KR102553228B1 - Pipe connection to prevent falling of refractory filler for sleeve - Google Patents

Abstract

The present invention relates to a pipe connection device for preventing falling of fire-resistant filler for a sleeve and, more specifically, to a pipe connection device for preventing falling of fire-resistant filler for a sleeve, which connects various sleeve members installed on a slab and sleeve connection members, has a fire-resistant filler installed in the sleeve member to block the movement of smoke and the like in the event of a fire to prevent spread of fire, and has a concrete filling groove installed in the sleeve member to be filled with concrete of the slab, such that collapse does not occur in the event of a fire to prevent falling and the fire-resistant filler is supported, thereby blocking spread of fire. According to the present invention, the pipe connection device has piping connected to slabs of a multi-story building and a fire-resistant filler installed in the inner diameter to prevent the spread of fire. The pipe connection device comprises: a sleeve member having a fire-resistant filler installation groove formed on the inner diameter of a member connection shaft to install the fire-resistant filler, wherein the fire-resistant filler is caught on the upper part of the concrete filled in a concrete filling groove formed on the lower side of the outer diameter of the member connection shaft, thereby being prevented from falling; and a sleeve connection member having a locking step protruding inside a sleeve fixing member, which is connected to the upper side of the sleeve member, bent in the outer diameter direction at the lower side of the sleeve shaft, surrounds and protects the outer diameter of a member connecting shaft, and presses and fixes the upper side of the fire-resistant filler, to be fixed to a slide-inserted connection fixing bar in a male-female type.

Description

Pipe connection to prevent falling of refractory filler for sleeve {Pipe connection to prevent falling of refractory filler for sleeve}

The present invention relates to a pipe connecting device for preventing a fireproof filler for a sleeve from falling, and more particularly, to connect various sleeve members and sleeve connecting members installed on a slab, and a fireproof filler is installed in the sleeve member to smoke in case of fire. Block the movement of the lights to prevent the spread of fire; It relates to a piping connection device for preventing the fall of fireproof filler for sleeves, in which a concrete filling groove is installed in the sleeve member to prevent falling and support the fireproof filler to block the spread of fire because the concrete of the slab is filled and does not collapse in fire.

Vertical piping facilities are installed so that water (sewage, rainwater, domestic sewage) for each purpose is transported to each floor in an apartment building or apartment house.

In order to install the facilities as described above, when a layered floor (pipe duct) is constructed by concrete pouring, a hole is drilled so that the granular pipe passes through, and the perforated through-hole is pre-constructed.

At this time, the diameter of the penetration part should be constructed so that the hole is larger than the diameter of the pipe to be piped, so that the pipe can freely enter and exit the penetration part. According to the fireproof structure recognition and management standards according to Ministry of Land, Infrastructure and Transport Notice No. 2014-200,

The fireproof filling structure is to prevent the spread of fire through the joints of the horizontal and vertical equipment penetration parts of the fireproof division and the gap between the curtain wall and the floor, etc. It was announced that it was legalized to be constructed according to the rules and installation standards for evacuation and fire prevention structures of buildings.

According to the above, the fireproof filling structure that fills the gap between the inner circumference of the floor penetration part and the outer periphery of the granular pipe currently known and constructed has fireproof flame retardant performance, and uses a known filler (foam) in the shape of a long rod with a solid width and thickness. After rolling it up to wrap it and inserting it into the penetrating part and filling it,

In the event of a fire, the filling material is heated by the flame and foamed to block the gaps in the penetrating part, preventing the spread of flame, smoke, and gas.

However, the fire-resistant filling structure using the conventional filler as described above is made of a flame retardant material that does not burn easily, and when a fire occurs, the filler expands and closes the gap to temporarily delay the spread of the flame, but the spread of the flame continues. There is a problem in that it cannot be blocked, and when the pipe is wrapped with a less flexible rod-shaped filler and filled in the penetration part, the pipe and the circumferential surface of the penetration part cannot be faithfully contacted, leaving a gap in the penetration part. In particular, a small diameter pipe In the case of fire protection, the degree becomes more serious. This is due to poor finishing of the penetration part if it does not play a role in preventing the spread of fire as well as preventing the transmission of noise and odor when constructing a fire-resistant charging structure in the standard for determining defects in inter-floor fire protection divisions (Ministry of Land, Infrastructure and Transport No. 2013-930). It is a defect in construction, and it is difficult to perform precise construction because it is not easy to match the thickness of the standardized filler according to the size or smallness of the gap between the pipe standard and the penetration part standard or the degree of eccentricity of the pipe piped in the penetration part. It needs a lot.

In addition, sewage, sewage, rainwater and various pipes are connected to the slabs of the multi-story building structure, and it was very difficult to prevent the spread of fire by blocking the movement of smoke or heat by installing a fire prevention filler for fire prevention.

In addition to the various heights (180mm, 210mm, 330mm) during the floor construction of the building from the upper side of the slab (S), when more diverse heights are constructed according to the needs of the owner, it is difficult to apply these various heights and it is very inconvenient to work. There were flaws.

Conventionally, various structures are provided in which the fireproof filler is filled, but in this prior art, as the temperature of the flame increases, the pipe melts as it is, so the fireproof filler is completely melted before foaming, thereby reducing the blocking effect due to the fireproof filler. It was not expected, and in order to compensate for this drawback, a fireproof filler fixing structure made of a plurality of iron plates at regular intervals was installed on the lower part and the outer side.

However, it is difficult to mold a fixed structure made of such an iron plate, and due to the complexity of the process of reassembling the fixed structure to the piping structure after installing the fireproof filler, there is a problem in that the assembly time is consumed and the cost is greatly improved.

[Document 1] Patent Registration No. 1732316 (registered on April 25, 2017) [Document 2] Utility model registration number 0479400 (2016. 01. 18. registration) [Document 3] Utility model registration number 0469369 (2013. 10. 01. registration) [Document 4] Patent Registration No. 1823918 (registered on January 15, 2018) [Document 5] Patent Registration No. 2398398 (registered on May 11, 2022)

Therefore, it was devised to solve these conventional drawbacks, and the problem of the present invention is to apply a fireproof structure or a fireproof filling structure to a sleeve member that allows normal connection between an elbow member and a pipe buried in a slab of a multi-story building. to be

Another object of the present invention is to provide a space for installing the fireproof filler in the inner diameter of the sleeve member to which the pipe is connected, and to stably and firmly install the fireproof filler through the filler installation groove.

Another problem of the present invention is to form a concrete filling groove under the fireproof filler filling groove of the sleeve member so that even when all piping members are melted by flame in the event of a fire, the concrete does not melt and can prevent the fireproof filler from falling. The purpose is to keep the time by to be able to block the fire.

The present invention consists of a pipe connecting device for preventing the spread of fire by connecting pipes to the slab of a multi-story building and installing a fire-resistant filler in the inner diameter;
A sleeve member formed so that a fireproof filler installation groove is formed in the inner diameter of the member connecting shaft to install the fireproof filler and the fireproof filler is caught on the top of the concrete filled in the concrete filling groove formed below the outer diameter of the member connecting shaft so that it does not fall;
Connected to the upper side of the sleeve member, bent in the outer diameter direction from the lower side of the sleeve shaft, wrapped around the outer diameter of the member connecting shaft, and pressing and fixing the upper side of the fireproof filler. It includes a sleeve connecting member fixed in a mold.

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The sleeve member of the present invention includes a member connecting shaft for installing a fire resistant filler into a fire resistant filler filling groove formed in an inner diameter;
A filler separation prevention protrusion protrudes in the inner diameter direction from the lower side of the fireproof filler filling groove,
It includes being formed so that the fireproof filler is caught on the top of the concrete filled in the concrete filling groove formed below the outer diameter of the member connecting shaft so that it does not fall.

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The sleeve connection member of the present invention includes forming a connection groove on the outer diameter,

It consists of a connection protrusion that is slidably coupled to the connection groove, a connection hole is formed on one side of the connection protrusion, and a connection fixing rod having a nut groove formed on the lower side of the connection hole is further installed.

The present invention has the effect of performing a function of preventing the spread of fire through an accurate pipe blocking action in case of fire, by applying a fireproof structure or a fireproof filling structure to the inner diameter of a sleeve member embedded in a slab of a multi-story building. is to provide

In the present invention, a pipe fixing table in which the pipe of the sleeve member to which the pipe is connected is connected is stopped and a space for installing the fireproof filler is placed to cover a part of the fireproof filler through the filler installation groove, and it is easily exposed in case of fire to quickly perform the blocking action of the pipe It is to provide an effect that can prevent the spread of fire by installing it stably and firmly so that it can

The present invention forms a concrete filling groove on the lower side of the fireproof filler filling groove of the sleeve member, so that the concrete is filled during molding of the slab, and even when all piping members are melted by flames in the event of a fire, the concrete does not melt to prevent falling and support the fireproof filler. This is to provide an effect of blocking fire by maintaining sufficient time for foaming of the fire-resistant filler.

1 is a perspective view of a separated state showing a preferred embodiment of the present invention
Figure 2 is a cross-sectional view of the installation state of the sleeve connecting member and the sleeve member of the present invention
Figure 3 is an enlarged cross-sectional view of the main portion of the sleeve connecting member and the sleeve member of the present invention
Figure 4 is a perspective view of the sleeve member of the present invention
Figure 5 is a half cross-sectional view of the sleeve member of the present invention
Figure 6 is a perspective view of a state in which the connection fixture is separated from the sleeve connection member of the present invention
Figure 7 is a half cross-sectional view of the sleeve connecting member of the present invention
Figure 8 is a perspective view of the connection fixture of the present invention
Figure 9 is a cross-sectional view of the connection fixture of the present invention
10 is a cross-sectional view of an installed state showing another embodiment of the present invention
11 is an enlarged cross-sectional view of a main part of another embodiment of the present invention
12 is a cross-sectional view of another embodiment of the sleeve member of the present invention

It should be noted that technical terms used in the present invention are only used to describe specific embodiments and are not intended to limit the present invention. In addition, technical terms used in the present invention should be interpreted in terms commonly understood by those of ordinary skill in the art to which the present invention belongs, unless specifically defined otherwise in the present invention, and are not excessively comprehensive. It should not be interpreted in a meaning or in an excessively reduced sense. In addition, when the technical terms used in the present invention are erroneous technical terms that do not accurately express the spirit of the present invention, they should be replaced with technical terms that those skilled in the art can correctly understand. In addition, general terms used in the present invention should be interpreted as defined in advance or according to the context, and should not be interpreted in an excessively reduced sense.

Also, singular expressions used in the present invention include plural expressions unless the context clearly dictates otherwise. Terms such as "consisting of" or "comprising" in the present invention should not be construed as necessarily including all of the various elements or steps described in the invention, and some of the elements or steps may not be included. may or may further include additional components or steps.

In addition, terms including ordinal numbers such as first and second used in the present invention may be used to describe components, but components should not be limited by the terms. Terms are used only to distinguish one component from another. For example, a first element may be termed a second element, and similarly, a second element may be termed a first element, without departing from the scope of the present invention.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings, but the same or similar components are given the same reference numerals regardless of reference numerals, and redundant description thereof will be omitted.

In addition, in describing the present invention, if it is determined that a detailed description of a related known technology may obscure the gist of the present invention, the detailed description will be omitted. In addition, it should be noted that the accompanying drawings are only for easily understanding the spirit of the present invention, and should not be construed as limiting the spirit of the present invention by the accompanying drawings.

An embodiment of the present invention describes a state in which a sleeve penetrating a slab and a wall is installed at a construction site of a building, and using this, in the event of a fire in the installation state of various pipes, the fireproof filler is foamed by heat to block the pipe, The process of adapting to different heights according to the process of working between each floor is explained as a standard, but various fireproof structures to which the same problem solving principle is applied or devices and methods for applying fireproof filling structures are included. Configurations and various methods using them can be applied, and in the case of such a simple transformation application, it can be interpreted according to the theory of equivalents.

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

1 is a perspective view of a separated state showing a preferred embodiment of the present invention, Figure 2 is a cross-sectional view of the installation state of the sleeve connecting member and sleeve member of the present invention, Figure 3 is the main parts of the sleeve connecting member and sleeve member of the present invention is an enlarged cross-sectional view of

In the elbow member, which is mostly embedded in the slab formed by concrete or installed on the lower side of the slab, the pipe 50 penetrates so that domestic sewage, sewage, and rainwater flowing in from the room can be supplied, and the pipe 50 ) is composed of spheres connected in various places and locations.

It is connected to the outer diameter of the pipe 50 through the sleeve member 10 and the sleeve connection member 20, and a fireproof filler 30 is installed to prevent the spread of fire.

The pipe 50 can be applied to all pipe connection structures and sleeves in toilets, verandas, kitchens, toilets, etc. commonly practiced in the art.

In the sleeve member 10, after the bottom blade 15 protrudes from the lower side of the sleeve body 11 in the outer diameter direction, a plurality of fixing protrusions 16 protrude at regular intervals to form fixing holes 17, so that the slab Alternatively, in a state in which the panel determining the thickness of the wall is installed, it can be fixed by plugging nails or screws into the panel.

A concrete filling groove 13 is formed in the inner diameter direction on the upper side of the sleeve body 11, and a fireproof filler is filled in the inner diameter of the member connecting shaft 12 in a state where the member connecting shaft 12 protrudes upward. A groove 14 is formed to allow the refractory filler 30 to be installed in a ring shape.

In the filler filling groove 14, a fireproof filler 30 formed by rolling into a cylindrical shape is installed, and a pipe 50 is vertically penetrated through the inner diameter.

The fireproof filler 30 coupled to the filler filling groove 14 is installed by rolling a cylindrical shape with a cutout formed in one part, and in the event of a fire, it is foamed due to a heat source to block the inner diameter of the sleeve member 10 to prevent smoke and heat sources. It is installed to block the movement of

The sleeve connection member 20 coupled to the upper and outer diameters of the sleeve member 10 has a plurality of connection grooves 23 formed at regular intervals on the outer diameter of the sleeve shaft 21 to slide the connection fixture 40 from the upper side. Including combining and using

The sleeve connection member 20 includes being inserted into the assembled connection fixture 40 to fix the penetrating pipe 50 using a bolt or the like, and then fixed with a nut from the lower side.

Figure 4 is a perspective view of the sleeve member of the present invention, Figure 5 shows a half cross-sectional view of the sleeve member of the present invention.

The sleeve member 10 has a member connecting shaft 12 in which the sleeve fixing member 22 is wrapped in a cylindrical shape with an outer diameter, and a fireproof filler filling groove 14 is installed in the inner diameter of the member connecting shaft 12 to prevent fire resistance. Filler 30 is filled, and the fireproof filler 30 is formed in the outer circumferential direction at the lower end of the fireproof filler filling groove 14 to protect the filler 30 in the circumferential direction of the inner diameter. do.

A concrete filling groove 13 is formed on the lower side of the member connecting shaft 12 in the inner diameter direction so that the concrete supplied to the slab can be filled without an empty space, thereby improving the fixing force and bonding force with the sleeve member 10 and at the same time fire Even when the furnace sleeve member 10 melts, the installed state is maintained to support the lower side of the fireproof filler 30.

A sleeve body 11 is formed in the vertical direction on the lower side of the concrete filling groove 13, and after the bottom blade 15 protrudes in the outer diameter direction from the lower side of the sleeve body 11, it is fixed in the outer diameter direction at regular intervals. After the protrusion 16 is formed, fixing holes 17 are formed therein so that it can be fixed to the inside of the panel with nails or screws.

Figure 6 is a perspective view of a state in which the connection fixture is separated from the sleeve connection member of the present invention, Figure 7 is a half cross-sectional view of the sleeve connection member of the present invention, Figure 8 is a perspective view of the connection fixture of the present invention, Figure 9 is the present It shows a cross-sectional view of the connection fixture of the invention.

The sleeve connection member 20 is located on the upper side of the slab, and a plurality of connection grooves 23 are formed at regular intervals on the outer diameter of the sleeve shaft 21 formed in a cylindrical shape, so that the connection fixture 40 assembled from the upper side It includes installing so that the pipe 50 can be fixed.

After the sleeve shaft 21 has a larger diameter in the outer diameter direction from the lower end of the sleeve shaft 21, a sleeve fixing member 22 is formed to surround and protect the member connecting shaft 12.

The sleeve fixing member 22 includes covering and protecting the upper side of the fireproof filler 30 .

In the inside of the connection groove 23, the locking jaw 25 protrudes and is installed so as to be fixed in a concave-convex shape with the connection holder 40 into which it is slidably inserted.

The connection fixture 40 has a connecting protrusion 41 that is slide-fixed with the connection groove 23 in one direction from the cylindrical connection hole 42 is formed in an "H" shape, and is formed in the lower side of the connection hole 42. It is formed with a larger diameter and includes installing a nut groove 43 in which a nut can be fixed so that the bolt inserted into the connection hole 42 can be fixed as a nut in the nut groove 43.

A fixing hole 45 is formed at the central portion of the connection protrusion 41, and the locking jaw 25 is installed in a concave-convex shape while being slid and inserted.

Figure 10 is a cross-sectional view showing another embodiment of the present invention in an installed state, Figure 11 is an enlarged cross-sectional view of main parts of another embodiment of the present invention, Figure 12 relates to a cross-sectional view of another embodiment of the sleeve member of the present invention.

In another embodiment of the sleeve member 10, a fire resistant filler filling groove 14 in which the fire resistant filler 30 is installed is formed in the inner diameter of the member connecting shaft 12, and the fire resistant filler filling groove 14 is formed. The filler movement prevention protrusion 18 is formed from the lower end in the outer diameter direction, and after the concrete filling groove 13 is formed on the lower side of the fireproof filler filling groove 14, the sleeve body 11 protrudes in a straight line toward the lower side. includes being

Since the sleeve connection member 20 and the connection fixture 40 installed above the sleeve body 11 are the same as those described in FIGS. 1 to 9, they will be omitted.

The piping connection device for preventing the fireproof filler for the sleeve of the present invention having such a configuration is located on the floor by supplying a nail or screw to the fixing hole 17 of the fixing protrusion 16 formed on the lower side of the sleeve member 10. to be fixed to the panel.

The sleeve member 10 and the sleeve connection member 20 can cast concrete while being fixed to the panel that determines the thickness of the slab on the lower and upper sides, respectively. When the curing of the concrete is completed, the panel is removed and the pipe (50) can penetrate.

At this time, the concrete of the slab poured into the space between the panels fills the concrete filling groove 13 so that no empty space occurs.

When pouring concrete slabs, sewage, sewage, and domestic sewage flowing in from kitchens, bathrooms, verandas, toilets, etc. are drained to the outside of the building through sleeves and each pipe 50, and In the process of connecting, a fireproof filler 30 is installed to prevent toxic gases from moving and spreading to the pipe 50 in the event of a fire in the lower and upper floors.

In the state where the fire resistant filler 30 is installed in the fire resistant filler filling groove 14 of the sleeve member 10, the filler separation prevention protrusion 18 formed in the inner diameter of the fire resistant filler filling groove 14 is the inner diameter of the fire resistant filler 30. It is possible to fix and protect the lower side to prevent separation and to maintain the installed state stably. In the event of a fire, it is melted and foamed due to heat to block the inner diameter, blocking the movement of air such as toxic gas and heat to spread the fire. will be able to prevent

In addition, the fireproof filler 30 is installed by rolling it into a circular shape through cutting based on the incision of one part, but the outer diameter of the lower side and the inner diameter is protected by the member connecting shaft 12, and the fireproof filler filling groove 14 is formed on the inner diameter. It is installed to provide a stable and robust installation state, and the sleeve fixing member 22 is wrapped around the outer diameter of the member connecting shaft 12 to provide a stable installation position and press and fix it from the top.

In the process of forming the slab, the concrete filling groove 13 is completely filled so that the empty space does not occur, and thereby the slab member 10 is firmly fixed through the concavo-convex combination of the concrete filling groove 13 and the concrete. status can be provided.

In addition, in the event of a fire, the pipe 50 is first melted due to the flame, and the member connecting shaft 12 of the sleeve connecting member 20 melts down, and the fireproof filler 30 is also partially foamed to block the inner diameter While this is in progress, if the fireproof filler filling groove 14 and the concrete filling groove 13 of the sleeve member 10 are completely melted before the fireproof filler 30 is completely foamed, the fireproof filler 30 is also lowered as it is. It will sit down and fall, making it impossible to perform the blocking role.

However, since the concrete filling groove 13 protrudes to the lower side of the fireproof filler filling groove 14, and the pouring state is stably maintained without melting into flames due to fire, the member connecting shaft 12 melts. When lowered, the fireproof filler 30 is caught on the concrete filled in the concrete filling groove 13 so that it can maintain the installed state so as not to fall, thereby providing sufficient time for the fireproof filler 30 to completely foam, preventing toxic gases and flames. The movement is so that the source can be blocked to the upper or lower side of the fire site, so even when the temperature of the flame is high and all the polypropylene (PP) melts, the fireproof filler (30) remains filled in the concrete filling groove (13) and falls down It is possible to block the collapse and to fix the position of the fireproof filler 30 so that stable foaming can be achieved.

In the sleeve connecting member 20, the sleeve connecting stone fixing member 22 is bent from the lower side of the sleeve shaft 21 in the outer diameter direction, and is located on the upper side of the fireproof filler filling groove 14 and fixes the upper side of the fireproof filler 30. is to do

The connection protrusion 41 of the connection fixture 40 can be coupled and fixed to the connection groove 23 of the sleeve shaft 21 in a sliding manner from the upper side, and the fixed connection fixture 40 is connected to the pipe 50 After enriching the connecting hole 42 through a bolt in a member (not shown) surrounding the, it is to be fixed with a nut and screw type located in the lower nut groove 43.

When the connection protrusion 41 is coupled to the connection groove 23 in a sliding manner, the locking jaw 25 formed in the central portion of the connection groove 23 is coupled in a concavo-convex shape in the fixing hole 45 and is fixed to rise and fall. is stopped and provides a fixed state.

The sleeve member 10 may have the concrete filling groove 13 formed in a concavo-convex shape as shown in FIGS. 1 to 5, and as shown in FIGS. 10 to 12, the concrete filling groove 13 It can be applied to other embodiments, such as the thrill body 11 being formed so as to protrude downward in a straight line from .

The sleeve member 10 is made independently or can be used by connecting various sleeves to the upper side of the sleeve member 10, and in applying to the sleeve structure of various functions, the fireproof filler 30 is applied and the lower side thereof By having the concrete filling groove 13, it is possible to prevent the fireproof filler 30 from falling due to the concrete filled in the concrete filling groove 13 even when the piping material melts or falls in the event of a fire.

The sleeve member 10 has been described based on the state of connecting pipes, but it can be installed in various ways and locations on the upper and lower floors of buildings, such as rainwater drains, general drain pipes, and riser pipes, and in various sleeve structures other than through sleeves. It includes the application and connection structure of various plumbing such as kitchen, veranda, bathroom, toilet, sewage.

In the present invention, in the process of coupling the sleeve member and connecting the pipes, the connection of the pipes is made accurately at the upper and lower sides, and the fireproof filler is installed stably and conveniently to prevent the spread of fire in the filler installation groove on the lower side, and the sleeve By forming a concrete filling groove in the member in the inner diameter direction, the concrete filled in the filling groove does not collapse even when the concrete of the slab is filled and all pipes are melted by heat in the event of a fire. It is to provide a very useful invention that can prevent the spread of.

10: sleeve member 11: sleeve body
12: member connecting shaft 13: concrete filling groove
14: fireproof filler filling groove 15: bottom wing
16: fixing protrusion 17: fixing hole
18: filler release prevention protrusion 20: sleeve connection member
21: sleeve shaft 22: sleeve fixing member
23: connection groove 25: locking jaw
30: fireproof filler 40: connection fixture
41: connection protrusion 42: connection hole
43: nut groove 45: fixing hole
50: piping

Claims (5)

Piping is connected to the slab of the multi-story building, and a fire-resistant filler is installed in the inner diameter to prevent the spread of fire.
The fireproof filler installation groove 14 is formed in the inner diameter of the member connecting shaft 12, the fireproof filler 30 is installed, and the upper part of the concrete filled in the concrete filling groove 13 formed below the outer diameter of the member connecting shaft 12 It includes a sleeve member 10 formed so that the refractory filler 30 is caught on and does not fall;
A sleeve fixing member connected to the upper side of the sleeve member 10, bent in the outer diameter direction at the lower side of the sleeve shaft 21, wrapped around the outer diameter of the member connecting shaft 12 to protect it, and pressing and fixing the upper side of the fireproof filler 30 (22) A pipe connection device for preventing the fireproof filler for the sleeve from falling, including a connection holder 40 into which a locking jaw 25 protrudes and is slidably inserted and a sleeve connection member 20 fixed in a concave-convex shape.
According to claim 1,
The sleeve member 10 includes a member connecting shaft 12 for installing a fire resistant filler 30 into a fire resistant filler filling groove 14 formed in an inner diameter;
Including that the filler separation prevention protrusion 18 protrudes in the inner diameter direction from the lower side of the fireproof filler filling groove 14,
Piping connection device for preventing the fall of the fireproof filler for the sleeve, including the fireproof filler 30 being formed so that the fireproof filler 30 is caught on the top of the concrete filled in the concrete filling groove 13 formed below the outer diameter of the member connecting shaft 12 and does not fall. .
delete delete According to claim 1,
The sleeve connecting member 20 includes a connecting groove 23 formed on the outer diameter and a locking jaw 25 installed in the central portion,
A fixing hole 45 is formed inside the connection protrusion 41 slidably coupled to the connection groove 23, and a connection hole 42 is formed on one side of the connection protrusion 41, and the connection hole Pipe connection device for preventing the fall of the fireproof filler for the sleeve, including a connection fixture 40 having a nut groove 43 formed on the lower side of the 42 is further installed.

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