RU206328U1 - MAGNETOGRAVITATION SEPARATOR - Google Patents

Abstract

The utility model relates to the separation of materials in liquids and can be used, in particular, in the treatment of liquids and gases to separate particles with magnetic properties. Magnetic gravity separator containing an inlet, an outlet, a non-magnetic body, a cover, a magnetic field source, which is made in the form of a rod, contains a petal brake, and the rod is removable and magnetized longitudinally along its entire length by several pairs of NS poles, in addition, the inlet and outlet are connected by a bypass , and the entrance is made with fittings with centripetal guides, while the inner cavity forms a toroidal structure. Thus, in the proposed device, the medium is processed using only one multi-pole longitudinal magnetization of the magnetic rod, and the working medium has a multiple trajectory of movement around and along the rod, which gives a longer processing time and a better quality of medium processing. 5 fig.

Description

The utility model relates to the separation of materials in liquids and can be used, in particular, in the treatment of liquids and gases to separate particles with magnetic properties.

The closest to the claimed utility model is a magnetic gravity separator, including a magnetic system, in the pole gap of which there is a separation chamber filled with a ferromagnetic liquid, a feeder and receivers of separation products, the separator is equipped with a separation plate located in a layer of ferromagnetic liquid, and also contains a device for removing light fraction in the form of a non-magnetic screw with a drive, (RF patent for utility model No. 200543, publ .: 28.10.2020, IPC V03S 1/32)

The disadvantage of the known solution is that the proposed design has a low efficiency for the treatment of liquids and gases, not providing rotation of the medium in more than one plane.

The problem to be solved by the claimed technical solution is the creation of a magnetic gravity separator, which ensures the removal, mainly, of particles with a dimension of 0.1 to 0.25 microns.

The technical result consists in increasing the processing time and improving the quality of processing the environment due to the fact that the working environment has a multiple trajectory of movement around and along the rod.

The technical result is achieved by the fact that the magnetogravitational separator, containing an inlet, an outlet, a non-magnetic body, a cover, a magnetic field source, which is made in the form of a rod, contains a petal brake, and the rod is removable and magnetized longitudinally along the entire length by several pairs of NS poles, in addition , the inlet and outlet are connected by a bypass, and the inlet is made with fittings with centripetal guides, while the inner cavity forms a toroidal structure.

The design of the proposed technical solution is shown schematically in the images, where

in fig. 1 general view of a magnetic-gravity separator;

in fig. 2 is a longitudinal section of a magnetic gravity separator;

in fig. 3 is a top view of a magnetic gravity separator;

in fig. 4 is a cross-section showing in particular a petal brake;

in fig. 5 separately schematically shows the bypass, where position 10 (three-way valve) corresponds to position 5 (outlet), and position 11 (three-way valve) corresponds to position 6 (inlet).

The claimed technical solution can be implemented in the design of a magnetic-gravity separator, including: housing 2, inlet 6, outlet 5, petal brake 7, rod 8, bypass 9, cover 14. The images also show flange 1, flange 3, bushings 4, three-way valves 10, 11, bolted connection 12, O-ring 13. Fittings with centripetal guides are not shown and can be made in any way known from the prior art.

The magnetic gravity separator is designed and operates as follows.

The magnetic gravity separator contains an inlet 6 and an outlet 5, which can be made by any method known from the prior art, as well as a non-magnetic body 2, a cover 14 and a magnetic field source, which is made in the form of a rod 8. There is also a petal brake 7. The rod 8 is removable and is magnetized longitudinally along its entire length by several pairs of NS poles. Inlet 6 and outlet 5 are connected by bypass 9. Inlet 6 is made with fittings with centripetal guides. The inner cavity forms a toroidal structure bounded by the petal brake 7, the walls of the body 2 and the rod 8.

The working medium enters through the fitting 6 of the lower flange 1 into the cavity along a centripetal trajectory, forming in the inner space of the magnetic gravity separator between the walls of the housing 2 with a petal brake 7 with a rod 8 a toroidal structure rotating in two planes and, at the same time, located in the zone of the magnetic field and gravity of the Earth. Paramagnetic particles, which are in the working medium in a toroidal structure, rotate, repeating the trajectory of motion in two planes, and are deposited on the rod 8, which has a multiple number of poles. Large particles settle under the influence of centripetal acceleration, and small ones - under the influence of gravity. The working medium is decelerated by a petal brake 7 and leaves the magnetic gravity separator through the fitting 5 of the upper flange 3 (the upper cover 14 is attached to the flange 3) by a bolted connection 12 through an O-ring 13, the magnetic rod 8 is fixed inside the upper cover 14, which has a hole, using a sleeve 4 threaded connection, fittings of inlet 6 and outlet 5 through three-way valves 11 and 10 are connected by bypass 9.

Thus, in the proposed device, the medium is processed using only one multipolar longitudinal magnetization of the magnetic rod, and the working medium has a multiple trajectory of movement around and along the rod, which gives a longer processing time and a better quality of medium processing.

Claims (1)

Magnetic gravity separator containing an input, an output, a non-magnetic body, a cover, a magnetic field source, which is made in the form of a rod, characterized in that it contains a petal brake, and the rod is removable and magnetized longitudinally along the entire length by several pairs of NS poles, in addition, the input and the outlet are connected by a bypass, and the inlet is made with fittings with centripetal guides, while the inner cavity forms a toroidal structure.

Images