KR20220099609A - Fireproof partition wall with improved durability and quality stability - Google Patents

Abstract

The present invention relates to a fireproof partition wall in a non-bearing wall type, which is installed on the inside of various buildings. In particular, a vertical reinforcing pillar and a horizontal reinforcing pillar are installed at a partition wall construction unit, before an additionally provided CH type stud is fixed to upper and lower sides of the horizontal reinforcing pillar. A fire prevention plaster board is fixedly inserted into one side of a structure frame by the vertical reinforcing pillar, the horizontal reinforcing pillar and the CH type stud, and an inner steel fire prevention board and an outer steel fire prevention board are doubly fixed to come in contact with the other side of the structure frame. Moreover, the steel housing of the inner steel fire prevention board and the outer steel fire prevention board is constructed to be fixed to come in contact in the outer direction from the direction of the structure frame individually. The structure frame formed by the coupling of the pillars of vertical and horizontal structures and the CH stud realizes excellent durability with respect to the entirety of the partition wall. The structure frame allows the fire prevention plaster board and the steel fire prevention board to be quickly and conveniently coupled and to fixedly adhere to each other to facilitate convenience in construction, and shorten the construction period, thereby providing a great economic feasibility. The double steel fire prevention board in which the steel housing adheres in the opposite direction from each other realizes the beautiful exterior, while suppressing deformation of the plaster board and the steel housing due to the flame, thereby further improving fire resistance.

Description

Fireproof partition wall with improved durability and quality stability}

The present invention relates to a fire-resistant partition wall in the form of a non-bearing wall installed in the interior of various buildings, and more specifically, a vertical reinforcement post and a horizontal reinforcement post are installed in the partition wall construction part, and the vertical reinforcement post and the horizontal reinforcement post Fireproof gypsum board is inserted and fixed on one side, and the inner steel fire board and the outer steel fire board are double-adherently fixed on the other side, and the steel housings of the inner steel fire board and the outer steel fire board are fixed so as to face outward, respectively. It relates to a fire-resistant partition wall that further improves the durability and fire resistance of the partition wall as well as the quality stability.

'Fire-resistance structure' stipulated in the Building Act means a structure approved by the head of the Korea Institute of Construction Technology after confirming its fire-resistance performance. It is stipulated that it must be a fire-resistant structure capable of withstanding

In addition, fire-resisting partitions are also used as inner walls to partition or isolate the internal space of general or prefabricated buildings, and only if they have fire-resistance performance for each use, a building permit can be obtained.

On the other hand, the partition used as a non-bearing wall is commonly called 'SGP partition', that is, a steel plate attached to the outside of the gypsum board. However, when heat is applied from one side of the partition, the internal gypsum board alone does not effectively block heat conduction to the other side. There was a problem in that it could not pass the fire resistance test because heat was transferred through the C-type stud.

Accordingly, as in Patent Registration No. 10-0899597, individual fire-resisting partitions are attached to the front and rear surfaces of the C-shaped studs constituting the internal skeleton, respectively. To the outside of this flame-retardant fiber board, a hot-dip galvanized steel sheet forming the outer surface of the partition is attached, and another flame-retardant fiber board and flame-retardant to effectively block heat transfer between the front and rear of the C-type stud and the flame-retardant gypsum board. A fire-resistant partition and its construction method have been devised to effectively block heat transfer and flame transfer to the other space when a fire occurs in one space separated by a partition with more gypsum board attached thereto.

However, the above fire-resistant partition and the partition wall constructed using the same are simply attached to the existing C-type stud with a flame-retardant gypsum board and a flame-retardant fiber board, and then the partition wall is constructed using the existing flame-retardant plaster board and flame-retardant fiber board. Because it is nothing more than a fire-resistant gypsum board, high-temperature heat and flame can flow into the inside of the partition wall through the gap between the fire-resistant gypsum board and leak to the other side, which is a problem that cannot be a fundamental solution.

That is, when the flame-retardant 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 are attached and fixed, a gap will occur between them. Through this, high-temperature heat or flame can leak into the other space through the inside of the partition wall. Because it is extremely uneconomical.

In addition, even if we look at the process of constructing the existing fire-resistant partition wall, the lower runner and the upper runner are fixed and installed on the indoor floor and ceiling, respectively, and then the C-shaped studs are measured and fixed at regular intervals between the upper and lower runners. In the formed state, since a flame-retardant gypsum board and a flame-retardant fiber board must be attached and fixed to the surface of the C-type stud, considerable attention and effort are required to fix and install the C-type studs at equal intervals as well as C-type studs. It is difficult to obtain a strong fixing power of the flame-retardant gypsum board and the flame-retardant fiber board that are fixedly installed using the installation interval of the slabs.

Moreover, when the installation interval of the C-type stud is not constant, and the ends of both sides of the gypsum board do not correspond exactly to the central part of the C-type stud and are fixed to one side, the gap between the adjacent flame-retardant gypsum boards Through this, the inflow of flame or heat to the inside of the partition wall can be made faster, so that it cannot perform the role of an efficient fire-resistant partition wall.

In addition, in the case of existing fire-resistant partitions, in the case of mineral wool (or glass wool) that is filled between the partition walls, that is, between the flame-resistant gypsum boards located before and after the C-type studs, those with a density of 24 to 140K and a thickness of 50 to 100 mm are used. In the case of mineral wool, since it is filled with a height of 2.5 to 3.0 m in the narrow gaps of the front and rear flame-resistant gypsum boards, it gradually sags over time. It has a fatal flaw in that it does not exhibit an even fire resistance performance on the entire surface of the fire-resistant partition wall because it is in a poor state and the lower end of the fire-resistant partition wall is filled with mineral wool in a high-density state.

Accordingly, as in Patent Registration No. 10-1590860, the applicant of the present invention has inner panels filled with mineral wool in the steel sheet and formed with male and female fittings at both ends, so that the inner panel is continuously inserted between the upper runner and the lower runner. In this state, by attaching the flame-retardant gypsum board and flame-retardant fiber sheet to the front and back surfaces of the inner panel and fixing the flame-retardant finishing panel again to the surface of the flame-retardant gypsum board, using the continuously inserted inner panel Fireproof partition walls can be constructed faster and more easily because the flame-resistant gypsum board and flame-retardant finish panel can be easily fixed. A fireproof partition structure and its construction method have been devised and registered so that the flame retardancy can be produced, and the upper and lower runners are not exposed to the outside.

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

In addition, in general, partitions are constructed with different thicknesses depending on the area to be partitioned, and the thickness of small partitions is only about 120mm before and after, whereas in the case of large partitions, the thickness is 150mm before and after, which is considerably thicker than small partitions. It is intended to improve the durability of the partition as it is constructed. In the case of using an inner panel filled with mineral wool, the entire inner panel must be newly manufactured according to the thickness of the partition. This is very disadvantageous, and it has extremely unreasonable problems in terms of material supply and demand and operation.

In addition, if the area where the partition wall is to be constructed is very high and wide, the entire load acting on the wall is completely concentrated on the studs and runners, so it has a problem that the durability of the partition wall itself is lowered separately from fire resistance. In the process of constructing a partition wall for the area, a gap between the gypsum boards, a gap between the gypsum board and a stud, or a gap between the gypsum board and a runner occurs due to a construction error or the accumulation of loads and fatigue applied to each member. It is not satisfied or has the disadvantage of lowering the fire resistance efficiency due to the heat transfer action.

In addition, when a steel fire prevention panel or SGP panel is constructed with a double adhesion structure, when a fire occurs, the steel sheet or the fire fire gypsum board inside the steel sheet is deformed, and the steel sheet and the fire gypsum board are separated or separated from each other. Since fire flows into the gap caused by the separation between each other, the fire resistance of the entire partition is significantly lowered, and there are serious defects in structural stability, such as the collapse of the partition wall or partial loss due to reduced durability of the entire partition. it will occur

Republic of Korea Patent 10-0899597 (Registered on May 20, 2009) Republic of Korea Patent 10-1590860 (Registered on Jan. 27, 2016)

The present invention is to improve the problems as described above, by installing a vertical reinforcing post and a horizontal reinforcing post in the partition wall construction part, and fixing CH-type studs provided separately on the upper and lower sides of the horizontal reinforcing post, the vertical A fire gypsum board is inserted and fixed to one side of the structural frame by the reinforcing post and horizontal reinforcing post and CH-type studs, and the inner steel fire board and the outer steel fire board are doubled and fixedly attached to the other side of the structural frame, but the inner steel fire board and the steel housing of the outer steel fire board is configured to have a structure frame direction and an outer direction, respectively, and to be closely fixed,

The structural frame enables fast and efficient fixed installation of the fire gypsum board and the steel fire board as well as the robust durability of the entire partition wall by the structural frame. It is an object of the present invention to provide a fire-resistant partition wall with improved durability and quality stability, which has excellent fire resistance as well as suppresses deformation by flames to minimize various damages resulting therefrom.

The present invention for achieving the object as described above, the vertical reinforcement post of the rectangular tube body erected in the construction part of the partition wall; and horizontal reinforcement posts fixed to both sides of the vertical reinforcement posts; One-way CH studs opposite to each other positioned in the vertical direction on both sides of the vertical reinforcement and the ends of the partition wall; A partition frame is formed by bidirectional CH studs located in the vertical direction between the unidirectional CH studs, and a fire gypsum panel inserted and fixed between the ends of the unidirectional 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 reinforcing post, the horizontal reinforcing post, and the one-way CH stud and the bi-directional CH stud, and the outer surface of the inner steel fire board is separately provided The outer steel fire protection board is tightly fixed and composed,

The inner steel fire board and the outer steel fire board each have one side and all four ends of the fire gypsum board surrounded by a steel housing, and the steel housing of the inner steel fire board is closely fixed toward the partition frame, and the As the steel housing of the outer steel fire board is fixed in close contact with the outside direction, the fire gypsum board of the inner steel fire board and the outer steel fire board face each other, and the vertical reinforcement post and the horizontal reinforcement post and the one-way CH stud And an inward flame-retardant sheet is attached to the mutual boundary between the bidirectional CH studs and the fire-resistant gypsum panel, and an outward-facing flame-retardant sheet is attached and formed to the mutual boundary between the inner steel fire-resistant boards.

In the present invention, the structural frame by the combination of vertical and horizontal posts and CH studs produces excellent durability for the entire partition wall. Because it is fixed, it is very economical because it is possible to shorten the construction period as well as convenience in construction. It has the effect of suppressing deformation and further improving fire resistance.

1 is a cross-sectional plan view of a partition wall according to the present invention;
2 is a side overall cross-sectional view of a partition wall according to the present invention;
3 is a cross-sectional view of the entire rear surface of the partition wall according to the present invention;
4 is an exploded plan view of a partition wall according to the present invention;
5 is an explanatory view of coupling between the structural frame of the partition wall and the fire prevention gypsum board according to the present invention;
6 is a partially enlarged explanatory view of the partition wall according to the present invention;
7 is an enlarged cross-sectional view of part "A" in FIG.
8 is an enlarged cross-sectional view of part "B" in FIG.
9 is an enlarged cross-sectional view of part "C" in FIG.

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 can make various changes and can 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 modifications, equivalents, and 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 between. It should be understood that there is On the other hand, when it is said that a certain element is "directly connected" or "directly connected" to another element, it should be understood that the other element does not exist in the middle.

Next, the terms used herein are used only to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present specification, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, but one or more other features It is to be understood that this does not preclude the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof.

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

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

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

1 is an overall cross-sectional plan view of a partition wall according to the present invention, FIG. 2 is an overall cross-sectional side view of a partition wall according to the present invention, FIG. 3 is a rear overall cross-sectional view of a partition wall according to the present invention, FIG. It is a plan full separated cross-sectional view of the partition wall along the

As shown, the partition wall according to the present invention includes: a vertical reinforcing post 110 of a rectangular tube body made of metal that is erected and installed in the construction part of the partition wall; Horizontal reinforcing posts 120 and 120' made of a rectangular tube made of metal fixed to both sides of the vertical reinforcing posts 110; mutually opposed one-way CH studs 130 and 130' positioned in the vertical direction on both sides of the vertical reinforcing post 110 and the ends of the partition wall; It is located between the one-way CH studs 130 and 130' and is fixed in the orthogonal direction to the horizontal reinforcement posts 120 and 120' and is a partition by the bidirectional CH studs 140 and 140' located in the vertical direction. made through the frame.

In addition, on one side of the partition frame, fire-resistant gypsum panels 200 and 200 ' that are respectively inserted and fixed between the ends of the one-way CH studs 130 and 130' and the two-way CH studs 140 and 140' are formed. On the other side of the partition frame, the vertical reinforcement posts 110 and the horizontal reinforcement posts 120, 120' and the one-way CH studs 140 and 140' and the bidirectional CH studs 140, 140') The inner steel fire protection boards 300 and 300' that are closely fixed using is configured to be closely fixed, and a predetermined space for heat insulation and flame blocking is created between the fire-resistant gypsum panels 200 and 200' and the inner steel fire-resistant boards 300 and 300', and the inner side The steel fire protection boards 300 and 300' and the outer steel fire protection boards 400 and 400' are closely fixed to each other.

In particular, the inner steel fire protection boards 300, 300' and the outer steel fire protection boards 400 and 400', respectively, have one side and four ends of the fire-resistant gypsum boards 310 and 410, a steel housing 320. The steel housing 320 of the inner steel fire protection boards 300 and 300 ′ is tightly fixed toward the structural frame 100, and the outer steel fire protection board 400 ( As the steel housing 420 of 400') is fixed in close contact with the outside direction, the fire prevention gypsum board 310 of the inner steel fire protection boards 300, 300' and the outer steel fire boards 400, 400' 410) are face-to-face interviews.

In addition, the vertical reinforcement posts 110 and the horizontal reinforcement posts 120, 120 ', the one-way CH studs 130, 130' and the bidirectional CH studs 140, 140' and the fire-resistant gypsum panel 200 Inwardly formed flame-retardant sheets 150 and 150' are attached to the mutual boundary between the 200', and the outward-facing flame-retardant sheets 160 and 160' are formed on the mutual boundary between the inner steel fireproofing boards 300 and 300'. It is formed by attaching each to each other.

At this time, the partition wall having the above structure is constructed so that the fire-resistant gypsum panel 200, 200' faces the interior, or the outside steel fire-proof board 400, 400' ) to face the interior, regardless of the construction direction, the outer steel fire boards 400 and 400 ′ and the inner steel fire boards 300 and 300 ′ and the inner space and fire gypsum panel 200 ) (200'), an efficient fire partition wall can be completed due to the multi-layered partition wall.

In particular, one-way CH studs 130 and 130' and bidirectional CH studs 140 and 140 made of metal with the vertical reinforcement posts 110 and horizontal reinforcement posts 120 and 120' as above as the basic structure. ') using fire-resistant gypsum panels 200, 200' and double inner steel fire boards 300, 300' and outer steel fire boards 400 and 400', the partition wall has the structural rigidity of the existing ones. 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 studs 130 and 130' are continuously extruded from a metal material and cut to a required length. A c'-shaped fitting part 131 is formed, and at the other end of the one-way CH studs 130, 130', the surface of the inner steel fire board 300, 300' is closely fixed to the bent surface part 132. is formed and made.

In addition, the bi-directional CH studs 140 and 140 ' are also continuously extruded and cut to the required length for inserting the ends of the fire gypsum panels 200 and 200 ' on both sides of the lower end. C'-shaped fitting parts 141 and 141 ' are formed, and at the other end of the bidirectional CH studs 140 and 140 ', the surfaces of the inner steel fire boards 300 and 300' are bent to be in close contact with each other. The face portion 142 is formed and made up.

Therefore, after fixing the one-way CH studs 130 and 130' to the side of the vertical reinforcement post 110 as shown in FIG. Insert one end of the, and the other end of the fire-resistant gypsum panel 200, 200' so that the fitting part 141, 141' of the bidirectional CH stud 140, 140' is inserted, the horizontal of the partition wall According to the width and the standard width of the fire-resistant gypsum panel 200, 200', the bidirectional CH studs 140, 140' and the fire-resistant gypsum panel 200, 200' are sequentially combined, and the At the end, using the fitting portion 131 of the one-way CH studs 130 and 130 ′ described above, the ends of the fire-resistant gypsum panels 200 and 200 ′ may be combined and closed.

Accordingly, when one side wall of the partition wall is completed by the fire-resistant gypsum panel 200, 200 ′, the surface of the vertical reinforcing posts 110 and the horizontal reinforcing posts 120 and 120 ′ and one-way CH studs 130 ) (130') and the bidirectional CH studs 140, 140' by using the bent surface portions 132 and 142 of the electric inner steel fire board 300, 300' to be closely fixed, and the inner side of the Steel fire boards 300 and 300 ′ have a steel housing 320 at the opposite end of one inner steel fire board 300 and 300 ′ among the inner steel fire boards 300 and 300 ′ that are 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 fire prevention gypsum board 310 of the neighboring inner steel fire prevention boards 300 and 300', and the overlapping projection 321 ) is configured to simultaneously bind and remove gaps between the inner steel fire protection boards 300 and 300 ′ that are continuously arranged by the .

That is, referring to FIG. 7, which is an enlarged view of the coupling portion between the inner steel fire protection boards 300 and 300 ′ from the overall combined cross-sectional view of FIG. (300 ') is a fire gypsum of inner steel fire board 300 (300') adjacent to the overlapping protrusion 321 of the steel housing 320 protruding from the end of the inner steel fire board 300, 300' on one side. The board 310 is superimposed on the outer surface to produce a close state, and in this overlapping state, the inner steel fire protection board 300, 300 ' is attached to the vertical reinforcement post 110 or through a separately provided screw. The one-way CH studs 130, 130' and the two-way CH studs 140, 140' just have to be firmly screwed to the bent surfaces 132 and 142 of the studs.

Next, in the case of the above-described outer steel fire boards 400 and 400', one side of the outer steel fire boards 400 and 400' that are adjacent to each other has a steel at the opposite end of the outer steel fire boards 400 and 400'. A retaining groove 421 formed by bending the housing 420 inward and an outwardly protruding retaining portion 422 protruding from the retaining groove 421 are continuously formed, and the other side of the outer steel fire protection board 400, 400' At the opposite end, the assembly protrusion 423 inserted into the locking groove 421 protrudes outward, and the outward locking part 422 is a fire-resistant gypsum board ( 410) and assembling protrusions 423 are inserted into the locking grooves 421 so that the adjacent outer steel fire protection boards 400 and 400' are engaged with each other to be bound.

Therefore, in the process of firmly fixing the outer steel fire protection boards 400, 400' to the exposed surfaces of the inner steel fire protection boards 300 and 300' using screws or bonding methods, etc., After first attaching the outer steel fire protection boards 400 and 400' to one side, the other outer steel fire protection boards 400 and 400' are successively attached to each other, and facing each other, the outer steel fire protection boards 400, 400') 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 It is closely adhered to the gypsum board 410 in an overlapping state.

Accordingly, the locking groove 421 and the assembly protrusion 423 serve to remove the gap between the adjacent outer steel fire boards 400 and 400 ′ together with the binding action between them. The hot air passes between the adjacent outer steel fire boards 400 and 400' due to the coupling structure of the locking groove portion 421 and the assembly protrusion 423 and the overlapping structure by the outward locking portion 422. can't do it

In particular, the mutual fastening part between the outer steel fire prevention boards 400 and 400' as described above is alternately arranged with the mutual fastening part between the electric inner steel fire prevention boards 300 and 300', thereby blocking the double flame and heat. it will create an effect.

In addition, the steel housing 320 of the inner steel fire protection boards 300 and 300 ′ described above is closely fixed toward the partition frame, and the steel housing 420 of the outer steel fire protection boards 400 and 400 ′ is As the fire prevention gypsum boards 310 and 410 of the inner steel fire protection boards 300 and 300' and the outer steel fire boards 400 and 400' are fixed and installed in close contact with each other in close contact toward the outside, the fixed installation that would be ideal

That is, in the inner steel fire boards 300 and 300 ' and the outer steel fire boards 400 and 400 ', fire gypsum boards 310 and 410 are placed in the steel housings 320 and 420, respectively. It is made by bonding and fixing, and when the flame and high-temperature heat are concentrated on these inner steel fire boards 300, 300' and outer steel fire boards 400, 400', the steel housing 320, 420) And the thermal deformation of the fire-resistant gypsum boards 310 and 410 is generated.

Accordingly, when the inner steel fire protection boards 300 and 300' and the outer steel fire protection boards 400 and 400' are double fixed so that the fire fire gypsum boards 310 and 410 face each other, these steel housings 310 and 410 will serve to cover and cover the entire fire-resistant gypsum board 310, 410, and the steel housing 310, 410 is a vertical reinforcing post 10 and horizontal by screws, etc. Since it will maintain a rigidly fixed state to the reinforcing posts 120, 120' or one-way CH studs 130, 130' and the two-way CH studs 140, 140', eventually the fire-resistant gypsum board 310. By suppressing the deformation of 410, it is possible to prevent unnecessary gaps from being generated due to deformation of the partition wall in case of fire, and at the same time to delay or prevent the spread of flames, heat, or smoke through unnecessary gaps.

In addition, the outer steel fire protection boards 400 and 400 ′ as described above may have a corner finishing member 500 provided separately as shown in FIG. , through the corner finishing member 500 made of a metal material, reinforcement for the exposed edge of the outer steel fire protection board 400, 400 'and a screw through the corner closing member 500 one-way CH stud 130 As it is fixed to the (130') and the like, it is possible to obtain a more robust and stable fastening state and end-finished state.

As such, the partition wall according to the present invention includes a solid frame structure as well as an internal and external board and panel fixing structure having an internal space, so that it effectively blocks flames or high-temperature heat as well as provides excellent durability. It can maintain heat resistance and fire resistance.

The configuration shown in the embodiments and drawings described in the present specification as described above is only the most preferred embodiment of the present invention and does not represent all the technical spirit of the present invention, so various equivalents and modifications that can be substituted for 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: bent surface part
140,140': Two-way CH stud 141,141': Fitting part
142: bent surface part
150,150' : Inward flame retardant sheet
160,160' : Outward flame retardant sheet
200,200' : Fireproof Gypsum Panel
300,300' : inner steel fire protection board
310: fire-resistant gypsum board
320: steel housing 321: overlapping protrusion
400,400' : Outside steel fire protection board
410: fire-resistant gypsum board
420: steel housing 421: locking groove
422: outward branching part 423: assembly protrusion
500: corner finishing member

Claims (4)

The vertical reinforcement post 110 of the rectangular tube body erected in the construction part of the partition wall; Horizontal reinforcement posts (120, 120') fixed to both sides of the vertical reinforcement posts (110) and; One-way CH studs (130, 130') opposite to each other positioned in the vertical direction on both sides of the vertical reinforcement post (110) and the ends of the partition wall; The one-way CH studs 130 and 130' constitute a partition frame by bidirectional CH studs 140 and 140' positioned in the vertical direction, and one side of the partition frame has the one-way CH studs 130. (130') and the two-way CH studs (140, 140') are inserted and fixed between the ends of the fire-resistant gypsum panels 200, 200' are formed, the other side of the partition frame, the vertical reinforcing post 110 and The inner steel fire protection board 300 (300') fixed in close contact using the surfaces of the horizontal reinforcement posts 120, 120' and the one-way CH studs 140, 140' and the two-way CH studs 140, 140' ) is provided, and the external steel fire protection boards 400 and 400', which are separately provided on the outer surface of the inner steel fire protection boards 300 and 300', are closely fixed and configured.
The inner steel fire protection boards 300, 300' and the outer steel fire protection boards 400 and 400' have one side and all four ends of the fire-resistant gypsum boards 310 and 410, respectively, with steel housings 320 and 420. ), and the steel housing 320 of the inner steel fire protection boards 300 and 300' is fixed in close contact with the partition frame, and the steel housing of the outer steel fire protection boards 400 and 400'). As the 420 is fixed in close contact with the outside direction, the fire prevention gypsum boards 310 and 410 of the inner steel fire protection boards 300 and 300 ′ and the outer steel fire protection boards 400 and 400 ′ face each other. The vertical reinforcement poles 110 and the horizontal reinforcement poles 120 and 120 ′, the one-way CH studs 130 and 130 ′, and the bidirectional CH studs 140 and 140 ′ and the fire gypsum panel 200 ) (200') are formed by attaching an inward flame-retardant sheet 150, 150' to the mutual boundary, and an outward-facing flame-retardant sheet 160, 160') Fireproof partition wall with improved durability and quality stability, characterized in that it is formed by attaching and forming each.
The method of claim 1,
One-way CH studs 130, 130' is formed with a 'C'-shaped fitting part 131 for inserting the end of the fire-resistant gypsum panel 200, 200' at the lower end of one side, and the one-way CH stud 130) ( At the other end of 130'), a bent surface part 132 for closely fixing the surfaces of the inner steel fire protection boards 300 and 300' is formed.
Bi-directional CH studs 140, 140' are formed with 'C'-shaped fittings 141 and 141' for inserting the ends of the fire-resistant gypsum panels 200 and 200' on both sides of the bottom, and the bidirectional CH studs At the other end of the 140 and 140', a bent surface portion 142 for closely fixing the surface of the inner steel fire protection board 300, 300' is formed. fireproof partition wall.
The method of claim 1,
An overlapping protrusion 321 in which the steel housing 320 extends outwardly is formed at the opposite end of the inner steel fire board 300, 300' of one side of the inner steel fire protection boards 300 and 300' that are adjacent to each other, The overlapping projection 321 is configured to be in close contact with the outer surface of the fire prevention gypsum board 310 of the neighboring inner steel fire prevention boards 300 and 300', and the inner steel fire prevention board is continuously arranged by the overlapping projection 321. 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').
The method of claim 1,
At the opposite end of one side of the outer steel fire protection boards 400 and 400' of the neighboring outer steel fire protection boards 400 and 400', a steel housing 420 is bent inwardly to form a locking groove 421 and the locking groove. Assembling protrusions ( 423) outwardly protrude, and the outward locking part 422 is brought into close contact with the fireproof gypsum board 410 of the adjacent outer steel fireproof boards 400 and 400', and the locking groove 421 is an assembly protrusion 423. ) fireproof partition wall with improved durability and quality stability, characterized in that the adjacent outer steel fire boards 400, 400' are interlocked and bound to each other as they are inserted.

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