RU65166U1 - GABION TYPE BALLASTING ANTIEROSION DEVICE - Google Patents

Abstract

The device relates to ballasting, pipelines, both during repair already and during laying.

The task is to create a gabion type ballasting anti-erosion device, which, if the pipeline could float up, would provide an increase in the mass of the load acting on it due to the involvement of the mass of ballast material located in adjacent zones separated by partitions.

This is achieved by the fact that the aforementioned device, laid on the pipeline through a protective mat, includes a box, rectangular in plan view, filled with bulk ballast material, formed from a double-torsion steel mesh with hexagonal cells, divided by jumpers from the mesh, transversely spaced at regular intervals, reinforced with wire along the perimeter, the height of which is equal to the height of the longitudinal and transverse sides of the box, and having a mesh cover fixed to the sides or to the sides and to the jumpers, when the bulk bulk material when it is placed in the box, is uniformly located over the box area with an excess of at least 5% of the level of the sides and the height of the lintels, with the front and rear longitudinal sides of the box formed from the mesh of the bottom of the box by bending and tied continuously at least on the length of one side of the jumper, a piece of wire to the ends of the jumpers with a capture of the wire of their reinforcement, and the sides and jumpers are equipped with pairs of lifting loops, offset from their center to the edges, and the jumpers when laying the device on conduit oriented along its longitudinal axis, and the protective pad has a length greater than the diameter of the pipeline.

Description

The device relates to the field of means for providing ballasting of pipelines, both during the repair of existing ones, and when laying new, mainly trunk, pipelines while preventing erosion processes.

A device for ballasting a pipeline is made in the form of a container made of synthetic permeable flexible material placed on a pipe with its coverage and filled with a mixture of binder and aggregate, while water-absorbing wicks are evenly placed in the mixture, and their ends are attached to the corresponding ends of the container (1).

The known device contains a fine binder, the loss of which during any movement of the container leads to a decrease in the efficiency of fixing the aggregate in the container due to which it is possible to pour out or wash out the aggregate and the device will lose its ballasting properties.

A device for ballasting a pipeline is made in the form of containers filled with ballast when placed in a trench, and the containers are formed by a pipe envelope connected by a piece of web connected to the side walls and has two rows of lifting loops along the length of the device (2).

Such a device is suitable for use in the trench in which the pipeline is located, and when placed outside the trench, it is prone to tipping over and, with minimal force, loses stability.

The closest known device is the one for solving pipeline protection problems, announced during a seminar in the Republic of Azerbaijan in June 2004 by representatives of the Gabion McCafferry CIS company and made in the form of a double torsion gabion and used in combination with geosynthetic materials (3) .

Such a device in the form presented at the seminar was not disclosed to the extent necessary for its implementation and has so far been in trial operation at a number of CIS facilities. The results of the operation showed the need for constructive refinement of the device to the extent presented further in the description materials.

The technical task is to create a gabion type ballasting anti-erosion device, which, with possible sub-flooding of the pipeline, would provide an increase in the mass of the load acting on it due to the involvement of the mass of ballast material located in adjacent zones separated by partitions. In addition, filling with bulk ballast material with an excess of not less than 5% leads to the fact that under dynamic action, the ballast material is somewhat denser and the filling of each zone separated by partitions becomes complete (when this value changes to values less than 5%, filling is uneven in area zones separated by jumpers due to the displacement of the ballast material to one of the jumpers during installation, possible deflection of the wire mesh and its destruction under external load, with a significant Increasing, for example, more than 15%, it is technically difficult to close the lid).

In addition, each hexagonal mesh cell formed by double torsion provides a sufficiently high anchoring performance - significant resistance to shear located on the basis of the parts of the ballasting device that occurs when the subplot of the pipeline.

The solution to this problem is achieved by the fact that the gabion type anti-erosion ballasting device, laid on the pipeline through a protective mat, includes a box rectangular in shape, filled with bulk ballast material, formed from a double-torsion steel mesh with hexagonal cells, separated by jumpers of transversely spaced at regular intervals mesh with reinforcement with their wire around the perimeter, the height of which is equal to the height of the longitudinal and transverse sides of the box, and having a lid mesh, fixed to the sides or to the sides and to the jumpers, while the bulk ballast material when laying it in the box, is evenly distributed over the box area with an excess of not less than 5% of the level of the sides and the height of the jumpers, with the front and rear longitudinal sides of the box formed from the mesh of the bottom of the box by bending it and tied with a continuous, at least along the length of one side of the lintel, a piece of wire to the ends of the lintels with a capture of the wire of their reinforcement, and the sides and lintels are equipped with pairs of lifting loops offset about their center to the edges, the jumper when installing the device on the conduit are aligned along its longitudinal axis, and the protective pad has a length greater than the diameter of the pipeline. The protective mat of the gabion type anti-erosion ballasting device is fixed at the bottom of the box until the device is placed on the pipeline, and geosynthetics are laid inside the box on its bottom or on the bottom, on the sides and lintels.

Figure 1 is a General view of a ballasting anti-erosion device of the gabion type located on the pipeline in the design position.

The gabion-type ballasting anti-erosion device is laid on the pipeline 1 through a protective mat 2. The device includes a rectangular box 4 filled with bulk ballast material 3, which is formed of double-twisted steel mesh 5 with hexagonal cells. Box 4 is divided transversely spaced with a uniform interval of about 1 m by jumpers 6 from the same grid with reinforcement of their stiffness due to their reinforcement with wire around the perimeter with the formation of the frame. The height of the jumpers 6 is equal to the height of the longitudinal and transverse sides 7 of the box 4, which is closed by a lid 8 of the grid. The lid 8 is fixed to the sides 7 or to the sides 7 and to the jumpers 6. Bulk ballast material 3, when placed in the box 4, is evenly distributed over the area of the box 4 with an excess of not less than 5% of the level of the sides 7 and the height of the jumpers 6. Front and the rear longitudinal side 7 of the box 4 is formed from the mesh of the bottom of the box 4 by bending and tied by a continuous, at least along the length of one side of the jumper 6, a piece of wire to the ends of the jumpers with a capture of wire reinforcement. This ensures a high degree of reliability during installation on the pipeline and durability of operation and eliminates the possibility of pouring ballast material, which could occur when the partition is displaced due to a violation of its connection with the side of the box. The sides 7 and jumpers 6 are provided with pairs of lifting loops 9 located on top of the box 4, which are offset from the center of the jumpers 6 to their edges.

The jumpers 6 when laying the device on the pipeline 1 for the loops 9 are oriented along its longitudinal axis, which ensures the invariance of their geometry using a lifting beam for this. Due

the presence of double torsion hexagonal cells in the meshing box — the possibility of elastic deformation when the box 4 bends around the pipeline without violating its integrity and its constituent elements. The protective mat 2 has a length exceeding the diameter of the pipeline, which eliminates the possibility of damage to the insulation of the pipeline. It is advisable to limit the length of the mat 2 to two pipeline diameters while ensuring the anchoring requirements by meshing the part of the duct located on the soil base 4. The protective mat 2 of the gabion type anti-erosion device is fixed at the bottom of the duct until the device is laid on the pipeline, which prevents shear when laying the entire device on the pipeline . Inside the box 4 on its bottom or on the bottom, on the sides 7 and lintels 6, to ensure the safety of the ballasting material during installation and operation, geosynthetic material is laid that provides only filtering and prevents spillage of ballast material.

The proposed technical solution over the long term passed pilot tests at various facilities in various climatic zones with the provision of high ballast reliability based on their results.

Information sources:

1. USSR author's certificate No. 1747791, С04В 28/08, 1992.

2. US Patent No. 53585430, F16L 1/028, 1995.

3. "Gabion technologies in Azerbaijan - towards expectations", http: // www. makkaferri.ru/events_archives.php, 07.07.2004.

Claims (3)

1. A gabion type anti-erosion ballasting device, laid on the pipeline through a protective mat, including a rectangular box filled with bulk ballast material, formed from a double-torsion steel mesh with hexagonal cells, separated by jumpers from the mesh, transversely spaced at regular intervals, reinforced with wire along the perimeter, the height of which is equal to the height of the longitudinal and transverse sides of the box, and having a cover made of mesh, fixed to the sides or to the sides and to the jumpers characterized in that the bulk ballast material when it is placed in the box is evenly distributed over the box area with at least 5% excess of the level of the sides and the height of the jumpers, with the front and rear longitudinal sides of the box formed from the mesh of the bottom of the box by bending it and tied continuous at least along the length of one side of the lintel a piece of wire to the ends of the lintels with the capture of wire reinforcement, and the sides and lintels are equipped with pairs of lifting loops, offset from their center to the edges, and hibernation when laying device on the conduit are aligned along its longitudinal axis, and the protective pad has a length greater than the diameter of the pipeline. 2. The gabion-type ballasting erosion control device according to claim 1, characterized in that the protective mat is fixed at the bottom of the box before laying the device on the pipeline. 3. A gabion type ballasting erosion control device according to claim 1 or 2, characterized in that geosynthetic material is laid inside the box on its bottom or on the bottom, on the sides and lintels.