KR102562436B1 - Fireproof partition wall with improved durability and quality stability - Google Patents

Abstract

The present invention relates to a fireproof partition wall in the form of a non-bearing wall installed inside various buildings, and more particularly, to install vertical reinforcement posts and horizontal reinforcement posts in the partition wall construction part, and By fixing separately provided CH-type studs, a fireproof gypsum board is inserted and fixed to one side of the structural frame by the vertical and horizontal reinforcement posts and CH-type studs, and the inner steel fireproof board and the outer steel fireproof board are placed on the other side of the structural frame. As the double close fixing, the steel housings of the inner steel fire board and the outer steel fire board are configured to be tightly fixed with the structural frame direction and the outer direction, respectively,
The structural frame by the combination of vertical and horizontal pillars and CH studs creates excellent durability for the entire partition wall, and through this structural frame, fireproof gypsum board and steel fireproof board are quickly and easily combined and tightly fixed. It is very economical as it is possible to shorten the construction period as well as the convenience of the image. It has the effect of further improving fire resistance.

Description

Fireproof partition wall with improved durability and quality stability}

The present invention relates to a fireproof partition wall in the form of a non-bearing wall installed inside various buildings, and more particularly, by installing vertical reinforcement posts and horizontal reinforcement posts in a partition wall construction part, and installing the vertical reinforcement posts and horizontal reinforcement posts On one side, a fireproof gypsum board is inserted and fixed, and on the other side, the inner steel fireproof board and the outer steel fireproof board are doublely fixed, and the steel housings of the inner steel fireproof board and the outer steel fireproof board are closely fixed so that they face outward, respectively. It relates to a fireproof partition wall to further improve durability and fire resistance of the partition wall as well as quality stability.

The 'fireproof structure' prescribed in the Building Act refers to a structure that has been confirmed and recognized by the head of the Korea Institute of Civil Engineering and Building Technology. It is stipulated that it must be a fire-resistant structure capable of withstanding

In addition, fireproof partitions are also used as inner walls to partition or isolate the internal space of general buildings or prefabricated buildings, and building permits can be obtained only when they have fireproof performance for each purpose.

On the other hand, partitions used as non-load-bearing walls are commonly referred to as 'SGP partitions', that is, those with steel plates attached to the outside of gypsum boards. However, when heat is applied on one side of the partition, the internal gypsum board alone does not effectively block the heat conduction to the other side, and in particular, it is used as a pillar to form the frame of the partition or to connect between the partitions. Since heat is transferred through the C-type stud, there was a problem in that it did not pass the fire resistance test.

Accordingly, as in Registered Patent No. 10-0899597, individual fireproof partitions are attached to the front and rear surfaces of the C-shaped studs constituting the internal frame, and the fire-retardant fiber board is attached to the outside of the fire-resistant gypsum board, A coated hot-dip galvanized steel sheet constituting the outer surface of the partition is attached to the outside of the flame retardant fiber board, and another flame retardant fiber board and flame retardant can effectively block heat transfer between the front and rear surfaces of the C-shaped stud and the flame retardant gypsum board. A fireproof partition and a construction method thereof have been devised so that heat transfer and flame transfer to the other space can be effectively blocked when a fire breaks out in one space isolated by the partition to which a gypsum board is further attached.

However, the fireproof partition and the partition wall constructed using the same are simply attached to the existing C-shaped studs with a flame retardant gypsum board and a flame retardant fiber board, and then construct the partition wall using the existing flame retardant gypsum board and flame retardant fiber board. Since it is nothing more than a fireproof gypsum board, high-temperature heat and flame can flow into the partition wall through the gap between the walls and leak to the other side, which is not a fundamental solution.

That is, when the flame retardant gypsum board and the flame retardant fiber board are attached and fixed while the flame retardant gypsum board and the flame retardant fiber board are attached to the surface of the C-type stud as described above, a mutual gap will occur and such a gap will be formed. Through this, high-temperature heat or flame can leak through the inside of the partition wall to the other space, and considerable effort and work time are required to attach and form the flame-retardant gypsum board and flame-retardant fiber board to the surface of the C-shaped stud, respectively. Because it is extremely uneconomical.

In addition, even if you look at the process of constructing the existing fireproof partition wall, after fixing the lower and upper runners on the indoor floor and ceiling, respectively, measure and fix C-type studs between the upper and lower runners at regular intervals In the formed state, since it is necessary to go through the process of attaching and fixing the flame retardant gypsum board and the flame retardant fiber board to the surface of the C-type stud, considerable attention and effort are required to fix and install the C-type stud at equal intervals, as well as the C-type stud If the installation interval is not constant, it is difficult to obtain a solid fixing force of the flame retardant gypsum board and the flame retardant fiber board that are fixedly installed using this.

Moreover, when the installation interval of the C-shaped studs is not constant, and the ends of the gypsum boards on both sides are not accurately positioned in the center of the C-shaped studs and are fixed in a biased state to one side, the gap between the adjacent flame-retardant gypsum boards is reduced. Through this, the inflow of flame or heat to the inside of the partition wall can be made more quickly, so that the role of an efficient fireproof partition wall may not be performed.

In addition, in the case of existing fireproof partitions, mineral wool (or glass wool) filled between the partition walls, that is, the flame-retardant gypsum boards located in front and behind the C-shaped studs, has a density of 24 to 140K and a thickness of 50 to 100 mm. These In the case of mineral wool, it is filled with a height of 2.5 ~ 3.0m in the narrow gap of the front and rear flame retardant gypsum board, so it gradually sags over time. As a result, the top of the fireproof partition wall is not filled with mineral wool at all. Since the fireproof partition wall is filled with mineral wool in a high-density state, the fireproof partition wall has a fatal disadvantage of not exhibiting even fire resistance performance on the entire surface of the fireproof partition wall.

Accordingly, the applicant of the present invention, as in Patent Registration No. 10-1590860, has an inner panel filled with mineral wool in a steel sheet and formed with male and female fittings at both ends, so that the inner panel is continuously inserted between the upper and lower runners. In this state, as the flame retardant gypsum board and the flame retardant fiber sheet are attached to the front and rear surfaces of the inner panel and the flame retardant finishing panel is fixed to the surface of the flame retardant gypsum board, the inner panel is continuously inserted. Since the flame retardant gypsum board and the flame retardant finishing panel can be easily fixed, the construction of the fireproof partition wall can be performed more quickly and conveniently, and the internal panel and the boundary line between the flame retardant gypsum board and the flame retardant finishing panel are staggered so that they do not overlap each other. A fireproof partition structure and its construction method have been devised and registered so that flame retardancy can be produced and the upper and lower runners are not exposed to the outside, so that a more simple and beautiful partition wall can be completed.

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

In addition, partitions are usually constructed with different thicknesses depending on the area to be partitioned. The thickness of small partitions is only about 120mm before and after, whereas the thickness of large partitions is around 150mm, which is considerably thicker than small partitions. As the construction process, the durability of the partition is improved. In the case of using the aforementioned inner panel filled with mineral wool, the entire inner panel must be newly manufactured according to the thickness of the partition, so the construction period is very long and economical. It is very unfavorable, and it has extremely unreasonable problems in terms of supply and operation of materials.

Moreover, when the area to construct the partition wall is very high and wide, the entire load acting on the wall is concentrated on the studs and runners, so apart from fire resistance, the durability of the partition wall itself is poor. Regarding the area, in the process of constructing the partition wall, a gap between the gypsum board, a gap between the gypsum board and the stud, or a gap between the gypsum board and the runner occurs due to construction errors or load and fatigue accumulation acting on each member, which improves fire resistance performance. It does not satisfy or has the disadvantage of lowering the fire resistance efficiency due to heat transfer action.

In addition, in the case of constructing a steel fireproof panel or SGP panel with a double adhesion structure, when a fire occurs, the steel plate or the fireproof gypsum board inside the steel plate is deformed, and the steel plate and the fireproof gypsum board are separated or separated from each other. Since fire is introduced into the gap due to mutual separation, not only the fire resistance of the entire partition is significantly lowered, but also serious defects in terms of structural stability such as collapse of the partition wall or partial loss due to the decrease in durability of the entire partition. that will occur

Korean Registered Patent No. 10-0899597 (registered on May 20, 2009) Korean Registered Patent No. 10-1590860 (2016.01.27. Registration)

The present invention is to improve the problems as described above, by installing vertical reinforcement posts and horizontal reinforcement posts in the partition wall construction part, and by fixing separately provided CH-shaped studs to the upper and lower sides of the horizontal reinforcement posts, A fireproof gypsum board is inserted and fixed to one side of the structural frame by the reinforcing post, horizontal reinforcement post, and CH-shaped stud, and the inner steel fireproof board and the outer steel fireproof board are doublely fixed to the other side of the structural frame, but the inner steel fireproof board As the steel housing of the outer steel fireproof board and the structural frame direction and the outer direction are configured to be tightly fixed,

The solid durability of the entire partition wall by the structural frame, as well as the fast and efficient fixed installation of the fireproof gypsum board and the steel fireproof board by the structural frame, and the double steel fireproof board by the steel housing fixed in opposite directions, respectively. It is an object of the present invention to provide a fireproof partition wall with improved durability and quality stability, which has better fire resistance as well as suppression of deformation by flame to minimize various damages caused therefrom.

The present invention for achieving the above object is a vertical reinforcement post of a square tube body erected and installed in the construction part of a partition wall; Horizontal reinforcing posts fixed to both sides of the vertical reinforcing posts; Mutually opposed one-way CH studs located in the vertical direction on both sides of the vertical reinforcement post and at the end of the partition wall; A partition frame is formed by bidirectional CH studs located in the vertical direction between the one-way CH studs, and a fireproof gypsum panel inserted and fixed between the ends of the one-way CH stud and the bidirectional CH stud is formed on one side of the partition frame, , The other side of the partition frame is provided with an inner steel fire board that is closely fixed using the surfaces of the vertical reinforcement post, horizontal reinforcement post, one-way CH stud and two-way CH stud, and the outer surface of the inner steel fire prevention board is provided with a separate The outer steel fire prevention board is tightly fixed and configured,

The inner steel fire prevention board and the outer steel fire prevention board are composed of one surface and four end surfaces of the fireproof gypsum board, respectively, wrapped by a steel housing, and the steel housing of the inner steel fire prevention board is closely fixed toward the partition frame, As the steel housing of the outer steel fire protection board is closely fixed toward the outside, the inner steel fire protection board and the fire prevention gypsum board of the outer steel fire protection board face each other, and the vertical and horizontal reinforcement posts and the one-way CH stud And formed by attaching an inward flame retardant sheet to the mutual boundary between the two-way CH stud and the fire gypsum panel, and attaching an outward flame retardant sheet to the mutual boundary between the inner steel fire prevention boards, respectively.

In the present invention, the structural frame by the combination of vertical and horizontal pillars and CH studs creates excellent durability for the entire partition wall, and through this structural frame, quick and easy combination and adhesion of fireproof gypsum boards and steel fireproof boards It is very economical because it is fixed and the construction period is shortened as well as the convenience of construction. It has the effect of suppressing deformation and further improving fire resistance.

1 is a plan overall cross-sectional view of a partition wall according to the present invention
Figure 2 is a cross-sectional view of the entire side of the partition wall according to the present invention
Figure 3 is a cross-sectional view of the entire rear surface of the partition wall according to the present invention
4 is a planar overall separated cross-sectional view of a partition wall according to the present invention
Figure 5 is an explanatory view of the coupling between the structural frame of the partition wall and the fireproof gypsum board according to the present invention
6 is an explanatory view of a partially enlarged part of a partition wall according to the present invention
7 is an enlarged cross-sectional view of section “A” in FIG. 6
8 is an enlarged cross-sectional view of section “B” in FIG. 6
9 is an enlarged cross-sectional view of section “C” in FIG. 6

Additional objects, features and advantages of the present invention may be more clearly understood from the following detailed description and accompanying drawings.

Prior to the detailed description of the present invention, the present invention may make various changes and may have various embodiments, and the examples described below and shown in the drawings are not intended to limit the present invention to specific embodiments. No, it should be understood to include all changes, equivalents or substitutes included in the spirit and scope of the present invention.

In addition, when a component is referred to as being “connected” or “connected” to another component, it may be directly connected or connected to the other component, but other components may exist in the middle. It should be understood that there is On the other hand, when an element is referred to as “directly connected” or “directly connected” to another element, it should be understood that no other element exists in the middle.

Then, terms used in this specification are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, terms such as "include" or "have" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that the presence or addition of numbers, steps, operations, components, parts, or combinations thereof is not precluded.

In addition, terms such as "...unit", "...unit", and "...module" described in the specification mean a unit that processes at least one function or operation, which is hardware, software, or hardware and It can be implemented as a combination of software.

In addition, in the description with reference to the accompanying drawings, the same reference numerals are given to the same components regardless of reference numerals, and overlapping descriptions thereof will be omitted. In describing the present invention, if it is determined that a detailed description of related known technologies may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

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

1 is a planar overall cross-sectional view of a partition wall according to the present invention, Figure 2 is a side overall cross-sectional view of the partition wall according to the present invention, Figure 3 is a rear cross-sectional view of the entire partition wall according to the present invention, Figure 4 is a cross-sectional view of the rear surface of the partition wall according to the present invention A flat overall separated cross-sectional view of the partition wall along.

As shown in the figure, the partition wall according to the present invention includes a vertical reinforcing post 110 of a rectangular tube made of metal and installed in a construction part of the partition wall; Horizontal reinforcing posts 120 and 120' made of a rectangular tube of metal material fixed to both sides of the vertical reinforcing post 110; Mutually opposed one-way CH studs 130 and 130' positioned vertically on both sides of the vertical reinforcing post 110 and at the end of the partition wall; Partition by two-way CH studs 140 and 140' located between the one-way CH studs 130 and 130' and fixed orthogonally to the horizontal reinforcing posts 120 and 120' and positioned in the vertical direction made through the frame.

In addition, on one side of the partition frame, fireproof gypsum panels 200 and 200' inserted and fixed between the ends of the unidirectional CH studs 130 and 130' and the bidirectional CH studs 140 and 140', respectively, are formed. And, on the other side of the partition frame, the surface of the vertical reinforcing post 110, the horizontal reinforcing post 120, 120', the one-way CH stud 140, 140', and the two-way CH stud 140, 140' An inner steel fire prevention board 300 (300') that is closely fixed using is provided, and an outer steel fire prevention board 400 (400') provided separately on the outer surface of the inner steel fire prevention board 300 (300'). Is configured by being closely fixed, and a predetermined space is created between the fireproof gypsum panel 200 (200') and the inner steel fireproof board 300 (300') for insulation and flame blocking, and the inner The steel fire prevention board 300 (300') and the outer steel fire prevention board 400 (400') are tightly fixed to each other.

In particular, the inner steel fire prevention board 300 (300') and the outer steel fire prevention board 400 (400') have one and four end surfaces of the fire prevention gypsum board 310 (410), respectively, of the steel housing 320 420, the steel housing 320 of the inner steel fire prevention board 300 (300') is closely fixed toward the structural frame 100, and the outer steel fire prevention board 400 ( As the steel housing 420 of 400 ') is closely fixed toward the outside, the fireproof gypsum board 310 ( 410) are interviewed face-to-face.

In addition, the vertical reinforcing posts 110 and the horizontal reinforcing posts 120 and 120', the one-way CH studs 130 and 130', and the two-way CH studs 140 and 140' and the fireproof gypsum panel 200 Inward flame retardant sheets 150 and 150' are attached to the mutual boundary between (200'), and outward flame retardant sheets 160 and 160' are attached to the mutual boundary between the inner steel fire prevention boards 300 and 300'. It is formed by attaching and forming each.

At this time, the partition wall having the above structure is constructed so that the side of the fireproof gypsum panel 200 (200') faces indoors or the outer steel fireproof board 400 (400') depending on the purpose or purpose of the compartment space. ) can be constructed so that the interior faces the interior, regardless of the construction direction, the outer steel fire board 400 (400'), the inner steel fire board 300 (300') and the inner space and the fire gypsum panel (200) ) (200'), an efficient fireproof partition wall can be completed due to the multi-layered partition wall.

In particular, one-way CH studs 130 and 130 'and two-way CH studs 140 and 140 also made of metal using the vertical reinforcing posts 110 and the horizontal reinforcing posts 120 and 120' as a basic structure. '), the partition wall by the fireproof gypsum panel (200) (200'), the double inner steel fireproof board (300) (300') and the outer steel fireproof board (400) (400') has structural rigidity compared to the existing It will increase incomparably with the partition wall, and the multiple flame retardant structure can significantly reduce or delay the leakage of high-temperature heat through the partition wall or the collapse of the partition itself in case of fire.

Here, the one-way CH stud 130 (130') is used by continuously extruding a metal material and cutting it to the required length, for inserting the end of the fireproof gypsum panel 200 (200') at the lower end of one side. A 'c'-shaped fitting portion 131 is formed, and the other end of the one-way CH stud 130, 130' is bent surface portion 132 for tightly fixing the surface of the inner steel fire board 300, 300' is formed and made.

In addition, the two-way CH studs 140 and 140' are also used by continuously extruding a metal material and cutting to the required length, for inserting the ends of the fireproof gypsum panels 200 and 200' on both sides of the lower end. A 'c'-shaped fitting part 141, 141' is formed, and the other end of the bi-directional CH stud 140, 140' is bent for tightly fixing the surface of the inner steel fire board 300, 300' The face portion 142 is formed.

Therefore, as shown in FIG. 5, after fixing the one-way CH studs 130 and 130' to the side of the vertical reinforcing post 110, the fireproof gypsum panel 200 and 200' through the fitting part 131 on one side One end of is inserted, and the other end of the fireproof gypsum panel 200, 200' is inserted so that the fitting parts 141, 141' of the bi-directional CH studs 140, 140' are inserted, and the horizontal width of the partition wall is inserted. According to the width and the standard width of the fireproof gypsum panel 200, 200', the two-way CH stud 140, 140' and the fireproof gypsum panel 200, 200' are sequentially combined, and the partition wall At the end, the ends of the fireproof gypsum panels 200 and 200' may be combined and finished using the fitting part 131 of the one-way CH stud 130, 130'.

Accordingly, when one side wall of the partition wall is completed by the fireproof gypsum panels 200 and 200', the surfaces of the vertical reinforcing posts 110 and the horizontal reinforcing posts 120 and 120' and the one-way CH stud 130 (130') and the bidirectional CH studs (140, 140') using the bent surface portions (132, 142) to tightly fix the inner steel fire board (300) (300'), which is described above. The steel fire prevention board 300 (300') has a steel housing 320 facing outward at the opposite end of one inner steel fire prevention board 300 (300') among the inner steel fire prevention boards 300 (300') adjacent to each other. An extended overlapping protrusion 321 is formed, and the overlapping protrusion 321 is configured to be in close contact with the outer surface of the fireproof gypsum board 310 of the neighboring inner steel fire prevention board 300 (300'), so that the overlapping protrusion 321 ) It is configured to simultaneously bind and remove gaps between the inner steel fire boards 300 and 300 ' that are successively arranged by.

That is, referring to FIG. 7 showing an enlarged view of the coupling part between the inner steel fire boards 300 and 300' from the overall coupling cross-sectional view of FIG. (300') is the fire gypsum of the inner steel fire prevention board 300, 300' adjacent to the overlapping protrusion 321 of the steel housing 320 protruding from the end of one inner steel fire prevention board 300, 300'. By overlapping the outer surface of the board 310 to create a close contact state, in this overlapping state, the inner steel fire prevention board 300 (300') is attached to the vertical reinforcing post 110 or It is only necessary to screw firmly to the bent surface portions 132 and 142 of the one-way CH studs 130 and 130' and the two-way CH studs 140 and 140'.

Then, in the case of the outer steel fire board 400 (400'), the opposite end of one outer steel fire board 400 (400') among the outer steel fire boards 400 (400') adjacent to each other is made of steel. The housing 420 is inwardly bent to form a locking groove 421 and an outward locking portion 422 extending and protruding from the locking groove 421, and forming the other outer steel fire prevention board 400, 400'. At the opposite end, an assembly protrusion 423 inserted into the locking groove 421 protrudes outward, and the outward locking portion 422 is a fireproof gypsum board ( 410), and while the assembling protrusion 423 is inserted into the locking groove 421, the outer steel fire prevention boards 400 and 400' adjacent to each other are engaged and bound to each other.

Therefore, in the process of firmly fixing the outer steel fire board 400 (400') to the exposed surface of the inner steel fire board 300 (300') using a method such as screws or adhesion, After the outer steel fire prevention board 400 (400') is first adhered to one side, another outer steel fire prevention board 400 (400') is successively adhered to the outer steel fire prevention board 400 (400') facing each other. As the assembly protrusion 423 on the other side is coupled to the locking groove 421 on one side formed at the end of the, mutual binding is achieved, and at the same time, as shown in FIG. It adheres to the gypsum board 410 in an overlapping state.

Accordingly, the locking groove 421 and the assembly protrusion 423 serve to remove gaps between the outer steel fire boards 400 and 400' adjacent to each other together with the binding action, and the flame and high temperature Hot air passes between the outer steel fire boards 400 and 400' adjacent to each other due to the coupling structure of the locking groove 421 and the assembly protrusion 423 and the overlapping structure by the outward locking portion 422. will not be able to

In particular, the mutual fastening parts between the outer steel fire prevention boards 400 and 400 'as described above are alternately arranged with the mutual fastening parts between the inner steel fire prevention boards 300 and 300', thereby blocking double flame and heat. that will produce an effect.

In addition, the steel housing 320 of the inner steel fire prevention board 300 (300') described above is closely fixed toward the partition frame, and the steel housing 420 of the outer steel fire prevention board 400 (400') is As the outer steel fire prevention board 300 (300 ') and the outer steel fire prevention board 400 (400') are fixed and fixed so that the fire prevention gypsum boards 310 and 410 face each other as they are fixed in close contact to the outside, that is ideal

That is, the inner steel fire prevention board 300, 300' and the outer steel fire prevention board 400, 400' are placed in the steel housing 320, 420, respectively, and It is made by adhesive fixation, and when flame and high-temperature heat are concentrated on these inner steel fire prevention boards 300, 300' and outer steel fire prevention boards 400, 400', the steel housing 320, 420 And thermal deformation of the fireproof gypsum boards 310 and 410 occurs.

Accordingly, when the inner steel fire prevention board 300 (300') and the outer steel fire prevention board 400 (400') are double fixed so that the fire prevention gypsum boards 310 and 410 are face-to-face with each other, these steel housings (310) (410) serves to conceal and surround the entire fireproof gypsum board (310) (410), and the steel housing (310) (410) is screwed to the vertical reinforcement post (10) and the horizontal Since it will remain firmly fixed to the reinforcing post 120, 120' or the one-way CH stud 130, 130' and the two-way CH stud 140, 140', eventually the fireproof gypsum board 310 By suppressing the deformation of 410, the partition wall is deformed in case of fire to prevent unnecessary gaps from occurring, and at the same time, it is possible to delay or prevent the spread of flame, heat, or smoke through unnecessary gaps.

In addition, the outer steel fire prevention board 400 (400') as described above may be tightly fixed to the end of the corner finishing member 500 provided separately as shown in FIG. 9 for finishing or firm fixing of each end. Reinforcement for the exposed corner of the outer steel fire board 400 (400') through the corner finishing member 500 made of metal, and through the corner finishing member 500, screws, etc. are one-way CH studs 130 As it is fixed to (130'), etc., it is possible to obtain a more robust and stable fastening state and end finishing state.

As described above, the partition wall according to the present invention includes a solid frame structure as well as inner and outer boards having an inner space and a panel fixing structure, so as to effectively block flames or high-temperature heat, as well as enhanced durability, and excellent quality It can maintain heat and fire resistance.

The embodiments described in this specification and the configurations shown in the drawings as described above are merely the most preferred embodiments of the present invention and do not represent all of the technical spirit of the present invention, so various equivalents and modifications that can replace them It should be understood that there may be examples.

110: vertical reinforcement post
120,120': horizontal reinforcement post
130,130': one-way CH stud 131: fitting part
132: bending surface
140,140': bi-directional CH stud 141,141': fitting part
142: bending surface
150,150': Inner flame retardant sheet
160,160': outward flame retardant sheet
200,200' : fireproof gypsum panel
300,300': inner steel fire prevention board
310: fireproof gypsum board
320: steel housing 321: overlapping protrusion
400,400': External steel fire prevention board
410: fireproof gypsum board
420: steel housing 421: locking groove
422: outward-facing branch 423: assembly protrusion
500: corner finishing member

Claims (4)

A vertical reinforcement post 110 of a square tube body installed upright in the construction part of the partition wall; Horizontal reinforcing posts 120 and 120' fixed to both sides of the vertical reinforcing posts 110; Mutually opposed one-way CH studs 130 and 130' positioned vertically on both sides of the vertical reinforcing post 110 and at the end of the partition wall; A partition frame is constituted by the bi-directional CH studs 140 and 140' located in the vertical direction between the one-way CH studs 130 and 130', and the one-way CH stud 130 is installed on one side of the partition frame. (130') and the ends of the two-way CH studs 140, 140', a fireproof gypsum panel 200, 200' inserted and fixed is formed, and on the other side of the partition frame, the vertical reinforcement post 110 and The inner steel fire board 300 (300') that is closely fixed using the surfaces of the horizontal reinforcement posts (120, 120'), one-way CH studs (140, 140') and two-way CH studs (140, 140') ) Is provided, and a separate outer steel fire prevention board 400 (400') is tightly fixed to the outer surface of the inner steel fire board 300 (300 '),
The inner steel fire prevention board 300, 300' and the outer steel fire prevention board 400, 400' are steel housings 320, 420, respectively, on one side and on the four sides of the fire prevention gypsum board 310, 410. ), and the steel housing 320 of the inner steel fire prevention board 300 (300') is closely fixed toward the partition frame, and the steel housing of the outer steel fire prevention board 400 (400') As the 420 is closely fixed toward the outside, the fireproof gypsum boards 310, 410 of the inner steel fire prevention board 300, 300' and the outer steel fire prevention board 400, 400' face each other. The vertical reinforcing post 110 and the horizontal reinforcing post 120, 120', the one-way CH studs 130, 130', the two-way CH studs 140, 140', and the fireproof gypsum panel 200 ) (200'), inward flame retardant sheets (150, 150') are attached to the mutual boundary between them, and outward flame retardant sheets (160, 160') are attached to the mutual boundary between the inner steel fire prevention boards (300) (300'). In the fireproof partition wall with improved durability and quality stability, which is formed by attaching each,
An overlapping protrusion 321 in which the steel housing 320 extends outward is formed at the opposite end of one inner steel fire prevention board 300 (300') among the inner steel fire prevention boards 300 (300') adjacent to each other, The overlapping protrusions 321 are configured to be in close contact with the outer surfaces of the fireproof gypsum boards 310 of the neighboring inner steel fire boards 300, 300', and the inner steel fire prevention boards are continuously arranged by the overlapping protrusions 321. A fireproof partition wall with improved durability and quality stability, characterized in that it is configured to simultaneously bind and remove gaps between (300) and (300').
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