SU1278302A1 - Device for magnetic treatment of suspensions - Google Patents

Abstract

The invention relates to devices for the magnetic treatment of water systems, can be used in the national economy to intensify various technological processes and to ensure the stability of the device by cleaning the channels clogged with coarse material. The device comprises a housing 1 with inlet 2 and outlet 3 nozzles. Inside the case there are stationary 4 and movable 7 magnetic systems. The movable magnetic system is equipped at the end with a piston 13 and installed in the chamber 6 with the possibility of moving n axially with S SRI. The chamber is connected to the water pipe by a triple crane. Movement along the (L of the moving magnetic system is limited to screwing into the side walls of the chamber with pins. 3 or about 90

Description

The invention relates to devices for the magnetic treatment of liquids and suspensions, intended, in particular, to intensify the processes of thickening and filtering, and can be used in industry and agriculture to intensify various technological processes.

The purpose of the invention is to ensure the stable operation of the device by eliminating channel blockage,

Fig, 1 shows the device in the working position, a longitudinal section in Fig, 2 - the same, longitudinal: section; FIG. 3 is a section A-A in FIG. one.

The device for magnetic treatment of suspensions consists of a housing 1 with an inlet 2 and an outlet 3 with nozzles (Figures 1 and 2). Inside the case, fixed permanent magnets 4 and magnetic cores 5 are mounted on the top and bottom walls. In the middle of the case, a camera 6 is installed tightly to the side walls, in which, with the possibility of displacement in the axial direction, a movable magnetic system consisting of permanent magnets 7 and shaped magnetic conductor B, Chamber 6 is connected to a means of moving a magnetic system, which can be performed, for example, in the form of a choke 9 connected to a pressure pipe, on which a three-way valve 10 is mounted. The chambers 6 along the body axis are installed with guide rods 11 and stops 12. A piston 13 of rectangular section is installed at the end of the moving system.

The device works as follows.

The suspension enters the housing 1 through the inlet 2 and moves through the channels formed by permanent magnets 4 and 7 and magnetic conductor 5 and 8 (solid arrows). Due to the narrowing of the channels in height, the velocity of the suspension in sections to the minimum cross sections of channels maximum, while increasing to a maximum and ex. This is intersected by the magnetic field flux. Then, after the suspension has passed through the slits with a miniature height, its speed decreases. At the same time, the device abruptly changes to the opposite direction.

magnetic field lines (dotted arrows),

The high magnetic field gradient provides an effective magnetic treatment of the suspension, Prch normal operation of the device through a three-way valve 10 into the chamber 6 is supplied with water from the water supply system, which with pressure on the piston 13 connected to the movable magnetic system | place (working position). When large particles get into the narrow gap, the channel through which the suspension moves begins to clog. For cleaning the channel, the movable magnetic system is displaced along the axis of the device in search of suspension movement, which leads to an increase in the icanal and cleaning it with a suspension flow. To displace the sliding system, it is enough to turn the three-way valve 10 through 90. In this case, the water pressure of the piston will be equal to zero, and the flow of the suspension will move the moving magnetic system and the piston along its course. To install the moving system into position, the three-way valve turns back 90 °, while the water entering the chamber 6 presses against the piston and shifts the moving magnetic system to the working position.

The application in the proposed arrangement of a movable magnetic system makes it possible to use it, for example, at enrichment plants for magnetic processing of suspensions, in which there are large particles and various materials (for example, chips) in production.

In the absence of pressure in

5 plumbing possible mechanical version of the displacement of a movable magnetic system. For example, at the end of the chamber, a screw can be installed perpendicular to the side walls;

Claims (1)

0 one half of the thread left, and the second right. Installed (with a corresponding thread) on this screw, the bushings are connected by levers with a movable magnetic system, when rotated, the research institutes move to the device axis or side walls of the housing, displacing the movable magnetic system to the required position, 31 Formula of Invention a housing, an inlet and an outlet, and a magnetic system with ferrite magnets, forming channels formed as two communicating cavities facing one another with tapering portions in order to ensure stable operation of the device by eliminating channel blockage, it is equipped with a camera 02 located in the housing along its axis, with guide rods mounted on its rear wall, and an additional magnetic system holes coaxial with guide rods, mounted for reciprocating movement along the axis of the chamber and provided with a means for moving it and a piston fixed on its end portion from the side of the holes, and abzhena reinforced on its walls limiters.