JP2013213330A - Fireproofing protection structure for steel frame - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a fireproofing protection structure for a steel frame excellent in workability and fire resistance without the need for providing an opening or a projection in a section when the steel frame is installed in the vicinity of the section.SOLUTION: The fireproofing protection structure for the steel frame includes the cross-section H-shaped steel frame consisting of two parallelly opposed flanges and one web to both ends of which the flanges are connected, a noncombustible board installed on the outer face of one of the two flanges, and a thermally expansible fireproof sheet for covering the steel frame, a support and the noncombustible board. The noncombustible board can be installed projecting to both outsides of one flange on the basis of a direction perpendicular to the web.

Description

  The present invention relates to a steel frame fireproof covering structure.

Buildings such as detached houses, apartment houses, high-rise buildings, and various commercial facilities are formed from a plurality of building materials, and steel frames are one of the typical building materials used for buildings.
When this steel frame is exposed to heat such as a fire, the strength of the steel frame is greatly reduced even at a temperature that does not reach the melting point of iron, which is the main component of the steel frame.
When the steel frame is exposed to heat such as a fire, the steel frame buckles before reaching a temperature of 1500 ° C. or higher at which the steel frame melts, and cannot maintain a certain shape. As a result, the building may collapse.
When a building collapses easily due to heat from a fire or the like, fire fighting activities are hindered. Therefore, it is required to provide an appropriate fireproof coating for steel frames used for building materials.
Specific standards required for steel frames include fire resistance performance standards according to Ministry of Land, Infrastructure, Transport and Tourism Notification No. 2999, JIS A 1304, etc., and the fireproof covering structure of steel frames is required to satisfy this standard.

FIG. 7 is a schematic cross-sectional view for explaining a conventional steel frame fireproof covering structure.
As shown in FIG. 7, the steel frame 1 having an H-shaped cross section is installed on the deck plate 200. A runner 210 having a U-shaped cross section is fixed to the outside of the steel frame 1 so that the opposite surface of the U-shaped opening and the deck plate 200 are in contact with each other.
A U-shaped stud 220 is inserted into the U-shaped runner 210, and the U-shaped stud 220 can be fixed to the U-shaped runner 210 with a pin 230.
Next, by attaching a board 240 around the U-shaped stud 220, a conventional steel fireproof covering structure 250 is obtained.
In the case of the conventional steel fireproof covering structure 250, since the boat 240 covers the periphery of the steel frame, even when the steel fireproof covering structure 250 is exposed to heat such as fire, Can be transmitted to the steel frame.
Further, according to the fireproof covering structure 250 of the steel frame, since it is not necessary to directly attach the board 240 to the steel frame 1 having an H-shaped cross section, the linearity is not affected by the accuracy failure of the steel frame 1 main body having the H-shaped cross section. -It is said that a highly accurate structure with no deviation in horizontality can be obtained (Patent Document 1).

Japanese Utility Model Publication No. 6-44922

Although the above-described conventional fireproof coating structure for steel frames is excellent in fire resistance, the inventors have found that there is a new problem.
FIG. 8 is a schematic cross-sectional view for explaining a conventional steel fireproof covering structure 260 which is a problem. FIG. 8 schematically shows a cross-sectional view of the steel frame 1 installed at the lower part of the floor 5a forming a section of the building, cut along a plane perpendicular to the ground.
In FIG. 8, the steel frame 1 is installed at the end of the floor 5a. A wall 6a is installed in a direction perpendicular to the floor 5a.
In order to construct the same structure as that shown in FIG. 7 for the steel frame 1, it is necessary to provide the opening 50 and install the protrusion 60.

By the way, the steel frame 1 may be installed in the edge part of the floor 5a which forms the division of a building in the vicinity of an atrium structure, the vicinity of an up-down staircase, the vicinity of an elevator, etc.
However, when the protrusion 60 is provided on the wall 6a in the vicinity of the blow-by structure, there is a problem that the appearance of the wall 6a is deteriorated.
Further, if the protruding portion 60 is present on the wall 6a in the middle of the upper and lower stairs, the passage of people is hindered and evacuation in an emergency is hindered.
Further, if there is a protrusion 60 by the steel fireproof covering structure 250 inside the elevator shaft as a space in which the elevator lifting device moves up and down, the effective area that can be used for the elevator lifting device is reduced. It will be necessary to downsize the lifting device.
As the elevator lifting and lowering apparatus is downsized, there is also a problem that its transport capacity is reduced.

  Thus, if the protruding portion 60 of the wall 6a is present in the vicinity of the atrium structure, in the vicinity of the upper and lower stairs, in the vicinity of the elevator, etc., the appearance of the building is deteriorated, and obstacles to passage and evacuation occur. Therefore, there is a problem that the function of the building having the conventional steel fireproof covering structure 250 is lowered.

FIG. 9 is a schematic cross-sectional view for explaining a conventional steel fireproof covering structure 270 which is a problem.
In the case of FIG. 9, the hollow wall 8 is used as the wall 6a which forms a division.
In order to construct a structure similar to that shown in FIG. 9 for the steel frame 1, it is necessary to provide an opening 50 in the hollow wall 8.
However, when the opening 50 is provided in the hollow wall 8 that is a section, the function of the hollow wall 8 that should function to block flames such as fire and smoke is impaired, and a fire or the like is caused from the opening 50. The flame, smoke, etc. enter the hollow wall 8.
For this reason, although the fire resistance of the steel fireproof covering structure 270 is enhanced, if the opening 50 is provided in the hollow wall 8 which is a partition, the fire resistance of the entire building in which the steel fireproof covering structure 270 is installed is provided. There is also a problem that becomes low.

  The object of the present invention is to maintain the function of the building without the need to provide an opening or a protrusion in the compartment even when a steel frame is installed close to the compartment. An object of the present invention is to provide a steel fireproof coating structure which is excellent in the above.

  As a result of intensive studies by the inventor to solve the above problems, the present invention includes a steel frame having a flange, a non-combustible board installed on an outer surface of one flange of the steel frame, and a thermally expandable fireproof sheet, and the thermal expansion It has been found that a fireproof covering structure of a steel frame that covers the steel frame and the non-combustible board from the outside meets the purpose of the present invention, and the present invention has been completed.

That is, the present invention
[1] A steel frame having an H-shaped cross section composed of two flanges facing in parallel and a single web connecting the flanges at both ends;
Of the two flanges, a non-combustible board installed on the outer surface of one of the flanges;
A thermally expandable fireproof sheet covering the steel frame and the non-combustible board;
The present invention provides a fireproof covering structure for a steel frame, characterized by comprising:

One of the present invention is
[2] The non-combustible board installed on the outer surface of the one flange protrudes to the outside of both of the one flange with respect to a direction perpendicular to the web.
The heat-expandable fireproof sheet is provided with the steel frame fireproof covering structure according to the above [1], wherein the heat-expandable fireproof sheet is installed at a distance from the steel frame.

One of the present invention is
[3] The steel frame according to [1] or [2], wherein the nonflammable board is installed in a space surrounded by two flanges of the steel frame and a single web connecting the flanges at both ends. A fireproof coating structure is provided.

One of the present invention is
[4] An incombustible board installed in a space surrounded by two flanges of the steel frame and a single web connecting the flanges at both ends is provided with respect to a direction perpendicular to the web. The steel fireproof covering structure according to any one of the above [1] to [3], which projects outward from both sides.

One of the present invention is
[5] Among the flanges of the steel frame, the other flange is installed in the first section, the flange having the non-combustible board installed on the outer surface,
The closest distance between the surface on the steel frame side of the second section perpendicular to the first section and the flange end surface of the steel frame is in the range of 1 to 200 mm,
The heat-expandable fireproof sheet according to any one of the above [1] to [4], wherein the thermally expandable fireproof sheet is fixed to the first section by a fixing means.

The thickness of the outer side of the both ends of the flange included in the steel frame is thin. For this reason, even when a section exists close to the flange included in the steel frame, it is not necessary to provide an opening, a protrusion, or the like in the section, and the fire protection coating can be performed on the steel frame.
Since it is not necessary to provide an opening part, a protrusion part, etc. in the said division, it can prevent that the external appearance of a building falls. Moreover, it can prevent that the fire resistance of a building falls.
In addition, it can prevent the deterioration of the function of the building without hindering the passage of people due to the provision of the protruding portion in the section, the decrease in carrying-in / out work using the elevator, the hindrance of evacuation in an emergency, etc. it can.

FIG. 1 is a schematic cross-sectional view for explaining the relationship between a steel frame and compartments used in the present invention. FIG. 2 is a schematic cross-sectional view for explaining the construction method of the steel fireproof covering structure according to the first embodiment. FIG. 3 is a schematic cross-sectional view for explaining the steel frame fireproof covering structure according to the first embodiment. FIG. 4 is a schematic cross-sectional view for explaining the steel frame fireproof covering structure according to the second embodiment. FIG. 5 is a schematic cross-sectional view for explaining a steel frame fireproof covering structure according to a third embodiment. FIG. 6 is a schematic cross-sectional view for explaining a steel frame fireproof covering structure according to a fourth embodiment. FIG. 7 is a schematic cross-sectional view for explaining a conventional steel frame fireproof covering structure. FIG. 8 is a schematic cross-sectional view for explaining a conventional fireproof covering structure for steel frames, which is a problem. FIG. 9 is a schematic cross-sectional view for explaining a conventional fireproof covering structure for steel frames, which is a problem.

The steel fireproof covering structure of the present invention will be described below.
First, the steel frame used in the present invention will be described.
FIG. 1 is a schematic cross-sectional view for explaining the relationship between a steel frame and compartments used in the present invention.
The steel frame 1 illustrated in FIG. 1 has a structure with an H-shaped cross section, and includes two flanges 2 and 3 and one web 4. Of the two flanges 2 and 3, the upper flange 2 and the lower flange 3 face each other in parallel, and both ends of the web 4 are connected to central portions of the upper flange 2 and the lower flange 3.
This steel frame 1 is publicly known, and a commercially available product can be appropriately selected and used.

Here, the steel frame 1 has a function as a beam for supporting the first section 5 such as a floor or ceiling of a building, and is fixed to the section 5 directly or via a metal connecting member or the like by fixing means such as bolts and welding. It is fixed (not shown).
Moreover, the 2nd division 6 is installed in the orthogonal | vertical direction orthogonally to the 1st division 5 installed horizontally.

Although FIG. 1 illustrates the case where the steel frame 1 is installed in the horizontal direction as a beam or the like, the steel frame fireproof covering structure of the present invention is similarly applied when the steel frame 1 is installed in the vertical direction as a column or the like. It is possible to form.
The horizontal direction refers to a direction on a plane parallel to the ground with respect to the ground. The vertical direction refers to a direction based on the ground.

  Examples of the section used in the present invention include a building wall, a partition wall, a floor, a ceiling, and the like, a ship waterproof section, a steel plate provided in a cabin, and the like.

The material used for the compartment can be the same as the material used for the non-combustible board described later, in addition to concrete and the like.
There is no limitation in the division used for this invention, The division normally used for a building etc. can be used.

The first section 5 shown in FIG. 1 forms a building floor, and the second section 6 shown in FIG. 1 forms a building wall.
As the second section 6, a wall having no space inside, a hollow wall having a space inside, or the like can be used.

Examples of the hollow wall include a structure in which a heat-resistant panel or the like is fixed to a frame material such as a metal frame or steel frame.
There is no limitation in the division used for this invention, The division normally used for a building etc. can be used.

The closest distance between the surface of the second section 6 perpendicular to the first section 5 on the side of the steel frame 1 and the flange ends 2a and 3a of the steel frame 1 is preferably in the range of 1 to 200 mm. . Even when the second section 6 and the steel frame 1 are installed close to each other, it is possible to construct the steel fireproof covering structure of the present invention.
When storing a non-combustible board inside the steel frame 1, for example, the non-combustible board is stored from the beginning inside the steel frame 1, and the steel frame 1 is installed or close to the steel frame 1. What is necessary is just to install said 2nd division 6. FIG.

  Next, the thermally expandable fireproof sheet used in the present invention will be described.

Next, the thermally expandable fireproof sheet used in the present invention will be described.
The heat-expandable fireproof sheet used in the present invention is formed by molding a heat-expandable resin composition containing a resin component such as an epoxy resin or rubber, a phosphorus compound, heat-expandable graphite, an inorganic filler, etc. into a sheet shape. Is.
The thermally expandable fireproof sheet may be a laminate of one or more incombustible material layers such as inorganic fiber sheets such as glass cloth, metal foils such as aluminum foil and copper foil.

Examples of the inorganic fiber used in the inorganic fiber sheet include glass wool, rock wool, ceramic wool, gypsum fiber, carbon fiber, stainless steel fiber, slag fiber, silica alumina fiber, alumina fiber, silica fiber, and zirconia fiber. .
The inorganic fiber layer preferably uses an inorganic fiber cloth using the inorganic fiber.
Moreover, it is preferable to use what laminated the metal foil for the inorganic fiber used for the said inorganic fiber sheet.
As specific examples of the metal foil laminated inorganic fiber, for example, aluminum foil laminated glass cloth, copper foil laminated glass cloth and the like are more preferable.

  The heat-expandable fireproof sheet can be obtained, for example, by laminating a metal foil layer, an inorganic fiber layer, a heat-expandable resin layer, and the like. In addition to melt coextrusion, hot pressing, etc., these layers may include means for attaching each layer with an adhesive.

There is no limitation in the structure of the thermally expansible fireproof sheet used for this invention, The structure containing a several noncombustible material layer, a thermally expansible resin composition layer, etc. may be sufficient.
Examples of the incombustible material layer include a metal foil layer and an inorganic fiber layer.
The thermally expandable refractory sheet has a structure in which a thermal expansion residue formed by expansion of the thermally expandable resin composition layer when supported by heat such as fire is supported by a non-combustible material layer on the surface. There is no particular limitation.

If the specific example of the structure of the said thermally expansible fireproof sheet is given, for example,
(1) Incombustible material layer-thermally expandable resin composition layer (2) Incombustible material layer-thermally expandable resin composition layer-incombustible material layer (3) Incombustible material layer-thermally expandable resin composition layer-incombustible material layer -Thermally expandable resin composition (4) Incombustible material layer-Incombustible material layer-Thermally expandable resin composition layer-Incombustible material layer-Incombustible material layer (5) Incombustible material layer-Thermally expandable resin composition layer-Incombustible material Examples of the layer-thermally expandable resin composition layer-incombustible material layer-thermally expandable resin composition layer-incombustible material layer.
The heat-expandable fireproof sheet used in the present invention preferably has an incombustible layer on the outermost surface, and more preferably has a metal foil layer on the outermost surface.

Commercially available products can be used as the heat-expandable fireproof sheet, for example, Sekisui Chemical Co., Ltd. Fibrok etc. (registered trademark. Epoxy resin or rubber is used as a resin component, and includes a phosphorus compound and an inorganic filler. Sheet-like molded article of resin composition, sheet-like molded article of thermally expandable resin composition containing said resin component, phosphorus compound, foaming material and inorganic filler, etc., said resin component, phosphorus compound, thermally expandable graphite and inorganic It is possible to obtain and use a sheet-like molded product of a thermally expandable resin composition containing a filler and the like.
In addition, when using the said heat-expandable fireproof sheet containing the said heat-expandable graphite, it is preferable that the said heat-expandable graphite uses neutralized heat-expandable graphite.

  The thermally expandable refractory sheet expands due to heat such as a fire to form an expansion residue. This expansion residue blocks a flame such as a fire against the steel frame. For this reason, even if a fire or the like occurs, it is possible to prevent the strength of the steel frame from being lowered.

Examples of means for fixing the heat-expandable fireproof sheet to the compartment include bolts, screws, tuckers, staplers, nails, pins, tapping screws, and the like.
The fixing means used in the present invention can employ one kind or two or more kinds.
When fixing the thermally expandable fireproof sheet to the compartment, for example, a projection such as an embedding pin is set in advance in the compartment, and the projection is pushed onto the thermally expandable fireproof sheet by pushing from the outside. It can also be fixed by fixing means such as penetrating and bending the penetrating portion of the projection.

Next, the nonflammable board used in the present invention will be described.
Examples of the non-combustible board include inorganic fiber mats formed with inorganic fibers, inorganic fiber boards formed with inorganic fibers, and heat-resistant panels.

  Examples of the inorganic fiber mat material include paper making of inorganic fibers such as glass wool, rock wool, ceramic wool, gypsum fiber, carbon fiber, stainless steel fiber, slag fiber, silica alumina fiber, alumina fiber, silica fiber, and zirconia fiber. The mat material etc. obtained in this way are mentioned.

  As the inorganic fiber board, for example, a glass wool, rock wool, ceramic wool, gypsum fiber, carbon fiber, stainless steel fiber, slag fiber, silica alumina fiber, alumina fiber, silica fiber, zirconia fiber and other inorganic fibers as a sintering agent, Examples include boards obtained by molding using thermoplastic resins, adhesives, and the like.

Examples of the heat resistant panel include a cement panel and an inorganic ceramic panel.
Examples of the cement-based panel include hard wood piece cement boards, inorganic fiber-containing slate boards, lightweight cellular concrete boards, mortar boards, and precast concrete boards.
Examples of the inorganic ceramic panel include a gypsum board, a calcium silicate board, a calcium carbonate board, a mineral wool board, and a ceramic board.

  Here, as the gypsum board, specifically, a lightweight material such as saw dust or pearlite is mixed into calcined gypsum, and cardboard is formed on both sides. For example, ordinary gypsum board (JIS A6901 compliant: GB-R) is used. ), Decorative gypsum board (JIS A6911 compliant: GB-D), waterproof gypsum board (JIS A6912 compliant: GB-S), reinforced gypsum board (JIS A6913 compliant: GB-F), sound-absorbing gypsum board (JIS A6301 compliant: GB) -P) and the like.

  The inorganic fiber mat, inorganic fiber board, heat-resistant panel, etc. can be used singly or in combination.

  Hereinafter, the present invention will be described in detail based on examples with reference to the drawings. In addition, this invention is not limited at all by the following examples.

FIG. 2 is a schematic cross-sectional view for explaining the construction method of the steel fireproof coating structure according to the first embodiment. FIG. 3 is a schematic cross-sectional view for explaining the steel frame fireproof covering structure according to the first embodiment.
As described above with reference to FIG. 1, the steel frame 1 is installed in the first section 5.
As shown in FIG. 2, a noncombustible material board 10 is installed on the outer surface of the lower flange 3 of the steel frame 1. The upper surface of the non-combustible material board 10 has an area that can cover the entire outer surface of the lower flange 3 of the steel frame 1.

The non-combustible material board 10 used in Example 1 is a rock wool board.
Examples of means for installing the non-combustible material board 10 on the outer surface of the lower flange 3 of the steel frame 1 include tapes such as a commercially available single-sided adhesive tape and double-sided adhesive tape, and adhesives.
In the case of Example 1, the non-combustible material board 10 was fixed to the outer surface of the lower flange 3 of the steel frame 1 using a commercially available single-sided adhesive tape.

  Next, as shown in FIG. 3, the steel frame 1 and the non-combustible material board 10 are covered with a heat-expandable fireproof sheet 20, and then the end of the heat-expandable fireproof sheet 20 is fixed to the first section by the fixing means 7. 5 to obtain a steel fireproof covering structure 100 according to Example 1.

In the steel fireproof covering structure 100 according to the first embodiment, the outer thicknesses of the end portions 2a and 3a of the flanges 2 and 3 included in the steel frame 1 are thin. For this reason, even when the second section 6 exists in the vicinity of the web included in the steel frame 1, it is not necessary to provide an opening, a protrusion, or the like in the second section 6, and fireproof coating is performed on the steel frame 1. be able to.
Since it is not necessary to provide an opening part, a protrusion part, etc. in said 2nd division 6, it can prevent that the external appearance of a building falls. Moreover, it can prevent that the fire resistance of a building falls.

  When the steel fireproof covering structure 100 is exposed to heat such as fire, the thermally expandable resin composition layer contained in the thermally expandable fireproof sheet 20 covering the steel frame 1 expands to form an expansion residue. . Since the expansion residue is formed on the outer periphery of the steel frame 1 to block heat, it is possible to delay the time until the heat of fire or the like reaches the steel frame 1 and the steel frame 1 buckles.

Since the steel fireproof covering structure 100 can be easily constructed, it is excellent in workability. Moreover, no dust or the like is generated during construction, and construction can be performed without contaminating the inside of the building.
Since the steel fireproof covering structure 100 has a simple structure, it can be constructed in a short time and has excellent productivity per unit time.

  Moreover, the fireproof covering structure of the steel frame according to Example 1 does not need to provide an opening, a protrusion, or the like in the second compartment 6 even when the steel frame 1 is installed close to the second compartment 6. It is possible to prevent the appearance and fire resistance of the building where the steel cover structure is constructed from being deteriorated.

The steel fireproof covering structure 110 according to the second embodiment is a modification of the steel fireproof covering structure 100 according to the first embodiment.
FIG. 4 is a schematic cross-sectional view for explaining the steel frame fireproof covering structure 110 according to the second embodiment.

The width of the cross section of the noncombustible material board 10 used in Example 1 was substantially the same as the width of the cross section of the lower flange 3 of the steel frame 1.
On the other hand, the horizontal width of the cross section of the noncombustible material board 11 used in Example 2 is different in that it is larger than the horizontal width of the cross section of the lower flange 3 of the steel frame 1.

For this reason, the non-combustible board 11 installed on the outer surface of the lower flange 3 protrudes to the outside of the lower flange 3 with reference to the direction perpendicular to the web 4 of the steel frame 1.
As in the case of Example 1, the steel frame 1 and the non-combustible material board 11 shown in FIG. 4 are covered with the heat-expandable fireproof sheet 20, and then the end of the heat-expandable fireproof sheet 20 is fixed by the fixing means 7. It can fix to the 1st division 5 and the fireproof covering structure 110 of the steel frame concerning Example 1 can be obtained.
In the case of Example 1, the thermally expandable fireproof sheet 20 was installed in contact with the steel frame 1. On the other hand, in the case of Example 2, the thermally expansible fireproof sheet 20 is installed at a distance from the steel frame 1.

  In the case of Example 2, since the thermally expandable fireproof sheet 20 is installed at a distance from the steel frame 1, the steel fireproof covering structure 110 according to Example 2 is exposed to heat such as fire. In such a case, when the thermally expandable resin layer contained in the thermally expandable fireproof sheet 20 expands to form an expansion residue, the steel frame 1 does not hinder expansion. For this reason, since the expansion | swelling residue of sufficient thickness is formed, the fireproof coating structure 110 of the steel frame which concerns on Example 2 is more excellent in heat resistance.

The steel fireproof covering structure 120 according to the third embodiment is a modification of the steel fireproof covering structure 100 according to the first embodiment.
FIG. 5 is a schematic cross-sectional view for explaining the steel frame fireproof covering structure 120 according to the third embodiment.
In the case of the first embodiment, the two flanges 2 and 3 of the steel frame 1 and the spaces 30 and 31 (see FIG. 3) surrounded by a single web 4 connecting the two flanges 2 and 3 at both ends are incombustible. Sex board was not installed.
On the other hand, in the case of Example 3, the two flanges 2 and 3 of the steel frame 1 and the spaces 30 and 31 surrounded by the single web 4 connecting the two flanges 2 and 3 at both ends are noncombustible. The difference is that a plurality of sex boards 12 are installed.

In the case of Example 3, a plurality of noncombustible boards 12 are installed in the spaces 30 and 31 inside the steel frame 1. This incombustible board 12 supports the thermally expandable fireproof sheet 20 from the back.
When the steel fireproof covering structure 120 according to Example 3 is exposed to heat such as a fire, the thermally expandable resin layer included in the thermally expandable fireproof sheet 20 expands to form an expansion residue. Since the nonflammable board 12 functions as a support material, an expansion residue can be formed toward the outside of the steel frame 1. For this reason, the steel fireproof covering structure 120 according to Example 3 is more excellent in heat resistance.

The steel fireproof covering structure 130 according to the fourth embodiment is a modification of the steel fireproof covering structure 100 according to the second embodiment.
FIG. 6 is a schematic cross-sectional view for explaining a steel fireproof covering structure 130 according to a fourth embodiment.
In the case of the first embodiment, the two flanges 2 and 3 of the steel frame 1 and the spaces 30 and 31 (see FIG. 3) surrounded by a single web 4 connecting the two flanges 2 and 3 at both ends are incombustible. Sex board was not installed.
On the other hand, in the case of Example 4, a plurality of spaces 30 and 31 surrounded by a single web 4 in which the two flanges 3 and 4 of the steel frame 1 and the two flanges 2 and 3 are connected to both ends are provided. The point which the nonflammable board 13 is installed differs.
The non-combustible board 13 projects to the outside of both the lower flanges 3 with respect to a direction perpendicular to the web 4 of the steel frame 1.

In the case of Example 4, in addition to the thermally expandable fireproof sheet 20 being spaced from the steel frame 1, the nonflammable board 13 supports the back surface of the thermally expandable fireproof sheet 20.
When the steel fireproof covering structure 130 according to Example 4 is exposed to heat such as a fire, the thermally expandable resin layer included in the thermally expandable fireproof sheet 20 expands to form an expansion residue. Since the incombustible board 13 functions as a support material, an expansion residue can be formed toward the outside of the steel frame 1. Moreover, the steel frame 1 does not inhibit expansion. For this reason, since the expansion residue of sufficient thickness is formed, the steel fireproof covering structure 130 according to Example 4 is further excellent in heat resistance.

DESCRIPTION OF SYMBOLS 1 Steel frame 2, 3 Flange 2a, 2b, 3a, 3b End of flange 4 Web 5 1st division 5a Floor 6 2nd division 6a Wall 7 Fixing means 8 Hollow wall 10, 11, 12, 13 Nonflammable board 20 Thermal expansion fireproof sheet 30, 31 Internal space of steel 50 Opening 60 Projection 100, 110, 120, 130 Fireproof coating structure of steel 200 Deck plate 210 Runner 220 Stud 230 Pin 240 Board 250, 260, 270 Fireproof coating structure

Claims (5)

A steel frame having an H-shaped cross section composed of two flanges facing each other in parallel and one web connecting the flanges at both ends;
Of the two flanges, a non-combustible board installed on the outer surface of one of the flanges;
A thermally expandable fireproof sheet covering the steel frame and the non-combustible board;
A steel fireproof covering structure characterized by comprising: A non-combustible board installed on the outer surface of the one flange is projected to the outside of both of the one flange with respect to a direction perpendicular to the web;
The fireproof covering structure for a steel frame according to claim 1, wherein the thermally expandable fireproof sheet is disposed at a distance from the steel frame.   The fireproof covering structure for a steel frame according to claim 1 or 2, wherein the nonflammable board is installed in a space surrounded by two flanges of the steel frame and a single web connecting the flanges at both ends.   The non-combustible board installed in the space surrounded by the two flanges of the steel frame and the one web connecting the flanges at both ends is arranged on the outside of both of the one flanges with respect to the direction perpendicular to the web. The steel frame fireproof covering structure according to any one of claims 1 to 3, wherein the steel frame has a fireproof covering structure. Among the flanges of the steel frame, the other flange is installed in the first compartment, and the flange in which the non-combustible board is installed on the outer surface,
The closest distance between the surface on the steel frame side of the second section perpendicular to the first section and the flange end surface of the steel frame is in the range of 1 to 200 mm,
The steel frame fireproof covering structure according to any one of claims 1 to 4, wherein the thermally expandable fireproof sheet is fixed to the first section by a fixing means.