RU215671U1 - POLYMER PROFILE FOR PIPELINE PROTECTION - Google Patents

Abstract

The utility model relates to the oil and gas industry, in particular to devices for protecting pipelines from external damage. The technical result achieved by using the utility model is that the design of the polymer profile for protecting the pipeline provides increased operational reliability, excluding structural breakage, due to its plastic and elastic properties. To solve the problem and achieve the claimed technical result, a polymer profile is proposed to protect the pipeline, made of a polymeric dielectric material, while the polymeric dielectric material has a density of 1.24 g/cm ³ , while the polymer profile is made in the form of a T-shaped molded product transverse profile with an L-shaped bend of the shelves, and the geometry of the L-shaped bends is determined from the condition of ensuring engagement with an interference fit by an equidistant bend, while the bases of the sections of the T-shaped transverse profile have a thickness of 9 mm.

Description

FIELD OF TECHNOLOGY

The utility model relates to the oil and gas industry, in particular to devices for protecting pipelines from external damage.

BACKGROUND OF THE INVENTION

From the prior art, a lining mat for protecting a pipeline consists of profiles connected to each other by means of hooks and at least two lining belts with loops, while profiles adjacent to the belts with a wide side alternate, and profiles facing the belts with the end of the partition, and differs in that each lining belt is adhesively connected to each profile adjacent to the wide side, characterized in that the center of at least one of the loops of one lining belt lags behind the attachment point of the last of the outermost placed profiles by at least three consecutively placed profiles . The technical result, which the proposed utility model is aimed at, is to facilitate and increase the convenience of mounting the lining mat on the pipeline, as well as the unobstructed possibility of installation (RF patent 206334, 02/11/2021).

Also known from the prior art is a profile for protecting a pipeline, which contains an element made by extrusion of a rectangular section, with two special hooks made in it, facing each other, between which at least one partition is placed, while the ratio of the width of the profile to the height partition is 1.3≤a/h≤2.5 (RF patent 110448, 04.12.2011).

In addition, from the prior art, a polymer profile for pipeline protection is known, made of a polymeric dielectric material, characterized in that the element is made in the form of a profile-molded product of a T-shaped transverse profile with an L-shaped bend of the shelves, while the material of the element is selected PVC compound, and the geometry of the L-shaped bends is determined from the condition of ensuring engagement with an interference fit by an equidistant bend (RF patent 49171, 12.05.2004).

The disadvantage of the known solutions is that the design of polymer profiles to protect the pipeline is prone to fracture and insufficient stretching due to reduced plasticity during operation at high loads or sudden changes in external conditions.

ESSENCE OF THE UTILITY MODEL

The technical problem solved by the claimed utility model is to create a new polymer profile for pipeline protection, eliminating the disadvantages of previous solutions from the prior art.

The technical result achieved by using the utility model is that the design of the polymer profile for protecting the pipeline provides increased operational reliability, excluding structural breakage, due to its plastic and elastic properties.

To solve the problem and achieve the claimed technical result, a polymer profile is proposed to protect the pipeline, made of a polymeric dielectric material, while the polymeric dielectric material has a density of 1.24 g/cm ³ , while the element is made in the form of a T-shaped molded product transverse profile with an L-shaped bend of the shelves, and the geometry of the L-shaped bends is determined from the condition of ensuring engagement with an interference fit by an equidistant bend, while the bases of the sections of the T-shaped transverse profile have a thickness of 9 mm.

Additionally, PVC-compound can be chosen as a dielectric material for the polymeric profile to protect the pipeline.

In addition, the outer side of the polymer profile to protect the pipeline can be made corrugated.

And also the base of the L-shaped bend of the polymer profile shelf to protect the pipeline can have a thickness of 8 mm.

BRIEF DESCRIPTION OF THE DRAWINGS

The utility model is illustrated by drawings. The drawings are presented in a volume sufficient for the understanding of the utility model by specialists, and in no way limit the scope of the utility model. In the drawings, the same elements are indicated by the same positions.

In FIG. 1 shows a general view of a polymer profile for pipeline protection;

In FIG. 2 shows an example of the engagement of several polymer profiles to protect the pipeline.

DESCRIPTION OF THE IMPLEMENTATION OF THE UTILITY MODEL

As shown in FIG. 1 polymer profile for protection of the pipeline, designed for operation at temperatures from minus 40°C to plus 70°C, is made by extrusion in the form of a profile-molded product, i.e. a product with a dominant size along the length and a certain transverse profile, a T-shaped transverse profile with an L-shaped bend of the flanges, while the geometry of the L-shaped bends is determined from the condition of ensuring engagement with an interference fit by an equidistant bend of the next profile when forming a lining mat. At the same time, for ease of use, the outer side of the polymer profile to protect the pipeline is corrugated.

To ensure greater reliability and safety, the polymer profile for pipeline protection is made of a polymeric dielectric material. In a preferred embodiment, PVC compound is selected as the dielectric material, but is not limited to this. Below is a table with the preferred characteristics of the material used, providing plasticity and elasticity of the profile.

The best option, but not limited to it, is Sample 2, used as a material for the profile. As can be seen from Table 1, the characteristics of the sample provide sufficient ductility and elasticity of the profile to increase operational reliability, reducing the likelihood of profile fracture.

At the same time, during the operation of the polymer profile for protecting the pipeline, namely when several polymer profiles for protecting the pipeline are engaged with each other to form an integral lining mat, a force is exerted on the L-shaped bends of the shelves, which can increase with thermal narrowing or with additional physical impact, which can be caused by sudden changes in external conditions or increased loads. Thus, the polymer profile for protecting the pipeline must have sufficient operational reliability so that when the force on the polymer profile for protecting the pipeline increases, the structure does not break. Therefore, in the claimed solution, in order to increase operational reliability, individual parts of the polymer profile for protecting the pipeline are made using a certain dimension, which was established empirically.

Below is a table of the preferred dimensions of a polymer profile for pipeline protection.

As shown in FIG. 1 and in Table 1, sections of the polymer profile for protecting the pipeline, namely their bases, forming a T-shaped profile, are made with a thickness of 9 mm. Based on the dimensions of the polymer profile to protect the pipeline, the chosen thickness of the base of the T-shaped section is optimal and provides sufficient flexibility of the profile and sufficient strength to prevent its breaking during operation, including cases of increased forces exerted on the polymer profile to protect the pipeline.

In addition, to ensure greater operational reliability, the base of the L-shaped bend of the shelf is made with a thickness of 8 mm, which is also determined on the basis of the dimensions of the polymer profile to protect the pipeline and provides sufficient flexibility of the profile and sufficient strength to prevent it from breaking during operation, including cases of increased effort rendered on a polymeric profile to protect the pipeline.

Thus, the claimed design of the polymer profile to protect the pipeline provides sufficient flexibility and strength of the sections of the polymer profile to protect the pipeline subject to the main loads exerted on the polymer profile to protect the pipeline during its operation.

Claims (2)

1. A polymer profile for pipeline protection made of a polymeric dielectric material, while the polymeric dielectric material has a density of 1.24 g/cm ³ with a tensile strength of 14.7 MPa, while the polymer profile is made in the form of a profile-molded product T- shaped transverse profile with an L-shaped bend of the shelves, and the geometry of the L-shaped bends is determined from the condition of ensuring engagement with an interference fit by an equidistant bend, while the outer side of the profile is corrugated, and the bases of the sections of the T-shaped transverse profile have a thickness of 9 mm, and the base Г -shaped bend of the shelf has a thickness of 8 mm. 2. Polymeric profile for pipeline protection according to claim 1, in which PVC-compound is selected as a dielectric material.

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