KR20120133538A - The method which forms a fireproof filling structure in the metal pipe which is applied in penetration department of the building - Google Patents

Abstract

PURPOSE: A method for forming a fireproof filling structure in a metal pipe for a penetrated portion of a building is provided to prevent a fire from spreading by efficiently cutting off a penetrated portion of a building. CONSTITUTION: A method for forming a fireproof filling structure in a metal pipe for a penetrated portion of a building is as follows. A heat insulating material is cut in a size of 50-250mm. The cut heat insulating material is attached to the opening and closing surface of a heat insulation cover(30) using a thermal expansion tape(60). 1-liquid type polyurethane(50) is injected into the gap between a penetrated portion(10) of a building and a metal pipe(20). Portions of the injected polyurethane foamed higher than the ceiling and bottom of the penetrated portion of the building are cut. An incombustible sheet and a heat insulation sheet are cut and attached to each other. A heat resistant heat insulation cover(40) surrounds a portion of the heat insulation cover.

Description

The method which forms a fireproof filling structure in the metal pipe which is applied in penetration department of the building}

The present invention fills the voids damaged by flames due to the expansion characteristics of the thermal expansion tape even when the thermal cover and the one-component polyurethane filler are burned due to the high temperature and high temperature during the fire, effectively blocking the penetration of the building to prevent the spread of fire. It is possible to secure fire resistance, and after filling one-component polyurethane, foamed parts higher than the ceiling and floor surface of the penetrating part of the building can be simply cut out using a knife, so the construction is simple and the insulation performance is excellent. Afterwards, the appearance is also clean and the flame retardant or non-flammable treatment of the thermal insulation cover with a certain length on the back of the penetrating part of the building prevents natural ignition, and a non-combustible sheet composed mainly of aluminum hydroxide or silicon dioxide. Insulation with rubber foam, EPDM foam or PE foam By cutting the sheet and then squeezing the two materials together with adhesive or double-sided tape, it is possible to impart heat resistance to the insulating cover, and the heat-resistant insulating cover is surrounded by a part of the entire circumference of the insulating cover, so that the non-flammable sheet surface is a metal pipe. A method of forming a refractory charging structure in a metal pipe for a penetration part of a building that can maintain the shape of the thermal cover in a direction to prevent the insulation sheet from melting or spontaneous ignition due to high temperature heat through the metal pipe. Technology.

When the metal pipe penetrates the fire compartment of the floor or wall 70 of the building, the fire penetration is also filled in the same way as the fire compartment according to the Building Code (Article 14, Paragraph 2 of the Rules for Evacuation of Buildings, Fire Protection Structures, etc.). It is written to maintain the structure. According to the test method of the Ministry of Land, Transport and Maritime Affairs and the Detailed Management Guidelines of the Korea Institute of Construction Technology, the detailed provisions of this rule determine whether the temperature of the penetrating material penetrating through the fire compartment should not exceed 180K when measured from the back of the flame source.

Metal pipes are used for various purposes, such as hot water, air conditioning, and the like. In general, an inorganic heat insulating cover such as glass fiber is used as a heat insulating material for maintaining heat retention. In particular, the glass fiber insulation cover is used in the place where the risk of fire is concerned despite being expensive compared to other organic insulation cover, but this is also considered when the glass fiber insulation cover is considered for 2 hours at the heating temperature of the fire resistance test at 1050 ° C. It has a disadvantage in that the refractory structure cannot be maintained at a low melting point of 400 to 600 ° C.

In addition, Figure 1 is a view showing to explain the structure of the metal pipe for the through portion of a conventional building, as shown in Figure 1, the metal pipe 20 is difficult to match exactly to the center of the through sleeve is always eccentric (80) ), It is not easy to develop a standardized refractory filling structure, and due to the eccentricity 80 of the metal pipe 20, it is very difficult to fill with other materials.

In the event of fire, the metal pipe acts as a medium for transferring heat to the back of the flame, making it impossible to maintain the temperature below 180 K, which is required by the test regulations. Even if (30) is used, the physical function is lost by heat above 300 ° C.

Therefore, even if the thermal cover and the one-component polyurethane filler are burned due to the high temperature and high temperature during the fire, it can fill the voids damaged by the flame due to the expansion characteristics of the thermal expansion tape to effectively block the penetration of the building to prevent the spread of the fire. Fireproof performance can be secured, and after filling one-component polyurethane, foamed parts higher than the ceiling and floor surface of the penetrating part of the building can be simply cut out using a knife, so the construction is simple and the thermal insulation performance is excellent. The appearance is also clean, and the heat insulation cover is made of special flame-retardant or non-flammable treatment with a certain length on the back side of the penetrating part of the building to prevent natural ignition, and non-combustible sheet and rubber foam foam composed mainly of aluminum hydroxide or silicon dioxide. Or cut the thermal sheet made of PE foam There is an urgent need to develop a method for forming a refractory-filling structure in a metal pipe for penetrating parts of a building which can be attached to each other with an adhesive or double-sided tape to impart heat resistance to a heat insulating cover.

Accordingly, the present invention has been conceived to solve the above problems, by filling the air gap burned by the flame due to the expansion characteristics of the thermal expansion tape even if the thermal cover and the one-component polyurethane filling material is burned due to the high temperature and high heat during the fire, It is an object of the present invention to provide a method of forming a refractory charging structure in a metal pipe for a through part of a building which can effectively prevent a fire from spreading through the through part to prevent fire spreading.

Another object of the present invention is that after filling the one-component polyurethane, the foamed portion higher than the ceiling and the bottom surface of the building penetrating part can be simply cut out using a knife, so the construction is simple and the thermal insulation performance is excellent, as well as the appearance after filling. To provide a method for forming a refractory filling structure in the metal pipe for the penetrating portion of a clean building.

Another object of the present invention is to provide a method of forming a refractory charging structure in the metal pipe for the through part of the building which can be prevented from spontaneous ignition by performing a special flame retardant treatment or non-flammable treatment of the insulating cover to a certain length of the back of the through part of the building. It is.

Another object of the present invention is to cut a non-combustible sheet consisting of aluminum hydroxide or silicon dioxide, and the insulating sheet consisting of a rubber foam foam, EPDM foam foam or PE foam foam and then press the two materials together with an adhesive or double-sided tape The present invention provides a method of forming a refractory filling structure in a metal pipe for a penetration part of a building that can impart heat resistance to a heat insulating cover.

Another object of the present invention is to surround the heat-resistant insulation cover in a portion of the entire circumference of the insulation cover, to maintain the shape of the insulation cover in the direction in which the non-combustible sheet surface is in contact with the metal pipe to keep warm due to the high temperature heat through the metal pipe It is to provide a method for forming a refractory filling structure in the metal pipe for the through part of the building that can prevent the sheet from melting or spontaneous ignition.

Method for forming a refractory charge structure in the metal pipe for the through part of the building according to an embodiment of the present invention for achieving the above object (a) to cut the insulation to 50 to 250mm; (B) attaching one to three layers of thermal expansion tape to one side by cutting the insulation and matching the opening and closing surface of the insulation cover; (C) injecting and filling the gap between the opening of the building and the pipe of the metal pipe using one-component polyurethane after attaching the thermal expansion tape; (D) cutting the foamed portion higher than the ceiling and the bottom surface of the building penetrating part by using a knife after filling the one-component polyurethane to clean the external shape; Cutting the non-combustible sheet and the thermal insulation sheet and then bonding the two materials together with adhesive or double-sided tape to impart heat resistance to the thermal insulation cover by enclosing the thermal insulation cover to a part of the entire circumference of the thermal cover; .

In the present invention, in the step (a), the insulating material is characterized in that it comprises any one of the inorganic insulating material of the glass fiber, PE foam foam, foam EPDM, organic foam foam insulation of rubber foam foam.

In the present invention, in the step (b), the thermal expansion tape is characterized in that it has an expansion characteristic of up to 10 to 30 times at 350 ℃ to a thickness of 2 to 6mm.

In the present invention, in the step (b), the thermal expansion tape is characterized in that it can be attached to both sides without being attached to one side to match the opening and closing surface of the insulating cover.

In the present invention, in the step (e), the non-combustible sheet is made of aluminum hydroxide (aluminum hydroxide) or silicon dioxide (SiO ₂ ) of 0.5 to 15mm thickness, the heat insulating sheet is 10 to 25mm It is characterized in that it comprises a rubber foam foam or PE foam foam, EPDM foam foam of the thickness.

The method of forming a refractory filling structure in the metal pipe for the through part of a building according to the present invention has the following effects.

First, the present invention fills the voids burned by the flame due to the expansion characteristics of the thermal expansion tape, even if the thermal cover and the one-component polyurethane filling material burns due to high temperature and high temperature during the fire, effectively blocking the penetration of the building to spread the fire. It can prevent the fireproof performance.

Second, the present invention, after filling the one-component polyurethane, the foamed portion higher than the ceiling and the bottom surface of the building penetrating part can be simply cut out using a knife, so the construction is simple and the thermal insulation performance is excellent, and the appearance after filling is also clean. Do.

Third, the present invention can be prevented from spontaneous ignition by the special flame retardant treatment or non-flammable treatment of the thermal insulation cover to a certain length of the back surface of the through part of the building.

Fourth, the present invention is to cut the insulation sheet consisting of a non-combustible sheet consisting of aluminum hydroxide or silicon dioxide and a rubber foam foam or PE foam foam and then squeezed the two materials together with an adhesive or a double-sided tape, to keep warm Heat resistance can be provided to a cover.

Fifth, the present invention surrounds the heat-resistant insulation cover in a portion of the entire circumference of the insulation cover, to maintain the shape of the insulation cover in the direction in which the non-combustible sheet surface is in contact with the metal pipe heat insulation sheet due to the high temperature heat through the metal pipe Can prevent melting or spontaneous ignition.

1 is a view showing for explaining the structure of a metal pipe for the through portion of a conventional building.
Figure 2 is a view showing for explaining the structure of the refractory charge to the metal pipe for the through part of the building according to an embodiment of the present invention.
Figure 3 is a view showing for explaining the refractory charging structure in the metal pipe for the through part of the building according to an embodiment of the present invention.
Figure 4 is a flow chart showing a process of forming a refractory filling structure in the metal pipe for the through part of the building according to an embodiment of the present invention.

Looking at the preferred embodiment of the present invention together with the accompanying drawings as follows, when it is determined that the detailed description of the known art or configuration related to the present invention may unnecessarily obscure the subject matter of the present invention The description will be omitted, and the following terms are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users or operators, and the definitions thereof are refractory charging to metal pipes for the penetration part of a building according to the present invention. It should be made based on the contents throughout the present specification that describes a method of forming the structure.

Hereinafter, with reference to the accompanying drawings, a method for forming a refractory filling structure in the metal pipe for the through part of a building according to an embodiment of the present invention will be described in detail.

2 is a view showing a structure for the refractory charge on the metal pipe for the through part of the building according to an embodiment of the present invention, Figure 3 is a refractory charge to the metal pipe for the through part of the building according to another embodiment of the present invention. 4 is a flow chart showing a process of forming a refractory filling structure in a metal pipe for a penetration part of a building according to an embodiment of the present invention.

As shown in Figures 2 to 4, look at the flow of forming a refractory charging structure in the metal pipe for the through part of the building as follows.

First, the step (a) of cutting the insulation to 50 to 250mm. Here, the heat insulating material is most preferably PE foam, but is also possible to glass fiber, foam EPDM, rubber foam, EPDM foam. In addition, the insulation is most suitable to cut to 200mm. The polyethylene (PE) foam foam has a low thermal conductivity, excellent thermal insulation effect, and is a non-absorbent material, and thus does not degrade heat insulation performance even after a long time, and also serves to prevent condensation and reduce vibration. In addition, rubber foam insulation (EPDM: Ethylene Propylene Diene Monomer) is mainly used as a heat insulating material.

Secondly, the thermal insulation tape 60 is attached to one or three plies on one side by cutting the insulating material and matching the opening and closing surface of the insulating cover 30. Here, the thermal expansion tape 60 is 2 to 6mm in thickness having a maximum of 10 to 30 times the expansion characteristics at 350 ℃, the thermal expansion tape 60 is the most suitable 4mm thickness. Therefore, the theoretical thermal expansion thickness can be estimated to be 15 times the effective expansion ratio of 4mm, 60mm. In the case of the metal pipe 20 of diameter 100mm, the maximum opening size can be up to 220mm, but the expansion direction, expansion temperature, etc. The maximum opening size can be specified as 180mm even if the factor is considered as 10 times effective expansion. In addition, as shown in Figures 2 and 3, the thermal expansion tape can be attached to the two sides (shown in Figure 3) without being attached to one side (shown in Figure 2) to match the opening and closing surface of the thermal cover. will be.

Third, after the thermal expansion tape (60) is attached to the filling step by injecting the opening of the building through portion 10 and the gap of the metal pipe 20 by using the one-component polyurethane (50). Here, considering the size of the opening, even if the heat insulating material of the metal pipe 20 is covered and the thickness of the thermal expansion tape 60 is considered, a gap between the metal pipe 20 and the opening is inevitably generated. Filling by injection using a liquid polyurethane (50).

Fourth, after filling the one-component polyurethane (50) is a step (d) of cutting the foamed portion higher than the ceiling and floor surface of the building through portion 10 using a knife to clean the external shape.

Fifth, cut the non-combustible sheet and the thermal insulation sheet into 150 to 500mm width and then press the two materials together with an adhesive or double-sided tape to each other to surround the heat-resistant insulation cover 40 around a portion of the entire circumference of the thermal insulation cover 30 (E) imparting heat resistance to the. Here, the non-combustible sheet is made of 0.5 to 15 mm thick aluminum hydroxide (aluminum hydroxide) or silicon dioxide (SiO ₂ ) as a main component, the thermal insulation sheet is made of 10 to 25 mm thick rubber foam foam or PE foam foam It is. In addition, the heat resistant heat insulating cover 40 surrounds a portion of the entire circumference of the heat insulating cover 30, and allows the non-combustible sheet surface to maintain the shape of the heat resistant heat insulating cover 40 in the direction in which the metal pipe 20 is touched. The non-combustible sheet is endothermic to prevent the thermal insulation sheet from melting or spontaneous ignition due to the high temperature heat through the pipe 20. The endothermic mechanism at this time is as follows.

     180 ~ 200 ℃

2Al (OH ₃ ) → Al ₂ O ₃ + 3H ₂ O-298KJ / mol (endothermic reaction)

The insulation cover completed in the above form can be constructed in the same manner as the construction of the general insulation cover, thereby ensuring the specified fire resistance performance.

As described above, the method of forming a fire-resistant filling structure in the metal pipe for the penetration part of the present invention is applicable to the metal pipes that penetrate through the fire compartment of the floor or wall of a general building, as well as an apartment and a shopping mall.

It will be appreciated by those skilled in the art that the present invention is not limited to the above embodiments, and that various modifications and changes can be made without departing from the spirit of the present invention.

10: through hole of the building 20: metal pipe
30: heat insulation cover 40: heat resistant heat insulation cover
50: 1 component polyurethane 60: thermal expansion tape
70: wall 80: eccentric portion

Claims (5)

In the method of forming a refractory filling structure in the metal pipe for the through part of the building,
(A) cutting the insulation to 50 to 250 mm;
(B) attaching one to three layers of thermal expansion tape to one side by cutting the insulation and making it match the opening and closing surface of the insulation cover;
(C) injecting and filling the gap between the opening of the building and the pipe of the metal pipe using one-component polyurethane after attaching the thermal expansion tape;
(D) cutting the foamed portion higher than the ceiling and the bottom surface of the building penetrating part by using a knife after filling the one-component polyurethane to clean the external shape;
Cutting the non-combustible sheet and the thermal insulation sheet and then bonding the two materials together with adhesive or double-sided tape to impart heat resistance to the thermal insulation cover by enclosing the thermal insulation cover to a part of the entire circumference of the thermal cover; Method for forming a refractory charging structure in the metal pipe for the through part of the building comprising a. The method of claim 1,
In the step (a), the insulation is fireproof in the metal pipe for the penetration of the building, characterized in that any one of the inorganic insulation of glass fiber, PE foam, foam EPDM, organic foam foam insulation of rubber foam foam. Method of forming a filling structure. The method of claim 1,
In the step (b), the thermal expansion tape has a thickness of 2 to 6mm at 350 ℃ a method of forming a refractory filling structure in the metal pipe for the through part of the building, characterized in that it comprises an expansion property of up to 10 to 30 times. . The method of claim 1,
In the step (b), the heat-expandable tape conforms to the opening and closing surface of the insulating cover, and can be separately attached to both sides without attaching to one side, the fire-resistant filling structure to the metal pipe for the through part of the building, characterized in that How to form. The method of claim 1,
In the step (e), the non-combustible sheet is composed of 0.5 to 15mm thick aluminum hydroxide (aluminum hydroxide) or silicon dioxide (SiO ₂ ) as the main component, the thermal insulation sheet is 10 to 25mm thick rubber foam foam or Method for forming a refractory filling structure in the metal pipe for the penetration portion of the building, characterized in that the PE foam foam, EPDM foam foam.

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