RU192650U1 - DEVICE FOR CLEANING INTERNAL SURFACES OF PIPES - Google Patents

Abstract

The proposed device relates to sandblasting and can be used to clean the inner surfaces of the pipes. A device for cleaning the inner surfaces of pipes containing a central hollow shaft with symmetrically arranged nozzles, two shutters rigidly fixed and a supply pipe with the ability to circulate the abrasive mixture inside a sealed working area and with the possibility of moving along the pipe being processed. The nozzles are installed at an angle α to the workpiece with the possibility of rotation around a central hollow rod, and outlet pipes are placed on the shutter. The technical result consists in increasing the efficiency of cleaning the inner surfaces of large pipe lengths by installing nozzles at an angle to the surface to be machined with the possibility of rotation, as well as using a hydroabrasive fluid with the possibility of removing contaminants through the pipe. 3 s.p. f-ly, 3 Fig.

Description

The proposed device relates to sandblasting and can be used to clean the inner surfaces of the pipes.

Sandblasting and waterjet processing are used in technology for cleaning metal surfaces from various coatings, scale, rust and can be used to clean pipelines from slag that appeared during operation.

The known method and its installation for blasting the inner surface of pipe billets (patent RU 2274540 IPC B24C 3/16, publ. 04/20/2006). In the known invention, an accumulative-expendable assembly is created comprising two separately located hoppers with inkjet devices integrated inside and a piping system of the working fluid to which workpieces are sequentially attached. An abrasive-air mixture is formed in the bunkers, which is then circulated inside the processed products and discharged through a piping system. The disadvantages of this device is the difficulty of its application for processing large-sized products, as well as low productivity during cleaning due to the lack of a system for removing contaminated abrasive from the pipe.

A known invention relating to devices for cleaning the internal cavities of products by gas-liquid flow (patent RU 2414309 IPC V08B 9/032, publ. 20.03.2011). The device consists of a supply tank with a gas separator installed in it, an outlet for draining the spent washing liquid with a shut-off valve, a sampler, a pump, a suction line with a filter and a shut-off valve, and a pressure line with a swirl and a shut-off valve, a gas supply system with valves and a filter of the drain system with filter. This invention has the following disadvantages: the difficulty of washing and cleaning products of large lengths, the low cleaning efficiency of pipes of large lengths, as well as the large overall dimensions of the device, which cause difficulty in the preparation and execution of treatment works.

By the set of similar essential features, the closest technical solution to the claimed device can be selected, for example, a method and a device that implements it for processing internal cylindrical surfaces with a free abrasive (patent RU 2558782 IPC B24C l / 00, B24B 31/10, publ. 06/27/2015 ) In the known device, an abrasive-air mixture is formed in a sealed working area, which is created on a part of the machined cylindrical surface by two dampers, compressed air is supplied under a pressure of 3-10 atm through nozzles located symmetrically in the center of the working area, providing a constant circulation of the abrasive-air mixture .

A disadvantage of the known device is that it does not provide for the removal of cleaning products and contaminated abrasive material, which reduces the efficiency of cleaning pipes of large lengths. In addition, the uniformity of cleaning in diameter depends on the number and density of nozzles.

The claimed utility model was tasked with increasing the efficiency of the cleaning process for highly contaminated internal surfaces of pipes, including long ones.

The technical result of the claimed device is to increase the cleaning efficiency of the inner surfaces of pipes of large lengths by installing nozzles at an angle to the surface to be machined with the possibility of rotation, as well as the use of hydroabrasive fluid with the possibility of removal of contaminants through the pipe.

The problem is solved by the fact that a device for cleaning the inner surfaces of pipes is proposed, comprising a central hollow shaft with symmetrically arranged nozzles, two shutters rigidly fixed and a supply pipe with the ability to circulate the abrasive mixture inside the sealed working area and with the possibility of moving along the processed pipe.

New in the proposed utility model is that the nozzles are installed at an angle α to the work surface with the possibility of rotation around a central hollow rod, and outlet pipes are placed on the shutter.

Also new in the proposed utility model is that an air-abrasive mixture or a water-abrasive mixture is used as the working medium entering through the inlet pipe into the central hollow rod of the device.

New in the proposed utility model is also the fact that the nozzles are made in the form of nozzles with sprays with the ability to control the installation angle α to the work surface.

New in the proposed utility model is also that to reduce friction, the rotating central hollow rod is installed in rolling bearings mounted in the dampers.

The proposed device is illustrated by drawings: in FIG. 1 is a drawing of the device, the main view, in FIG. 2 is a drawing of the device, section AA, in FIG. 3 - drawing of the fitting complete with a spray, local view B.

The device consists of: 1 - a central hollow rod, 2 - shutters, 3 - a working area, 4 - a supply pipe, 5 - fittings, 6 - nozzles, 7 - discharge pipes, 8 - a processed pipe, 9 - rolling bearings.

The main elements of the device are the central hollow core 1 with two round shutters 2 rigidly fixed on it for sealing the working area 3. The central hollow core 1 is connected to the pump station by means of a supply pipe 4 with the possibility of feeding and circulating an air-abrasive or water-abrasive mixture inside a sealed working zones and the ability to move along the processed pipe. Symmetrically located nozzles in the form of nozzles 5 with nozzles 6 are made on the central hollow shaft 1. The nozzles 6 are installed with an angle of inclination α from 20 to 90 degrees to the pipe surface being machined. The execution of the nozzle in the form of a prefabricated design allows the replacement of the nozzles 5 when they are worn, as well as the adjustment of the angle of inclination α by replacing the nozzles 6. The outlet pipes 7 are located on the shutter 2 and allow the removal of cleaning products from the working area 3. Their number depends on the diameter of the machined pipe 8 and is selected from 1 to 6. The Central hollow rod 1 is mounted relative to the shutters 2 rotatably on bearings 9, which are housing rolling bearings and are mounted on the shutter 2 with the help of lek.

The device operates as follows.

A pipe cleaning device is introduced into the pipe 8 to be machined of a certain diameter, then an abrasive-air or waterjet mixture is fed from the pump station through the inlet pipe 4 to the central hollow shaft 1 and through fittings 5, nozzles 6 to the treated inner surface of the pipe 8. Sprayers 6 are tilted under angle α to the work surface from 20 to 90 degrees, depending on the diameter of the pipe, pressure and degree of contamination of the pipe. To improve the cleaning efficiency of pipes of different diameters and lengths, the device has the ability to adjust the angle of the nozzles 6 due to the selection of fittings 5.

The central hollow rod 1 is mounted on two rolling bearings 9 with the possibility of rotation relative to the stationary dampers 2. The rotation arises from the inertial force when pressure is applied through the nozzles 6, which are inclined at an angle α to the work surface. As a result of rotation, the flow of the abrasive-air or waterjet mixture is evenly distributed over the treated surface of the pipe 8, regardless of the number and location of the nozzles 6.

So that the cleaning products do not spread through the processed pipe 8, the cleaning is carried out in a closed cavity called the working zone 3. The working zone 3 is created by two shutters 2, which are made of polyurethane. For the removal of cleaning products using outlet pipes 7. The treatment of the extended surfaces of the pipes along the entire length, for example, trunk pipelines, is performed by moving the sealed working area along the processed pipe 8.

Claims (4)

1. A device for cleaning the inner surfaces of pipes containing a central hollow rod with symmetrically arranged nozzles, rigidly fixed by two shutters and a supply pipe, and made with the possibility of circulation of the abrasive mixture inside the sealed working area and with the possibility of movement along the processed pipe, characterized in that the nozzle mounted at an angle to the work surface with the possibility of rotation around the Central hollow rod, and on one of the valves placed outlet pipes. 2. The device according to p. 1, characterized in that the inlet pipe is made with the possibility of using as an abrasive mixture entering the Central hollow rod, air-abrasive mixture or waterjet mixture. 3. The device according to p. 1, characterized in that the nozzles are made in the form of fittings with sprays with the ability to control the angle of their installation to the work surface. 4. The device according to p. 1, characterized in that the Central hollow rod is made with the possibility of rotation and installation in rolling bearings, mounted in dampers to reduce friction.

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