RU2290266C1 - Method for cleaning inner surface of tubes - Google Patents

Abstract

FIELD: techniques for trench-free cleaning of inner surfaces of tubes, possibly of different-designation pipelines such as water supply conduits, sewage, pressure and gravity-flow pipelines in municipal service and also for cleaning drains of industrial plants, in oil production and other branches of industry.

SUBSTANCE: method comprises steps of mechanically separating deposits from pipeline surfaces and removing deposits out of cleaning zone. Plant for horizontally directed drilling is used for cleaning pipelines. Said plant has tie rods that are preliminarily introduced into pipeline. Expander and scraping brush are successively joined to tie rods. Then translation and rotation movements are imparted to tie rods and to devices joined with them for moving tie rods and devices joined with them in opposite direction.

EFFECT: enhanced efficiency of cleaning.

4 cl, 1 dwg, 1 ex

Description

The invention relates to a technology for trenchless cleaning of the inner surface of pipes and can be used for cleaning pipelines for various purposes: water supply, sewage, pressure and gravity pipelines. The invention can be used both by utilities, and for wastewater treatment of industrial enterprises, oil and other industries, where there is the issue of cleaning the inner surface of pipelines.

A known method of cleaning the inner surface of the pipes, in which the device, made in the form of a cylindrical body with protruding cutters, is pulled along the pipe with a winch and the impurities are cut off by cutting edges. If there are insurmountable obstacles and the impossibility of moving the device forward, it is removed from the pipe in reverse (see RF patent No. 2124953, IPC 6 V 08 V 9/04, 1999).

The disadvantages of this method are the need to remove the cleaning pipe of the device in reverse, the duration of the cleaning process, because the cut-off layer of contaminants formed in front of the device makes it difficult to further advance the device through the pipeline, which leads to a decrease in the cleaning rate. In addition, the use of a winch does not allow to achieve great traction and to clean heavily contaminated pipelines or pipelines overgrown with roots growing on the surface of plants.

A known method of cleaning the inner surface of pipelines, which consists in moving the working body containing the turbine and the working body, made in the form of a brush, along the pipeline under the influence of the pressure of the fluid transported through the pipeline (see RF patent No. 20100632, IPC 5 V 08 V 9/04, 1994).

The disadvantage of this method is the length of the cleaning process, the use of a device that is complex in design, the need to create a fluid pressure to move the device along the pipe. In addition, this method does not allow to achieve great traction and to clean heavily contaminated pipelines or pipelines overgrown with roots growing on the surface of plants.

A known method of cleaning the inner surface of the pipe, which consists in the mechanical separation of deposits from the surface of the pipeline and removing deposits from the cleaning zone. Moreover, the cutting is performed with a ring cutting tool, and the cut off deposits are isolated from the surface of the pipe to prevent them from sticking (see patent No. 2048933, IPC 6 V 08 V 9/04, 1995). This decision was made as a prototype.

The disadvantage of the prototype is the difficulty of removing packaged deposits from the pipeline, the duration of the cleaning process associated with the need to stop the process for the duration of the extraction of packaged deposits from the pipe.

The problem solved by the invention is to simplify the cleaning process as much as possible while creating conditions for cleaning highly contaminated pipelines, as well as reduce the time for cleaning while maintaining the possibility of using the pipeline for its intended purpose during cleaning.

The problem is solved due to the fact that in the known method of cleaning the inner surface of the pipes, which consists in mechanically separating deposits from the surface of the pipeline and removing deposits from the cleaning zone, in accordance with the invention, a horizontal directional drilling rig is used for cleaning, the rods of which are previously introduced into the pipeline attach to them the extender and the ruff located one after another, then attach the translational-rotational movement to the rods and move the rods with attached troystvami backwards.

The direction of cleaning is chosen coinciding with the direction of natural flow in the pipelines being cleaned.

To remove deposits using water or concrete, the supply of which is carried out by a drilling rig through the drill rods.

The size of the expander is chosen less than the diameter of the pipe.

The technical result from the use of the invention lies in the fact that the use of a horizontal directional drilling rig allows to obtain great efforts capable of moving the expander and the brush, giving them a translational-rotational movement, which facilitates the removal of deposits. In addition, the efforts provided by the installation allow cleaning at high speed. Using a horizontal drilling rig allows you to use the rods of the installation to supply water or concrete, which simplifies the process of supplying the necessary liquid to remove waste.

Pulling the expander and the ruff in the opposite direction due to the drilling rig rods previously introduced into the pipeline provides for the gradual cleaning of sufficiently long sections of the pipeline while maintaining the possibility of using the pipeline during cleaning for its intended purpose.

The use of translational-rotational movement provides high-quality cleaning of the pipeline in one go and ensures the safety of the pipeline.

Carrying out the cleaning using the expander and the ruff in series with the installation rods allows you to first loosen the deposits with the expander and then clean the pipeline with the ruff, which facilitates and accelerates the cleaning process.

Comparison of the claimed technical solution with the prior art in scientific, technical and patent documentation on the priority date in the main and related sections shows that the set of essential features of the claimed solution was not known, therefore, it meets the patentability condition of “novelty”.

Analysis of the known technical solutions in the art showed that the proposed method has features that are not found in the known technical solutions, and using them in the claimed combination of features makes it possible to obtain a new technical effect, therefore, the proposed technical solution has an inventive step in comparison with the prior art .

The proposed technical solution can be used, it is workable, feasible, reproducible, therefore, meets the patentability condition "industrial applicability".

The drawing shows a scheme for cleaning pipelines in a trenchless manner using horizontal directional drilling rigs.

To implement the method, a horizontal directional drilling installation with additional devices attached to it is used.

The following is an example implementation of the method.

Installation of horizontal directional drilling 1 is installed on the surface of the earth. The rods 2 of the horizontal directional drilling rig are introduced into the pipeline 3 either from the prepared foundation pit, or from the surface through the wells of the system to be cleaned using the location system. The length of the rods is designed to clean a specific section of the pipeline. In the input well 4 to the rod 2, an expander 5 is attached with a diameter slightly smaller than the inner diameter of the pipe for loosening sediments 6 (in the form of sludge, roots, etc.) and a ruff 7 of cylindrical shape with metal brushes. After attaching the expander 5 and ruff 7, through the rods 2 these devices are given translational-rotational motion. Moreover, the direction of translational movement is selected in the direction of the drilling rig 1. During movement along the pipeline, the expander 5 loosens deposits, and ruff 7 performs mechanical cutting and cleaning of the inner surface of the pipes from various deposits. To remove sediment from the pipe, water or bentonite is used, which trap sediment particles and are moved by a ruff to the outlet well in the form of pulp 8. The water or bentonite is supplied by the drilling rig 1 through the drill rods 2, but in some cases it is advisable to use an additional water supply from the inlet well . The choice of water-bentonite depends on the composition of the sediment being cleaned. Ruff due to the powerful translational-rotational movement moves the pulp to the output well.

The cleaning direction is chosen so that it coincides with the direction of the natural effluents in the pipeline, while ensuring the stability of the pipeline for its intended purpose.

Claims (4)

1. The method of cleaning the inner surface of the pipes, which consists in mechanically separating deposits from the surface of the pipeline and removing deposits from the cleaning zone, characterized in that a horizontal directional drilling installation is used for cleaning, the rods of which are previously introduced into the pipeline, an expander located one after another is attached to them and ruffs, then give the rods and the devices connected to them a translational-rotational movement and move the rods with the attached devices in the opposite direction ii. 2. The method according to claim 1, characterized in that the cleaning direction is chosen coinciding with the direction of the natural flow in the cleaned pipelines. 3. The method according to claim 1, characterized in that for the withdrawal of deposits using water or concrete, the supply of which is carried out by the drilling rig through the drill rods. 4. The method according to claim 1, characterized in that the size of the expander is chosen less than the diameter of the pipe.