KR102562324B1 - Socket for fire prevention sleeve and through sleeve comprising same - Google Patents

Abstract

A socket for a fire protection sleeve and a fire protection sleeve including the socket are disclosed.
Among these, one embodiment of the socket is coupled to the lower portion of the fire protection sleeve, the coupling portion located on the upper side of the heat insulating material; A basic socket made of; a tubular insulating material insertion part provided at a lower part of the coupling part, having a smaller diameter than the coupling part, and inserted into a hole of the insulating material; and a connecting portion inserted into the hole of the insulator while being connected to the insulator inserting portion. a tubular extension provided at a lower portion of the connecting portion and having a smaller diameter than the connecting portion and inserted into the hole of the insulating material; An extension socket made of a coupling plate connected to the inner circumferential surface of the extension part by a weak part and coupled to the formwork by a coupler, and a step that fills the step with the connection part while being fitted to the outer circumferential surface of the extension part. Characterized in that it further comprises a filling ring.

Description

Socket for fire prevention sleeve and fire prevention sleeve including same

The present invention relates to a socket for a fire protection sleeve and a fire protection sleeve including the same.

More specifically, it relates to a socket for a fire protection sleeve for positioning a fire resistance filler above an insulator and a fire protection sleeve including the same.

See Figure 1.

A typical fire protection sleeve (10) laminates a heat insulating material (2) on a formwork (1), pierces a hole (2a) in the heat insulating material (2), inserts the fire protection sleeve through this hole, and combines with the formwork, and finally, the sleeve is placed on the heat insulating material. Concrete (not shown) is poured as high as the height.

In this case, since the fire protection sleeve 10 has a protruding coupling ear 1a for coupling with the formwork 1 around the lower end, considering this, the hole 2a of the heat insulating material 2 is inserted into the fire protection sleeve 10 The hole is larger than the outer diameter of the

Therefore, a gap is generated between the outer diameter (d) of the fire protection sleeve 10 and the inner diameter (D) of the hole (2a) (d < D). This gap is the cause of reducing the insulation effect, so it is filled with urethane foam before concrete is poured.

However, in the above case, since the urethane foam needs to be prepared and the prepared urethane foam needs to be covered, problems of cost increase and air delay occur.

A bigger problem is that of safety. That is, when the fire resistant filler is installed inside the lower side of the fire protection sleeve 10, the fire resistant filler expands outwardly of the fire protection sleeve 10 while the heat insulating material 2 melts due to fire heat during a fire.

Therefore, since the inner passage of the fire protection sleeve 10 cannot be blocked, smoke or flame cannot be shielded, and thus the function of the fire resistant filler cannot be exhibited at all. Because of this, smoke or flame may spread to other floors, so there is a weakness in terms of safety.

Registered Patent Publication No. 10-1500262 Registered Patent Publication No. 10-1656623

The present invention is to solve the above conventional problems, one object of the present invention is to provide a socket for a fireproof sleeve that lifts the fireproof filler above the heat insulating material.

Another object of the present invention is to provide a socket for a fireproof sleeve whose height can be varied according to the thickness of a heat insulating material.

Another object of the present invention is to provide a fire protection sleeve including a socket for the fire protection sleeve.

The technical problem to be achieved by the present invention is not limited to the above-mentioned technical problem, and other technical problems not mentioned can be clearly understood by those skilled in the art from the description below. There will be.

One aspect of the present invention for achieving the above object is a socket for a fire protection sleeve coupled to the lower portion of a fire protection sleeve having a fire resistant filler embedded therein, coupled to the lower portion of the fire protection sleeve and located above the heat insulating material. wealth; A basic socket made of; a tubular insulating material insertion part provided at a lower part of the coupling part, having a smaller diameter than the coupling part, and inserted into a hole of the insulating material; and a connecting portion inserted into the hole of the insulator while being connected to the insulator inserting portion. a tubular extension provided at a lower portion of the connecting portion and having a smaller diameter than the connecting portion and inserted into the hole of the insulating material; An extension socket made of a coupling plate connected to the inner circumferential surface of the extension part by a weak part and coupled to the formwork by a coupler, and a step that fills the step with the connection part while being fitted to the outer circumferential surface of the extension part. A socket for a fire protection sleeve further comprising a filling ring is provided.
Preferably, a display groove is provided at the lower end of the extension portion, and the display groove may be provided at the same position as the locking jaw provided on the inner circumferential surface of the fire protection sleeve in the circumferential direction.
A second aspect of the present invention is a socket for a fire protection sleeve coupled to the lower portion of a fire protection sleeve having a fire resistant filling material and a rubber ring embedded therein, coupled to the lower portion of the fire protection sleeve, a coupling portion positioned above the heat insulating material; a pressure ring provided to protrude upward from the inner end of the coupling part and press the rubber ring; And a socket for a fire protection sleeve including a; provided at a lower portion of the coupling portion, having a smaller diameter than the coupling portion, and inserting a tubular insulation material inserted into a hole of the insulation material.
Preferably, a coupling plate connected to the inner circumferential surface of the insulator insertion portion by a soft part and coupled to the formwork by a coupling tool may be further included.
Preferably, a display groove is provided at the lower end of the insulator insertion part, and the display groove may be provided at the same position as the locking jaw provided on the inner circumferential surface of the fire protection sleeve in the circumferential direction.
preferably. Further comprising an extension socket connected to the insulating material insertion part, wherein the extension socket includes: a connecting part inserted into a hole of the insulating material while being connected to a lower portion of the insulating material insertion part; And it is provided in the lower portion of the connection portion, has a smaller diameter than the connection portion, and a cylindrical extension portion inserted into the hole of the heat insulating material; may be configured.
Preferably, while connected to the inner circumferential surface of the extension part by the soft part, the coupling plate coupled to the formwork by a coupler; may be further included.
Preferably, a step filling ring for filling a step with the connection part may be further included while being fitted to the outer circumferential surface of the extension part.
Preferably, a display groove is provided at the lower end of the extension portion, and the display groove may be provided at the same position as the locking jaw provided on the inner circumferential surface of the fire protection sleeve in the circumferential direction.
A third aspect of the present invention is a socket for a fire protection sleeve coupled to a lower portion of a fire protection sleeve in which a fire resistant filler is not embedded, coupled to a lower portion of the fire protection sleeve, and an upper coupling portion positioned above the heat insulating material; a heat insulating material insertion part provided under the upper coupling part and inserted into a hole of the heat insulating material; A filler pocket portion provided on an outer circumferential surface of the upper coupling portion; and a fireproof filler inherent in the filler pocket portion, further comprising an extension socket connected to the insulator insertion portion, wherein the extension socket is a connection portion inserted into the hole of the insulator while being connected to a lower portion of the insulator insertion portion. ; And a tubular extension provided at the lower portion of the connection portion, having a smaller diameter than the connection portion, and inserted into the hole of the insulator, filling the step with the connection portion while being fitted to the outer circumferential surface of the extension portion A socket for a fire protection sleeve further comprising a step filling ring is provided.
Preferably, an opening is provided at an upper or lower portion of the filler pocket portion, and the fireproof filler may be recessed through the opening.
Preferably, a coupling plate connected to the inner circumferential surface of the insulator insertion portion by a soft part and coupled to the formwork by a coupling tool may be further included.
Preferably, it may further include a coupling plate connected to the inner circumferential surface of the extension portion by a weak portion and coupled to the formwork by a coupling tool.
Preferably, a display groove is provided at the lower end of the extension portion, and the display groove may be provided at the same position as the locking jaw provided on the inner circumferential surface of the fire protection sleeve in the circumferential direction.
Another aspect of the present invention is provided with a fire protection sleeve including the socket for the above fire protection sleeve.

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In the present invention, when the fireproof filler is embedded in the fireproof sleeve, the fireproof sleeve is raised above the heat insulating material, and when the fireproof filler is not embedded in the fireproof sleeve, the fireproof filler is embedded in the socket itself but positioned on the heat insulating material to prevent fire in case of fire. The function of shielding the inner passage of the sleeve was properly exercised. Accordingly, the reliability of the product can be increased.

According to the present invention, the height of the socket can be adjusted according to the thickness of the insulator.

The effects of the present invention are not limited to the above effects, and should be understood to include all effects that can be inferred from the detailed description of the present invention or the configuration of the invention described in the claims.

1 is an installation state diagram of a conventional fire protection sleeve;
2 is Example 1 of a socket according to the present invention;
Figure 3 is an installation state diagram of Figure 2;
4 is a modified embodiment of Example 1
Figure 5 is an installation state diagram of Figure 4;
6 is a plan view for explaining the positions of the locking jaw and the display groove;
7 is Example 2 of a socket according to the present invention;
8 is an installation state diagram of FIG. 7;
9 is a modified embodiment of Example 2;
Figure 10 is an installation state diagram of Figure 9;
11 is Example 3 of a socket according to the present invention;
12 is a cross-sectional view along line AA of FIG. 11;
13 is an installation state diagram of FIG. 12;
14 is a modified embodiment of Example 3;
15 is an installation state diagram of FIG. 14;
16 is a fourth embodiment of a socket according to the present invention;
17 is an installation state diagram of FIG. 16;
18 is a modified embodiment of Example 4;
19 is an installation state diagram of FIG. 18;
20 is Example 5 of a socket according to the present invention;
21 is an installation state diagram of FIG. 20;
22 is a modified embodiment of Example 5;
23 is an installation state diagram of FIG. 22;
24 is a sixth embodiment of a socket according to the present invention;
25 is an installation state diagram of FIG. 24;
26 is a modified embodiment of Example 6;
27 is an installation state diagram of FIG. 26;

The present invention may be embodied in many different forms and, therefore, is not limited to the embodiments set forth herein. In addition, in order to clearly describe the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are assigned to similar parts throughout the specification.

Throughout the specification, when a part is said to be "connected (connected, contacted, combined)" with another part, this is not only "directly connected", but also "indirectly connected" with another member in between. "Including cases where In addition, when a part "includes" a certain component, it means that it may further include other components without excluding other components unless otherwise stated.

Terms used in this specification are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, terms such as "include" or "have" are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that the presence or addition of numbers, steps, operations, components, parts, or combinations thereof is not precluded.

The socket for a fire protection sleeve according to the present invention is presented in the following embodiment.

[Example 1] See FIGS. 2 to 6

The socket 100 of Example 1 is coupled to the lower portion of the fire protection sleeve 10 in which the fire resistant filler 3 is embedded, and serves to position the fire resistant filler 3 on the heat insulating material 2.

Since the socket 100 supports the fire protection sleeve 10 and is lifted as much as the height of the socket 100, it is eventually positioned on the heat insulating material 2. Therefore, the fireproof filler 3 inherent in the lower inside of the fireproof sleeve 10 is also positioned on the heat insulating material 2.

When concrete is poured from this state, as shown in FIG. 3, since the concrete (C) is located outside the lateral direction of the fireproof filler (3), when the fireproof filler (3) expands in the event of a fire, the concrete Since outward expansion is restricted, the inner passage of the fire protection sleeve 10 can be shielded while the entire amount expands inward.

As such, the above-mentioned socket 100 has the fireproof filling material 3 positioned within the concrete area C, so that the fireproof filling material 3 shields the inner passage of the fire sleeve in case of fire. there is

A detailed configuration of the socket 100 according to the first embodiment will be described below.

As shown in FIG. 2, the socket 100 of Example 1 is coupled to the coupling part 110 coupled to the lower part of the fire protection sleeve 10 while being located on the upper side of the heat insulating material 2, and to the lower side of the coupling part. A tubular insulator insert 120 provided with a smaller diameter than the insulator and fitted into the hole 2a of the insulator, coupled to the mold 1 while being connected to the inner circumferential surface of the insulator insert by the soft part 131 It may include a coupling plate 130 to be.

As shown in FIGS. 2 and 3, the coupling plate 130 is provided with a coupler 132 so that it can be coupled with the mating coupler 1a of the mold 1. Thus, the fire protection sleeve 10 including the socket 100 can be coupled to the formwork 1. Here, one of the coupler 132 and the mating coupler 1a may be composed of a bolt and the other one of a nut, but is not limited thereto.

Since the coupling plate 130 is in a state of being coupled with the formwork 1, when the formwork 1 is removed, the weak portion 131 is broken and the coupling plate 130 is separated. When the coupling plate 130 is separated, the insulating material insertion part 120 is opened, and a connection pipe or a granular drain pipe can be connected to the fire protection sleeve 10 through the opened insulating material insertion part 120.

In addition, the size of the outer diameter (d) of the insulating material insertion part 120 and the hole diameter (D) of the hole (2a) are the same. Therefore, since a gap does not occur between the insulating material insertion part 120 and the hole 2a, an effect of not requiring a gap filling operation is obtained.

In addition, a display groove 121 may be provided at a lower end of the insulator insertion part 120 as shown in FIG. 6 . The display groove 121 may be formed at the same position as the locking jaw 11 provided on the inner circumferential surface of the fire protection sleeve 10 in the circumferential direction. The set positions of the display groove 121 and the locking jaw 11 may be equally applied to other embodiments. Therefore, in each embodiment, detailed drawings thereof will not be shown.

Here, the display groove 121 is for indirectly measuring the position of the locking jaw 11 because it is located in the fire protection sleeve 10 and cannot determine the position of the locking jaw from the outside.

In other words, when a connecting pipe (not shown) or a granular drain pipe (not shown) is inserted from the lower part of the fire protection sleeve 10, when the connecting pipe is configured with a relative engaging portion that is caught by the engaging jaw 11, the relative In order for the locking part to be caught on the locking jaw, the locking jaw must be visible, but as described above, it is located in the fire protection sleeve 10 and is not visible, so the display groove 121 is placed to measure it instead.

On the other hand, although the above description has been made that the coupling plate 130 is provided in the insulating material insertion portion 120, a configuration without a coupling plate may also be applied.

That is, as shown in FIGS. 4 and 5, since the socket 100 cannot be directly coupled to the formwork 1 in a structure without a coupling plate, the fire protection sleeve 10 and the socket 100 are held together by the long bolt 4. will be fixed

The lower end of the long bolt 4 is fastened to the relative coupler 1a of the formwork 1, and the upper end of the long bolt 4 is fixed to the lid provided on the top of the fire protection sleeve 10 as a washer and a butterfly nut. can

However, in this case, since the formwork 1 can be removed structurally after the long bolt 4 is separated, it is disadvantageous in terms of work compared to the configuration with the coupling plate, and the long bolt (4), since accessories such as washers and wing nuts are relatively large, it is inefficient compared to a structure with a coupling plate.

[Example 2] See FIGS. 7 to 10

The socket 200 of Example 2 is also coupled to the lower portion of the fire protection sleeve 10 in which the fire resistant filler 3 is embedded on the lower side, and serves to position the fire resistant filler 3 on the heat insulating material 2. Same as Example 1.

However, the socket 200 of Example 2 is different from Example 1 in that it presents an auxiliary structure for matching the height of the insulation insertion unit to the thickness of the insulation material when the height of the insulation insertion unit is lower than the thickness of the insulation material 2.

A detailed configuration of the socket 200 according to the second embodiment will be described below.

As shown in FIG. 7 , the socket 200 of the second embodiment may include a basic socket 210 and an extension socket 220 connected to the basic socket to extend the length of the basic socket.

The basic socket 210 is coupled to the lower portion of the fire protection sleeve 10, and is provided in the coupling portion 211 located on the upper side of the heat insulating material 2 and the lower portion of the coupling portion, but has a smaller diameter than the coupling portion. , It may be composed of a heat insulating material insertion portion 212 of a tubular shape that is fitted and inserted into the hole (2a) of the heat insulating material (2).

The extension socket 220 is provided at a lower portion of the connecting portion 221 inserted into the hole 2a of the insulating material 2 while being connected to the insulating material insertion portion 212, but having a smaller diameter than the connecting portion. A tubular extension 222 inserted into the hole 2a of the insulator 2 while being connected to the inner circumferential surface of the extension by a soft part 223a and a coupling plate 223 coupled to the formwork 1 can be configured.

Since the height (h) of the insulating material insertion portion 212 of the basic socket 210 is lower than the thickness (t) of the insulating material 2, the extension socket 220 is further connected to the lower portion to correspond to the thickness of the insulating material 2. be able to

As shown in FIGS. 7 and 8 , the coupling plate 223 is provided with a coupler 223b so that it can be coupled with the mating coupler 1a of the formwork 1 . Thus, the fire protection sleeve 10 including the socket 200 can be coupled to the formwork 1. Here, either one of the coupler 223b and the mating coupler 1a may be composed of a bolt and the other one may be a nut, but is not limited thereto.

Since the coupling plate 223 is in a state of being coupled with the formwork 1, when the formwork 1 is removed, the coupling plate 223 is separated as the weak portion 223a is broken. When the coupling plate 223 is separated, the extension part 222 is opened, and a connection pipe or a granular drainage pipe can be connected to the fire protection sleeve 10 through the open extension part 222 .

In addition, the outer diameter (d) of the extension part 222 and the hole diameter (D) of the hole (2a) are the same. Therefore, since no gap is generated between the extension part 222 and the hole 2a, an effect that no gap filling operation is required is obtained.

In addition, a display groove 222a may be provided at a lower end of the extension part 222 . The display groove 222a may be formed at the same position as the locking jaw 11 provided on the inner circumferential surface of the fire protection sleeve 10 in the circumferential direction. Since the role of the display groove 222a has been described in the first embodiment, it will be omitted.

In addition, a step filling ring 230 for filling a step with the connection part 221 may be fitted to an outer circumferential surface of the extension part 222 . That is, a step is generated between the outer circumferential surface of the connection part 221 and the outer circumferential surface of the extension part 222 due to the difference in diameter. As a result, the insulation effect is reduced. The step filling ring 230 can prevent the insulation effect from deteriorating by filling these gaps.

Meanwhile, in the above, it has been described that the extension part 222 is provided with the coupling plate 223, but unlike this, a configuration without the coupling plate may also be applied.

That is, as shown in FIGS. 9 and 10, since the socket 200 cannot be directly coupled to the formwork 1 in a structure without a coupling plate, the fire protection sleeve 10 and the socket 200 are fixed together by the long bolt 4. will do

The lower end of the long bolt 4 is fastened to the relative coupler 1a of the formwork 1, and the upper end of the long bolt 4 is fixed to the lid provided on the top of the fire protection sleeve 10 as a washer and a butterfly nut. can

In this case, as in the previous embodiment, since the formwork 1 can be separated after structurally separating the long bolts 4, it is disadvantageous in terms of work compared to a configuration with a coupling plate, and fastening with the formwork 1 For this, accessories such as long bolts 4, washers and wing nuts are relatively large, so it is inefficient compared to a structure with a coupling plate.

[Example 3] See FIGS. 11 to 15

The socket 300 of Example 3 is also coupled to the lower portion of the fire protection sleeve 10 in which the fire resistant filler 3 is embedded on the lower side, and serves to position the fire resistant filler 3 on the heat insulating material 2. Same as the Examples.

However, the socket 300 of Example 3 is an example applied when the rubber ring 12 is installed on the lower side of the fire protection sleeve 10.

A detailed configuration of the socket 300 according to the third embodiment will be described below.

As shown in FIGS. 11 to 13, the socket 300 of Example 3 is coupled to the lower part of the fire protection sleeve 10, and the coupling part 310 located on the upper side of the heat insulating material 2, and the coupling part The pressure ring 320, which is provided to protrude upward from the inner end and presses the rubber ring 12, and is provided below the coupling part 310, but has a smaller diameter than the coupling part, and is a hole in the heat insulating material 2 It may be composed of a tubular heat insulating material insertion portion 330 inserted into (2a).

In addition to this, a coupling plate 340 coupled to the formwork 1 while being connected by the soft portion 341 may be further included on the inner circumferential surface of the insulator insert 330 .

The coupling plate 340 is provided with a coupler 342 so that it can be coupled with the mating coupler 1a of the formwork 1. Thus, the fire protection sleeve () including the socket 300 can be coupled to the formwork (1). Here, one of the coupler 342 and the mating coupler 1a may be composed of a bolt and the other one of a nut, but is not limited thereto.

Since the coupling plate 340 is in a state of being coupled with the formwork 1, when the formwork 1 is removed, the weak portion 341 is broken and the coupling plate 340 is separated. When the coupling plate 340 is separated, the insulating material insertion part 330 is opened, and a connection pipe or a granular drain pipe can be connected to the fire protection sleeve 10 through the opened insulating material insertion part 330.

In addition, the size of the outer diameter (d) of the insulating material insertion part 330 and the hole diameter (D) of the hole (1a) are the same. Therefore, since no gap is generated between the insulator insertion part 330 and the hole 1a, an effect that no gap filling operation is required is obtained.

Meanwhile, a display groove may be provided at a lower end of the insulating material insertion part 330 . The display groove may be formed at the same position in the circumferential direction when a locking step is provided on the inner circumferential surface of the fire protection sleeve 10 . Since the role of the display groove has been described in the previous embodiment, it is omitted.

On the other hand, although the above description has been made that the coupling plate 340 is provided in the insulating material insertion portion 330, a configuration without the coupling plate may also be applied.

That is, as shown in FIGS. 14 and 15, since the socket 300 cannot be directly coupled to the formwork 1 in a structure without a coupling plate, the fire protection sleeve 10 and the socket 300 are held together by the long bolt 4. will be fixed

The lower end of the long bolt 4 is fastened to the relative coupler 1a of the formwork 1, and the upper end of the long bolt 4 is fixed to the lid provided on the top of the fire protection sleeve 10 as a washer and a butterfly nut. can

However, in this case, as in the previous embodiment, since the formwork 1 can be detached after structurally separating the long bolts 4, it is disadvantageous in terms of work compared to the configuration with the coupling plate 340, and the formwork Since accessories such as long bolts 4, washers, and wing nuts are relatively large for fastening with (1), it is inefficient compared to a structure with a coupling plate.

[Example 4] See FIGS. 16 to 19

The socket 400 of Example 4 is coupled to the lower portion of the fire protection sleeve in which the fire resistant filling material 3 and the rubber ring 12 are embedded in the lower portion, and when the height of the insulation material insertion portion is lower than the thickness of the insulation material 2, It is different from Example 3 in that it presents an auxiliary structure for matching the height to the thickness of the insulator.

A detailed configuration of the socket 400 according to the fourth embodiment will be described below.

As shown in FIGS. 16 and 17 , the socket of the fourth embodiment may include a basic socket 410 and an extension socket 420 connected to the basic socket to extend the length of the basic socket.

The basic socket 410 is coupled to the lower portion of the fire protection sleeve 10, and the rubber ring 12 protrudes upward from the coupling portion 411 located on the upper side of the heat insulating material 2 and the inner end of the coupling portion. ) and a compression ring 412 for pressing, and a tubular insulation insertion portion 413 provided at the bottom of the coupling portion 411 but having a smaller diameter than the coupling portion and inserted into the hole 2a of the insulation material 2. ) can be configured.

The extension socket 420 is connected to the connection part 421 inserted into the hole 2a of the insulation material 2 while being connected to the insulation material insertion part 413, and is provided at the lower part of the connection part but has a smaller diameter than the connection part. A tubular extension 422 inserted into the hole 2a of the insulator 2 while being connected to the inner circumferential surface of the extension by a soft part 423a and a coupling plate 423 coupled to the formwork 1 can be configured.

Since the height of the insulator insertion part 413 of the basic socket 411 is lower than the thickness of the insulator 2, it is possible to correspond to the thickness of the insulator 2 by further connecting the extension socket 420 to the lower portion.

As shown in FIGS. 16 and 17, the coupling plate 423 is provided with a coupler 423b so that it can be coupled with the mating coupler 1a of the formwork 1. Thus, the fire protection sleeve 10 including the socket 400 can be coupled to the formwork 1. Here, one of the coupler 423b and the mating coupler 1a may be composed of a bolt and the other one may be a nut, but is not limited thereto.

Since the coupling plate 423 is in a state of being coupled with the formwork 1, when the formwork 1 is detached, the weak portion 423a is broken and the coupling plate 423 is separated. When the coupling plate 423 is separated, the extension part 422 is opened, and a connection pipe or a granular drainage pipe can be connected to the fire protection sleeve 10 through the open extension part 422 .

In addition, the outer diameter (d) of the extension portion 422 and the hole diameter (D) of the hole (2a) are the same. Therefore, since no gap is generated between the insulator insertion part 413 and the hole 2a, an effect that no gap filling operation is required is obtained.

In addition, a display groove may be provided at a lower end of the extension part 422 . The display groove may be formed at the same position in the circumferential direction when a locking step (not shown) is provided on the inner circumferential surface of the fire protection sleeve 10 . Since the role of the display groove has been described in the foregoing embodiment, it will be omitted.

In addition, a step filling ring 430 for filling a step with the connection part 421 may be fitted to an outer circumferential surface of the extension part 422 . That is, a step is generated between the outer circumferential surface of the connection part 421 and the outer circumferential surface of the extension part 422 due to the difference in diameter. As a result, the insulation effect is reduced. The step filling ring 430 can prevent the insulation effect from deteriorating by filling these gaps.

Meanwhile, in the above, it has been described that the extension part 422 is provided with the coupling plate 423, but unlike this, a configuration without the coupling plate may also be applied.

That is, as shown in FIGS. 18 and 19, since the socket 400 cannot be directly coupled to the formwork 1 in a structure without a coupling plate, the fire protection sleeve 10 and the socket 400 are fixed together by the long bolt 4. will do

The lower end of the long bolt 4 is fastened to the relative coupler 1a of the formwork 1, and the upper end of the long bolt 4 is fixed to the lid provided on the top of the fire protection sleeve 10 as a washer and a butterfly nut. can

In this case, as in the previous embodiment, since the formwork 1 can be separated after structurally separating the long bolts 4, it is disadvantageous in terms of work compared to a configuration with a coupling plate, and fastening with the formwork 1 For this, accessories such as long bolts 4, washers and wing nuts are relatively large, so it is inefficient compared to a structure with a coupling plate.

[Example 5] See FIGS. 20 to 23

Embodiment 5 is coupled to the lower portion of the fire protection sleeve 10, which does not have a fire resistant filler, and is itself a socket 500 having a fire resistant filler.

The socket 500 of Example 5 can be usefully used when the fireproof sleeve 10 itself does not have a fireproof filler by incorporating the fireproof filler in the filler pocket located above the insulator 2.

A detailed configuration of the socket 500 according to the fifth embodiment will be described below.

20 to 21, the socket 500 of the fifth embodiment is coupled to the lower portion of the fire protection sleeve 10, and the upper coupling portion 510 located on the upper side of the heat insulating material 2, and the A heat insulating material insertion part 520 provided under the upper coupling part and inserted into the hole 2a of the heat insulating material 2, a filler pocket portion 530 provided on the outer circumferential surface of the upper coupling portion 510, and the filler pocket It may include a fireproof filler 540 inherent in the portion and a coupling plate 550 coupled to the formwork 1 while being connected to the inner circumferential surface of the insulating material insertion portion 520 by the soft portion 551.

The insulating material insertion part 520 may have an opening formed upward or downward (as additionally shown in FIG. 20 ) to insert the fireproof filler 540 . However, when the opening is formed downward, a shielding plate for shielding the opening may be further configured to prevent the fireproof filler from escaping.

As shown in the drawing, the coupling plate 550 is provided with a coupler 552 so that it can be coupled with the mating coupler 1a of the formwork 1. Thus, the fire protection sleeve 10 including the socket 500 can be coupled to the formwork 1. Here, either one of the coupler 552 and the mating coupler 1a may be composed of a bolt and the other one may be a nut, but is not limited thereto.

Since the coupling plate 550 is in a state of being coupled with the formwork 1, when the formwork 1 is removed, the weak portion 551 is broken and the coupling plate 550 is separated. When the coupling plate 550 is separated, the insulating material insertion part 520 is opened, and a connection pipe or a granular drain pipe can be connected to the fire protection sleeve 10 through the opened insulating material insertion part 520.

In addition, the size of the outer diameter (d) of the insulating material insertion portion 520 and the hole diameter (D) of the hole (2a) are the same. Therefore, since no gap is generated between the insulator insertion part 520 and the hole 2a, an effect that no gap filling operation is required is obtained.

In addition, a display groove (not shown) may be provided at a lower end of the insulator insertion part 520 . The display groove may be formed at the same position as a locking jaw (not shown) provided on the inner circumferential surface of the fire protection sleeve 10 in the circumferential direction. Since the role of the display groove has been described in the previous embodiment, it will be omitted.

Meanwhile, in the above description, the coupling plate 550 is provided in the insulator insert 520, but, unlike this, a configuration without the coupling plate may also be applied. As shown in FIGS. 22 and 23, the form without the coupling plate 550 in the insulation insert 520 is fixed to the formwork 1 by the long bolt 4, the washer and the wing nut, described in the previous embodiment. Since it has been done, detailed descriptions are omitted.

[Example 6] See FIGS. 24 to 27

Like the socket of Example 5, the socket 600 of Example 6 is coupled to the lower portion of the fireproof sleeve 10 without a fireproof filler, and is a socket that has a fireproof filler on its own.

A detailed configuration of the socket 600 according to the sixth embodiment will be described below.

As shown in FIGS. 24 and 25 , the socket of the sixth embodiment may include a basic socket 610 and an extension socket 620 connected to the basic socket to extend the length of the basic socket.

The basic socket 610 is coupled to the lower portion of the fire protection sleeve 10, and is provided with an upper coupling portion 611 located on the upper side of the heat insulating material 2 and a lower portion of the upper coupling portion and a hole in the insulating material 2 It may be composed of a heat insulating material insertion part 612 inserted in (2a), a filler pocket part 613 provided on the outer circumferential surface of the upper coupling part 611, and a fireproof filler 614 inherent in the filler pocket part. there is.

The extension socket 620 is connected to the insulating material insertion part 612 and is connected to the connecting part 621 inserted into the hole of the insulating material 2, and is provided at the lower part of the connecting part, but has a smaller diameter than the insulating material. It may be composed of a tubular extension 622 inserted into the hole 2a of (2) and a coupling plate 623 coupled to the mold 1 while being connected to the inner circumferential surface of the extension by a weak portion 623a. there is.

The height of the insulator insertion part 10 of the basic socket 610 is lower than the thickness of the insulator 2, but it can correspond to the thickness of the insulator 2 by further connecting the extension socket 620 to the lower portion thereof.

The coupler 623a is provided on the coupling plate 623 so that it can be coupled with the mating coupler 1a of the formwork 1. Thus, the fire protection sleeve 10 including the socket 600 can be coupled to the formwork 1. Here, one of the coupler 1a and the mating coupler 623a may be composed of a bolt and the other one may be a nut, but is not limited thereto.

Since the coupling plate 623 is in a state of being coupled with the formwork 1, when the formwork 1 is detached, the coupling plate 623 is separated as the weak portion 623a is broken. When the coupling plate 623 is separated, the extension portion 622 is opened, and a connection pipe or a granular drainage pipe can be connected to the fire protection sleeve 10 through the open extension portion 622 .

In addition, the outer diameter of the extension part 622 and the hole diameter of the hole 2a are the same. Therefore, since a gap does not occur between the insulating material insertion part 10 and the hole 2a, an effect of not requiring a gap filling operation is obtained.

Meanwhile, a display groove may be provided at a lower end of the extension part 622 . The display groove may be formed at the same position as a locking jaw (not shown) provided on the inner circumferential surface of the fire protection sleeve 10 in the circumferential direction. Since the role of the display groove has been described in the foregoing embodiment, it will be omitted.

In addition, a step filling ring 630 for filling a step with the connection part 621 may be fitted to an outer circumferential surface of the extension part 622 . That is, a step is generated between the outer circumferential surface of the connection part 621 and the outer circumferential surface of the extension part 622 due to the difference in diameter. As a result, the insulation effect is reduced. The step filling ring 630 can prevent the insulation effect from deteriorating by filling these gaps.

On the other hand, although it has been described above that the coupling plate 623 is provided in the extension portion 622, a configuration without a coupling plate may also be applied.

That is, as shown in FIGS. 26 and 27, since the socket 600 cannot be directly coupled to the formwork 1 in a structure without a coupling plate, the fire protection sleeve 10 and the socket 600 are fixed together by the long bolt 4. will do

The lower end of the long bolt 4 is fastened to the relative coupler 1a of the formwork 1, and the upper end of the long bolt 4 is fixed to the lid provided on the top of the fire protection sleeve 10 as a washer and a butterfly nut. can

In this case, as in the previous embodiment, since the formwork 1 can be separated after structurally separating the long bolts 4, it is disadvantageous in terms of work compared to a configuration with a coupling plate, and fastening with the formwork 1 For this, accessories such as long bolts 4, washers and wing nuts are relatively large, so it is inefficient compared to a structure with a coupling plate.

The above description is merely an example of the technical idea of the present invention, and various modifications and variations can be made to those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed according to the following claims, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

100,200,300,400,500,600: Sockets of the 1st to 6th embodiments
110,310: coupling part
120,330,520: insulation material insertion part
130,340,550,623: combined plate
210,410,610: basic socket
220,420,620: extension socket
320: compression ring
510: upper coupling part
530: filling material pocket part
540: fireproof filler

Claims (24)

delete delete A socket for a fire protection sleeve coupled to the lower portion of a fire protection sleeve having a fire resistant filler in the lower portion,
a coupling portion coupled to a lower portion of the fire protection sleeve and located on an upper side of the heat insulating material; A basic socket made of; a tubular insulating material insertion part provided at a lower part of the coupling part, having a smaller diameter than the coupling part, and inserted into a hole of the insulating material; and
a connecting portion inserted into the hole of the insulator while being connected to the insulator insertion portion; a tubular extension provided at a lower portion of the connecting portion and having a smaller diameter than the connecting portion and inserted into the hole of the insulating material; An extension socket made of a coupling plate connected to the inner circumferential surface of the extension portion by a weak portion and coupled to the formwork by a coupling tool,
A socket for a fire protection sleeve further comprising a step filling ring for filling a step with the connection part while being fitted to the outer circumferential surface of the extension part.
The method of claim 3,
A display groove is provided at the lower end of the extension, and the display groove is provided at the same position in the circumferential direction as the locking jaw provided on the inner circumferential surface of the fire protection sleeve.
delete A socket for a fireproof sleeve coupled to the lower part of a fireproof sleeve with a fireproof filler and a rubber ring embedded in the lower part,
a coupling portion coupled to a lower portion of the fire protection sleeve and located on an upper side of the heat insulating material;
a pressure ring provided to protrude upward from the inner end of the coupling part and press the rubber ring; and
A socket for a fire protection sleeve comprising: a tubular insulating material insertion portion provided at a lower portion of the coupling portion, having a smaller diameter than the coupling portion, and inserted into a hole of the insulation material.
The method of claim 6,
A socket for a fire protection sleeve, characterized in that it further comprises; a coupling plate connected to the inner circumferential surface of the insulating material insertion portion by a soft part and coupled to the formwork by a coupling tool.
The method of claim 6,
A display groove is provided at the lower end of the insulation insertion portion, and the display groove is provided at the same position in the circumferential direction as the locking jaw provided on the inner circumferential surface of the fire protection sleeve.
The method of claim 6,
Further comprising an extension socket connected to the insulation insert,
The extension socket,
a connecting portion inserted into the hole of the insulating material while being connected to a lower portion of the insulating material insertion part; and
A socket for a fire protection sleeve, characterized in that composed of; doedoe provided at the lower part of the connection part, having a smaller diameter than the connection part, and a tubular extension part inserted into the hole of the heat insulating material.
The method of claim 9,
The socket for a fire protection sleeve, characterized in that it further comprises; further coupled to the inner circumferential surface of the extension portion by the weak portion, coupled to the formwork by the coupler.
The method of claim 9,
The socket for a fire protection sleeve, characterized in that it further comprises a step filling ring for filling the step with the connection portion while being fitted to the outer circumferential surface of the extension portion.
The method of claim 9,
A display groove is provided at the lower end of the extension, and the display groove is provided at the same position in the circumferential direction as the locking jaw provided on the inner circumferential surface of the fire protection sleeve.
A socket for a fire protection sleeve coupled to the lower part of the fire protection sleeve in which the fire resistance filler is not contained,
an upper coupling portion coupled to a lower portion of the fire protection sleeve and located on an upper side of the heat insulating material;
a heat insulating material insertion part provided under the upper coupling part and inserted into a hole of the heat insulating material;
A filler pocket portion provided on an outer circumferential surface of the upper coupling portion; and
Including; fireproof filler inherent in the filler pocket portion,
Further comprising an extension socket connected to the insulation insert,
The extension socket may include a connecting portion inserted into a hole of the insulating material while being connected to a lower portion of the insulating material insertion part; And a tubular extension provided at the lower part of the connection part, having a smaller diameter than the connection part, and inserted into the hole of the heat insulating material;
A socket for a fire protection sleeve further comprising a step filling ring for filling a step with the connection part while being fitted to the outer circumferential surface of the extension part.
The method of claim 13,
The socket for a fire protection sleeve, characterized in that the opening is provided in the upper or lower portion of the filler pocket, and the fireproof filler is recessed through the opening.
The method of claim 13,
A socket for a fire protection sleeve, characterized in that it further comprises; a coupling plate connected to the inner circumferential surface of the insulating material insertion portion by a soft part and coupled to the formwork by a coupling tool.
delete The method of claim 13,
A socket for a fire protection sleeve, characterized in that it further comprises; a coupling plate connected to the inner circumferential surface of the extension portion by a weak portion and coupled to the formwork by a coupling tool.
delete The method of claim 13,
A display groove is provided at the lower end of the extension, and the display groove is provided at the same position in the circumferential direction as the locking jaw provided on the inner circumferential surface of the fire protection sleeve.
A fire protection sleeve comprising the socket for a fire protection sleeve according to any one of claims 3 or 4.
A fire protection sleeve comprising the socket for a fire protection sleeve according to any one of claims 6 to 12.
A fire protection sleeve comprising the socket for a fire protection sleeve according to any one of claims 13,14,15,17,19. delete delete

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