KR20130053971A - Pad-base plate assembly for half track of pipe-laying on vessels - Google Patents

Abstract

PURPOSE: A pad-base assembly for a half track of a submerged pipe laying ship is provided to increase the durability of a base plate and a polyurethane pad because loads applied from a pipe and longitudinal loads are dispersed to prevent local stress. CONSTITUTION: A pad-base assembly for a half track of a submerged pipe laying ship comprises a base plate(1), a polyurethane pad(2), and a support(3). The base plate is coupled to the links of the half track. The polyurethane pad is installed on the top of the base plate and has a recessed part(21) at the center. The support is installed on the underside of the base plate to support longitudinal loads. [Reference numerals] (AA) Bolt; (BB) Nut

Description

Pad-base plate assembly for half track of pipe-laying on vessels}

The present invention relates to a pad-base plate assembly for a bottom rack of a subsea pipe laying vessel, and more particularly, a pipe that is heavy in a subsea pipe laying vessel, which performs an assembly process including a step of welding between unit pipes to lay a pipe on a seabed. The present invention relates to a technique for increasing the durability of a unit pad-base plate assembly coupled to a link of a half rack configured to achieve continuous pipe laying by increasing the durability of a half rack installed to transport the pipe.

Crude oil and gas produced in offshore or onshore oil fields are usually transported by ship and then onshore via subsea pipes connected to terminals installed at sea. In addition, oil and gas supplied to islands close to land are also supplied through subsea pipes.

The subsea pipe is usually placed on the seabed through a subsea pipe laying ship as disclosed in Korean Patent Publication No. 10-2009-130007 (pre-production of the pipe string on the pipe laying ship), for this purpose, A plurality of unit pipes, which are heavy in the form of steel pipes, are loaded to install a device that performs various processes including a welding process to continuously weld the pipes, and the welded pipes are laid down on the seabed and laid. In such a subsea pipe laying ship, a half rack is a device used to transfer a pipe to each seabed at the same time as the pipe passes through each process. Half-tracks are easily described as caterpillars, which are driving devices such as bulldozers, and can be thought of as smaller tracks.

With reference to the accompanying drawings looks at the configuration of the conventional half-track. Figure 4 is an exemplary view showing a half rack installed on a conventional submarine pipe laying vessel, Figure 5 is an exemplary view showing a state that the conventional half-track is conveying the subsea pipe.

As shown in the related art, the conventional half rack configuration includes a drive sprocket and a plurality of rollers that rotate in cooperation with a power source, and a plurality of links are wound around the rollers and rotated in accordance with the rotation of the drive sprocket. On the side, a plurality of individual base plates are fastened again. The individual base plates are inclined from left and right to incline the polyurethane pads for buffering the load of the pipe, the steel supports for supporting the lower parts of the polyurethane pads, and the supports in the inclined form. The support support body which supports while forming an angle is provided and comprised.

When a plurality of half-tracks having such a configuration is operated, the pipes are moved to the seabed after the final pipe coating process, and the half-tracks are continuously loaded while the heavy steel pipe-type pipes are moved. In the conventional half-rack having a length of about 12m, a unit pipe having a length of about 12 m is welded and provided by the high load, the polyurethane pad (PAD) is primarily damaged, and the second base plate is attached to the polyurethane pad ( BASE PLATE) is often damaged, so durability is weak. In other words, the steel pipe-type heavy-duty pipe is continuously attached to the polyurethane pad assembly, which is attached to the base plate by adhesive and bolted to the nut, so that the adhesive force between the polyurethane pad assembly and the base plate is weakened and wear is applied directly to the base plate. To damage it.

In addition, if the load is continuously applied after the base plate is damaged, the link (LINK) which is combined with the sprockets and rollers constituting the half rack is broken and the transmission of the half rack is interrupted, leading to the accident that the pipe laying work is stopped.

In addition, the conventional base plate has a problem that the bending (BENDING) occurs due to the longitudinal load applied from the pipe in this case has a problem that the smooth rotation is not possible in this case, often have to replace or repair parts.

In addition, if the damage caused by the heavy load of the existing pipe, such as the damage of the polyurethane pad (PAD) assembly of the half-track and the base plate breakage of the tensioner (TENSIONER) equipment installed in the process before the final laying process of the pipe There is a structural problem that can impact the drive shaft leading to a larger accident.

Korean Patent Publication No. 10-1991-0015466 (1991.09.30.) Domestic Patent Publication No. 10-2009-0130007 (2009.12.17.)

An object of the present invention for solving the above problems is a pad-base plate for a half rack configured to disperse the load and the longitudinal load applied to the base plate while at the same time transport the pipe safely to the bottom rack installed on the submarine pipe laying vessel To provide an assembly.

The present invention to achieve the object as described above and to perform the problem for eliminating the conventional defects and the base plate is fastened to the link of the half-track,

A polyurethane pad which is installed to be interviewed in the longitudinal direction with an upper surface of the base plate, and has a concave portion formed at a central portion thereof;

It is achieved by providing a pad-base plate assembly for the bottom rack of the subsea pipe laying vessel, characterized in that it is installed to be interviewed in the longitudinal direction on the bottom of the base plate, including a support for supporting the longitudinal load.

In accordance with a preferred embodiment of the present invention, the concave portion may have a curvature or may be formed to be deeply inclined toward the center portion.

In a preferred embodiment of the present invention, the center thickness of the recessed portion of the polyurethane pad may be greater than 1/2 based on the thickness of both polyurethanes.

The present invention configured as described above has the advantage that the durability of the polyurethane pad and the base plate constituting the half-track is greatly increased because the local stress does not occur by distributing the load and the longitudinal load applied to the pipe,

In addition, the base plate can be prevented from bending due to the longitudinal load transmitted from the pipe,

This is a useful invention with the advantage that the laying work can be continuously made without damaging the half-track during the pipe laying work is an invention that is expected to use the industrial greatly.

1 is a perspective view showing a pad-base plate assembly according to an embodiment of the present invention,
2 is an exemplary view showing a submarine pipe on the pad-base plate assembly according to an embodiment of the present invention,
FIG. 3 is an exemplary view showing a half rack provided with a pad-base plate assembly according to an embodiment of the present invention for transporting pipes;
4 is an exemplary view showing a half rack installed on a conventional submarine pipe laying vessel,
Figure 5 is an exemplary view showing a configuration of a urethane pad assembly installed in a conventional half rack.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a perspective view showing a pad-base plate assembly according to an embodiment of the present invention, Figure 2 is an exemplary view showing a submarine pipe on the top of the pad-base plate assembly according to an embodiment of the present invention. 3 is an exemplary view showing a half rack provided with a pad-base plate assembly according to an embodiment of the present invention for transporting pipes.

As shown, the pad-base plate assembly according to an embodiment of the present invention is installed to be interviewed in a longitudinal direction with the base plate (1) and the upper surface of the base plate is fastened to the link of the half rack, the bottom of the pipe at the center portion A polyurethane pad 2 having a recess 21 formed therein corresponding to the shape; It is composed of a support (3) installed on the bottom of the base plate in the longitudinal direction to support the longitudinal load from the pipe applied to the base plate.

Two or more holes 11 are drilled on both sides of the base plate 1 so that some holes are attached to the polyurethane pad 2 installed on the upper part to be interviewed with an adhesive and coupled by fastening means such as bolts and nuts. Is coupled by a fastening means such as a link (not shown) and a bolt nut of the half rack which is fastened to contact the bottom surface of the base plate 1.

One or more holes 22 are drilled on both sides of the polyurethane pad 2 and are coupled to each other by a fastening means such as a hole 11 and a bolt of the base plate 1 to be in contact with the lower surface.

Polyurethane pad (2) installed on the upper surface of the base plate (1) is composed of one polyurethane pad on one base plate, unlike the prior art, if configured in this way, the bearing capacity for the pipe load and the longitudinal load is made only in the lateral direction Although the lateral load easily damaged the urethane pad and the base plate, since the load of the pipe is distributed throughout the polyurethane pad due to the present invention, local stress does not occur and durability is greatly increased.

In addition, the recess 21 formed in the center of the base plate 1 is not applied to a point where the pipe load is conventionally, that is, one point of the pipe in contact with the base plate and one point of the urethane pad formed on both sides of the base plate. It will be distributed evenly. The concave portion may be formed to have a round curvature or to be inclined deeply at a central portion. The reason for this formation is to reduce the flow of the pipe during transportation by bringing the bottom and many surfaces of the pipe into contact with each other to distribute the load and increase the bearing capacity at the side.

The polyurethane pad 2 is formed smaller than the length of the base plate 1, to solve the problem that the fastening is difficult to cover the polyurethane pad (2) when assembling the base plate and the link. That is, by forming the polyurethane pad (2) smaller than the length of the base plate (1) in surface contact to increase the bearing capacity for the pipe.

In addition, when the center thickness of the recessed portion of the polyurethane pad 2 is preferably larger than 1/2 based on the thickness of the polyurethanes on both sides, the support force for the pipe being transported is exhibited while having a buffering force against the load of the pipe. Although not limited to a specific value, if the recess is too thin, the upper surface of the base plate and the pipe are almost in contact with each other, so that the dispersion force for the pipe load is lowered.

In addition, by forming the support (3) supporting the longitudinal load of the base plate in the surface contact by a fastening method such as welding or fastening the bolt nut to support the longitudinal load of the pipe applied to the base plate to prevent bending phenomenon Done.

At this time, depending on the size of the longitudinal load applied from the pipe, if necessary, a separate support may be installed at the lower part of the support to constitute a support composed of a plurality of two or more.

The thickness of the base plate according to an embodiment of the present invention is reinforced with a thickness of about 30mm compared to the conventional base plate thickness of about 25mm to increase the bearing capacity for the basic longitudinal load. Of course, these specific numbers are only shown proportionally for illustrative purposes and these specific numbers do not limit the thickness of the baseplate of the present invention.

As described above, the base plate having the increased thickness and the support installed at the lower portion thereof support the pipe load and the longitudinal load on the base plate to prevent bending.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

Description of the Related Art
(1): Base plate (2): Polyurethane pad
(3): support (11, 22): hall
21: recessed portion

Claims (3)

A base plate (1) fastened to a link of the half rack,
Polyurethane pads (2) provided to be interviewed in the longitudinal direction and the upper surface of the base plate, the recessed portion 21 is formed in the center portion,
A pad-base plate assembly for a bottom rack of a subsea pipe laying vessel, characterized in that it comprises a support (3) installed on the bottom of the base plate in the longitudinal direction to support the longitudinal load.
The method according to claim 1,
The recess-shaped pad-base plate assembly for a submarine pipe laying vessel, characterized in that formed in a curvature or formed inclined deeply toward the center.
The method according to claim 1,
The pad-base plate assembly for the bottom rack of a subsea pipe laying line, characterized in that the center thickness of the recessed portion of the polyurethane pad (2) is formed to be larger than 1/2 based on the thickness of both polyurethanes.

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