RU207153U1 - Textile container for ballasting pipelines - Google Patents

Abstract

The utility model relates to the field of construction, namely, to the means of ballasting pipelines laid in waterlogged areas and in swampy areas. A textile container for ballasting pipelines contains two interconnected by a fabric lintel, isolated from each other, containers made of textile material, filled with bulk material, and power belts. The power belts are fastened with one end to the containers from the top of the container, while the other free end of the power belts is configured to be located under the pipeline after the container is laid, with subsequent tightening and fixation by a knot at the end of the power belts, fastened to the containers. The technical result is to provide a highly efficient and reliable operation of the container, structurally simple enough and does not require large manufacturing costs. The use of the proposed utility model for ballasting pipelines has shown the high efficiency and reliability of the textile container.

Description

The utility model relates to the field of construction, namely to the means of ballasting of pipelines laid in waterlogged areas and in swampy areas.

Ballasting is one of the most important conditions for the reliable operation of underground trunk pipelines.

Ballasting ensures a stable position of the pipe at the design elevations and prevents the pipe from floating in flooded areas.

Textile containers (polymer-container ballasting devices) filled with mineral soils are the most widely used for ballasting pipelines in waterlogged, swampy and periodically flooded areas.

Known polymer-container ballasting devices (see, for example, RU 2325577, IPC F16L 1/06), containing two symmetrically located containers of flexible material.

The containers are interconnected by a sheet of flexible material.

Known device ballasting polymer-container (RU 2341715 IPC F16L 1/06), containing containers connected by upper and lower power belts and equipped with fastening loops.

It is also known a polymer-container ballasting device (RU 113808, IPC F16L 1/06)) containing two containers placed on both sides of the pipeline and filled with soil.

The containers are made of a single sheet, imposed on the pipeline, while the device includes power belts and stiffening frames.

In addition, a container-type weighting agent for ballasting pipelines is known (RU 126797, IPC F16L 1/06), which includes two textile containers filled with a granular medium.

The containers are located along the sides of the pipeline and are connected by a power belt imposed on the pipeline.

The closest analogue of the proposed utility model is a textile container for ground ballasting of pipelines (RU 157978, IPC F16L 1/06).).

The container includes containers made of sheets of polymeric technical fabric, placed on both sides of the pipeline, as well as upper and lower power belts, while the lower power belt and containers are made in the form of a single strip superimposed on top of the pipeline.

Known designs of textile containers, including a container chosen as the closest analogue of the proposed utility model, are either insufficiently effective in ballasting pipelines, or are structurally complex, laborious to manufacture and, accordingly, expensive.

Despite the wide variety of known textile containers used for ballasting pipelines, there is a need to develop new designs of textile containers from time to time.

A technical problem is the prevention of damage to the pipeline insulation by eliminating the sliding of the container along the surface of the pipeline during its laying and operation, as well as increasing the manufacturability and reducing the labor intensity of manufacturing containers.

During the development of the utility model, the technical problem of expanding the arsenal of textile container designs for ballasting pipelines was also solved.

The technical result consists in providing highly efficient and reliable operation of the container, structurally simple enough, and does not require large manufacturing costs.

The technical result is achieved by the fact that in a textile container for ballasting pipelines, containing two interconnected by a fabric lintel, containers made of textile material, isolated from each other, filled with bulk material, and power belts, power belts are attached at one end to the containers on top of the container, while the other free end power belts are arranged to be located under the pipeline after the container is laid, with subsequent tightening and fixation by a knot at the end of the power belts, fastened to the containers.

It is this set of essential features of the proposed utility model that allows solving a technical problem and achieving a technical result.

The presence of the free end of the power belts, made in the form of a rigid fastening tape of a given length, located under the pipeline in the process of laying the container and additionally tightening the container of the container above the pipeline, makes it possible to increase the rigidity of the structure.

The free end of the load-bearing belts, covering the pipeline with interference from the bottom and covering the container containers from above, after being fixed on the container from above, makes it possible to create a monolithic structure of increased rigidity.

The increased rigidity of the container structure reduces possible deformations during installation and operation, which leads to an increase in the reliability of the device and increases the reliability of the pipeline ballasting.

In addition, the possibility of damage to the pipeline insulation is reduced by eliminating the sliding of the container during its laying on the pipeline and operation.

When designing, manufacturing and testing a textile container, it was determined that the proposed design is optimal from the point of view of simplicity of design, minimum labor intensity of manufacture and easy installation on a pipeline, while ensuring high performance during operation.

FIG. 1 shows a general view of a textile container.

FIG. 2 shows a container filled with soil, laid on a pipeline.

Textile container for ballasting pipelines, brand PTBK - Gs contains two cylindrical containers insulated from each other 1 and 2, made of textile material.

Capacities 1 and 2 are interconnected by a fabric bridge 3.

Each of the cylindrical containers 1 and 2 is sewn on from one edge, not sewn on the other, forming a loading neck (not shown in the figure) for filling containers 1 and 2 with bulk material.

Loading necks of containers 1 and 2 are equipped with ties 4, tightening the necks after filling containers 1 and 2 with bulk material.

The container contains power belts 5 and cargo loops 6. Power belts 5 are fastened with one end to containers 1 and 2 from above the container.

The length of the second free end of the power belt 5 allows it to be positioned under the pipeline 7 after the container has been laid on the surface of the pipeline 7 and is sufficient for tightening and fixing with a knot at the end of the power belts 5, fastened to the containers 1 and 2.

The textile container is used as follows.

After manufacture, the dimensions of the containers are checked.

Then the container is filled through the loading mouths of containers 1 and 2 with soil from the bunker and stored.

After that, the loaded container is delivered to the ballasting place, where, using a traverse, using load loops 6, the container is mounted on the pipeline 7 in a horizontal position so that the axes of the cylindrical containers 1 2 of the container are parallel to the axis of the pipeline 7.

In this case, the fabric jumper 3 with containers 1 and 2 is symmetrically placed on the pipeline 7.

The free end of the force belt 5 is passed under the pipeline 7 and is pulled upward with force, while the force belt 5 interacts with the wall of the pipeline 7.

As a result, the containers 1 and 2 of the container are attracted to each other and to the wall of the pipeline 7, which eliminates the possibility of displacement of the container relative to the pipeline 7.

The subsequent tightening of the free end of the power belt 5 and fixation with a knot at the end of the power belts, fastened to the containers 1 and 2, makes it possible to create a monolithic structure of increased rigidity.

An efficient PTBK-Gs grade textile container for ballasting pipelines has been created, and the arsenal of containers for ballasting pipelines has been expanded.

The use of the proposed utility model for ballasting pipelines has shown the high efficiency and reliability of the textile container.

Claims (1)

A textile container for ballasting pipelines, containing two interconnected by a fabric bridge, insulated from each other, containers made of textile material, filled with bulk material, and power belts, characterized in that the power belts are fastened with one end to the containers on top of the container, while the other free end of the power belts is made with the possibility of positioning under the pipeline after laying the container, with subsequent tightening and fixing with a knot at the end of the power belts, fastened to the containers.

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