SU921644A1 - Apparatus for cleaning pipeline inner surfaces - Google Patents

Description

The invention relates to the cleaning of pipelines and can be used to clean sewer networks and other pipelines.

A device for cleaning pipelines containing nozzles with an outlet and jet nozzles located in the radial plane and the associated working agent supply system [1} is known.

The disadvantage of this device is its low efficiency when cleaning various diameters with different degrees of pollution, as the main ones. ₁₅ of its parameters (diameter of the front and rear openings, the angle of inclination of back holes to the working body axis and the number of rear inclined holes) are not changed, and for _x tive effect work on pipes with different diameters cleaning device must be equipped with a large number of interchangeable nozzles.

The purpose of the invention is to increase the cleaning efficiency and expand the possibility of its use.

This goal is achieved in that it has a sleeve mounted on the nozzle with several rows of jet nozzles of different diameters, and the sleeve is mounted on the nozzle with the ability to control its movement in the axial and tangential directions to align the nozzle nozzles with the corresponding row of nozzle nozzles.

In this case, the nozzles on the sleeve are made with different angles of inclination.

In addition, the device has a washer with holes of different diameters located around the circumference, installed with the possibility of combining its holes with the nozzle outlet.

In FIG. 1 shows a device for cleaning the inner surface of pipelines, side view with partial

5 * longitudinal section, in FIG. 2, section AL in FIG. 1, FIG. 3 ~ view B in FIG. V, in FIG. 4 - section B * B in FIG. 1.

The device consists of a nozzle 1 5 with a number of rear holes 2 and a front hole 3 "of the sleeve 4 and the water supply sleeve 5 · In the sleeve 4 there are three rows of holes 6-8, which are respectively inclined at 10 different angles L,, 1. and 4 ^ к its axis. In each row of 6–8 there are some hole groups 9-12, respectively ·· - ~ with various diameters d.,. . SC and d d .. In the housing of the bushings 5 Fik-1S sator, which consists of a locking screw 13, a spring 14 and a ball 15. On the outer surface of the cup 1, longitudinal 16 and segment 17 grooves are provided, on which there are sockets yes 18 under the ball 15 · On the front of the nozzle 1, a washer 20 with four holes 21 of different diameters is fixed with a bolt 19. On the puck and court pus nozzle risks 22 and 23 · 23 are applied

A device for cleaning pipelines works as follows.

Before starting work, depending on the diameter and degree of siltation of the pipes being cleaned, the necessary device parameters are determined, and then they are installed, which is carried out as follows. Unscrewing the screw 13 reduces the compression force of the spring 14, after which, by rotating the sleeve 4 and moving it along the axis, combine the row with the required diameter of the rear inclined holes with the corresponding angle of inclination to the axis and a number of holes in the nozzle. In this case, the ball 15 moves along the segment 17 and longitudinal 16 ka. Navkam with weak fixation in each position in the slots 18. After the sleeve is installed in the desired position, the screw .. screw 13 is screwed to the stop, which ensures complete fixation of the position of the sleeve 4 relative to the nozzle 1.

After setting the necessary parameters (diameter and angle) of the rear inclined holes, the required diameter of the front hole is set, for which the bolt 19 is unscrewed and turned around>: the axis of the washer 20 is set so that the required hole 21 coincides with the front hole 3 of the nozzle 1. The coincidence from the versts is controlled by means of figures 22 and 23 and their mutual position is fixed by tightening the bolt 19 to failure,

After setting the parameters of the holes, the device is introduced into the cleaned pipeline and the discharge pump is turned on. Water under high pressure flows through the water supply sleeve 5 into the internal cavity of nozzle 1, from where it comes through a series of rear holes 2 and groups; / οτ ~ · ~ 'ρπτκ · 7 of the row 6, 7, 8 and through the front hole 3 of nozzle 1 and holes 21 washers 20 with great energy flow into the cavity of the cleaned pipeline. In this case, the front water jet erodes deposits located in front of the nozzle, and the back inclined jets - deposits located on the periphery of the pipe and impart a reactive subgrade to the device.

Some of the sediment remaining in the pipes is removed during the reverse course of the treatment device when winding the water supply sleeve onto the drum of the machine.

The slurry formed during the cleaning process flows into the control and inspection well or into a pit specially opened on the drainage line, from where it is pumped to the surface using a pump installed on the machine.

The device allows you to clean .pipelines of different diameters (70 ~ 800 mm) with one nozzle without the use of replaceable hydro-jet heads, which increases the productivity of the device and reduces the cost of cleaning.

Claims (3)

I The invention relates to the cleaning of pipelines and can be used to clean sewer networks and other pipelines. A device for cleaning pipelines is known, comprising nozzles with an outlet orifice and jet nozzles, arranged in a radial plane and connected with it a supply system for a working agent Cll The disadvantage of the device is low efficiency when cleaning different diameters with different degrees of contamination, since the main parameters (diameter of the front and rear holes, the angle of the rear holes to the axis of the working body and the number of rear inclined holes) are not effective. ; to-th tive work on cleaning pipelines of various diameters, the device should be equipped with a large number of interchangeable nozzles. The purpose of the invention is to increase the cleaning efficiency and expand its applicability. This goal is achieved in that it has a sleeve mounted on the nozzle with several rows of jet nozzles of different diameters, the sleeve being installed on the nozzle with the possibility of controlling its movement in the axial and tangential 10 directions to align the nozzle with the corresponding number of sleeve nozzles. The nozzles on the sleeve are made with different angles of inclination. 15 In addition, the device has a washer with openings of different diameters located around the circumference, mounted with the possibility of combining its opening with the outlet opening 20 nozzle. FIG. 1 shows a device for cleaning the internal surface of pipelines, side view with a partial 332 longitudinal section, for fng. 2 is a cross section A-L in FIG. 1, FIG. 3, view B in FIG. 1, in FIG. k is a section bb of FIG. 1. The device consists of a nozzle 1 with a series of rear openings 2 and a front opening 3 of the sleeve k and the water supply sleeve 5. Three sets of holes 6–8 are made in the sleeve k, which are respectively inclined at different angles L,, i, j and Jv to its axis In each row 6-8 there are -im-hipe. groups of holes 9-12-respectively with different diameters and d j .. 6 sleeve housing installed ::: 5 JMKsator, which consists of c; ate: screw screw 13, springs 1h and Ш5р1 - ;: 1; а 15. On the outer surface of the cup 1 ei: longitudinal polyenes 16 and T segment: ae 17 grooves on which there are slots 18 for the ball 15- At the front of us Board 1 with the bolt 19. The washer 20 was fastened with four holes of 21 different diameters. Risks 22 and 23 are applied to the washer and the corus nozzle. The device for cleaning pipelines operates as follows. Before starting work, depending on the di-shera and the degree of sedimentation of the truo to be cleaned, the necessary parameters of the device are determined, and the installation of them is carried out, which is carried out in the following way. Unscrewing the screw 13 reduces the spring compression force, after which, rotating the sleeve A and moving it along the axis, align the row with the required diameter of the rear inclined holes with the corresponding angle of their inclination to the axis and the number of holes in the top of the KB. At the same time, the ball 15 moves along the segment G / and longitudinal 16 edges, with weak fixation in each position in the slots 18. After the sleeve has been set to the desired position, the locking screw 13 is screwed up to the stop, thus ensuring that the sleeve 4 is fully fixed relative to the nozzle 1. After installation of the Required parameters (diameter and angle of inclination) of the rear of their inclined holes, the required diameter of the front hole is set for what is not. . About revolutions BUBi.itMHBaeTCfl bolt 19 and turning BOKpj,: the axis washer 20 is set so that the required hole 21 coincides with the front hole 3 nozzle 1. The matching of the KOHTponvipyercn holes with the | 22 and 23 h 3fo ii) i mutual fixation We set up a bol 19 to a failure. After setting the parameters of the holes, the device is inserted into the pipeline being cleaned and the pressure pump is turned on. Water under a large airflow through the water supplying sleeve 5 enters the internal cavity of the nozzle 1, from where through a number of rear openings 2 and groups:; / at the front ;; ::. Ratio p 6, 7. 8 i / through the front opening 3 of the nozzle 1 and the openings 21 of the washer 20 with greater energy expire into the cavity clean - pipe. At the same time, the front stream of water erodes sediment, located in front of the nozzle, and the rear inclination of the HBie jet - sediment i located at the periphery of the pipe. and inform the device reactive ggu. Some of the sediment honor left in the pipes is removed when the cleaning device reverses when the water supply hose is wound onto the machine drum. The slurry formed from the cleaning process flows into a control and inspection well or into a hole that is open spontaneously on the drainage road, from where it is cast onto the day surface with the HELP: pump installed on the machine. The device allows cleaning pipes of different diameters (70,800 mm) with a single nozzle without the use of replaceable hydraulic heads and their heads, which improves the performance of the device and reduces the cleaning efficiency. The formula of the invention 1. A device for cleaning the internal surface of pipelines, containing nozzles with each hole and jet nozzles, arranged in a radial plane and a working agent supply system associated with it, characterized in that it has an installed on the nozzle there is an atula with several rows of jet nozzles of different diameters, and the sleeve is installed on the nozzle with the possibility of controlling its movement in the axial and tangential direction in order to combine the Active nozzles attachment with a corresponding range of nozzle sleeves. 2. The device according to claim 1, about tl and that the nozzles on the sleeve are made with different angles of inclination. 3. The device according to claim 1, of which it is intended that, in order to expand its applicability, it has a washer with openings of different diameter, located around the circumference, installed with a possible, gyu alignment of its hole with the outlet nozzle. Sources of information taken into account during the examination 1. Shaternik M.P., T ha hydro-jet nozzle in the drain. Proceedings of VNIIMESH Non-chernozem zone of the USSR, vol. 10, Minsk, 1972, p. 87-88. F1 / g.1 .