RU2037326C1 - Device for cleaning liquids - Google Patents

Abstract

FIELD: separation of liquid mediums from dirt. SUBSTANCE: device has a stator in the form of a conical cylinder with tangential inlet branch pipe and central outlet tube with drain branch pipe. There is a rotor in the cylindrical part of the stator supported in bearings for rotation. Ring magnets are axially mounted upward inside the rotor. Ends of each magnet carry discs whose hubs are punched to form alternating bulges and teeth. There are also cups made of magnet conducive material the central hole of which coincide with the hole of magnet. The rim bent toward the magnet is rigidly attached to the rotor. The rotor is placed inside a housing the upper end-wall of which is fixed to the central outlet tube to form a close magnetic circuit. The rotor can be driven by a wedge-belt transmission. Impurities are separated into collector via a branch pipe. EFFECT: higher efficiency. 4 dwg

Description

 The invention relates to techniques for cleaning current media, in particular to devices for cleaning liquids.

 The closest in technical essence and the achieved technical result to the described is a liquid purification device containing a cylindrical stator with a tangential similar pipe, a central discharge pipe and a drain pipe, as well as a rotor with a magnetic system in the form of permanent magnets spaced along the stator mounted on a cylindrical section of the body.

 However, this device does not provide high efficiency of liquid purification, because it does not allow it to be cleaned of ferromagnetic particles, conductive particles and water.

 The technical result, to which the invention is directed, is to increase its efficiency by ensuring the purification of the liquid from the above impurities.

 To achieve the specified technical result in a device for cleaning liquid containing a cylindrical stator with a tangential inlet pipe, a central outlet pipe and a drain pipe, as well as a rotor with a magnetic system in the form of permanent magnets spaced along the height of the stator mounted on a cylindrical section of the housing, permanent magnets are made ring, while the device is equipped with a casing placed outside the rotor and rigidly connected by means of the end part with the Central outlet pipe, and by means of nozzle-mounted nozzles mounted on the ends of each magnet, one of the nozzles being made in the form of a spiral disk with a hub, the surface bounding the hole of the hub and facing the surface of the stator made with recesses, and the other nozzle made in the form of particles with a central hole coinciding with the hole of the magnet, and the rim bent towards the magnet and rigidly connected to the rotor.

 In FIG. 1 is a longitudinal sectional view of a liquid purification device; in FIG. 2 ring magnet assembly with nozzles; in FIG. 3, section AA in FIG. 1; in FIG. 4 scheme of coagulation of particles of contaminants when passing through a magnetic field.

 The liquid purification device comprises a cylindrical stator 1 with a tangential inlet pipe 2, a central discharge pipe 3 and a drain pipe 4. A rotor 7 is mounted with the possibility of rotation on the cylindrical section of the stator 1 through bearings 5 and 6. Ring magnets spaced axially spaced along the stator are mounted on the rotor. 8. At the ends of each magnet there is a nozzle 9 made of magnetic material, made in the form of a disk resting on top of the end face of magnet 8, the hub 10 of which is made with an opening, with openings 11 and alternating teeth 12. The teeth 12 are located along a helical line (Fig. 2) and surround the stator 1 with a radial clearance to create a considerable magnetic flux from a magnet at a considerable height determined by the angle of inclination of the helical line. The nozzle 13 is made of a magnetic material in the form of a bowl, the central hole of which coincides with the hole of the magnet 8, and the rim 14 bent towards the magnet is rigidly connected to the rotor 7. The latter is enclosed by a casing 15, the upper end wall of which is attached to the pipe 3 to form together with it and magnets 8 of a closed magnetic circuit. The rotor drive can be carried out using a V-belt transmission 16. The collection of contaminants is carried out using the pipe 4 in the drive 17.

 The device operates as follows. A liquid contaminated with various impurities / metallic magnetic and non-magnetic particles, sand, moisture particles, etc., is supplied through the tangential pipe 2 to the stator 1. At the same time, using the drive, the rotor 7 is rotated in a direction opposite to the direction of rotation of the liquid when it is supplied through the nozzle 2. This direction of rotation of the rotor is necessary to create a significant speed of particles relative to magnetic power magnets. As a result of the occurring electrodynamic phenomena, a potential difference arises of a double layer of particles of the same direction with subsequent mutual attraction of unlike charges. As a result of this, coagulation / enlargement / of particles occurs, an increase in mass and, accordingly, centrifugal force acting on the enlarged particle (Fig. 4).

 Under the action of centrifugal force, both enlarged particles and particles with initially significant mass are thrown onto the walls of the stator 1 and are carried away by the fluid flow to the drain pipe 4, from which they are displaced into the accumulator 17.

 Thus, an increase in the efficiency of liquid purification when using this device is achieved, since it allows purification of the liquid from the above impurities.

Claims (1)

 A LIQUID CLEANING DEVICE comprising a cylindrical stator with a tangential inlet pipe, a central outlet pipe and a drain pipe, as well as a rotor with a magnetic system in the form of permanent magnets spaced along the height of the stator, mounted on a cylindrical section of the housing, characterized in that the permanent magnets are circular, while the device is equipped with a casing located outside the rotor and rigidly connected by means of the end part with the Central outlet pipe, and magnetic conductors, mounted on the ends of each magnet, and one of the nozzles is made in the form of a spiral disk with a hub, while the surface bounding the hole of the hub and facing the surface of the stator is made with recesses, and the other nozzle is made in the form of a cup with a central hole coinciding with the hole of the magnet , and a rim bent towards the magnet and rigidly connected with the rotor.

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