KR102417503B1 - Fireproof foam unit and fireproof foam device having the same - Google Patents

Abstract

An object of the present invention is to provide a refractory foam unit having a relatively low manufacturing cost, convenient construction, and excellent compatibility and ease of use, and a refractory foam device including the same. The fire-resisting foam unit according to the present invention is a fire-resisting foam unit for shielding a through hole formed in a floor or wall of a building so that a passage member having a passage formed therein can pass therethrough, wherein the through hole is expanded by heat refractory foam material that can prevent; It is connected to the floor or wall of the building by a fixing member, and while the fire-resistant foam material is expanded, the fire-resistant foam material is supported so as not to be separated from the floor or wall of the building, so that the expansion of the fire-resistant foam material proceeds in the direction of filling the through hole , A fire-resistant mesh that is installed to be buried on one side opposite to one side facing the floor or wall of a building among both sides of the fire-resistance foam material, and has a plurality of through-holes formed therein so that heat can be smoothly transferred to the fire-resistance foam material; and a protective material that is coupled to a surface positioned relatively far from the fire-resistant mesh body among both surfaces of the fire-resistance foam material and covers one side of the fire-resistance foam material.

Description

Fireproof foaming unit and fireproof foaming apparatus including the same

The present invention relates to a fire resistant foam unit, and more particularly, to a fire resistant foam unit capable of shielding a through hole formed in the floor or wall of a building so that passage members such as pipes or ducts can pass therethrough, and a fire resistant foam unit comprising the same It relates to a fireproof foaming device.

In general, an internal space of a building is divided into a plurality of spaces by a floor and a wall, and a through hole through which various pipes or ducts can pass is formed in a frame of a building such as a floor or a wall. The through hole of the building frame is formed to have a size larger than the width of the pipe or duct, so that the pipe or duct can pass through the through hole even if there is a design error when installing the pipe or duct.

However, as the penetration hole of the building frame is formed with a size larger than the width of the pipe or duct, a gap is inevitably formed between the building frame and the pipe or duct when the pipe or duct is installed. There is a problem in that it becomes a passageway and spreads the damage caused by the fire.

In order to solve this problem, it is currently legally compulsory to block the penetration hole of the building frame, which can spread the fire in the event of a fire, with a fire-resistant material. Various devices are used as devices for blocking the through-holes of the building frame for the installation of pipes or ducts.

For example, the device shown in FIG. 1 is made of synthetic resin or metal and has a cover portion 10 with an open central portion, and a sleeve that is hollow so that a duct can pass through and is coupled to the center portion of the cover portion 10 . (20). In this device, the cover part 10 is fixed to the wall surface by a fixing member such as a screw so that the duct is inserted into the sleeve 20, and a fire resistant sealant 30 is used around the cover part 10 and around the sleeve 20. is applied

However, such a conventional device is difficult to manufacture, expensive to manufacture, and divided into two or more divided parts for construction, so construction is difficult and construction cost is high.

In addition, the conventional apparatus has to be custom-made according to the size of a through hole formed in the building frame or the shape or width of a pipe or duct passing through the through hole, so compatibility is poor and productivity is inevitably reduced.

Registered Patent Publication No. 1743932 (2017. 06. 07)

The present invention has been devised in view of the above points, and it is to provide a fire resistant foam unit having a relatively low manufacturing cost, convenient construction, excellent compatibility and ease of use, and a fire resistant foaming material device including the same The purpose.

The fire resistant foaming material unit according to the present invention for solving the above object is a fireproof foaming material unit for shielding a through hole formed in the floor or wall of a building so that a passage member having a passage formed therein can pass therethrough. In the present, a fire-resistant foam material that expands by heat to block the through hole; It is connected to the floor or wall of the building by a fixing member, and while the fire-resistant foam material is expanded, the fire-resistant foam material is supported so as not to be separated from the floor or wall of the building, so that the expansion of the fire-resistant foam material proceeds in the direction of filling the through hole , A fire-resistant mesh that is installed to be buried on one side opposite to one side facing the floor or wall of a building among both sides of the fire-resistance foam material, and has a plurality of through-holes formed therein so that heat can be smoothly transferred to the fire-resistance foam material; and a protective material that is coupled to a surface positioned relatively far from the fire-resistant mesh body among both surfaces of the fire-resistance foam material and covers one side of the fire-resistance foam material.

The fire resistant mesh may be made of a stainless steel metal wire having a thickness of 0.1 to 0.6 mm.

The entire fire-resistant mesh body may be buried in the fire-resistant foam material.

The protective material may be made of a non-woven fabric.

The fire-resisting foam unit according to the present invention is coupled to a surface positioned relatively close to the fire-resistant mesh body among both surfaces of the fire-resistant foam material to cover the other side of the fire-resistant foam material; may include.

The finishing material may be made of a gas barrier material.

On the other hand, the fire resistant foaming material device according to the present invention for solving the above object is a fire resistant foaming material for shielding a through hole formed in the floor or wall of a building so that a passage member having a passage formed therein can pass therethrough. In the device, a fire-resistant foam material capable of blocking the through hole by expanding by heat, a fire-resistant mesh coupled to one surface of the fire-resistant foam material, and a surface located relatively far from the fire-resistant foam material among both surfaces of the fire-resistant foam material a fire-resistant foam unit coupled to and provided with a protective material covering one side of the fire-resistant foam material; and a fixing member supported on the floor or wall of the building to fix the fireproof foam unit to the floor or wall of the building, wherein the fire resistant mesh is connected to the floor or wall of the building by the fixing member. , while supporting the fire-resistant foam material so that it is not separated from the floor or wall of the building while the fire-resistant foam material is expanded, so that the expansion of the fire-resistant foam material proceeds in a direction to fill the through hole, the floor or It is installed so as to be buried on one side opposite to the one side facing the wall, and has a plurality of through-holes so that heat can be smoothly transferred to the fireproof foam material.

The fixing member may fix the fire-resistant foam unit by penetrating the fire-resisting foam and the fire-resisting mesh, and having an end of the fire-resistant foam penetrated into the floor or wall of the building.

On the other hand, the fire resistant foaming material device according to the present invention for solving the above object is a fire resistant foaming material for shielding a through hole formed in the floor or wall of a building so that a passage member having a passage formed therein can pass therethrough. An apparatus comprising: a through sleeve installed in the through hole and having a sleeve passage through which the passage member can pass; a fireproof foam unit coupled to the through sleeve so as to surround the passage member in the sleeve passage; and a fixing member coupled to the through sleeve to fix the fire resistant mesh to the through sleeve, wherein the fire resistant foam unit expands by heat to block the through hole; is fixed to the refractory foam material while supporting the fire-resistant foam material so as not to be separated from the floor or wall of the building while the fire-resistant foam material is expanded so that the expansion of the fire-resistant foam material proceeds in a direction to fill the sleeve passage, A fire-resistant mesh that is installed to be buried on one side opposite to one side facing the passage member, and a plurality of through-holes to allow heat to be smoothly transferred to the fire-resisting foam material, and the fire-resistant mesh among both surfaces of the fire-resistant foam material and a protective material that is coupled to a surface positioned relatively far from and covers one surface of the fire-resistant foam material.

The fixing member is coupled to the through sleeve so as to penetrate the side surface of the through sleeve, one end protrudes to the outside of the through sleeve to be embedded in the floor or wall of the building, and the other end to penetrate the fire resistant mesh body It may protrude into the sleeve through hole.

According to the present invention, since a fire-resistant mesh of a simple structure that is not easily damaged by heat is supported on the frame of a building such as a wall or floor to support a fire-resistant foam material that expands by heat, when a fire occurs, the fire-resistant foam material is used in the frame or passage of the building It is not separated from the member and can expand while covering the through hole of the building frame, and it is possible to effectively block the propagation of flame or smoke through the through hole of the building frame.

In addition, according to the present invention, the fire resistant foam unit combined with the fire resistant mesh body can be fixed to the frame of a building such as a wall or floor by using a fixing member such as a screw, so construction is very convenient.

In addition, according to the present invention, since the fire-resistant foam material having a simple structure that is not easily damaged by heat can be combined with the fire-resistant foam material to support the fire-resistant foam material, the unit price is low and the market competitiveness is excellent.

In addition, the fire resistant foam unit according to the present invention can be easily deformed into various shapes and used by taking a simple structure in which a thin and bendable fire resistant mesh body is coupled to a fire resistant foam material.

In addition, in the fire resistant foam unit according to the present invention, the fire resistant mesh and protective material coupled to the fire resistant foam material can prevent deformation of the fire resistant foam material. Therefore, it is not easily deformed even by changes in the environment such as temperature or humidity.

In addition, according to the present invention, since the fireproof foam unit can be simply cut to fit the shape of the passage member using a tool and arranged around the passage member, it is universal for shielding through holes in which passage members of various types are installed. can be used, and construction is convenient.

1 shows a conventional apparatus.
2 is a perspective view showing a fireproof foam unit according to an embodiment of the present invention.
3 is an enlarged side view of a portion of a fireproof foam unit according to an embodiment of the present invention.
4 is a view showing a state of cutting the fire-resistant foam unit according to an embodiment of the present invention.
5 is a view showing a fire resistant foaming device according to an embodiment of the present invention.
6 is a view showing a state in which the fireproof foaming device shown in FIG. 5 is installed on the wall of the building.
7 and 8 show various modifications of the fireproof foam unit.
9 to 12 show various modifications of the fireproof foam device according to the present invention.
13 is a view showing a modified example of the fireproof foam unit according to the present invention.

Hereinafter, a fire resistant foam unit and a fire resistant foam material device including the same according to the present invention will be described in detail with reference to the drawings.

2 is a perspective view showing a fire resistant foam unit according to an embodiment of the present invention, and FIG. 3 is an enlarged side view of a portion of the fire resistant foam unit according to an embodiment of the present invention.

As shown in the drawings, the fire resistant foam unit 100 according to an embodiment of the present invention includes a fire resistant foam material 110 that can be expanded by heat, and a fire resistant mesh body 120 coupled to the fire resistant foam material 110 . and a protective material 123 . This fireproof foam unit 100 shields the through hole formed in the structure frame such as the floor or wall of the building so that the passage member with the passage formed therein can pass through, so that in case of a fire, flame or smoke is spread through the through hole it can be prevented

The passage member may be various types installed to pass through a through hole formed in a structure of a building, such as a pipe, a duct, an electric cable, and a communication cable. In this embodiment, the fireproof foam unit 100 will be described as an example of shielding the through hole 71 formed in the wall 70 of the building so that the passage member 80 in the form of a duct can pass.

The fireproof foam material 110 is made of a flat plate shape that can cover the through hole 71, and is made of a thermally expandable material that can be expanded by heat. The fireproof foam 110 can effectively shield the gap and the through hole 71 between the wall 70 and the passage member 80 by receiving heat and expanding when a fire occurs. The refractory foam 110 may be manufactured in a flat plate shape by extruding a refractory foam mixture in which expanded graphite or various thermally expansible materials that can be expanded by heat are mixed.

The fire resistant mesh 120 has a plurality of through holes 121 and is coupled to the fire resistant foam 110 . Specifically, the fire resistant mesh 120 is installed so as to be buried in one side opposite to the side facing the wall 70 of the building among both sides of the fire resistant foam material. The fire resistant mesh 120 is fixed to the wall 70 by a fixing member 220 (refer to FIG. 5 ), so that the fire resistant foaming material 110 keeps the through hole 71 covered. can support The fire resistant mesh 120 is made of a fire resistant material that can withstand heat.

In case of fire, the fire resistant mesh 120 should be able to support the fire resistant foam material 110 not to be separated from the wall 70 at 1,000° C. for 2 hours or more. To this end, the fire resistant mesh 120 should have high high temperature strength. High temperature strength refers to the strength of a material at a high temperature. For example, when a general steel material made of carbon steel exceeds 500° C., the yield strain, tensile strength, fatigue limit, and the like rapidly drop. In addition, since the through hole 71 in which the fireproof foam unit 100 is installed is formed in the frame of the building and shows a large temperature difference inside and outside at all times, the inside has no choice but to have high humidity. Therefore, the refractory mesh body 120, which should be able to maintain its function while remaining here for a long time, should not be easily corroded. To satisfy these conditions, the fire resistant mesh 120 may be made of a metal wire made of stainless steel. The fire resistant mesh 120 made of a stainless steel material has very good corrosion resistance.

In addition, the fire-resisting foam unit 100 is a fire-resisting mesh body 120 so that the user can arbitrarily adjust the size or shape according to the size or width of the through-hole formed in the building frame or the shape or width of the pipe or duct passing through the through-hole. It is good that it can be cut easily with a tool such as scissors. To this end, the fire resistant mesh 120 may be made of a stainless steel metal wire having a thickness of 0.1 to 0.6 mm.

When the thickness of the fire resistant mesh body 120 is less than 0.1 mm, the fire resistant mesh body 120 has a lower supporting force for supporting the fire resistant foam material 110 , and the function of preventing the deformation of the fire resistant foam material 110 may be reduced. On the other hand, when the thickness of the fire resistant mesh 120 exceeds 0.6 mm, the fire resistant mesh 120 is difficult to be cut by a tool such as scissors, and there is a problem in that price competitiveness is lowered.

The stainless steel constituting the fire resistant mesh 120 has a very high tensile strength compared to other metals and can be processed very thinly like a thin plate. In addition, the high temperature strength is very high, and there is almost no bending even if it exceeds 500℃. Therefore, even if the thickness of the fire resistant mesh 120 is as thin as 0.1 mm, the fire resistant mesh 120 fire resistant foaming while maintaining the same distance from the floor or wall of the building during the process of expanding the fire resistant foam material 110 when a fire occurs. By preventing the ash 110 from expanding in the rear (in the opposite direction of the through hole), it is possible to firmly support the rear so as not to be separated from the floor or wall.

The protective material 123 is coupled to one surface of the fire-resistant foam material 110 to cover one surface of the fire-resistant foam material 110 . The protective material 123 is coupled to a surface positioned relatively far from the fire-resistant mesh body 120 among both surfaces of the fire-resistant foam material 110 . The protective material 123 is combined with the fire-resistant foam material 110 so as to cover one side of the fire-resistant foam material 110, thereby firmly holding the surface structure of the fire-resistant foam material 110 and constituting the fire-resistant foam material 110. Do not spread the refractory foam mixture. In a high temperature environment or a high humidity environment, the surface structure of the fire resistant foam material 110 may be loosened and sagged or deformed, but such a problem can be prevented by the protective material 123 being coupled to the fire resistant foam material 110 .

The protective material 123 may be made of various materials that are coupled to one surface of the fire-resistant foam material 110 , such as a nonwoven fabric or cloth, to firmly hold the surface structure of the fire-resistant foam material 110 .

The fire resistant foam unit 100 may be fixed to the wall 70 through the fixing member 220 so that the side on which the fire resistant mesh 120 is disposed faces the outside and the opposite side faces the wall 70 . In the event of a fire, since heat can be smoothly transferred to the fire-resistant foam material 110 through the through-holes 121 of the fire-resistant mesh body 120 , the fire-resistant foam material 110 rapidly expands and the wall 70 and the passage member The gap between the 80 and the through hole 71 can be quickly shielded. Since the fire resistant mesh 120 is made of a material that is not easily damaged by heat when a fire occurs, it can maintain a state fixed to the wall 70 by the fixing member 220 even if a fire occurs, and the fire resistant foam material 110 It is possible to support the fire-resistant foam material 110 so as not to be separated from the wall 70 during the expansion.

In this way, the fire-resisting foam unit 100 according to an embodiment of the present invention can support the fire-resistant foam material 110 in which a fire-resistant mesh body 120 of a simple structure is fixed to the wall 70 and expands by heat. . Accordingly, when a fire occurs, the fireproof foam material 110 can expand while maintaining the state covering the through hole 71 of the wall 70, and propagation of flame or smoke through the through hole 71 of the wall 70 can be reliably blocked. In addition, the manufacturing cost is low and the workability is excellent.

In addition, in the fire resistant foam unit 100 according to an embodiment of the present invention, the fire resistant foam material 110 is coupled to one side of the fire resistant foam material 110 to firmly hold the surface structure of the fire resistant foam material 110 . It is not easily deformed because of the cycle. Furthermore, since the fire resistant mesh 120 firmly holds the surface structure of the fire resistant foam 110 on the other side of the fire resistant foam material 110, it has excellent resistance to deformation and is easily resistant to environmental changes such as temperature or humidity. not deformed Therefore, it is easy to store, and it is possible to maintain the construction shape in the state that it is constructed in a building, and it is possible to stably perform its function in the event of a fire.

The refractory foam 110 and the refractory mesh 120 of the refractory foam unit 100 may be bonded to each other in a compression manner. The refractory foam material 110 has a soft property that can be deformed in a high temperature environment. When the fire-resistant foam material 110 is pressed against one surface of the fire-resistant foam material 110 while the fire-resistant foam material 110 is soft, at least a portion of the fire-resistance foam material 120 digs into the fire-resistant foam material 110 and fire-resistant foaming. It is buried in the ashes (110). Therefore, it is possible to combine the fire-resistant foam material 110 and the fire-resistant mesh body 120 without using a separate adhesive or fixing member.

After the fire-resisting mesh body 120 digs into the refractory foam material 110 in a soft state, the entire fire-resistance foam material 110 may be buried in the fire-resistance foam material 110 in the process of the fire-resistance foam material 110 being hardened. In this case, the fire resistant mesh 120 may not be exposed to the outside of the fire resistant foam 110 .

In the fire-resistant foam unit 100 , the fire-resistant foam material 110 and the fire-resistant mesh body 120 can be cut without difficulty by tools such as scissors, and a passage member installed in the through hole 71 of the wall 70 . (80) It can be cut according to the shape and used. For example, as shown in FIG. 4 , the fireproof foam unit 100 may be cut by a tool 50 such as scissors so that a hole through which the passage member 80 can pass is formed in the central portion thereof.

As described above, since the fireproof foam unit 100 according to an embodiment of the present invention can be cut and used in various shapes, it can be universally used to shield the through-holes in which various types of passage members are installed, and construction is convenient. do.

In the fire-resisting foam unit 100 according to an embodiment of the present invention, the fire-resistant mesh body 120 is made of a thin wire, so that the surface to which the fire-resistant foam material 110 is exposed becomes larger, and the fire-resistant foam material ( 110) can receive all the heat for foaming. Furthermore, since a plurality of through-holes 121 through which heat can be smoothly transferred to the fire-resistant foam material 110 are formed in the fire-resistant mesh body 120 , the fire-resistant foam material 110 of the fire-resistant foam unit 100 is It is possible to quickly and completely seal the gap of the through hole 71 while foaming and expanding more rapidly.

5 is a view showing a fire resistant foam device according to an embodiment of the present invention having a fire resistant foam unit.

The fire resistant foaming material device 200 shown in FIG. 5 is a fire resistant foaming material unit 210 for shielding the through hole 71 formed in the wall 70, and the fireproof foaming material unit 210 is fixed to the wall 70. It includes a plurality of fixing members 220 for this.

The refractory foam unit 210 includes a refractory foam 110 that can be expanded by heat, a refractory mesh 120 and a protective material 123 coupled to the refractory foam 110 . The fire-resistant foam material 110 and the fire-resistant mesh body 120 and the protective material 123 are the same as described above. The fireproof foam unit 210 has a flat plate shape wider than the width of the through hole 71 so as to completely cover the through hole 71 . An insertion hole 212 through which the passage member 80 can pass is formed in the central portion of the fireproof foam unit 210 . The insertion hole 212 has a shape corresponding to the cross-sectional shape of the passage member 80 and has a size corresponding to the cross-sectional size of the passage member 80 . A cutout 214 extending from the insertion hole 212 to the edge of the fire resistant foam unit 210 is provided on one side of the fire resistant foam unit 210 . The cutout 214 is formed by cutting a portion of the fireproof foam unit 210 with a tool such as scissors.

As shown in FIG. 4 , the fire-resistant foam unit 210 may be formed by cutting the flat-shaped fire-resistant foam unit 100 with a tool 50 . That is, when the user cuts the flat-shaped refractory foam unit 100 with the tool 50 according to the shape of the passage member 80 , the insertion hole 212 is formed in the central portion and extends from the edge to the insertion hole 212 . It is possible to make and use the fire-resistant foam unit 210 without difficulty having the cut-out portion 214 .

The fixing member 220 penetrates through the fire-resistant foam unit 210 and has a screw structure capable of firmly fixing the fire-resistant foam material unit 210 to the wall 70 by driving the end into the wall 70. have. Since a plurality of through-holes 121 are formed in the fire-resisting mesh body 120 of the fire-resistant foam unit 210, the fixing member 220 passes through the through-holes 121 of the fire-resistance mesh body 120 to pass through the fire-resistant foam material 110. can be penetrated and embedded in the wall 70 .

As described above, in the fire-resistant foaming material device 200 according to an embodiment of the present invention, the fire-resistant foaming material unit 210 is cut to match the shape of the passage member 80 , arranged around the passage member 80 , and fixed The through hole 71 of the wall 70 can be shielded by a simple method of fixing the fireproof foam unit 210 to the wall 70 using the member 220 . In addition, when a fire occurs, it is possible to prevent the flame or smoke from spreading through the through hole 71 .

In addition, when a fire occurs, since heat can be smoothly transferred to the fire-resistant foam material 110 through the through-holes 121 of the fire-resistant mesh body 120 , the fire-resistant foam material 110 rapidly expands with the wall 70 and The gap between the passage members 80 and the through hole 71 can be quickly blocked.

In addition, since the fire-resistant mesh 120 that is not easily damaged by heat is fixed to the wall 70 and supports the fire-resistant foam material 110 that expands by heat, the fire-resistant foam material 110 is installed on the wall 70 or It is not separated from the passage member 80 and may expand while covering the through hole 71 of the wall 70 . Accordingly, it is possible to effectively block the propagation of the flame or smoke through the through hole 71 of the wall 70 .

Although not shown in the drawings, the gap between the passage member 80 and the fireproof foam unit 210 or the gap between the fireproof foam unit 210 and the wall 70 is to be finished with a caulking material such as fireproof sealant. can

On the other hand, Figures 7 and 8 show various modifications of the fireproof foam unit.

First, the refractory foam unit 300 shown in FIG. 7 includes a refractory foam material 110 that can be expanded by heat, a refractory mesh body 120 coupled to the refractory foam material 110, a protective material 123, and a finishing material ( 310).

The protective material 123 is coupled to a surface positioned relatively far from the fire-resistant mesh 120 among both surfaces of the fire-resistant foam material 110 to cover one side of the fire-resistant foam material 110 .

The finishing material 310 is coupled to a surface positioned relatively close to the fire resistant mesh 120 among both surfaces of the fire resistant foam material 110 to cover the other side of the fire resistant foam material 110 . As shown, the finishing material 310 may cover the fire resistant mesh 120 so that the fire resistant mesh 120 is not exposed to the outside.

The finishing material 310 may prevent the refractory foam 110 or refractory mesh 120 from being exposed to the outside, and may decorate the exterior of the refractory foam unit 520 . The finishing material 310 may be made of various materials capable of covering the surface of the fire resistant foam material 110 , such as synthetic fibers, metal foils, fire resistant tapes, and non-woven fabrics.

In addition, the finishing material 310 may be made of a gas barrier material. The fireproof foam unit 300 including the finishing material 310 of a gas barrier material is installed to cover the through hole 71 of the building, thereby preventing the flow of air or gas through the through hole 71. . This fireproof foam unit 300 may be usefully used in a building that needs to block the inflow or outflow of air or gas.

In addition, the finishing material 310 may be made of a waterproof material that can block the passage of moisture.

On the other hand, the fire-resistant foam unit 400 shown in FIG. 8 includes a fire-resistant foam material 110 that can be expanded by heat, a fire-resistant foam material 120 and a protective material 123 coupled to the fire-resistant foam material 110. . This fireproof foam unit 400 is made of a band shape having a length relatively longer than the width, and may be used as it is in the form of a flat plate, or may be bent and deformed.

On the other hand, Figures 9 to 12 show various modifications of the fireproof foam device according to the present invention.

The fire resistant foaming device shown in FIGS. 9 to 12 is installed in the through hole 76 formed in the floor 75 of the building so that the passage member 85 of the piping structure can pass therethrough.

First, the fire resistant foaming device 500 shown in FIGS. 9 and 10 includes a through sleeve 510 having a hollow structure so that the passage member 85 can pass therethrough, and a fire resistant foaming material coupled to the through sleeve 510 . unit 520 . The refractory foam unit 520 includes a refractory foam 110 that can expand by heat, a refractory mesh 120 and a protective material 123 coupled to the refractory foam 110 .

The through sleeve 510 is of a hollow structure having a sleeve passage 511 through which the passage member 85 can pass. The diameter of the sleeve passage 511 is greater than the diameter of the passage member 85 . The through sleeve 510 is inserted into the through hole 76 formed in the bottom 75 . A clamp 530 coupled to the passage member 85 may be coupled to the through sleeve 510 .

The fireproof foam unit 520 is coupled to the through sleeve 510 so as to surround the passage member 85 in the sleeve passage 511 . As shown, the fire-resistant foam unit 520 has a ring shape surrounding the entire circumference of the circular passage member 85, or is disposed around the passage member 85 in addition to the passage member 85 during thermal expansion. It can take a variety of other structures that can be covered. The fireproof foam unit 520 may be indirectly coupled to the floor 75 by the through sleeve 510 to thermally expand while supported by the floor 75 .

The fire resistant foam material device 600 shown in FIG. 11 includes a through sleeve 510 having a hollow structure so that the passage member 85 can pass therethrough, and a fire resistant foam material unit 520 coupled to the through sleeve 510. include The fireproof foam unit 520 is the same as described above. A clamp 530 coupled to the passage member 85 may be coupled to the through sleeve 510 .

The fireproof foam unit 520 is coupled to the through sleeve 660 through the fixing member 610 so that the protective material 123 faces the passage member 85 . The fixing member 610 is coupled to the side surface of the through sleeve 510 to stably fix the fire-resistant foam material 110 to the floor 75 of the building. The fixing member 610 may have a screw structure made of a refractory material such as metal.

The fixing member 610 is coupled to the through sleeve 510 so as to penetrate the side surface of the through sleeve 510 , one end of which protrudes to the outside of the through sleeve 510 , and the other end of the through sleeve 510 into the inner side of the through sleeve 510 . protrude Accordingly, one end of the fixing member 610 is embedded in the floor 75 of the building, and the other end of the fixing member 610 is the fire resistant mesh 120 of the fire resistant foam unit 520 located inside the through sleeve 510. It may penetrate through and be embedded in the fireproof foam 110 .

The fire resistant foaming material device 600 is a fire resistant foaming material unit 520 inside the through sleeve 510 in a state in which the fixing member 610 of a fire resistant material coupled to the through sleeve 510 is embedded in the floor 75 of the building. By being combined with, even if the through sleeve 510 is partially melted or burned by heat generated during a fire, the fixing member 610 may support the fireproof foam unit 520 . Accordingly, the fireproof foam unit 520 does not separate from the through hole 76 of the floor 75 of the building, but expands inside the through hole 76 to form a gap between the passage member 85 and the floor 75 of the building. can be reliably shielded, and the propagation of flame or smoke through the through hole 76 can be stably blocked.

In this embodiment, in addition to the screw structure, the fixing member 610 may be connected to the floor 75 of the building directly or indirectly to be changed into various other structures capable of supporting the fire-resistant foam unit 520 .

On the other hand, the fire-resisting foam device 700 shown in FIG. 12 includes a through-sleeve 710 having a hollow structure so that the passage member 85 can pass therethrough, and a fire-resistant foaming material unit 520 coupled to the through-sleeve 710 . ) is included. The fireproof foam unit 520 is the same as described above. A clamp 530 coupled to the passage member 85 may be coupled to the through sleeve 710 .

The fireproof foam unit 520 is coupled to the through sleeve 660 through the fixing member 720 so that the protective material 123 faces the passage member 85 . The fixing member 720 may be made of a fire-resistant material such as a metal wire and coupled to the through sleeve 710 or the clamp 530 . The fireproof foam unit 520 may be indirectly coupled to the floor 75 through the fixing member 720 and the through sleeve 710 to thermally expand while supported by the floor 75 .

On the other hand, Figure 13 shows a modified example of the fireproof foam unit according to the present invention.

The fire resistant foam unit shown in FIG. 13 is press-coupled to one surface of the fire resistant foam material 110 so that at least a portion of the fire resistant mesh body 120 is buried in the fire resistant foam material 110 . The fire resistant mesh 120 is made of a metal wire having a constant thickness (T). The depth (D) at which the fire resistant mesh 120 is buried in the fire resistant foam 110 is greater than the height H at which the fire resistant mesh 120 protrudes from one surface of the fire resistant foam 110 . Therefore, the fire-resistant mesh body 120 can maintain a stable bonding state with the fire-resistant foam material (110).

Although preferred examples of the present invention have been described above, the scope of the present invention is not limited to the forms described and illustrated above.

For example, in the drawing, the entire fire-resisting mesh body 120 is shown to be buried in the fire-resistant foam material 110, but the fire-resistant mesh body 120 is coupled to the fire-resistant foam material 110 so that only a portion is buried in the fire-resistant foam material 110. can be In addition, the fire-resistant mesh body 120 may be coupled to the fire-resistant foam material 110 made of a smaller size than the fire-resistant foam material (110).

In the foregoing, the present invention has been shown and described in connection with preferred embodiments for illustrating the principles of the present invention, but the present invention is not limited to the construction and operation as shown and described as such. Rather, it will be apparent to those skilled in the art that many changes and modifications can be made to the present invention without departing from the spirit and scope of the appended claims.

100, 210, 300, 400, 520: Fireproof foam unit
110: fire-resistant foam material 120: fire-resistant mesh
121: through hole 123: protective material
200, 500, 600, 700: Fireproof foam device
220, 610, 720: fixing member 310: finishing material
510, 710: through sleeve 530: clamp

Claims (10)

In the fireproof foam unit for shielding a through hole formed in a floor or wall of a building so that a passage member having a passage formed therein can pass therethrough,
a fireproof foam material capable of blocking the through hole by expanding by heat;
It is connected to the floor or wall of the building by a fixing member, and while the fire-resistant foam material is expanded, the fire-resistant foam material is supported so as not to be separated from the floor or wall of the building, so that the expansion of the fire-resistant foam material proceeds in the direction of filling the through hole , which is installed so as to be buried on one side opposite to one side facing the floor or wall of the building among both sides of the fire-resistance foam material, and is made of a stainless steel metal wire having a thickness of 0.1 to 0.6 mm, heat is generated by the fire-resistant foam A fire-resistant mesh body having a plurality of through-holes formed so that it can be smoothly transferred to the ashes;
a protective material that is coupled to a surface positioned relatively far from the fire-resistant mesh body among both surfaces of the fire-resistant foam material and covers one side of the fire-resistant foam material; and
Including; including; a finishing material that is coupled to a surface positioned relatively close to the fire-resistance mesh body among both surfaces of the fire-resistant foam material and covers the other surface of the fire-resistant foam material;
The fire resistant mesh body is made of a size smaller than that of the fire resistant foam material, and the entire fire resistant mesh body is provided in a state in which the fire resistant foam material is buried,
The finishing material has a gas barrier property to prevent the flow of air or gas through the through hole, and is made of a synthetic fiber or nonwoven material having a waterproof property to block moisture from passing through. .
delete delete The method of claim 1,
The protective material is a fireproof foam unit, characterized in that made of a non-woven fabric.
delete delete In the fireproof foaming material device for shielding a through hole formed in a floor or wall of a building so that a passage member having a passage formed therein can pass therethrough,
The fireproof foam unit of claim 1 or 4; and
and a fixing member supported on the floor or wall of the building to fix the fireproof foam unit to the floor or wall of the building.
8. The method of claim 7,
The fixing member penetrates the fire-resistant foam material and the fire-resistance mesh body, and the end of the fire-resistance foam material device is fixed to the fire-resistant foam material unit by being driven into the floor or wall of the building.
In the fireproof foaming material device for shielding a through hole formed in a floor or wall of a building so that a passage member having a passage formed therein can pass therethrough,
a through sleeve installed in the through hole and having a sleeve passage through which the passage member can pass;
a fireproof foam unit coupled to the through sleeve so as to surround the passage member in the sleeve passage; and
A fixing member coupled to the through sleeve to fix the fire resistant mesh to the through sleeve;
The fire-resistant foam unit,
a fireproof foam material capable of blocking the through hole by expanding by heat;
It is connected to the floor or wall of the building by a fixing member, and while the fire-resistant foam material is expanded, the fire-resistant foam material is supported so as not to be separated from the floor or wall of the building, so that the expansion of the fire-resistant foam material proceeds in the direction of filling the through hole , which is installed so as to be buried on one side opposite to one side facing the floor or wall of the building among both sides of the fire-resistance foam material, and is made of a stainless steel metal wire having a thickness of 0.1 to 0.6 mm, heat is generated by the fire-resistant foam A fire-resistant mesh body having a plurality of through-holes formed so that it can be smoothly transferred to the ashes;
a protective material that is coupled to a surface positioned relatively far from the fire-resistant mesh body among both surfaces of the fire-resistant foam material and covers one side of the fire-resistant foam material; and
Including; including; a finishing material that is coupled to a surface positioned relatively close to the fire-resistance mesh body among both surfaces of the fire-resistant foam material and covers the other surface of the fire-resistant foam material;
The fire resistant mesh body is made of a size smaller than that of the fire resistant foam material, and the entire fire resistant mesh body is provided in a state in which the fire resistant foam material is buried,
The finishing material not only has a gas barrier property to prevent the flow of air or gas through the through hole, but also has a waterproof property capable of blocking the passage of moisture. .
10. The method of claim 9,
The fixing member is coupled to the through sleeve so as to penetrate the side surface of the through sleeve, one end protrudes to the outside of the through sleeve to be embedded in the floor or wall of the building, and the other end to penetrate the fire resistant mesh body Fireproof foam device, characterized in that protruding into the sleeve through hole.

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