JP7492332B2 - Fireproof construction - Google Patents

Description

The present invention relates to a fire-resistant structure. More specifically, it relates to a fire-resistant structure in which a wall material is provided on the outdoor side of a wall base.

Patent Document 1 discloses a fire-resistant wall structure. This fire-resistant wall structure is formed by first fastening a board such as gypsum board to one side of a wooden partition wall with nails, then fastening a foam fire-resistant sheet to the board with a tacker, and then fastening wooden furring strips to the partition wall with nails, and then fastening a ceramic siding board to the furring strip with nails on top of that.

In addition, fireproofing material (such as sprayed rock wool) is generally sprayed onto the underlying steel frame to ensure the fire resistance of the steel frame.

JP 2011-94350 A

However, in the above-mentioned fire-resistant structure, a plate is necessary to fix the foaming fire-resistant sheet, and the work of fixing the foaming fire-resistant sheet to the plate is also required. On the other hand, spraying fire-resistant material onto steel frames requires spraying work and spraying equipment. In this way, it is necessary to ensure fire resistance by installing the foaming fire-resistant sheet and to ensure fire resistance of the columns by spraying the fire-resistant material, which creates the problem of time-consuming construction.

The present invention was made in consideration of the above reasons, and aims to provide a fire-resistant structure that requires little effort in construction.

In a fireproof structure according to one aspect of the present invention, a wall material is provided on the outdoor side of a wall base. The wall base includes a support material made of a pillar or stud, and a thermally foamable fireproof sheet directly supported on the outdoor side of the support material. A ventilation layer is formed between the fireproof sheet and the wall material. The space between adjacent support materials and the ventilation layer are formed as a foaming space for the fireproof sheet to foam and expand when heated.

The advantage of this invention is that installation is less time-consuming.

FIG. 1 is a cross-sectional view showing a first embodiment of a fire-resistant structure according to the present embodiment. FIG. 2 is a cross-sectional view showing a second embodiment of the fireproof structure according to the present invention. FIG. 3 is a cross-sectional view showing a third embodiment of the fireproof structure according to the present invention. FIG. 4 is a cross-sectional view showing a fourth embodiment of the fireproof structure according to the present invention. FIG. 5 is a cross-sectional view showing a fifth embodiment of the fireproof structure according to the present invention. FIG. 6 is a cross-sectional view showing a sixth embodiment of the fireproof structure according to the present invention.

(Embodiment 1)
(1) Overview In the fireproof structure 1 according to this embodiment, a wall material 20 is provided on the outdoor side of a wall base 10. The wall base 10 includes a support material 11 and a fireproof sheet 12 supported on at least one of an indoor side surface 111 or an outdoor side surface 112 of the support material 11. Here, the direction from the wall base 10 toward the wall material 20 is referred to as the front, and the opposite direction is referred to as the rear, the vertically upward and downward directions are simply referred to as the upward and downward directions, and further, the direction perpendicular to the front-to-back direction and the up-down direction is referred to as the left-to-right direction.

According to the fireproof structure 1 of this embodiment, no plate material is required to support the fireproof sheet 12, and no work is required to fix the fireproof sheet 12 to the plate material. Furthermore, the fireproofness of the support material 11 is ensured by the fireproof sheet 12, and there is no need to spray a fireproof material. Therefore, the fireproof structure 1 of this embodiment has the advantage that fewer parts and work are required to install the fireproof sheet 12, making installation less time-consuming.

(2) Details (2.1) Wall material 20
The wall material 20 is an exterior material of the fireproof structure 1, and the fireproof structure 1 is decorated by the wall material 20. When the fireproof structure 1 is an exterior wall structure, the wall material 20 is an exterior wall material, and includes, for example, ceramic siding. The ceramic siding is a hardened product of a hydraulic material containing cement. The wall material 20 is formed in a substantially flat plate shape, but has a design by providing an uneven pattern or a coating film on its surface. The thickness of the wall material 20 is, for example, 10 mm or more and 30 mm or less, but is not limited thereto. The shape of the wall material 20 is also arbitrary, but for example, it is formed in a rectangular plate shape when viewed from the front (when viewed from the front). The wall material 20 may have a solid. For example, a solid recess is provided at the upper end of the wall material 20, and a solid protrusion is provided at the lower end. The wall materials 20 that are installed adjacent to each other vertically are connected by fitting the solid recess and the solid protrusion. The wall material 20 may be a metal-based siding material obtained by forming a metal plate.

(2.2) Fireproof sheet 12
The fireproof sheet 12 improves the fire resistance of the fireproof structure 1. The fireproof sheet 12 is preferably thermally foamable. That is, the fireproof sheet 12 is a thin sheet when there is no fire, but when a fire occurs, it foams with the heat and increases its volume compared to the initial state before the fire. Here, fire resistance means suppressing the transmission of heat in the front and rear directions. The fireproof sheet 12 forms a fireproof layer by increasing its volume due to thermal foaming. The fireproof sheet 12 can be used alone or in combination of multiple sheets. The fireproof sheet 12 is formed, for example, in a rectangular shape when viewed from the front. The fireproof sheet 12 may also be formed into a long sheet wound into a roll.

The fire-resistant sheet 12 preferably contains, for example, a synthetic resin, a polyhydric alcohol, and a flame-retardant foaming agent.

Examples of synthetic resins include melamine resin, acrylic resin, alkyd resin, vinyl chloride resin, vinyl acetate resin, urethane resin, epoxy resin, silicone resin, polyester resin, polyolefin/vinyl acetate resin, vinyl acetate/vinyl ester versatic acid copolymer resin, vinyl acetate/polyolefin resin, vinyl acetate/versatic acid/acrylic resin, vinyl acetate/acrylic copolymer resin, acrylic/styrene copolymer resin, polybutadiene resin, etc. Examples of polyolefins include polyethylene, etc.

Examples of polyhydric alcohols include pentaerythritol, dipentaerythritol, tripentaerythritol, polypentaerythritol, etc.

As flame-retardant foaming agents, phosphates such as ammonium phosphate, ammonium polyphosphate, melamine phosphate, melamine polyphosphate, aluminum polyphosphate, and magnesium polyphosphate phosphate are preferably used, but examples include sulfamates (such as ammonium sulfamate) and borates (such as ammonium borate).

The content ratio of the synthetic resin, polyhydric alcohol, and flame-retardant foaming agent in the fire-resistant sheet 12 is preferably 10 parts by mass or more and 50 parts by mass or less of the polyhydric alcohol and 50 parts by mass or more and 200 parts by mass or less of the flame-retardant foaming agent per 100 parts by mass of the synthetic resin. The thickness of the fire-resistant sheet 12 is preferably 0.1 mm or more and 5 mm or less, more preferably 0.3 mm or more and 3 mm or less, and even more preferably 0.4 mm or more and 1 mm or less.

To improve the heat insulation of the fireproof sheet 12 after foaming, it is preferable that the volume of the fireproof sheet 12 after foaming is 10 to 30 times the volume before foaming. For example, by using a 0.6 mm thick sheet-like fireproof sheet 12 in the 15 mm ventilation layer formed between the wall material 20 and the wall base 10, the foaming ratio becomes 25 times, and fire resistance can be improved relatively inexpensively. In addition, in areas where fire resistance is to be improved, for example, a 1.2 mm sheet-like fireproof sheet 12 is used with a foaming ratio of 12.5 times, which further improves fire resistance.

(2.3) Support material 11
The support material 11 is attached with a fireproof sheet 12 and supports them. In this embodiment, the support material 11 and the fireproof sheet 12 form the wall base 10. The support material 11 is a member that is long in the vertical direction, and is formed as, for example, a pillar or a partition. The support material 11 is made of metal, and for example, a C-shaped steel (a channel steel with a lip) can be used. In addition, the support material 11 can be made of steel with various cross-sectional shapes, for example, a square steel pipe, a channel steel, an H-shaped steel, a hat steel, etc. The support material 11 may also be made of wood.

(2.4) Overall configuration of fire-resistant structure 1 In the fire-resistant structure 1 according to this embodiment, a wall material 20 is provided on the outdoor side of a wall base 10 (see FIG. 1). A ventilation layer 40 is provided between the wall base 10 and the wall material 20. That is, in the fire-resistant structure 1, the wall base 10, the ventilation layer 40, and the wall material 20 are arranged in this order from the indoor side to the outdoor side. Furthermore, no fire-resistant board is provided between the wall base 10 and the wall material 20.

The wall base 10 includes a support material 11 and a fireproof sheet 12. The fireproof sheet 12 is supported on at least one of the indoor surface 111 and the outdoor surface 112 of the support material 11. The fireproof structure 1 includes a plurality of support materials 11, which are arranged horizontally at a predetermined interval. The fireproof sheet 12 is arranged across the horizontally adjacent support materials 11. In this embodiment, the fireproof sheet 12 is supported on the outdoor surface 112 of the support material 11, and is not supported on the indoor surface 111 of the support material 11. Therefore, the fireproof sheet 12 is not supported by a plate material such as a fireproof board. The surface of the lateral end of the fireproof sheet 12 facing the indoor side is in contact with the outdoor surface 112 of the support material 11. The fireproof sheet 12 is fixed to the support material 11. A tacker, adhesive, nails, screws, etc. are used to fix the fireproof sheet 12 to the support material 11.

The wall material 20 is preferably attached to the support material 11 using fasteners (not shown). The front-to-rear dimension of the ventilation layer 40 (the dimension between the opposing fireproof sheet 12 and wall material 20) is determined by the thickness of the fasteners.

When a fire breaks out, the fireproof sheet 12 is heated from the outdoor side of the wall material 20, and the fireproof sheet 12 foams and expands, expanding in the ventilation layer 40. That is, the ventilation layer 40 is formed as a foaming space for the fireproof sheet 12 to foam and expand. The fireproof sheet 12 also foams and expands, expanding the space between adjacent support materials 11. Therefore, the space between adjacent support materials 11 is also formed as a foaming space 60 for the fireproof sheet 12 to foam and expand. As a result, the heat-shielding effect and flame-shielding effect of the foamed and expanded fireproof sheet 12 can reduce the penetration of flames and heat from the outdoors to the indoors, thereby improving fire resistance, and the foamed and expanded fireproof sheet 12 makes it difficult for a space that communicates vertically to be formed between the wall material 20 and the wall base 10, and can suppress the movement of heat in the vertical direction between the wall material 20 and the wall base 10. The foamed and expanded fireproof sheet 12 is placed on the surface of the support material 11, improving the fire resistance of the support material 11.

In addition, by providing the fireproof sheet 12 on the indoor side of the wall material 20, the fireproof sheet 12 is not required to have high weather resistance or water resistance, and fire resistance can be improved. In addition, since the fireproof sheet 12 is a thin material when there is no fire, it does not obstruct the ventilation layer 40 under normal circumstances, and the dimension in the front-to-rear direction of the fireproof structure 1 (the dimension from the wall material 20 to the wall base 10) is less likely to become large compared to conventional structures.

In the fireproof structure 1 according to this embodiment, the fireproof sheet 12 is supported by the support material 11, so no plate material is required to support the fireproof sheet 12. In addition, the work of fixing the fireproof sheet 12 to the plate material is also unnecessary. Furthermore, since the fireproofness of the support material 11 is ensured by the fireproof sheet 12, there is no need to spray a separate fireproof material such as rock wool spray material. Therefore, although the fireproof structure 1 according to this embodiment can improve the fireproofness of the support material 11 with the fireproof sheet 12, the number of parts and work required to install the fireproof sheet 12 is reduced, so the installation is less time-consuming. In addition, since no fireproof board is provided between the wall base 10 and the wall material 20, there are fewer restrictions on the interior side than in the fireproof structure 1, and the interior can be freely designed.

(Modification)
The first embodiment is merely one of various embodiments of the present disclosure. The first embodiment can be modified in various ways depending on the design and the like as long as the object of the present disclosure can be achieved.

This embodiment can be applied not only to the exterior walls of buildings, but also to the interior walls. In the case of interior walls, interior wall materials such as plywood are used instead of exterior wall materials.

This embodiment may have a "horizontal" structure in which wall materials 20 extending in the left-right direction are arranged vertically and horizontally, or a "vertical" structure in which wall materials 20 extending in the up-down direction are arranged vertically and horizontally.

In this embodiment, a fireproof sheet 12 may be further provided on the indoor surface 111 of the support material 11. That is, the fireproof sheet 12 may be supported on both the outdoor surface 112 and the indoor surface 111 of the support material 11. In this case, the fireproof performance can be improved compared to a fireproof structure 1 in which the fireproof sheet 12 is supported on only one of the outdoor surface 112 or the indoor surface 111 of the support material 11.

In this embodiment, a heat insulating material may be provided on the indoor side of the fireproof board 30. In this case, a rock wool board, a glass wool board, a phenol foam resin board, or the like can be used as the heat insulating material. By providing the heat insulating material, heat is less likely to be transmitted to the indoor side than the wall base 10, thereby improving the fire resistance of the fireproof structure 1.

In this embodiment, the support material 11 is not limited to structural materials of the building such as pillars and studs. For example, the support material 11 may be a vertical furring strip. The support material 11 may also be a horizontal furring strip. If the support material 11 is a vertical furring strip or a horizontal furring strip, it is preferable that the support material 11 be made of a lightweight metal material such as aluminum.

In this embodiment, the fire-resistant sheet 12 does not have to be thermally foamable and may be made of a non-flammable material such as a metal sheet.

(Embodiment 2)
The fireproof structure 1 according to this embodiment differs from the fireproof structure 1 according to the first embodiment in the configuration of the fireproof board 30 .

In the following, configurations similar to those in embodiment 1 will be denoted by the same reference numerals and explanations will be omitted as appropriate.

The configuration described in the second embodiment can be applied in appropriate combination with the configuration described in the first embodiment (including the modified example).

As shown in FIG. 2, the fireproof structure 1 according to this embodiment further includes a fireproof board 30 in the first embodiment. The fireproof board 30 is non-combustible, flat, and harder than the fireproof sheet 12. The wall base 10 is formed of one or more fireproof boards 30. For example, a gypsum board or a calcium silicate board is used as the fireproof board 30. The thickness of the fireproof board 30 can be, for example, 5 mm to 30 mm, and preferably 9 mm to 21 mm, but is not limited thereto. The fireproof board 30 is preferably one that has been certified by the Minister of Land, Infrastructure, Transport and Tourism as conforming to the provisions of Article 2, item 9 of the Building Standards Act and Article 108-2 of the Enforcement Order of the same Act (non-combustible materials) based on the provisions of Article 68-26, paragraph 1 of the Building Standards Act. The fireproof board 30 is formed, for example, in a rectangular shape when viewed from the front. The fireproof structure 1 provided with the non-combustible fireproof board 30 has improved fire resistance.

The fireproof board 30 is disposed on the outdoor side of the wall base 10. The fireproof board 30 is disposed between the wall base 10 and the wall material 20. The indoor side surface of the fireproof board 30 is in contact with the outdoor side surface of the fireproof sheet 12. A ventilation layer 40 is provided between the outdoor side surface of the fireproof board 30 and the indoor side surface of the wall material 20. The fireproof board 30 is fixed to the support material 11 with fasteners such as nails or screws. That is, in this embodiment, the wall base 10, the fireproof board 30, the ventilation layer 40, and the wall material 20 are arranged in this order from the indoor side to the outdoor side.

The fireproof structure 1 according to this embodiment includes a plurality of fireproof sheets 12 on the outdoor side of the support material 11. Also, a plurality of fireproof boards 30 are provided on the outdoor side of the fireproof sheets 12. The butt joints 31 of adjacent fireproof boards 30 do not match the joints 121 of adjacent fireproof sheets 12. The butt joints 31 are formed at the portions where the end faces of adjacent fireproof boards 30 are butted together. The joints 121 are formed at the portions where the ends of adjacent fireproof sheets 12 are joined together. For example, when the butt joints 31 of horizontally adjacent fireproof boards 30 are located on the outdoor side of a certain support material 11, the joints 121 of horizontally adjacent fireproof sheets 12 are located on the outdoor side of another support material 11. That is, the butt joints 31 and the joints 121 are positioned in a horizontally offset position when the fireproof structure 1 is viewed from the outdoor side, and are formed so as not to be aligned in a straight line.

In the fireproof structure 1 according to this embodiment, as in the first embodiment, the fireproofness of the support material 11 can be improved by the fireproof sheet 12, so that the spraying work of rock wool or the like as in the past is unnecessary, and the workability is improved. In addition, in the fireproof structure 1 according to this embodiment, the butt joints 31 of the adjacent fireproof boards 30 and the joints 121 of the adjacent fireproof sheets 12 do not match, so that the unevenness (step) generated at the butt joints 31 and the unevenness (step) generated at the joints 121 are less likely to overlap, and the unevenness can be reduced. Furthermore, when a gap occurs between the fireproof boards 30 during a fire, and because the fireproof board is not provided on the indoor side of the wall base 10, there are fewer restrictions on the aspect of the indoor side of the wall base 10, and the interior can be freely set.

(Embodiment 3)
The fireproof structure 1 according to this embodiment differs from the fireproof structure 1 according to the first or second embodiment in the configuration of the fireproof board 30 .

In the following, configurations similar to those in the first or second embodiment will be denoted by the same reference numerals and explanations will be omitted as appropriate.

The configuration described in embodiment 3 can be applied in appropriate combination with the configuration described in embodiment 1 or 2 (including modified examples).

As shown in FIG. 3, the fireproof structure 1 according to this embodiment further includes a fireproof board 30 in the first embodiment, but the fireproof board 30 is disposed on the indoor side of the wall base 10. That is, the fireproof board 30 is disposed on the indoor side of the support material 11. In other words, the fireproof board 30 is not disposed between the wall base 10 and the wall material 20. Therefore, in this embodiment, the fireproof board 30, the wall base 10, the ventilation layer 40, and the wall material 20 are arranged in this order from the indoor side to the outdoor side. The outdoor side surface of the fireproof board 30 is in contact with the indoor side surface 111 of the support material 11. The fireproof board 30 is fixed to the support material 11 with a fastener such as a nail or a screw.

In the fireproof structure 1 according to this embodiment, as in the first embodiment, the fireproofing of the support material 11 can be improved by the fireproof sheet 12, so that the spraying work of rock wool or the like as in the conventional method is unnecessary, and construction is improved. In addition, in the fireproof structure 1 according to this embodiment, since the fireproof board 30 is not provided between the wall base 10 and the wall material 20, there is no need to consider the fireproof board 30 when constructing the wall material 20, and construction of the wall material 20 can be easily performed.

(Embodiment 4)
The fire-resistant structure 1 according to this embodiment differs from the fire-resistant structures 1 according to the first to third embodiments in the configuration of the wall base 10.

In the following, configurations similar to those in embodiments 1 to 3 will be denoted by the same reference numerals and descriptions will be omitted as appropriate.

The configuration described in embodiment 4 can be applied in appropriate combination with the configurations described in embodiments 1 to 3 (including modified examples).

In the fireproof structure 1 according to this embodiment, the fireproof sheet 12 is placed on the indoor side of the support material 11 (see FIG. 4). In addition, in this embodiment, the fireproof sheet 12 is not placed on the outdoor side of the support material 11. The wall material 20 is provided on the outdoor side of the wall base 10. A ventilation layer 40 is provided between the wall base 10 and the wall material 20. In other words, the fireproof structure 1 is arranged in the order of the wall base 10, the ventilation layer 40, and the wall material 20 from the indoor side toward the outdoor side. Also, no fireproof board is provided between the wall base 10 and the wall material 20.

The fireproof sheet 12 is arranged across adjacent support materials 11 in the horizontal direction. In this embodiment, the fireproof sheet 12 is supported on the indoor surface 111 of the support material 11, and is not supported on the outdoor surface 112 of the support material 11. Therefore, the fireproof sheet 12 is not supported by a plate material such as a fireproof board. The surface of the lateral end of the fireproof sheet 12 facing the outdoor side is in contact with the indoor surface 111 of the support material 11. The fireproof sheet 12 is fixed to the support material 11. A tacker, adhesive, nails, screws, etc. are used to fix the fireproof sheet 12 to the support material 11.

In the fireproof structure 1 according to this embodiment, like in the first embodiment, the fireproofness of the support material 11 can be improved by the fireproof sheet 12, but the number of parts and work required to install the fireproof sheet 12 is reduced, making installation less time-consuming. In addition, in the fireproof structure 1 according to this embodiment, since the fireproof board 30 is not provided between the wall base 10 and the wall material 20, there is no need to consider the fireproof board 30 when installing the wall material 20, and installation of the wall material 20 can be easily performed.

(Embodiment 5)
The fireproof structure 1 according to this embodiment differs from the fireproof structures 1 according to the first to fourth embodiments in the configuration of the fireproof board 30.

In the following, configurations similar to those in embodiments 1 to 4 will be denoted by the same reference numerals and descriptions will be omitted as appropriate.

The configuration described in embodiment 5 can be applied in appropriate combination with the configurations described in embodiments 1 to 4 (including modified examples).

As shown in FIG. 5, the fireproof structure 1 according to this embodiment further includes a fireproof board 30 in the fourth embodiment, but the fireproof board 30 is disposed on the outdoor side of the wall base 10. That is, the fireproof board 30 is disposed on the outdoor side of the support material 11. That is, the fireproof board 30 is disposed between the wall base 10 and the wall material 20. Therefore, in this embodiment, the wall base 10, the fireproof board 30, the ventilation layer 40, and the wall material 20 are arranged in this order from the indoor side to the outdoor side. The indoor surface of the fireproof board 30 is in contact with the outdoor surface 112 of the support material 11. The fireproof board 30 is fixed to the support material 11 with a fastener such as a nail or a screw.

In the fireproof structure 1 according to this embodiment, as in the first embodiment, the fireproofing of the support material 11 can be improved by the fireproof sheet 12, so that the spraying work of rock wool, etc., as in the conventional method, is unnecessary, and workability is improved. In addition, in the fireproof structure 1 according to this embodiment, since the fireproof board 30 is not provided between the wall base 10 and the wall material 20, there is no need to consider the fireproof board 30 when constructing the wall material 20, and the construction of the wall material 20 can be easily performed. In addition, since the fireproof board is not provided on the indoor side of the wall base 10, there are fewer restrictions on the appearance of the indoor side of the wall base 10, and the interior can be freely designed.

(Embodiment 6)
The fireproof structure 1 according to this embodiment differs from the fireproof structures 1 according to the first to fifth embodiments in the configuration of the fireproof board 30.

In the following, configurations similar to those in embodiments 1 to 5 will be denoted by the same reference numerals and descriptions will be omitted as appropriate.

The configuration described in embodiment 6 can be applied in appropriate combination with the configurations described in embodiments 1 to 5 (including modified examples).

As shown in FIG. 6, the fireproof structure 1 according to this embodiment further includes a fireproof board 30 in the fourth embodiment. The fireproof board 30 is disposed on the indoor side of the wall base 10. That is, the fireproof board 30 is disposed on the indoor side of the fireproof sheet 12. That is, the fireproof board 30 is not disposed between the wall base 10 and the wall material 20. Therefore, in this embodiment, the fireproof board 30, the wall base 10, the ventilation layer 40, and the wall material 20 are arranged in this order from the indoor side to the outdoor side. The outdoor side surface of the fireproof board 30 is in contact with the indoor side surface of the fireproof sheet 12. The fireproof board 30 is fixed to the support material 11 with a fastener such as a nail or a screw.

In the fireproof structure 1 according to this embodiment, like in the first embodiment, the fireproofness of the support material 11 can be improved by the fireproof sheet 12, but the number of parts and work required to install the fireproof sheet 12 is reduced, making installation less time-consuming. In addition, in the fireproof structure 1 according to this embodiment, since the fireproof board 30 is not provided between the wall base 10 and the wall material 20, there is no need to consider the fireproof board 30 when installing the wall material 20, and installation of the wall material 20 can be easily performed.

(summary)
As described above, the fireproof structure (1) according to the first aspect has a wall material (20) provided on the outdoor side of a wall base (10). The wall base (10) includes a support material (11) and a fireproof sheet (12) supported on at least one of the indoor side surface (111) or the outdoor side surface (112) of the support material (11).

According to this embodiment, a plate material for supporting the fireproof sheet (12) is not required, and the work for fixing the fireproof sheet (12) to the plate material is also not required. Furthermore, the fireproofing of the support material (10) is ensured by the fireproof sheet (12), and there is no need to spray a fireproof material. Therefore, there is an advantage that the number of parts and work required to install the fireproof sheet (12) is reduced, and installation is less time-consuming.

In the fire-resistant structure (1) according to the second aspect, in the first aspect, the fire-resistant sheet (12) is thermally foamable.

According to this embodiment, when a fire breaks out, the fire-resistant sheet (12) foams due to the heat of the fire and increases in volume from its initial state before the fire, forming a fire-resistant layer, which has the advantage of improving the fire resistance of the support material (11).

The fireproof structure (1) according to the third aspect is the first or second aspect, and further includes a fireproof board (30) between the wall base (10) and the wall material (20).

This aspect has the advantage that the fireproof board (30) makes it easier for heat and flames to be blocked from the outside to the inside of the building, improving fire resistance.

The fireproof structure (1) according to the fourth aspect is the third aspect, but has a plurality of fireproof sheets (12) on the outdoor side of the support material (11). A plurality of fireproof boards (30) are provided on the outdoor side of the fireproof sheets (12). The butt joints (31) of adjacent fireproof boards (30) do not match the joints (121) of adjacent fireproof sheets (12).

This embodiment has the advantage that the unevenness (step) occurring at the butt portion (31) and the unevenness (step) occurring at the seam portion (121) are less likely to overlap, making it possible to reduce the unevenness.

The fireproof structure (1) according to the fifth aspect is the third aspect, and includes a fireproof sheet (12) on the indoor side of the support material (11). A fireproof board (30) is included on the outdoor side of the support material (11).

This embodiment has the advantage that the fire resistance can be improved by the fireproof sheet (12) and the fireproof board (30). It also has the advantage that the fireproof board (30) is not required to install the fireproof sheet (12), and therefore installation is less time-consuming.

The fireproof structure (1) according to the sixth aspect is the first or second aspect in which there is no fireproof board between the wall base (10) and the wall material (20).

This aspect has the advantage that since no fireproof board is provided on the interior side of the wall base (10), there are fewer restrictions on the interior side of the wall base (10), and the interior can be designed freely.

REFERENCE SIGNS LIST 1 Fire-resistant structure 10 Wall base 11 Support material 111 Indoor surface 112 Outdoor surface 12 Fire-resistant sheet 121 Joint 20 Wall material 30 Fire-resistant board 31 Butt joint

Claims (4)

Wall materials are installed on the outdoor side of the wall base,
The wall base comprises a support material consisting of a pillar or a stud, and a thermally foamable fireproof sheet directly supported on the outdoor surface of the support material,
A ventilation layer is formed between the fireproof sheet and the wall material ,
The spaces between the adjacent support materials and the ventilation layer are formed as foaming spaces for the fireproof sheet to foam and expand when heated .
Fireproof construction. In claim 1,
A fireproof board is further provided between the wall base and the wall material.
Fireproof construction. In claim 2,
A plurality of the fireproof sheets are provided on the outdoor side of the support material,
A plurality of the fireproof boards are provided on the outdoor side of the fireproof sheet,
The butt joints of adjacent fireproof boards do not match with the joints of adjacent fireproof sheets.
Fireproof construction. In claim 1,
There is no fireproof board between the wall base and the wall material.
Fireproof construction.

Images