RU2062936C1 - Antierosion system for pipe line on slope - Google Patents

Abstract

FIELD: construction of pipe lines. SUBSTANCE: system has filter 1, yoke 4, and members for fastening the filter. Filter 1 is spread out above pipe line 3 before laying the pipe line in trench 2 and the part of the filter on the bottom segment of the slope is formed as a funnel. The neck is secured to pipe line 3 by way of yoke 4 and additional weights or anchors 6. The filter is filled to form a funnel on segment "A" using supports or arcs. Ground water flows down the slope and then through pores of the cloth of filter 1. Soil does not move over the slope being consolidated on segment "A". EFFECT: enhanced reliability. 2 cl, 2 dwg

Description

 The invention relates to construction and may find application in the laying of trunk pipelines.

 Known anti-erosion systems of the pipeline, laid on a slope.

 One of them contains coarse-grained sand surrounding the pipeline, enclosed in a shell of non-woven synthetic material and placed in the lower part of the trench, and the backfill soil of the latter (see acc. Japanese application N 59-49463, class F 16 L 1/00, publ. 1959). However, providing a good passage of water along the pipeline, the device is material-intensive, since it provides for a high consumption of imported sand and synthetic cloth (due to its continuity along the length of the trench), and also requires preserving the specified marks for laying the pipeline to re-deepen the trench.

 The closest technical solution to this invention adopted as a prototype is an anti-erosion system containing a set of drainage barriers, each of which includes a cloth filter made of non-woven synthetic material and its fastening in a trench (see ed. Certificate of the USSR N 1707394, class F 16 L 1/00, 1989).

 A disadvantage of the known technical solution, characterized by the economical use of non-woven synthetic material, is the need for delivery of substitute material extracted from the trench, in particular lump stone or concrete grating partitions.

 The objective of the invention is to simplify the construction of the system by eliminating the delivery and use of porous material for fastening.

 To achieve this goal, in the anti-erosion system of the pipeline laid on a slope of the area containing a set of drainage barriers, each of which includes a cloth filter of non-woven synthetic material and its fastening in a trench, each of the cloth filters has the shape of a funnel facing the slope with the diameter of the neck opening equal to the diameter of the pipe, while the longitudinal edges of the filter cloth in the neck of the funnel are overlapping each other, and in the receiving part are bent for azmescheniya on the bottom walls of the trench and berms, and fastening each filter is formed in the trench collar, tight fitting on the tube panel along one of its transverse edges, and extracted from the trench with soil, placed on a panel inside the neck portion and on the surface of the receiving portion of the funnel. In addition, the clamp is equipped with anchors immersed in the bottom of the trench.

 The invention is illustrated in the drawing, where in FIG. 1 shows a device in plan, and in FIG. 2 shows section AA in FIG. 1.

 The anti-erosion system of the pipeline, laid on a slope of the terrain, contains a set of drainage barriers, each of which contains a cloth filter 1 made of non-woven synthetic material and its fastening in a trench 2. Each of the cloth filters has the shape of a funnel with a hole diameter facing the slope (shown by arrow) neck equal to the diameter of the pipe 3. The longitudinal edges of the filter cloth in the neck part A of the funnel are overlapping each other, and in the receiving part B are bent to accommodate at the bottom , walls and berm trenches. The fastening of each filter in the trench is formed by a clamp 4, tightening the cloth on the pipe along one of its transverse edges, and soil removed from the trench, placed on the cloth inside the neck part and on the surface of the receiving part of the funnel. On the berm of the trench, the cloth is additionally fixed with rods 5. The clamp is equipped with anchors 6 immersed in the bottom of the trench.

 The erosion control system is constructed as follows.

 The sheets are laid out at the bottom, walls, berm trenches before laying the pipeline. Soil 7 is poured onto the laid pipeline in places of the panels in the area of the receiving parts B of each of the filters. Then tighten each of the panels along the lower (relative to the slope) edge around the pipe and fasten the fitted end with anchors 6 or weighting agents. After that, a funnel is formed from each panel, substituting supports, arches, etc. into the neck portion A.

 Using a single-bucket excavator with special conveyors or manually, the throat part A is filled with soil taken from the receiving part B, finally, the panels are fixed on the berm with rods B and the soil is poured, filling the trench in the receiving part 5 of the filter and over its mouth part A, and then the trench is covered in the areas between the filters. It is advisable to use quarry mineral soil as filter filling soil, at least for the neck portion A of the filters.

 The anti-erosion system works as follows.

 If there is a flow of water along the slope, the soil of the trench can only move along the upper zone of the trench above the upper point of the throat portion A of the filter, since below this point the soil placed in the filter is compacted on the surface of the filter and against the clamp 4, passing water through the pores of the panel .

 Thus, due to the exclusion of the use of porous material - coarse-grained stone due to the implementation of the bearing part of the filter from the cloth with a clamp, the construction of an anti-erosion system is simplified.

Claims (2)

 1. The anti-erosion system of the pipeline laid on the slope of the terrain, containing a set of drainage barriers, each of which includes a cloth filter made of non-woven synthetic material and its entrapment in a trench, characterized in that each of the cloth filters has the shape of a funnel facing the slope with a hole diameter the neck equal to the diameter of the pipe, while the longitudinal edges of the filter cloth in the neck of the funnel are overlapping each other, and in the receiving part are bent to accommodate I at the bottom, walls and berms trench and mounting each filter in a trench formed by a collar, tight fitting on the tube panel along one of its transverse edges, and extracted from the trench or quarry ground, placed on a panel inside the neck portion and on the surface of the receiving portion of the funnel.  2. The system according to claim 1, characterized in that the clamp is equipped with anchors or weighting agents immersed in the bottom of the trench.

Images