KR101948596B1 - Seismic restraint of gas piping - Google Patents

Abstract

The present invention relates to a fixing device for a gas pipe installed in a building such as an apartment or a building. More specifically, the present invention relates to a seismic restraint of gas piping in which a gas pipe is fixed to the inside of the housing for buffering in all directions, and thus shocks attributable to earthquakes and impacts can be reduced, damage and breakage of the gas pipe can be prevented, and gas pipe damage attributable to vibration resulting from earthquakes and impacts can be minimized. A first housing for buffering is installed between a second housing for gas pipe fixing and a fixing bracket fixedly installed on a wall, and thus damage of the first housing attributable to impacts and earthquakes can be minimized. The second housing installed inside the first housing performs buffering as well, and thus damage and breakage of the gas pipe can be prevented, and gas pipe damage attributable to vibration resulting from earthquakes and impacts can be minimized.

Description

{Seismic restraint of gas piping}

The present invention relates to a fixing device for a gas pipe installed in a building such as an apartment or a building. More specifically, the gas pipe is fixed to the inside of the housing so as to buffer the gas pipe in all directions, To prevent damage and breakage of the gas piping, thereby minimizing the damage of the gas piping due to the vibration caused by the earthquake and the impact.

Generally, a city gas supplied to a multi-family house or a private house or an apartment is generally installed in a basement or installed in a basement in a basement, And connected to the gas piping to which the meter is attached.

It is common that the branch pipe or gas piping exposed to the inside of the building from the underground is fixedly installed on the outer wall of the building for several times. The gas piping exposed to the outside should be prevented from corrosion for a long period of time, It is safe that it should be installed so as to block the flow of the water.

The conventional method of fixing the branch pipe or the gas pipe to the building wall uses a bracket that fixes the gas pipe so that the gas pipe is spaced apart from the building wall at a predetermined distance or the gas pipe is installed directly on the building wall, The fixing clamp is used, and the bracket or the fixing clamp is fixedly attached to the building wall with a fastening bolt.

At this time, when the bracket as described above is used, the gas piping is fixed to the upper end of the bracket with U-bolts and fixing nuts, and when the fixing clamp is used, the gas piping is fixed to the inside of the fixing clamp.

However, in case of general brackets or fixed clamps, vibration or shock caused by earthquake or external impact causes gas pipe to loosen or sag, causing gas pipe to break, resulting in serious accident .

In order to prevent an accident from occurring due to the above-mentioned problems, a clamp and a fixing device for securing a fluid or a piping having an electric wire in the inside thereof, as well as gas piping, have been developed. Korean Patent Laid-Open Publication No. 2010-0066099 discloses a piping fixture having an earthquake-proof packing that protects piping by directly absorbing shocks caused by earthquakes or vibrations by applying elasticity to the piping by wrapping piping installed in a section steel, a concrete upper plate, Device.

In another example of the prior art, Korean Patent Registration No. 1601258 discloses a method in which when a fluid flowing inside a pipe is supplied to a support for supporting a pipe or a pipe against vibrations and shocks generated from a supply device for supplying a fluid or a fluid, The present invention suggests an anti-seizing pipe clamp that absorbs shock and vibration to prevent damage and breakage of the pipe and the support, eliminates limited use due to variation and error according to the pipe standard, and is easy to fasten and disassemble. That is, it is necessary to develop a fixing device capable of effectively mitigating vibration caused by an earthquake or an impact, thereby more effectively preventing damage and breakage of the gas pipe.

Korea Patent Publication No. 2010-0066099 Korean Patent No. 1601258

The present invention has been made to solve the above-mentioned problems of the related art, and it is an object of the present invention to provide a fixing device for a vehicle, which comprises a first housing provided on an upper portion of a fixing bracket fixedly mounted on a wall, 2 The gas pipe is fixed to the housing to mitigate vibrations and shocks generated in the gas pipe to prevent damage and breakage of the gas pipe and to generate multiple elastic forces by the first housing and the second housing, And an object of the present invention is to provide an earthquake-proof fixing device for a gas pipeline which can fix a gas piping to a pipe.

In order to achieve the above-mentioned object, the present invention provides a fixing bracket having both sides of a lower portion fixed on a wall surface of a building and provided with coupling protrusions protruding upward on both sides thereof, And a first housing coupled to the coupling protrusion so as to be elastically supported on both sides of the coupling protrusion and having a gas pipe coupled to an inner side thereof.

The first housing of the present invention may include a first housing having a lower portion elastically supported on one side of the upper portion of the fixing bracket, a first side of the fixing bracket being coupled to the first side of the fixing bracket so as to be elastically supported, The lower bracket is coupled to the lower housing such that the lower portion is elastically supported on the upper side of the upper bracket, the other side of the fixing bracket is coupled to the other bracket so as to be resiliently supported and the curved surface is formed on the inner side, A first lower housing coupled to an upper portion of the first lower housing so as to be elastically supported by the lower portion thereof and formed in a curved shape, and a second lower housing coupled to an upper portion of the second lower housing, A second upper housing coupled to the upper portion of the first upper housing so as to be resiliently supported by the upper portion and formed in a curved shape, It characterized by being configured.

The present invention further includes a second housing coupled to the inside of the first housing to be elastically supported, and a gas pipe coupled to the inside of the first housing.

Further, in the present invention, the second housing is formed as a pair of semicircular shapes, each having a coupling hole formed in an upper and lower outer periphery, respectively, to fix the gas piping to the inner side, A plurality of through holes and a plurality of elasticity adjusting members coupled to the through holes and coupled to the coupling holes at a lower portion thereof.

According to another aspect of the present invention, the through hole is formed with a thread on the inner circumference thereof, the elasticity adjusting member is integrally formed with the tightening head formed at the upper end and the lower portion of the tightening head, A rod having a thread formed in its periphery and coupled to the through hole, a rod having an upper portion inserted into the inner hole of the housing and a coupling head formed at a lower portion thereof and a rod provided at the outer circumference of the rod, And a spring supported on the upper surface of the coupling head.

The earthquake-proof fixing apparatus for a gas pipe according to the present invention as described above is installed between a fixing bracket fixedly installed on a wall and a second housing fixing the gas pipe so that the first housing generates a damping action, In addition to minimizing damage due to impact and vibration, the second housing provided inside the first housing also generates a buffering action, thereby minimizing damage and breakage of the gas piping due to vibration caused by earthquake and impact The effect can be obtained.

1 is a front view showing a fixing device according to a preferred embodiment of the present invention.
2 is an exploded perspective view showing a second housing and a gas pipe according to a preferred embodiment of the present invention.
3 is an exploded perspective view showing a first housing and a second housing according to a preferred embodiment of the present invention.
4 is an exploded perspective view showing a part of a fixing bracket and a second housing according to a preferred embodiment of the present invention.
5 is a front sectional view showing a fixing device according to a preferred embodiment of the present invention.
6 is an enlarged view of a portion "A"
7 is an enlarged view of a portion "B"
8 is a partially enlarged view of "C"

The present invention relates to a fixing device for a gas pipe (1) installed in a building such as an apartment, a building, a multi-family house, a private house or the like. More specifically, And a first plate spring 20 which is installed inside the housing 10 to which the lower portion is coupled and has a concave and convex portion 22 protruding inward. The gas pipe 1 is fixed to the inside of the gas pipe 1 so as to be elastically supported in four directions to mitigate the vibration of the gas pipe 1 to prevent damage and breakage of the gas pipe 1, The gas pipe (1) can be easily installed by adjusting the elastic force of the leaf spring (20), and the elastic force of the first leaf spring (20) Of an earthquake-proof fixing device to be.

In addition, the earthquake-proof fixing apparatus for gas piping according to the present invention is not suitable for piping having a large load, such as a pipe through which a fluid flows or a pipe in which a wire or the like is buried therein, It is preferable to use only for the gas piping which does not significantly increase the load of the gas piping.

In order to accomplish the above-mentioned object, the present invention provides a fixed bracket 100 having a lower side fixed to a wall of a building and having a coupling protrusion 110 protruding upward in both directions, And a first housing 200 coupled to an upper portion of the first housing 200 so as to be elastically supported by the lower portion thereof and coupled to the coupling protrusions 110 so as to be elastically supported on both sides thereof, .

The first housing 200 of the present invention is configured such that the lower portion of the first housing 200 is elastically supported on one side of the upper portion of the fixing bracket 100 and the other side of the fixing bracket 100 is elastically supported The lower bracket 100 is coupled to the lower bracket 100 so as to be elastically supported on the other side of the upper portion of the bracket 100, A second lower housing 220 coupled to the other side of the first lower housing 210 so as to be elastically supported on the other side of the first lower housing 210, A first upper housing 230 coupled to an upper portion of the first lower housing 210 so as to be elastically supported by the lower portion and formed in a curved shape; And a second upper housing (220) coupled to the upper portion of the second lower housing (220) so as to be resiliently supported by the lower portion and coupled to the upper portion of the first upper housing 240). ≪ / RTI >

The present invention further includes a second housing 300 coupled to the inside of the first housing 200 so as to be elastically supported and having a gas pipe 10 coupled to the inside thereof.

In addition, the second housing 300 may include a semicircular pair of coupling holes 310 formed at the upper and lower portions of the outer periphery of the second housing 300, respectively, to fix the gas piping 10 to the inside thereof, The housing 200 includes a plurality of through holes 250 corresponding to the coupling holes 310 and a plurality of elastic members 330 coupled to the through holes 250 and coupled to the coupling holes 310, And an adjusting member (260).

The through hole 250 of the present invention is formed with a thread on its inner periphery and the elastic regulating member 260 has a tightening head 262 formed at an upper end thereof and a tightening head 262 integrally formed at a lower portion of the tightening head 262. [ A housing 264 having an inner cavity 264a formed on the inner side and a thread formed on the outer periphery of the cavity 264 and coupled to the through hole 250 and an inner cavity 264b formed in the inner cavity 264a of the housing 264, A rod 266 into which a coupling head 266a is formed; And a spring 268 mounted on the outer periphery of the rod 266 and having an upper portion supported by the lower portion of the housing 264 and a lower portion supported by the upper surface of the coupling head 266a .

Hereinafter, the present invention will be described in detail with reference to the drawings 1 to 8 showing embodiments of the present invention.

The fixing bracket 100, which is a main component for achieving the present invention,

The first housing 200, which will be described later, is coupled so as to be resiliently supported on the upper portion. The first housing 200 is coupled to the upper portion of the first housing 200, And at least two coupling holes (unshown) for coupling with the housing 200 are formed.

Specifically, the fixing bracket 100 includes a body (not shown) having at least two or more coupling holes formed therein, and a fixing member (not shown) formed on both sides of the body and configured to have a "b" shape for separating the body from a wall surface of the building And a coupling protrusion 110 protruding upward from both sides of the body and having at least one coupling hole (not shown) formed therein.

In addition, the coupling holes formed in the body and the coupling protrusions 110 correspond to the first coupling holes (not shown) formed in the first housing 200 to be described later in detail, The first housing 200 is resiliently supported and coupled to the fixing bracket 100 by the fixing bracket 400.

At this time, the elastic coupling member 400 includes a bolt (not shown) having a thread on the outer circumference and a head (not shown) on the top, a nut (not shown) screwed on the bolt, And an elastic spring (not shown) inserted therein.

After the bolts are inserted into the coupling hole of the fixing bracket 100 or the first coupling hole of the first housing 200, the elastic coupling member 400 is inserted into the elastic spring, And then the bolt is inserted into the first coupling hole of the first housing 200 or the coupling hole of the fixing bracket 100 and then fixed using a nut so that the first housing 200 is fixed to the fixing bracket 100, Is elastically supported and coupled.

In other words, the elastic coupling member 400 pulls the bolt into the coupling hole of the fixing bracket 100 and the first coupling hole of the first housing 200, and the bolt is inserted into the first bracket 100 and the first housing 200 The first housing 200 is elastically biased by the spring to generate a shock due to an earthquake or an impact, so that the elastic force of the elastic spring is applied to the first housing 200, The gas piping 10 installed inside is protected.

In addition, the elastic coupling member 400 can adjust the elastic force of the elastic spring according to the tightness of the nut, and when the first housing 200 is coupled to the fixing bracket 100 The elastic force of the elastic spring can be controlled and the elasticity of the elastic spring can be prevented from lowering as the time elapses.

The first housing 200, which is a main component for achieving the present invention,

The fixing bracket 100 is coupled to the upper portion of the fixing bracket 100 so as to elastically support the lower portion of the fixing bracket 100. The fixing bracket 100 is coupled to the coupling protrusion 110 such that both sides thereof are elastically supported, And the elastic coupling member 400 is coupled to the upper portion of the main body of the fixing bracket 100 such that the coupling protrusion 110 and both sides of the fixing bracket 100 are elastically supported using the elastic coupling member 400. [ .

As described above, the first housing 200 of the present invention includes a first housing 200 and a second housing 200, which are coupled to the body of the fixing bracket 100 and the coupling protrusions 110 by using the elastic coupling member 400, A first engaging hole (not shown) corresponding to the engaging hole formed in the body of the fixing bracket 100 and the engaging projection 100 is formed.

In the first housing 200 of the present invention, the gas piping 10 is fixedly coupled to the inside of the first housing 200. In the absence of the second housing 300, which will be described later in detail, It is obvious that the inside diameter of the gas pipe 10 is formed so as to correspond to the outside diameter of the gas pipe 10 so that the gas pipe 10 can be closely contacted with the outside of the gas pipe 10. In case the second housing 300 is provided, It is preferable that the elastic regulating member 260 is formed to be larger than the outer diameter of the elastic regulating member 300 to be described later.

The first housing 200 of the present invention is coupled to one side of the upper portion of the fixing bracket 100 so that the lower portion thereof is elastically supported and one side of the fixing bracket 100 has one side A first lower housing 210 coupled to the upper end of the fixing bracket 100 so as to be resiliently supported and having a curved surface 212 formed on an inner side thereof, A second lower housing coupled to one side of the first lower housing 210 so as to be elastically supported on the other side of the first lower housing 210, A first upper housing 230 coupled to an upper portion of the first lower housing 210 so as to be elastically supported by the lower portion of the first lower housing 210, A first upper housing (230), a second upper housing Is coupled to the elastic support, characterized in that the configuration including the second upper housing 240 formed with a curved shape.

The first lower housing 210 is coupled to one side of the upper portion of the body of the fixing bracket 100 so that the lower portion thereof is resiliently supported by the elastic coupling member 400, When the second housing 300 to be described later is not provided, the cylindrical gas pipe 10 may be coupled to the inner side in the inner direction, that is, The curved surface 212 is formed.

The second lower housing 220 is coupled to the other side of the upper portion of the body of the fixing bracket 100 so that the lower portion thereof is resiliently supported by the elastic coupling member 400 and the other coupling protrusion 110 of the fixing bracket 100, When the second housing 300 to be described later is not provided, the cylindrical gas pipe 10 may be coupled to the gas pipe 10 so as to be elastically supported on the other side thereof by the elastic coupling member 400, The curved surface 212 is formed.

At this time, the second lower housing 220 is coupled to the other side of the first lower housing 210 so that one side thereof is coupled with the elastic coupling member 400 to be resiliently supported by each other, 1, a buffering action is generated independently from the lower housing 210, thereby realizing an effect of more stably protecting the gas piping 10.

At least one second coupling hole (not shown) is formed on one side of the first lower housing 210 and one side of the second lower housing 220 to which the elastic coupling member 400 can be coupled.

The first upper housing 230 is coupled to an upper portion of the first lower housing 210 so that the lower portion of the first upper housing 230 can be elastically supported by the elastic coupling member 400 and the second housing 300 is not provided And is formed in a curved shape so that the gas piping 10 can be coupled.

At this time, the first upper housing 230 is formed with a first engaging piece (not shown) protruding outwardly, i.e., in one side direction, so that the upper surface of the first lower housing 210 and the elastic engaging member 400 The upper surface of the first lower housing 210 and the first engagement piece are respectively engaged with a third engagement hole (not shown) through which the elastic engagement member 400 is coupled, Not shown) is formed.

The second upper housing 240 is coupled to an upper portion of the second lower housing 220 such that the lower portion of the second upper housing 240 is resiliently supported by the elastic coupling member 400 and the second housing 300 is not provided And is formed in a curved shape so that the gas piping 10 can be coupled.

At this time, the second upper housing 240 is formed with a second coupling part (not illustrated) protruding outwardly, that is, toward the other side, so that the upper surface of the second lower housing 220 and the elastic coupling member 400 Like the first lower housing 210 and the first upper housing 230, the upper surface of the second lower housing 220 and the second engaging piece are elastically coupled to each other by the resilient coupling A fourth engaging hole (not illustrated) formed to penetrate the member 400 is formed.

The first upper housing 230 and the second upper housing 240 are elastically supported by the elastic coupling member 400 so that the first lower housing 210 and the second lower housing 220 are coupled to each other, The first upper housing 230 and the second upper housing 240 are independently buffered to protect the gas piping 10.

The upper portion of the first upper housing 230 and the upper portion of the second upper housing 240 are coupled to the upper portion of the first upper housing 230 and the upper portion of the second upper housing 240, (Not shown) and a fourth engaging piece (not shown) are formed on the third engaging piece and the fourth engaging piece, respectively, and the fifth engaging hole (Not shown) is formed.

That is, the first housing 200 of the present invention is configured such that the first lower housing 210 and the second lower housing 220 are elastically supported on the upper portion of the fixing bracket 100, A cylindrical gas pipe 10 can be stably installed on the wall surface of the building by being coupled with the protrusion 110 so as to be resiliently supported and formed so as to have a circular inner side while the first lower housing 210, The buffering action occurs independently of the lower housing 220, the first upper housing 230 and the second upper housing 240 by the elastic coupling member 400 so that the gas piping 10 can be more stably It is possible to obtain an effect of protecting against vibration caused by impact.

The second housing 300, which is a main component for achieving the present invention,

And a gas pipe 10 is coupled to the inside of the first housing 200 so as to be elastically supported on the inside of the first housing 200 so that a spacing space (not illustrated) is formed inside the first housing 200 The elastic coupling member 400 is elastically supported by the plurality of elasticity adjusting members 260 so that the secondary cushioning action is generated after the primary cushioning action by the elastic coupling member 400. This further stabilizes the gas piping 10 to an earthquake, To protect it from vibration caused by vibration.

Specifically, in the second housing 300 of the present invention, the fifth joining piece (not shown) protruding outwardly, that is, in the lower and upper directions, is formed on the upper and lower outer peripheral edges, A sixth coupling hole (not shown) is formed, and a coupling bolt (not shown) is coupled to the sixth coupling hole, thereby firmly fixing the gas piping 10 to the inside.

The first housing 200 of the present invention includes a plurality of through holes 250 corresponding to the coupling holes 310 and a plurality of through holes 250 corresponding to the coupling holes 310, The second housing 300 can be resiliently supported by the first housing 200. As a result, the second housing 300 can be elastically supported.

5, at least one of the curved surfaces 212 and 222 is formed in the first lower housing 210 and the second lower housing 220, At least one of the housing 230 and the second upper housing 240 is formed in a curved body (not shown). Preferably, the first lower housing 210 and the second lower housing 220 are provided with curved And the first upper housing 230 and the second upper housing 240 are formed at the center of a curved body (not shown).

The resilient adjusting member 260 is integrally formed at the lower portion of the tightening head 262 and has an inner cavity 264a formed in the inner side of the tightening head 262, A rod 266 in which an upper portion is inserted into the inner hole 264a of the housing 264 and a coupling head 266a is formed at a lower portion of the rod 266, And a spring 268 mounted on the periphery of the housing 264 and having an upper portion supported by the lower portion of the housing 264 and a lower portion supported by the upper surface of the coupling head 266a.

The rod 266 is moved along the inner hole 264a of the housing 264 and is elastically supported by the spring 268 so that the elasticity of the first housing The second housing 300 coupled to the first housing 200 can be elastically supported.

That is, in the second housing 300 of the present invention, the elastic regulating member 260 is coupled through the through hole 250 of the first housing 200, and the lower portion of the elastic regulating member 260 And is coupled to the coupling hole 310 so as to be resiliently supported by the first resilient member 200 by the resilient adjusting member 260 so that a buffering action is applied to the gas piping 10 coupled to the inner side when vibration is generated by an earthquake or an impact It is possible to obtain an effect of generating the image.

The elastic regulating member 260 may be inserted into and engaged with the coupling hole 310 of the second housing 300 and may be coupled to the coupling head 266a for more rigid coupling. And the inner periphery of the coupling hole 310 of the second housing 300 may be formed with corresponding threads (not shown).

At this time, the resilient adjusting member 260 can adjust the elastic force between the first housing 200 and the second housing 300. The gas pipe 10 is coupled to the inside of the second housing 300, A thread is formed on the inner periphery of the through hole 250 of the first housing 200 and the housing of the elastic regulating member 260 The elastic force of the spring 268 is adjusted by forming a thread on the outer periphery of the housing 264 and rotating the housing 264 using the tightening head 262 of the housing 264. [

That is, the through hole 250 of the first housing 200 is formed with a thread on the inner circumference thereof, the housing 264 of the elasticity adjusting member 260 is formed with threads on the outer circumference thereof, The length of the lower portion of the housing 264 protruding between the first housing 200 and the second housing 300 is adjusted by adjusting the elasticity of the first housing 200 and the second housing 300, A buffering action can be stably generated in the second housing 300 and the gas piping 10 coupled to the inside of the second housing 300.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It is possible to carry out various changes in the present invention.

10: gas piping 100: fixed bracket
110: engaging projection 200: first housing
210: first lower housing 212, 222: curved face
220: second lower housing 230: first upper housing
240: second upper housing 250: through hole
260: elasticity adjusting member 262: tightening head
264: Housing 264a: Inner hole
266: Load 266a: Coupling head
268: spring 300: second housing
310: coupling hole 400: elastic coupling member

Claims (5)

A fixing bracket 100 fixed to both sides of the wall of the building and provided with coupling protrusions 110 protruding upward in both directions and a fixing bracket 100 coupled to the upper portion of the fixing bracket 100 so as to be elastically supported, And a first housing (200) coupled to the coupling protrusion (110) so as to be elastically supported on both sides thereof and having a gas pipe (10)
The first housing 200
The lower portion of the fixing bracket 100 is elastically supported on one side of the upper portion of the fixing bracket 100. The lower portion of the fixing bracket 100 is elastically supported on one side of the fixing protrusion 110 of the fixing bracket 100, A first lower housing 210;
The lower part of the fixing bracket 100 is elastically supported on the other side of the upper part of the fixing bracket 100 and the other side of the fixing bracket 100 is elastically supported on the other side of the fixing bracket 100 and a curved surface 222 is formed inside Meanwhile, a second lower housing 220 coupled to one side of the first lower housing 210 so as to be elastically supported,
A first upper housing 230 coupled to an upper portion of the first lower housing 210 so as to be elastically supported by the lower portion and formed in a curved shape; And
A second upper housing 240 coupled to the upper portion of the second lower housing 220 so as to be resiliently supported by the lower portion and coupled to the upper portion of the first upper housing 230 so as to be elastically supported, And an earthquake-resistant apparatus for gas piping.
delete The method according to claim 1,
The earthquake-proof fixture of the gas pipe
Further comprising a second housing (300) coupled to the inside of the first housing (200) so as to be resiliently supported, and a gas pipe (10) coupled to the inside of the first housing (200).
The method of claim 3,
The second housing (300)
A pair of semicircular shapes each having a coupling hole 310 formed in an outer peripheral upper portion and a lower portion thereof, respectively, and the gas piping 10 is fixed to the inner side,
The first housing 200
A plurality of through holes 250 corresponding to the coupling holes 310;
And a plurality of elasticity adjusting members (260) penetrating through the through holes (250) and coupled to the coupling holes (310) at a lower portion thereof.
5. The method of claim 4,
The through hole 250
A thread is formed on the inner periphery,
The elastic regulating member 260
A tightening head 262 formed at an upper end thereof;
A housing 264 integrally formed on the lower portion of the tightening head 262 and having an inner cavity 264a formed on the inner side thereof and a thread formed on the outer periphery thereof to be coupled to the through hole 250;
A rod 266 into which an upper portion is inserted into the inner hole 264a of the housing 264 and a coupling head 266a is formed at a lower portion thereof; And
And a spring 268 mounted on the outer circumference of the rod 266 and having an upper portion supported by the lower portion of the housing 264 and a lower portion supported by the upper surface of the coupling head 266a An earthquake-proof fixing device for a gas pipeline which is characterized by:

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