KR102367454B1 - Insulation socket for connecting air duct and sleeve and Insulation method between air duct and sleeve using insulation socket - Google Patents

Abstract

The present invention relates to an insulation socket for connecting an air duct and a sleeve and a method from insulating an air duct from a sleeve by using an insulation socket. An insulation socket made of a flame-retardant synthetic resin (PVC) material is mounted between an air duct made of metal (usually made of a galvalume material) and a sleeve when the air duct and the sleeve are assembled between consecutive layers in an air supply/exhaust system for apartment houses or an air conditioning system for ventilation (an air standpipe connection structure), to block transfer of heat at an early stage when a fire occurs, or to prevent the air duct or sleeve formed of the same material from continuing to be exposed to high temperatures during a fire. Therefore, an insulating structure can be secure on each layer to prevent continuous spread (spread of a fire to upper households) and secondary fire accidents around the household, thereby greatly improving fire-fighting safety. In addition, a fire-resistant filler is integrally provided inside the sleeve so that when a fire occurs, the fire-resistant filler foams and expands to block the inner diameter of the sleeve to block and close the movement of smoke, heat, flame and a blazing fire between floors.

Description

An insulation socket for connecting an air duct and a sleeve, and an insulation socket for connecting air duct and sleeve and Insulation method between air duct and sleeve using insulation socket}

The present invention relates to a continuous interlayer joint between an air duct made of a metallic material (usually made of galvanium) and a sleeve in a supply/exhaust system for an apartment house or an air conditioning system for ventilation (air riser pipe connection structure), flame-retardant synthetic resin (PVC) material It is formed so that the insulation socket of the Insulation socket for connecting the air duct and sleeve, characterized in that the fire safety is greatly improved by preventing the spread (fire spread to the upper household) and secondary fire accidents around the household in advance, and an air duct using the insulation socket It relates to an insulation method between sleeves.

In general, in buildings such as apartment houses, air ducts (or penetrating materials, round ducts, standing ducts) connecting each floor are continuously jointed based on the sleeve embedded in the concrete between floors, and a series of supply and exhaust systems or ventilation systems up to the roof fan It is formed to build an air conditioning line for

Accordingly, recently, in order to block interlayer spread (smoke, heat, deterioration, etc.) due to fire, a deterioration blocking means is provided in a sleeve or duct (upright duct or air duct) for construction.

A fireproof filler is usually used as such a deterioration blocking means, and the fireproof filler expands in response to heat and fills the space between the layers to prevent deterioration from spreading to other layers.

However, the conventional air duct and sleeve are made of the same metal material (usually galvanium material), and the temperature generated at the beginning of the fire is rapidly transferred to the upper household by the same medium, so that the fireproof filler is already connected to a fire before it is exposed to the fire and expands. problem arises.

1. Korea Utility Model Registration No. 20-0489856 (Registered on August 13, 2019)

The present invention is to solve the above problems, the technical gist of which is continuous between the air duct and the sleeve made of a metal material (usually a galvanium material) in an air supply/exhaust system for an apartment house or an air conditioning system for ventilation (air riser pipe connection structure) When assembling an interlayer joint, it is formed so that insulation sockets made of flame-retardant synthetic resin (PVC) are installed in between them to block the initial heat transfer in case of a fire or to prevent the high temperature from continuing to spread to the air duct or sleeve made of the same material during a fire in advance. , The purpose of this is to provide a significant improvement in fire safety by ensuring a thermal insulation structure on each floor to prevent continuous spread (fire spread to the upper household) and secondary fire accidents around the household in advance.

On the other hand, the present invention is formed so that a fire-resistant filler is integrally provided inside the sleeve for interlayer connection of the standing duct or air duct, so that when a fire occurs, it foams and expands while blocking the inner diameter of the sleeve to prevent smoke, heat, flame, deterioration, etc. from other generations. The purpose of this is to provide that the fire safety is greatly improved.

Accordingly, the present invention provides a foaming expansion section so that the foaming expansion space portion is formed on one side of the sleeve to secure the foaming space so that the refractory filling material can be conveniently accommodated and installed (embedded), but the foaming expansion force that the fireproof filling material swells in case of fire is not inhibited. The purpose of this is to provide that the fire protection performance is strengthened.

In addition, the present invention is provided with a steel wire support on the lower end side of the fireproof filler so that the normal airflow (exhaust) transfer is maintained smoothly, but even if the installation life of the fireproof filler is old or foam expansion occurs due to a fire, the fireproof filler is It is to prevent falling or dropping under the sleeve, which aims to provide safety in use and high reliability in mounting.

In order to achieve this object, the present invention is made of flame-retardant PVC material so that a through hole is formed in the upper and lower portions of the single tube body of the band ring structure, and an assembly flange 110 is formed on the upper through hole side based on the construction axis to form the upper air duct (10). ) corresponding to the fastening flange 11 and a separate fastener 30 (eg, V-band) is formed to be assembled, and the bead part 130 protruding outward from the insertion part 120 is formed on the lower through-hole side. In case of fire, the sleeve 20 when the insert 120 is fitted and assembled into the opening 22 as the bent jaw 140 part orthogonal from the insertion part 120 comes into contact with the upper surface 21 of the sleeve 20. and the air duct 10 is formed to block (insulate) the heat transfer.

Accordingly, the insulating socket is formed such that the fire resistant filler 200 in the form of an expansion tape is inserted into the inner circumferential surface of the bead unit 130 to form a fire resistant structure in case of fire.

At this time, the bead part 130 is formed to have a height of 1/3 to 1/2 of the overall height of the short pipe body to form a strong reinforcing structure to support the air duct in the form of a long pipe.

In addition, a silicone adhesive is applied to the outer peripheral surface of the bent jaw connected to the sleeve or the outer edge of the lower end of the bead to secure airtightness (sealing) with firm fixation.

On the other hand, the present invention is a flame-retardant PVC material so that the through-hole is formed in the upper and lower portions of the single tube body of the band ring structure, the assembly flange 110 is formed on the upper through-hole side based on the construction axis, and the insertion part 120 is formed on the lower through-hole side. ) a bead portion 130 protruding outwardly is formed to prepare a heat-insulating socket so that a bent jaw 140 orthogonal from the insertion portion 120 is provided (S10); The bent portion 140 formed through the bead portion 130 while inserting the insertion portion 120 of the insulation socket 100 into the opening 22 of the sleeve 20 embedded in the interlayer concrete for each interlayer is the sleeve 20 ) and an assembly step (S20) between the sleeve and the insulation socket so that it is seated and assembled in close contact with the upper surface 21; With respect to the insulation socket 100 seated and assembled in the sleeve 20, the fastening flange 11 of the upper air duct 10 is disposed to correspond to the assembling flange 110, and then with a fastener 30 (eg, V-band). The assembly step (S30) between the air duct and the insulation socket to allow the assembly to be performed; It is configured so that heat transfer between the sleeve 20 and the air duct 10 is blocked (insulated) by the insulation socket 100 in case of fire.

Accordingly, in the assembly step between the sleeve and the insulation socket, a silicone adhesive application step is added, and the silicone adhesive is applied to the outer peripheral surface of the curved jaw connected to the sleeve or the outer edge of the lower end of the bead to provide a tight fixation and airtightness (sealing) between the two components. formed to be secured.

In addition, the material of the sleeve is formed to double the heat insulation structure by using a galvanized steel sheet or a flame-retardant synthetic resin material.

As described above, the present invention provides a flame-retardant synthetic resin ( It is formed to be equipped with an insulation socket made of PVC) material to block the initial heat transfer in case of a fire or to prevent the high temperature from continuing to spread to the air duct or sleeve of the same material during a fire in advance. It has the effect of greatly improving fire safety by enabling the continuous spread (fire spread to the upper household) and secondary fire accidents around the household to be prevented in advance.

Accordingly, the present invention is formed so that a fireproof filler is integrally provided inside the sleeve for interlayer connection of the standing duct or air duct, so that when a fire occurs, it foams and expands while blocking the inner diameter of the sleeve to prevent smoke, heat, flame, deterioration, etc. from other generations. It has the effect of blocking and closing the spreading.

In addition, the present invention provides a space for securing a foaming space on one side of the sleeve so that it is convenient to receive and install (incorporate) the fireproof filler, but in case of a fire, the foaming expansion (expansion) force that the fireproof filler swells is not inhibited. (Expansion) section is provided, which is formed to strengthen the fire-blocking performance, and a steel wire support is provided on the lower end side of the fire-resistant filler to ensure that the normal airflow (exhaust) transfer is maintained smoothly, but the fire-resistance filler It prevents the fire-resisting filler from falling or falling off the sleeve even if the installation life is old or foam expansion or expansion occurs due to fire, which has the effect of high safety in use and installation reliability.

1 is an exemplary view of a use state showing that the insulation socket according to the present invention is mounted between the sleeve and the air duct;
Figure 2 is an example of the disassembled assembly according to Figure 1,
3 is a cross-sectional side view of an insulating socket according to the present invention;
4 is a process block diagram illustrating a thermal insulation method according to the present invention.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

First, as shown in Figs. 1 to 3, the insulation socket 100 of the present invention is made of a flame-retardant PVC material and is formed so as to have through-holes in the upper and lower portions of the single tube body of the band ring structure.

Accordingly, in the insulation socket, an assembly flange 110 is formed on the upper through-hole side with respect to the construction axis to correspond to the fastening flange 11 of the upper air duct 10 and a separate fastener (30: for example, V-band) is formed to be assembled.

At this time, the bead part 130 protruding outward from the insertion part 120 is formed on the side of the lower through-hole of the insulation socket, so that the bent jaw 140 orthogonal from the insertion part 120 is formed on the top surface of the sleeve 20 ( 21) and the insertion part 120 is fitted into the opening 22 and assembled so that heat transfer between the sleeve 20 and the air duct 10 is blocked (insulated) in case of fire.

Accordingly, the insulating socket is formed such that the fire resistant filler 200 in the form of an expansion tape is inserted into the inner circumferential surface of the bead unit 130 to form a fire resistant structure in case of fire.

At this time, the bead part 130 is formed to have a height of 1/3 to 1/2 of the overall height of the short pipe body to form a strong reinforcing structure to support the air duct in the form of a long pipe.

In addition, a silicone adhesive is applied to the outer peripheral surface of the bent jaw connected to the sleeve or the outer edge of the lower end of the bead to secure airtightness (sealing) with firm fixation.

On the other hand, the insulation method according to the present invention is largely composed of an insulation socket preparation step (S10), a sleeve-insulation socket assembly step (S20), and an air duct-insulation socket assembly step (S30), as shown in FIG. .

Accordingly, the heat insulation socket preparation step (S10) is made of flame-retardant PVC material so that a through hole is formed in the upper and lower portions of the single tube body of the band ring structure, and the assembly flange 110 is formed on the upper through hole side based on the construction axis, and the lower portion penetrates A bead part 130 protruding outward from the insertion part 120 is formed on the spherical side so that a bending jaw 140 orthogonal to the insertion part 120 is provided.

Thereafter, in the sleeve-insulation socket assembly step (S20), the bead part 130 while inserting the insertion part 120 of the insulating socket 100 with respect to the opening hole 22 of the sleeve 20 buried for each interlayer concrete. ) formed through the bending jaw 140 is formed to be seated and assembled while closely corresponding to the upper surface 21 of the sleeve 20.

After that, in the assembly step (S30) between the air duct and the insulation socket, the fastening flange 11 of the upper air duct 10 with respect to the insulation socket 100 seated and assembled in the sleeve 20 corresponds to the assembly flange 110 . After arranging so as to be possible, the fastener 30 (eg, V-band) is formed to assemble.

Accordingly, in the assembly step between the sleeve and the insulation socket, a silicone adhesive application step is added, and the silicone adhesive is applied to the outer peripheral surface of the curved jaw connected to the sleeve or the outer edge of the lower end of the bead to provide a tight fixation and airtightness (sealing) between the two components. formed to be secured.

In addition, the material of the sleeve is formed to double the heat insulation structure by using a galvanized steel sheet or a flame-retardant synthetic resin material.

On the other hand, as shown in Figs. 3 to 6, the fire resistant sleeve of the present invention is for interlayer connection of the air duct 10, and the inside of the sleeve 20 is a fire resistant filler 200 in the form of a circular band. It is formed to block or close the movement of smoke and heat (flame) between floors while foaming and expanding by heat when a fire occurs.

That is, the sleeve 20 is in the form of a spiral hollow tube with upper and lower ends opened, and flanges (bottom cutters) are formed in each of the upper and lower openings so that when on-site concrete for interlayer curing is poured, it is cured on the same plane as the lower and upper surfaces of each floor. is formed

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For reference, the lower air duct is inserted into the opened lower part of the sleeve from the bottom to the top to form a standing shape.

In this case, the forming line and the protrusion line correspond to the concave-convex bent part integrally formed from the sleeve.

On the other hand, in the middle part of the upper and lower lengthwise lines of the sleeve 20, a foam space securing free space portion 23 is formed to provide a certain space portion when the foam expands and expands in case of fire while the fireproof filler is accommodated.

That is, the foam space securing free space portion 23 has a wider diameter (inner diameter or outer diameter) protruding outward than the opened upper and lower diameter (inner diameter) of the sleeve, but in the upper and lower height section (1/3 compared to the overall height of the sleeve) The interval of ~4/5) is formed uniformly.

At this time, a fireproof filler having a height width of about 1/2 to 2/3 compared to the vertical height section is inserted (embedded) in the foaming space securing free space portion 23 to secure a free space (empty space) during foaming. do.

This is to ensure that the refractory filler expands and expands by heat to have a space for expansion and expansion without interference.

In addition, the foam space securing free space portion 23 is provided with a steel wire support 40 at the lower opening end is formed to prevent the fire-resistant filler material from falling down the lower side during normal or foam expansion.

That is, the steel wire support 40 is cross-linked with a cross-shaped wire 42 in a cross shape (to facilitate air transport) inside the circular ring wire 41 based on the circular ring wire 41, so that the expansion of the fire resistant filler It is formed to prevent the refractory filler material from falling out when the fixing bonding strength is lowered due to time or long-term installation.

Accordingly, the steel wire support 40 is formed such that a grid wire (not shown) in the form of a mesh network is further provided in the space between the horizontal and vertical wires attached in a cross shape.

At this time, in the form of a mesh network of the grid wire, each grid is about 1cm*1cm, and the fireproof filling liquid is coated on the line connecting each grid so that the transport flow of the airflow can be maintained smoothly in normal times, but in case of a fire It is also possible to block the deterioration of smoke, heat, flame, etc. by blocking the grids of the grid wires as the fire-resistant filling liquid expands and expands (first stop line) before blocking with the fire-resistant filler.

At this time, the fireproof filler is mounted in the foam space securing free space portion 110, and is formed so that three layers (10t*45mm) or a plurality of multiple layers based on the side end are built-in while forming a ring band shape.

This is formed so that when deterioration or flame is generated by a fire, the foaming spreads sequentially from the innermost (closest to the central axis) to the middle and outermost layers where the fire hits.

And this is to make the foaming and expandability against fire quick and smooth compared to the thick ring-shaped fire-resistant filler that is integrated (one). jam)

Accordingly, it is preferable to fix the fire-resistant filler by an aluminum foil tape that can be wound and covered from the inside to the top.

The present invention is not limited to the specific preferred embodiments described above, and without departing from the gist of the present invention as claimed in the claims, anyone with ordinary skill in the art to which the invention pertains can implement various modifications Of course, such modifications are intended to be within the scope of the claims.

10 ... Air duct 11 ... Fastening flange
20 ... sleeve 21 ... top side
22 ... Opening hole 23 ... Free space to secure foaming space
24 ... protrusion line 25 ... forming line
30 ... fasteners 40 ... steel wire supports
100 ... insulation socket 110 ... assembly flange
120 ... insert 130 ... bead
140 ... Bending jaw 200 ... Fireproof filler

Claims (3)

delete delete A flame-retardant PVC material so that a through hole is formed in the upper and lower portions of the single tube body of the band ring structure, an assembly flange 110 is formed on the upper through hole side based on the construction axis, and the lower through hole side protrudes outward from the insertion part 120 a heat-insulating socket preparation step (S10) in which the bead part 130 is formed so that the bending jaw 140 orthogonal to the insertion part 120 is provided; The bent portion 140 formed through the bead portion 130 while inserting the insertion portion 120 of the insulation socket 100 into the opening 22 of the sleeve 20 embedded in the interlayer concrete for each interlayer is the sleeve 20 ) and an assembly step (S20) between the sleeve and the insulation socket so that it is seated and assembled in close contact with the upper surface 21; With respect to the insulation socket 100 seated and assembled in the sleeve 20, the fastening flange 11 of the upper air duct 10 is arranged to correspond to the assembling flange 110, and then the fastener 30 is assembled by the air The duct-insulation socket assembly step (S30) is; In the heat insulation method between the air duct and the sleeve using the insulation socket, the heat transfer between the sleeve 20 and the air duct 10 is blocked and insulated by the insulation socket 100 in the event of a fire,
The insulation socket 100 is formed such that a fire resistant filler 200 in the form of an expansion tape is inserted into the inner circumferential surface of the bead unit 130 to form a fire resistant structure in case of fire, and the bead unit 130 has a side cross-sectional height of 1 compared to the overall height. It is formed at a height of /3 to 1/2 to form a strong reinforcing structure to support the air duct in the form of a long shaft, and the sleeve-insulation socket assembly step (S20) is the While inserting the insertion part 120 of the insulating socket 100 with respect to the opening 22, the bent jaw 140 formed through the bead part 130 closely corresponds to the upper surface 21 of the sleeve 20. After being seated and assembled, a silicone adhesive is applied to the outer peripheral surface of the folding jaw 140 connected to the sleeve or the outer edge of the lower end of the bead to secure tightness and sealing with the upper surface 21 of the sleeve. An insulation socket for connecting an air duct and a sleeve, and an insulation method between an air duct and a sleeve using the insulation socket.

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