KR101602773B1 - Fire prevention sleeve for dry type air duct system, constructing structure and method using this - Google Patents

Abstract

FIELD OF THE INVENTION The present invention relates to a fireproof sleeve for a dry air duct system, and a construction structure and method using the fireproof sleeve for a dry air duct system. The fireproof sleeve has an inner and outer insertion structure according to a dual structure of a slide sleeve and a slide socket. And it is possible to form a fire partition zone by removing the gap between the fireproof sleeve and the upper and lower straight pipes connected to the fireproof sleeve, and by applying the fireproof sleeve, it is possible to construct a dry air duct system more easily than before And more particularly, to a fireproof sleeve for a dry air duct system and a construction structure and a method using the same.

Description

FIELD PREVENTION SLEEVE FOR DRY TYPE AIR DUCT SYSTEM, CONSTRUCTION STRUCTURE AND METHOD USING THIS FIELD [0001]

The present invention relates to a fireproof sleeve for a dry air duct system and a construction structure and method using the fireproof sleeve. More particularly, the present invention relates to a fireproof sleeve for a dry air duct system, And to a structure and a method of construction using the fireproof sleeve for a dry air duct system.

Generally, in a multi-story building such as an apartment or a multi-generational building, a dry air duct system is installed on the side of the kitchen and the bathroom side in order to normally exhaust the odor generated from the kitchen side and the bathroom side of each household.

The DRY TYPE AIR DUCT SYSTEM connects air ducts made of PVC or Galbarium (aluminum galvanized) to each floor to allow natural or forced exhaust from the roof top.

In the dry air duct system, a plurality of granular air ducts are vertically connected to each other in a vertical direction and are connected to one side of the granular air duct, and saddles are installed to be fixed to a flexible duct in a kitchen or bathroom side, The uppermost layer of the granular air duct is provided with an exhaust perforated plate, and an exhaust fan is provided above the exhaust perforated plate.

At this time, upper and lower connecting ends of the granular air ducts are connected and fixed on the upper and lower straight lines by using connection members such as connecting bands or couplers. In the slab part made of concrete, a slab Are interposed and connected by the guidance of the sleeve.

That is, the upper air duct and the lower air duct are respectively butted to the upper and lower ends of the sleeve inserted and disposed in the interlayer slab, and then the butt portion is butt-joined by fastening a connecting member such as a connecting band or a coupling.

However, there has been a problem in that a gap space is formed between the sleeve and the air duct which is butt-coupled with the sleeve, and the formation of such a clearance space causes the passage of toxic gases and flames in the lower layer to the upper layer when a fire occurs in the multi- .

In order to solve this problem, there has been adopted a method of interposing a sealing member of elastic material between the gap between the sleeve and the air duct, but the sealing process is not easy and the operation is troublesome.

In the prior art, a sleeve having a flange portion at the upper and lower ends is formed to have the same inner diameter as the vertical exhaust pipe, and the stopper portion has a plurality of fastening holes The vertical exhaust pipe flange portion and the sleeve flange portion are closely contacted with each other and the plurality of fastening bolts are fastened to the fastening holes of the load distribution portion of the earth stopper coupled to surround the outer circumferential surface of the vertical exhaust pipe, The present invention proposes and discloses a configuration relating to a vertical exhaust pipe connection structure of a dry air duct system in which a vertical exhaust pipe and a sleeve are connected so as to communicate without leakage, have.

Korean Patent Publication No. 10-2014-0092270 (published on July 23, 2014)

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to provide a fire extinguishing system capable of facilitating installation and capable of eliminating a gap between a fireproof sleeve and upper and lower straight pipes connected thereto, And an object of the present invention is to provide a fireproof sleeve for an air duct system and a construction structure and a method using the same.

The present invention relates to a fireproof sleeve for a dry air duct system capable of providing an airtight function by an inner and outer insertion structure according to a dual structure of a slide sleeve and a slide socket, And to provide a construction structure and a method that can form a fire partitioning section by eliminating a gap between upper and lower straight pipes connected thereto.

According to an aspect of the present invention, there is provided a fireproof sleeve for a dry air duct system, the fireproof sleeve for a dry air duct system inserted in an interlayer slab of a building and used for connecting an upper straight pipe to a lower straight pipe, A sleeve, comprising: a cylindrical body having a predetermined length, said cylindrical body having a top flange and a bottom flange at an upper end and a lower end, respectively; A slide socket having a cylindrical body having a length longer than that of the slide sleeve so that the slide sleeve can be inserted and arranged vertically through the inner circumferential surface of the slide sleeve; The slide socket is provided with a flange type upper straight pipe seating part at the upper end of the cylindrical body so that the lower end of the upper straight pipe is seated and a projecting step is formed at the upper end outer peripheral face of the cylindrical body, A sealant injection groove is formed on the outer circumferential surface of the lower end of the cylindrical body so as to be able to inject the sealant into the sealant inlet groove, And is used for coupling with the lower straight pipe as well as the inside of the straight pipe.

In this case, the slide sleeve is provided with a spiral duct having a protruding rib having a spiral structure on the outer circumferential surface, so that the slide sleeve can be constructed so as to increase the strength and enhance the dimensional maintenance and stability.

In order to achieve the above object, a construction structure using a fireproof sleeve for a dry air duct system according to an embodiment of the present invention is inserted and fixed on an interlayer slab of a building, and a slide sleeve having an upper flange and a lower flange ; A slide socket including a flange type upper straight pipe seating part which is inserted and inserted into the inner circumferential surface of the slide sleeve and formed at an upper end thereof, a projecting step formed at an outer peripheral face of the upper end part, and a sealant injection groove of a groove structure formed at the outer peripheral face of the lower end part, ; An upper rectilinear tube having a lower end surface mounted on an upper rectilinear seating portion of the slide socket, an upper rectilinear portion connected to the upper portion of the slide socket by V-band fastening; A lower straight pipe which is inserted into the outer peripheral surface of the slide socket so as to be overlapped with the upper end of the slide socket, A bottom fixing O band for fixing the slide socket to the side of the interlayer slab by fastening to the protruding end side of the slide socket; The protruding step formed on the outer circumferential surface of the upper end of the slide socket is provided on the upper flange of the slide sleeve to provide a closed structure between the slide socket and the slide sleeve, And a sealant is injected into the sealant injection groove so as to form a connection between the inner circumferential surface of the lower straight pipe and the slide socket.

In order to accomplish the above object, there is provided a method for constructing a fireproof sleeve for a dry air duct system, comprising the steps of: (A) preparing a fireproof sleeve having a dual structure of the slide sleeve and the slide socket; step; (B) inserting and securing the slide sleeve on an interlayer slab of a building; (C) a slide socket is inserted into and passed through the inner circumferential surface of the slide sleeve, and the projecting step formed on the outer peripheral surface of the upper end of the slide socket is seated on the upper flange of the slide sleeve, ; (D) fixing the slide socket to the interlayer slab side by fastening the O-band for fixing the floor to the protruding end side of the slide socket; (E) connecting an upper straight pipe to a slide socket by fastening a V-band in a state in which an upper straight pipe is positioned on the upper side of the slide socket and a lower end face of the upper straight pipe is seated in an upper straight pipe seating portion of the slide socket; (F) placing a lower straight pipe at a lower side of the slide socket, inserting a lower straight pipe in a state where a sealant is injected into a sealant injection groove of the slide socket, thereby forming a connection between the inner peripheral surface of the lower straight pipe and the slide socket; (G) tightening the V-band to the slide socket and the lower straight pipe to maintain a stable binding force; And a control unit.

(H) adjusting the overlapped portions of the slide socket and the lower straight pipe by pressing and deflecting the overlapping portions of the slide socket and the lower straight pipe when the intervals of the fireproof sleeves are not constant; May be further included.

According to the present invention, since the sealing function by the inner and outer insertion structure according to the dual structure of the slide sleeve and the slide socket and the sealing force by the sealant injection are provided, the gap between the fireproof sleeve and the upper and lower straight pipes, It can be eliminated without any additional work and it is possible to achieve a useful effect of forming the fire partitioning section.

In addition, since the present invention is applied to the construction of a dry air duct system having a dual structure of a slide sleeve and a slide socket, it is possible to achieve the advantage of facilitating the construction as well as the construction of the fire protection section have.

Further, according to the present invention, even if the interval of the fireproof sleeves is not constant, it is possible to adjust the gap so that it is possible to accomplish the task of reducing the gap.

1 is an exploded perspective view showing a fireproof sleeve for a dry air duct system according to an embodiment of the present invention;
2 is an assembled perspective view of a fireproof sleeve for a dry air duct system in accordance with an embodiment of the present invention.
FIG. 3 is an exploded view showing a construction of an essential portion using a fireproof sleeve for a dry air duct system according to an embodiment of the present invention. FIG.
4 is a view showing a construction state using a fireproof sleeve for a dry air duct system according to an embodiment of the present invention.
FIG. 5 is a flowchart illustrating a construction method using a fireproof sleeve for a dry air duct system according to an embodiment of the present invention. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. The present invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.

A fire-proof sleeve for a dry air duct system according to an embodiment of the present invention will be described with reference to FIGS. 1 to 4. FIG.

1 to 4, the fireproof sleeve 100 for a dry air duct system according to the embodiment of the present invention is an essential component for constructing a dry air duct system, And includes a slide sleeve 110 and a slide socket 120 for use in connection between an upper straight pipe 10 positioned on the upper side and a lower straight pipe 20 positioned on a lower side thereof.

The slide sleeve 110 is inserted and fixed in an upright state on an interlayer slab 1 made of concrete of a multi-layered structure, and is formed of a cylindrical body having a predetermined length, A flange 111 and a lower flange 112 are formed.

At this time, the slide sleeve 110 is provided with a spiral duct (straight tube type) having a protruding rib 113 having a spiral structure on the outer circumferential surface thereof, thereby enhancing the strength and enhancing the dimensional stability and stability of the slide sleeve 110 .

The slide socket 120 is inserted into the inner circumferential surface of the slide sleeve 110 and is disposed on the upper and lower sides. The slide socket 110 is formed of a cylindrical body having a longer length than the slide sleeve 110.

At this time, the outer diameter of the slide socket 120 corresponds to the inner diameter of the slide sleeve 110 or is smaller than the inner diameter of the slide sleeve 110.

The slide socket 120 is formed with a flange type upper straight pipe receiving portion 121 at the upper end of the cylindrical body, a protruding step 122 for sealing function is formed on the outer peripheral face of the upper end of the cylindrical body, A sealant injection groove 123 having a groove structure is formed on the outer peripheral surface of the lower end of the body along the periphery thereof.

The protruding step 122 is configured to insert the slide socket 120 into the slide sleeve 110 and to insert the slide socket 120 into the slide sleeve 110. [ The slide socket 110 is configured to be seated and hooked on the upper flange 111 of the slide sleeve 110 during its disposition so as to take charge of the sealing function between the slide socket and the slide sleeve through its own structure design, (123) is a structure for use in bonding with the lower straight pipe (20) together with the inner receiving of the lower straight pipe (20) side by injecting a sealant.

The slide sockets 110 and the slide sockets 120 may be manufactured and provided according to sizes with different lengths. The sealant injection grooves 123 are formed by inserting the slide sockets 120 into the slide sleeve 110 And the gap between the protruding step 122 and the filler grooves 123 may be adjusted according to the thickness of the interlayer slab 1. The thickness of the interlayer slab 1 may be adjusted according to the thickness of the interlayer slab 1,

The projecting step 122 of the slide socket 120 has a thickness of 210 mm and a distance of about 40 mm from the top to the bottom when the length of the socket 120 is assumed to be 300 mm And the sealant injection groove 123 can be formed at a position spaced about 20 mm from the lower end in the upward direction.

The upper straight pipe 10 and the lower straight pipe 20 may be defined as spiral ducts each having a projecting rib having a helical structure along the outer circumferential surface thereof.

The construction using the fireproof sleeve 100 for the dry air duct system according to the embodiment of the present invention will be described as follows.

As shown in Figs. 1 to 4, a slide sleeve 110 is inserted and fixed on an interlayer slab 1 made of concrete of a multi-story building, a slide inserted and pierced into the inner peripheral surface of the slide sleeve 110, And a socket 120 having a dual construction.

Here, the slide sleeve 110 and the slide socket 120 have the structures already described above, and the above-described structure will be applied mutatis mutandis.

The protruding step 122 formed on the outer circumferential surface of the upper end of the slide socket 120 when the slide socket 120 is inserted into the slide sleeve 110 is positioned on the upper end flange 111 of the slide sleeve 110 Thereby providing a sealing structure between the slide socket 120 and the slide sleeve 110 structurally.

And an upper straight pipe 10 in which a lower end face (lower end flange) is seated in an upper straight pipe receiving portion 121 of the slide socket 120. A V-band 30 So that the upper straight pipe 10 is positioned on the upper side of the slide socket 120 so as to be connected upright.

A lower straight pipe 20 is inserted into the lower side of the slide socket 120 so that the upper end is inserted into the outer peripheral surface of the slide socket 120 to be overlapped.

A sealant is injected into the sealant injection groove 123 formed on the outer peripheral surface of the lower end of the slide socket 120. The sealant is inserted into the sealant injection groove 123, 120 and sealing the lower side.

Next, the V-band 40 is fastened between the lower straight pipe 20 and the slide socket 120 so that the lower straight pipe 20 is positioned on the lower side of the slide socket 120 to be connected upright.

An O band 50 for fixing the floor is fastened to the protruding step 122 side of the slide socket 120 to fix the slide socket 120 to the interlayer slab 1 side.

Accordingly, in the present invention, the upper and lower straight pipes 10 connected to the fire-fighting sleeve 100, which is provided with the inner and outer inserting structure and the sealing function by the double structure of the slide sleeve 110 and the slide socket 120, It is possible to eliminate the gap between the partition wall 20 and the partition wall 20 without any additional work, thereby forming the fire partition section and performing the construction easier than in the prior art.

A construction method using the fireproof sleeve 100 for a dry air duct system according to an embodiment of the present invention having the above-described structure will be described as follows.

As shown in FIG. 5, a fireproof sleeve having a dual structure of a slide sleeve and a slide socket is manufactured (S10).

At this time, the slide socket is provided so as to be inserted and arranged inside the slide sleeve.

The slide sleeve is inserted and fixedly disposed on the interlayer slab when forming the interlayer slab of the multi-story building (S20).

The slide sockets are inserted and pierced through the inner circumferential surface of the slide sleeve inserted and fixed on the interlayer slab so that the projecting step formed on the outer circumferential surface of the upper end of the slide socket is seated and engaged on the upper flange of the slide sleeve, So as to form a closed structure between the sleeves (S30).

At this time, the slide socket is inserted into the inner circumferential surface of the slide sleeve from the upper direction of the interlayer slab. At the upper side of the interlayer slab, the projecting step of the slide socket is seated on the upper flange of the slide sleeve, And the sealant injection grooves of the slide sockets penetrate to the lower side of the interlayer slab and are disposed in an externally exposed state.

By fastening the O-band for fixing the floor to the projecting end of the slide socket, the slide socket is fixed to the interlayer slab side (S40).

(Upper flange) of the upper straight pipe is seated on the upper straight pipe seat portion of the slide socket while the upper straight pipe is positioned on the upper side of the slide socket, and the V band is fastened to the connecting portion, (S50).

The upper straight pipe is inserted and overlapped in a state where the lower straight pipe is positioned on the lower side of the slide socket and the sealant is injected into the sealant injection groove of the slide socket so as to form the connection between the inner peripheral surface of the lower straight pipe and the slide socket.

The V-band is fastened to the connection portion between the slide socket and the lower straight pipe to maintain a more stable bonding force in the upright connection (S70).

In addition, when the interval of the fireproof sleeves is not constant, the overlapping portion between the slide socket and the lower straight pipe is pressurized and bent so as to adjust it (S80).

These adjustments can be made to adjust according to the site conditions and reduce the butt portion clearance.

Here, in order to carry out the step-by-step process, it is possible to carry out a substitution that reverses the order of the upper and lower levels.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of illustration, It will be apparent that various modifications, additions and substitutions may be made by those skilled in the art.

1: interlayer slab 10: upper straight pipe
20: lower straight tube 30, 40: V band
50: O band 100: fireproof sleeve
110: slide sleeve 111: upper flange
112: lower flange 120: slide socket
121: upper straight pipe seating part 122: protruding step
123: sealant injection groove

Claims (5)

A slide sleeve made of a spiral duct having a cylindrical body having a predetermined length and inserted into the interlayer slab and having a top flange and a bottom flange at an upper end and a lower end respectively and a protruding rib having a spiral structure along a periphery thereof; And
A slide body having a cylindrical body having a length longer than that of the slide sleeve, the slide body having an upper end and a lower end protruding from an upper portion and a lower portion of the slide sleeve, socket; ≪ / RTI >
The slide socket includes:
An upper rectilinear seating part formed to have a lower end of the upper rectilinear tube of a flange type at an upper end thereof;
A protruding step formed on an outer circumferential surface of a lower portion of the upper rectilinear seating portion and seated on an upper flange of the slide sleeve to seal the slide sleeve and the slide socket when the slide socket is inserted through the inner circumferential surface of the slide sleeve; And
The slide socket is formed in a hollow structure so that the sealant can be injected into the outer peripheral surface of the lower end portion protruding to the lower portion of the slide sleeve in a state where the slide socket is inserted through the inner circumferential surface of the slide sleeve, A sealant injection groove connecting the upper straight pipe to the lower straight pipe;
Wherein the first and second air ducts are spaced apart from each other.
delete A fire-fighting sleeve for a dry air duct system according to claim 1;
An upper straight pipe having a lower end surface mounted on the upper straight pipe seat;
A lower straight pipe into which a lower end portion of the slide socket projecting to the lower portion of the slide sleeve is inserted into the upper end portion;
Bands for vertically connecting the upper straight pipe seat portion and the lower end portion of the upper straight pipe, and connecting the lower straight pipe and the lower end portion of the slide socket uprightly; And
An O-band for floor fixing which is fastened to the projecting step side to fix the slide socket to the interlayer slab side;
Wherein the air duct is formed of a plurality of air ducts.
A method of installing a fireproof sleeve for a dry air duct system using a fireproof sleeve for a dry air duct system according to claim 1,
(a) inserting and securing the slide sleeve in the interlayer slab;
(b) forming a sealing structure between the slide socket and the slide sleeve by inserting and inserting the slide socket into the inner circumferential surface of the slide sleeve such that the protruding step is seated and engaged on the upper flange of the slide sleeve ;
(c) fixing the slide socket to the interlayer slab side by fastening a floor fixing O band to the projecting step side;
(d) connecting the upper straight pipe to the slide socket by fastening a V-band in a state where an upper straight pipe is positioned on the upper side of the slide socket and a lower end face of the upper straight pipe is seated on the upper straight pipe seating part;
(e) placing a lower straight pipe at a lower side of the slide socket, inserting a lower end portion of the slide socket into the lower straight pipe in a state where a sealant is injected into the sealant injection groove, Coupling;
(f) securing a stable bonding force by fastening the V-band to the slide socket and the lower straight pipe; And
(g) when the interval between the fireproof sleeves is not constant, adjusting the overlapped portions of the slide socket and the lower straight pipe by pressing and deflecting the overlapped portions inward;
Wherein the method comprises the steps of: delete

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