SU1548581A1 - Device for laying pipeline - Google Patents

Abstract

The invention relates to the construction and can be used in the construction of the linear part of the main pipelines. The purpose of the invention is to increase the permeability on any type of soil by using frame supports with telescopic stands. The device consists of a bed 1, mounted on a suspended support 2, carrying suspension 4, covering pipe 3 and equipped with traveling wheels 5. Telescopic beams 6 of the suspension frame 4 are connected to telescopic struts 7 having supporting parts 8, which are made removable and equipped with a mechanism for changing them support surface. The suspended support 2 has an axial displacement drive. The device works as a unit with similar devices during welding, installation, and insulation and laying. The devices are hung on the pipeline 3. In the working condition, each device is supported by telescopic poles on the ground and keeps the pipeline at a predetermined height above the design axis. The devices move along the pipeline 3 on the traveling wheels 5 alternately, preliminarily lifting the supporting parts 8 above the ground surface. 3 hp f-ly, 3 ill.

Description

The invention relates to construction and can be used in the construction of the linear jaws of trunk pipelines.

The purpose of the invention is to increase the maneuverability of the device in any type of soil by using frame supports with telescopic pillars.

FIG. 1 shows the device installed on the pipeline; in fig. 2 - supporting part of the frame stand for weakly bearing soils; in fig. 3 - device in the complex of mechanisms for the construction of the pipeline.

The device consists of a bed 1, mounted on a suspended support 2, and mounted on it, covering the pipe 3 suspension 4 with the wheels 5.

The suspended support 2 is made in the form of a frame, the telescopic rigs 6 of which are connected to the telescopic pillars 7 having supporting parts 8. The latter are equipped with a mechanism for changing their bearing surface and are made removable. The cylindrical leg 9 of the support part 8 is made with a cone 10 (FIG. 2) and a cup 11 with which the support legs 13 are pivotally connected with a spring-loaded conical disk 14 movably mounted on the rack 9 by means of hinges 12.

The support legs 13 are made with elastic elements, by means of which they are pressed against the conical disk 14. Suspended support 2 has an axial displacement drive (not shown), as well as an energy unit 15 and an operator cabin 16. The device is complete with similar devices during welding and assembly positioning work is indicated by the position 17. Depending on the diameter of the pipeline 3, its geometric and strength characteristics, the mass of the process equipment and suspended supports 2 determine the size of the spans I do them.

In working condition, each device 17 (Fig. 3) is supported by telescopic struts on the ground and holds the pipeline 3 at a predetermined height above the design axis. In each span of pipeline 3, one piece of technological equipment is hung.

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When welding annular joints, for example, by an arc method, in spans between devices 17, a device 18 for joining pipes with welding posts inside the housing, a self-propelled platform 19 with welding posts for making a facing layer, a self-propelled platform 20 for non-destructive testing of welded joints by physical methods a drying machine 21, a cleaning machine 22, an insulating machine 23, and an installation 24 for excavating, which is kinematically connected to the pipeline 3. The pipes are fed to a free end face The device 18 for docking pipes, equipped with a mechanism 25 gripping pipes. For the development of soil on land, excavators with interchangeable actuators are used, which are installed depending on the type of soil, and one or several small dredgers are installed in the swampy and flooded area.

The devices 17 move along the pipeline 3 on the traveling wheels 5 alternately, preliminarily lifting the supporting parts 8 above the ground surface. In this case, the first device 17 is moved to the next head joint after the completion of welding work inside the case of the device 18 for joining the pipes. The devices 17 are interconnected by a remote control system. Machinery and equipment of technological equipment move through pipeline 3 in the spans between devices 17 in accordance with their

technological speeds. i

The complex, together with the technological equipment, is capable of moving both over land, and over the flooded areas and marshes; when approaching such areas, the telescopic legs 7 are provided with pontoons or supporting parts 8 with a variable bearing surface area.

The choice of the type of support part 8 depends on the depth of the obstacle. For shallow depths of the swamps, it is advisable to rest the device 17 on the underlying soil, which ensures high stability of the devices. In this case, when extending the telescopic racks 1, each stop 10 pierces a layer of peat and upon reaching the underlying soil pressure on the bottom plane is lightweight

The disk 14 grows and it moves upward along the cylindrical rack 9, opening the supporting legs 13 at the interface of weak and solid soils. Upon reaching a footprint sufficient to hold pipeline 3, the immersion of the bearing part into the ground ceases. In case of accidental subsidence of the soil, the supporting feet 13 perform the functions of safety elements. When lifting the support part 8, all elements return to their original position, clearing each other.

The telescopic bolts 6 of the suspended supports 2 in the working state are moved apart by a length that ensures the stability of the devices. In the case of local obstacles along the track, the length of the telescopic girders 6 varies, and the telescopic struts 7 rest in selected places. If there is a ready-made trench, the set of devices 17 allows building the pipeline 3 with the telescopic ribs 6 apart, with the telescopic struts 7 supported on the berm of the trans-, neck

The inclusion of devices and technological equipment in the work is carried out as you increase the pipeline 3 and move them forward. During the construction of the pipeline 3, it is self-laid in a trench.

The set of devices 17 provides a high fit-pipe system — supports in the terrain, as it allows to compensate times /

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five

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five

personal irregularities of the construction strip and move on any type of soil and establish the specified angle of inclination of the constructed pipeline 3.

The use of a set of devices 17 makes it possible to eliminate the seasonality of the construction of trunk pipelines, reducing the need for pipe laying cranes.

Claims (4)

1. Device for laying the pipe wire, made in the form of a bed with with a suspended support and an axial displacement drive mounted on it and a suspension covering the pipeline with running wheels, characterized in that, in order to increase the permeability on any types of soil, the suspended support is made in the form of a frame, the deadbolt of which is equipped with telescopic struts with supporting parts. 2. The device according to claim. Characterized in that the deadbolt of the frame is made telescopic. 3. A device according to claim 2, characterized in that the supporting parts of the frame posts are provided with a mechanism for changing their bearing surface. 4. The device according to claim 1, about tons of l and chayutses in that the supporting parts of the frame pillars are made in the form of pontoons.