KR19990052255A - Ceiling fire protection - Google Patents

Abstract

The present invention relates to a ceiling fire protection device used for the ceiling of a steel villa or a two-story floor, and more specifically, in a lightweight steel structure, it adopts a structure having fire resistance without spraying rock wool or the like to a steel frame to provide sufficient fire resistance. The present invention relates to an improved ceiling fire protection device to secure and prevent workers' safety accidents and industrial accidents.

In order to achieve the above object, the present invention is provided with a joist constituting a plurality of beams, and in the ceiling fire protection device used for the ceiling or steel floor of the steel villa, the lower part of the joist is equipped with a ring ring channel, A fireproof gypsum board is mounted on the lower part of the ring ring channel, and a glass wool plate is positioned on the upper portion of the ring ring channel, and a fire protection space is formed between the fire ring gypsum board and the glass wool by a ring ring channel. to provide.

According to the present invention as described above, when installing a fire-resistant gypsum board and a mulling channel in the joist, spreading the glass wool on the upper part of the joist to use as a ceiling finish of the floor and roof construction without using a separate fireproof coating The construction cost can be drastically reduced by inducing material and labor costs to be put into the fireproof coating construction.

Description

Ceiling fire protection

The present invention relates to a ceiling fire protection device used for the ceiling or each floor of the steel villa, and more specifically, in a lightweight steel building to secure sufficient fire resistance performance by adopting a structure having a fire-proof performance without spraying rock wool or the like on steel frame And, at the same time relates to an improved ceiling fire protection device to prevent accidents of workers.

In general, the steel villa 100 as shown in Figure 1 is made of a light steel structure, the fire resistance method of the ceiling 110 or each floor floor 120, as shown in Figure 2, the stud 126 is a steel member ) Or the joist 128 is coated by spray-spraying a refractory coating material 130 or a refractory material mixed with rock wool and cement, which is a wet method, to a predetermined thickness.

The conventional fireproof coating work as described above is very difficult to work, and has caused a lot of adverse effects on the health of the worker by generating a large amount of dust, including rock wool, during construction. In other words, the rock wool used as the fireproof coating 130 is that the ingredient is a hazardous substance and requires extreme caution in the work, and more careful consideration for the safety management of the worker.

In the conventional method as described above, after attaching the fireproof coating material 130 to the beam using a steel structure, that is, a beam, the rock surface 137 and the general gypsum board 140 are used for ceiling or each floor. There are many problems such as duplication of money and increase in construction cost.

That is, in the case of flooring for each layer, as shown in FIG. 3, after spray-spraying the fireproof coating 130 on the outside of the conventional joist 128 (Joist) steel, the waffle plate 145 is attached to the upper side. Mounting, and the ordinary concrete 150 is poured on it to form the floor of each floor.

In addition, the lower portion of the joist 128 to which the fireproof coating material 130 is attached is to fix and fix the general gypsum board 140 with screws or the like. Therefore, in the conventional structure as described above, when a fire occurs, the general gypsum board 140 is easily broken, and the fireproof coating material 130 attached to the joist 128 is formed of the joist 128 from the fire. It is intended to prevent the collapse of the lightweight steel structure by preventing degradation of the joist 128 by blocking the deterioration. However, the above-described ceiling fireproof material is difficult to secure the fireproof coating thickness, so that the fire resistance performance is not sufficient, and construction safety This is a problem that can not be secured.

The present invention is to solve the above conventional problems, the object is to adopt a structure that has a fire-proof performance without spray attachment of rock wool or the like to the joist in a light-weight steel structure to ensure sufficient fire resistance performance, and at the same time the safety of the operator The purpose is to provide an improved ceiling fire protection system to prevent accidents.

1 is an external view showing the configuration of a steel villa to which the present invention is applied;

2 is a block diagram showing a ceiling fire protection device according to the prior art;

3 is a detailed view showing a cross section of a ceiling fire protection device according to the prior art;

4 is a block diagram showing a ceiling fire protection device according to the present invention;

5 is a detailed view showing a cross section of the ceiling fire protection device according to the present invention;

Figure 6 is a block diagram showing a cross-section A-A of FIG.

* Description of the symbols for the main parts of the drawings *

10 ..... Fireproof Gypsum Board 20 ..... Charing Channel

22 ..... screw 30 ..... glass wool

40 ..... Space 100 .... Steel Villa

110 ... ceilings 120 ... floors

128 .... Joist 130 .... Fireproofing

150 .... concrete floor

In order to achieve the above object, the present invention is provided with a joist constituting a plurality of beams, and in the ceiling fire protection device used for the ceiling or steel floor of the steel villa, the lower part of the joist is equipped with a ring ring channel, A fireproof gypsum board is mounted on the lower part of the ring ring channel, and a glass wool plate is positioned on the upper portion of the ring ring channel, and a fire protection space is formed between the fire ring gypsum board and the glass wool by a ring ring channel. By provision.

Hereinafter, the present invention will be described based on the drawings.

In the ceiling fire protection device 1 of the present invention, as shown in FIGS. 4 and 5, the bottom plate is installed with the joist 128 spaced approximately 45 centimeters apart, and both ends are provided with a track (finishing material) having the same width dimension. To close. In addition, the lower part of the joist 128 is attached to the shock ring channel 20 for attaching the fire-resistant gypsum board 10 with a screw 22, the strap of the same thickness as the joist 128 in the center of the joist 128 C) in and out of the joist 128. In this way, the structure of the bottom plate using the joist 128 is completed.

In the present invention, in order to ensure the fire resistance of the floor structure, the fire protection gypsum board 10 having excellent fire performance is mounted on the mulling channel 20 without spraying rock wool or the like to the joist 128. Therefore, the fire protection performance of the fireproof gypsum board 10 and a fastening method for maintaining the same are very important.

In the present invention, the fastening method of the fireproof gypsum board 10 is arranged in a direction perpendicular to the longitudinal direction of the ring channel 20 of the fireproof gypsum board 10, the spacing of the screws 22 is approximately 25 One to thirty-five centimeters apart, preferably thirty centimeters apart, secures one ply of fire-resistant gypsum board 10 to the ring ring channel 20. If the fireproof gypsum board 10 is a deferred fireproof gypsum board 10 (Tefford fireproof gypsum board refers to a fireproof gypsum board with chamfered edges on both sides), a joint compound (adhesive agent) and a tape are connected to the connection part. Attach.

In the case of flat boards, the joint is not treated. In addition, when constructing the second layer, the construction of the first layer of overlapping construction is performed to prevent direct damage of the first layer of fireproof gypsum board 10 due to damage of the connection part of the fireproof gypsum board 10 from the heat of the flame. The construction method of the second layer of fire-resistant gypsum board 10 is the same as the first layer to fix the screw 22 to the choling channel 20 at intervals of about 25 to 35 centimeters, preferably 30 centimeters, and the first layer The upper side of the fireproof gypsum board 10 is to complete the present invention by spreading the plate-shaped glass wool 30 layer on the top of the 풔 ring channel (20).

The glass wool 30 used in the present invention as described above has a plate-like structure completely packed with a vinyl cover at a manufacturer, which means that the dust of the glass wool 30 inside is completely leaked to the outside due to the sealed vinyl cover. It cannot have a structure. Thus, the plate-shaped glass wool 30 does no harm to the worker.

Therefore, according to the present invention, the mulling channel 20 is located on the top of the fire-resistant gypsum board 10 to maintain the two ply, the glass wool 30 is located on the top, such a mulling channel (20) is As shown in FIG. 6, the fireproof space 40 is formed between the fireproof gypsum board 10 and the glass wool 30 by having a considerable width in the up and down directions. The fire protection space 40 prevents the heat of the flame from being effectively conducted between the glass wool 30 and the deterioration of the joist 128 on the upper side of the glass wool 30.

On the other hand, in order to place the lightweight concrete 150 on the joist 128, a kind of formwork is required. This uses the waffle deck plate 145 as in the prior art. It is made of a steel plate of about 1mm thickness. In the method of constructing the waffle deck plate 145 to the joist 128, a screw 22 of about 25 mm is fixed from the top to the bottom by 30 cm intervals. In addition, the light weight concrete 150 and other finishing materials are formed on the waffle deck plate 145 to form a bottom plate.

As a result of constructing the present invention as described above and performing the actual fire resistance test, the fire resistance performance of the bottom plate by the fireproof gypsum board 10 was ensured by satisfying the fire resistance performance for 1 hour, thereby securing the feasibility of this method.

On the other hand, Figure 4 is a view showing the cross-sectional structure of the roof. In the construction method, the stud 126, which is a main structural material, is manufactured in the form of a truss. The connection of each stud 126 is fixed with a screw 22 of about 25mm in length. At the lower part of the truss, the ring ring channel 20 is fixed at intervals of 45 cm. And, as described above, one layer of fire-resistant gypsum board 10 is installed in the lower portion of the ring channel 20 in the perpendicular direction of the ring channel 20. For the joint treatment of the fireproof gypsum board 10, the deferred fireproof gypsum board 10 may be treated with a joint compound and a tape, and in the case of a flat board, the joint compound and tape may be omitted.

In addition, the plywood 12mm (160) is fixed to the top of the truss with a screw 22, and the tiled hanger 166 is installed at intervals of 90 cm therebetween, and the styropole 164 is inserted therebetween. The metal tile 168 is fixed with the nail on the tile rack 166. As a result of the fire resistance test of the roof structure, even when the fire resistant gypsum board 10 is constructed only in one layer, the fireproof coating material 130 is spray-sprayed onto the stud 128 as in the prior art while ensuring the fire resistance performance for 30 minutes or more. It has been found that the fire protection performance is sufficiently secured as the ceiling fire protection device of the present invention without the above.

According to the present invention as described above, the fireproof gypsum board 10 and the mulling channel 20 is installed on the joist 128, and the glass wool 30 on the top of the joist 128 to spread the ceiling finish of the floor and roof When used as can be constructed without using a separate fireproof coating (130), it can significantly reduce the construction cost by inducing material and labor costs to be put into the fireproof coating (130) construction. And by protecting the worker from rock wool dust by spray-spraying the fireproof coating material 130 as in the prior art to prevent safety accidents.

Claims (2)

In the ceiling fire protection device having a plurality of beams forming a joist (128), used for the ceiling 110 or each floor floor 120 of the steel villa (100), the lower part of the joist (128) ) Is mounted, and the fireproof gypsum board 10 is mounted to the lower portion of the shingling channel 20, and the plate-shaped glass wool 30 is positioned on the top of the shingling channel 20, and the fireproof gypsum board 10. ) And the glass wool 30 is a fire protection device, characterized in that the fire protection space 40 is formed by the Charing channel (20). The fire protection apparatus according to claim 1, wherein the construction method of the fireproof gypsum board (10) is fixed by screwing the screw (22) to the ringing channel (20) at intervals of approximately 25 to 35 centimeters.