KR20180041861A - Apparatus dropping for transponder of high precision acoustic positioning system in floating offshore plant - Google Patents

Abstract

The present invention relates to an automatic transponder dropping apparatus of a position information system of a floating offshore plant. The present invention can lift a release lever by using buoyancy of a buoy to release locking of a hook to lower the transponder to the seabed so that risk of an accident is removed during transponder installation work, and work loss can be reduced.

Description

TECHNICAL FIELD [0001] The present invention relates to a transponder automatic falling device for a position information identification system of a floating offshore plant,

The present invention relates to a transponder dropping apparatus for a position information identifying system of a floating offshore plant, and more particularly, to a transponder dropping apparatus for a floating oceanic plant, in which a buoyancy of a buoy is used to lift a release lever to release the locking of a hook, To an undersea (sea bottom), thereby eliminating the risk of safety accidents during the installation work of the transponder and reducing the work loss.

Along with the development of submarine mining technology, marine plants are being developed, which are various marine facilities suitable for development of marginal field or deep-sea oil field.

Offshore plants are available in a variety of forms, such as floating offshore installations, semi-submersible offshore installations, fixed offshore installations, offshore installations, and drilling rigs.

The HIPAP (High Precision Acoustic Positioning System) measures the distance between a PRU (Position Reference Unit, hereinafter referred to as PRU) installed at a certain depth (or bottom) under the water surface and a signal transmitting means, And specifies the position of the signal transmitting means.

In order to specify the position of the signal transmitting means, the PRU is arranged at a known position.

Generally, in order to know the position of the PRU, an expensive transponder that receives the signal from the transmitter and then transmits the changed frequency by changing the frequency is used as the PRU.

A transponder is a kind of relay device that receives a transmission radio wave as a synthesized word of a transmitter and a transponder, amplifies it internally, and changes the frequency to retransmit.

A drill ship, such as a drill ship, is a location information confirmation system that can confirm its location information. It has a transducer for transmission installed on the offshore plant and one or more transponders installed on the seabed.

1 is a view showing a transducer of a floating offshore plant and a transponder on the sea floor side in a general positional information confirmation system of a floating offshore plant.

As shown in FIG. 1, in a general positional information confirmation system (DP) of a floating offshore plant, a transmission transducer (2) is installed on the side of a floating offshore facility (offshore plant) And a transponder 10 is installed on the sea floor side.

The transponder 10 is dropped to the sea for operation of the conventional position information confirmation system and then the transponder 10 is lowered to the sea floor by using the load of the transponder 10. [

Conventionally, the operator is boarded on the boarding box, the transponder 10 suspended from the rope of the crane is pushed down, and the operator manually descends by using a ladder to cut the end of the rope of the crane by the work knife, 10) was lowered to the sea bed.

However, such a conventional method has a risk of safety accidents such as a fall of a worker and a drowning accident due to insecurity of a work state, and it takes a lot of time to install a transponder due to inefficiency of work, There are more delays in the work, and there are problems that are greatly affected by the skill of the worker.

Korean Patent Publication No. 10-2015-0010090

The present invention can lower the transponder to the sea floor by lifting the release lever by using the buoyancy of the buoy to release the locking of the hook, thereby eliminating the risk of safety accidents during the transponder installation work. And to provide a transponder automatic dropping device of a position information confirmation system of a floating offshore plant capable of reducing work loss.

In order to achieve the above object, the present invention provides a position information verification system including a transducer for transmission installed in a offshore plant and one or more transponders installed on the underside of the transponder, 1. A transponder automatic dropping device for automatically lowering to a seabed, comprising: a dropping device block connected to a rope at the bottom of a crane; A hook rotatably hinged to a lower portion of the dropping device block and hooking the transponder; A release lever rotatably hinged to the upper portion of the dropping device block and having a stopper protruding at one end thereof for restricting rotation of the hook; A torsion spring interposed in the hinge of the release lever to provide an elastic force to the release lever; And a buoy for rotating the release lever upward by rotating the hinge about the hinge by using buoyancy when releasing the water to release the locking of the stopper to rotate the hook downward. Provides transponder automatic dropping device.

The transponder is suspended from the hook by a support cord, and a release prevention bar is provided on the dropping device block to prevent any disengagement of the support cord.

The buoy may be connected to the release lever by a chain.

The torsion spring causes the release lever to support the hook in a locking direction.

A locking hole is formed in the dropping device block, and a locking pin that prevents the release lever from rotating arbitrarily can be removably fitted into the locking hole.

As described above, according to the present invention, even if the operator does not directly cut off the rope of the crane after dropping the transponder in the sea, the buckling force of the buoy is used to lift the release lever to release the locking of the hook, It is possible to remove the risk of safety accidents, reduce the work loss (99MH / chuck) in the transponder installation work because the ponder can be lowered to the seabed, There are advantages.

1 is a schematic view showing a transducer of a floating offshore plant and a transponder on the sea floor side in a position information confirmation system of a general floating offshore plant.
2 is a photograph illustrating a manual installation of a conventional transponder
3 is a front view showing a transponder automatic dropping device of a position information confirmation system of a floating offshore plant according to the present invention.
FIG. 4 is a side view showing a transponder automatic dropping device of a position information confirmation system of a floating offshore plant according to the present invention.
5 is a front view showing a state in which the transponder is hooked
6 shows a state in which the transponder is dropped on the sea surface
7 is a view showing a state in which the release lever is rotated by buoyancy of the buoy

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a transponder automatic dropping device of a location information confirmation system for a floating offshore plant according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is a front view showing a transponder automatic dropping device of a positional information identifying system of a floating offshore plant according to the present invention, and FIG. 4 is a view showing a transponder automatic dropping device of a positional information identifying system of a floating offshore plant according to the present invention. Fig. 5 is a front view showing a state in which the transponder is hooked; Fig. 6 is a state in which the transponder is dropped on the sea surface; and Fig. 7 is a view in which the release lever is rotated by buoyancy of the buoy.

Referring to FIG. 1, the position information verification system includes a transducer 2 installed on an offshore plant and one or more transponders 3 installed on the underside.

3 and 4, the transponder automatic dropping apparatus 100 of the position information identifying system of a floating offshore plant according to the present invention is an apparatus for automatically descending the transponder 10 to the sea floor, Includes a dropper block 110, a hook 120, a release lever 130, a torsion spring 140, and a buoy 150.

The configuration of the transponder automatic dropping apparatus 100 of the present invention will be described in more detail.

The dropping device block 110 is disposed at the upper end of the dropping device block 110 with two plates facing each other at regular intervals. The dropping device block 110 has a rope- (111). The rope-girding shaft 111 is located between the two plates.

The hook 120 is rotatably installed at a lower portion of the dropping apparatus block 110 about the hinge 121 and the transponder 10 is hooked to the end of the hook 120.

More specifically, the support string 4 is hooked to the end of the hook 120, and the transponder 10 is hooked to the support string 4.

The transponder 10 is suspended from the hook 120 by the support strap 4. For convenience of explanation, the hook 120 supports the support strap 4 of the transponder 10 in a locked state , And the state in which the support strap 4 is detached from the hook 120 is defined as the unlocked state.

In order to prevent any disengagement of the support strap 4, a release prevention bar 113 is rotatably installed on the dropping device block 110. The release prevention bar 113 is rotated by a spring 114 only in the direction of the arrow . That is, the hook 120 is provided so as to be turned in only one direction so that the support strap 4 can not be disengaged.

The release lever 130 is rotatably installed around the hinge 131 at the upper portion of the dropping apparatus block 110 and has a stopper 133 for restricting the rotation of the hook 120 at one end of the release lever 130 Respectively.

The release lever 130 rotates about the hinge 131 by buoyancy of the buoy 150 and rotates the stopper 133 formed integrally with the hinge 131 to selectively lock or unlock the hook 120 .

The torsion spring 140 is interposed in the hinge 131 so that the release lever 130 elastically supports the release lever 130 in a direction in which the hook 120 is locked.

The buoy 140 is used as a buoyant body to buckle the buoyant force to rotate the release lever 130 upward on the hinge 131 to release the locking of the stopper 133 to rotate the hook 120 downward .

That is, when the transponder 10 and the dropping apparatus block 110 fall down to the seabed due to their own weight, the buoy 150 floats on the sea surface, and eventually the release lever 130 is pivoted about the hinge 131, The locking of the stopper 133 is released and the hook 120 is rotated about the hinge 121 so that the transponder 10 descends to the sea floor.

The buoy 150 may be connected to the release lever 130 by a chain (C).

A locking hole H is formed in the dropping apparatus block 110 and a locking pin P for detachably rotating the release lever 130 can be removably fitted to the locking hole H. [

The operation of the transponder automatic dropping device of the position information confirmation system of the floating offshore plant according to the present invention constructed as above will be described in detail.

In order to install the transponder 10 of the position information verification system on the seabed, the dropping device block 110 is suspended on the rope at the bottom of the crane and the support string 4 of the transponder 10 is supported on the hook 120. At this time, the release preventing bar 113 is rotated only in the direction of the arrow by the spring 114 so that the supporting strap 4 is not disengaged arbitrarily (see FIG. 5).

The release lever 130 is connected to the buoy 150 by the chain C, and the release lever 130 is kept downward by the weight of the buoy 150. In this state, the dropping device block 110 and the transponder 10 are dropped in the sea, and then the locking pin P is removed (see Fig. 6).

Then, the transponder 10 sinks to the seabed due to its own weight, but the buoy 140 generates buoyancy to rotate the release lever 130 upward with the hinge 131 as the center, 133 to release the locking of the hook 120 and to rotate the hook 120 downward.

As the hook 120 rotates downward, that is, clockwise in the drawing, the supporting strap 4 of the transponder 10 is disengaged, and the transponder 10 descends to the sea floor (see Fig. 7).

As described above, according to the present invention, even if the operator does not directly cut off the rope of the crane after dropping the transponder in the sea, the buckling force of the buoy is used to lift the release lever to release the locking of the hook, It is possible to remove the risk of safety accidents, reduce the work loss (99MH / chuck) in the transponder installation work because the ponder can be lowered to the seabed, There are advantages.

2: Transmitting transducer
3: transponder
4: Support strap
100: Transponder automatic drop device
110: dropping device block
113: escape prevention bar
114: spring
120: Hook
121: Hinge
130: Release lever
131: Hinge
133: Stopper
140: Torsion spring
150: Boo
C: Chain
H: Locking hole
P: Locking pin

Claims (5)

A transponder automatic transmission for automatically lowering the transponder to the sea floor in a location information confirmation system including a transducer for transmission installed in an offshore plant and one or more transponders installed on the sea floor side, As a dropping device,
A dropping device block connected to the rope at the bottom of the crane;
A hook rotatably hinged to a lower portion of the dropping device block and supporting the transponder;
A release lever rotatably hinged to the upper portion of the dropping device block and having a stopper protruding at one end thereof for restricting rotation of the hook;
A torsion spring interposed in the hinge of the release lever to provide an elastic force to the release lever; And
And a buoy rotatable about the hinge with the buoyant force when the ship is falling down to rotate the release lever upward to release the locking of the stopper to rotate the hook downward. Ponder automatic drop device. The method according to claim 1,
Wherein the transponder is suspended from the hook by a support cord, and a release preventing bar is installed on the dropping device block to prevent the release of the support cord. Dropping device. The method according to claim 1,
Wherein the buoy is connected to the release lever by a chain. ≪ RTI ID = 0.0 > [10] < / RTI > The method according to claim 1,
Wherein the torsion spring supports the release lever in a direction in which the hook is locked. The method according to claim 1,
Wherein a locking hole is formed in the dropping device block, and a locking pin is detachably fitted in the locking hole so that the release lever does not rotate arbitrarily. .

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