RU2484352C2 - Method to replace pipes in pipelines - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method includes arrangement of local pits for exposure of a pipe, cutting of its end sections and their replacement with new sections. Within the length of the pipeline at the distance of around 100 and more metres from each other, there are two local pits dug, sections of the old pipeline are cut at their borders. In the first pit a pneumatic-mechanical machine is installed with a drive from a compressor station, providing for pneumatic-mechanical breakaway (shift) of the replaced section of the pipeline from the soil that surrounds it and its movement towards the second open pit for the length of around 0.5 metre. Then the pneumatic-mechanical machine from the first pit is removed, in the second pit a hydraulic plant is mounted with a drive from a hydraulic station, with the help of which stack rods are pulled in direction towards the first pit through the pipe cavity. At their end from the side of the first pit there is a thrust adapter mounted, an expander (if necessary) and a swivel, to which a new pipe is fixed. In the second pit the other end of stack rods is pressed in the hydraulic plant, which pushes the old pipe towards the second pit and simultaneously pulls the new pipe into the produced well-hole to bring its ends to the place of connection into the pipeline.

EFFECT: reduced labour costs with trenchless replacement of damaged sections of metal pipelines.

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Description

The present invention relates to the construction of pipelines and can be used for cutting and replacing pipes in pipelines.

A known method for cutting damaged sections of pipes of existing trunk pipelines (Copyright certificate No. 902991 of 02/07/1982, class. B23D 21/00), adopted for the analogue. This method is carried out by a device containing a drive, a trolley with wheels, on which a milling cutter is connected, connected with the drive and wheels of the trolley through a mechanical transmission, and a chain with rollers covering the pipe. The drive transmits torque to the cutting mechanism - the milling cutter through the central wheel of the internal gearing, the satellite and the internal gear. The trolley is moved by means of running wheels and secured by a chain through a shock absorber and a tension mechanism. After turning off the drive, the running wheels move the cutting mechanism. The cutter is brought down with a screw mechanism and deepened until the pipe is completely cut. After that, the drive stops and the device is moved to a new location.

The advantage of this analogue is small dimensions, rigidity of the cutter feed, an even cut layer, high cutting performance. The disadvantage is the need to dig a trench along the entire length of the replaced section of the pipeline, especially if the route passes under busy streets, buildings, railways and roads.

There is another method for replacing an underground pipeline (RF Patent No. 2062941 dated 06/27/1996, CL F16L 55/18), also taken as an analogue. Unlike the previous analogue, the method is used for trenchless replacement of pipeline sections from brittle materials (ceramics, cast iron, asbestos cement, etc.) during the repair and reconstruction of underground utilities. This method is carried out by a device containing a cylinder head with a socket for accommodating the front end of a new pipeline and a device for destroying the old pipeline, a container communicated with a percussion mechanism placed between it and the head, while part of the outer surface of the head is conical, a device for breaking the old the pipeline is placed in the head or in front of the container connected to the percussion mechanism by radial ribs; windows are made in the side walls of the container.

The disadvantage is that it is necessary to destroy in place a completely old pipeline of brittle materials with high resistance to destruction and movement of debris.

There is also a method of replacing an underground pipeline (German Patent No. 362,026 from 09.24.1987, class. E21B 7/20, E21b 7/28), adopted as a prototype. In this method, a cylinder head with a socket is used to accommodate the front end of the new pipeline, a device for destroying the old pipeline, made in the form of a cutting milling head and a screw mechanism, placed in the old pipeline. At its front end, the head covers the old pipeline. When the milling head rotates, the latter destroys the old pipeline, and its fragments, together with the adjacent soil, are transported by a screw into the receiving pit. As the old pipeline collapses, the tip moves forward, pulling the new pipeline into the ground.

The advantage of this method is that there is no pollution of the soil mass and groundwater.

Disadvantages - cumbersome, high energy intensity of crushing the old pipeline, the unreliability of transporting its fragments by a screw mechanism. The prototype is not capable of destroying an old pipeline with a viscous structure.

The technical result of the present invention is to eliminate the disadvantages of analogues and prototype.

The technical result of the proposed method is achieved in that the replacement of pipes in pipelines consists of the following operations.

A method of replacing pipes in pipelines involves performing local pits to expose the pipe, trimming its end sections and replacing them with new sections. Over the length of the pipeline, at a distance of about 100 and more meters from each other, two local pits are dug, sections of the old pipeline are cut off along their borders, a pneumatic impact machine is installed in the first pit, driven by a compressor station, providing pneumatic impact separation (shift) of the replaced section of the pipeline from the surrounding its soil and moving it towards the second open pit for a length of about 0.5 meters, then the pneumatic hammer machine is removed from the first pit, in the second pit I mount A hydraulic unit is installed, driven by a hydraulic station, with the help of which stacked rods are pulled through the pipe cavity towards the first foundation pit; at their end, from the side of the first foundation pit, a stop adapter, an expander (if necessary) and a swivel, for which a new pipe is fixed, are mounted, in the second pit, the other end of the stacking rods is clamped in a hydraulic installation, which pushes the old pipe towards the second pit and simultaneously draws it into the formed well Hole a new pipe until its ends reach the junction in the pipeline.

As a pneumatic impact machine, for example, a CO pipe clogging machine manufactured by the Odessa Plant of Construction and Finishing Machines (COM) can be used.

The advancement of a new pipe towards the second pit can be carried out, for example, using the UPN-630 hydraulic unit installed in the second pit and pushing out the replaced pipe to the wall of the second pit, while at the same time drawing into the formed hole the UPN-630 installation rods fixed on the opposite end expander, swivel and new pipe section.

The operating procedure is as follows. A stop shield is placed on the wall of the second pit, and a plate for the UPN-630 hydraulic installation (not shown) is placed at the bottom. Near the second pit is a hydraulic mobile station with a pressure hydraulic hose. From the side of the second foundation pit, through the cavity of the pipe, at first, stacked rods are pulled (extended). In the first pit, at the end of the stacking rods, an expander (if necessary) and a swivel are mounted, for which a new pipe is fixed. The other end of the stacking rods is clamped by a hydraulic unit, which then extends the old pipe towards the second pit and at the same time draws a new pipe of the same or increased diameter into the formed hole-hole.

As the old pipe moves in the second pit, the stacked rods are unscrewed sequentially, and sections of the old pipe are cut and dismantled. With the help of an expander, the diameter of the hole in the soil can increase to increase the diameter of the installed new pipe, which is very important, for example, when replacing low-rate gas pipelines with more modern, higher-rate ones.

Thus, long sections (of the order of 100 meters or more) of the decommissioned pipeline are replaced with new ones without opening the trench between the pits, which is especially important in the presence of complex and stressful transport sections of the roadbed over the pipelines and the need to stop mass transport in urban conditions .

The list and description of the figures of the drawings.

Figure 1 shows the conditional diagram of preliminary stragging and pushing a separate section of the old pipeline.

Figure 2 shows a schematic diagram of the sequential extraction of the old section and tightening a separate section of the new pipeline.

In figure 1, the position 1 denotes the space of the first pit; position 2 - the space of the second pit; 3 indicates the trenchless sections of soil above the replaced section of the old pipeline 4; 5 - pneumatic impact machine; 6 - a guide for a pneumatic impact machine (for example, in the form of a plate with a part of a pipe of the corresponding diameter welded to it cut off along the generatrices of the cylindrical part); 7 - compressor station; 8 - pressure pneumatic hose.

2, reference numeral 9 denotes a hydraulic installation. Towards the first excavation pit, pull rods 10 are pulled through the cavity of the pipe. In the first excavation pit, the stop adapter 11, the conical expander 12 (if necessary) and the swivel 13, for which the new pipe 14. is fixed, are mounted on the end of the ramp rods. installation 9, driven by a hydraulic station 15, which pushes (retracts) the old pipe towards the second pit and simultaneously draws a new pipe 14 into the resulting hole-hole, as it moves I, in the second pit, the stacking rods are sequentially unscrewed, and sections of the old pipe 16 are cut off and dismantled. When the new pipe 14 completely replaces the old one in length, the hydraulic installation rises from the second foundation pit, and the end of the new pipe joins the ends of the working pipeline.

Professionals using the proposed method, it should be clear that the proposed version of the method can be modified, the equipment can be replaced by another known, not going beyond the main features of the invention.

The successful use of equipment samples for the proposed method provides replacement of sections of a length of the order of up to 100 and more meters with pipe diameters of up to 500 mm and more.

The possibility of carrying out the invention is confirmed by successful field trials of a method for replacing pipes in pipelines of the present invention.

Claims (1)

A method of replacing pipes in pipelines, including performing local pits for exposing the pipe, cutting its end sections and replacing them with new sections, characterized in that two local pits dig along the length of the pipeline at a distance of about 100 or more meters from each other, sections of the old the pipeline along their borders, in the first foundation pit, a pneumatic impact machine is installed with a drive from the compressor station, providing pneumatic impact separation (shift) of the replaced section of the pipeline from the surrounding g the rune and moving it towards the second open pit for a length of about 0.5 m, then the pneumatic hammer machine is removed from the first pit, a hydraulic unit is mounted in the second pit with a drive from the hydraulic station, with the help of which, in the direction of the first pit, the type-setting is pulled through the pipe cavity rods, at their end from the side of the first foundation pit, a thrust adapter, an expander (if necessary) and a swivel are mounted, for which a new pipe is fixed, while in the second foundation pit the other end the set-up rods are clamped in a hydraulic installation, which pushes the old pipe towards the second pit and at the same time draws a new pipe into the formed hole-hole until its ends reach the junction in the pipeline.

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