RU1828978C - Method and anchor device for laying pipe line - Google Patents

Abstract

Usage: in the construction of trunk pipelines (TP). SUMMARY OF THE INVENTION: a recessed trench is torn, a TP is placed in it and secured /// /// Ж S // S // / S / Ж & Fig. 1 is installed in the ground and connected to the transformer substation by means of force-seated paired anchors with expanding blades. The opening of the anchors is carried out by moving the TP under the influence of the buoyancy force of the water filling the trench. Re-deepening of the trench is equal to the magnitude of the opening stroke of the blades. The laying and installation of anchors is combined, for which, before laying the TP, it is installed directly on the power support blades, the upper ends of which fixed by a temporary torn bond. The distance between the blades is less than the width of the trench. On each side of the TP, one blade is installed on the sow. The upper ends of the fixed vanes touch the walls of the trench and are not located. below the upper generatrix TP, 2 s.p. f-ly, 7 ill. Ts16 ZJL (L C 00 M 00 s XI 00

Description

The invention relates to the field of construction and can be used in the construction of pipelines in flooded soils.

The purpose of the invention is to expand the scope, reducing the complexity and cost of metal by combining the operations of laying and installing anchors.

In FIG. 1 shows a pipeline equipped with an anchor device during its immersion in a trench; in FIG. 2 - laid on the bottom of the trench pipeline equipped with an anchor device; in Fig.3 - a pipeline equipped with an anchor device after surfacing; in FIG. 4 - anchor blade, side view; on fig.5 - anchor blade, view along arrow A in figure 4; figure 6 - anchor device along with the pipeline, a top view (in the position embedded in the walls of the trench); Fig. 7 is a diagram of forming a wire clip.

The method is carried out as follows.

A trench is re-opened with re-deepening and a pipeline is laid at its bottom with previously installed anchors with expanding blades on it with a calculated pitch, which are mounted directly on their power supports. In this case, before laying the pipeline in the trench, the blades are fixed in the inoperative position, for which their upper ends are brought together and a wire frame is put on them. The pipeline, together with anchor devices, is immersed at the bottom of the flooded trench by demolition or another method, then the immersion load is reduced, and then the pipeline is filled up.

When laying the pipeline in the winter, when flooding occurs in the subsequent summer period of the year, it is possible to control and adjust the position of the upper ends of the blades relative to the walls of the trench. Anchor pairs, the ends of which did not come into contact with the walls of the trench, are released by sliding to the sides of the trench walls, for which they loosen the locking frame. After adjusting the position of the blades of all anchor pa, p, the trench is backfilled.

Example. A pipeline with a diameter of 1420 mm is laid in the summer in a trench developed in peat with slopes from 70 to 80 °. The selected recessing of the trench is 710 mm. Anchor pairs are used with an area of the part of the blade introduced into the soil of 0.5 m. The pitch of the anchors is 25 m. The pipeline is immersed into the trench by pressure concentrated load, for which purpose the mass of the pipe layer transmitted to the pipe through the bridge is used. After removing the load, the pipeline pops up and is firmly fixed at the design elevation, which is confirmed by measurements of the position of its upper generatrix relative to the berm. The trench is then backfilled.

An example embodiment of the device. An0

The core device consists of a power belt 1. Made in the form of an enclosing pipeline 2, a flexible clamp of two half rings 3 and 4 with tensioning devices 5. The power cable with 1 is equipped with hinges 6, on

5 axis 7 of which the blades 8 are fixed.

Each blade 8 is made in the form of a rib 9, pointed towards the walls 10 of the trench 11, with holes 12 for the axis 7, contains a shank - emphasis 13 with a concave

0 by the curvature along the radius of the force zone 1. On top of the rib 9 is rigidly attached by a metal sheet 14 with a thickness of 8-10 mm. A groove 15 is made in the upper part of the rib 9, into which a temporary discontinuous

5, a latch 16 holding the blades inoperative. The latch can be made in the form of a wire frame, one end of which 17 is bent by a hook, and the other end 18 is gossip with the formation of loops 19

0 and it is set off with a 20 (see Fig. 7). Such a locking device is necessary to adjust the length of the frame in order to tighten or release it.

The water level in trench 11 is indicated

5 by 21.

The process of fixing the anchor device in the ground is as follows. Before lowering the pipeline 2 into the trench 11 on the berm, half rings 3 and 4 of the clamp are put on the pipeline and the tensioning device tightens it with the required force. Then the blades 8 are brought to each other and a temporary bursting latch 16 is put into their grooves 15, while closing it while

5 to form a frame by threading the hook 17 into the furthest loop 19 from it. In this position, the pipeline is lowered to the bottom of the trench. If the pipeline is laid in the winter,

0 visual control of the position of the ends of the blades relative to the walls of the trench. If between them there is a gap of more than 50 mm, it is corrected, the blade spread to the sides, for which the hook 17 is rearranged into the corresponding loop 19. When laying the pipeline in the spring-summer period, i.e. into a flooded trench, for example by crushing, to ensure that the blades engage with the walls of the trench, the walls of the trenches must be made with a large slope angle, i.e. close to 80 °.

When the pipeline ascends, the force created by the buoyant force is transmitted to the blades of the m. Being already at the beginning of the rise of the pipeline meshing with the ground, they will begin to turn by pulling the frame. The frame breaks and the blades continue to turn further on hinges b, occupying a horizontal position by the end of the ascent of the pipeline when they are embedded in soil with an area of about 0.5 m each.

Claims (8)

1. A method of laying a pipeline in waterlogged areas, which consists in extracting a recessed trench, laying in a non-pipeline and fixing it installed in the ground and connected to the pipeline by means of power shafts by paired anchors with opening blades, the anchors being opened by moving the pipeline under the influence of the buoyancy force filling the trench of the water, and the deepening of the trench is equal to the magnitude of the opening stroke of the anchor blades, with the aid of a rout and so that the laying and installation the taste of the anchors is combined, for which, before laying the pipeline, it is installed directly on the power supports with anchor expanding blades, the upper ends of which are fixed with a temporary tear connection, the distance between the blades being less than the width of the trench, with each the parties 0 5 0 5 0 the pipeline is installed on the power line along one blade. 2. The method for l. j, with the fact that the upper ends of the fixed anchor blades laid on the bottom of the pipeline trench touch the walls of the trench. 3. The method according to claims 1 and 2, with the exception that the upper ends of the fixed anchor blades are positioned no lower than the upper generatrix of the pipeline. 4. An anchor device for securing the pipeline, comprising paired anchors with expanding blades connected to the pipeline by a power supply, characterized in that the blades are provided with a temporary breakable connection and are pivotally connected to the force pom, with stop shafts fixed to the lower ends of the blades , and on the top - captures for temporary latch 5. The device according to claim 4, characterized in that the anchor blades are provided with ribs and are made with kink away from the pipeline. 6. The device according to claims 4 and 5, characterized in that the length of the blades is at least half the diameter of the pipeline, 7. Device by. 5 and 6, with the exception that the grips are made in the form of grooves formed on the edges of the blades of the anchor. 8. The device according to claims 4, 5, b and 7, with the fact that the latch is made in the form of a wire frame. / 77 lY  v. , /// /// /// P AND FIG. 4 Fig.Z View fr / J FIG. 5 H FIG. b 17