KR20160057358A - Device for protection of vibration - Google Patents

Abstract

The present invention relates to a device having a pipe to prevent vertical vibration which is able to minimize vibration of a pipe due to the impact of a seismic wave and prevent the pipe from being damaged or deformed. The device comprises: a first clamp (102) to fixate one side of the external surface on top of a pipe (200); a second clamp (104) placed at a certain distance from the first clamp (102) to fixate one side of an external surface on the bottom of the pipe; a fixing unit (106) to fixate one side of the first clamp (102) and one side of the second clamp (104); a first hinge unit (108) to fixate the other side of the first clamp (102) and the other side of the second clamp (104), which is installed to be able to rotate; a first connecting unit (112) installed on the first hinge unit (108) to be able to rotate, to absorb the impact of a seismic wave, and at the same time to prevent the pipe from being vibrated; a first rotating means (116) placed at a certain distance from the first connecting unit (112); a third connecting unit (118) installed on the first rotating means (116) to be able to rotate, to absorb the impact of the seismic wave, and at the same time to prevent the pipe from being vibrated; and a first pipe (120) combined with the part between the first connecting unit (112) and the third connecting unit (118) with a screw to absorb the impact of the seismic wave and at the same time to prevent the pipe from being vibrated.

Description

[0001] DEVICE FOR PROTECTION OF VIBRATION [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an anti-shake brace device, and more particularly, to a longitudinal anti-shake brace device having a pipe that minimizes shaking of a pipe from an impact of a seismic wave to prevent breakage and deformation of the pipe.

In general, fluids essential to human life such as water and sewage, oil and gas are transported mechanically through piping from the production site to the final destination. For example, various pipelines such as water and sewage pipes and gas pipelines are buried under the residential area.

If cracks occur in the piping due to the aging or external impact of the piping, the replacement of the piping, replacement and maintenance are required.

For example, when the water pipe at a certain point is old, the old main pipe is shut off to replace the old pipe. Therefore, the entire wide area connected to the main valve must be separated for a long time There is a problem that the loss cost of the local residents is very large.

To solve this problem, U.S. Patent Nos. 4,458,721 (Yie et al) and 5,462,077 (Cohen et al.) Disclose devices for temporarily interrupting fluid flowing into a pipe using an inflatable device, such as an airbag, .

However, the devices disclosed in U.S. Patent Nos. 4,458,721 and 5,462,077 are low in durability of the airbag, so that the airbag can be ruptured and there is a limit to block the high-pressure fluid. Accordingly, the pressure of the fluid is limitedly used for small-diameter piping.

In order to solve such a problem, the present applicant proposes an apparatus and a method for radially expanding a rolled plate of steel through Korean Utility Model Patent Publication No. 2007-0034919 and Korean Patent No. 0728766 to block the flow of fluid in the piping Respectively.

However, the pressure of the fluid applied to the expansion plate is very high, about 3 to 20 kg / cm < 3 >

In such a case, the expansion plate instantaneously expands due to the high pressure, and a large impact is generated on the inner surface of the pipe, so that the pipe may be ruptured.

In addition, when the inside of the pipe is momentarily blocked by the expansion plate, a strong eddy is generated in the inside of the pipe, thereby damaging the inside of the pipe.

However, in order to solve the above-mentioned conventional problems, Japanese Patent Application No. 10-2009-0097105 (entitled: Pipe Departure Prevention Device) of October 13, 2009 is filed, A pair of piping fixing means which are formed in such a manner that arms are formed on both sides and the inner side is in contact with the outer surface of the piping so as to surround the piping and are opposed to each other; A vertical support which is installed at both ends of the arm and which is installed in a direction perpendicular to the bottom surface to support the pipe fixing means and a pair of pipe fixing means facing each other, And a pair of horizontal supports installed at both ends.

However, the conventional piping departure prevention apparatus has a problem that piping is damaged from seismic waves due to breakage and deformation due to vibration generated by a shock of a seismic wave.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a pipe that minimizes shaking of a pipeline from a shock of a seismic wave to prevent breakage and deformation of the pipeline, And an object of the present invention is to provide a longitudinal vibration stabilization device equipped with the above-

However, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to accomplish the above object, according to the present invention, there is provided a vertical anti-

A first clamp 102 for fixing one side of the upper outer surface of the pipe 200;

A second clamp 104 positioned at a predetermined distance from the first clamp 102 to fix one side of the lower outer surface of the pipe;

A fixing part (106) for fixing one side of the first clamp (102) and one side of the second clamp (104);

A first hinge unit 108 for fixing the other side of the first clamp 102 and the other side of the second clamp 104,

A first connection part 112 which is rotatably installed on the first hinge part 108 to absorb a shock of a seismic wave and to prevent the pipe from shaking;

A first rotating means (116) positioned at a predetermined distance from the first connecting portion (112);

A third connecting part 118 rotatably installed in the first rotating device 116 to absorb a shock of a seismic wave and prevent the piping from shaking;

And a first pipe 120 screwed between the first connection part 112 and the third connection part 118 to absorb a shock of a seismic wave and prevent the pipe from being shaken.

As described above, according to the present invention, the vertical anti-shake brace device having the pipe has the effect of preventing breakage and deformation of the pipe by minimizing the shaking of the pipe from the impact of the seismic wave.

1 is a perspective view of a longitudinal vibration stabilization device having a pipe according to the present invention,
Fig. 2 is an exploded view of the main part of Fig. 1,
Figure 3 is a view showing the interior of the receptacle of Figure 1,
FIG. 4 is a view showing the inside of the connection portion of FIG. 1;
FIG. 5 is a view showing another embodiment of a longitudinal vibration prevention cushioning device having a pipe according to the present invention,
FIG. 6 is a view showing a state where a pipe is installed in the longitudinal anti-shake brace device having the pipe of FIG. 5;
FIG. 7 is a view showing another embodiment of a longitudinal vibration prevention brace device having a pipe according to the present invention,
8 is a view showing a state in which a pipe is installed in a longitudinal anti-shake brace device having a pipe shown in FIG. 7,
FIG. 9 is a view showing another embodiment of a longitudinal vibration prevention brace device having a pipe according to the present invention.

Hereinafter, a preferred embodiment of a longitudinal anti-shake brace device having a pipe according to the present invention will be described.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is an exploded perspective view of a longitudinal vibration stabilization device having a pipe according to the present invention, FIG. 2 is an exploded perspective view of FIG. 1, FIG. 3 is a view showing the interior of the accommodation portion of FIG. 1, 1 of FIG.

As shown in FIGS. 1 to 4, the longitudinal vibration stabilization device 100 having a pipe according to the present invention includes:

A first clamp 102 for fixing one side of the upper surface of the pipe;

A second clamp 104 positioned at a predetermined distance from the first clamp 102 to fix one side of the lower outer surface of the pipe;

A fixing part (106) for fixing one side of the first clamp (102) and one side of the second clamp (104);

A first hinge unit 108 for fixing the other side of the first clamp 102 and the other side of the second clamp 104,

A receiving portion 110 rotatably installed on an outer surface of the first hinge portion 108;

A vertical bolt 111 screwed to the accommodating portion 110 to absorb a shock of a seismic wave and to prevent the pipe from shaking;

A first connection part 112 located on the other side of the first clamp 102 and rotatably installed on the first hinge part 108 to absorb a shock of a seismic wave and to prevent the piping from shaking;

A second connection part 114 located on the other side of the second clamp 104 and rotatably installed on the first hinge part 108 to absorb a shock of a seismic wave and to prevent the piping from shaking;

A first rotating means (116) positioned at a predetermined distance from the first connecting portion (112);

A third connecting part 118 rotatably installed in the first rotating device 116 to absorb a shock of a seismic wave and prevent the piping from shaking;

A first pipe (120) screwed between the first connection part (112) and the third connection part (118) to absorb a shock of a seismic wave and to prevent the pipe from shaking;

A second rotating means (122) positioned at a predetermined distance from the second connecting portion (114);

A fourth connection part (124) rotatably installed on the second rotation device (122) to absorb a shock of a seismic wave and to prevent the piping from shaking;

And a second pipe 126 screwed between the second connection part 114 and the fourth connection part 124 to absorb a shock of a seismic wave and to prevent the pipe from shaking.

The assembling process and operation of the longitudinal vibration preventive brace 100 having the pipe according to the present invention will be described as follows.

Herein, the assembling process of the longitudinal vibration stabilization device having the pipe according to the present invention can be changed in any order according to the assembler.

First, after the first clamp 102 is positioned, the second clamp 104 is positioned at a predetermined distance from the first clamp 102.

After the fixing portion 106 is positioned, one side of the first clamp 102 and one side of the second clamp 104 are fixed using the fixing portion 106.

After the first hinge portion 108 is positioned, the other side of the first clamp 102 and the other side of the second clamp 104 are fixed by using the first hinge portion 108.

A vertical bolt 111 is provided on the outer surface of the first hinge unit 108 to absorb the impact of the seismic wave and to prevent the pipe from shaking. Screw together.

After the first connection part 112 which absorbs the impact of the seismic wave and the piping is not shaken is positioned on the other side of the first clamp 102, the first connection part 112 are rotatably installed.

After the second connection part 114 which absorbs the impact of the seismic wave and the piping is not shaken is positioned on the other side of the second clamp 104 and the second connection part 114 are rotatably installed.

After the first rotating unit 116 is positioned at a predetermined interval from the first connecting unit 112, the first rotating unit 116 rotatably absorbs a shock of a seismic wave and the piping is not shaken A third connecting portion 118 is provided.

The first pipe 120 is screwed between the first connection part 112 and the third connection part 118 to absorb the impact of a seismic wave and to prevent the pipe from shaking.

After the second rotating unit 122 is positioned at a predetermined interval from the second connecting unit 114, the impact of the seismic waves is absorbed by the second rotating unit 122 so as to be rotatable, A fourth connecting portion 124 is provided.

A second pipe 126 is screwed between the second and fourth connection portions 114 and 124 to absorb a shock of a seismic wave and prevent the pipe from shaking.

As described above, when the assembling of the longitudinal vibration stabilization device 100 having the pipe according to the present invention is completed,

The second connection unit 114, the third connection unit 118, and the fourth connection unit 124 according to the user's desired angle.

One side of the first rotating means 116, one side of the second rotating means 122 and one side of the vertical bolt 111 are installed on the ceiling and then the first clamp 102 and the second clamp 104 are installed, A piping (not shown) is installed.

After the piping is installed between the first clamp 102 and the second clamp 104 as described above, if a shock (i.e., vibration) occurs in the structure due to the seismic wave,

The vertical bolt 111 supports the pipeline so as not to shake the pipeline from a shock of a seismic wave.

The first pipe 120 is installed between the first connection part 112 and the third connection part 118,

The first pipe 120 moves according to the movement of the first connection part 112 and the third connection part 118 to absorb a shock of a seismic wave and support the pipe.

The second pipe 126 is installed between the second connection part 114 and the fourth connection part 124,

The second pipe 126 moves according to the movement of the second connection part 114 and the fourth connection part 124 to absorb a shock of a seismic wave and to support the pipe.

Therefore, the longitudinal anti-shake brace device provided with the pipe of the present invention minimizes the shaking of the pipe from the impact of the seismic wave, thereby preventing breakage and deformation of the pipe.

FIG. 5 is a view showing another embodiment of a longitudinal vibration prevention brace device having a pipe according to the present invention, FIG. 6 is a view showing a state where a pipe is installed in a longitudinal vibration prevention brace device having a pipe of FIG. 5 to be.

5 to 6, the longitudinal anti-shake brace device 100 having a pipe according to another embodiment includes:

A first clamp 102 having a through hole at the center thereof for fixing one side of the upper outer surface of the pipe 200;

A second clamp 104 positioned at a predetermined distance from the first clamp 102 to fix one side of the lower outer surface of the pipe;

A fixing part (106) for fixing the first clamp (102) and the second clamp (104);

A receiving part 110 fixed to the through hole of the first clamp 102;

A vertical bolt 111 screwed to the accommodating portion 110 to absorb a shock of a seismic wave and to prevent the pipe from shaking;

A first frame 300 disposed on the other side of the first clamp 102 and provided on the fixing part 106;

A second frame (302) disposed on the other side of the second clamp (104) at a predetermined interval from the first frame (300), the second frame (302)

A second hinge unit 304 rotatably installed on one side of the first frame 300;

A third hinge portion (306) rotatably installed on one side of the second frame (302);

A first connection part 112 rotatably installed on the second hinge part 304 for absorbing a shock of a seismic wave and preventing the piping from shaking;

A second connection part 114 rotatably installed on the third hinge part 306 to absorb a shock of a seismic wave and prevent the piping from shaking;

A first rotating means (116) positioned at a predetermined distance from the first connecting portion (112);

A third connecting part 118 rotatably installed in the first rotating device 116 to absorb a shock of a seismic wave and prevent the piping from shaking;

A first pipe (120) screwed between the first connection part (112) and the third connection part (118) to absorb a shock of a seismic wave and to prevent the pipe from shaking;

A second rotating means (122) positioned at a predetermined distance from the second connecting portion (114);

A fourth connection part (124) rotatably installed on the second rotation device (122) to absorb a shock of a seismic wave and to prevent the piping from shaking;

And a second pipe 126 screwed between the second connection part 114 and the fourth connection part 124 to absorb a shock of a seismic wave and to prevent the pipe from shaking.

5 to 6, the operation of the vertical anti-shake brace device 100 having the pipe of another embodiment is similar to that of the vertical anti-

It is omitted because it is the same as or similar to the operation of FIG.

FIG. 7 is a view showing another embodiment of a longitudinal vibration stabilization device having a pipe according to the present invention, and FIG. 8 is a view illustrating a state where a pipe is installed in a longitudinal vibration stabilization device having a pipe shown in FIG. to be.

As shown in FIGS. 7 to 8, the longitudinal anti-shake brace device 100 having a pipe according to another embodiment includes:

A first clamp 102 having a through hole at the center thereof for fixing one side of the upper outer surface of the pipe 200;

A second clamp 104 positioned at a predetermined distance from the first clamp 102 to fix one side of the lower outer surface of the pipe;

A fixing part (106) for fixing one side of the first clamp (102) and one side of the second clamp (104);

A first hinge unit 108 rotatably installed on one side of the first clamp 102;

A receiving portion (not shown) rotatably installed on an outer surface of the first hinge portion 108;

A vertical bolt 111 screwed to the accommodating portion to absorb a shock of a seismic wave and to prevent the pipe from shaking;

A first connection part 112 located on the other side of the first clamp 102 and rotatably installed on the first hinge part 108 to absorb a shock of a seismic wave and to prevent the piping from shaking;

A second connection part 114 located on the other side of the second clamp 104 and rotatably installed on the first hinge part 108 to absorb a shock of a seismic wave and to prevent the piping from shaking;

A first rotating means (116) positioned at a predetermined distance from the first connecting portion (112);

A third connecting part 118 rotatably installed in the first rotating device 116 to absorb a shock of a seismic wave and prevent the piping from shaking;

A first pipe (120) screwed between the first connection part (112) and the third connection part (118) to absorb a shock of a seismic wave and to prevent the pipe from shaking;

A second rotating means (122) positioned at a predetermined distance from the second connecting portion (114);

A fourth connection part (124) rotatably installed on the second rotation device (122) to absorb a shock of a seismic wave and to prevent the piping from shaking;

A second pipe 126 screwed between the second connection part 114 and the fourth connection part 124 to absorb a shock of a seismic wave and prevent the pipe from shaking;

A first frame 300 disposed on the other side of the first clamp 102 and provided on the fixing part 106;

A second frame (302) disposed on the other side of the second clamp (104) at a predetermined interval from the first frame (300), the second frame (302)

A second hinge unit 304 rotatably installed on one side of the first frame 300;

A third hinge portion (306) rotatably installed on one side of the second frame (302);

A fifth connection portion 308 rotatably installed on the second hinge portion 304 to absorb a shock of a seismic wave and prevent the piping from being shaken;

A sixth connection part 310 rotatably installed on the third hinge part 306 to absorb a shock of a seismic wave and to prevent the piping from shaking;

A third rotating means 312 positioned at a predetermined distance from the fifth connecting portion 308;

A seventh connecting portion (314) rotatably installed in the third rotating means (312) to absorb a shock of a seismic wave and prevent the piping from being shaken;

A third pipe 316 screwed between the fifth connection unit 308 and the seventh connection unit 314 to absorb a shock of a seismic wave and prevent the pipe from shaking;

A fourth rotating means 318 positioned at a predetermined distance from the sixth connecting portion 310;

An eighth connecting part 320 rotatably installed in the fourth rotating means 318 for absorbing a shock of a seismic wave and preventing the piping from shaking;

And a fourth pipe (322) screwed between the sixth connection part (310) and the eighth connection part (320) to absorb a shock of a seismic wave and to prevent the pipe from shaking.

As shown in FIGS. 7 to 8, the operation of the vertical anti-shake brace device 100 having the pipe of another embodiment is similar to that of the vertical anti-

It is omitted because it is the same as or similar to the operation of FIG.

FIG. 9 is a view showing another embodiment of a longitudinal vibration prevention brace device having a pipe according to the present invention,

A first clamp 102 for fixing one side of the upper outer surface of the pipe 200;

A second clamp 104 positioned at a predetermined distance from the first clamp 102 to fix one side of the lower outer surface of the pipe;

A fixing part (106) for fixing one side of the first clamp (102) and one side of the second clamp (104);

A first hinge unit 108 for fixing the other side of the first clamp 102 and the other side of the second clamp 104,

A first connection part 112 which is rotatably installed on the first hinge part 108 to absorb a shock of a seismic wave and to prevent the pipe from shaking;

A first rotating means (116) positioned at a predetermined distance from the first connecting portion (112);

A third connecting part 118 rotatably installed in the first rotating device 116 to absorb a shock of a seismic wave and prevent the piping from shaking;

And a first pipe 120 screwed between the first connection part 112 and the third connection part 118 to absorb a shock of a seismic wave and prevent the pipe from being shaken.

9, the operation of the longitudinal anti-shake brace device 100 having the pipe of another embodiment is the same as that of the longitudinal anti-

It is omitted because it is the same as or similar to the operation of FIG.

The foregoing description of the invention is merely exemplary of the invention and is used for the purpose of illustration only and is not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: longitudinal vibration stabilization device with pipe
102: first clamp
104: second clamp
106:
108: first hinge part
110:
111: Vertical bolt
112: first connection part
114: second connection portion
116: first rotating means
118: Third connection part
120: first pipe
122: second rotating means
124: fourth connection part
126: second pipe

Claims (4)

A first clamp 102 for fixing one side of the upper outer surface of the pipe 200;
A second clamp 104 positioned at a predetermined distance from the first clamp 102 to fix one side of the lower outer surface of the pipe;
A fixing part (106) for fixing one side of the first clamp (102) and one side of the second clamp (104);
A first hinge unit 108 for fixing the other side of the first clamp 102 and the other side of the second clamp 104,
A first connection part 112 which is rotatably installed on the first hinge part 108 to absorb a shock of a seismic wave and to prevent the pipe from shaking;
A first rotating means (116) positioned at a predetermined distance from the first connecting portion (112);
A third connecting part 118 rotatably installed in the first rotating device 116 to absorb a shock of a seismic wave and prevent the piping from shaking;
And a first pipe (120) screwed between the first connection part (112) and the third connection part (118) to absorb a shock of a seismic wave and to prevent the pipe from shaking. Direction anti-shake brace device. A first clamp 102 for fixing one side of the upper surface of the pipe;
A second clamp 104 positioned at a predetermined distance from the first clamp 102 to fix one side of the lower outer surface of the pipe;
A fixing part (106) for fixing one side of the first clamp (102) and one side of the second clamp (104);
A first hinge unit 108 for fixing the other side of the first clamp 102 and the other side of the second clamp 104,
A receiving portion 110 rotatably installed on an outer surface of the first hinge portion 108;
A vertical bolt 111 screwed to the accommodating portion 110 to absorb a shock of a seismic wave and to prevent the pipe from shaking;
A first connection part 112 located on the other side of the first clamp 102 and rotatably installed on the first hinge part 108 to absorb a shock of a seismic wave and prevent the piping from shaking;
A second connection part 114 located on the other side of the second clamp 104 and rotatably installed on the first hinge part 108 to absorb a shock of a seismic wave and to prevent the piping from shaking;
A first rotating means (116) positioned at a predetermined distance from the first connecting portion (112);
A third connecting part 118 rotatably installed in the first rotating device 116 to absorb a shock of a seismic wave and prevent the piping from shaking;
A first pipe (120) screwed between the first connection part (112) and the third connection part (118) to absorb a shock of a seismic wave and to prevent the pipe from shaking;
A second rotating means (122) positioned at a predetermined distance from the second connecting portion (114);
A fourth connection part (124) rotatably installed on the second rotation device (122) to absorb a shock of a seismic wave and to prevent the piping from shaking;
And a second pipe (126) screwed between the second connection part (114) and the fourth connection part (124) to absorb a shock of a seismic wave and to prevent the pipe from being shaken. Direction anti-shake brace device. A first clamp 102 having a through hole at the center thereof for fixing one side of the upper outer surface of the pipe 200;
A second clamp 104 positioned at a predetermined distance from the first clamp 102 to fix one side of the lower outer surface of the pipe;
A fixing part (106) for fixing the first clamp (102) and the second clamp (104);
A receiving part 110 fixed to the through hole of the first clamp 102;
A vertical bolt 111 screwed to the accommodating portion 110 to absorb a shock of a seismic wave and to prevent the pipe from shaking;
A first frame 300 disposed on the other side of the first clamp 102 and provided on the fixing part 106;
A second frame (302) disposed on the other side of the second clamp (104) at a predetermined interval from the first frame (300), the second frame (302)
A second hinge unit 304 rotatably installed on one side of the first frame 300;
A third hinge portion (306) rotatably installed on one side of the second frame (302);
A first connection part 112 rotatably installed on the second hinge part 304 for absorbing a shock of a seismic wave and preventing the piping from shaking;
A second connection part 114 rotatably installed on the third hinge part 306 to absorb a shock of a seismic wave and prevent the piping from shaking;
A first rotating means (116) positioned at a predetermined distance from the first connecting portion (112);
A third connecting part 118 rotatably installed in the first rotating device 116 to absorb a shock of a seismic wave and prevent the piping from shaking;
A first pipe (120) screwed between the first connection part (112) and the third connection part (118) to absorb a shock of a seismic wave and to prevent the pipe from shaking;
A second rotating means (122) positioned at a predetermined distance from the second connecting portion (114);
A fourth connection part (124) rotatably installed on the second rotation device (122) to absorb a shock of a seismic wave and to prevent the piping from shaking;
And a second pipe (126) screwed between the second connection part (114) and the fourth connection part (124) to absorb a shock of a seismic wave and to prevent the pipe from being shaken. Direction anti-shake brace device. A first clamp 102 having a through hole at the center thereof for fixing one side of the upper outer surface of the pipe 200;
A second clamp 104 positioned at a predetermined distance from the first clamp 102 to fix one side of the lower outer surface of the pipe;
A fixing part (106) for fixing one side of the first clamp (102) and one side of the second clamp (104);
A first hinge unit 108 rotatably installed on one side of the first clamp 102;
A receiving portion rotatably installed on an outer surface of the first hinge portion 108;
A vertical bolt 111 screwed to the accommodating portion to absorb a shock of a seismic wave and to prevent the pipe from shaking;
A first connection part 112 located on the other side of the first clamp 102 and rotatably installed on the first hinge part 108 to absorb a shock of a seismic wave and prevent the piping from shaking;
A second connection part 114 located on the other side of the second clamp 104 and rotatably installed on the first hinge part 108 to absorb a shock of a seismic wave and to prevent the piping from shaking;
A first rotating means (116) positioned at a predetermined distance from the first connecting portion (112);
A third connecting part 118 rotatably installed in the first rotating device 116 to absorb a shock of a seismic wave and prevent the piping from shaking;
A first pipe (120) screwed between the first connection part (112) and the third connection part (118) to absorb a shock of a seismic wave and to prevent the pipe from shaking;
A second rotating means (122) positioned at a predetermined distance from the second connecting portion (114);
A fourth connection part (124) rotatably installed on the second rotation device (122) to absorb a shock of a seismic wave and to prevent the piping from shaking;
A second pipe 126 screwed between the second connection part 114 and the fourth connection part 124 to absorb a shock of a seismic wave and prevent the pipe from shaking;
A first frame 300 disposed on the other side of the first clamp 102 and provided on the fixing part 106;
A second frame (302) disposed on the other side of the second clamp (104) at a predetermined interval from the first frame (300), the second frame (302)
A second hinge unit 304 rotatably installed on one side of the first frame 300;
A third hinge portion (306) rotatably installed on one side of the second frame (302);
A fifth connection portion 308 rotatably installed on the second hinge portion 304 to absorb a shock of a seismic wave and prevent the piping from being shaken;
A sixth connection part 310 rotatably installed on the third hinge part 306 to absorb a shock of a seismic wave and to prevent the piping from shaking;
A third rotating means 312 positioned at a predetermined distance from the fifth connecting portion 308;
A seventh connecting portion (314) rotatably installed in the third rotating means (312) to absorb a shock of a seismic wave and prevent the piping from being shaken;
A third pipe 316 screwed between the fifth connection unit 308 and the seventh connection unit 314 to absorb a shock of a seismic wave and prevent the pipe from shaking;
A fourth rotating means 318 positioned at a predetermined distance from the sixth connecting portion 310;
An eighth connecting part 320 rotatably installed in the fourth rotating means 318 for absorbing a shock of a seismic wave and preventing the piping from shaking;
And a fourth pipe (322) screwed between the sixth connection part (310) and the eighth connection part (320) to absorb a shock of a seismic wave and to prevent the pipe from shaking. Direction anti-shake brace device.

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