KR101644865B1 - Rotating apparatus of reduced vortex induced vibration - Google Patents

Abstract

The present invention relates to a pneumatic vibration reduction rotary system having a cylinder type rotary device surrounding a pipe (for example, a riser) installed in the deep water and water and capable of preventing the pipe from being damaged due to the rotation of the rotary device And a rotating device is installed to surround the outside of the pipe installed in the deep water and the water and to be rotated by the fluid flow to reduce the vortex oscillation. The rotating device includes a cylinder member ; And a damping unit installed on the pipe between the pipe and the cylinder member to absorb an external impact.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a rotary-

[0001] The present invention relates to a vortex vibration reduction rotary device, and more particularly to a vortex vibration reduction rotary device having a cylindrical rotary device surrounding a pipe (for example, riser) installed in deep water and water, And to prevent the pipe from being damaged. 2. Description of the Related Art

Major facilities for drilling and production of oil and gas in the ocean include marine platforms, floating production, storage and offloading equipment, offshore wind generators, and underwater pipelines.

And, one of the additional facilities that accompany these major offshore installations may be a pipe structure (riser) for the transport or support of the fluid.

1 and 2, since the riser 10 is mostly submerged in water, the flow of the ocean waves and algae causes the riser 10 Vortex can occur periodically around the center of gravity.

As described above, the vortex generated around the riser 10 may cause vibration in the horizontal or vertical direction to the fluid flow, which is called Vortex Induced Vibration (VIV).

Such vortex oscillation may cause dynamic instability in the pipe structure, causing damage to offshore facilities or even overturning offshore facilities, which should be minimized.

Particularly, worldwide interest to develop deep-sea wells has been increasing recently, but pipe structures such as risers installed in the deep sea are subject to stronger currents, lower natural frequencies of the pipes, , It is urgent to establish an effective alternative to the above.

3 is a perspective view showing various embodiments of a generally used vortex vibration reduction apparatus in which the vortex vibration reduction apparatus 20 is integrally attached to the riser 10, There is a problem that the riser is directly received and damage to the riser occurs.

Korean Patent Laid-Open Publication No. 10-2014-0111103 (published on September 18, 2014)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and its object is to reduce the influence of algae by acting as a damping cylinder by providing a cylinder- And the outer cylinder is rotated on the algae, thereby changing the position of the fluid movement to weaken the vortex, thereby minimizing damage to the pipe.

According to an aspect of the present invention, there is provided an apparatus for reducing a vortex oscillation, the apparatus including: A rotating device can be installed.

The rotating device according to an embodiment of the present invention may include a cylinder member surrounding the outside of the pipe and a damping unit rotatably installed between the outside of the pipe and the inside of the cylinder member to absorb an external impact have.

The cylinder member according to the present embodiment is installed while enclosing the outside of the pipe, but may be formed with teeth around the inner wall surface.

In addition, irregularities may be formed around the outer circumference of the cylinder member so as to rotate in the flow velocity direction without resisting the force of the external flow velocity while changing the current position.

The damping unit according to the present embodiment may include a connecting rod provided on the outer side of the pipe and a rotating hole provided on the connecting rod so as to be engaged with the teeth of the cylinder member and rotated according to the rotation of the cylinder member.

The connecting rod may be resiliently mounted on the outside of the pipe so as to absorb the impact of the cylinder member and the damping portion according to the speed of the algae.

The rotary shaft may be rotatably installed on the connecting rod, and teeth may be formed on the outer side so as to be engaged with the teeth of the cylinder member and rotated according to the rotation of the cylinder member.

In addition, the damping unit may be installed on the outside of the pipe so as to absorb the entire bearing shock.

The damping unit may be installed at least three or more at equal intervals on the outside of the pipe.

According to another aspect of the present invention, there is provided an offshore structure having a vortex vibration reduction rotation device for reducing vibration of a vortex caused by algae on the outside of the pipe to prevent damage to the pipe.

As described above, according to the vortexor vibration reduction rotation device of the present invention, it is possible to minimize the damage of the pipe caused by the algae by providing a rotating device rotated by the algae of the pipe, and reusable, So that the efficiency of the product can be maximized.

Fig. 1 is an illustration showing vortices generated around a riser installed in a general water.
2 is an exemplary view showing the behavior of fluid passing around a cylinder of a general riser.
3 is an exemplary view showing vortex-type vibration reduction devices generally used in a riser.
4 is an exploded perspective view showing the vortex vibration reduction rotary device of the present invention.
5 is a perspective view showing the vortex vibration reduction rotary device of the present invention.
6 is a sectional view showing the vortex vibration reduction rotary device of the present invention.
7 is a plan view showing a damping portion of the vortex vibration reduction rotary device of the present invention.
8 is a side view showing an operating state of the damping unit according to the present invention.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 4 is a perspective view illustrating the vortex vibration reduction rotary device of the present invention, FIG. 5 is a perspective view of the vortex vibration reduction rotary device of the present invention, and FIG. FIG. 7 is a plan view showing a damping portion of the vortex vibration reduction rotary device of the present invention, and FIG. 8 is a side view showing an operation state of the damping portion according to the present invention.

As shown in FIGS. 4 to 8, the present invention reduces a vortex oscillation (VIV) in which vibrations are generated in a direction parallel or perpendicular to a fluid flow due to a vortex generated around the pipe 100 installed in the water A rotating device 200 is provided to rotate the pipe 100 in the flow direction by the fluid flow to reduce the vortex oscillation VIV, .

The rotating device 200 according to the present embodiment includes a cylinder member 210 installed to surround the outside of the pipe 100 and a cylinder member 210 installed between the pipe 100 and the cylinder member 210, And a damping unit 220 installed to be rotatable in accordance with the rotation so as to absorb an external impact to minimize an impact applied to the pipe 100.

The cylinder members 210 are spaced apart from the pipe 100 at regular intervals.

The cylinder member 210 is disposed to surround the outer circumference of the pipe 100, and teeth 211 are formed on the inner wall surface.

At this time, the teeth 211 are provided around the entire inner wall surface of the cylinder member 210 so that the cylinder member 210 can rotate 360 degrees.

That is, the teeth 211 are formed around the inner wall surface of the cylinder member 210, and the teeth 211 are engaged with the damping portion 220 to rotate the cylinder member 210 along the damping portion 220 The cylinder member 210 can be rotated in the same direction as the flow direction according to the flow of the fluid.

The concave and convex portions 212 are formed on the outer surface of the cylinder member 210 so that the cylinder member 210 can be rotated in the flow direction without restricting the force of the external flow velocity while changing the position of the current.

At this time, the unevenness 212 is installed around the entire outer surface of the cylinder member 210 so that the unevenness 212 can be rotated regardless of the direction of flow of the fluid.

As the unevenness 212 is formed on the entire outer circumferential surface of the cylinder member 210, the cylinder member 210 can be rotated in the same direction as the direction of the flow velocity even in the forward, backward, .

The damping unit 220 according to the present embodiment includes a connecting rod 230 installed at the outer side of the pipe 100 and a connecting rod 230 installed at the connecting rod 230 and engaged with the teeth 211 of the cylinder member 210, And the rotation member 240 can be rotated according to the rotation of the cylinder member 210 by the rotation of the cylinder member 210.

The connecting rod 230 absorbs the impact of the cylinder member 210 and the damping portion 220 according to the speed of the algae so that the connecting rod 230 is elastically installed outside the pipe 100 to prevent external impact from being transmitted to the pipe 100. [ Respectively.

The connecting rod 230 is elastically supported by a spring 250 installed on the inner side of the pipe 100 and the damping part 220 also flows while the cylinder member 210 moves according to the flow velocity, The external impact is not transmitted.

The rotation member 240 is rotatably installed on the link 230 in accordance with the rotation of the cylinder member 210.

The teeth 241 are formed on the outer side of the rotary tool 240 so as to be engaged with the teeth 211 of the cylinder member 210 and rotated according to the rotation of the cylinder member 210.

The teeth 241 of the rotary tool 240 are provided around the entire outer surface of the rotary tool 240 so that the cylinder member 210 and the rotary tool 240 can rotate 360 degrees.

The damping unit 220 of the present embodiment is installed at a plurality of positions outside the pipe 100 so as to absorb the entire bearing impact transmitted to the cylinder member 210.

Preferably, at least three damping parts 220 are provided on the outer side of the pipe 100 at equal intervals.

According to another aspect of the present invention, a damping unit 220 is installed outside the pipe 100, and a cylinder member 210 surrounding the pipe 100 is installed to engage with the damping unit 220, Is applied to an offshore structure having a vortex vibration reduction rotary device so as to minimize the vortex oscillation (VIV) caused by the vibration of the pipe (100).

That is, a cylinder member 210 is formed in which the teeth 211 are formed around the inner wall surface and the unevenness 212 is formed around the pipe 100 installed in the deep water and water, The cylinder member 210 and the damping member 220 are connected to each other by the cylinder member 210 so that the cylinder member 210 and the damping member 220 are rotated by the rotation of the cylinder member 210, Can be rotated in the direction of the flow velocity so that the impact applied to the pipe 100 can be minimized so that it can be applied to all marine structures that can prevent the pipe 100 from being damaged.

As described above, the vortex vibration reduction rotary device of the present invention is one of the incidental facilities associated with an offshore structure, in which a pipe 100 for transferring or supporting a fluid is installed in deep water and water, When vortices are generated behind the pipe 100 and the vortex period generated at this time becomes equal to the natural frequency of the pipe 100, vortex oscillation is generated to cause serious damage to the pipe 100, The rotating device 200 that rotates while surrounding the pipe 100 is installed so as not to be exposed to the speed change of the algae.

The rotating device 200 can be rotated in the flow direction according to the flow of the fluid, so that the rotating device 200 can be rotated by the flow velocity to reduce the vortex oscillation VIV, Thereby minimizing damage to the pouch.

That is, the rotating device 200 is provided with a damping portion 220 which is elastically installed outside the pipe 100 and is rotatable, and is surrounded by the damping portion 220, By providing the cylinder member 210 in the form of a cylinder, the cylinder member 210 is rotated along the damping portion 220 in the direction of the flow velocity to weaken the vortex generated when the fluid passes.

As the unevenness 212 is provided around the cylinder member 210, the cylinder member 210 is rotated in the same direction as the direction of the flow velocity to change the position of the algae, .

As described above, the present invention is not limited to the above-described specific preferred embodiments, and any person skilled in the art can make various modifications without departing from the gist of the present invention. It is to be understood that such changes and modifications are intended to fall within the scope of the appended claims.

100: pipe
200: Rotating device
210: cylinder member
211, 241:
212: unevenness
220:
230: Links
240:
250: spring

Claims (10)

An apparatus for reducing vortex oscillation,
A rotary device is installed so as to surround the outside of the pipe installed in the deep water and underwater and to be rotated by the fluid flow to reduce vortex oscillation,
The rotating device includes:
A cylinder member surrounding the outside of the pipe; And
And a damping portion installed on a pipe between the pipe and the cylinder member to absorb an external impact,
A tooth is provided around the inner wall surface of the cylinder member so as to engage with the damping portion to rotate the cylinder member,
Wherein the damping unit comprises:
A connecting rod installed outside the pipe; And
And a rotating member installed in the connecting block to be rotated with the rotation of the cylinder member in engagement with the cylinder member,
The connecting rod is resiliently mounted on the outside of the pipe so as to absorb the impact of the cylinder member and the damping unit according to the speed of the algae,
The rotary shaft is rotatably installed on a connecting rod, and teeth are provided on the outer side so as to be engaged with the teeth of the cylinder member and rotated according to the rotation of the cylinder member,
Wherein the cylinder member is provided with concavities and convexities around the outer circumference of the cylinder member so as to be rotated in the flow velocity direction without resisting the force of the external flow velocity while changing the position of the bird,
The connecting rod is elastically supported by a spring provided on the inner side of the pipe,
Wherein the damping portion is provided on the outside of the pipe so as to absorb a total bearing shock,
Wherein at least three damping portions are provided on the outside of the pipe at regular intervals. delete delete delete delete delete delete delete delete delete

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