RU2023935C1 - Method of pulling pipe - Google Patents

Abstract

FIELD: pipe line engineering. SUBSTANCE: one forces a pipe line by means of supporting members and pulling force. The supporting members are arranged over a screw line on side of the pipe line. End part of the pipe undergoes axial force and one rotates the pipe line. EFFECT: simplified method. 3 dwg

Description

 The invention relates to the field of pipeline transport and can be used in the repair of pipelines by the pipe-in-pipe method.

 A known method of dragging the pipeline, which consists in creating traction by tractors. The method is carried out using a pre-laid cable and tractors.

 The disadvantage is the difficulty of pulling the pipeline through the pipeline and low reliability.

 A known method of pulling the pipeline, which consists in creating traction using special traction means. The method is carried out using a rope and a special traction means, such as a winch.

 The disadvantage is the difficulty of dragging the pipeline through the pipeline, especially when the dragged pipeline enters the previously laid pipeline tightly.

 There is also a method of partially filling a pipeline under repair with oil, in which there are balls with a diameter of 0.1 to 1 mm from metal, glass or plastic. Balls occupy a volume of from 0.1 to 5% of the liquid volume. When implementing this method, dragging efforts are sharply reduced.

 The disadvantage is the inability to use the method in the event of a defect in the pipeline being repaired (for example, a fistula), as well as in straight sections because of the difficulty in retaining the liquid.

 The closest solution to the invention is a device made in the form of a clamp mounted on a dragged pipeline and equipped with rollers located around the perimeter of the clamp.

 The disadvantage is the technological complexity of pulling due to the preliminary pulling of the cable and low reliability.

 The purpose of the invention is to simplify and improve the reliability of the method.

 This goal is achieved by the fact that the supporting elements on the surface of the pipeline are arranged along a helical line, apply axial force to the tail part of the pipe and give the pipe a rotational movement.

 The invention differs from the well-known technical solutions not only by the creation of axial force applied to the tail of the pipeline and rotational motion, but also by the arrangement of support elements along a helical line with a distance between them equal to the pitch of the screw. These differences make it easy to drag a pipeline inside another pipeline, even when they fit tightly into each other. As a result of the proposed technical solution, it is possible to create pipe-in-pipe pipelines restoring old steel pipelines. All this confirms the compliance of the invention with the criterion of "Significant differences".

 In addition, the proposed pulling technology will significantly reduce the dangerous tensile forces arising from the high coefficient of friction.

 Figure 1-3 shows a device that implements the method.

 The device includes rollers 2 attached to the dragged pipeline 1, located along a helical line, a head 3 is mounted in the "head" of the pipeline 1, axial force and rotational movement are applied to the tail of the pipeline, dragging is carried out through the pipeline 4 being repaired.

 The method is implemented as follows.

 A new pipeline 1 of smaller diameter, equipped with rollers 2, is introduced into the pipeline being repaired 4. Applying both axial force and torque to the tail part of the pipeline 1, the new pipeline is, as it were, screwed into the pipeline being repaired.

Depending on the angle of elevation of the helix, it is possible to choose a self-rotating design, in which only axial force is applied to the pipeline
The use of the invention when dragging the pipeline through the repaired will practically eliminate the dangerous tensile forces arising from the high coefficient of friction, and thus increase the reliability of the method.

Claims (1)

 METHOD OF PUSHING PIPELINE, which consists in pulling the latter with support elements and traction, characterized in that, in order to simplify and improve the reliability of the method, the supporting elements on the surface of the pipeline are arranged along a helical line, apply axial force to the pipe tail part and impart rotational pressure to the pipe traffic.

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