RU1810707C - Gear for anchoring underground pipe-line in self-rising soil - Google Patents

Abstract

SUMMARY OF THE INVENTION: A clamp rigidly fixed to the pipeline is connected by a cable passing through the base layer with anchors rigidly embedded in the permafrost soil. T ha is made in the form of a U-shaped bracket, the posts of which are bent at a right angle. The middle part is bent and connected to the clamp under the pipeline. T ha is made of a steel rod with a diameter of 12-60 mm. 1 wp 2 ill.

Description

The invention relates to the construction of pipelines and can be used for underground gas pipelines in the Far North, on frozen heaving soils. Soil heaving, as the operating practice shows, can take the pipeline out of action in 2 ... 3 seasons, lead to pipe rupture.

The aim of the invention is to reduce large vertical loads on the pipeline; caused by seasonal heaving.

Figure 1 shows a longitudinal section of an underground pipeline in a heaving soil, secured using the proposed device; figure 2 is the same plan.

The underground pipeline 1 with a clamp 2 rigidly fixed thereon is located in the active layer 3 of the heaving soil. In the permafrost layer 4 of the soil, anchors 5 are rigidly sealed, connected to the collar 2 through its eyes 6 with a spatially curved rod 7, made in the form of a U-shaped bracket with racks bent at a right angle, placed in a solid layer 3 of heaving soil.

The device operates as follows.

When the soil layer 3 freezes, it swells, which tends to raise the pipeline 1 upward.

The pipeline lifted by the soil (shown in dashed lines in FIG. 1) through the eyes 6 of the 2 t clamp is not present and deforms (initially elastically, and with a large rise and plastics) the spatially curved rod 7 (shown by the dashed lines in FIG. 1 and FIG. 2). The ends of the rod 7 are rigidly sealed in the permafrost layer 4 of the soil by means of anchors 5.

When thawing the layer 3 (at this time the pipeline is surrounded by semi-liquid soil), ha 7 due to the energy of elastic deformation accumulated during the lifting of the pipeline, there is no pipeline 1 down to a position close to the design one.

In subsequent seasons, when the soil is frozen again and then its heaving starts again, the picture is repeated

00

about VI

about vj

rhythm. The pipeline, as it were, floats in a solid layer of soil, being at various vertical levels.

Thus, due to the flexibility of the fastening element - rod 7, made in the form of a spatial elastic rod, in the form of a U-shaped bracket with racks bent at right angles, placed in a solid soil layer - large - (practically irregular called) vertical mechanical forces on the pipeline caused by soil heaving, i.e. the task is solved.

The diameter of the resilient steel bar is from 12 to 60 mm, depending on the diameter of the fixed pipe.

The technical and economic advantage of the proposed solution is the prevention of pipeline ruptures due to soil heaving and the reduction of

this costs repair work during emergency breaks, as well as reducing losses of transported fuel.

Claims (2)

1. A device for securing an underground pipeline in a heaving soil, comprising a clamp fixed to the pipeline, connected by a wire passing through the base layer with anchors rigidly embedded in the permafrost, characterized in that the rod is made in the form of a U-shaped bracket, stand which are bent at a right angle, while its bent middle part is located in the solid layer, and the middle of the back of the bracket is pivotally connected to the clamp under the pipeline. 2. The device according to claim 1, with the exception that the ha is made of a steel rod, the diameter of which is 12-60 mm. 75 4 3