KR20130056743A - Pipe vibration damper device - Google Patents

Abstract

PURPOSE: A damper for a pipe is provided to prevent damage of various facilities equipped in a natural gas pipe line by reducing vibration generated by pressure difference of the pipe line. CONSTITUTION: A damper for a pipe comprises a pipe accommodating unit(100) and a damping unit. The pipe accommodating unit accommodates the pipe. The damping unit is equipped on the pipe accommodating unit, is drawn to the pipe, and fixes the pipe. The damping unit reduces vibration generated from the pipe. The pipe accommodating unit is arranged to end portion of the pipe.

Description

Pipe vibration damper device

The present invention relates to a pipe damping device, and more particularly, to a pipe damping device having a damping unit that can reduce the vibration phenomenon caused by the pressure difference of the pipe pipe line.

In general, natural gas, like oil, is an important energy source.

Natural gas can be produced in oil fields where crude oil is produced, and also in refineries in crude oil refineries.

This natural gas needs to reach the natural gas consumption place. Due to the development of the technology of the material of pipe piping and the development of various welding techniques, it is possible to transport long distances at high pressure.

In order to efficiently transport the long-distance transfer of natural gas, the internal pressure of the piping line is increased or reduced as necessary for each section of the natural gas pipeline. Alternatively, during the repair and replacement of some sections of the pipeline, it may be necessary to reduce or increase the pressure of each pipeline.

At this time, the natural gas piping line inevitably occurs due to the pressure difference.

However, this vibration phenomenon damages the pipe pipe and thus there is a problem that damage occurs in various facilities provided in the connection line or other natural gas pipe line connected to the pipe pipe.

The problem to be solved by the present invention is to provide a pipe damping device that can prevent the damage of various equipment provided in the natural gas pipeline by reducing the vibration caused by the pressure difference in the pipe pipeline.

Pipe damping device according to an embodiment of the present invention for solving the technical problem, the pipe accommodation portion for receiving the pipe pipe; And a damping part provided in the pipe accommodating part to access the pipe pipe to fix the pipe pipe, and to reduce vibration generated from the pipe pipe.

The pipe receiving portion is characterized in that it is disposed in the end region of the pipe pipe.

The pipe accommodation portion is characterized in that it has a predetermined curvature to correspond to the pipe pipe.

The pipe accommodation portion, the semi-circular first receiving body; And a second receiving body symmetrically formed on the first receiving body.

The damping unit may include a first damper formed along a circumference of the pipe accommodating part; And a second damper disposed adjacent to the first damper.

The first damper may include a buffer member that is in contact with and supported by an outer circumferential surface of the pipe pipe to cushion vibration of the pipe; And a distance adjusting member connected to the shock absorbing member to move the shock absorbing member in an inner diameter direction of the pipe.

The second damper may include a mass damper disposed to be spaced apart from the pipe at a predetermined interval to reduce vibration of the pipe accommodating part; And a connecting flange connecting the mass damper to the pipe receiving portion.

The pipe accommodating part further includes a hinge part connecting the first accommodating body and the second accommodating body to each other, wherein the first accommodating body and the second accommodating body are rotatably provided around the hinge part. It is done.

The pipe accommodating part may further include a fixing part provided on an opposite side of the hinge part to couple the first accommodating body and the second accommodating body to each other.

According to the method of the present invention, by reducing the vibration phenomenon caused by the pressure difference of the pipe piping line, it is possible to prevent damage to various equipment provided in the natural gas pipe line.

1 is a perspective view of a pipe damping device according to a first embodiment of the present invention.
2 is a front view of a pipe damping device according to a first embodiment of the present invention.
3 is a front view of a first damper of the pipe damping device according to the first embodiment of the present invention.
4 is a front view of a second damper of the pipe damping device according to the first embodiment of the present invention.
5 is a partial cross-sectional view of a state in which a pipe damping device according to a first embodiment of the present invention is installed in a pipe pipe.

The present invention will now be described in detail with reference to the accompanying drawings. Hereinafter, a repeated description, a known function that may obscure the gist of the present invention, and a detailed description of the configuration will be omitted. Embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings and the like can be exaggerated for clarity.

As described above, in the conventional general natural gas pipeline, vibration phenomenon is essentially accompanied in the pipeline due to the pressure difference of the natural gas between the respective pipes. In this embodiment, in order to solve the problems of the prior art, a pipe damping device is provided in the pipe pipe to reduce the vibration.

1 is a perspective view of a pipe damping device according to a first embodiment of the present invention, FIG. 2 is a front view of a pipe damping device according to a first embodiment of the present invention, and FIG. 3 is a view according to a first embodiment of the present invention. 4 is a front view of the first damper of the pipe damping device, FIG. 4 is a front view of the second damper of the pipe damping device according to the first embodiment of the present invention, and FIG. 5 is a pipe damping device according to the first embodiment of the present invention. Partial sectional view of the pipe pipe in a state of being installed.

1 to 5, the pipe damping device according to the first embodiment of the present invention, the pipe accommodating part 100 for accommodating the pipe pipe 10 and the pipe accommodating part 100 is provided in the pipe Approaching the pipe 10 to fix the pipe pipe 10, and includes a damping unit 200 for reducing the vibration generated in the pipe pipe (10).

The pipe accommodating part 100 serves to cushion the vibration generated in the pipe pipe 10 by being fitted in the end region of the pipe pipe 10.

To this end, the pipe accommodating part 100 is formed to have a predetermined curvature so as to correspond to the outer circumferential surface of the pipe pipe 10, as shown in Figs. The pipe accommodating part 100 includes a semi-circular first accommodating body 110 and a second accommodating body 120 symmetrically formed on the first accommodating body 110.

The first receiving body 110 and the second receiving body 120 refers to an arc-shaped semicircular support. A hinge portion 130 connecting the first receiving body 110 and the second receiving body 120 to each other is provided at a connection portion of the first receiving body 110 and the second receiving body 120. The first accommodating body 110 and the second accommodating body 120 are provided to be rotatable about the hinge portion 130. That is, the first accommodating body 110 and the second accommodating body 120 are spread around the hinge portion 130, are inserted while wrapping the pipe piping 10, and seated on the outer circumferential surface of the pipe piping 10. , The first receiving body 110 and the second receiving body 120 are pinched together to accommodate the pipe receiving portion 100 in the pipe piping 10.

The fixing part 140 is provided on the opposite side of the hinge 130. The fixing part 140 includes a coupling flange 141 provided at a position opposite to the hinge part 130, and a fixing screw 142 coupled to the coupling flange 141. After accommodating the pipe accommodating part 100 in the pipe piping 10, the fixing screw 142 is coupled to the coupling flange 141, and the fixing screw 142 is fastened so that the pipe accommodating part 100 is connected to the pipe pipe 10. Do not deviate).

On the other hand, the natural gas connection line requires a shock absorbing means for reducing the noise and vibration generated in the main pipe and the valve portion due to the pressure difference of the natural gas between each pipe. Thus, the pipe accommodating part 100 is provided with a damping part 200.

1, 3 and 5, the damping unit 200, the first damper 210 is disposed along the outer circumferential surface of the pipe 10, and the first damper 210 is disposed adjacent to the first damper 210 Two dampers 220.

The first damper 210 does not directly contact the outer circumferential surface of the pipe 10 and the pipe accommodating part 100. That is, the shock absorbing member 211 of the first damper 210 is in contact with or released from the outer circumferential surface of the pipe piping 10.

As shown in FIGS. 1 to 3, the first damper 210 is supported by the outer circumferential surface of the pipe piping 10 to cushion the vibration of the pipe piping 10 and the shock absorbing member 211. It is connected to the) includes a distance adjusting member 215 to approach or space the buffer member 211 to the pipe pipe 10.

The buffer member 211 includes a buffer pad 212 and a pad support plate 213 directly connected to the buffer pad 212 to support the buffer pad 212.

The buffer pad 212 is in contact with the outer circumferential surface of the pipe piping 10 serves to absorb and cushion the vibration of the pipe piping 10.

The distance adjusting member 215 includes a distance adjusting bolt 216 and a fixing nut 217. The pipe accommodation portion 100 is provided with a through hole (not shown), the distance adjusting bolt 216 is disposed to penetrate in the inner diameter direction. The distance adjusting bolt 216 is integrally coupled with the pad support plate 213, in which case the pad support plate 213 and the buffer pad 212 may be rotatably coupled. Alternatively, the distance adjusting bolt 216 and the pad support plate 213 may be provided separately from each other.

The fixing nut 217 is disposed on the inner circumferential surface of the pipe accommodating part 100 and welded to the pipe accommodating part 100 to be fixed.

Through the distance adjusting member 215 of this configuration, tightening the distance adjusting bolt 216 pushes the buffer member 211 radially inward, and when the distance adjusting bolt 216 is released, it pushes radially outward. Accordingly, by inserting the pipe receiving portion 100 in the pipe pipe 10, and then tighten the distance adjusting member 215, so that the buffer member 211 is completely contacted and supported on the outer peripheral surface of the pipe pipe 10. .

As shown in FIGS. 1 and 4, the second damper 220 is formed integrally with the connecting flange 224 connected to the pipe receiving part 100 and the connecting flange 224, and is provided from the pipe piping 10. It includes a mass damper 221 spaced apart from a predetermined interval.

The mass damper 221 is provided to have a predetermined mass of a circular shape to absorb the vibration phenomenon by inertia to reduce the vibration.

The coupling flange 224 is provided with a coupling hole 225 for coupling with the pipe receiving portion 100.

When vibration is generated in the pipe pipe 10, the vibration is primarily reduced by the first damper 210 and transmitted to the pipe accommodating part 100, and secondly, the vibration transmitted to the pipe accommodating part 100. The vibration is reduced by the mass damper 221.

Accordingly, vibration phenomena caused by pressure differences in the pipe piping line can be reduced, and damage to various equipments provided in the natural gas pipe line can be prevented.

When the vibration damping process of the pipe pipe 10 through the pipe damping device having the above-described configuration will be described.

When a pressure difference between the natural gas supplied to the pipe pipe 10 occurs, vibration occurs in the pipe pipe 10.

Referring mainly to FIG. 5, a pipe damping device is provided in an end region of the pipe piping 10.

First, the pipe accommodating part 100 is fitted to the outer circumferential surface of the pipe piping 10.

Next, tightening the distance adjusting bolt 216 of the distance adjusting member 215 of the first damper 210 to fix the pipe receiving portion to the pipe piping (10).

Vibration generated in the pipe pipe 10 is transmitted to the first damper 210 in contact with the outer circumferential surface of the pipe pipe 10, the vibration is reduced and reduced through the buffer member 211. If there is still residual vibration, it is transmitted to the pipe receiving portion (100).

The pipe receiving part 100 is provided with a second damper 220. The mass damper 221 of the second damper 220 reduces the generated vibration. This is because the stopped mass damper 221 is intended to stop due to inertia, but is significantly reduced even if vibration is transmitted to the pipe accommodating part 100.

As a result, the vibration of the pipe pipe 10 is reduced, the vibration is significantly reduced in the pipe pipe 10, and the vibration is not transmitted to other pipe pipe lines or valve parts connected thereto. Therefore, it is possible to prevent damage to various equipment provided in the natural gas pipeline.

As described above, an optimal embodiment has been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are 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: pipe accommodation portion 110: first receiving body
120: second receiving body 130: hinge portion
140: fixing part 200: damping part
210: first damper 211: buffer member
212: buffer pad 213: pad support plate
215: distance adjusting member 216: distance adjusting bolt
217: fixing nut 220: second damper
221: mass damper 224: connection flange

Claims (9)

Pipe accommodating part for accommodating pipe piping; And
And a damping part provided in the pipe accommodating part to access the pipe pipe to fix the pipe pipe, and to reduce vibration generated from the pipe pipe. The method according to claim 1,
And the pipe receiving portion is disposed at an end region of the pipe piping. The method according to claim 1,
Pipe damping device, characterized in that the pipe accommodating portion has a predetermined curvature to correspond to the pipe pipe. The method according to claim 1,
The pipe accommodating part,
A semi-circular first receiving body; And
Pipe damping device, characterized in that it comprises a second receiving body symmetrically formed on the first receiving body. The method according to claim 1,
The damping unit,
A first damper formed along a circumference of the pipe accommodating part; And
And a second damper disposed adjacent to the first damper. The method according to claim 5,
The first damper,
A buffer member which is in contact with and supported by an outer circumferential surface of the pipe piping to cushion the vibration of the pipe piping; And
And a distance adjusting member connected to the shock absorbing member to move the shock absorbing member in an inner diameter direction of the pipe. The method according to claim 5,
The second damper,
A mass damper disposed spaced apart from the pipe by a predetermined distance to reduce vibration of the pipe accommodating part; And
And a connecting flange connecting the mass damper to the pipe receiving portion. The method of claim 4,
The pipe accommodating part,
It further comprises a hinge for connecting the first receiving body and the second receiving body,
Pipe damping device, characterized in that the first receiving body and the second receiving body is provided rotatably around the hinge portion. The method according to claim 8,
The pipe receiving portion, the pipe damping device, characterized in that provided on the opposite side of the hinge portion is provided with a fixing portion for mutually coupling the first receiving body and the second receiving body.

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