KR102057521B1 - Refractory Fillers and Sleeve Assembly Containing the same - Google Patents

Abstract

The present invention relates to a refractory filler and a sleeve assembly having the same, which can easily and exactly install a refractory filler even when a pipe is not exactly positioned in the center so as to form homo-centricity with a sleeve installed so as to penetrate the wall. To this end, according to the present invention, the refractory filler includes: a first cylindrical filler having an inserting hole which is eccentric to one side of a predetermined distance therein to have a predetermined diameter while having a diameter corresponding to a diameter of an inner side surface of a sleeve; and a second filler having an installation hole which is eccentric to one side to have a diameter corresponding to an outer side surface of the pipe while having a diameter corresponding to the inserting hole, wherein the first and second fillers are mutually assembled to be relatively rotated, thereby allowing a position of the installation hole to be adjusted.

Description

Refractory Fillers and Sleeve Assembly Containing the same}

The present invention relates to a refractory filler and a sleeve assembly including the same, and more particularly, to a refractory filler filled between a sleeve and a pipe so that a fire does not spread along a plastic pipe installed through a wall of a building, and a sleeve including the same. To an assembly.

Generally, plastic pipes (hereinafter referred to as 'pipes') are installed in a building through a wall. In this case, through-holes (sleeves) and pipes of a wall are prevented so that a fire generated in one space is transmitted through the pipe and not spread to another space. The refractory filler is filled in the space between.

The refractory filler is made of a refractory material and does not burn or melt. Instead, when the ambient temperature rises above a predetermined temperature, the volume of the refractory filler expands by about 3 to 5 times, whereby the refractory filler is heated by a flame in one space. As the volume expands, it blocks the through-holes (sleeves), preventing flame transfer to other spaces.

As a conventional technique of installing a refractory filler in a space between a sleeve and a pipe as described above, a method (hereinafter referred to as a 'patent document') of constructing a refractory filler structure in a plastic pipe for a penetrating portion of a building of Patent Publication No. 1326388 is disclosed. It is.

In the construction method of the refractory filling material disclosed in the patent document, the plastic pipe is inserted into the penetrating portion between the walls of the building, and then a granular fixture, which is any one of polyvinyl chloride, rubber and rubber foam insulation, is installed on the bottom surface of the wall. Doing; After installing the granular fixture, in order to fill the space at the bottom of the bottom surface of the wall, attach the expansion material, which is a thermal expansion tape or thermal expansion sheet having an expansion property of up to 10 to 30 times at 350 ° C. at a thickness of 1 to 10 mm to the refractory filler. Or mixing the expandable material; Filling the space at the bottom of the bottom surface of the wall by making an integral refractory filler having a structure completely wrapped outside using an effervescent aluminum foil or plastic film in the state of attaching the expansion material to the refractory filler or mixed intumescent materials. step; Caulking between the plastic pipe, the refractory filler, the floor and the wall with a caulking material as a sealant so that the integral refractory filler is not separated.

In general, however, the sleeve pre-installed in the wall to penetrate the wall and the pipes subsequently installed to penetrate the sleeve are difficult to be precisely concentric with each other, so that the space between the sleeve and the pipe to surround the outer surface of the pipe is difficult. There is a problem in that it is difficult to insert the refractory filler uniformly.

In the actual field, construction is performed by cutting pieces of fireproof filler appropriately and filling pieces in the empty space between the sleeve and the pipe. As a result, it takes a lot of time to install the fireproof filler and at the same time becomes a factor of subconstruction work. In addition, there is a problem in that the ability to block the flame has a problem of damage to many lives and property when a fire occurs.

Therefore, even if the pipe is not installed in the center to be concentric with the sleeve, the development of a refractory filler and a sleeve assembly including the same can be easily and accurately installed in the space between the sleeve and the pipe.

KR 10-1326388 B1 (October 31, 2013) KR 10-1071322 B1 (2011. 09. 30.) KR 10-2015-0123520 A (2015. 11. 04.) KR 10-2017-0140553 A (Dec. 21, 2017)

The present invention has been made to solve the problems of the conventional refractory filler as described above, the problem to be solved by the present invention is that even if the pipe is not exactly positioned in the center to be concentric with the sleeve is installed to penetrate the wall fireproof filler It is to provide a refractory filler and a sleeve assembly including the same that can be easily and accurately installed.

Fire-resistant filler according to the present invention for solving the above problems, the first filler of the cylindrical shape having a diameter corresponding to the inner diameter of the sleeve, the inner side is eccentric to a predetermined distance one side to form an insertion hole having a predetermined diameter ; And a second filler having an diameter corresponding to the insertion hole and eccentric to one side to form an installation hole having a diameter corresponding to an outer surface of the pipe, wherein the first and second fillers are assembled to each other to rotate relatively. It is characterized in that the configuration of the installation hole is adjusted by being.

And the present invention is the first contact point selected on the outer surface of the pipe with the insertion hole is located in the center of the first filler in the concentric circle, the center point of the first filler and the first filler A diameter of a length corresponding to an imaginary straight line that sequentially connects the second contact point selected on the outer surface of the center is formed around the center point of the imaginary straight line, and the installation hole is formed of the second filler It is another feature that the outer surface and the inner surface of the installation hole is formed in contact with each other.

On the other hand, the sleeve assembly comprising a refractory filler in accordance with the present invention, a sleeve having a predetermined diameter; A cylindrical filler having a diameter corresponding to the inner diameter of the sleeve and having an insertion hole having a predetermined diameter eccentrically to one side within a predetermined distance; A second filler having an diameter corresponding to the insertion hole and being eccentric to one side and having an installation hole having a diameter corresponding to an outer surface of the pipe; A cover installed to cover the upper and lower surfaces of the sleeve; And a fixing band having one end connected to the cover and the other end fixed to the structural rebar, wherein the first and second fillers are assembled to each other and rotated relative to each other to adjust the position of the installation hole. It is done.

And the present invention has a base plate shape of the cover plate is formed with a protruding portion of a predetermined diameter on one side; It is formed to have a predetermined width along the outer surface of the base plate and includes an inclined surface portion which is formed to be inclined at a predetermined angle in the opposite direction in which the insertion portion is formed, wherein the base plate is formed with a plurality of fitting holes radially It is another feature.

In another aspect, the present invention is characterized in that the fixing band is further provided with a fixture that is fitted to the free end of the fixing band while being installed to surround the outer surface of the structural reinforcing bar.

According to the present invention, the second filler is inserted into the sleeve in the state where the second filler is inserted into the insertion hole of the first filler, and the first and second fillers are appropriately rotated in the sleeve to match the position of the pipe. 2 The installation hole of the filling body is adjusted so that it can be installed easily and accurately even if the pipe is not exactly positioned at the center of the sleeve.

In addition, since the refractory filler is installed in close contact between the sleeve and the pipe, the fire blocking performance may be improved due to the volume expansion of the refractory filler in case of fire.

1 is a perspective view showing an example of a sleeve assembly including a refractory filler in accordance with the present invention.
2 is an isolated perspective view of FIG. 1.
3 is a cross-sectional view showing an example of a sleeve assembly including a refractory filler in accordance with the present invention.
4 (a, b) is a view showing an example of the first filler according to the present invention.
5 (a, b) is a view showing an example of a second filler according to the present invention.
6 is a view showing an example in which the first and second fillers are inserted into the sleeve according to the present invention.
Figure 7 (a, b, c) is a view showing an example in which the first, the second filler is disposed according to the position between the sleeve and the pipe according to the present invention.
8 is a perspective view showing an example of a fixing band according to the present invention.
9 and 10 are views showing an example in which a sleeve assembly including a refractory filler in accordance with the present invention is used.

Hereinafter will be described in detail according to the accompanying drawings showing a preferred embodiment of the present invention.

The present invention is to provide a refractory filler and a sleeve assembly including the same, which can easily and accurately install the refractory filler even if the pipe is not located at the center so as to be concentric with the sleeve installed to penetrate the wall. And a sleeve 10, a first filler 20, a second filler 30, a cover 40, and a fixing band 50 as shown in FIG. 2.

The sleeve 10 is configured in advance so that the pipe P can be penetrated when concrete is poured to form a wall to form a through hole of a predetermined size in the wall.

The sleeve 10 is made of a metal or plastic material and is formed of a cylindrical tube having a predetermined diameter as shown in FIGS. 2 and 3, and the sleeve 10 has a diameter of the pipe P to be installed. A through hole 11 having a diameter of a predetermined standard is formed.

The first filler 20 is made of a refractory material having a heat-expanding property in which the volume expands at a predetermined magnification when heated, and a fire in one space is diffused into another space through the through hole 11 of the sleeve 10. It is a configuration to block the thing.

The first filler 20 is a cylindrical body having a diameter D1 corresponding to the through hole 11 of the sleeve 10 and having a crescent cross section as shown in FIGS. 4A and 4B. Is done.

In more detail, the first filler 20 is formed with an insertion hole 21 having a predetermined diameter into which the second filler 30 to be described later is inserted, and the insertion hole 21 is illustrated in FIG. 4 (b). As shown in FIG. 2), the first pipe 20 is selected on the outer surface of the virtual pipe P1 in a state in which the virtual pipe P1 having a predetermined diameter DP is positioned to form a concentric circle. Corresponds to an imaginary straight line L that sequentially connects the first contact point A, the center point CP of the first charging body 20, and the second contact point B selected on the outer surface of the first charging body 20. It has a diameter (D2) of the length, is formed around the center point (LCP) of the virtual straight line (L), thereby forming a crescent shape by cutting one side of the cross section as a whole as a whole.

At this time, the diameter DP of the virtual pipe P1 is formed to have the same diameter as the pipe P installed to penetrate the inside of the sleeve 10.

As shown in FIG. 6, the first filler 20 is inserted into the through hole 11 of the sleeve 10 by the configuration of the first filler 20 as described above. The outer surface of the first filler 20 is in close contact with the inner surface, and at the same time, the second filler 30 to be described later is in close contact with the insertion hole 21.

The second filler 30 has a configuration in which an installation hole 31 having a predetermined diameter through which the pipe P penetrates is formed while being inserted into the insertion hole 21 of the first filler 20.

As shown in FIG. 5 (a, b), the second filler 30 is formed of a cylindrical body having one side cut in a predetermined width and having a crescent shape, and at this time, an outer diameter of the second filler 30 (D3) is formed to the same size as the diameter (D2) of the insertion hole 21 of the first filler (20).

In addition, the installation hole 31 of the second filler 30 has a diameter D4 having the same size as the diameter DP of the virtual pipe P1, and the outer surface of the second filler 30 and the above. The inner surfaces of the installation hole 31 are formed at a position eccentrically away from the center of the second charging body 30 such that the inner surfaces of the mounting holes 31 are in contact with each other, whereby the cross section is formed into a crescent like the first charging body 20. .

As shown in FIG. 6, the first filler 20 is inserted into the through hole 11 of the sleeve 10 by the configuration of the second filler 30 as described above. The second charging body 30 is sequentially inserted into the insertion hole 21 of the insertion hole 21.

In this case, the pipes P may be installed in different directions in accordance with the positions in which the pipes P are installed to penetrate the sleeve 10. For example, as shown in FIG. Likewise, when the pipe P is installed to form a concentric circle in the center of the sleeve 10, the crescent shapes of the first and second filling bodies 20 and 30 are rotated to be opposite to each other, so that the installation hole 31 is positioned at the center side. To be adjusted.

In addition, as shown in FIG. 7B, when the pipe P is installed so as to be in contact with the through-hole 11 of the sleeve 10, the crescent moon of the first and second fillers 20 and 30 is provided. The shapes are rotated to be in the same position with each other so that the installation hole 31 is in contact with the inner surface of the through hole 11.

In addition, as shown in FIG. 7C, when the pipe P is installed so as not to contact the inner surface of the through hole 11 without being positioned at the center of the sleeve 10, the first filling body ( 20 is properly rotated about the through hole 11, the second filler 30 is properly rotated around the insertion hole 21, the installation hole 31 of the second filler 30 is pipe ( It is adjusted to correspond to the position of P).

As a result, even if the pipe P penetrating the sleeve 10 is not installed at the center to form a concentric circle, the assembly of the first and second filler bodies 20 and 30 can be easily made with appropriate rotation in correspondence to various positions. As a result, the refractory filler is installed between the sleeve 10 and the pipe P without a gap.

The cover 40 is assembled to cover the upper and lower surfaces of the sleeve 10 to block concrete from flowing into the sleeve 10.

1 and 3, the cover 40 has a disc shape and has a base plate 41 having a predetermined diameter of an insertion portion 41A protruding from one side thereof, and the base plate 41 of the base plate 41. It includes an inclined surface portion 42 is formed to have a predetermined width along the outer surface, the outer end is inclined by a predetermined angle in the opposite direction in which the insertion portion 41A is formed.

A plurality of fitting holes 41B are radially penetrated through the base plate 41, whereby one end of the fixing band 50 to be described later is fitted.

By inserting the insertion portion 41A into the through-hole 11 of the sleeve 10 in a state where the insertion portion 41A of the cover 40 faces the upper and lower sides of the sleeve 10 by the above-described configuration. The cover 40 is fixed to the sleeve 10 while the inserting portion 41A is in close contact with the inner surface of the through hole 11, whereby concrete poured in the process of constructing the wall is a through hole of the sleeve 10. Inflow to (11) is prevented.

The fixing band 50 is configured to fix one end to the fitting hole 41B of the cover 40 to fix the sleeve 10 and the cover 40 to the structural rebar S.

The fixing band 50 is made of a flexible material having a predetermined length and freely deformable as shown in FIG. 8, and one end of the fixing band 50 is forcibly inserted into the fitting hole 41B and then subjected to elastic restoring force. There is provided a fitting protrusion 50B fixed by the hook.

And along the upper surface of the fixing band 50, the other end of the sawtooth engaging protrusion (50A) is formed.

In addition, a "U" shaped fastener 51 having a predetermined diameter of the reinforcing bar seating portion 51A is formed to surround the structural reinforcement S, and both ends of the fastener 51 have a fixing band 50. The insertion hole (not shown) of a predetermined size is formed so that the other end is inserted.

At this time, the inside of the fitting hole is provided with an elastic plate (not shown) that is in contact with the engaging projection (50A) so as not to fall easily in the direction opposite to the direction in which the other end of the fixing band 50 is inserted.

Hereinafter will be described an example in which a sleeve assembly including a refractory filler according to the present invention is installed.

As shown in FIG. 9, the sleeve 10 having the cover 40 and the fixing band 50 assembled therebetween is disposed between the structural bars S which are pre-arranged to form the wall, and then the structural bars S are placed. The free end (the other end) of the fixing band 50 is assembled to the fastener 51 installed to surround the sleeve 10 to fix the sleeve 10 between the structural reinforcing bars S.

10, after the concrete is poured to form a wall having a predetermined thickness, the cover 40 assembled to the sleeve 10 is removed. At this time, the fitting protrusion 50B of the fixing band 50 is separated from the fitting hole 41B of the cover 40 and the cover 40 is separated.

Thereafter, the pipe P is installed to penetrate the sleeve 10, and both ends of the second filler 30 are properly opened to be inserted to surround the outer surface of the pipe P.

The first and second fillers 20 may be inserted to cover the outer surface of the second filler 30 by appropriately opening the cut ends of the first filler 20, and to cover the outer surface of the pipe P. After the 20 and 30 are assembled, the first and second fillers 20 and 30 are properly rotated so that the through hole 11 of the sleeve 10 and the outer surface of the first filler 20 are concentric. The first and second fillers 20 and 30 in the through-hole 11 of the sleeve 10 along the guide surface G of the wall formed by the inclined surface portion 42 of the cover 40. Inserting the completes the installation of the refractory filler.

Meanwhile, the first and second fillers 20 and 30 according to the present invention are manufactured by injection molding into sets of pipes according to the standard of the pipe, wherein the first and second fillers 20 and 30 are planar as necessary. It can be injected into the unfolded plate form and then changed to be appropriately wound up and used.

As described above, the refractory filler according to the present invention and the sleeve assembly including the same are inserted into the sleeve while the second filler is inserted into the insertion hole of the first filler, and the first and second fillers are inserted into the sleeve. Since the installation hole of the second filler is adjusted to be positioned in accordance with the position of the pipe by appropriately rotating in the fireproof filler is easily installed even if the pipe is not accurately positioned to form a concentric circle in the center of the sleeve.

In the above description, for the convenience of description, preferred embodiments have been described with reference to the drawings and the components shown in the drawings, but with the reference numerals and names, which is one embodiment according to the present invention. It should not be construed that the scope of the right should be construed, and that the simple substitution of the structure having the same function as the change to the various shapes predictable from the description of the invention is within the range that can be changed by those skilled in the art for easy implementation. It will be very self-explanatory.

10: sleeve 11: through hole
20: first filler 21: insertion hole
30: 2nd charging body 31: Installation hole
40: cover 41: base plate
41A: Insertion 41B: Fitting Hole
42: inclined surface portion 50: fixed band
50A: Engagement 50B: Fitting
51: fixture 51A: rebar seat
A: first contact point B: second contact point
CP: center point D1: outer surface diameter of the first filler
D2: diameter of insertion hole of first filler D3: diameter of outer surface of second filler
D4: Installation hole diameter of the 2nd filling body DP: Diameter of the outer side surface of an imaginary pipe
G: Guide surface L: Virtual straight line
LCP: center point of an imaginary straight line P, P1: pipe
S: structural rebar

Claims (5)

In the refractory filler filled between the sleeve is installed through the wall of the building and the pipe (P) installed through the sleeve,
The fireproof filler,
A cylindrical first filler body 20 having a diameter corresponding to the inner diameter of the sleeve and eccentric to one side of the sleeve and having an insertion hole 21 having a predetermined diameter; And
A second filler body 30 having an diameter corresponding to the insertion hole 21 and eccentric to one side and having an installation hole 31 having a diameter corresponding to an outer surface of the pipe P;
Including,
The first and second fillers 20 and 30 are assembled to be rotated relative to each other so that the position of the installation hole 31 is adjusted.
The insertion hole 21,
The first contact point A and the first filler selected on the outer surface of the virtual pipe P1 in a state where the virtual pipe P1 is positioned to form a concentric circle inside the first filler 20. It has a diameter D2 of a length corresponding to an imaginary straight line L that sequentially connects the center point CP of the 20 and the second contact point B selected on the outer surface of the first charging body 20. While being formed around the center point LCP of the imaginary straight line L, the overall cross-sectional shape is formed in a crescent shape by cutting one side to a predetermined width.
The installation hole 31,
Fireproof, characterized in that the outer surface of the second filler 30 and the inner surface of the installation hole 31 is formed in contact with each other, the overall cross-sectional shape is formed in a crescent shape with one side cut in a predetermined width. filling.
delete In a sleeve assembly comprising a refractory filler,
The sleeve assembly,
A sleeve 10 having a predetermined diameter;
A cylindrical first filler body 20 having a diameter corresponding to the inner diameter of the sleeve 10 and having an insertion hole 21 having a predetermined diameter eccentrically to one side of a predetermined distance therein;
A second filler body 30 having an diameter corresponding to the insertion hole 21 and eccentric to one side and having an installation hole 31 having a diameter corresponding to an outer surface of the pipe P;
A cover 40 installed to cover the upper and lower surfaces of the sleeve 10; And
A fixing band 50 having one end connected to the cover 40 and the other end installed to be fixed to the structural rebar S;
Including,
The first and second fillers 20 and 30 are assembled to be rotated relative to each other so that the position of the installation hole 31 is adjusted.
The insertion hole 21,
The first contact point A and the first filler selected on the outer surface of the virtual pipe P1 in a state where the virtual pipe P1 is positioned to form a concentric circle inside the first filler 20. It has a diameter D2 of a length corresponding to an imaginary straight line L that sequentially connects the center point CP of the 20 and the second contact point B selected on the outer surface of the first charging body 20. While being formed around the center point LCP of the imaginary straight line L, the overall cross-sectional shape is formed in a crescent shape by cutting one side to a predetermined width.
The installation hole 31,
Fireproof, characterized in that the outer surface of the second filler 30 and the inner surface of the installation hole 31 is formed in contact with each other, the overall cross-sectional shape is formed in a crescent shape with one side cut in a predetermined width. A sleeve assembly comprising a filler.
The method according to claim 3,
The cover 40,
A base plate 41 having a disc shape and having an insertion portion 41A having a predetermined diameter formed on one side thereof;
An inclined surface portion 42 which is formed to have a predetermined width along the outer surface of the base plate 41 and has an outer end inclined at a predetermined angle in an opposite direction in which the insertion portion 41A is formed;
Including,
On the base plate 41,
Sleeve assembly comprising a refractory filler characterized in that a plurality of fitting holes (41B) formed radially.
The method according to claim 4,
In the fixed band 50,
The sleeve assembly including a refractory filler, characterized in that it is provided to surround the outer surface of the structural reinforcement (S), the fastener (51) is fitted with the free end of the fixing band (50).

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