KR101769009B1 - Electrical cable anti fire system for fire stop structure - Google Patents

Abstract

The present invention relates to an electrical cable fire preventing system, which is for preventing the generation of toxic gases and flames from a fire in the space between floors or walls of a building or the space in a through cable storing unit. More specifically, the electrical cable fire preventing system has a composite flame blocking structure using a heat blocking material and a fire-resistant foam pad, capable of preventing toxic gases and flames from being spread in the space between the floors or walls while using the heat blocking material capable of blocking heat and the foam pad and a sealant material expanding when heat is applied thereto. According to the present invention, the electrical cable fire preventing system with a composite flame blocking structure formed by the fire-resistant foam pad and heat blocking material includes: a frame; the foam pad which is fitted to the exterior of electrical cables when the electrical cables are installed in the frame while having heat expansion properties; the sealant material filling the space between the electrical cables and the foam pad; and the heat blocking material wound on the exterior of the electrical cables to prevent fires from starting when the heat transmitted from the electrical cables contacts the flammable substances around the electrical cables.

Description

TECHNICAL FIELD [0001] The present invention relates to an electric cable fire prevention system having a composite deterioration shield structure by a fire pad and a heat shield,

More particularly, the present invention relates to a foam pad and a sealant which are capable of expanding when heat is applied and a foam pad and a sealant capable of blocking heat, The present invention relates to an electric cable fire protection system having a composite deterioration shield structure by a fireproof foam pad and a heat shielding material that can prevent toxic gases and deterioration from spreading between layers or between walls using a heat material.

Building regulations (for example, Article 40 of the Law, Enforcement Decree of the Building Act, and Ministry of Land, Transport and Maritime Affairs Notice (No. 2008-154) The walls and bottom of buildings require a structure that can withstand flames (1,016 ° C or more) for a certain period of time.

Generally, when constructing a building, it is installed by providing a penetration part for installing electric and communication cables between layers or walls.

When the fire is generated in a certain area of the building, toxic gas and deterioration are spread to another area through the remaining space of the penetrating part, and the damage caused by the spread of the fire is further increased do.

In order to solve the above-described problems, there have been various techniques for preventing the toxic gas and the deterioration from spreading by filling the remaining space after installing the electric cable in the penetrating portion by using a pad type filler.

However, due to the nature of the material, fire resistance, abrasion resistance and abrasion are large and there is a risk of dust generation. Also, since the high density insulation material for fire protection is not elastic, it can not be used alone as a filler for fire protection treatment.

In order to solve the above-described problems, a technique of applying a hardening material to the remaining space and hermetically sealing it has been variously carried out.

However, if a fire occurs after construction, there is a limit to re-fill the space caused by the melting of the coating of the electric cable by the heat, and when the deterioration of the electric cable coating is spread or the electric cable coating melts, There is a problem that the deterioration can be diffused.

In addition, heat is transmitted to other areas through the metal sleeve and the electric cable installed on the wall, and the flame melts while the flammable material around the sleeve and the electric cable is ignited by the heat.

Further, a problem arises that the construction period takes a long time depending on the process of installing the frame in the penetrating portion and separately installing the filler.

The present invention has been conceived to solve the problems described above, and it is an object of the present invention to provide an electric cable having a heat-expandable material, It is possible to prevent the toxic gas and deterioration from spreading by instantly filling the space generated by melting the covering of the electric cable by the expansion of the electric cable and to prevent the flammable substance around the sleeve and the electric cable by the heat transmitted through the sleeve and the electric cable The fire shielding structure can be effectively prevented from being burnt and the deterioration shielding structure is applied to the tray to provide a finished product. Thus, the fireproof foam pad and the heat shielding material can effectively reduce the construction time, For the purpose of providing an electrical cable fire protection system The.

According to an aspect of the present invention, there is provided an electric cable fire fighting system having a composite deterioration cut-off structure by a fire pad and a heat shield, comprising: a frame; A foam pad 200 fitted to the outside of the electric cable 600 in a state where the electric cable 600 is installed and having thermal expansion characteristics; A sealant 300 having a thermal expansion characteristic that fills a space between the pad 200 and the electric cable 600; And a heat shield 500 wound around the electric cable 600 to prevent heat transmitted through the electric cable 600 from coming into contact with the outside to prevent ignition of the flammable material around the electric cable 600 .

Here, the frame 100 is further provided with a fixing bracket 110 for fixing and fixing the electric cable 600 to one side thereof.

The heat shielding material 500 includes a heat shielding mat 510 made of a soft heat shield material and a heat shield cover 520 covering the outer side of the heat shield mat 510 and made of a heat shield material .

In addition, the cover 400 is further provided on the outer side of the foam pad 200 to prevent the foam pad 200 from being exposed to the outside.

Further, the fixing bracket 110 is further provided with a fixing ring 111 for fixing the electric cable 600 therebetween.

The electric cable fire protection system having the composite deterioration blocking structure by the fireproof foam pad and the heat shielding material according to an embodiment of the present invention has the following effects.

First, there is an effect that the fire can be prevented from spreading to another area partitioned from the fire occurrence area.

Second, the space formed by melting the coating of the cable by melting is instantaneously cut off, thereby blocking the toxic gas between the compartments and preventing the deterioration from spreading.

Third, there is an effect that burning of the flammable material in the vicinity of the other area electric cable, in which fire is not caused by the heat conducted in the area where the fire occurs, is prevented by providing the heat shielding material outside the electric cable.

Fourth, a cable tray having a deterioration blocking structure can be provided in the form of an end product of various standards, thereby reducing the construction time.

1 is a perspective view showing an overall configuration of an electric cable fire protection system having a composite deterioration blocking structure by a fireproof foam pad and a heat shielding material according to an embodiment of the present invention.
2 is an exploded perspective view of an electric cable fire protection system having a composite deterioration blocking structure by a fireproof foam pad and a heat shielding material according to an embodiment of the present invention.
3 is a cross-sectional view taken along line II of an electric cable fire fighting system having a composite deterioration blocking structure by a fireproof foam pad and a heat shielding material according to an embodiment of the present invention
FIG. 4A is a view showing a state of use in which a foam pad is separated for installation in an electric cable installed in an electric cable fire fighting system having a composite deterioration blocking structure by a fireproof foam pad and a heat shielding material according to an embodiment of the present invention
FIG. 4B is a diagram showing a state of use in which an electric cable fire-fighting system having a composite deterioration blocking structure is installed on the side of an electric cable by a fireproof foam pad and a heat shielding material according to an embodiment of the present invention
FIG. 4C is a state diagram showing a state in which the electric cable fire-fighting system having the composite deterioration blocking structure is installed on the electric cable side by the fire pad and the heat shielding material according to the embodiment of the present invention
FIG. 5 is a view showing a state in which a cover for covering a foam pad is applied to an electric cable fire protection system having a composite deterioration blocking structure by a fireproof foam pad and a heat shielding material according to an embodiment of the present invention.
FIG. 6 is a view showing a state of use in which a fixing ring is applied to an electric cable fire-fighting system having a composite deterioration blocking structure by a fireproof foam pad and a heat shielding material according to an embodiment of the present invention
FIG. 7 is a view showing a state of use of a cover and a frame of the electric cable fire-fighting system having a composite deterioration shielding structure by a fireproof foam pad and a heat shielding material according to an embodiment of the present invention,
FIG. 8 is a view showing a state of use of a foam pad cover and a fixing piece applied to an electric cable fire protection system having a composite deterioration blocking structure by a fireproof foam pad and a heat shielding material according to an embodiment of the present invention.
9 is an explanatory view showing a state of application of a foam pad of an electric cable fire fighting system having a composite deterioration blocking structure by a fireproof foam pad and a heat shielding material according to another embodiment of the present invention,

[0001] The present invention relates to an electric cable fire protection system having a composite deterioration shielding structure by a fire pad and a heat shielding material provided in a wall or a floor of a partitioned area, And the space remaining between the foam pad and the electric cable is filled with a sealant which is injected into the gel and has a thermal expansion property to provide a finished product, The present invention relates to an electric cable fire system having a structure.

The foam pad is an electric fire stop (EFS) foam pad, and is a foam pad optimized for the construction of cables used in electric and electronic communication.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an electric cable fire fighting system having a composite deterioration blocking structure using a fireproof foam pad and a heat shielding material according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing an overall configuration of an electric cable fire protection system having a composite deterioration blocking structure by a fireproof foam pad and a heat shielding material according to an embodiment of the present invention.

Referring to FIG. 1, a frame 100 and a foam pad 200 are assembled and provided as a finished product, respectively. The electric cable 600 is connected to one end or both ends of the frame 100, The heat shield 500 is provided so as to surround the electric cable 600.

FIG. 2 is an exploded perspective view of an electric cable fire fighting system having a composite deterioration blocking structure by a fireproof foam pad and a heat shielding material according to an embodiment of the present invention. FIG. 3 is a perspective view of a fireproof foam pad according to an embodiment of the present invention. Sectional view of an electric cable fire fighting system having a composite deterioration blocking structure by a heat shield and a heat shield.

Referring to FIGS. 2 to 3, the frame 100 is provided with two 'C' shapes bent on both sides inward facing each other.

A fixing bracket 110 is further provided on the upper and lower inner sides of the frame 100 to fix and support an electric cable 600 passing through the inside of the frame 100.

The fixing bracket 110 is fixed to the inner side of the frame 100 with both ends thereof fixed to the frame 100 and the electric cable 600 passing through the frame is fixed using a cable tie or other fixing means, (Not shown).

Between the inner side of the frame 100 and the outer side of the electric cable 600, a foam pad 200 having a thermal expansion property is fitted and coupled.

The foam pads 200 may be individually or interleaved depending on the thickness of the electric cable 600 and the size of the space between the frame 100.

The electric cable 600 includes a conductor 610 for transmitting electricity and a cover 620 for covering the outside of the conductor 610 and preventing electricity flowing to the conductor 610 from leaking to the outside, Lt; / RTI >

The space between the electric cable 600 and the foam pad 200 after filling the foam pad 200 is filled with the sealant 300 having thermal expansion properties and the electric cable 600 and the foam pad 200, A space is not left between the pad 100 and the foam pad 200, and the foam pad 200 is not released.

Here, the foam pad (refractory polyurethane foam) is produced by reacting an isocyanate component with a polyol component in the presence of a foaming agent and a refractory additive.

That is, a char (char) is formed between the polyol and diisocyanate by the expansion action of the blowing agent while using a catalyst such as expanded graphite and pentaerythritol as the catalyst, such as ammonium phosphate or polyhydric alcohol, The film prevents the molecular chain of the polyol from being dissolved by heat, thereby improving the vulnerability to fire, which is a problem of the conventional polyurethane foam, and also preventing the generation of toxic gas generated in a fire.

Accordingly, if a fire occurs in another area, the foam pad 200 is inflated by the thermal expansion property and deteriorated to deteriorate the shape of the cover 620 of the electric cable 620. As a result, So that the space can be airtightly sealed, and thus the toxic gas and deterioration can be shut off safely.

The heat shielding material 500 may include a heat shield mat 510 wound in a mat shape with flexibility and elasticity, and a heat insulating material 510 formed of a ceramic wool, a mineral wool, a glass wool, a polyester wool, And a heat shield cover 520 composed of a plurality of units.

Thus, even if a fire occurs in another partitioned area, the heat is transferred to the other area through the electric cable 600 having a high thermal conductivity, thereby preventing the surrounding flammable material from being ignited by the heat.

Hereinafter, an installation state of an electric cable fire protection system having a composite deterioration blocking structure by a fireproof foam pad and a heat shielding material according to an embodiment of the present invention will be described with reference to the accompanying drawings.

4A is a state diagram showing a state in which a foam pad is separated for installation in an electric cable installed in an electric cable fire protection system having a composite deterioration blocking structure by a fireproof foam pad and a heat shielding material according to an embodiment of the present invention .

Referring to FIG. 4A, an electric cable fireproof system having a composite deterioration shielding structure by a fireproof foam pad and a heat shielding material manufactured in various finished product forms is installed at an installation site, and an electric cable 600 are sandwiched between the frame 100 and the foam pad 200.

At this time, the frame 100 fitted to one side of the electric cable 600 and the foam pad 200 provided on the other side of the foam pad 200 are separated from each other and the electric cable 600 So that it can be easily inserted into the side surface.

FIG. 4B is a state view showing a state in which an electric cable fire fighting system having a composite deterioration blocking structure is installed on an electric cable side by a fireproof foam pad and a heat shielding material according to an embodiment of the present invention.

4B, the other foam pad 200 fitted to the side of the electric cable 600 is inserted between the electric cable 600 and the inside of the frame 100.

Accordingly, both sides of the electric cable 600 arranged in a row can be installed in a form in which the foam pad 200 is wrapped.

Thereafter, the space between the electric cable 600 and the foam pad 200 is filled with the sealant 300 so that no space is left between the electric cable 600 and the foam pad 200, and the space between the electric cable 600 and the foam pad 200 200 are prevented from flowing to form an airtight deterioration blocking structure.

FIG. 4c is a state view showing a state in which an electric cable fire fighting system having a composite deterioration blocking structure is installed on an electric cable side by a fireproof foam pad and a heat shielding material according to an embodiment of the present invention.

4C, when the sealant 300 is fully filled, the frame 100 is inserted into the through hole H of the ground to fill the foam pad 200 into the wall W to complete the installation And then the construction is completed by winding the heat shield 500 on the outside of the electric cable 600 exposed upward.

By the installation process described above, it is possible to easily install the electric cable fire fighting system having the deterioration blocking structure at the construction site, thereby shortening the construction period.

5 is a state view showing a state in which a cover for covering a foam pad is applied to an electric cable fire protection system having a composite deterioration blocking structure by a fireproof foam pad and a heat shielding material according to an embodiment of the present invention.

Referring to FIG. 5, the foam pad cover 400 is coupled to the outside of the foam pad 200 by bolting while the foam pad 200 is positioned on both sides of the electric cable 600.

Thus, the foam pad 200 is compressed and held in the form of airtightly wrapping the electric cable 600 on both sides of the electric cable 600.

When all the construction from the foam pad 200 to the sealant 300 and the cover 400 is completed as described above, the foam is fixed to the through hole H of the electric cable 600 between the walls or between the floor, The construction of the electric cable fire fighting system having the composite deterioration blocking structure is completed.

As the heat shield 500 is wound around the wall of the electric cable 600 projecting outwardly between the wall and the floor, heat transmitted through the conductor 610 having a high thermal conductivity at the time of occurrence of a fire is transmitted to the electric cable 600 in another area. So that it can be blocked from being transmitted to the periphery.

Thus, even if the flammable substance is disposed around the electric cable 600, it is possible to effectively prevent the occurrence of fire due to heat conduction.

6 is a state view showing a state where a fixing ring is applied to an electric cable fire-fighting system having a composite deterioration blocking structure by a fireproof foam pad and a heat shielding material according to an embodiment of the present invention.

Referring to FIG. 6, the fixing bracket 110 provided on the frame 100 is further provided with a fixing ring 111 which can easily fix the electric cable 600.

The fixing ring 111 is provided in a manner to surround the outer circumference of the electric cable 600 in a direction in which the electric cable 600 of the fixing bracket 110 is positioned.

The fixing bracket 110 is fixed to the fixing bracket 110 by welding or bolt tightening or the like so that the portion where the electric cable 600 is inserted is opened for a predetermined interval to fix the electric cable 600 .

At this time, the open space is formed outwardly in a direction in which the electric cable 600 is inserted, and is made of elastic material.

As a result, when the electric cable 600 is fully inserted, the fixing ring 111 is partially opened outward by the elasticity of the electric cable 600, and then the electric cable 600 is returned to its original shape to wrap the electric cable 600 So that it can be fixedly supported.

7 is a state view showing a state in which a cover protrusion is applied to a cover and a frame of an electric cable fire fighting system having a composite deterioration blocking structure by a fireproof foam pad and a heat shielding material according to an embodiment of the present invention.

Referring to FIG. 7, the cover 400 and the frame 100 are further provided with blocking protrusions 120 (410) extending in the same direction as the boundary direction of the divided sections and arranged in parallel.

The blocking protrusions 120 and 410 are protruded from the foam pad 200 and the seal 300 to the frame 100 and the cover 300. The blocking protrusions 120 and 410 protrude inwardly and are sharp and wedge- Even if a minute space is generated between the first and second electrodes 400, 400,

Therefore, even if a minute space is generated between the foam pad 200 and the sealant 300, it is effectively blocked by the blocking protrusion 120 (410), thereby preventing leakage of the toxic gas from the fire generating area to another area .

FIG. 8 is a state view illustrating a state in which a foam pad cover and a fixing member are applied to an electric cable fire fighting system having a composite deterioration blocking structure by a fireproof foam pad and a heat shielding material according to an embodiment of the present invention.

Referring to FIG. 8, a plurality of folded foam pads 200 are formed on the outer side of the electric cable 600, upper and lower portions of the sealant 300 filled in the space between the electric cable 600 and the foam pad 200, And the foam pad cover 700 is further coupled to the foam pad cover 700.

A plurality of coupling grooves 710 and a cable fixing groove 720 are formed on one side of the foam pad cover 700 to be coupled to the electric cable 600 to match the number of the electric cables 600, And the cable fixing groove 720 is engaged while surrounding the outer circumference of the electric cable 600. [

Thereafter, the remaining space of the coupling groove 710 and the cable fixing groove 720 is coated with a sealant so that there is no empty space.

Further, a foam pad 200 having a thin thickness is further provided on the outer side of the frame 100, which is coupled with the wall W of the frame 100.

The foam pad 200 in the form of a tape is attached to the frame 100 in a space between the wall body W and the frame 100 when the frame 100 is inserted into the wall body W, And the frame 100 can be maintained.

This makes it possible to more effectively prevent the toxic gas or deterioration from spreading in the event of a fire in the other zone.

The fixing member 130 protrudes from both sides of the wall W while having the same width as the thickness of the wall body W on both sides of the frame 100 where the frame 100 is inserted.

The fixing piece 130 is formed in such a manner that the frame 100 is supported on both sides of the wall W as the fixing piece 130 is bent so as to protrude outward from a part of the frame 100 which is engaged with the wall W.

At this time, the fixing piece 130 is bent inward due to the elasticity when it is fitted in the through hole H formed in the wall of the wall of the frame 100 made of a metal material. After passing through the through hole H, It is possible to return to the original position and to support the frame 100 on both sides of the wall W.

Therefore, the frame 100 can be easily installed by pushing the frame 100 through the through hole H without using a separate bracket or fixing means.

FIG. 9 is a state view showing a state in which a foam pad of an electric cable fire fighting system having a composite deterioration blocking structure by a fireproof foam pad and a heat shielding material according to another embodiment of the present invention is applied as a vertical laminated structure.

Referring to FIG. 9, the foam pad 200 may be laminated and bonded to the wall in a horizontal direction.

 At one side of the foam pad 200 that is coupled with the electric cable 600, a coupling groove 210 into which the electric cable 600 is inserted and a cable installation groove 220 Is formed.

The foam pad 200 having the coupling groove 210 and the cable fixing groove 220 formed thereon is inserted into the frame 100 from the inside of the frame 100 so as to surround the electric cable 600, So that the foam pad 200 can be completely installed.

At this time, a film-like heat shield film 800 is further provided on the upper and lower portions of the laminated bonded foam pads 200 and the laminated bonded foam pads 200.

The remaining space of the coupling groove 210 and the cable fixing groove 220 can increase the blocking effect as the sealant 300 is filled.

This makes it possible to more effectively block toxic gases and deterioration in the event of a fire in another zone.

Hereinafter, the test result of the present invention constituted as described above will be described in detail with reference to a test report.

The results of the test with only the foam pad and the sealant without using the heat shielding material will be described with reference to the graph.

Referring to the graph, the temperature rapidly increases for a certain period of time after the start of heating. However, when the temperature reaches a certain temperature, the temperature rise width sharply decreases and it can be confirmed that the temperature is not heated above the reference value.

The test result will be described with reference to the following table.

As can be seen from the above test results, it can be confirmed that the heat resistance does not exceed 180 ° C, which is the maximum rising temperature of the non-heated surface.

In addition, flame generation and face pad ignition do not occur, and it is confirmed that flame generation and flame generation which do not ignite for 10 seconds or longer are suitable for the performance standard based on that the flame is not ignited.

Next, the results of the test using the heat shielding material will be described with reference to the graphs.

As can be seen from the above table, when the pad is applied to the surface of the test piece, it is not likely to be ignited when the pad is contacted for 30 seconds near the hole or flame on the surface of the test piece. The temperature rise of all the thermocouples including the moving thermocouple during the heating will not rise above the initial temperature by more than 180K.

Test results are described with reference to the following graphs.

Referring to the graph, the temperature rapidly increases during the initial period of time. However, after reaching a certain temperature, the temperature rise width is remarkably reduced and a stable heat shielding effect is exhibited.

The maximum rise temperature measurement result will be described with reference to the table below.

Referring to the above table, it can be seen that the rising temperature of the back side of the test standard does not exceed the predetermined standard that the measured temperature of all the thermocouples including the moving thermocouple during heating will not rise above 180 K than the initial temperature.

The results of discrimination are explained with reference to the table below.

Referring to the above table, no hole or flame was generated on the surface of the test piece when the pad was applied, and no flame was observed on the back surface of the test piece.

According to the present invention, a foam pad having an expanding property is filled in a space to which an electric cable is connected between walls or between layers, and a sealant having an expanding property is disposed in a space between the foam pad and the electric cable. It is possible to effectively prevent deterioration from spreading to other areas when a fire is generated, and also to provide an electrical cable tray having the deterioration blocking effect as a finished product, thereby shortening the construction time.

100: frame 110: fixed bracket
111: Retaining ring 120:
130: Fixing piece 200: Foam pad
210: coupling groove 220: cable mounting groove
300: sealant 400: cover
410: blocking protrusion 500:
510: Heating mat 520: Heat shield cover
600: electric cable 610: conductor
620: cloth 700: foam pad cover
710: Coupling groove 720: Cable mounting groove
800: Heat shield film H: Through hole
W: Wall

Claims (5)

A frame 100;
A foam pad 200 fitted to the outside of the electric cable 600 in a state where the electric cable 600 is installed inside the frame 100 and having thermal expansion characteristics;
A sealant 300 having a thermal expansion characteristic to fill a space between the foam pad 200 and the electric cable 600 while filling a space between the foam pad 200 and the electric cable 600; And
And a heat shield 500 wound around the electric cable 600 to prevent heat transmitted through the electric cable 600 from coming into contact with the outside to prevent ignition of the flammable material around the electric cable 600,
The cover (400) for preventing the foam pad (200) from being exposed to the outside is further provided on the outer side of the foam pad (200)
The cover 400 and the frame 100 are further provided with blocking protrusions 120 and 410 which extend in the same direction as the boundary direction of the divided sections, The end portion protruding inward is protruded and formed in a wedge shape widening toward the outside so that a minute space is formed between the foam pad 200 and the sealant 300 and the frame 100 and the cover 400. [ So that the smoke can not flow straight and the smoke can be broken by the blocking protrusions 120 and 410,
A thin foam tape pad 200 is formed on the outer side of the frame 100 coupled to the wall W so that the wall W and the frame 100 can be separated from each other when the frame 100 is inserted into the wall W. [ So that the airtightness between the wall W and the frame 100 can be maintained,
The frame 100 is further provided at both sides of the frame W with a width equal to the thickness of the frame W so as to protrude from both sides of the frame W, And it is possible to support the frame 100 on both sides of the wall W as it is returned to its original shape when it passes through the through hole H after being bent inward by elasticity when it is fitted in the through hole H And an electric cable fire protection system having a composite deterioration shielding structure by a heat shielding material.
The method according to claim 1,
And a fixing bracket 110 for fixing the electric cable 600 to one side of the frame 100 is further provided. The fireproof foam pad and the electric cable fireproof system .
The method of claim 2,
The heat shielding material 500 includes a heat shield mat 510 made of a soft heat shield material and a heat shield cover 520 covering the outer side of the heat shield mat 510 and made of a heat shield material (EN) An electrical cable fire protection system having a composite deterioration shield structure by a fire pad and a heat shield.
delete The method of claim 2,
The fixing bracket (110) is further provided with a fixing ring (111) capable of fixing the electric cable (600) by interposing the electric cable (600). The electric cable fire protection system .

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