KR102351593B1 - Recovery System and Recovery Method of Buoyancy Tank - Google Patents

Abstract

The present invention relates to a recovery system for a floating tank and a recovery method for the floating tank. When collecting the floating tank used to maintain stability, attach the ILT to the lifting can using a crane, remove the Securing Pin with a remote vehicle (ROV), and then lift it with a crane. By lifting the flotation tank together with the existing lift sling, the operator does not need to manually hang the lift sling under the sea level under poor conditions for lifting, so the lifting operation is easy and there is no risk of safety accidents. .

Description

Floating tank recovery system and recovery method of the floating tank {Recovery System and Recovery Method of Buoyancy Tank}

The present invention relates to a recovery system for a floating tank and a recovery method for the floating tank, and more specifically, to maintain the stability of a steel weight structure when a steel weight structure, which is a topside lower structure, is installed at a site. In the case of recovery of the floating tank used for By lifting the flotation tank upward together with the lift sling hung in advance when lifting with the It relates to a recovery system for a floating tank that can simplify the process and a recovery method for the floating tank.

In general, when a Steel Gravity Structure (SGS), which is a substructure of the Topside, is installed at the site, a buoyancy tank is installed to maintain the stability of the steel weight structure, Fill the flotation tank with seawater. Floating tanks are temporary structures, and when removed, they are recovered by lifting them with an offshore crane.

Conventionally, when lifting a flotation tank, a lifting trunnion or a pad eye is used to hook a hook using a lifting trunnion or a lifting trunnion or pad eye like a hollow structure (Hollow Section structure). Padeye), a method of lifting the hollow structure using an internal lifting tool (ILT) was used.

However, since the floating tank is located below the sea level, handling is not easy, and when installing the shackle and the lift sling in the floating tank, the operator has to directly hang the lift sling below the sea level, so the operation is difficult and there is a risk of a safety accident.

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In order to solve the above problems, the present invention is a lift can is detachably coupled to the upper part of the flotation tank, an internal lifting tool (ILT) is fixed to the lower end of the wire of the crane so that it can be detachably coupled to the lifting can, , A safety pin is inserted and fastened to the connection part of the lifting can and the flotation tank to selectively separate the lifting can from the flotation tank. During the recovery operation of the floating tank, the safety pin can be selectively released by controlling the remote vehicle (ROV) remotely from the water. An object of the present invention is to provide a recovery system and a recovery method of a floating tank without the risk of an accident.

In order to achieve the above object, the present invention is a recovery system of a buoyancy tank detachably installed on the steel heavy structure for on-site installation of a steel heavy structure, which is a lower structure of the top side, and the upper part of the flotation tank a lifting can removably coupled to the; an internal lifting tool fixed to the lower end of the wire of the crane so as to be detachably coupled to the lifting can; a safety pin inserted and fastened to the connection portion of the lifting can and the flotation tank to selectively separate the lifting can from the flotation tank; Lift slings installed on both lower sides of the lifting can to clamp the upper end of the floating tank using a shackle; and a remote vehicle that is remotely controlled in the water so as to selectively release the safety pin during recovery operation of the floating tank.

A lifting can support for supporting the lifting can is formed on the upper part of the flotation tank, a fastening part having a guide groove is formed on the upper part of the lifting can support, and a fastening hole into which the safety pin is inserted is formed in the fastening part, , A fastening protrusion for fastening with the fastening part is formed on a lower surface of the lifting can, and a fastening hole into which the safety pin is inserted is formed in the fastening protrusion.

A guide inclined surface for guiding the fastening protrusion is formed at the inlet of the fastening part.

Shackle pin captures may be installed on both sides of the upper portion of the flotation tank.

On the other hand, the present invention is a method of recovering a buoyancy tank detachably installed on the steel heavy structure for on-site installation of the steel heavy structure, which is the lower structure of the topside, by using a safety pin on the upper part of the flotation tank. Keeping the lifting cans coupled; Removably coupling an internal lifting tool fixed to the lower end of the wire of the crane to the lifting can during the flotation tank recovery operation; separating the lifting can from the flotation tank by pulling out the safety pin using a remote vehicle; lifting the flotation tank together with the lift sling previously hung using a crane; and recovering the flotation tank.

As described above, the present invention is a levitation used to maintain the stability of a steel weight structure when a steel gravity structure (SGS), which is a topside lower structure, is installed at a site. During the tank recovery operation, the safety pin can be selectively released by controlling the remote vehicle volume remotely from the water. none.

1 is a view showing the on-site installation of a steel heavy structure, which is a lower structure of the top side;
Figure 2 is a front view showing a lifting can coupled to the upper lifting can support of the floatation tank in the recovery system of the floatation tank according to a preferred embodiment of the present invention;
3 is a plan view showing a lifting can coupled to the upper portion of the floatation tank in the recovery system of the floatation tank according to a preferred embodiment of the present invention;
Figure 4 is a side view showing the locking of the safety pin in the recovery system of the floating tank according to a preferred embodiment of the present invention
5 is a side view showing from the crane wire to the upper pad eye of the floatation tank equipped with the shackle from the crane wire in which the lifting can is detached from the recovery system of the floatation tank according to the preferred embodiment of the present invention;
Figure 6 is a flow chart showing the recovery of the floating tank according to a preferred embodiment of the present invention
7 is a flowchart illustrating a method for recovering a floating tank according to a preferred embodiment of the present invention;

Hereinafter, with reference to the accompanying drawings, it will be described in detail with respect to the recovery system of the floating tank according to a preferred embodiment of the present invention.

1 is a view showing the on-site installation of a steel heavy structure, which is a lower structure of the topside, and FIG. 2 is a lifting coupled to a lifting can support installed on the upper part of the flotation tank in the recovery system of the flotation tank according to a preferred embodiment of the present invention It is a front view showing a can, Figure 3 is a plan view showing a lifting can coupled to the upper portion of the floatation tank in the recovery system of the floatation tank according to a preferred embodiment of the present invention, Figure 4 is a floatation tank according to a preferred embodiment of the present invention is a side view showing the locking of the safety pin in the recovery system of It is a side view showing up to the upper pad eye of the tank, and Figure 6 is a flow chart showing the recovery of the floating tank according to a preferred embodiment of the present invention.

1 to 6 , the recovery system of the floating tank according to a preferred embodiment of the present invention is detachable from the steel weight structure 10 for on-site installation of the steel weight structure 10, which is the lower structure of the top side. It is a device for recovering the installed buoyancy tank (Buoyancy Tank) (20). The flotation tank 20 is configured to be submerged into the sea floor by filling the seawater therein, and is configured to float by discharging seawater during the recovery operation.

The recovery system of the flotation tank according to a preferred embodiment of the present invention includes a lifting can 110 that is detachably coupled to the upper portion of the flotation tank 20 .

An internal lifting tool (ILT) 120 is fixed to the lower end of the wire W of the crane so as to be detachably coupled to the lifting can 110 . The wire W1 serves to support the flotation tank 20 .

A safety pin 130 is inserted into the connection portion between the lifting can 110 and the lifting can support 21 on the upper part of the lifting tank 20 to selectively separate the lifting can 110 from the flotation tank 20. is concluded

Lift slings 140 for clamping the upper end of the floating tank 20 using the shackle 141 are installed on both lower sides of the lifting can 110 .

During the recovery operation of the floating tank 20 , the remote vehicle (ROV) 150 is configured to be remotely controlled in the water so that the safety pin 130 can be selectively released.

A lifting can support 21 for supporting the lifting can 110 is formed on the upper portion of the floating tank 20 . A fastening part 23 having a guide groove 22 is formed at an upper portion of the lifting can support 21 , and a fastening hole 24 into which the safety pin 130 is inserted is formed in the fastening part 23 .

A fastening protrusion 111 for fastening with the fastening part 23 is formed on the lower surface of the lifting can 110 , and a fastening hole 112 into which the safety pin 130 is inserted is formed in the fastening protrusion 111 . do.

A guide inclined surface 23a for guiding the fastening protrusion 111 is formed at the entrance of the fastening part 23 . Shackle pin captures 27 may be installed on both upper sides of the flotation tank 20 .

On the other hand, Figure 7 is a flowchart illustrating a method for recovering a floating tank according to a preferred embodiment of the present invention.

1 to 7, the present invention is a method of recovering the floating tank 20 detachably installed on the steel weight structure 10 for on-site installation of the steel weight structure 10, which is the lower structure of the topside, Putting the lifting can 110 coupled to the upper portion of the floating tank 20 using the safety pin 130 (S 10); Removably coupling the internal lifting tool 120 fixed to the lower end of the wire (W) of the crane to the lifting can 110 during the flotation tank recovery operation (S 20); Separating the lifting can 110 from the floating tank 20 by pulling the safety pin 130 using the remote vehicle 150 (S 30); Lifting the flotation tank 20 together with the lift sling 140 hung in advance using the wire (W) of the crane (not shown) (S 40); and recovering the floatation tank 20 (S50).

In other words, in step (S 10), using the safety pin 130, the lifting can 110 is coupled to the upper portion of the flotation tank 20. After seating the lifting can 110 on the lifting can support 21 of the flotation tank 20, the fastening protrusion 111 of the lifting can 110 is inserted into the guide groove 22 of the fastening part 23, , by penetrating the safety pin 130 into the fastening holes 24 and 112 to lock the stability pin 130 . Here, the guide inclined surface 23a formed at the entrance of the fastening part 23 serves to guide the fastening protrusion 111 .

The lift slings 140 installed on both lower sides of the lifting can 110 are fastened by clamping the upper end of the floating tank 20 using a shackle 141 .

In step (S 20), during the floating tank recovery operation, the internal lifting tool 120 fixed to the lower end of the wire (W) of the crane is inserted into the lifting can 110 and combined.

In step S 30 , the safety pin 130 is pulled out using the remote vehicle 150 to separate the lifting can 110 from the flotation tank 20 . Since the safety pin 130 is separated by controlling the remote vehicle (ROV) remotely in the water, the operator does not have to directly hang the lift sling 140 below the sea level, making the operation easier and risk of safety accidents. there is no

In step (S 40), using the wire (W) of the crane (not shown) lifts the flotation tank 20 upwards together with the lift sling 140 hung in advance. In step (S50), the floating tank 20 is recovered and moved to an appropriate place.

As described above, the present invention is a levitation used to maintain the stability of a steel weight structure when a steel gravity structure (SGS), which is a topside lower structure, is installed at a site. During the tank recovery operation, the safety pin can be selectively released by controlling the remote vehicle (ROV) remotely from the water. there is no risk of

Although the present invention has been described with reference to limited embodiments and drawings, the present invention is not limited thereto, and the technical spirit of the present invention and the claims described below by those of ordinary skill in the art to which the present invention pertains. Various modifications and variations are possible within an equivalent range.

10: steel heavy structure
20: flotation tank
21: lifting can support
22: information home
23: fastening part
23a: guide slope
24: fastening hole
27: Shackle Pin Capture
110: lifting can
111: fastening protrusion
112: fastening hole
120: internal lifting tool
130: safety pin
140: lift sling
141: shackle
150: remote vehicle (ROV)
W: wire of crane

Claims (5)

a lifting can support formed on the upper part of the flotation tank;
a lifting can detachably coupled to the lifting can support;
an internal lifting tool fixed to the crane's wire;
a lift sling installed on the lifting can; and
Including; a safety pin for coupling the lifting can support and the lifting can;
A fastening part is formed on the upper part of the lifting can support,
A fastening protrusion is formed on the lower surface of the lifting can,
After inserting the fastening protrusion into the fastening part, the safety pin passes through the fastening part and the fastening protrusion to couple the lifting can support and the lifting can,
During the flotation tank recovery operation, after coupling the internal lifting tool to the lifting can, the safety pin is pulled out to separate the lifting can support and the lifting can, and using the lift sling previously hung on the flotation tank The recovery system of the flotation tank, lifting the flotation tank. The method according to claim 1,
The recovery system of the floating tank, further comprising a remote vehicle that is remotely controlled in the water during the recovery operation of the floating tank to pull out the safety pin. The method according to claim 1 or 2,
The recovery system of the floating tank, characterized in that the guide inclined surface for guiding the fastening protrusion is formed at the inlet of the fastening part. coupling the lifting can support and the lifting can formed on the upper part of the floating tank by a safety pin;
installing a lift sling on the lifting can;
fastening the lift sling to the flotation tank;
During the recovery of the floating tank,
coupling an internal lifting tool fixed to a wire of a crane to the lifting can;
separating the lifting can support from the lifting can by pulling out the safety pin; and
Including; lifting the flotation tank using the lift sling;
After inserting the fastening protrusion formed on the lower surface of the lifting can into the fastening part formed on the upper part of the lifting can support, the safety pin is passed through the fastening part and the fastening protrusion to combine the lifting can support and the lifting can. recovery method. 5. The method according to claim 4,
During the recovery operation of the floating tank, the safety pin is pulled out by remotely controlling the remote vehicle amount in the water, the recovery method of the floating tank.

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