KR101589116B1 - Apparatus for rotating and breaking of turret - Google Patents

Abstract

The present invention relates to a turret rotating and braking device. In particular, according to one embodiment of the present invention, there is provided a method of manufacturing a rotor, comprising: a plurality of shafts provided along a circumference of a turret; A support provided on the door frame formed on the hull of the ship; An arm rotatably connected to the support; A gear installed at an end of the arm and interlocking with the shaft; And a drive device for rotating the gear. The turret rotating and braking device may be provided with:

Description

[0001] APPARATUS FOR ROTATING AND BREAKING OF TURRET [0002]

The present invention relates to a turret rotating and braking device.

A drill ship or LNG-FPSO (floating oil production and storage facility) that drills gas or crude oil from the sea bed has a turret to aid drilling. The turret is usually mounted on a moon pool including a vertical opening provided at one end of the ship, usually at the tip of the ship, and is fixed to a subsea well platform of the seabed by a chain or the like to moor the ship.

The turret is also mounted on the vessel so that the vessel can rotate relative to the turret as a central axis, providing a stable and continuous transport path for the transfer of gas or crude oil from the ore platform to the vessel during drilling operations.

In other words, even when the ship is flowed by wind, waves or algae while the gas or crude oil is being transported, the ship can freely rotate around the fixed turret as the center axis, so that the gas or crude oil is fixed And can be stably transported through a tube or the like inside the turret. In this case, an example of the structure for rotating the ship around the turret is such that the bearing provided on the turret rotates by sliding contact with the outer wall of the hull forming the vertical opening.

On the other hand, while installing the turret-mounted vessel on the sea, the ship mooring chain should be installed first, and then a number of risers (oil feed pipe) should also be installed according to the designated line. During the installation of these risers, The ship can rotate by wind, waves and so on.

In this case, if the ship unintentionally rotates during the installation of the riser, the risers that are being installed may be twisted together. Therefore, when the unintentional rotation of the ship occurs, the rotation of the ship is broken and if the riser moves to an unintended position It is necessary to force the turret to rotate to correct the position of the riser.

To this end, conventionally, a hang-off deck is provided which is located in the middle of the turret and is capable of relative rotation with the turret, a rail is formed under the row-off deck, A cylinder and a braking gripper were provided, and the turret was rotated relative to the ship using a hydraulic cylinder, or the turret was fixed to the ship using a gripper.

Specifically, when the grip-off deck is fixed to the hull and the gripper grips the lower rail of the row-off deck and the hydraulic cylinder is extended, the turret is pushed and the hydraulic cylinder is rotated as much as it is stretched. After releasing the gripper, The hydraulic cylinder is increased by gripping the lower rail of the row-off deck with the gripper again. The turret could be rotated relative to the hull while repeating this process.

However, such conventional apparatuses discontinuously rotate the turret while repeating grasping and releasing operations of the gripper when the vessel is relatively rotated with respect to the turret, so that the turret rotation amount and the rotation speed can not be easily controlled There is a problem.

Further, since the process of supplying and recovering the hydraulic pressure to the gripper must be repeated, a complicated hydraulic control system and a hydraulic line are required.

In addition, since a hydraulic cylinder and a gripper have to be provided inside the turret to be rotated with respect to the hull, the internal structure of the turret is complicated.

In addition, a driving fluid supply line or a control signal transmission line or the like must be connected from the hull to the hydraulic cylinder and the gripper. Since the hull and the turret rotate relative to each other, installation of such a line is not easy, There is a problem that the operation becomes unnecessarily cumbersome.

Korean Patent Laid-Open No. 10-2008-0109418

Disclosure of the Invention The present invention has been proposed in order to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a turret capable of safely and actively rotating a turret (Braking) a turret rotating and braking device capable of rotating and / or braking a rotor.

It is also an object of the present invention to provide a turret rotation and braking device capable of measuring a rotation amount of a ship relative to a turret and setting a rotation speed to a desired level.

It is also an object of the present invention to provide a turret rotating and braking device capable of easily controlling the rotation of a turret without connecting a hydraulic line manually without providing a device for rotation inside a turret to be rotated with respect to the hull.

According to one embodiment of the present invention, there is provided a turret comprising: a plurality of shafts provided along the periphery of the turret; A support provided on the door frame formed on the hull of the ship; An arm rotatably connected to the support; A gear installed at an end of the arm and interlocking with the shaft; And a turret rotating and braking device including a driving device for rotating the gear may be provided.

Further, a tooth of the gear may be inserted between two adjacent shafts of the plurality of shafts, and when the gear rotates, a turret rotating and braking device may be provided in which the teeth of the gear push the shaft to rotate the turret have.

Further, when the gear stops rotating, a turret rotating and braking device may be provided in which the teeth of the gear limit the movement of the shaft to stop the rotation of the turret.

Further, it is preferable that an elastic member disposed between the support and the arm and absorbing an external force applied to the arm, wherein a bolt whose position is fixed by a nut is fixed at a portion where the support is engaged with the elastic member And a turret rotating and braking device in which the rotation range of the arm is limited by the bolt.

The driving device may further include: a motor; A speed reducer for limiting a rotation speed of the motor; And a brake for stopping the speed of the motor may be provided in the turret rotating and braking device.

According to an embodiment of the present invention, there is an effect that the ship can be safely and positively rotated against the mooring turret by rotating the pinion gear engaged with the shaft provided in the turret by the motor.

Further, there is an advantage that the rotation amount and the rotation speed of the ship can be precisely controlled by the brake for controlling the motor, the sensor for detecting the speed, and the speed reducer.

Further, when the horizontal movement of the pinion gear occurs due to the swinging motion of the hull, the elastic member, which transmits the elastic force to the arm, instantaneously absorbs the horizontal motion and restores the pinion gear to its original position, And the braking device can be stably operated.

In addition, since the rotational force is transmitted from the outside of the turret by the device fixed to the hull, there is no need to install a rotating device inside the turret, and there is no need to manually connect the hydraulic line.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a turret rotating and braking device provided on a hull of a ship according to an embodiment of the present invention; FIG.
FIG. 2 is a side view of a hull and a turret provided with a rotating and braking device of the turret of FIG. 1;
Figure 3 is an enlarged view of the rotating and braking device of Figure 1;
Figure 4 is a side view of the rotating and braking device of Figure 1;

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the following description, well-known functions or constructions are not described in detail since they may obscure the subject matter of the present invention.

FIG. 1 is a view showing a turret rotating and braking apparatus provided on a hull of a ship according to an embodiment of the present invention. FIG. 2 is a view showing a hull and a turret having a rotating and breaking apparatus of the turret of FIG. FIG. 3 is an enlarged view of the rotating and braking device of FIG. 1, and FIG. 4 is a side view of the rotating and braking device of FIG. 1.

1 and 2, a turret rotating and braking apparatus according to an embodiment of the present invention includes a support 100 attached to the inner wall of the door frame 20, a rotatably coupled support 100, 10 for driving the turret 10 and a driving device 300 for providing a driving force for rotating the turret 10.

The turret 10 may be supported by a plurality of bearings inserted into the door 20 corresponding to the holes formed in the ship and provided to the door 20. The upper portion of the turret 10 may be provided with a plurality of shafts 14 at predetermined intervals along the circumference thereof.

3 and 4, the supporting table 100 included in the turret rotating and braking apparatus according to the present embodiment is a bracket protruding from the inner wall surface of the door leaf 20 toward the inside of the door leaf 20 Lt; / RTI > The support 100 may include a hinge bracket 110 to which the arm 200 is connected and the hinge bracket 110 may include a portion of the support 100 formed such that the side thickness of the support 100 is thinner than the other portions As shown in FIG. The hinge bracket 110 is formed with a hole through which the hinge bracket 110 is inserted so that the pin 204 that serves as a rotating shaft when the arm 200 rotates can be inserted.

The hollow 101 may be formed in the support 100 so that the position of the bolt 104 and the bolt 104 for restricting the movement of the arm 200 is set in the hollow 101 A nut 106 for fixing can be located. The side wall facing the turret 10 in the wall constituting the hollow 101 can act as an elastic supporting portion 102 to which the elastic member 108 is fixed and the bolt 104 is inserted into the elastic supporting portion 102 A hole may be formed.

An elastic member 108 may be fixed to the elastic supporting member 102, and the elastic member 108 may be a spring, for example. However, the spirit of the present invention is not limited thereto. Further, the elastic member 108 and the bolts 104 may be provided one by one, but it is also possible to provide a plurality of the elastic members 108 and the bolts 104, which are design changes.

On the other hand, the arm 200 may be composed of two thin plates opposed to each other, and holes may be formed on one side of the two plates. The hinge bracket 110 can be installed between the two plates constituting the arm 200 and the pin 204 is inserted in a state where the hole formed in the hinge bracket 110 and the hole formed in the two plates are aligned with each other The arm 200 can be rotatably provided with respect to the support 100 with the pin 204 as a center axis. Further, the pin 204 may be provided so that a flange is formed at both ends so as not to be detached from the arm 200.

The arm 200 is formed of two plates and the hinge bracket 110 is provided between the two plates. However, the present invention is not limited to this, The hinge bracket 110, that is, the supporting base 100, is applicable.

A gear 210 may be provided on the other side of the arm 200 connected to the hinge bracket 110, and the gear 210 may be a pinion gear, for example. The gear 210 is interposed between the two plates constituting the arm 200 and is fixed to the rotating shaft 302 of the driving device 300 so that the rotating shaft 302 rotates so that the gear 210 rotates together Can be provided. One of the gears 210 is positioned between two adjacent shafts of the plurality of shafts 14 so that the shaft 14 is rotated by the gear 120 in one direction So that the turret 10 is rotated.

A tab portion 202 to which the elastic member 108 is fastened may be provided to protrude from the body constituting the arm 200. [ The elastic force of the elastic member 108 can be transmitted to the arm 200 while the tab portion 202 is directly subjected to the elastic force from the elastic member 108. [

The drive unit 300 includes a motor 320, a speed reducer 310 for appropriately adjusting the rotational speed of the motor 320, a brake 330 for stopping the motor 320, And a sensing sensor 340 for sensing a sensing signal.

The motor 320 may be connected to an external power source (not shown) provided on the ship and may be driven and controlled. The speed reducer 310 may be connected to the rotary shaft 302 of the motor 320, And serves to decelerate the rotation of the rotating shaft 302 to an appropriate level when the rotating shaft 302 is rotated. Further, the brake 330 can interrupt the electricity flowing to the motor 320 or control the rotation of the rotation shaft 302 of the motor 320 by controlling the speed of the motor. The sensing sensor 340 may be connected to the rotation shaft 302 of the motor 320 and may be configured to sense the rotation amount and the rotation speed of the motor 320. [ By detecting the rotation amount and rotation speed of the motor 320, the rotation amount and the rotation speed of the turret can be indirectly known. When the rotation speed of the turret is faster than the predetermined speed, the azimuth thrusters The rotational speed of the ship can be controlled by the propulsion device.

Hereinafter, the operation and effects of the turret rotating and braking device having the above-described configuration will be described.

When the ship is rotated with respect to the turret 10 to control the attitude of the ship with the turret installed on the ship moored, the gear 320 can be driven to rotate the gear 210. When the gear 210 rotates, the teeth of the gear 210 push the shaft 14 to rotate the turret 10. When the rotation of the gear 210 is stopped, the teeth of the gear 210 move the shaft 14 So that the turret 10 stops rotating.

When the gear 210 rotates, the turret 10 is fixed to the subsea well platform of the seabed by a chain or the like, so that the vessel rotates with respect to the turret 10 substantially. This allows the posture of the ship to be controlled. The rotational speed of the ship can be controlled by appropriately using the brake 330. [

On the other hand, there is a case where the ship temporarily moves due to wind, waves, tide or the like. At this time, there may be a case where the turret 10 is dispatched to the delivery 20 of the ship. In the turret rotation and braking apparatus according to the present embodiment, the arm 200 is connected to the support 100 by a hinge structure so as to be rotatable, and the elastic member 200 is provided between the arm 200 and the support 100, Even if the turret 10 is moved toward a part of the inner wall of the door 20, the turret 10 and the door 20 are supported by the arm 200, It is possible to suppress the collision with each other and the impact. Further, after the turret 10 moves toward a part of the inner wall of the door frame 20, it can be restored to its original position by the elastic force of the elastic member 108.

Even if the amount of movement of the turret 10 is large and the arm 200 is pushed to a large width at this time, the tab portion 202 of the arm 200 is not moved to the end of the bolt 104 So that further movement is inhibited. Further, since the operator can easily adjust the position where the nut 106 is fastened to the bolt 104 through the hollow 101, the movable distance of the turret 10 can be set to a desired degree.

The turret locating apparatus according to the present embodiment can safely and rotatably rotate the ship against the pending turret 10 by rotating the gears 210 engaged with the shaft 14 of the turret 10 with the motor 320 .

In addition, there is an advantage that the amount of rotation and the rotation speed of the ship can be precisely controlled by the brake 330, the detection sensor 340, and the speed reducer 320 that control the motor 320.

When the horizontal movement of the gear 210 occurs due to the oscillation of the hull, the elastic member 108, which transmits the elastic force to the arm 200, momentarily absorbs the horizontal movement of the gear 210, It is possible to stably operate the turret rotating and braking device despite the shaking of the ship.

Since the supporting table 100 is fixed to the hull and the rotational force is transmitted from the outside of the turret 10 by the arm 200 and the gear 210 connected to the supporting table 100, There is no need to install a rotating device, which simplifies the structure of the apparatus and eliminates the need to manually connect the hydraulic line, thereby simplifying the operation.

While the present invention has been described with respect to specific embodiments of the turret rotation and braking device according to the embodiments of the present invention, the present invention is not limited thereto, and the present invention is not limited thereto. . Skilled artisans may implement a pattern of features that are not described in a combinatorial and / or permutational manner with the disclosed embodiments, but this is not to depart from the scope of the present invention. It will be apparent to those skilled in the art that various changes and modifications may be readily made without departing from the spirit and scope of the invention as defined by the appended claims.

10: turret 14: shaft
20:
100: support 102: elastic support
104: bolt 106: nut
108: elastic member 110: hinge bracket
200: arm 202: tab portion
204: pin 210: gear
300: drive device 302: rotating shaft
310: Reducer 320: Motor
330: Break

Claims (5)

A plurality of shafts provided along the periphery of the turret;
A support provided on the door frame formed on the hull of the ship;
An arm rotatably connected to the support;
A gear installed at an end of the arm and interlocking with the shaft;
A driving device for rotating the gear; And
And an elastic member disposed between the support and the arm and absorbing an external force applied to the arm,
A bolt whose position is fixed by a nut is inserted into a portion where the supporter and the elastic member are engaged,
Wherein the rotation range of the arm is limited by the bolt. The method according to claim 1,
Wherein teeth of the gear are inserted between two adjacent shafts of the plurality of shafts,
And wherein when the gear rotates, the teeth of the gear push the shaft to rotate the turret. 3. The method of claim 2,
Wherein when the gear stops rotating, the teeth of the gear limit movement of the shaft to stop rotation of the turret. delete The method according to claim 1,
The driving device includes:
motor;
A speed reducer for limiting a rotation speed of the motor; And
And a brake for stopping the speed of the motor.

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