frame, The gypsum boards 100 and 100 'are in close contact with the surfaces of the inner teeth 212 and 212' of the iron frame 210 and the surfaces of the studs 220 and 220 ' And then screw it into place.

At this time, the general gypsum board 100 '(100') is inserted into the fitting groove 211 of the iron frame 210 while the fixing brackets 70 and 70 ', which are separately bent and formed in a " The edge portions of the gypsum boards 100 and 100 'penetrate through the steel frame 210 and are screwed to the fixing brackets 70 and 70', thereby increasing the close fixing force of the gypsum board 100 ' The gypsum boards 110 and 110 'also serve as fixing parts.

The first flame retardant sheet 230 and the second flame retardant sheet 230 are attached to both surfaces of the studs 220 and 220 'of the iron frame 210 so that the studs 220 and 220' When the end portions of the adjacent gypsum boards 100 and 100 'are fixed at the same time, the gypsum boards 100 and 100' It is possible to prevent flames, heat, and the like from entering the interior of the PC units 200 and 200 '.

Accordingly, when the PC units 200 and 200 'described above are inserted between adjacent vertical supporting posts 10 and 10', a planar structure as shown in FIG. 22 is obtained.

23, when the first PC units 200 and 200 'are positioned as described above, a horizontal reinforcing pillar 20 (see FIG. 23) is provided on the upper portion of the PC units 200 and 200' 20 'of the PC unit 200 or 200' is inserted into the PC unit 200 and the horizontal reinforcement columns 20 and 20 'are made of the same rectangular steel as the vertical reinforcement columns 10 and 10' And the length of the horizontally extending struts 20 and 20 'is cut so as to coincide with the corresponding interplanar spacing of the vertically extending struts 10 and 10' adjacent to each other The horizontal supporting posts 20 and 20 'can be positioned at the upper portion of the PC units 200 and 200' with a depth corresponding to exactly half of the total height as shown in FIG.

After the insertion and the positioning of the horizontally reinforced pillars 20 and 20 'are performed, a fixing operation is performed on the horizontally reinforced pillars 20 and 20' The bending brackets 60 and 60 'that are electrically connected to the upper ends of the upper and lower horizontal support columns 20 and 20' are mounted on the upper and lower ends of the bending brackets 60 and 60 ' So that the vertical reinforcing pillars 10 and 10 'and the horizontal reinforcing pillars 20 and 20' can be firmly fixed to each other.

The vertical reinforcing pillars 10 and 10 'on the side where the cut vertical pillars 11 and 11' are used simultaneously with the fixing operation to the horizontal reinforcing pillars 20 and 20 ' It is necessary to perform an operation of extending another cut vertical column 11 (11 ') for inserting the cut vertical columns 11 (11') and 200 '(200') on the cut vertical columns 11 and 11 ' And the other cut vertical columns 11 and 11 'are placed on each other so that they can be firmly engaged and fastened together by welding or the like.

The vertical supporting columns 10 and 10 'are formed by using the upper side of the vertical supporting columns 11 and 11' of the vertical supporting columns 10 and 10 'and the cut vertical columns 11 and 11' After the first PC units 200 and 200 'are inserted and fixed to the positioning and horizontal reinforcing supports 20 and 20' between the first and second cut vertical grooves 11 and 11 ' 27 (a) and 27 (b) by repeatedly performing the extension of the cutting vertical columns 11 and 11 ', the insertion of another PC unit 200' and the fixing of the horizontal reinforcing pillars 20 and 20 ' The PC units 200 and 200 'and the horizontal reinforcing pillars 20 and 20' are sequentially solidly joined and fixed between the vertical reinforcing pillars 10 and 10 ' You can.

28, when the PC units 200 and 200 'are all inserted and fixed in the vertical and horizontal directions with respect to the partition wall installation portion 300, the cut vertical supports 11 and 11' The vertical supporting columns 10 and 10 'extend to the horizontal supporting columns 20 and 20' so as to serve as a solid frame and a strong inner column in the partition wall mounting portion 300 do.

29, the upper runners 30 and 30 'are fixed to the structure ceiling portion 302 and the side runners 50 and 50' are fixed to the structure wall 301 when necessary You can work together.

When the upper runners 30 and 30 'are installed, the PC units 200 and 200' of a reduced size as shown in FIG. 30 are connected to the upper horizontal support posts 20 and 20 ' The upper end of the horizontally reinforcing pillar 20 can be closed so that the PC units 200 and 200 'can be finished in the vertical direction by interposing them between the runners 30 and 30' The steel frame 210 applied to the PC units 200 and 200 'may be used when the gap between the structure unit 20' and the structure ceiling unit 302 is narrow or does not match the specifications of the PC units 200 and 200 ' The steel frame 210 is cut in a state where it is sandwiched between the horizontally reinforcing pillars 20 and 20 'and the upper runners 30 and 30' The same structure as that of the PC units 200 and 200 'can be produced by closely fixing the gypsum boards 100 and 100' in situ.

"자 단면의 형강을 "ㄷ"자 형태로 현장에서 접합 형성하여 이들 틈새로 삽입 및 상기 수직보강지주(10)(10')와 측부러너(50)(50')를 이용하여 상호 견고하게 전체 틈새 및 간격부에 고정되도록 하면 되는 것이다.31, when the side runners 50 and 50 'are fixed to the wall structures 301 on both sides, the structure wall 301 and the vertical reinforcement columns 10 and 10' The iron frame 210 is cut or "

And the side runners 50 and 50 'are used to firmly and securely connect the upper and lower reinforcing steel plates 10 and 10' And to be fixed to the clearance and the spacing portion.

At this time, the iron frame 210 for blocking the remaining clearance between the structure ceiling portion 302 and the structure bottom portion 303 except the PC units 200 and 200 'in the vertical reinforcing pillars 10 and 10' The horizontal reinforcing pillars 20 and 20 'should be inserted and fixed between the upper and lower portions of the iron frame 210 as shown in FIG. 33. The horizontal reinforcing pillars 20 and 20' 60 (60 ') to be rigidly coupled and fixed to the vertical reinforcement column 10 (10') so that it is firmly integrated as a whole as shown in FIG. 34.

As described above, since the vertical reinforcing pillars 10, 10 ', the horizontal reinforcing pillars 20, 20', the PC units 200, 200 ', and the steel frame 210 with respect to the side and top, The gypsum boards 100 and 100 'are tightly fixed to the front and rear surfaces of the iron frame 210 and the studs 220 and 220' are inserted into the iron frame 210 if necessary. The ordinary gypsum boards 100 and 100 'may be cut in the field so as to be suitable for the size of the iron frame 210 on the side and the upper part thereof and the entire gypsum board 100' The gypsum board 100 (100 ') is intimately fixed tightly and tightly without gaps to obtain a construction as shown in FIG.

The same general gygo board 100 'applied to the PC units 200 and 200' and the common gypsum boards 100 and 100 'fixed to the steel frame 210 are all applied A galvannealed steel plate 101 is referred to as a general gypsum board 100 (100 ') in which a galvannealed steel plate 101 is closely contacted and fixed on one side surface of a gypsum board and side surfaces of four sides, The gypsum boards 100 and 100 'are constructed such that the above-described galvanic steel plate 101 is directed to the inside of the partition wall as shown in FIG. 35, The general gypsum board 100 or 100 'may be broken or damaged due to interference or mutual impact between the vertical reinforcing pillar 10', the studs 220 and 220 'and the surfaces of the ordinary gypsum boards 100 and 100' It will be prevented from being damaged.

As shown in FIG. 37, when the general gypsum board 100 'is firmly fixed to the entirety of the partition wall construction 300, the fire gypsum boards 110 and 110' 100) 100 'so as to have a double refractory structure.

Since the fireproof gypsum boards 110 and 110 'are manufactured and manufactured in most standardized sizes, they can be continuously and vertically and horizontally arranged with respect to the partition wall installation part 300, The fire retarding gypsum boards 110 and 110 'are closely fixed so that the ends of the boards 110 and 110' are staggered with respect to each other so that they do not coincide with the end boundary of the general gypsum boards 100 and 100 ' It is possible to block the movement path of the flame or the heat and to further strengthen the durability of the partition wall itself.

Accordingly, the fireproof gypsum boards 110 and 110 'are firmly fixed to the surfaces of the general gypsum boards 100 and 100' to form a shape as shown in FIG. 38, The flame-retardant sealant 120 is injected into the space between the boards 110 and 110 'so that flame and heat are generated between the fire-proof gypsum boards 110 and 110' And it is possible to complete a cleaner and more clean interior side wall due to the joint effect due to the flame retardant sealant 120. [

Particularly, the fireproof gypsum boards 110 and 110 'are formed by closely adhering and fixing the steel sheet 111 to the entire one surface and the end surfaces of all the four sides of the fire gypsum board 110 (110' 'Of the steel sheet 111 can be further improved and the interior surface of the exposed surface of the steel sheet 111 can be exposed through various surface treatments such as painting or painting on the surface of the steel sheet 111, That is, toward the outside of the partition wall, it is possible to complete the partition wall with higher quality.

As shown in FIG. 39, before the gypsum board 110 'is tightly fixed to the surface of the general gypsum board 100', the surface of the general gypsum board 100 ' The second flameproof sheet 130 and the second flameproof sheet 130 are adhered to each other at positions where the fireproof gypsum boards 110 and 110 ' Flame or heat can flow inward through the mutual gaps between the fireproof gypsum boards 110 and 110 'by the second flame retardant sheet 130 or 130' Can be restrained and blocked from being transmitted again to the other side, and thus it is possible to produce a further improved fire resistance.

Particularly, in the case of the steel sheet 111 formed in close contact with the fireproof gypsum boards 110 and 110 ', the flange 112 is formed to protrude from the four ends of the fireproof gypsum boards 110 and 110' And the flanges 112 of the fireproof gypsum boards 110 and 110 'adjacent to each other are overlapped with each other in the case of the fireproof gypsum boards 110 and 110' And the second flame retardant sheet 130 and the second flame retardant sheet 130 can be fixed to the first flame retardant sheet 220 and the second flame retardant sheet 220 by fixing the blocking structure by the overlapping flange 112 and the flame retardant sealant 120, Fire flame or heat will be transmitted from the fire space to the other non-fire space in principle. Therefore, it is necessary to delay the spread of the fire and to prevent the toxic gas from leaking, To prevent it from happening do.

The refractory partition reinforced wall of the present invention as described above can be divided into a small size and a very large size by the vertical extension of the vertical support columns 10 and 10 ' As a result, it is possible to construct a partition wall having a comparatively small size as shown in Fig. 40 and a very wide and long partition wall as shown in Fig. 41, as well as a large and high area It is very remarkable that it is possible to construct the partition wall, as well as excellent fire resistance and excellent durability simultaneously, and it is possible to shorten the construction time and reduce the construction cost.

In the preferred embodiment of the present invention, the PC units 200 and 200 'are formed by fixing the general gypsum boards 100 and 100' on both sides of the iron frame 210, The fire retarding gypsum boards 110 and 100 'are closely fixed to the surfaces of the general gypsum boards 100 and 100'. However, in another embodiment, as shown in FIGS. 43 and 44, The gypsum boards 100 and 100 'and the fireproof gypsum boards 110 and 110' may be closely fixed to the gypsum boards 200 and 200 'so that the gypsum boards 100 and 100' will be.

For example, the size of the iron frame 210 is standardized to be 3600 x 4800 mm in width and the studs 220 and 220 'in the width direction are spaced apart from each other by 1200 mm Then, eight ordinary gypsum boards 100 'having the dimensions of 1800x1200 mm were fixed on both sides of the iron frame 210 by using the iron frame 210 and the studs 220 and 220', and then 1200 x 2400 mm The gypsum boards 100 and 100 'and the fireproof gypsum boards 110 and 110' are fixed together by fixing six fireproof gypsum boards 110 and 110 ' Thereby completing the units 200 and 200 '.

Since the PC units 200 and 200 'having such a standard are efficiently concealed by the fire gypsum boards 110 and 110', the contour lines between the general gypsum boards 100 and 100 ' The fireproof gypsum boards 110 and 110 'are jointly fixed to each other. Therefore, even if the fireproof gypsum boards 110 and 110' are fitted together in the factory, they can be fitted between the vertical reinforcement columns 10 and 10 ' The refractory partition wall for that part can be constructed.

After the construction of the partition wall between the vertical reinforcing pillars 10 and 10 'is performed using the PC units 200 and 200' including the fire retarding gypsum boards 110 and 110 ' The gap between the reinforcing pillar 10 (10 ') and the structure wall 301 and the gap between the structure ceiling 302 and the structure bottom 303 can be adjusted in the field on a common gypsum board 100 ( 100 'and the fireproof gypsum boards 110 and 110' are cut and tightly fixed by using an iron frame and a runner, so that a fireproof partition wall can be constructed on the entire surface of the partition wall installation part 300 will be.

It is more reasonable to use the PC units 200 and 200 'in which the fire retardant gypsum boards 110 and 110' are tightly fixed to each other, so that the refractory partition wall can be constructed more quickly and efficiently.

45 and 46, the gypsum board 100 ', the gypsum board 110', and the gypsum board 110 'may be formed on the PC units 200 and 200' So that the gypsum boards 110 and 110 'can be closely attached to the gypsum boards 100 and 100' in the field, if necessary. The general gypsum board 100 and the fireproof gypsum boards 110 and 110 'may be manufactured in the same manner as the general gypsum board 100 and the fireproof gypsum boards 110 and 110' The fireproof gypsum board 110 'and the fire retardant gypsum board 110' can be further improved in fire resistance by being staggered so that the adjacent mutual boundary lines do not overlap each other.

In other words, the size of the iron frame 210 is standardized to be 3600 x 4800 mm in the horizontal and vertical directions, and the studs 220 and 220 'are spaced apart from each other by 1200 mm in the horizontal direction inside the iron frame 210 Six pieces of general gypsum boards 100 'having a size of 1200 x 2400 mm were fixed on both sides of the iron frame 210 by using the iron frame 210 and the studs 220 and 220' The general gypsum board 100 100 'and the fire retardant gypsum board 110 110' are fixed together by fastening eight fireproof gypsum boards 110 ' Thereby completing the PC units 200 and 200 '.

The fire gypsum boards 110 and 110 'are fixed to the left and right sides of the iron frame 210 so as to protrude by 600 mm each. The boundary line between the fire gypsum boards 110 and 110' The gypsum boards 110 and 110 'will be precisely positioned at the center of the boards 100 and 100' so that the boundary lines between the gypsum boards 100 and 100 'and the fireproof gypsum boards 110 and 110' The heat or flame flowing through the gap between the fireproof gypsum boards 110 and 110 'moves as much as the half width of the fire gypsum boards 110 and 110' 100) 100 ', it is possible to rationally resolve the refractory weak points that may occur in the mutual boundary gaps.

In addition, when the PC units 200 and 200 'are installed continuously in the horizontal direction, the fire retardant gypsum boards 110 and 110' having exactly half widths protruding from both sides of the iron frame 210 as described above are installed in the neighborhood The gypsum boards 100 and 100 'on the PC units 200 and 200' may be closely fixed to the gypsum board 100 'on the PC units 200 and 200' Since the vertical boundary line between the boundary line between the fire gypsum board 110 'and the entire fireproof gypsum board 110' is staggered, an efficient refractory partition can be constructed over the entire construction destination.

The PC units 200 and 200 'having such a standard can effectively prevent the vertical boundary line between the general gypsum boards 100 and 100' from being hiding by the fire gypsum boards 110 and 110 ' The fire retardant gypsum boards 110 and 110 'are fixed together or only on both sides of the fire gypsum boards 110 and 110' It is possible to construct the fireproof partition wall more quickly and efficiently.

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 ': vertical reinforcement column 11,11': cut vertical column
20,20 ': Horizontal reinforcement
30,30 ': Upper runner
40, 40 ': Lower runner
50,50 ': side runner
60,60 ': Bending bracket
70,70 ': Fixed bracket
100, 100 ': General gypsum board 101: Galvanized steel plate
110,110 ': Fireproof gypsum board 111: Steel sheet
112: Flange
120: Flame retardant sealant
130, 130 ': second flame retardant sheet
200, 200 ': PC unit
210: iron frame 211: fitting groove
212,212 ': Anchui
220, 220 ': Stud
230, 230 ': a first flame retardant sheet
300: partition wall construction 301: structure wall
302: Structure ceiling 303: Structure bottom

Claims (25)

The vertical gauze boards 100 and 100 'are provided in the vertical supporting posts 10 and 10' adjacent to each other and the vertical gauze boards 10 and 10 ' The PC units 200 and 200 'closely fixed to the front and rear surfaces are inserted and fixed between the vertical reinforcing pillars 10 and 10' and the structural wall 301 of the partitioning unit 300, The frame 210 is inserted and fixed, and general gypsum boards 100 and 100 'are tightly fixed to the front and rear surfaces of the iron frame 210,
The upper runners 30 and 30 'and the lower runners 40 and 40' are fixedly installed on the structure ceiling part 302 and the bottom part 303 of the partitioning part 300 so that the vertical reinforcement pillars 10 The PC units 200 and 200 'are fixed by using the upper runners 30 and 30' and the lower runers 40 and 40 ' Side runners 50 and 50 'are fixed to the structural walls 301 in the steel frames 210 and 50' by the vertical reinforcement columns 10 and 10 'and the side runners 50 and 50' The PC unit 200 and the PC unit 200 are fixed vertically and vertically between adjacent vertical supporting columns 10 and 10 ' A general gypsum board 100 '100' having a horizontal reinforcing pillar 20 'and a horizontal reinforcing pillar 20' fixedly connected to the reinforcing pillar 10 'and fixed to the entirety of the partitioning installation 300 And the fireproof gypsum board 110 (110 ') is tightly fixed to the surface Construction of a fire-resistant partition structure reinforced walls that.
The method according to claim 1,
The lower ends of the vertical reinforcing pillars 10 and 10 'are fixed to the bottom 303 of the structure and include both the lower ends of the vertical reinforcing pillars 10 and 10' And the bending brackets 60 and 60 'are fixed to the vertical supporting columns 10 and 10' and the structure bottom 303 in such a manner that the bending brackets 60 and 60 ' Wherein the vertical reinforcing pillars (10, 10 ') are fixedly installed on the vertical reinforcing pillars (10, 10').
The method according to claim 1,
The horizontal reinforcing pillars 20 and 20 'are inserted between the PC units 200 and 200' of the upper and lower laminations, and the opposite ends of the horizontal reinforcing pillars 20 and 20 ' (10 ') of the reinforced pillar (10').
The method of claim 3,
Wherein the vertical reinforcing pillars 10 and 10 and the horizontal reinforcing pillars 20 and 20 'are tightly fixed by the bending brackets 60 and 60'.
The method according to claim 1,
The PC units 200 and 200 'have the outward fitting grooves 211 and the two side faces 212 and 212'

A plurality of studs 220 and 220 'fixed to the inside of the iron frame 210 and a plurality of studs 220 and 220' , And a general gypsum board (100) (100 ') which is fixed in a state of being in close contact with the surface of the housing (212) and the face of the housing (212).
6. The method of claim 5,
Fire gypsum boards 110 and 110 'are closely fixed to the outer surfaces of the general gypsum boards 100 and 100' and the boundary between the adjacent gypsum boards 100 and 100 ' (110, 110 ') are arranged and fixed so as to be offset from each other.
6. The method of claim 5,
The vertical reinforcement columns 10 and 10 'inserted into the fitting grooves 211 and the horizontal reinforcement columns 20' inserted into the fitting grooves 211 of the steel frame 210 by inserting the fixing brackets 70 and 70 ' 20) 20 'are brought into close contact with the fixing brackets 70, 70'
The general gypsum board 100 and 100 'which are closely fixed to the inner teeth 212 and 212 of the iron frame 210 penetrate through the iron frame 210 and are fixed to the fixing brackets 70 and 70' Wherein the reinforcing member is screwed to the wall of the refractory partition wall.
6. The method of claim 5,
And the first flame retardant sheet 230 and the second flame retardant sheet 230 'are attached to both surfaces of the studs 220 and 220'.
The method according to claim 1,
The general gypsum board 100 100 'is formed by closely attaching a galvanic steel plate 101 to one side surface of the gypsum board 100' so as to fix the galvanic steel plate 101 so as to face the inside of the partition wall. Construction structure.
The method according to claim 1,
The fireproof gypsum boards 110 and 110 'are formed by closely adhering a steel sheet 111 to one surface of the gypsum board 110' so as to fix the steel sheet 111 to the outside of the partition wall, And the flanges 112 are protruded to fix the flanges 112 of the fireproof gypsum boards 110 and 110 'adjacent to each other in a state where the flanges 112 are overlapped with each other.
11. The method of claim 10,
A flameproof sealant 120 is placed between the overlapping portions of the flanges 112 of adjacent fire gypsum boards 110 and 110 'and between the structural walls 301 and the flanges 112 of the fire gypsum boards 110 and 110' Wherein the refractory partition wall is formed by injection molding.
11. The method of claim 10,
The second flame retardant sheet 130 or 130 'is attached to the surface of the general gypsum board 100' corresponding to the overlapping portion of the flange 112 of the adjacent fire retardant gypsum boards 110 and 110 ' Wherein the refractory wall reinforcing wall is formed of a resin material.
The method according to claim 1,
The steel frame 210 inserted between the structural wall 301 and the vertical reinforcing pillars 10 and 10 'of the partition wall installation part 300 has an outward fitting groove 211 and two side faces 212, Lt; RTI ID = 0.0 > 212 '

Shaped end face of the steel frame 210 is fixed to the side runners 50 and 50 'in close contact with each other. Construction structure.
The method according to claim 1,
The steel frame 210 inserted between the structure ceiling portion 302 and the horizontal reinforcing pillars 20 and 20 'of the partition wall installing portion 300 has an outward fitting groove 211 and two side portions 212 ) ≪ / RTI > 212 '

Shaped frame is joined in a " C " shape so that both ends of the metal frame 210 are fixed in close contact with the upper runners 30 and 30 ' Construction structure.
A vertical reinforcing step of installing two to n number of vertical reinforcing pillars, each of which is a square steel pipe, at regular intervals between the ceiling portion of the partition wall construction and the bottom portion of the structure; A lower runner working step of fixing a lower runner to the bottom of the structure between the vertical reinforcing pillars; A unit inserting step of sequentially inserting 1 to n PC units formed by fixing a general gypsum board on the front and rear surfaces between neighboring vertical reinforcing pillars from the bottom of the structure toward the ceiling portion; A horizontal reinforcing step of inserting and fixing a horizontally reinforced pillar between the upper PC unit and the lower PC unit in the unit inserting step; An upper runner working step of fixing the upper runner to the structure ceiling portion between the vertical reinforcement strands; An upper frame mounting step of inserting and fixing an iron frame between the upper runner and the upper horizontal support column; A side runner working step of fixing the side runner to the structure wall of the partition wall installation part; A side frame mounting step of inserting and fixing an iron frame between the side runner and the vertical reinforcement post; A general gypsum board finishing step of closely fixing a general gypsum board to the front and rear surfaces of the upper iron frame and the side iron frame; A fire retarding gypsum board finishing step of firmly fixing the fire retarding gypsum board on the entire surface of the general gypsum board of the PC unit and the general gypsum board fixed to the upper and both ends of the PC unit outer partition wall construction part; A flameproof sealant is injected between the side walls of the structure wall and the fireproof gypsum board, between the bottom of the structure and the bottom of the fireproof gypsum board, between the top of the structure ceiling and the fireproof gypsum board, The method according to any one of claims 1 to 3,
16. The method of claim 15,
In the vertical reinforcement step, the first vertical reinforcement column located at one side of the partition wall installation portion is formed and fixed continuously from the structure wall to the bottom of the structure and the ceiling of the structure, and is spaced apart from the first vertical reinforcement column Wherein the second to n-th vertical reinforcing pillars are arranged such that the cut vertical pillars having a vertical length corresponding to the height of the PC unit are sequentially extended upward according to the unit inserting step.
17. The method of claim 16,
Wherein the vertically extending vertical strut is connected and fixed up and down by a bending bracket connecting and fixing the vertical reinforcement strut and the horizontal reinforcement strut.
16. The method of claim 15,
The PC unit has an outward fitting groove and a "

A plurality of studs vertically erected and fixed to the inside of the iron frame, a general gypsum board fixed in close contact with the surface of the stud and the surface of the seat, It is designed to be assembled in the field with factory designed size,
Wherein the fitting grooves are formed by inserting the lower runner, the vertical reinforcement strut, and the horizontal reinforcement strut into the fitting grooves, respectively, according to the position of the PC unit so as to have an insertion type assembling structure with respect to the vertical and horizontal reinforcement struts. Way.
19. The method of claim 18,
A fixing bracket for tightly fixing a general gypsum board is inserted in the fitting groove of the PC unit and the fitting groove has a depth equal to the height of the fixing bracket and the half thickness of the vertical reinforcing pillars and the horizontal reinforcing pillars, And the end portions of the PC units adjacent to the left and right and upward and downward directions with respect to the vertical reinforcement column and the horizontal reinforcement column are brought into contact with each other to be coupled to each other.
19. The method of claim 18,
Wherein a flame retardant sheet is formed on both surfaces of the studs in the PC unit.
21. The method of claim 20,
The general gypsum board fixed in the PC unit is constructed such that the end boundary portion between each general gypsum board is positioned at the middle portion of the stud so that the flame retardant sheet inside the end boundary portion between the general gypsum boards is subjected to flame shielding and heat shielding Wherein the refractory wall reinforcing wall is formed of a steel plate.
16. The method of claim 15,
A method of constructing a fireproof partition reinforced wall, characterized in that a flame retardant sheet is further formed on the boundary between the gypsum boards in the general gypsum board finishing step.
16. The method of claim 15,
Wherein in the general gypsum board finishing step, a galvannealed steel sheet is adhered and fixed to one surface of a general gypsum board, and the galvanic steel sheet is applied to the inside of the partition wall.
16. The method of claim 15,
Wherein in the fire gypsum board finishing step, the mutual end boundary lines between neighboring fireproof gypsum boards are staggered so as not to overlap with each other end boundary line of the general gypsum board.
16. The method of claim 15,
Wherein the fireproof gypsum board is constructed such that the steel sheet is adhered and fixed to one side surface of the fireproof gypsum board and the steel sheet is installed to face the outside of the partition wall in the finishing step of the fireproof gypsum board.

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