RU2691367C1 - Device for cleaning of pipeline cavity - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to cleaning of internal cavity of pipelines, can be used in municipal services and oil and gas industry. Device for cleaning of pipeline cavity contains hollow housing arranged on branch pipe for feeding reagent with possibility of rotation with unit of reagent output into cavity of cleaned pipeline, drive of device movement along pipeline and rotation drive. Hollow housing is made cylindrical and consists of interconnected rear (1) and front (10) parts equipped with appropriate end covers (2 and 3) fixed with the help of bolts. In the rear part there is a unit for rotation of the housing, and in the front part there is a unit for outputting reagent into the cavity of the cleaned pipeline, which contains blocks of nozzles and seals stuffed with covers, and a unit of cutters (20) is additionally installed on the front end face in direction of device movement. Both parts of the housing are installed on the connected tightening coupling (4) connected to the supply pipe of the reagent with possibility of rotation around it by means of bearings (5) installed in the rear part of the housing with spacer bushing (6) between them and closed with glands (7). Hollow coupling sleeve is made with collar and is equipped with installed on it threaded bushing (8), passed through hole of rear end cover, by means of which the hollow coupling sleeve is clamped in the cylindrical housing with a gap between the wall of the front end cover and the end of the coupling collar, formed by the collar, to ensure rotation of the housing. Drives of rotation and movement of the device along the pipeline are formed by a unit of nozzles connected to the cavity of the front part of the housing, which is in turn connected with the cavity of the coupling. At least two nozzles (12) of the unit are located diametrically and tangentially installed in opposite sides to form reactive torque. Axes of two symmetrically located nozzles (11) are inclined relative to device longitudinal axis in the direction opposite to its displacement. On the surface of the rear part of the housing there are helical grooves (21) intended for removal of destructed drifts.

EFFECT: higher efficiency and quality of completely silted pipelines.

1 cl, 3 dwg

Description

The invention relates to the purification of the internal cavity of pipelines, can be used in utilities, oil and gas industry and is aimed at improving the performance of cleaning.

A device for removing deposits from the cavity of the pipeline, containing a hollow body with a pipe for supplying a working agent and an annular cavity with an elastic wall, is installed in the housing along its axis with the possibility of reciprocating movement of the valve with a flat focus on the end, spring return valve, jet nozzles made in the housing, the channels for supplying the working agent in the annular cavity and the channels for the output of the working agent in the front during moving part of the device (USSR Author's Certificate No. 14 84392 A1, priority date 06.11.1987, publication date 07.06.1989, author Borger VG, RU).

The disadvantages of analogue are low performance, due to low productivity and low quality of cleaning, because the device does not remove solid deposits that require significant mechanical effects, and the spool end, which prevents its movement, can significantly slow down the movement of the device along the pipeline, reducing this is the cleaning performance.

Known reactive head for cleaning the inner surface of the pipeline, equipped with a percussion mechanism and containing installed with the possibility of rotation and longitudinal movement of the cutting head, placed on the plugged end of the nozzle rigidly connected with the shank, equipped with nozzles of longitudinal movement, and the percussion mechanism is made of two parts with cutting step spiral on their ends facing each other, with one part mounted on the shank, and the other on the cutting head (Patent RF №2077964 C1, the date of Rétite 10.03.1994, publication date 04/27/1997, authors: Ezhov VA and Kholodny AV, RU).

The disadvantage of this analog is its complexity, due to the design of the percussion mechanism.

A device for cleaning the internal cavity of the pipeline, containing a tip with cutting edges mounted on a shaft with blades, housing, jet, turbine, pressure chamber and pipe for supplying the working agent, while the turbine chamber is made in the form of a hollow cylinder mounted inside the pressure chamber, and has holes in the side wall for the directional supply of the working agent to the blades and shaft rotation (Patent RF №2292965 C1, priority date 07.07.2006, publication date 10.02.2007, author Tolstov EL, RU).

A disadvantage of the known analog is the low quality of cleaning due to the central location of the tip with cutting edges, which does not allow even with the possible movement of the entire device in a spiral to effectively clean the compacted layers adjacent to the walls of the pipeline.

It is also known a device for cleaning a pipeline cavity, containing a washing head connected with a supply hose with a turbine installed in its cavity with tangential nozzles ensuring its rotation, the front end of the turbine is made with central and radial holes communicating with the turbine cavity and provided with a nozzle with end face a mill and a jet head with nozzles, providing an increase in the torque of the mill (Patent of the Republic of Belarus No. 8620 C1, priority date 01.19.2004, publication date 10/30/2006, authors: A. Khomyakov et al., BY).

The disadvantage of this analogue is the presence of a stepped drive rotation of the cutter, complicating the design of the device due to the large number of nozzles, as well as increased consumption of washing agent, due to the flow in the central part of the cutter and in the washing head.

As a prototype, a device for cleaning the cavity of the pipeline is taken, which contains a pipe for supplying a working agent, a hollow body placed with it for rotation, with inclined nozzles in front of the device moving, a device moving actuator along the pipeline and a rotational drive, while the inclined nozzles are connected to the inlet pipe working agent by means of kinematic transmission to enable their synchronous rotation around axes parallel to the axis of rotation of the body, with periodic intersection m all axes of nozzles on the rotational axis (USSR Author's Certificate №1734890 A1, priority date 18.04.1989, publication date 23.05.1992, authors: Maystruk SP et al, RU, prototype.).

The disadvantage of the prototype is low performance when you need to remove solid deposits that require significant mechanical effects for their destruction and removal, as well as the complexity of the design, due to the presence of nozzles installed in the housing, kinematically connected with the supply pipe of the working agent to perform planetary movements.

The technical problem solved by the invention is to improve the cleaning performance of fully silted pipelines.

To solve this problem, a device is proposed for cleaning the pipeline cavity containing a hollow body placed on the reagent supply pipe for rotation with a reagent outlet unit into the cavity of the pipeline being cleaned, a device moving drive along the pipeline and a rotation drive. According to the invention, the hollow body is cylindrical, consisting of interconnected back and front parts, equipped with corresponding end caps, fixed with bolts, one of which is rear, and the other front, connecting the rear and front parts of the body and made in the form of a tube with flanges at the ends. A block of body rotation is formed in the rear part, and a reagent outlet unit is assembled in the front part into the cavity of the pipeline being cleaned, which contains blocks of nozzles and glands preloaded with covers, and an additional unit is installed on the front end in the device moving direction. Both parts of the housing are mounted on a hollow coupling sleeve connected to the reagent supply pipe and can be rotated around it using bearings mounted in the rear part of the housing with a spacer sleeve between them and closed glands. In this case, the hollow coupling sleeve is made with a collar and provided with a threaded sleeve mounted on it, passed through the opening of the rear end cover, with which the hollow coupling coupling is clamped in a cylindrical housing with a gap between the wall of the front end cover and the end of the hollow coupling coupling formed by the collar for ensure the rotation of the body. Drives of rotation and movement of the device along the pipeline are formed using a block of nozzles connected to the cavity of the front part of the housing, which in turn communicates with the cavity of the turnbuckle. Moreover, at least two nozzles in the block are diametrically and tangentially mounted in opposite directions to form reactive torque, and the axes of two symmetrically arranged nozzles are inclined with respect to the longitudinal axis of the device in the direction opposite to its movement. In addition, on the surface of the rear part of the body there are screw grooves designed to remove the destroyed drifts.

FIG. 1 schematically shows a device for cleaning a pipeline cavity, general view, longitudinal section; in fig. 2 is a section A-A in FIG. one; in fig. 3 - the device, top view.

The drawings show the following notation: 1 - the back of the hollow cylindrical body; 2 - rear end cap; 3 - front end cap; 4 - hollow coupler; 5 - bearings; 6 - spacer sleeve; 7 - epiploons; 8 - threaded sleeve; 9 - bolts for fastening end covers on the rear part of the body; 10 - the front part with the nozzle block; 11 - nozzle inclined to the axis of the device to provide longitudinal movement of the device; 12 - tangential nozzle; 13 - a gland of a high pressure; 14 - cover; 15 - low pressure oil seal; 16-cap; 17 - cover for fixing glands; 18 - bolts for fastening the cover 17; 19 - bolts for fastening the end cap 3 to the nozzle block; 20 - block cutters, representing the crowns; 21 - screw grooves.

Device for cleaning the cavity of the pipeline contains a prefabricated hollow cylindrical body consisting of interconnected rear 1 and front 10 parts with fastened on them with bolts 9 and 19 corresponding end caps 2 and 3. The front end cap 3 is made in the form of a tube with flanges at the ends for connecting both parts of the housing, which are placed on the hollow coupling sleeve 4 attached to the reagent supply pipe with the possibility of axial rotation around it. To do this, a rotation block is assembled in the rear part 1 of the housing; the block is rotated through bearings 5, which are disassembled by sleeve 6. The bearings are sealed with glands 7. At the same time, the hollow coupler 4 is made with a collar and provided with a threaded sleeve 8 mounted on it, passed through an opening in the rear end cap 2, with which the hollow coupling sleeve is clamped in the housing 1 with a gap between the wall of the front end cover 3 of the housing and the end face of the hollow coupling coupling 4 formed by the said shoulder to ensure rotation of the housing. Drives of rotation and movement of the device along the pipeline are formed using a block of nozzles connected to the cavity of the front part 10 of the housing, which in turn communicates with the cavity of the coupling sleeve 4. Moreover, at least two nozzles 12 are arranged diametrically and tangentially installed in opposite directions for the formation of reactive torque, and the axis of the two symmetrically located nozzles 11 are inclined with respect to the longitudinal axis of the device in the direction opposite to its movement. In the front part of the housing 10 assembled node output of the reagent into the cavity of the cleaned pipeline through the nozzles 11, 12. To do this, in the front part 10 of the housing also installed high-pressure water seal 13, which is pressed by a cover 14. A low pressure seal 15 is installed behind the cover 14, which is pressed the lid 16. The gland block is fixed by the lid 17 and screws 18, and with the help of bolts 19 and the flange of the front end cap 3, the rear 1 and the front 10 of the hollow cylindrical body are interconnected to rotate around the hollow coupler 4. In addition, The front part of the housing 10 at the front end in the direction of movement of the device has a cutter unit 20. Screw grooves 21 are made on the surface of the rear part 1 of the housing.

A device for cleaning the cavity of the pipeline works as follows. The device prepared for operation is introduced into the pipeline, and a working agent is fed into the cavity of the coupling coupling 4 by the working agent under pressure to the nozzles 11 and 12. The jet of the working agent under pressure leaves the nozzles 11, whose axes are inclined to the longitudinal axis of the device. The pressure of the working agent coming out of the nozzles 11, provides the forward movement of the device forward. A jet of working agent under pressure also exits nozzles 12, the axes of which are located tangentially to a circle. The pressure of the working agent coming out of the nozzles 12, provides rotational movement of the device. The jets directed in opposite directions create rotation of the hollow cylindrical body around the turnbuckle 4.

During rotation, the cutter 20 destroys the drifts and plugs of the cavity of the pipeline. The jet of working agent emerging under pressure from the nozzles 11, 12, remove the remnants of drifts from the inner surface of the pipeline and clean it. During rotation of the hollow cylindrical body, the destroyed drifts are removed from the zone of operation of the device with the help of helical grooves 21 on the rear part 1 of the body.

Thus, the technical result achieved by the invention is to expand the arsenal of technical means, namely, devices for cleaning the cavity of the pipeline, to improve the performance and quality of cleaning completely silted pipelines.

Claims (1)

Device for cleaning the cavity of the pipeline, containing placed on the pipe supply reagent with the possibility of rotation of the hollow body with the output node of the reagent in the cavity of the cleaned pipeline, drive movement of the device along the pipeline and the rotational drive, characterized in that the hollow body is cylindrical, consisting of interconnected back and the front parts, equipped with corresponding end caps, fastened with bolts, one of which is rear, and the other front, connecting the rear and front the bottom of the case and made in the form of a tube with flanges at the ends, a block of rotation of the case is formed in the back part, and in the front part there is an assembly for withdrawing the reagent into the cavity of the cleaned pipeline containing blocks of nozzles and glands preloaded with covers, and additionally installed on the front end in the direction the device moves the cutter unit; both parts of the housing are mounted on a hollow coupling coupling connected to the reagent supply pipe, with the possibility of rotating around it with the help of bearings mounted in the rear part of the housing a ported bushing between them and closed glands, while the hollow coupling coupling is made with a collar and provided with a threaded bushing mounted on it, passed through the hole of the rear end cover, with which the hollow coupling coupling is clamped in a cylindrical housing with a gap between the front end cover wall and the end face hollow coupling formed by a flange to ensure rotation of the housing; rotational drives and movements of the device along the pipeline are formed using a block of nozzles connected to the cavity of the front hour These bodies communicating, in turn, with the cavity of the coupling coupling, at least two nozzles in the unit, are diametrically and tangentially mounted in opposite directions to form reactive torque, and the axes of two symmetrically arranged nozzles are inclined with respect to the longitudinal the axis of the device in the direction opposite to its movement, in addition, on the surface of the rear part of the body there are screw grooves designed to remove the destroyed drifts.

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