KR20190060253A - Pipe connector for earthquake-proof - Google Patents

Abstract

The present invention relates to an earthquake-proof pipe connector, and more specifically, relates to the earthquake-proof pipe connector which is disposed between an earthquake-proof pipe strut fixed to a wall of a building and a pipe spaced apart from the wall surface, and is stably connected between the pipe and the pipe strut while preventing direct compression of the pipe by the pipe strut, thereby preventing physical damage to the pipe caused by compression and preventing the pipe from being shaken in a longitudinal direction and a lateral direction by fixing the pipe to the wall by the pipe strut when an earthquake occurs.

Description

Pipe connector for earthquake-proof

More particularly, the present invention relates to an anti-corrosive pipe connector, and more particularly, to an anti-corrosive pipe connector that is disposed between an anti-vibration pipe bracket fixed to a wall of a building and a pipe spaced from the wall surface to prevent direct compression of the pipe by the pipe brace. And more particularly, to an oil piping connector for preventing piping from being physically damaged due to compression when an earthquake occurs, and preventing piping from being shaken in the longitudinal direction and the lateral direction by being fixed to the wall by the piping braces .

In general, piping is designed to withstand the design ground movement at the time of design, but recently, there has been a tendency that the level of the design ground motion in the earthquake design standards of each country is being upgraded due to a large number of earthquakes and disasters caused there.

Therefore, it is required to strengthen the seismic performance not only in the structure but also in the piping system. As a countermeasure for reinforcing the seismic performance of the piping system, there are a method of correcting the piping plan, a method of using a hanger provided with a damping device, .

But. In order to improve the seismic performance of the piping system that is designed to be optimized, it is possible to modify the piping plan or introduce the damping device as a whole, which may cause excessive cost.

Accordingly, in the art, an anti-vibration piping for preventing the vibration of the pipeline is installed to fix the piping and the inner wall of the building structure in a regular manner, thereby preventing the piping from being independently shaken by the seismic waves. .

Conventional piping braces include a fixing bracket fixed to a wall of a building and a metal clamp for pressing and fixing the outer diameter of a pipe spaced from the wall; And a support arm for separating the clamping bracket from the clamp, so that the outer diameter of the pipe is pressed through the metal clamp to fix the pipe in the longitudinal direction and the transverse direction.

However, when the outer diameter surface of the pipe is directly pressed and fixed through the clamp, in particular, in the case of a pipe made of synthetic resin, there is a possibility that the pipe becomes uniform or ruptured due to the pressing by the metal clamp.

Particularly, in the case of an earthquake-proof piping brace, it is necessary to press the piping sufficiently to fix the piping spaced from the wall of the building in the lateral direction and the longitudinal direction in case of earthquake. In this process, cracking or breakage of the piping may be caused If the expansion and contraction of the piping due to the temperature change occurs, the piping may become poorly fixed and cracking of the piping may be caused.

Therefore, it is not preferable to press and fix the piping made of the synthetic resin through the clamp of the metal material in view of durability and fixability of the piping.

KR 10-1422333 B1 KR 20-2016-0001755 Y

It is an object of the present invention, which is devised to solve the above-mentioned problems, to provide a piping system which is disposed between an anti-vibration piping bracket fixed to a wall of a building and a piping spaced from the wall to prevent direct compression of piping by a piping bracket, The piping is stably connected between the braces so as to prevent physical damage to the piping due to compression, and to prevent the piping from being shaken in the longitudinal direction and the lateral direction by being fixed to the wall by the piping brace when an earthquake occurs, have.

The above object is achieved by the following constitutions provided in the present invention.

The vibration-proof anti-shake brace according to the present invention comprises:

And two or more split couplings each formed with arc-shaped grip grooves inscribed on the outer diametric surface of the pipe on the inner circumferential surface thereof to enclose the outer circumferential surface of the pipe in a divided manner,

A connection end connected to the clamp portion of the piping brace is protruded at one side of at least one of the split couplings of the pair of split couplings,

Wherein the clamping portion of the pipe support team is connected to the connection end of the split couplings wrapped around the outer diameter of the pipe and connected to the pipe.

Preferably, a first split coupling and a second split coupling, which divide the outer circumferential surface of the pipe,

Wherein the first split coupling and the second split coupling are disposed concentrically with the outer diameter of the pipe by enclosing the outer diameter surface of the first split coupling and the second split coupling through the respective grip grooves,

An adhesive is applied between the arc-shaped grip grooves of the split couplings and an outer diameter surface of the outer tube, and each of the split couplings wrapped around the outer diameter surface of the pipe and the pipe is fixed by adhesion.

More preferably, the split coupling ends are symmetrically formed on one side of the first split coupling and the second split coupling, and when the first split coupling and the second split coupling enclose the outer diameter surface of the pipe in a divided manner, The split connection ends formed in the first split coupling and the second split coupling are configured to be held in close contact with each other to form a connection end protruding to one side.

The connecting end is formed in an arc shape to closely contact the edges to form a hollow tube, and the outer diameter surface is pressed and fixed by the clamp of the tube brace made of the hollow tube.

In addition, the piping and the split coupling are made of a synthetic resin, and are structured so that stable adhesion can be achieved by an adhesive.

The pair of split couplings, which are wrapped around the outer circumferential surface of the pipe, are divided into at least one auxiliary piece, and the pair of split couplings, which are wrapped around the outer circumferential surface of the pipe, And then stuck to the outer surface of the pipe by the assembly bolt fastened through the auxiliary piece.

Further, the pair of split couplings are formed so as to have a half-width grip groove recessed in the inner diameter, and are configured to enclose the upper half outer diameter surface and the lower half outer diameter surface of the pipe in a divided manner.

As described above, according to the present invention, there is proposed an internal piping connector for connecting a piping to a clamp of a piping bracket without cutting piping or directly pressing the piping.

Particularly, the piping connector is structured such that the split clamp is divided and wrapped around the outer circumferential surface of the piping, and then fixed to the piping through adhesion. Thus, stable connection and assembly between the piping and the piping connection can be achieved without direct compression of the piping, The rupture and cracking of the pipe due to the compression of the pipe can be suppressed.

Even if the pipe expands and contracts due to the temperature change, the split coupling wrapping the pipe is made of the same synthetic resin as the pipe, and is adhered to the outer surface of the pipe through the bonding, so that even if the pipe is expanded and contracted, Or cracking can be prevented.

Further, since the piping is fixed by covering the outer diameter surface of the pipe with the split coupling without cutting the pipe, the present invention can reduce the troubles in the construction due to the connection between the cuts through the 'T' And there is no possibility of leakage occurring at the part connected through the 'T' type branch pipe after cutting.

That is, according to the present invention, a 'T' -shaped connection structure is formed in the pipe by split couplings dividing the outer diameter surface of the pipe into segments without being cut and joined, and connecting ends protruding from one side of the split couplings The pipe can be easily fixed to the clamp of the pipe brace without direct compression of the pipe.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing an overall configuration of a corrosion-resistant pipe connector proposed in the preferred embodiment of the present invention,
FIGS. 2 to 4 show a construction state in which a piping and a piping bracket are connected to each other by using an anti-corrosive piping connector proposed in the preferred embodiment of the present invention,
FIG. 5 is a view illustrating a connection process between a pipe connection and an exhaust pipe according to a preferred embodiment of the present invention, and a sequential connection of a pipe connection and a pipe support connected to the pipe.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an exhaust pipe fitting according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing an overall configuration of a corrosion-resistant pipe connector proposed in the preferred embodiment of the present invention. FIG. 2 through FIG. 4 are cross- FIG. 5 is a perspective view showing a connection state between a pipe connection and an exhaust pipe proposed in the preferred embodiment of the present invention, a sequential connection state between a pipe connection and an exhaust pipe connected to the pipe, .

As shown in FIG. 2 to FIG. 4, the anti-dust pipe connector 1 proposed in the preferred embodiment of the present invention is assembled and fixed to a pipe P made of a synthetic resin material disposed so as to be spaced apart from the wall W of the building So that the piping P and the piping braces 100 fixed to the wall W of the building can be indirectly connected to each other without any direct compression of the piping P by the clamp 130 formed on the piping brace 100. [ And is a kind of auxiliary equipment that fixes the piping P to the wall W of the building through the piping brace 100.

The piping bracket 100 for fixing the piping P to the wall W includes a fixing bracket 110 fixed to the wall W of the building; A clamp 130 composed of a pair of clamp members 131 and 132; And a support arm 120 that separates the clamp 130 and the fixing bracket 110 from each other and connects the fixing bracket 110 and the clamp 130 in a hinge structure do.

In this embodiment, the piping P is fixed to the wall W of the building through the piping brace 100 to prevent the piping P from swaying in the lateral direction and the longitudinal direction when an earthquake occurs, P) are independently shaken and physically damaged.

Particularly, in the present invention, the outer surface of the pipe P is directly pressed through the clamp 130 formed on the pipe brace 100 to fix the pipe P made of a synthetic resin material and the pipe brace 100 made of a metal material The piping P is fixed through the pipe connection port 1 having the unique connection structure according to the present embodiment and the pipe connection port 1 to which the pipe P is fixed is connected to the clamp 130 of the pipe brace 100 So that the piping P is stably fixed to the piping brace 100 without excessively pressing the piping P by the piping brace 100.

As shown in FIGS. 1 to 4, the inner pipe connecting port of the piping and indirectly connecting the pipe and the clamp of the pipe bracket has an arc-shaped grip groove (not shown) which is inscribed on the outer diameter surface of the pipe P 10A-10, 10A-10, and 10B-a, respectively, and two or more split couplings 10A, 10B for dividing the outer diameter surface of the pipe P.

In the present embodiment, at least one of the split couplings 10A and 10B is formed with a coupling end protruding from the clamp 130 of the piping brace 100 to be joined thereto.

In the present embodiment, the exhaust pipe fitting 1 is divided into a first split coupling 10A for dividing the outer circumferential surface of one side of the pipe P and a second split coupling 10B for dividing the other outer circumferential surface of the pipe ).

Each of the first split coupling 10A and the second split coupling 10B is formed with half-grip grip grooves 10A-a and 10B-a on the inner circumferential surface thereof, and these grip grooves 10A-a The first split coupling 10A and the second split coupling 10B are closely attached to the outer diameter surface of the pipe P and arranged concentrically on the outer diameter surface of the pipe P. [

In this embodiment, as shown in FIGS. 2 and 5, an adhesive 30 is applied between the pipe P made of the synthetic resin and a pair of split couplings 10A and 10B made of synthetic resin, P and the split couplings 10A and 10B are adhered and fixed by the adhesive layer 30 formed by the adhesive.

That is, in this embodiment, the split couplings 10A and 10B are made of the same material as the pipe P made of synthetic resin without forcing the pipe P through the split couplings 10A and 10B, And adhered to each other through the adhesive 30 so that the pipe P is fixed in the lateral direction and the longitudinal direction.

That is, the sealing pipe fitting 1 is fixed to the outer surface of the pipe 10 by adhesion, and as a result, the pipe fitting 10 is stably fixed to the outer surface of the pipe 10 without excessively pressing the pipe 10 .

Therefore, the pipe fittings 1 for sealing according to the present embodiment fix the pipe through adhesion without excessively pressing the pipe made of synthetic resin, so that the synthetic pipe is fixed by being excessively pressed through the clamp of the pipe brace, The rupture phenomenon is prevented.

In this embodiment, one or more auxiliary assembly pieces 10A-b and 10B-b are formed correspondingly in a pair of split couplings 10A and 10B, each of which is wrapped around the outer diameter surface of the pipe P .

In this case, the pair of split couplings 10A and 10B, which are wrapped around the outer diameter surface of the pipe P, are joined to each other by the auxiliary assembly pieces 10A-b and 10B-b, B is stably adhered to the outer diameter surface of the pipe P by the assembly bolts B which are inserted through the auxiliary assembly pieces 10A-b and 10B-b.

Thus, the adhesive 20 formed between the outer diameter surface of the pipe P and the grip grooves 10A-a and 10B-a of the split couplings 10A and 10B surrounding the pipe P is hardened during the curing as shown in FIG. And stably adhered to each other through the pieces 10A-b and 10B-b, resulting in stable adhesion between the pipe 10 and the circumscribed split couplings 10A and 10B.

In this embodiment, at least one of the split couplings 10A and 10B, which surrounds the pipe P in a concentric structure, is connected to one side of the split coupling with a connection (not shown) connected to the clamp 130 of the piping brace 100, The clamps 130 of the piping team team 100 are connected to the connecting ends 20 of the split couplings 10A and 10B wrapping the outer diameter of the pipe P in a divided manner, P).

In FIGS. 1 and 5A showing a preferred embodiment, divided connection ends 21 and 22 are vertically symmetrically formed on one side of the first split coupling 10A and the second split coupling 10B, When the split coupling 10A and the second split coupling 10B each wrap the outer diameter surface of the pipe P in a divided manner, the split connection formed in the first split coupling 10A and the second split coupling 10B, The ends (21, 22) are held in close contact with each other so as to form a connecting end (20) protruding to one side of the pipe (P).

At this time, it is preferable that the split coupling and the split connection protruding to one side of the split coupling are integrally formed by injection or cutting.

When the first split coupling 10A and the second split coupling 10B enclose the outer circumferential surface of the pipe P in a divided manner, the split connection ends 21 and 22 are formed in a half- The split connection ends 21 and 22 are brought into close contact with each other to form a tubular connection end 20.

Therefore, when the pipe fittings 1 according to the present embodiment are arranged concentrically on the pipe P and are fixed by bonding, the pipe P is fixed to the clamp 130 of the pipe brace 100 at one side thereof And a tubular connection end 20, which is pressed and fixed by an outer diameter surface, is formed to protrude.

5A and 5B, the operator may place the first split coupling 10A and the second split coupling 10B in a concentric structure by bonding to one outer surface of the pipe of the pipe P requiring fixing, The clamp 130 of the piping brace 100 is fixed to the tubular connecting end 20 formed on one side of the split couplings 10A and 10B arranged concentrically to the piping P as shown in FIG. So that the pipe P can be stably fixed to the wall W of the building without direct compression of the pipe P through the pipe fitting 1 for earth leakage.

1. End fittings
10A. First coupling member 10A-a. Grip groove
10A-b. Auxiliary assembly 10B. The second coupling member
10B-a. The grip grooves 10B-b. Auxiliary assembly
20. Connection Section 21. Split Connection Section
21a. Leak prevention rim
22. Split connection end 22a. Leak prevention rim
30. Adhesive layer (adhesive)
100. Pipe bracing 110. Fixing bracket
120. Support arm 130. Clamp
131 clamp member 132. clamp member
W. Wall P. Piping
B. Assembly bolts

Claims (4)

And two or more split couplings each formed with arc-shaped grip grooves inscribed on the outer diametric surface of the pipe on the inner circumferential surface thereof to enclose the outer circumferential surface of the pipe in a divided manner,
A connection end connected to the clamp portion of the piping brace is protruded at one side of at least one of the split couplings of the pair of split couplings,
Wherein the clamping portion of the piping platform is coupled to a connection end of a split coupling wrapped around an outer diameter of the pipe so as to be connected to the pipe. [2] The apparatus according to claim 1, further comprising: a first split coupling and a second split coupling for dividing the outer circumferential surface of the pipe,
Wherein the first split coupling and the second split coupling are disposed concentrically with the outer diameter of the pipe by enclosing the outer diameter surface of the first split coupling and the second split coupling through the respective grip grooves,
An adhesive is applied between the arc-shaped grip groove of each of the split couplings and the outer diameter surface of the pipe in contact therewith, and each of the split couplings wrapped around the pipe and the outer diameter surface of the pipe is fixed by adhesion The pipe end is made of natural rubber. [3] The apparatus of claim 1, wherein the first split coupling and the second split coupling are symmetrically formed at one side of the first split coupling and the second split coupling such that the first split coupling and the second split coupling enclose the outer diameter surface of the pipe ,
Wherein the split connection ends formed in the first split coupling and the second split coupling are configured to be closely contacted to each other to form a connection end projecting to one side. [4] The apparatus according to claim 3, wherein the connecting end is formed in an arc shape and is configured to form a hollow tube body by closely contacting the edges, and the outer diameter surface is pressed and fixed by a clamp of the pipe brace made of the hollow tube body Junction pipe connection.

Images