RU118014U1 - SUPPORT FOR PUSHING PARALLEL CYLINDRICAL PIPELINES IN AN OPPASS TUNNEL WITH CROSS CROSS SECTION - Google Patents

Abstract

A support for pulling parallel cylindrical pipelines into an impassable tunnel with a circular cross-section, containing rollers of a dielectric material, characterized in that the support is made in the form of a hollow cylinder, the outer diameter of which is 0.80-0.90 of the diameter of the impassable tunnel, in the end walls supports make coaxial holes for placement of pipelines, each coaxial pair of holes for placement of pipelines has a diameter of 1.05-1.10 of the diameter of the pipelines to be laid, is equipped with a lodgment installed in the lower part of the coaxial pair of holes for placement of pipelines, and a pressure plate installed above lodgment, while one end of the pressure plate is movably connected to the upper part of the hole in the wall of the support, opposite to the direction of pulling the pipeline, and the other end of the pressure plate is equipped with a damping spring, the opposite end of which is fixed in the upper part of the inner side of the sides th wall of the support.

Description

The utility model relates to the field of pipeline transport and can be used for laying several parallel cylindrical pipelines in an impassable tunnel with a circular cross-section.

As practice shows, the tunneling of several parallel cylindrical pipelines is mainly used for a through tunnel, when it is possible to carry out construction and installation works directly in the tunnel. In impassable tunnels with a circular cross-section, this is not possible, and existing technical solutions do not allow for the installation of several pipelines in these tunnels in compliance with the requirements for ensuring their safety from damage during installation.

The authors were faced with the task of developing a technical solution for the construction of a support for pulling into an impassable tunnel with a cross-section of a circular outline of several parallel cylindrical pipelines, ensuring their safety from damage during pulling.

When reviewing the technical literature identified technical solutions related to the task.

Known support for dragging the pipeline inside the protective casing, consisting of a supporting ring covering the pipeline and a protective box, in which are detachable sliders containing interlocked sidewalls and rollers (see patent RU 2249748, class F16L 7/00 of 04/10/2005 d. "Support for pulling the pipeline inside the protective casing").

The disadvantages of this technical solution are:

the impossibility of its use for laying in one impassable tunnel with a cross-section of a circular outline of several pipelines, the difficulty of ensuring a stable position of the pipeline during operation when exposed to vibrational forces, the complexity of the support structure.

The closest technical solution to the proposed utility model is a support and protective roller device, consisting of three metal segments covering the pipeline with flanging at the ends for installation between the axes of the rollers made of dielectric material, bolt fasteners connecting the flanging segments, and spacer sleeves installed on the axes of the rollers and the fasteners (see patent RU 103594, class F16L 7/00 (2006.01) dated 04/20/2011 "Support and protective roller device").

The disadvantages of this technical solution are: the impossibility of its application for laying in one impassable tunnel with a cross section of the circular outline of several pipelines, the difficulty of ensuring a stable position of the pipeline during operation when exposed to vibrational forces.

The objective of the proposed utility model is to develop a support structure with the ability to drag several parallel cylindrical pipelines into an impassable tunnel with a circular cross-section and ensure a stable position of the pipelines during operation when exposed to vibrational forces.

This problem is solved by the fact that according to the device for dragging parallel cylindrical pipelines into an impassable tunnel with a circular cross-sectional cross-section, the support contains rollers of dielectric material, is made in the form of a hollow cylinder with a diameter of 0.80-0.90 diameter of the impassable tunnel, in the end walls of the support perform coaxial holes for placing pipelines, each coaxial pair of holes for placing pipelines has a diameter of 1.05-1.10 the diameter of the laid pipelines, a lodgement installed in the lower part of the coaxial pair of holes for placing pipelines, and a pressure plate installed above the lodgement, while one end of the pressure plate is movably connected to the upper part of the hole of the support wall opposite to the direction of pulling the pipe, and the other end of the pressure plate is equipped with a damping spring , the opposite end of which is fixed in the upper part of the inner side of the side wall of the support.

The technical result of the proposed utility model is to increase the efficiency of the tunneling method of constructing pipeline crossings through obstacles (mountains, a water barrier, etc.) when laying several pipelines using one non-passing tunnel.

Figure 1-3 shows a device that implements the proposed technical solution.

Figure 1 shows a General view of the support.

Figure 2 shows the end wall of the support.

Figure 3 shows the placement of the pipeline in a coaxial pair of holes of the walls of the support.

1-3, the following notation is used:

1 - side wall of the support;

2 - end wall of the support;

3 - holes for placement of pipelines;

4 - rollers of dielectric material;

5 - pipeline;

6 - lodgement;

7 - axis for the movable connection of the pressure plate;

8 - pressure plate;

9 - a damping spring;

10 - the inner plane of the impassable tunnel.

The outer diameter of the support is 0.80-0.90 of the diameter of the impassable tunnel, the width is 0.4-0.5 of the diameter of the impassable tunnel. The diameter of each of the coaxial holes 3 for placing the pipelines is made with tolerances that ensure the free placement of pipelines 5 on the lodges 6 and equal to 0.15-0.20 of the outer diameter of these pipelines 5. Rollers 4 of dielectric material are placed in pairs on the side wall 1 of the support and provide the perception of loads from the mass of the support and the pipelines 5 located in it with the pumping products located therein (oil, oil product, water and other products). The centers of the coaxial holes 3 for placing the pipelines 5 are placed on a circle remote from the circumference of the end wall of the support by 0.15-0.20 radius of the cylindrical pipe 5 having the largest diameter.

The proposed device operates as follows.

The support with the pipelines 5 located therein (for example, three pipelines), using the rollers 4 made of dielectric materials and the traction forces applied to the support, moves inside the impassable tunnel. The order of placement of cylindrical pipelines 5 in the support is determined depending on their diameters: first, a cylindrical pipeline 5 of a larger diameter is placed, then the others are placed in descending order of their diameters. At the same time, cylindrical pipelines 5 of larger diameter are placed in the lower part of the support, and smaller diameter in the upper part. If vibration effects occur on the pipeline 5 during operation, the forces arising from this are transmitted through the pressure plate 8 to the damping spring 9, which compensates for these effects and thereby ensures the stability of the pipeline.

The proposed technical solution also provides the possibility of replacing individual cylindrical pipelines 5 located in an impassable tunnel during operation without mechanical damage. To do this, the head of a new cylindrical pipe 5 with the same or smaller outer diameter is welded to the tail of the replaced cylindrical pipe 5 and they are pulled together through the corresponding coaxial holes 3 of the support. In this case, the use of lodgements 6 and pressure plates 8 with damping springs 9 ensures the safety of the insulation coatings of pipelines 5 from mechanical damage during dragging.

As a result of the implementation of the proposed technical solution is provided:

the ability to drag several parallel cylindrical pipelines into an impassable tunnel with a circular cross-section;

a stable position of the pipelines during operation when exposed to vibrational forces.

Claims (1)

A support for dragging parallel cylindrical pipelines into an impassable tunnel with a circular cross-section, containing rolls of dielectric material, characterized in that the support is made in the form of a hollow cylinder, the outer diameter of which is 0.80-0.90 of the diameter of the impassable tunnel in the end walls the supports perform coaxial holes for placing pipelines, each coaxial pair of holes for placing pipelines has a diameter of 1.05-1.10 of the diameter of the laid pipelines, sn abzhena lodgement installed in the lower part of a coaxial pair of holes for placing pipelines, and a pressure plate mounted above the lodgement, while one end of the pressure plate is movably connected to the upper part of the hole of the support wall opposite the direction of dragging the pipe, and the other end of the pressure plate is equipped with a damping spring , the opposite end of which is fixed in the upper part of the inner side of the side wall of the support.