RU2406002C1 - Method for fixation of pipeline at design elevations and device for its realisation - Google Patents

Abstract

FIELD: machine building. ^ SUBSTANCE: additional fixation of anchor driven into soil for a certain depth, is done by impression of sliding fixtures by working fluid. Hollow rod of anchor is arranged with hollow multiturn screw tip, lower blade of which is equipped with bits - fangs. Sliding fixtures represent multistep telescopic hydraulic cylinders of single-sided action arranged in cavities of bulges on case of screw tip blades. On upper end part of screw tip there is a bulge with slots for connection teeth of assembly rod, representing a pipe. In cavity of rod and screw tip there is an isolated line of working fluid supply. ^ EFFECT: improved retention capacity of anchor. ^ 5 cl, 6 dwg

Description

The invention relates to the construction and can be used in the construction of pipelines laid in swampy and periodically flooded areas, for their fastening at design elevations using anchors.

A known method of securing a pipeline (US Pat. RU No. 2184299, class F16L 1/06 of 2001.02.12, publ. 2002.06.27), comprising introducing into the soil tubular anchors with holes made in the lower part of the side surface of a pipe of variable diameter, and securing them by injection of a binder product under a pressure of 0.1-0.5 MPa into a predefined layer of weak, incoherent soil; in the case of a dense cohesive soil, the binder is injected under a pressure of 1.5-10 MPa. Anchors are connected to the pipeline by means of power belts.

The disadvantage of this technical solution is the low holding capacity of the anchors of the proposed design, which leads to the need for their unreasonably frequent installation along the pipeline and to the ascent of the pipeline.

A known method of securing a pipeline (US Pat. RU No. 2205317, class F16L 1/06 of 2002.05.30, publ. 2003.05.27), including screwing into the ground tubular anchors with screw tips and with holes made on the side of their rods with some step. After screwing the anchors, the soil is fixed by injection of a cementitious product under a pressure of 0.2-1.5 MPa. Anchors are connected to the pipeline by means of power belts.

The disadvantage of this technical solution is also low, although increased in comparison with the above analogue, the holding ability of the anchors, which as a result leads to the emergence of the pipeline and the creation of an emergency.

Closest to the claimed technical solution is a soil anchor (Pat RU, No. 2008397, class ЕВВ 5/80 from 1992.01.24, publ. 1994.02.28), including a hollow rod, an anchor head, the cavity of which is communicated with the cavity of the rod, and retractable elements brought into the anchor head with the possibility of extension under the action of the working medium supplied to the traction, while the sliding elements are equipped with hydraulic monitor nozzles, which serve to erode the soil and better penetrate the sliding elements into the soil and installed on their lateral edges. Hydraulic monitor nozzles are made with through channels for supplying the working medium from the head cavity to the nozzles, and the head is equipped with a valve located in it in the form of a rotary sleeve connected to the sliding elements by means of a flexible connection to prevent the medium from flowing to the sliding elements.

The disadvantage of this technical solution is that to install the anchor requires excavation and erosion of the soil, which complicates its installation. In addition, the small contact area of the sliding elements with the soil makes them ineffective.

The objective of the invention is to provide an effective method of securing the pipeline at design elevations and devices for implementing this method.

As a result of solving this problem, it becomes possible to obtain technical results, consisting in the fact that the described method and device can increase the holding capacity of the anchor and preserve the natural structure of the soil.

This goal is achieved by the fact that in the method of securing the pipeline at design elevations, including pre-securing the tubular anchors in the soil at a certain depth and additionally securing them in the ground with retractable anchor fasteners driven by the working medium, followed by connecting the pipeline to the anchor rods by means of a power belt, while the preliminary fixing of the anchors is carried out by screwing the latter into the ground due to their screw tips, and additional closing The heating is carried out by pressing in the soil retractable fasteners without preliminary destruction of the soil.

Another specified goal is achieved by the fact that the device for securing the pipeline at the design marks contains an anchor with a hollow rod with retractable fasteners, fixed with the possibility of extension under the action of the medium supplied to the cavity of the rod, while the hollow rod of the anchor is made with a hollow multi-turn screw tip, lower the blade is equipped with canine cutters, and the retractable fasteners are multi-stage telescopic single-acting hydraulic cylinders In the cavities of the bulges on the body of the blades of the screw tip, on the upper end part of the screw tip, a thickening was performed with a socket for the connecting teeth of the mounting rod, while an isolated working medium supply line was made in the cavity of the rod and screw tip. Thickenings with fasteners on the blades are made in increments and in quantity, based on the necessary holding force of the anchor. The mounting rod is made with at least one tooth having the shape of a square, rectangle, hexagon, L-shaped or any other shape. The nest in the thickening of the upper end of the screw tip is made in the form of recesses or grooves, at least one recess or groove having the shape of a square, rectangle, hexagon, L-shaped or any other shape.

In the proposed method of securing the pipeline with anchors with retractable fasteners and then connecting the pipeline to the anchors by means of power belts, according to the invention, an anchor having a hollow screw tip and a rod is screwed directly into the ground. Next, an additional fixation of the anchor in the soil is carried out using retractable fasteners, made, for example, in the form of multi-stage telescopic hydraulic cylinders of single action, embedded in the cavity of the bulges on the body of the blades of the screw tip. Retractable fasteners are located on the blades with a certain step. Based on the required holding ability of the anchor, the calculation and structurally determines the angle of elevation of the helical line of the blade, the number and pitch of the retractable fasteners, their design, size and number of stages of hydraulic cylinders. To ensure screwing the anchor into the ground, transmitting torque and axial force, a thickening was made on the upper end of the screw tip with a socket in the form of recesses or grooves, at least one recess or groove, for example, in the form of a square, rectangle, hexagon, G- shaped or any other shape for quick connection and disconnection with a mounting rod having reciprocal teeth, at least one tooth, for example, in the form of a square, rectangle, hexagon, L-shaped or any other shape, respectively And the lower blade is provided with teeth-incisors. The rod is a thick-walled pipe with teeth of the shape indicated above at the lower end, which, after screwing the anchor, is disconnected from the screw tip and removed from the well. The number and size of teeth on the mounting rod and the grooves on the screw tip are determined by calculation. The angle and pitch of the helical blade, the supply of the lower blade with cutter-fangs allow you to screw the anchor without loosening the soil, preserving its natural structure, which ensures maximum holding capacity of the anchor. The number of fastening retractable elements of the screw tip blade must be at least two.

The screw tip and the hollow rod of the anchor are rigidly interconnected by any known method, for example by welding, pipe conical threaded connection, etc.

In order to push the sliding fasteners into the ground, along an insulated line laid inside the hollow rod of the anchor, under excess pressure, which is determined by the calculation of the required force to push the pull-out fasteners into the soil, a working medium is supplied, which is a water-insoluble quick-hardening substance, such as cement mortar. After it hardens inside the retractable fasteners, the anchor is monolithic and becomes able to absorb a large pulling load.

In order to further increase the holding capacity of the anchor, it is possible to make holes on the lateral surface of the hollow core with a certain step for injecting the cementitious product into the ground. In this case, the working medium is supplied to the anchor fasteners along an insulated line laid inside the hollow core, and the cementitious product for injection into the ground - through the space between the wall of the hollow core and the insulated line inside it. After screwing the anchor into the ground and removing the rod, the extension of the fasteners and fixing of the soil is carried out sequentially or simultaneously.

Figure 1 presents a General view of the anchor in a variant of telescopic telescopic elements in a state of screwing into the ground; figure 2 - section bb In figure 1; figure 3 - General view of the anchor after supplying the working medium and its fixation in the ground; figure 4 - types G and D of figure 4; 5 is a diagram of the screwing of two anchors at the same time; 6 is a diagram of the supply of the working medium and binder product.

A device for securing a pipeline at design elevations includes an anchor and a mounting rod. The anchor comprises a hollow rod 1 connected by any known method, for example by welding, tapered thread, etc., to a hollow multi-turn screw tip 2 having blades 3 with bulges 4, in the cavity of which retractable fastening elements 5 are made, made, for example, in the form of multistage telescopic hydraulic cylinders of single action. The lower blade of the screw tip, which does not have thickenings, is made with cutters-fangs 6, and on the upper end of the screw tip there is a thickening 7 for socket 8 with grooves of a L-shaped shape for quick connection-disconnection with a mounting rod 9, which is a pipe with reciprocal teeth 10, L-shaped. The size and number of teeth are determined by calculation. To supply the working medium to the screw tip 2 in the hollow shaft 1, an insulated line 11 is provided with an opening 12 for the nozzle for supplying the working medium and a pump (crimping unit) 13.

If necessary, additional anchoring of the anchor by injection of a cementitious product into the ground, the latter is fed through the space between the wall of the hollow core and the insulated line inside it with the supply of cementitious product in a separate line through the hole 14 by the pump 15.

The method of securing the pipeline at design elevations is as follows. Pipe 17 is laid in the dug trench 16. After connecting the rod 1 with the screw tip 2, a mounting rod 9 is installed with the teeth 10 at the end into the thickening 7 of the screw tip so that the teeth 10 enter the grooves of the socket 8. Machine 18 tightens the anchors into the ground (one or two at the same time) in a given place at a predetermined depth. In this case, one revolution of the screw tip corresponds to its axial movement equal to the pitch of the blade, supported by indentation, which ensures the preservation of the natural structure of the soil. If necessary, the lengths of the hollow rod 1 and the rod 9 can be increased by building them in any known manner.

Then remove the mounting rod 9. A fitting is installed in the hole 12 and a pump (crimping unit) 13 is connected to it, the working medium is supplied under the given overpressure into the cavity of the screw tip 2. Under the pressure of the working medium, the sliding fastening elements 5 are extended from the bulges 4 of the blades 3, penetrate into undestructed soil and additionally fix the screw tip 2 of the anchor in it. Provide exposure for solidification of the working medium inside the cavities of the rod 1 and the screw tip 2, after which they become monolithic. If additional anchoring of the anchor is not provided for by injection of a binder into the ground, then a force belt 19 is installed between the anchors. Machine 18 travels along the pipeline route to the next design elevation.

If additional anchoring of the anchor is provided by injection of a binder into the ground, a fitting is installed in the hole 14, a pump 15 is connected to it, and the binder is fed into the space between the wall of the rod 1 and the insulated line inside the rod 1. An exposure time is given for the binder to solidify, then the force is set belt 19, then the vehicle with pumps 13 and 15 is sent along the route to the next mark.

The proposed technical solution will allow to exclude earthworks, increase the holding ability of anchors and keep the pipeline at design elevations in swampy and periodically irrigated soils, accelerates the ballasting process.

Claims (5)

1. The method of securing the pipeline at design elevations, including pre-securing the tubular anchors in the soil at a certain depth and additionally securing them in the soil with retractable anchor fasteners driven by the working medium, followed by connecting the pipeline to the anchor rods by means of a power belt, characterized in that the preliminary fixing of the anchors is carried out by screwing the latter into the ground due to their screw tips, and additional fixing is carried out by m pushing into the soil of the retractable fasteners without preliminary destruction of the soil. 2. A device for securing the pipeline at design marks, including an anchor with a hollow rod with retractable fasteners, fixed with the possibility of extension under the action of the working medium supplied to the cavity of the rod, characterized in that the hollow rod of the anchor is made with a hollow multi-turn screw tip, the lower blade of which equipped with cutter-fangs, and retractable fasteners are multistage single-acting telescopic hydraulic cylinders located in the cavities of the thickening on the body of the blades of the screw tip, on the upper end part of the screw tip, a thickening was made with a socket for the connecting teeth of the mounting rod, while in the cavity of the shaft and the screw tip an insulated supply line of the working medium was made. 3. A device for securing the pipeline at design elevations according to claim 2, characterized in that the thickenings with fasteners on the blades are made in increments and in quantity, based on the necessary holding force of the anchor. 4. The device for securing the pipeline at design marks according to claim 2, characterized in that the mounting rod is made with at least one tooth having the shape of a square, rectangle, hexagon, L-shaped or any other shape. 5. The device for securing the pipeline at design marks according to claim 2, characterized in that the socket in the thickening of the upper end of the screw tip is made in the form of recesses or grooves, at least in the form of one recess or groove having the shape of a square, rectangle, hexagon , L-shaped or any other form.

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