JP6471627B2 - Fire barrier and fire barrier construction - Google Patents

Description

  The present invention relates to a fire barrier having fire resistance performance for a predetermined time, and a fire barrier arrangement structure in which the fire barrier is provided.

  Conventionally, the fire resistance performance of walls and floors stipulated / required by the Building Standards Act is up to 2 hours, and the fire resistance performance of 3 hours has not been specified in the specification. In addition, as a fireproof dry panel for a safe room or the like, a panel (SMV, super modular vault) in which a protective material is filled between metal plates is known. In addition, there are walls with fire resistance performance of 3 hours, but they are not earthquake resistant. On the other hand, the new regulatory standards for practical power generation reactors, etc. require the installation of a fire barrier with a fire resistance of 3 hours, and also require earthquake resistance. In response to such a requirement, a reinforced concrete wall can satisfy the requirement by setting the thickness to 150 mm or more.

  On the other hand, a fire wall structure of a partition wall that is excellent in fire resistance and workability is known (for example, see Patent Document 1). In this fireproof wall structure, an upper runner and a lower runner are attached to a ceiling surface and a floor surface, respectively, and a plurality of studs are erected between the upper runner and the lower runner. In addition, refractory materials composed of a bottom refractory plate and a top refractory plate made of calcium silicate plates are attached to both side surfaces of each stud, and heat that expands by heating between the upper runner and the ceiling surface. An inflatable refractory material is inserted.

JP 2012-05333 A

  By the way, it may be necessary to remove or move (change layout) in the future, or it may not be able to withstand heavy objects due to its structure. In such cases, it is difficult to apply reinforced concrete and it is lightweight. Correspondence with dry wall is desired. In addition, the fireproof wall structure described in Patent Document 1 does not have earthquake resistance and is likely to be damaged on the surface.

  Accordingly, an object of the present invention is to provide a fireproof barrier and a fireproof barrier arrangement structure that can meet the required specifications and have a simple configuration.

  In order to solve the above-mentioned problem, the invention of claim 1 comprises a fireproof panel filled with a protective material between metal plates and having a predetermined fire resistance, and a calcium silicate plate having the predetermined fire resistance, A fireproof board disposed so as to cover at least one surface of the panel, a spacer disposed between the fireproof panel and the fireproof board, and forming a gap between the fireproof panel and the fireproof board; A fireproof barrier comprising:

  According to a second aspect of the present invention, in the fireproof barrier according to the first aspect, the spacer is welded to a metal plate of the fireproof panel to form a screw hole, and a bolt is inserted into an insertion hole formed in the fireproof board. The bolt is screwed into the screw hole, and the fireproof board is fixed to the fireproof panel.

  According to a third aspect of the present invention, in the fireproof barrier according to the first or second aspect, a surface layer plate is provided which covers at least a surface of the fireproof board and prevents damage to the fireproof board.

  The invention of claim 4 is a fireproof barrier disposition structure in which the fireproof barrier according to any one of claims 1 to 3 is disposed, and is opposed to a gap between the adjacent fireproof panel and the fireproof panel. The caulking having fire resistance and stretchability is applied to the gap between the adjacent fireproof board and the fireproof board.

  According to the invention of claim 1, since the fireproof board made of the calcium silicate plate is arranged on the fireproof panel, the required specification (long time) can be obtained only by combining the fireproof panel having the predetermined fire resistance and the like. It is possible to respond flexibly to the fire resistance of the In addition, when the fireproof panel is an off-the-shelf product, a simple configuration that simply installs the fireproof board on the ready-made fireproof panel is sufficient. It will be possible to reduce costs.

  Moreover, since the fireproof board is a dry wall made of a calcium silicate plate, it is lightweight and can be easily accommodated when it is necessary to remove or move in the future. Furthermore, since the gap is formed between the fireproof panel and the fireproof board by the spacer, the fireproof performance of the entire barrier can be improved.

  According to the invention of claim 2, since the fireproof board is bolted to the fireproof panel via the spacer, the fireproof board can be securely and firmly disposed even when the bolt cannot be directly bolted to the fireproof panel. Become.

  According to the invention of claim 3, since at least the surface of the fireproof board is covered with the surface layer board, it is possible to prevent the fireproof board from being damaged or missing, and to maintain the fireproof performance, appearance, etc. of the entire barrier. it can.

  According to invention of Claim 4, since the caulking which has elasticity is given to the clearance gap between the fireproof boards facing the clearance gap between fireproof panels, there is no gap between fireproof boards with expansion / contraction between fireproof panels. It expands and contracts. And fire resistance performance can be maintained by caulking which has fire resistance. Thus, even if the fireproof panels expand and contract, the fireproof performance can be maintained without generating a gap.

It is sectional drawing which shows the laminated structure of the fire barrier which concerns on embodiment of this invention. It is sectional drawing which shows the laminated structure of the adjacent part of the fire barrier of FIG. It is a top view which shows the arrangement | positioning state of the fire barrier of FIG. It is sectional drawing which shows the laminated structure of the fireproof panel of the fireproof barrier of FIG. It is sectional drawing which shows the support structure of the lower part of the fire barrier of FIG. It is sectional drawing which shows the support structure of the side part of the fire barrier of FIG. It is sectional drawing which shows the support structure of the upper part of the fire barrier of FIG. It is sectional drawing which shows the example of arrangement | positioning of the fire barrier of FIG.

  The present invention will be described below based on the illustrated embodiments.

  1 to 8 show an embodiment of the present invention, and FIG. 1 is a sectional view showing a laminated structure of a refractory barrier 1 according to this embodiment. The fireproof barrier 1 is a dry barrier / wall panel having a predetermined fireproof performance, and mainly includes a fireproof panel 2, a fireproof board 3, a surface layer board 4, and a spacer 5. Here, in this embodiment, a case where fire resistance performance of 3 hours is provided will be described. In addition, as shown in FIG. 3, a plurality of fire barriers 1 are arranged side by side along the corridor 100 of the building of the power plant, and a concrete wall (frame) 101 or the like is provided around the corridor 100. It has been.

  The fireproof panel 2 is a dry wall panel (SMV, super modular vault) having a predetermined fireproof performance, and a special defense alloy is contained between the steel plate (metal plate) 21 and the steel plate 21 as shown in FIG. The special filler (protective material) 22 is filled. This fireproof panel 2 is a ready-made / existing panel, has a predetermined fireproof performance and a predetermined seismic resistance, has a thickness of 120 mm, and a horizontal and vertical length set to a predetermined length.

  The fireproof board 3 is a dry board made of a calcium silicate plate and having a predetermined fire resistance, and is disposed so as to cover one surface of the fireproof panel 2 and overlap the fireproof panel 2. The thickness of the fireproof board 3 is set so that the fireproof barrier 1 has a (predetermined) fireproof performance of 3 hours in a state of being disposed on the fireproof panel 2. In this embodiment, it is set to 20 mm.

  The surface layer plate 4 is a surface plate that covers at least the surface of the fireproof board 3 and prevents damage to the fireproof board 3. That is, it is composed of a 1.6 mm steel plate, and as shown in FIG. Suppress.

  The spacer 5 is disposed between the fireproof panel 2 and the fireproof board 3, and forms a predetermined gap between the fireproof panel 2 and the fireproof board 3. That is, it is made of a strip-shaped steel plate, and is arranged extending in the vertical direction, and a plurality (three in this embodiment) are arranged at a predetermined interval. Here, the thickness of the spacer 5 is set so that a bolt 6 described later can be firmly tightened, and the width and length of the spacer 5 are such that the fireproof board 3 is firmly and stably disposed on the fireproof panel 2. Is set to The spacer 5 forms a predetermined gap between the fireproof panel 2 and the fireproof board 3 so that the heat insulation and fire resistance of the entire fireproof barrier 1 are improved.

  The fireproof board 3 and the surface layer board 4 are arranged on the fireproof panel 2 through the spacer 5 as follows. That is, as shown in FIG. 2, each spacer 5 is welded to the steel plate 21 of the fireproof panel 2, and a plurality of screw holes 52 are formed in the spacers 5 (excluding the central spacer 5) disposed at both ends. Has been. Here, the code | symbol 51 shows a welding part.

  Further, an insertion hole 31 is formed in the fireproof board 3 and the surface layer board 4 so as to face the screw holes 52 of the spacer 5. Then, the bolt 6 is inserted into the insertion hole 31, the bolt 6 is screwed into the screw hole 52 of the spacer 5, and the fireproof board 3 and the surface layer board 4 are fixed to the fireproof panel 2 through the spacer 5.

  In such a fire barrier structure in which a plurality of fire barriers 1 are arranged side by side, a gap 3A between the adjacent fire resistant board 3 and the fire resistant board 3 facing the gap 2A between the adjacent fire resistant panels 2 and 2 is provided. In addition, coking having fire resistance and stretchability is applied. That is, the caulking material (joint material) 7 having fire resistance and stretchability is filled in the gap 3A between the fireproof boards 3 facing the gap 2A between the fireproof panels 2. The caulking material 7 has predetermined fire resistance and elasticity that expands and contracts following the expansion and contraction of the fireproof panel 2 and the fireproof board 3. Here, the side surfaces of the fireproof panels 2 are formed in steps or steps, and the adjacent fireproof panels 2 are supported by the side surfaces of the adjacent fireproof panels 2 being fitted to each other.

  Next, the end structure of the fire barrier 1 and the fire barrier arrangement structure will be described. Here, for the sake of clarity, the fireproof board 3, the surface layer board 4, and the spacer 5 are illustrated and described as an additional board unit 30.

  First, a support structure under the fire barrier 1 is shown in FIG. In other words, a first metal fitting 81 having a substantially L-shaped cross section is fixed to the floor 102 by the plug bolt 82, and the lower part of the fireproof panel 2 is mounted on the first metal fitting 81. Further, the additional board unit 30 extends to reach the floor 102 and sandwiches the lower part of the fireproof panel 2 with the vertical portion 81a of the first metal fitting 81.

  Next, the support structure of the side part of the fire barrier 1 is shown in FIG. That is, the second receiving metal fitting 83 having a substantially L-shaped cross section is fixed to the concrete wall 101 by the anchor bolt 84, and the side portion of the fireproof panel 2 is attached to the second receiving metal fitting 83. Further, the additional board unit 30 extends to reach the concrete wall 101 and sandwiches the side portion of the fireproof panel 2 with the horizontal portion 83a of the second receiving metal fitting 83. Further, the rock wool 85 is filled between the second metal fitting 83 and the fireproof panel 2 so that the expansion and contraction of the fireproof panel 2 can be absorbed and the fireproof panel 2 and the concrete wall 101 are insulated. Yes.

  The support structure of the upper part of the fire barrier 1 is shown in FIG. That is, the fireproof ceiling panel 10 is horizontally attached to the upper part of the fireproof barrier 1. This refractory ceiling panel 10 includes a refractory panel 2 and an additional board unit 30 with the same configuration as the refractory barrier 1. The additional board unit 30 bends substantially at a right angle to the fireproof panel 2 to reach the haunch 103 at the end of the haunch 103 side, that is, the anti-fire barrier 1 side, and is divided into a unit end 30a and a panel end 2a. Yes.

  On the other hand, a third catch 86 having a substantially L-shaped cross section is fixed to the haunch 103 by an anchor bolt 87, and the panel end 2a of the fireproof panel 2 is located on the horizontal portion 86a of the third catch 86. The vertical portion 86 b of the third metal fitting 86 is located in the unit end 30 a of the additional board unit 30. In addition, a rib plate 88 is welded to the steel plate 21 above the panel end 2 a and extends horizontally to reach the vertical portion 86 b of the third metal fitting 86. Further, rock wool 89 is filled between the unit end 30 a and the panel end 2 a and the third metal fitting 86.

  As described above, according to the present fire barrier 1, the fire resistant board 3 made of the calcium silicate plate is disposed on the fire resistant panel 2. Therefore, the fire resistant panel 2 having the predetermined fire resistance and the fire resistant board 3 are combined. It is possible to flexibly meet the required specifications (such as long-term fire resistance). Moreover, since the fireproof panel 2 is an off-the-shelf product, it is only necessary to dispose the fireproof board 3 on the ready-made fireproof panel 2, and it is not necessary to form and construct a completely new one like reinforced concrete. It becomes possible to reduce.

  In addition, the fire-resistant panel 2 is a dry panel and the fire-resistant board 3 is also made of calcium silicate board, and the whole is a dry wall, so it is lightweight and easy to install and handle. It is possible to easily cope with such cases. Furthermore, since the gap is formed between the fireproof panel 2 and the fireproof board 3 by the spacer 5, the fireproof performance of the entire fireproof barrier 1 can be improved. In addition, conventionally, when a predetermined earthquake resistance is required, it is necessary to make the structure considering the earthquake resistance again. However, by using the fireproof panel 2 having the predetermined earthquake resistance, the fire barrier 1 can be easily used. It becomes possible to provide earthquake resistance as a whole.

  On the other hand, since the fireproof board 3 is bolted to the fireproof panel 2 via the spacer 5, even if the bolt cannot be directly bolted to the fireproof panel 2, the fireproof board 3 can be securely and firmly disposed. Moreover, since the surface of the fireproof board 3 is covered with the surface layer board 4, the fireproof board 3 can be prevented from being damaged or missing, and the fireproof performance, appearance, etc. of the entire fireproof barrier 1 can be maintained.

  Moreover, according to this fireproof barrier arrangement structure, since the gap 3A between the fireproof boards 3 facing the gap 2A between the fireproof panels 2 is filled with the stretchable caulking material 7, the space between the fireproof panels 2 can be reduced. Along with expansion and contraction, the fireproof board 3 expands and contracts without a gap. And fire resistance performance can be maintained by the caulking material 7 having fire resistance. Thus, even if the fireproof panels 2 are expanded and contracted, the fireproof performance can be maintained without generating a gap.

  Although the embodiment of the present invention has been described above, the specific configuration is not limited to the above embodiment, and even if there is a design change or the like without departing from the gist of the present invention, Included in the invention. For example, in the above embodiment, the fireproof board 3 is disposed so as to cover one surface of the fireproof panel 2, but the fireproof board 2 is covered so as to cover both sides of the fireproof panel 2 depending on the required fireproof time. A board 3 may be provided. The end structure of the refractory barrier 1 may be a structure other than the above (FIGS. 5 to 7), and the shape of the refractory barrier 1 may be changed according to the shape of the housing. For example, the metal fittings 81, 83, 86 and the fireproof panel 2 may be fastened with bolts.

  Furthermore, the shapes and positional relationships of the fire barrier 1 and the fire ceiling panel 10 may be other than those described above. For example, as shown in FIG. 8, the refractory ceiling panel 10 may be disposed in such a manner that the refractory ceiling panel 10 is substantially L-shaped, the vertical portion 10a extends long downward, and the refractory barrier 1 extends downward from the lower edge of the vertical portion 10a. . Here, reference numeral 104 in FIGS. 7 and 8 denotes a ceiling floor, which has a role of supporting the fireproof barrier 1 and the fireproof ceiling panel 10.

1 Fireproof Barrier 10 Fireproof Ceiling Panel 2 Fireproof Panel 21 Steel Plate (Metal Plate)
22 Special filler (protective material)
2A clearance 3 fireproof board 31 insertion hole 3A clearance 30 additional board unit 4 surface layer plate 5 spacer 52 screw hole 6 bolt 7 caulking material

Claims (4)

A fireproof panel filled with a protective material between metal plates and having a predetermined fire resistance,
A fireproof board made of a calcium silicate plate, having a predetermined fire resistance, and arranged to cover at least one surface of the fireproof panel;
A spacer that is disposed between the fireproof panel and the fireproof board, and that forms a gap between the fireproof panel and the fireproof board;
A fire-resistant barrier characterized by comprising: The spacer is welded to the metal plate of the fireproof panel to form a screw hole,
A bolt is inserted into an insertion hole formed in the fireproof board, the bolt is screwed into the screw hole, and the fireproof board is fixed to the fireproof panel.
The fire barrier according to claim 1. A surface layer plate that covers at least a surface of the fireproof board and prevents damage to the fireproof board;
The refractory barrier according to claim 1, wherein the refractory barrier is provided. A fireproof barrier disposition structure for disposing the fireproof barrier according to any one of claims 1 to 3,
A caulking having fire resistance and stretchability is provided in a gap between the adjacent fireproof board and the fireproof board facing the gap between the adjacent fireproof panel and the fireproof panel.

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