KR100779163B1 - Apparatus for decreasing a piping vibration - Google Patents

Abstract

An apparatus for reducing piping vibration is provided to prevent a pipe from being broken by installing a plurality of damping members having a predetermined strength at a rim of the pipe. An apparatus for reducing piping vibration comprises first and second support members(100,200), and a plurality of damping members(300) installed between the first and second support members to reduce vibration generated from a pipe. The support member is a pipe type and is provided with a locking unit(120) such that the support member is mounted on a column or a wall. The damping member includes a first plate(310) attached to an inner peripheral surface of the support member, a second plate(320) attached to a rim of the pipe, and a plurality of damping wires(330) installed between the first and second plates.

Description

Vibration reduction device for pipes {APPARATUS FOR DECREASING A PIPING VIBRATION}

1A to 1C are perspective views of various embodiments of a vibration reduction device for a pipe according to the present invention.

2 is a front view of the vibration reducing device of the pipe of FIG. 1A.

Figure 3a is a perspective view showing an embodiment of a damping member of the vibration reduction device of the pipe according to the present invention.

3B and 3C are side cross-sectional views of the damping member of FIG. 3A.

Figure 4a is a perspective view showing another embodiment of the damping member of the vibration reduction device of the pipe according to the present invention.

4B is a side view of the damping member of FIG. 4A.

5a to 5c is an installation state of the vibration reduction device of the pipe according to the present invention.

※ Explanation of code for main part of drawing

100, 100 ', 100' ': first support member 110, 110', 110 '': first extension

120, 120 ', 120' ': First fastening part 122, 122', 122 '': Fastening hole

200, 200 ', 200' ': second support member 210, 210', 210 '': second extension

220, 220 ', 220' ': Second fastening part 222, 222', 222 '': Fastening hole

300: damping member 310: first plate

314, 324 hook 320: second plate

330: damping wire 400: auxiliary plate

The present invention relates to a vibration reduction device for pipes, and more particularly, to reduce the vibrations of pipes in which pipes used in factories, plants, or power plants can be deformed or broken due to normal operation vibration or excessive vibration. Relates to a device.

In general, a pipe is installed in a factory or a plant or a general industrial site or a large building to move steam or fluid at high temperature and pressure. These pipes vary in size and type, and generally, an elbow pipe connecting the long straight pipe and the corner part is assembled and connected, and the pipe is fixed to a column or wall of a factory by a separate fixing means.

However, when the fluid is moved through the pipe, the fluid flowing in the pipe exerts pressure on the surface of the pipe to deform the pipe, and when the high temperature and high pressure steam moves inside the pipe, the steam condenses and turns into water, This causes a problem that not only causes vibration in the pipe, but also causes vibrations such as normal operation vibration and transient vibration. Here, the normal running vibration refers to vibration generated by the pump or fan due to the operating characteristics of the fluid equipment and the geometric characteristics of the piping system (the natural frequency of the piping system). It refers to the vibration generated by the sudden pressure change due to the stop. Due to this excessive vibration, a large force is applied to the main equipment, the pipe support and the structure in a short time. In particular, in the case of the elbow tube, the problem of deformation or breakage is severe. If the pipe is broken as described above, there is a problem that steam or fluid flowing therein may be discharged to the outside, which may seriously damage workers or facilities such as factories.

On the other hand, the conventional pipe is provided with a hanger to prevent the deflection due to the static load, that is, the weight of the pipe itself, the deformation or breakage of the pipe due to the deflection of the pipe by the hanger can be prevented. However, the vibration generated by the natural frequency of the piping system, which can be referred to as the temporary dynamic load, or the vibration generated by the internal vibration source such as an electric motor, increases the stress in the piping system. There is a problem that can not expect the effect of vibration reduction.

Accordingly, an object of the present invention is to provide a vibration reduction device for a pipe that can reduce the phenomenon that the pipe is deformed or broken due to the normal operation vibration or excessive vibration of the pipe used in a factory, a plant or a power plant.

The above object of the present invention,

An apparatus capable of reducing vibration of a pipe used in a factory, a plant, or a power plant, the apparatus comprising: a support member having a tubular shape so as to penetrate the pipe, and having a fastening means to be mounted to a column or a wall outside the pipe; It is achieved by providing a vibration reducing device of the pipe, characterized in that it comprises a plurality of damping member is inserted between the pipe and the support member so that the vibration generated in the.

According to a preferred feature of the invention, the support member is made of a semi-circular tube, each end includes a first support member and a second support member symmetrical to the first support member is formed with an extension portion bent in the normal direction, respectively; The extension of each of the first support member and the second support member includes at least one fastening hole to be bolted to each other.

According to a more preferred feature of the invention, the support member is made of a semi-circular tube, but includes a first support member having an extension portion bent in a normal direction at one end and a second support member symmetrical with the first support member; And an extension of each of the first support member and the second support member includes at least one fastening hole to be bolted to each other, and the other end of the first support member and the other end of the second support member are seated on the rim. At least one fastening hole is provided to be bolted to the plate.

According to an even more preferred feature of the invention, the fastening means is vertically bent in the extension portion of the first support member and extending at the first fastening portion having at least one or more fastening holes, and the extension of the second support member And a second fastening portion that extends vertically and has at least one fastening hole.

According to a further preferred feature of the invention, the damping member is a first plate attached to the inner circumferential surface of the support member, the second plate attached to the rim of the pipe, between the first plate and the second plate Is installed in the but includes a plurality of damping wire having its own rigidity so that a predetermined interval can be maintained.

According to an even more preferred feature of the invention, the damping wire is formed of a plurality of metal wires twisted together in a spiral.

According to a further preferred feature of the invention, the first plate and the second plate are formed through both side surfaces, respectively, and have a plurality of through holes formed in the longitudinal direction, the damping wire is the first plate or the second plate Both ends of the plate through the through-hole of the plate is fitted into the through-hole of the other plate, respectively.

According to a further preferred feature of the invention, the damping wire is fitted to a plurality of hooks respectively mounted on opposite surfaces of the first plate and the second plate.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, this is only to describe in detail enough to be able to easily carry out the invention by those skilled in the art, which does not mean that the technical spirit and scope of the present invention is limited.

1A to 1C are perspective views of various embodiments of a vibration reduction device for a pipe according to the present invention, and FIG. 2 is a front view of the vibration reduction device for a pipe of FIG. 1A. As shown in Figure 1a and 2, the vibration reduction device of the pipe comprises a support member, a damping member (300).

The support member is formed in a tubular shape so that the pipe 10 can be penetrated, and the support member is integrally formed so that the pipe 10 is inserted and installed in the process of installing the first pipe 10 in a factory, a plant, or a power plant. Although it may be possible, it is preferable to include a first support member 100 and a second support member 200 that can be coupled to each other to facilitate the installation in the pipe (10). As shown in FIGS. 1A and 2, the first support member 100 is made of a semi-circular tube, and both ends are formed with extension portions that are bent in the normal direction, and the extension portions form a plane. In addition, the second support member 200 is symmetrical with the first support member 100, as shown in Figures 1a and 2, made of a semi-circular tube and both ends are formed with extension portions bent in the normal direction The extension is planar. Hereinafter, for convenience, an extension of the first support member 100 is referred to as a first extension 110, and an extension of the second support member 200 is referred to as a second extension 210. The first extension part 110 and the second extension part 210 of the first support member 100 and the second support member 200 are respectively provided with fastening holes (not shown) so as to be bolted to each other. . At least one fastening hole (not shown) may be formed, and the first support member 100 and the second support member 100 are fastened by bolting the first extension part 110 and the second extension part 210 through the fastening hole. The support member 200 may be fixed and integrated.

On the other hand, according to another embodiment of the vibration reduction device of the pipe according to the present invention, as shown in Figure 1c, the first support member 100 ″ is the first extension 110 ″ is formed only at one end In addition, the second support member 200 ″ may also be formed only at one end so that the second support member 200 ″ is symmetrical with the first support member 100 ″, which may be installed in a factory or a plant. Given the circumstances. At this time, the first support member 100 ″ and the second support member 200 ″ are fastening holes (not shown) formed in the first extension part 110 ″ and the second extension part 210 ″. And the other end of each of the first support member 100 ″ and the second support member 200 ″ that is opposite to each other is fixed by a separate fastening means. That is, the bolt is fastened by the auxiliary plate 400 having a fastening hole (not shown) that is seated at the edge portion to which the other end of each of the first support member 100 '' and the second support member 200 '' is connected. Preferably, the first support member 100 ″ and the second support member 200 ″ are provided with fastening holes (not shown) at respective other ends thereof. The auxiliary plate 400 is preferably made of a curved shape of a predetermined curvature so as to be in close contact with the other end of the first support member 100 ″ and the second support member 200 ″, and fastening holes (not shown). At least one may be formed.

In addition, the support member is fastened to a column or wall is provided with a fastening means so that the pipe 10 can be supported. The fastening means preferably includes a first fastening portion extending vertically bent at the first extension of the first support member and a second fastening portion vertically bent at the second extension of the second supporting member.

As shown in FIG. 1A, the first fastening part 120 may be vertically bent and extended at one end of each of the first extension parts 110 formed at both sides of the first support member 100. The first fastening part 120 has at least one fastening hole 122 to be fastened to a column or a wall. In this case, the first fastening part 120 may have various shapes as long as the first fastening part 120 is vertically bent at the first extension part 110 of the first support member 100 and provided with only the fastening hole 122. Since the second fastening part 220 has a shape in which the first support member 100 and the second support member 200 are symmetrical as described above, a lower end portion of the first fastening part 120 is formed. Vertically bent and extended from one end of the second extension portion 210 of the second support member 200 corresponding to the at least one has a fastening hole 222. Therefore, the support member may be fastened to the pillar or the wall by the first fastening portion 120 provided in the first support member 100 and the second fastening portion 220 provided in the second support member 200. .

On the other hand, according to another embodiment of the vibration reduction device of the pipe according to the present invention, as shown in Figure 1b, the first fastening portion (120 ') is the first extension of the first support member (100' 110 ') may be vertically bent and extended at each end, and in this case, the second fastening portion 220' is vertical at each end of each of the second extension portions 210 'of the second support member 200'. It is bent and extended. Other technical features of the first fastening part 120 ′ and the second fastening part 220 ′ may include the first fastening part 120 and the second fastening part 220 of the vibration reduction device of the pipe shown in FIG. 1A. Since the description is the same, a description thereof will be omitted. Meanwhile, the first fastening part 120 and the second fastening part 220 are vertically bent in opposite directions as shown in FIG. 1B, but are vertically aligned in the same direction in consideration of the situation of being installed in a factory or a plant. It may be formed to be bent and may be formed to be vertically bent several times.

Meanwhile, FIG. 1C shows the first extension part 110 ″ and the second extension part 210 ″ only at one end of each of the first support member 100 ″ and the second support member 200 ″ as described above. ) Is formed, wherein the first fastening portion 120 '' and the second fastening portion 220 '' are the first fastening portion 120 'of FIG. 1B as shown in FIG. 1C. ') And the second fastening part 220 ″ may be the same, and although not shown, they may have the same configuration as the first fastening part 120 ′ and the second fastening part 220 ′ of FIG. 1A. There will be.

Damping member 300, as shown in Figures 1a to 1c and 2, is inserted between the pipe 10 and the support member serves to reduce the vibration generated in the pipe (10). The damping member 300 is inserted into the plurality of support members 100, 200 and the pipe 10 is installed in a plurality, it is preferable that the four damping members 300 are arranged such that the same spacing is maintained, but is not limited thereto. no. Each damping member 300 includes a first plate 310 attached to the inner circumferential surfaces of the support members 100 and 200, a second plate 320 seated on an edge of the pipe 10, and a first plate 310. And a plurality of damping wires 330 disposed between the second plates 320.

The first plate 310 is attached to the inner circumferential surface of the support members 100 and 200, and preferably has the same radius of curvature as the support members 100 and 200 to be in close contact with the inner circumferential surfaces of the support members 100 and 200. It consists of a curved plate. The first plate 310 may be integrated into the inner circumferential surfaces of the support members 100 and 200 by a welding method or the like. In addition, the first plate 310 is preferably made of a durable metal material, which is to prevent easy breakage.

The second plate 320 is seated on the rim of the pipe 10, preferably made of a curved plate having the same radius of curvature as the pipe 10 so as to be in close contact with the rim of the pipe 10. Unlike the first plate 310, the second plate 320 may be welded to the pipe 10, but the second plate 320 is not necessarily welded and is separated from the pipe due to the damping wire 330 as described below. May not occur. In addition, it is preferable that the second plate 320 is made of a durable metal material similarly to the first plate 310 so as to prevent easy breakage when vibration occurs in the pipe 10.

Damping wire 330 is installed between a plurality of the first plate 310 and the second plate 320 serves to reduce the vibration generated in the pipe 10, so that its own rigidity can be enhanced It is preferable that a plurality of metal wires are twisted with each other in a spiral form, and a plurality of strands formed with a plurality of metal wires twisted with each other in a spiral shape may be again twisted with each other in a spiral form, and the stainless steel has good stiffness that does not rust. Can be done. As such, the damping wire 330 having its own rigidity may have a circular or elliptical shape installed on the first plate 310 and the second plate 320 so as to efficiently absorb the applied vibration. When the damping wire 330 is installed, a predetermined interval may be maintained between the first plate 310 and the second plate 320. When the vibration is generated in the pipe 10 and the tensile force is applied to the damping wire 330, the vibration is buffered by the elasticity of the damping wire 330 made of metal wire, and when the compressive force is applied to the damping wire 330, the metal wire is applied. The mutual friction and the rigidity of the metal buffer the vibration.

Meanwhile, the damping wire 330 and the first plate 310 and the second plate 320 of the damping member 300 may take various coupling structures, and two embodiments will be described in the present invention. . Figure 3a is a perspective view showing an embodiment of the damping member of the vibration reduction device of the pipe according to the present invention, Figures 3b and 3c is a side cross-sectional view of the damping member of Figure 3a. In addition, Figure 4a is a perspective view showing another embodiment of the damping member of the vibration reduction device of the pipe according to the present invention, Figure 4b is a side view of the damping member of Figure 4a.

As shown in FIGS. 3A to 3B, each of the first plate 310 and the second plate 320 has a through hole 312 formed through both sides thereof, and the through hole 312 has a first plate. A plurality of plurality is formed in each of the side surfaces of the 310 and the second plate 320 in the longitudinal direction, and the damping wire 330 is fitted into the through hole 312. The damping wire 330 is formed of one long wire, and is installed to penetrate the through hole 312 of the first plate 310 as shown in FIG. 3B, and both ends of the damping wire 330 pass through the second plate 320. It is fitted into the hole 322 or installed to pass through the through hole 322 of the second plate 320 as shown in Figure 3c and both ends are fitted into the through hole 312 of the first plate 310 Can be fixed. At this time, even if the damping wire 330 is subjected to a tensile force or a compressive force due to the vibration of the pipe 10, the damping wire 330 flows in the interior of the first plate 310 and the second plate 320 or the through hole of the second plate 320 ( 322 or the through hole 312 of the first plate 310 and the second plate 320 than the diameter of the damping wire 330 to prevent the departure from the through hole 312 of the first plate 310 It is preferable that the diameter of the 322 is small so that the damping wire 330 is tightly fixed to the through holes 312 and 322, and thus, the first plate 310 constituting the damping member 300 and the damping wire. The 330 and the second plate 320 are integrally formed.

As described above, the damping wire 330 may have a circular or elliptical shape installed on the first plate 310 and the second plate 320. When the shape of the damping wire 330 is maintained, The buffer effect is a big advantage. 3B and 3C show that the damping wire 330 is elliptical, but the present invention is not limited thereto, and the gap between the first plate 310 and the second plate 320 may be defined by the first plate 310 and the first plate 310. If it is close to the width of the two plates 320 may form a circle. On the other hand, although not shown in the drawing, the damping wire is not made of a single wire as described above, one end is fitted into the through hole of one side of the first plate and the other end is inserted into the through hole of the other side of the second plate It is also possible for two fixed wires to be installed on the same vertical plane.

Meanwhile, as illustrated in FIGS. 4A and 4B, the damping wire 330 is fitted to a plurality of hooks 314 and 324 respectively mounted on opposite surfaces of the first plate 310 and the second plate 320. Can be fixed. The hooks 314 and 324 serve to wrap and fix the damping wire 330, and are not particularly limited as long as they are generally used. However, one end of the hooks 314 and 324 should be installed to press the damping wire 330 to prevent the flow of the damping wire 330, whereby the damping wire 330 is the first plate 310 and the second plate The first plate 310, the damping wire 330, and the second plate 320 constituting the damping member 300 may be integrated with each other. The damping wire 330 fixed by the hooks 314 and 324 may have a circular or elliptical shape, and description thereof will be omitted.

5a to 5c is a diagram showing the installation state of the vibration reduction device of the pipe according to the present invention. With reference to this it will be briefly described the installation process of the vibration reduction device of the pipe according to the present invention. First, the first plate 310 of the plurality of damping members 300 is formed on the inner circumferential surface of each of the first supporting members 100, 100 ′, 100 ″ and the second supporting members 200, 200 ′, 200 ″. Welded.

5A and 5B, the second plate 320 of the damping member 300 joined to the inner circumferential surfaces of the first supporting members 100 and 100 ′ is seated on the rim of the pipe 10. The first fastening portions 120 and 120 'of the supporting members 100 and 100' are bolted to the pillars to fix the first supporting members 100 and 100 '. Then, the second plate 320 of the damping member 300 joined to the inner circumferential surfaces of the second support members 200 and 200 is brought into contact with the rim of the pipe 10 and the second support members 200 and 200 ' After the second extension parts 210 and 210 'are aligned with the first extension parts 110 and 110' of the first support member 100, the second fastening part of the second support member 200. 200 '( 220. 220 ') is bolted to the column so that the second support members 200 and 200' are fixed. Then, by bolting the first extension parts 110 and 110 'of the first support members 100 and 100' and the second extension parts 210 and 210 'of the second support members 200 and 200'. The installation is complete. The operation of disassembling the vibration reduction device installed as described above is performed in the reverse order to the above process.

FIG. 5C illustrates a state in which the vibration reduction device of the pipe is installed in the elbow portion of the pipe. In this case, the vibration reduction device of the pipe according to FIG. 1C may be used. First, the second plate 320 of the damping member 300 bonded to the inner circumferential surface of the first support member 100 '' is seated on the rim of the pipe 10, and the The first fastening part 120 ″ is bolted to the pillar to fix the first support member 100 ″. Then, the second plate 320 of the damping member 300 joined to the inner circumferential surface of the second supporting member 200 '' is brought into contact with the rim of the pipe 10, and the second supporting member 200 '' is formed. The second fastening part 220 ″ of the second support member 200 ″ after the second extension part 210 ″ matches the first extension part 110 ″ of the first support member 100. Bolted to the column to secure the second support member 200 ″. Then, the first extension 110 ″ of the first support member 100 ″ and the second extension 210 ″ of the second support member 200 ″ are bolted to each other, and the first support Installation is completed by bolting the connection of the other end of the member 100 '' and the other end of the second support member 200 '' using the auxiliary plate 400, and the dismantling operation is performed in the reverse order to the above process. .

As described above, according to the vibration reduction device of the pipe according to the present invention, by installing a plurality of damping members having rigidity on the rim of the pipe, the pipe is prevented from being deformed or damaged due to the normal operation vibration or excessive vibration Can be.

Claims (8)

In the device that can reduce the vibration of the pipes used in factories, plants or power plants, A support member having a tubular shape to penetrate the pipe, the fastening means being provided to be mounted to a column or a wall at an outside thereof; And And a plurality of damping members inserted and installed between the pipe and the support member so as to reduce vibration generated in the pipe. The damping member is installed between the first plate attached to the inner circumferential surface of the support member, the second plate attached to the rim of the pipe, and the first plate and the second plate to maintain a predetermined interval. Vibration reduction device for a pipe, characterized in that it comprises a plurality of damping wire having its own rigidity. The method of claim 1, The support member includes a first support member formed of a semi-circular tube, each end having an extension portion bent in a normal direction, and a second support member symmetric with the first support member. 2, the extension of each of the support member is provided with at least one fastening hole to be bolted to each other, the vibration reduction device of the pipe. The method of claim 1, The support member includes a first support member formed of a semi-circular tube and having an extension portion bent in a normal direction at one end thereof, and a second support member symmetric with the first support member. Each of the two support members may include at least one fastening hole to be bolted to each other, and the other end of the first support member and the other end of the second support member may be bolted to the auxiliary plate seated on the rim. Vibration reduction device of the pipe characterized in that it comprises one or more fastening holes. The method according to claim 2 or 3, The fastening means extends vertically bent from the extension of the first support member and has at least one fastening hole, and extends vertically bent from the extension of the second support member and at least one fastening hole. Vibration reduction device of the pipe comprising a second fastening portion having a. delete The method according to any one of claims 1 to 3, The damping wire is a vibration reduction device for a pipe, characterized in that a plurality of metal wires are spirally formed to each other. The method according to any one of claims 1 to 3, The first plate and the second plate respectively penetrate both sides thereof and have a plurality of through holes formed in a longitudinal direction, and the damping wire penetrates the through holes of any one plate of the first plate or the second plate. Vibration reduction device of the pipe, characterized in that both ends are fixed to each other through the through-hole of one plate. The method according to any one of claims 1 to 3, The damping wire is vibration reduction device of the pipe, characterized in that the fitting is fixed to the plurality of hooks respectively mounted on the mutually opposite surface of the first plate and the second plate.

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