RU2670318C2 - Device for extraction of pipe elements from exhaust pipelines - Google Patents

Abstract

FIELD: metallurgy.SUBSTANCE: invention relates to the recycling of metal pipes from exhausted. Device for retrieving pipe elements from exhaust pipelines comprises a housing with a front stage with an outer diameter of D, equipped with a node for fixing the exhaust cable, an adapter and a rear stage with a Dinternal diameter and Doutside diameter and a device for cutting a spent pipeline with D outer diameter mounted on the front stage and adapter. Device also comprises a centralizer for centering the front stage with respect to the inner surface of the cut pipe. Cutter is made in the form of at least two cutters with sharpened blades, inclined towards the working movement of the device, cutting the pipe into at least two separate parts to ensure that they are pulled to the surface. In this case, the D outer diameter of the spent pipeline, Douter diameter of front stage of housing and Douter and Dinternal diameters of the rear stage of the body are related by the relation: D > D> D> D.EFFECT: as a result, the reliability of the device is improved and the possibility of replacing an underground pipeline without digging a trench from the surface.1 cl, 11 dwg

Description

The present invention relates to the utilization of metal pipes from spent pipelines and can be used for this purpose.

A device for cutting pipes [1], adopted for the analog. It contains kinematically connected with the drive back - the translational movement of two knives, having cuts with cutting edges arranged at an angle to one another. The tops of the corners of the cutout of each of the knives are mutually shifted relative to the axis of the device, and the cutting edges of each wedge are at right angles to one another, while one of them is flat and the other is inclined to the axis of the device at an angle of "α". When the knives from the drive move towards each other, center the pipe and cut it. Then the knives return to their original position. The advantage of the analogue is the uniform loading of the knives, a flat cut line, perpendicular to the axis of the cut. The disadvantage is the impossibility of longitudinal cutting of the pipe.

It is also known a device for cutting damaged pipe sections of existing main pipelines [2], also adopted for analogue. This device contains a drive, a trolley with wheels, on which a milling cutter is installed, connected to the drive and the wheels of the trolley through a mechanical transmission and a chain with rollers covering the pipe. The drive transmits torque to the cutting mechanism — a milling cutter through the central internal gear wheel, satellite, and internal gear. The device is mounted on the pipe being cut by the traveling wheels and secured with a chain through a shock absorber and a tension mechanism. After turning on the drive, the running wheels move the cutting mechanism. Cutter down manually with the help of a screw mechanism and deepen it to the full cutting of the pipe. The drive stops and the device is transferred to a new location.

The advantage of this analog is small dimensions, rigidity of the cutter feed, even cut layer.

The disadvantage is the need to dig a trench along the entire length of the pipeline being replaced, especially if the route passes under busy streets, buildings, railways and highways.

A device for cutting and replacing pipe sections in pipelines [3], adopted for the prototype. It contains a housing, an attachment unit for thrust or cable and a device for breaking the old pipeline. Its body is made with a front step, an adapter and a rear step for placing and fixing the front end of the new pipeline at its end, and the device for breaking the old pipeline is made in the form of a cutter with a pointed blade tilted in the direction of the working movement of the device and installed on the front step and housing adapter. The diameter of the old pipeline D, the outer diameter D _{1 of the} rear stage, the diameter of the front end of the new pipeline D ₂ and the outer diameter of the front stage D ₃ are related by: D ₁ ≥D = D ₂ > D ₃ . The diameter D _{3 of the} front step, the height “H” from the top of the cutter to the front step, and the outer diameter of the old pipeline are related by the relation: D ₃ + H> D. The angle of inclination of the cutter blade is chosen within α = 12 ÷ 43 °, and the angle of suspending the cutter β is selected within β = 25 ÷ 48 °.

The advantage of this device is to increase the reliability of work compared to analogues, as well as the possibility of replacing an underground pipeline without digging out a trench from the surface.

The disadvantage is that with its use it is almost impossible to extract the old pipeline to the outside. This is due to the fact that the extraction to the surface by pulling out the spent pipeline with one cut, as in the prototype, is impossible because of the strong circular effects of compression and adhesion of densely packed rock across the entire outer surface of the pipe.

The present invention is to eliminate the disadvantages of analogs and prototypes when using their advantages.

This task is achieved by the fact that in a device for extracting elements of pipes from exhaust pipelines, comprising a housing with a front stage, equipped with an assembly for securing an exhaust cable; an adapter and a rear stage, a device on the front stage and a sub for cutting the spent pipeline in the form of two or more cutters with pointed blades inclined towards the working movement of the device and cutting the pipe into two or more separate parts, the outer diameter of the spent pipeline D ₁ inner diameter D, outer diameter of the front part of the body D ₂ , outer diameter of the rear stage D _{3 of the} body are related by: D> D ₁ > D ₃ > D ₂ ; the outer diameter of the front stage D ₂ , the height "H" of each of the peaks of the cutters to the front stage and the outer diameter D of the spent pipeline are related by: D ₂ + H>D; the angles of inclination of the blades of the cutters are selected within α = 10 ÷ 50 °, and the angles of suspension of the blades of the cutters are selected within the limits β = 24 ÷ 50 °. This decision is due to the fact that when the pipe is divided into two or more parts, a new effect arises - the radial pressure of the rock on each of the cut sections of the spent pipeline recovered separately from the outside, as well as the individual braking friction that prevents each of the separated sections from being pulled out reduce the force of stretching N ₁ ÷ N _i applied to each of the ends of these sections.

An even greater effect of reducing the force of stretching N ₁ ÷ Ni, separate sections of the pipe separately occurs when, instead of two cutters, the device is equipped with three or more cutters. Cut areas under pressure from the surrounding rock fall into the former pipe space. In this case, the force of friction of the contacting rock on the force of elongation of each individual section of the spent pipeline is further reduced even more.

Thus, the proposed device is equipped with a stepped body, the front of the entry part of which is equipped with a fastening unit, such as a cable, a thrust adapter-ledge to accommodate the cutting device of the old pipeline. It is equipped with two or more cutters with pointed blades inclined towards the working movement of the device. In this case, the rear part of the body is made with a diameter close to the internal diameter of the obsolete pipeline being cut.

List of figures drawings.

The figure 1 shows the proposed device for the extraction of pipe elements from spent pipelines. In figure 2 - the same, in longitudinal section, passing through its axis. In figures 3, 4, 5 shows the cross-section aa, bb, bb, revealing the stage of the occurrence of the proposed device in the cavity of the cut-off pipe.

If it is necessary to center the front stage 1 relative to the inner surface of the obsolete pipeline being cut, it is possible to install a centralizer 8 of any known shape, for example, a cylindrical, with a curvilinear or continuous intermittent contact surface, with a continuous or intermittent cross section, as shown conventionally in FIG. 2. The front stage 1 has an outer diameter D ₂ smaller than the diameter D _{1 of the} rear stage 3 (D ₂ <D ₁ ) and is connected to the latter with a rigid adapter 2, corresponding in size to the end of stage 1 and the beginning of the stage 3. All three steps have a common axis. On the ledge of the adapter 2 there are two (fig. 4) or more cutters 9 with pointed blades 10 (fig. 1, 2, 5, 6, 7, 8, 9, 10, 11) inclined in the direction of the working displacement and projecting by "H" above the surface of stage 1 with the condition (D ₂ + H)> D for each cutter. Such cutters, resembling shark fins in shape, provide, when moving a device inside an obsolete pipeline, uproar effects along its surface, initially crushing and lifting the fracture zone with wedge-shaped incisors at a certain height - h (Fig. 4), and then ripping it from the inside, like a knife for opening metal cans (Fig. 5). A change in the angle of inclination α of the blade 10 makes it possible to multiply increase the limits of the breaking force F arising on the tips of the blades of the cutters 9 in the planes passing through the axes of their symmetry. Providing the same traction force N _{i of the} cable, on the tops of the wedge-shaped blades of each cutter, different amount of ripping efforts arise. For example, when the angle of inclination is α = 10 ° (Fig. 6), the force F is more than 5 times greater than this force N by the well-known parallelogram rule of balancing forces on a wedge -

Fα _i = 5,88N (Fig. 6). As the angle α increases, the magnitude of the tractive effort N increases significantly. At α ₂ = 30 ° Fα ₂ = 2N (Fig. 7), and at α ₃ = 50 ° Fα ₃ = 1.3 N (Fig. 8).

Significant impact on the magnitude of the traction force, cutting the outgoing pipeline, also has the angle β of the wedge-shaped blades of the cutters 10, on the edges of which, by the same well-known rule, the balancing force on the wedge with the application of the tractive breaking force N on the edges of each acute wedge with the angle of suspension at the top β develops the forces F ₁ and F ₂ , which are a multiple of the self-breaking force F (Fig. 9, 10, 11). For example, at β = 20 °, each of the same balancing breaking forces F ^/ and F ^// , applied perpendicular to the wedge faces, is almost three times the axial force F. F ^/ _β1 = F ^// β1 = 2.88 F (Fig. 9) . At β ₂ = 40 °, these lateral breaking forces F ^/ _β2 = F ^// _β2 = 1.46F (Fig. 10), and at β ₃ = 60 ° F ^/ _β3 = F ^// _β3 = F (Fig. 11 ). With an increase in the angle of suspendance β of each blade of the cutters, the lateral tearing forces decrease, but at the same time the strength properties of each wedge significantly increase.

Depending on the properties of the chosen material of cutters, diameter and thickness of pipes of an outdated pipeline, angles α of pointed blades 10 cutters 9 relative to the axis of the proposed device, as well as angles of suspension β of the blades (Figs. 2, 6, 7, 8) in each specific application case are selected experimentally. Experiments show that, in various applications, the angles of intervals α = 10 ÷ 50 °, and the angles β = 25 ÷ 50 ° allow you to choose the best practical options.

If necessary, the surface of the wedge-shaped blades can be coated with any known protective coatings applied by any known methods.

The device works as follows. According to the total length of the obsolete pipeline, the necessary sections are established, the length, calculated in tens or hundreds of meters. At the ends of these sections, trenches are dug up until the pipe is exposed to bar with convenient for work dimensions in depth and width, with slopes from the beginning and end of the sections. Both ends of the pipeline section selected along the length are cut off, for example, with a gas cutter. Through the replaceable section of the outdated pipeline being cut by any known method, for example by blowing a ball, from the start of work one end of the cable is tightened. Its other end is attached to the mount thrust on the first stage of the housing of the proposed device. When creating a traction force N from a power drive, for example, from a tractor or a winch, the proposed device for extracting pipe elements is inserted into the outdated pipeline and pulled by a cable along its entire length. At the same time cutters rip it like a can opener. The ends of each partial element obtained after cutting the pipe are re-secured from either of their ends to the cables of the same or another traction assembly, for example, a winch or a tractor. These received individual ends are pulled to the surface at once for the whole length or along the cut parts convenient for transportation.

Information sources

1. Copyright certificate №912404 class. B23D 21/00 dated 03/15/1982.

2. Copyright certificate №902991 k.V23D 21/00 from 07.02.1982.

3. RF patent №2359789 cl. W23D 21/00 dated 06/27/2009.

Claims (1)

A device for extracting pipe elements from spent pipelines, comprising a housing with a front stage with an outer diameter D ₂ , equipped with an assembly for securing a pull wire, an adapter and a rear stage with an inner diameter D ₃ and an outer diameter D ₁ and mounted on the front stage and the adapter cutting the spent pipeline with an outer diameter D, characterized in that it is provided with a centralizer to ensure the centering of the front stage relative to the inner surface of the cut spent pipeline, while the device for cutting is made in the form of at least two cutters with pointed blades inclined towards the working movement of the device, cutting the pipe into at least two separate parts, ensuring that they are pulled to the surface, and the outer diameter of the spent pipeline D, the outer diameter of the front stage of the housing D ₂ and the outer D ₁ and inner D ₃ diameters of the rear stage of the housing are related by: D> D ₁ > D ₃ > D ₂ .

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