RU184285U1 - DEVICE FOR CLEANING THE INTERNAL SURFACE OF PIPES - Google Patents

Abstract

The inventive utility model relates to equipment for the oil industry, and can be used to clean the industrial surface of the pipe from deposits. The technical result is the creation of a simple, reliable device that allows you to increase the area of the jet on the inner surface of the pipe, thereby ensuring high quality cleaning. A device for cleaning the inner surface of the pipes consists of a housing with a central axial channel and openings for the outlet of the washing fluid, a housing displacement assembly, a bearing assembly for rotation, characterized in that swirls of the fluid flow are used as openings for the outlet of the washing fluid, made in the form spiral metal pipes, at the end of which slotted nozzles are installed, directed to the inner surface of the pipe at a distance of 1-10 mm from the surface being cleaned. 2 ill.

Description

The inventive utility model relates to equipment for the oil industry, and can be used to clean the industrial surface of the pipe from various deposits.

A known installation for cleaning the inner surface of tubing (patent for a utility model of the Russian Federation No. 147406, IPC V08V 9/053, publ. 10.11.2014), containing a housing with a Central axial channel and with lateral radially placed windows for washing output liquids arranged in several rows along the axis of the housing, a housing displacement assembly provided with a threaded connector for connection, a bearing assembly to enable rotation of the housing.

The disadvantage of this device is that it has a complex structure that does not provide reliable effective cleaning.

The closest set of essential features to the claimed utility model is a pipe cleaning device (utility model patent No. 170648, IPC BVB 9/027, publ. 05/03/2017), comprising a housing with a central axial channel and lateral radially placed for the outlet of the cleaning fluid, the hole, the node to move the housing and the bearing assembly to allow rotation.

However, this device is not technologically effective, because in the process of removing contaminants, the length of the jet increases, resulting in a decrease in its energy and cleaning ability.

The problem to which the claimed utility model is directed is to create a simple, reliable device that allows to increase the area of the jet impact on the inner surface of the pipe, thereby ensuring high quality cleaning.

This task is achieved by the fact that in the proposed device for cleaning the inner surface of the pipes, comprising a housing with a central axial channel and openings for the outlet of the washing liquid, a housing displacement assembly, a bearing assembly for allowing rotation, in contrast to the prototype, as openings for the outlet of the washing fluid swirl fluid used in the form of spiral metal pipes, at the end of which slotted nozzles are installed, directed to the inner surface of the pipe at a distance 1-10 mm from the surface to be cleaned.

The combination of design features of the inventive device for washing pipes allows for effective cleaning due to multiple and powerful hydroblows on the inner surface of the pipe caused by the collapse of cavitation bubbles generated during the passage of washing liquid through a distance of 1-10 mm between the surface of the tubing and slotted nozzles.

The utility model is illustrated by drawings.

In FIG. 1 shows a General view of the device.

In FIG. 2 shows a section along line AA.

A device for washing the inner surface of the pipes comprises a housing with a central axial channel 1, a housing displacement assembly 2, a bearing assembly 3, fluid flow swirls 4 with slot nozzles 5.

A device for cleaning the inner surface of the pipes as follows.

The washing liquid is supplied to the central axial channel of the housing 1, then it flows out from the swirls of the fluid flow 4 through slotted nozzles 5 to the pipe walls located in front of the nozzles. A narrow stream of liquid exiting through the slotted nozzles 5 creates the effect of a “hydraulic knife” cutting off thick deposits from the pipe walls (hydrocarbon deposits, asphalt-resin-paraffin, salt, scale, etc.). The movement of water along the swirls 4 creates a reactive moment, due to which the housing 1 begins to rotate around its axis, thus ensuring uniform cleaning of the pipe. The swirl diameter and nozzle cross-section are selected so that cavitation occurs only at the nozzle exit when the washing fluid moves along them.

The spent cleaning fluid, together with the separated sediment particles, enters the pipe cavity, from where it is carried to the surface. Thin layers of dirt remaining on the walls that are difficult to remove are removed due to the energy released when the cavitation bubbles collapse directly on the pipe walls. Cavitation bubbles are formed in a jet of washing liquid during passage of slotted nozzles 5 and collapse within a few tens of microseconds after exit.

Further, the device is pushed into the pipe due to the displacement unit 2, and the process of cleaning the inner surface of the tubing continues.

Thus, the use of the proposed utility model improves the quality of cleaning the inner surface of the pipes.

Claims (1)

A device for cleaning the inner surface of the pipes, comprising a housing with a central axial channel and openings for the exit of the washing fluid, a housing displacement assembly, a bearing assembly for rotation, characterized in that fluid swirls made in the form of openings for the output of the washing fluid are made in the form spiral metal pipes, at the end of which slotted nozzles are installed, directed to the inner surface of the pipe at a distance of 1-10 mm from the surface being cleaned.

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