RU69190U1 - TEXTILE CONTAINER FOR PIPELINE BALLASTING - Google Patents

Abstract

Textile container for ballasting - the pipeline contains two containers 1 isolated from each other for filling with ballasting material, formed by side walls 2 made of technical polymer fabric, end walls 3, as well as upper and lower bases 4, 5, respectively, of different sizes. The containers 1 are interconnected by a flexible connection 6, made with the possibility of installation on the pipe. Each of the containers 1 has a loading hole with a loading sleeve 7 and cargo loops 8. The lower base 5 of each container 1 is made with a width and area smaller than the width and area of the upper base 4. Each container 1 is equipped with at least one jumper 9, sewn in the internal section between the side walls 2. A flexible connection 6 is made with a length selected from the condition that the base 4 of a larger width is located above the base 5 of a smaller width when installing a flexible connection 6 on the pipe. The jumper 9 is sewn between the side walls 2 in internal cross sections. The jumper 9 can be made in the form of a cloth, or in the form of cords, or in the form of woven tapes. Each tank 1 can be made with at least one jumper 9 in the form of a cloth, close in shape and area to the end walls 3 of the tanks 1. The tank can be made with two or more jumpers 9, isolated from each other or connected to each other and located along the broken line. The container is preferably provided with an additional flexible connection 10 connected to the upper bases 4 of both containers 1 and made with a length not exceeding the diameter of the pipe. Each tank 1 has one or two loading sleeves 7, which are placed along one of the bases 4 or 5 of the tank 1 and are made with a total passage area of at least 50% of the area of the upper base 4 of the tank 1. This ensures that the shape of the containers is maintained after filling ballasting material, the ability to install in a trench of a rectangular shape, as well as reducing the time of filling ballast containers and increasing the reliability in difficult environmental conditions.

Description

The utility model relates to the field of construction of new underground pipelines, including those passing through waterlogged and marshy areas, at the crossings of small rivers, in the permafrost zone, is designed to ensure the stability of the pipelines and can be used in the reconstruction and repair of existing

Known textile container for ballasting pipelines, containing two containers of varying cross-section isolated from each other for filling with ballasting material, formed by side and end walls, as well as longitudinal upper and lower bases of different sizes, and interconnected by a flexible connection, made with the possibility of installation on the pipe . The containers face the middle part of the flexible connection with the lower bases, each of the containers has a body shape, the width, perimeter or area of the lower base of which (when installed on the pipe) exceeds, respectively, the width, perimeter or area of its upper base. (RU No. 2292293).

A textile container is also known, containing two containers isolated from each other with loading openings for filling with ballasting material, formed by side and end walls, as well as longitudinal upper and lower bases, and interconnected by a flexible connection, made with the possibility of installation on the pipe at the location bases of smaller width above the base of greater width. Each of the containers has a body shape, the area of the lower base of which exceeds, respectively, the area of its upper bases No. 48387, 2005, prototype).

The disadvantages of the known containers are the impossibility of installing a rectangular section in the trench or with a slight deviation of the walls of the trench from the vertical, the difficulty of installing it on the pipe due to the inevitable sharp deformation of the initial shape of the containers when filling them with ballasting material, the need to increase the width of the trench along the bottom and, consequently, the increased volume earthworks. After filling with soil, the tank becomes almost round; it is filled with soil using

hanging hopper, from which soil enters the tank through the loading sleeve. This increases the duration of filling the soil in the tank.

The technical task of the utility model is to create an effective container for ballasting pipelines and expanding the arsenal of containers for ballasting pipelines.

The technical result that ensures the solution of the problem lies in the fact that it ensures the preservation of the shape of the containers after filling with ballasting material, the ability to install in a rectangular trench designed by a bucket wheel excavator, or in a trench with a minimum slope slope, and the maximum reduction in excavation work, as well as reduction time filling ballast container containers and improving the reliability of the structure in difficult climatic conditions.

The essence of the utility model is that the textile container for ballasting the pipeline contains two containers isolated from each other with loading holes and sleeves for filling them with ballasting material and cargo loops, formed by side and end walls, as well as longitudinal upper and lower bases, and connected interconnected by a flexible connection, made with the possibility of installation on the pipe, with each container equipped with at least one jumper sewn in the inner section between the sides walled walls.

The upper and lower bases of each tank can be made of the same shape and with equal width, or, in other cases, the lower base of each tank is made with a width and area smaller than the width and area of the upper base, and a flexible connection is made with a length selected from the provision the location of the base of the larger width above the base of the smaller width when installing a flexible connection on the pipe, with each container made expanding towards the middle of the flexible connection and facing towards the second vessel their longitudinal base formed with large width and area than the lower.

In particular cases of implementation, the jumper is sewn between the side walls in an internal cross section, the jumper is made in the form of a panel, the container is made with at least two jumpers in the form of parallel panels, the jumper is made in the form of cords or in the form of woven tapes, the container is made with, at least two jumpers isolated from each other or with

at least two jumpers connected to each other and located along a broken line.

In this case, the container can be equipped with an additional flexible connection connected to the upper bases of both containers and made with a length not exceeding the diameter of the pipe, a jumper is sewn to the side walls of the container or looped, each container has one or two loading sleeves that are placed along one of bases and made with a total area of the passage section, comprising at least 50% of the area of the upper base of the tank.

In addition, the tanks are made with the possibility of installation on a pipe with a horizontal arrangement of longitudinal bases and a vertical arrangement of the end walls, the containers can be made in trapezoidal section, with the possibility of installation on a pipe with an inclined side wall from the side facing the slope of the trench, the loading sleeves are equipped with braid for tying after filling, cargo loops can be made circular, fixed on the longitudinal walls of the containers or attached to the side walls of the containers, side walls ki can be reinforced with technical fabric or tape, and flexible connection can be attached to cargo loops.

The drawing of figure 1 shows a textile container with a cross section in the shape of a trapezoid in a position mounted on the pipe, figure 2 - container capacity with two jumpers, figure 3 is a view of the side wall of the container, figure 4 is a schematic illustration of the container , in Fig.5 is a bottom view of the container with jumpers isolated from each other and located in cross sections, Fig.6 is a bottom view of the container with jumpers connected to each other and located along a broken line.

The textile container for ballasting the pipeline contains two containers 1 isolated from each other for filling with ballasting material, formed by side walls 2 made of technical polymer fabric, end walls 3, and upper and lower bases 4, 5, respectively, of the same or different area. The containers 1 are interconnected by a flexible connection 6, made with the possibility of installation on the pipe (not indicated, figure 1 coincides with the contour of the upper part of the pipe). Each of the containers 1 has a loading hole with a loading sleeve 7 and cargo loops 8. In the case of containers with a rectangular transverse

the cross section of the lower base 5 of each tank 1 is performed with a width and area equal to the width and area of the upper base 4 (not shown). In the case of containers with a preferred trapezoidal or close to triangular cross-section (Figs. 1, 2, 4), the lower base 5 of each tank 1 is made with a width and area smaller than the width and area of the upper base 4. Each tank 1 is provided with at least , one jumper 9, sewn in the inner section between the side walls 2. Flexible connection 6 is made with a length selected from the condition of ensuring the location of the base 4 of greater width above the base 5 of smaller width when installing flexible connection 6 on the pipe.

Each tank 1 in the embodiment shown in the drawings is made expanding towards the connection with the second tank 1 and faces the middle of the flexible connection 6 with an upper longitudinal base 4 made with a larger width and area than the lower base 5.

The jumper 9 is sewn between the side walls 2 in internal cross sections.

The jumper 9 can be made in the form of a cloth, or in the form of cords, or in the form of woven tapes.

Each tank 1 can be made with at least one jumper 9 in the form of a cloth, close in shape and area to the end walls 3 of the tanks 1.

The capacity can be made with two or more jumpers 9, isolated from each other or connected to each other and located along a broken line (Fig.5, 6).

The container is preferably provided with an additional flexible connection 10 connected to the upper bases 4 of both containers 1 and made with a length not exceeding the diameter of the pipe.

The jumper 9 is sewn to the side walls 2 of the tank 1 or is fixed with loops.

Each tank 1 has one or two loading sleeves 7, which are placed along one of the bases 4 or 5 of the tank 1 and are made with a total passage area of at least 50% of the area of the upper base 4 of the tank 1.

Tanks 1 are made with the possibility of installation on a pipe with a horizontal arrangement of longitudinal bases 4, 5 and a vertical arrangement

end walls 3. In this case, the tanks 1 are made of a trapezoidal or close to triangular cross-section, with the possibility of installation on a pipe with an inclined side wall 2 from the side facing the slope of the trench (not shown).

Cargo loops 8 can be made circular, mounted on the longitudinal walls of 2 containers or attached to the side walls of 3 containers. The loops 8 can be sewn in the middle of the wall 2 or along the edges (shown in dotted lines in FIG. 3).

The side walls 2 can be reinforced with technical fabric or tape. Flexible connection 6 is attached to the corresponding walls 2 (facing the pipe), preferably in their middle part, and can also be attached to cargo loops 8. The loading sleeves 7 are equipped with a braid for tying after filling.

Walls 2-5 can have any geometric shape and corresponding dimensions and can be made integral with each other.

The textile container for ballasting pipelines is operated as follows.

The trench, in the case of using the inventive container for ballasting underground pipelines, can be performed in the cheapest and fastest way using a bucket wheel excavator with a minimum amount of earthwork.

The containers 1 can be made in the form of a parallelepiped with a cross section in the shape of a rectangle or, preferably, with a cross section in the form of a trapezoid with a narrower base 5 at the bottom of the trenches. The shape of the container 1 is provided and stabilized, as a rule, by one or three jumpers 9, for example, trapezoid sewn along the sides 2 inside the containers 1. The lengths of the sides 2 of the container 1 along the pipe are up to 1.5 m, the width of the base 4 along the top is up to 1 , 3 m., The width of the base 5 down to 0.6 m, the height of the end sides 3 to 1.5 m for a pipeline with a diameter of 1420 mm, while the area of the two loading arms 7 of the tank is about half the area of the upper base 4 of the tank 1.

When backfilling, tanks 1 are spread on the ground, a hopper is installed on them, into which a volume of ballasting material (sand, gravel or other material) is filled up equal to the volume of containers 1 of the container.

After filling the hopper with soil, it rises to a height of 1.7-1.8 m, while the soil is quickly poured into the container 1 and the loading sleeves 7 are tied with braid, ensuring the tightness of the containers 1.

After the loading work (tie) is completed, the container is lifted and transported to the place of installation and installed on a pipe laid in a trench at design marks so that the flexible connection 6 rests on the pipeline along its entire length, and containers 1 are laid on the pipeline on both sides of it the location of the base 4 of a larger width above the base 5 of a smaller width when installing a flexible connection 6 on the pipe. The flexible connection 10 in this case occupies an approximately horizontal position and does not allow the collapse of the tanks 1 on the sides of the pipe.

After installing containers (weighting agents) filled with ballasting material on the ballasted pipeline, the trench in which the pipeline is placed is filled with soil. The mass of soil above the container provides an increase in its ballasting ability. During operation, loads should be transferred to the ground by the sides of 2 tanks 1 on the sides of the trench. In this position, the pipeline continues to operate under difficult hydrogeological conditions, for example, in flooded areas.

The impact of a flexible connection 6 provides insignificant loads on the insulating coating of the pipeline and its non-deforming walls. During operation, the longitudinal and lateral stability of the position of the container with containers 1 and the pipeline at the bottom of the flooded trench is ensured, since the containers 1 cannot significantly change shape, as well as diverge, crumple or twist during transverse and longitudinal pipe movements, inevitable when changing seasons.

Thus, an effective container for ballasting pipelines was created and the arsenal of containers for ballasting pipelines was expanded.

This ensures the preservation of the shape of the containers after filling with ballasting material, the possibility of installation in a rectangular trench designed by a bucket wheel excavator, or in a trench with a minimum slope slope, and a maximum reduction in the volume of earthwork, as well as a reduction in the time for filling container containers with ballast and an increase in the reliability of the construction in difficult climatic conditions.

Claims (19)

1. Textile container for ballasting a pipeline, containing two containers isolated from each other with loading holes and sleeves for filling them with ballasting material and cargo loops, formed by side and end walls, as well as longitudinal upper and lower bases, and interconnected by a flexible connection, made with the possibility of installation on the pipe, characterized in that each tank is equipped with at least one jumper sewn in the inner section between the side walls. 2. The container according to claim 1, characterized in that the upper and lower bases of each container are made of the same shape and with equal width. 3. The container according to claim 1, characterized in that the lower base of each container is made with a width and area smaller than the width and area of the upper base, and a flexible connection is made with a length selected from the condition of arranging the base of a larger width above the base of a smaller width during installation flexible connection to the pipe, with each container made expanding towards the middle of the flexible connection and facing toward the connection with the second container with an upper longitudinal base made with a larger width and area than the lower one. 4. The container according to claim 1, characterized in that the jumper is sewn between the side walls in an internal cross section. 5. The container according to any one of claims 1 to 4, characterized in that the jumper is made in the form of a cloth. 6. The container according to any one of claims 1 to 4, characterized in that the container is made with at least two jumpers in the form of parallel panels. 7. The container according to any one of claims 1 to 4, characterized in that the jumper is made in the form of cords. 8. The container according to any one of claims 1 to 4, characterized in that the jumper is made in the form of woven tapes. 9. A container according to any one of claims 1 to 4, characterized in that the container is made with at least two jumpers isolated from each other. 10. A container according to any one of claims 1 to 4, characterized in that the container is made with at least two jumpers connected to each other and located along a broken line. 11. A container according to any one of claims 1 to 4, characterized in that it is provided with an additional flexible connection connected to the upper bases of both containers and made with a length not exceeding the diameter of the pipe. 12. The container according to any one of claims 1 to 4, characterized in that the jumper is sewn to the side walls of the container or secured with loops. 13. The container according to any one of claims 1 to 4, characterized in that each container has one or two loading sleeves that are placed along one of the bases and are made with a total passage area of at least 50% of the area of the upper base of the container. 14. The container according to any one of claims 1 to 4, characterized in that the containers are made with the possibility of installation on a pipe with a horizontal arrangement of longitudinal bases and a vertical arrangement of the end walls. 15. The container according to any one of paragraphs.1,3, characterized in that the containers are made of trapezoidal section, with the possibility of installation on a pipe with an inclined side wall from the side facing the slope of the trench. 16. The container according to any one of claims 1 to 4, characterized in that the loading sleeves are equipped with braid for tying after filling. 17. The container according to any one of claims 1 to 4, characterized in that the cargo loops can be made circular, fixed on the longitudinal walls of the containers or attached to the side walls of the containers. 18. A container according to any one of claims 1 to 4, characterized in that the side walls are reinforced with technical fabric or tape. 19. The container according to any one of claims 1 to 4, characterized in that the flexible connection is attached to the cargo hinges.