JP2006207296A - Fire stop structure in frame method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fire stop structure of a wall a in frame method enabling a fire stop to be formed at a joining part of a wall and an attic by simple work and easily imparting fire resistant performance. <P>SOLUTION: The fire stop structure 10 closes the upper end opened part of a wall 11a, 11b communicating with the space of an attic 21a, 21b. The fire stop structure 10 is constituted by suspending a fire stop heat insulating member 12 from a horizontal material 14 and pushing a lower part inside from the upper end opened part of the wall 11a, 11b. The fire stop heat insulating member 12 is manufactured by forming a noncombustible fibrous heat insulating material 13 into a longitudinally long mattress shape and successively covering a front and rear pair of a front part 13a and a bottom 13b with a moisture proof sheet 15 and forming a mounting lug 16 by extending upwardly the moisture proof sheet 15 from the upper edge of the front part 13a. The fire stop heat insulating member 12 is mounted to the horizontal member 14 through the lug 16. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a fire stop structure for a wall in a shaft assembling method, and more particularly to a fire stop structure for closing a top open portion of a wall communicating with a space behind a ceiling in a shaft assembling method.

  Firestop assumes that fire protection coatings covering building components such as walls, floors, and ceilings have been broken in the event of a fire. For the purpose of minimizing, the material and structure for blocking the fire spread path by communicating the interior of the member and the space between the members, for example, the hollow portion of the wall body, the wall and the floor It is provided so as to divide the joint portion, the joint portion between the wall and the ceiling, and the like.

  In addition, in wooden house buildings with framed wall methods such as the two-by-four method and the two-by-six method, structural materials such as vertical frames and horizontal frames that are assembled at regular intervals function as fire stop materials, and the spread of fire spreads. Because it shuts off the floor, the floor, walls, and ceiling are highly airtight and have excellent firestop performance. Therefore, the current situation is that the fire insurance premiums are inexpensive.

In addition, for example, in a residential building constructed mainly of wood-based panels, sufficient fireproof performance is easily ensured at the joints such as walls, floors, and ceilings of upper and lower floors in order to satisfy the specifications as a semi-fireproof structure. A technique for improving workability when providing a fire stop has also been developed (see, for example, Patent Document 1).
Japanese Patent Laid-Open No. 9-13497

  On the other hand, in the case of a general wooden house building by the frame construction method, for example, the hollow interior of the wall often has a structure that communicates with the upper ceiling space, and the ceiling interior crosses the hollow interior of the wall. Because the work of newly providing a fire stop with a frame member that interrupts the fire spread route is a laborious and troublesome installation work, the fire prevention structure of the shaft assembly method is not required to have a fire stop measure. Currently. Therefore, the wooden house building by the frame construction method has a difference in fire-proof performance compared to the wooden house building by the frame wall construction method, and has received disadvantageous handling in the above-mentioned fire insurance premium setting. Yes.

  The present invention has been made paying attention to such a conventional problem, and it is possible to provide a fire stop by a simple work at the joint between the wall and the ceiling of the wooden house building by the frame construction method. Then, it aims at providing the fire stop structure of the wall in the frame construction method which can provide the fire-proof performance by a fire stop easily.

  The present invention is a fire stop structure for closing an upper end open portion of a wall communicating with a space behind a ceiling in a shaft assembling method, and a fire stop heat insulating member made of a non-combustible fibrous heat insulating material is disposed immediately above the wall. The firestop heat insulating member is installed by being suspended from the horizontal member, and the lower end portion of the firestop heat insulating member is pushed into the wall from the upper end open portion of the wall. The non-combustible fibrous heat insulating material is formed in a vertically long mattress shape, and at least a pair of front and rear front and bottom portions of the non-combustible fibrous heat insulating material are continuously covered with a moisture-proof sheet, and the moisture-proof sheet is It is formed by extending upward from the upper edge of the front part and providing an ear part for attachment, and the fire stop heat insulating member is formed through the ear part. By providing a fire stop structure in framing method for attaching the Kiyoko bridging material is obtained by achieving the above object.

  And according to the fire stop structure in the shaft assembly method of the present invention, the lower end portion of the fire stop heat insulating member is closely attached to the inner upper end portion of the wall plate with an overlap margin of 15 cm or more and pushed into the wall. It is preferable.

  Moreover, according to the fire stop structure in the shaft assembling method of the present invention, it is preferable that the fire stop heat insulating member is formed to have a lateral width corresponding to a column to which a wall plate is attached or a space between the studs.

  Furthermore, according to the fire-stop structure in the frame construction method of the present invention, the non-combustible fibrous heat insulating material is preferably glass wool or rock wool.

  Furthermore, according to the fire stop structure in the frame construction method of the present invention, the moisture-proof sheet is preferably a polyethylene film.

  And according to the fire stop structure in the frame construction method of the present invention, the ceilings on both sides sandwiching the wall are installed at different heights, and the wall plates on both sides constituting the wall have a step at the upper end. May be.

  According to the fire stop structure in the shaft construction method of the present invention, it is possible to provide a fire stop by a simple work at the joint between the wall and the ceiling of the wooden house building by the shaft construction method. Fireproof performance can be easily imparted.

  The fire-stop structure in the frame construction method according to a preferred embodiment of the present invention is provided in a living room portion 20a on the first floor, for example, as shown in FIG. It is provided at the junction between the partition wall 11a and the ceiling back 21a above the first floor, and at the joint between the partition wall 11b provided in the second floor room portion 20b and the ceiling back 21b as the hut back above the second floor. By closing the upper end open part of the partition walls 11a and 11b communicating with the space of the ceiling backs 21a and 21b, the fire spreading path from the hollow part of the partition walls 11a and 11b to the ceiling backs 21a and 21b is blocked. The expansion of fire due to the spread of fire through the partition walls 11a and 11b of the residential building can be suppressed.

  That is, the fire stop structure 10 according to the present embodiment is a structure that closes the upper end open portions of the partition walls 11a and 11b communicating with the space of the ceiling backs 21a and 21b in the shaft assembly method. As shown, a fire stop heat insulating member 12 made of a non-combustible fibrous heat insulating material 13 is installed by being suspended from a horizontal member 14 disposed immediately above the partition walls 11a and 11b, and the lower end of the fire stop heat insulating member 12 The portion 12a is configured to be pushed into the interior of the partition walls 11a and 11b from the open upper end portions of the partition walls 11a and 11b. And the firestop heat insulation member 12 forms the nonflammable fibrous heat insulating material 13 in the mattress shape arranged vertically long, and at least a pair of front and rear front portions 13a and bottom 13b of the nonflammable fibrous heat insulating material 13 are moisture-proof sheet. 15 is formed by extending the moisture-proof sheet 15 upward from the upper edge of the front portion 13a and providing an ear 16 for attachment, and a fire stop heat insulating member via the ear 16 12 is attached to the horizontal member 14 (see FIG. 4).

  For wooden house buildings with a frame construction method, for example, a base material such as a floor panel, a wall board, or a ceiling board is attached to a frame composed of foundations, columns, studs, beams, girders, etc. Consists of. According to the present embodiment, a fireproof board such as a gypsum board is used as the base material, and fireproof performance is provided by laying fireproof 18 or the like having fire resistance on the back side of the ceiling board 17. It is improving. Further, in this embodiment, the partition walls 11a and 11b are attached to both sides by supporting a pair of wall boards 19 on pillars and studs (hereinafter referred to as “pillars”) 22 as a wall base by a gypsum board. Between the pair of wall boards 19, for example, a hollow portion having a width of about 100 to 120 mm is held. And even if the fire protection coating by the gypsum board 19 of the partition walls 11a and 11b breaks through in the event of a fire, fire due to the spread of fire to the ceiling backs 21a and 21b via, for example, hollow portions of the partition walls 11a and 11b In order to suppress the enlargement of the fire stop structure 10 of the present embodiment is provided.

The fire stop heat insulating member 12 constituting the fire stop structure 10 includes a nonflammable fibrous heat insulating material 13 formed in a mattress shape and a moisture-proof sheet 15 attached to cover the periphery of the nonflammable fibrous heat insulating material 13. . The nonflammable fibrous heat insulating material 13 can be formed using various types of fibrous heat insulating materials known as a nonflammable fibrous material such as glass wool and rock wool. The incombustible fibrous insulation material 13, in the case of using a glass wool is preferably to be formed at a density of 10~24kg / m ^3, in the case of using a rock wool, a density of 30 to 50 kg / m ³ It is preferable to form. Further, the non-combustible fibrous heat insulating material 13 preferably has a mattress shape with a thickness of about 100 to 120 mm, which is the same as or slightly larger than the width of the hollow interior of the partition walls 11a and 11b. Is preferably formed so as to have a rectangular shape with a lateral width of about 380 to 410 mm and a height of about 400 to 450 mm.

  As the moisture-proof sheet 15, various sheet materials such as a moisture-proof synthetic resin film and moisture-proof paper can be used. For example, a polyethylene film having a thickness of about 0.05 mm is used. preferable. The moisture-proof sheet 15 is formed, for example, in a state where a pair of front and rear front portions 13a and a bottom portion 13b of a non-combustible fibrous heat insulating material 13 formed in a vertically long mattress shape is continuously covered in a U-shape. It is attached to the non-combustible fibrous heat insulating material 13 as a unit through the agent. Further, the moisture-proof sheet 15 has a band-like portion having a width of, for example, about 50 to 75 mm extending upward from the upper edge of the front portion 13a of the non-combustible fibrous heat insulating material 13 so that an ear 16 for attachment is provided. It is forming. In the present embodiment, the top moisture-proof sheet 15a covering the top surface portion 13c of the non-combustible fibrous heat insulating material 13 is provided so as to be continuous with the base end portion of the mounting ear portion 16. The side surface portion 13 d of the nonflammable fibrous heat insulating material 13 is exposed without being covered with the moisture-proof sheet 15.

  The firestop heat insulating member 12 including the nonflammable fibrous heat insulating material 13 and the moisture-proof sheet 15 as described above has a mattress shape substantially the same as that of the nonflammable fibrous heat insulating material 13, and is lightweight and flexible. However, it is manufactured in advance in a factory or the like as a fireproof and heatproof performance heat insulating part that can be easily attached. In addition, the fire stop heat insulating member 12 is formed so as to have a lateral width b corresponding to the interval between the columns 22 of the columns 22 arranged at a predetermined interval of, for example, about 380 to 410 mm. Is preferred. Further, when the fire stop heat insulating member 12 is attached to the horizontal member 14, the lower end portion thereof is in close contact with the inner upper end portion of the wall plate by the wall board 19 with an overlap margin s (see FIG. 4) of 15 cm or more. It is preferable that the lower end portion is formed with a height h that can be pushed into the partition walls 11a and 11b.

  By forming the fire stop heat insulating member 12 with a width b corresponding to the interval between the pillars 22, once by the integrated fire stop heat insulating member 12 for each installation space between the pillars 22 arranged in a predetermined module. Thus, it becomes possible to easily form the fire stop structure 10 in a stable state that covers the installation space without any gaps. Further, by pushing the lower end portion of the fire stop heat insulating member 12 into the partition walls 11a and 11b with an overlap margin s of 15 cm or more, it becomes possible to exhibit a strong and stable fireproof performance.

  According to the present embodiment, the fire stop heat insulating member 12 having the above-described configuration is disposed, for example, in a portion directly above the partition walls 11a and 11b in an installation space between adjacent pairs of pillars 22, as shown in FIG. Further, for example, a tucker 23 or the like is driven into the ear portion 16 while the lower end portion of the horizontal member 14 is sandwiched between a pair of mounting ear portions 16 at the lower end portion of the horizontal member 14 made of a beam or a girder. By this, it can install easily and smoothly in the state suspended from the horizontal member 14. Moreover, since the fire stop heat insulating member 12 has flexibility and elasticity that can be compressed and deformed like a mattress, for example, between the pair of wall boards 19 of the partition walls 11a and 11b installed in advance, It is possible to arrange the fire stop heat insulating member 12 while covering the installation space while pushing the lower end portion of the fire stop heat insulating member 12 from the upper end open portion thereof, and a lot of labor is required by these simple mounting operations. Therefore, a fire stop structure can be easily provided.

  Therefore, according to the fire stop structure 10 of the present embodiment, for example, the gypsum board constituting the partition wall is extended upward to the horizontal member, or the plate material is provided so as to close the upper end open portion of the partition wall. Compared to a structure that provides a fire stop function by providing a plate material that connects and partitions between the partition wall and the horizontal member, it is easier to avoid workability, construction cost, or interference with equipment piping. In this respect, it is possible to form a fire stop structure that is effective and highly reliable in function.

  That is, according to the fire stop structure 10 of the present embodiment, the fire stop is provided at a joint portion between the partition walls 11a and 11b and the ceiling backs 21a and 21b by a frame construction method by a simple work. This makes it possible to easily impart fireproof performance by firestop.

  Moreover, according to this embodiment, since the nonflammable fibrous heat insulating material 13 of the fire stop heat insulating member 12 is continuously covered with the moisture-proof sheet 15 at least in a pair of front and rear front portions 13a and bottom portions 13b, for example, a partition It becomes possible to effectively avoid the incombustible fibrous heat insulating material 13 from absorbing moisture due to condensed water or the like generated inside the walls 11a and 11b, and the quality of the incombustible fibrous heat insulating material 13 can be improved over a long period of time. It is possible to keep the fireproof performance by fire stop for a long time in a stable state.

  Furthermore, according to this embodiment, since the nonflammable fibrous heat insulating material 13 of the fire stop heat insulating member 12 also exhibits a heat insulating function, cold air or warm air is introduced from the joint between the partition walls 11a and 11b and the ceiling backs 21a and 21b. It is also possible to improve the heat insulation performance of the wooden house building without escaping.

  The present invention is not limited to the above-described embodiment, and various modifications can be made. For example, the fire stop structure of the present invention is not limited to a two-story wooden house building, but can also be adopted for a three-story or four-story or more wooden house building by a frame construction method. It can be applied not only to the joint between the ceiling and the ceiling but also to the joint between the outer wall and the ceiling. Moreover, it is also possible to cover the entire circumference of the non-combustible fibrous heat insulating material and attach a moisture-proof sheet to form a fire stop heat insulating member. Further, it is not always necessary to join and integrate the moisture-proof sheet to the non-combustible fibrous heat insulating material via an adhesive or the like. For example, the fire-stop heat insulating member is simply inserted and arranged in a bag made of the moisture-proof sheet. It can also be. Furthermore, after the fire stop heat insulating member is suspended from the horizontal member via the ear portion, the wall plate of the wall is attached so that the upper end portion overlaps the lower end portion of the fire stop heat insulating member. It can also be a stop structure.

  Further, as shown in FIG. 5, the ceilings 25 on both sides of the wall 24 are installed at different heights, and even when the wall plates 26 on both sides constituting the wall 24 have a step at the upper end, The fire stop heat insulating member 12 can be attached to provide the fire stop structure 10 'of the present invention. In such a fire stop structure 10 ′, it is preferable to set the height of the fire stop heat insulating member 12 so that a predetermined overlap margin can be secured between the wall plate 26 having the lower upper end.

It is a schematic sectional drawing which shows the principal part of the wooden house building by the frame construction method in which the fire stop structure which concerns on preferable one Embodiment of this invention is provided. It is a perspective view which shows the fire stop structure which concerns on preferable one Embodiment of this invention. It is a perspective view of a fire stop heat insulation member. It is a perspective view explaining the attachment condition of a fire stop heat insulation member. It is sectional drawing which illustrates the other form of a fire stop structure.

Explanation of symbols

10, 10 'Fire stop structure 11a, 11b, 24 Partition wall (wall)
12 Fire stop heat insulation member 12a Lower end portion 13 of fire stop heat insulation member Side part 14 of non-combustible fibrous heat insulating material Horizontal member 15 Moisture-proof sheet 15a Top surface moisture-proof sheet 16 Ear part for mounting 17 Ceiling board 18 Grawl wool 19, 26 Wall board (wall board)
20a 1st floor living room part 20b 2nd floor living room part 21a, 21b Ceiling back 22 pillars (pillars and studs)
23 Tucker 25 Ceiling b Width of fire stop heat insulation member h Height of fire stop heat insulation member s Overlap allowance

Claims (6)

A fire stop structure that closes the upper end open part of the wall communicating with the space behind the ceiling in the shaft assembly method,
A fire stop heat insulating member made of a non-combustible fibrous heat insulating material is installed by being suspended from a horizontal member disposed immediately above the wall, and a lower end portion of the fire stop heat insulating member is moved from the upper end open portion of the wall to the wall. It is configured by being pushed into the inside of
The firestop heat insulating member forms the noncombustible fibrous heat insulating material in a vertically long mattress shape and continuously covers at least a pair of front and rear front and bottom portions of the nonflammable fibrous heat insulating material with a moisture-proof sheet. The moisture-proof sheet is formed by extending upward from the upper edge of the front portion to provide an attachment ear portion, and the shaft for attaching the fire stop heat insulating member to the horizontal member via the ear portion. Fire stop structure in the assembly method.   The fire stop structure in the shaft assembly method according to claim 1, wherein a lower end portion of the fire stop heat insulating member is pressed into an inner upper end portion of the wall plate with an overlap margin of 15 cm or more and pushed into the wall.   The fire stop structure in the shaft assembly method according to claim 1 or 2, wherein the fire stop heat insulating member is formed so as to have a lateral width corresponding to a column to which a wall plate is attached or a space between the studs.   The fire stop structure in the shaft construction method according to any one of claims 1 to 3, wherein the non-combustible fibrous heat insulating material is glass wool or rock wool.   The firestop structure according to any one of claims 1 to 4, wherein the moisture-proof sheet is a polyethylene film. The shaft assembly method according to any one of claims 1 to 5, wherein ceilings on both sides sandwiching the wall are installed at different heights, and wall plates on both sides constituting the wall have a step at an upper end. Fire stop structure.

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