RU2438063C2 - Method to erect pipeline in water and device for its realisation - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: in the method a pipeline is exposed to facilities for submersion and fixation of the pipeline position mounted on a tight pontoon. Using the submersion facilities, the pipeline is placed at the specified depth of the water reservoir. The position is fixed by additional means of gripping, fixed on the water reservoir bottom, the force exposure of the pipeline is removed by submersion facilities. The pontoon is displaced to a different section of the pipeline. The device comprises a ballast crossbar arranged above the pipeline with movable facilities of force exposure at the pipeline installed on it. The crossbar is equipped with hinged-rotary bushings arranged at the ends in the horizontal plane, joined by rods with piles arranged at both sides of the pipeline. Each bushing is equipped with two radially arranged brackets that discretely interact with a pipeline, and a cantilever taken outside and joined by a flexible traction rod to a shell of plastic material made with an air intake tap, which is connected to a compressor installed on the pontoon.

EFFECT: invention helps to linearly arrange the pipeline no matter what the water reservoir bottom contour is and to increase operational reliability.

2 cl, 6 dwg

Description

The invention relates to the construction of pipelines and may find application in the laying of gas pipelines in a deep water body with a complex topography.

There is a method of constructing a pipeline in water having positive or zero buoyancy, according to which the pipeline is affected by means of immersion and position fixation mounted on an airtight pontoon, after which the pontoon is moved along the route to another section of the pipeline / cm. Borodavkin P.P., Berezin V.L. The construction of main pipelines.- M .: Nedra, 1987.p. s. 194-195, Fig. 9.11 /.

Weights are hung on such a pipeline, the pontoon is always above the unloaded section of the pipeline, after each cargo is placed, the pontoon recedes back, which involves the installation of the pipeline at the bottom of the reservoir, but makes the method limited suitable for placing the pipeline in a deepwater reservoir with a complex topography to avoid axial damage pipeline, when it is required to level the bottom under the pipeline, which limits technological capabilities and leads to additional material costs am.

A device is known for fixing the position of a pipeline in water, comprising a ballast crossbar located above the pipeline with movable means of force acting on the pipeline located on it / see ed. St. USSR No. 1016610, class F16L 1/04, 1981 /.

Such a device involves fixed fixing of the pipeline at the bottom of the reservoir and requires special alignment of the bottom to avoid axial curvature of the pipeline, can only be used at a shallow depth of its location, and when used in a deepwater reservoir, additional technological development is required, which leads to a reduction in technological capabilities and additional material costs. .

The aim of the invention is to increase technological capabilities and reduce material costs during the construction of the pipeline in a deep water body with a complex topography.

The goal is solved in a method of constructing a pipeline in water, through which the pipeline is affected by means of immersion and position fixation mounted on an airtight pontoon, after which the pontoon is moved along the route to another section of the pipeline.

What is new is that by means of immersion the pipeline is placed at a given depth of the reservoir, the position is fixed with additional gripping means fixed to the bottom of the reservoir, the force is removed from the pipeline by means of immersion, and the pontoon is moved to another section of the pipeline.

The goal is solved in a device for fixing the position of the pipeline in water, containing a ballast crossbar located above the pipeline with movable means of force acting on the pipeline placed on it.

The new thing is that the crossbar is equipped with pivotally rotary bushings located at the ends in the horizontal plane, connected by rods with piles located on both sides of the pipeline, each sleeve is equipped with two radially arranged and discretely interacting brackets with the pipeline and a console brought out to the outside by a flexible link with a sheath of plastic material made with an air intake cock that is connected to a compressor mounted on a pontoon.

In the accompanying drawings are presented: in Fig. 1 is a diagram of a pipeline construction in water; figure 2 - device for fixing the position of the pipeline in the water, the position in operation; figure 3 - position in figure 1 of the device, a top view; figure 4 - position in figure 2 of the device, a top view; figure 5 - position in figure 1 of the device, side view; figure 6 - position in figure 2 is a side view.

According to the method, on the sealed pontoons 1, a ballast bolt 2 is fixed, which is a beam 3 with end supports 4. In the center of the beam 3 there is a screw 5 interacting with the pipeline 6.

A device for fixing the position of the pipeline 6 in the water 7 contains a ballast crossbar 8 in the form of a frame 9, on the end supports 10 of which are mounted horizontally mounted axes 11, on which the swivel sleeves 12 are mounted. Each sleeve 12 is connected by a rod 13 with a pile 14 located on the corresponding side of the pipeline 6.

On the sleeves 12 there are radially means of interaction with the pipeline 6, which are brackets 15 and 16. A radially mounted console 17 is connected to the outside, connected by a flexible rod 18 with a shell 19 of plastic material, which is made with an air intake valve 20 and connected to a compressor 21 located on pontoon.

The work on the construction of the pipeline and the device for its implementation is as follows.

The pipeline 6 is laid in a deep body of water with a complex topography of the bottom.

A pontoon 1 is placed above the pipeline 6 and, by rotation of the screw 5, the pipeline 6 is immersed at a predetermined mark. It is important to maintain a linear arrangement of the pipeline and to avoid its linear curvature, which can lead to a change in operating conditions.

On the bottom of the reservoir, piles 14 are fixed approximately on both sides of the pipeline, to which the device for fixing the pipeline 7 is attached. The shells 19 are filled with air enough to hold the structure in a vertical plane when the brackets 15 and 16 can receive the pipeline, creating a “trap” for it.

The length of the rods 13 is determined in advance to coordinate the position of the bushings relative to the axis of the pipeline 6.

The pipeline is captured by the brackets 15 as air is supplied to the shell 19 from the compressor 21, passed into the cavity of the shell 19 through an open valve 20.

The maximum filling of the shell 19 with air is calculated taking into account the buoyancy of the pipeline filled with gas.

The ballast bolt 8 should be placed on the pipeline so that the frame 9 does not interfere with the operation of the screw 5. A certain linear displacement of the immersion means - pontoons 1 and the ballast bolt 2 relative to the frame 9 is allowed.

After immersing the pipeline 6 and fixing its position by the brackets 15, the screw 5 is removed from the interaction with the pipeline, the device is moved to another section of the pipeline. The means of fixing the pipeline remain in the water. The crane 20 block and disconnect the connection of the shell 19 with the compressor 21.

The advantage of the invention lies in the fact that when loading the pipeline to a safe depth, it is possible to exclude partially or completely linear curvature of the pipeline, using a different number of immersion and fixing means in the horizontal plane of the pipeline.

The possibility of loading the pipeline in a deep water body is allowed, the use of massive loads and the need to prepare a bed for placing the pipeline are excluded.

Claims (2)

1. A method of constructing a pipeline in water, by which the pipeline is impacted by means of immersion and position fixation mounted on an airtight pontoon, after which the pontoon is moved along the route to another section of the pipeline, characterized in that the means of immersion place the pipeline at a given depth of the reservoir, the position is fixed additional means of capture, fixed at the bottom of the reservoir, relieve force on the pipeline by means of immersion and the pontoon is moved to another section of the pipeline ode. 2. A device for fixing the position of the pipeline in water, comprising a ballast bolt located above the pipeline with movable means of force acting on the pipeline located on it, characterized in that the bolt is equipped with swivel sleeves located at the ends in a horizontal plane, connected by rods located on both sides to the sides of the pipeline with piles, each sleeve is equipped with two brackets radially located and discretely interacting with the pipeline, and y console connected a flexible rod with a shell of plastic material formed with an air intake valve, which is connected with the compressor mounted on the pontoon.

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