SU1667928A1 - Electromagnetic iron separator - Google Patents

Abstract

This invention relates to magnetic separation, and b. used to remove magnetic impurities from the bulk material. The purpose of the invention is to increase the efficiency and reliability of the separator. The iron separator contains an electromagnetic system with two pole tips (PN) 3, located on the pipeline (TP) 4 of a nonmagnetic material. In TP 4, a discharge window is made, covered by a cover 13. Inside the TP 4, opposite spring 3, rotary spring-loaded dampers 9 and 10 are installed with elements of magnetically soft material. Lower in the course of the material movement, the flap 10 is connected to the rotary cover 13. The material containing ferromagnetic inclusions is moved in the TP 4, where they are removed by an electromagnetic system. When the current is disconnected, the valve 9 closes TP 4, the valve 10 closes TP 4, simultaneously opening the edge 13. Ferromagnetic inclusions are removed through the open window in TP 4. 1 il.

Description

The invention relates to magnetic separation, mainly intended for the separation of small ferromagnetic particles from granular and dusty material.

The aim of the invention is to increase the efficiency and reliability of the separator.

The drawing shows an embodiment of the iron separator (the dotted line shows the position of the dampers in the reset position of the extracted inclusions).

The iron separator contains an electromagnetic system including a U-shaped bracket 1 and two coils 2, pole pieces 3 made with a hyperbolic profile in the gap. Hyperbolic surfaces smoothly mate with the planes that outline the body of the tips in other areas. The pipeline 4 is made rectilinear and rectangular in section from non-magnetic material. The pipeline 4 is connected to the bracket 2 of the electromagnet so that the pole pieces 3 are hermetically inserted into the plane of the pipeline, the gap between the tips 3 is also covered by a non-magnetic wall 5. The rotary valve 6 is made of non-magnetic material in the form of a segment and is pivotally mounted on one of the tips 3 around an axis perpendicular to the axis of the pipeline. The damper 6 is mounted on the lever 7, is equipped with an element 8. made in the form of a plate of soft magnetic material, and is spring-loaded with a spring 9. The rotary damper 10 is made in the form of a flat tray, forming an angle less than 20 ° with the pipe axis, spring-loaded with a spring 11 and provided with an element 12 in in the form of a plate of soft magnetic material parallel to the axis of the hinge and forming the pole pieces. A rotatable cover 13 is tightly connected to the shutter 10, which hermetically closes the window in the pipeline. To output the extracted ferromagnetic inclusions under the window is a collection of 14 extracted items.

The iron separator is installed so that the axis of the pipeline 4 is vertical, the coils 2 are fed with direct current, the processed bulk material - flour, grain, animal feed and the like - is continuously fed into the pipeline 4.

In this case, the following occurs: the elements 8 and 12, due to the action of pond romotor forces on them, are pressed to the surface of the pole pieces 3, overcoming the resistance of the springs 9 and 11, respectively, while the shutters 6 and 10 are removed from the passage channel of the pipe 4 and the material being processed falls past the gap electromagnet, where ferromagnetic inclusions are extracted from it, which are collected in the narrowest part of the gap between the tips 3, where it is blocked by the wall 5.

Unloading of the electromagnet from the extracted items occurs each time the network is turned off, including random.

To rationalize the unloading process, the mass ratios of the elements 8 and 12, their removal from the gap, and the stiffness of the springs 9 and 11 are selected experimentally so that the shutter 6, when the network is disconnected, is activated 1-2 seconds earlier than the shutter 10 (ferromagnetic objects fall out of the gap 5-30 s after turning off the network - depending on the size of the electromagnet). .

After disconnecting the network, the shutter 6 first interrupts the flow of material into the separation zone, then the shutter tray 10 closes the pipe channel below and at the same time the cover 13 moves away from the pipe wall, opening a window in the pipe. The extracted ferromagnetic particles, previously located in the gap between the tips, fall out of it, are poured onto the choke tray 10 and then through the window into the collector 14.

Claims (1)

Formula of the invention An electromagnetic iron separator comprising an electromagnetic system mounted on a pipeline of non-magnetic material with pole pieces located in the direction of movement of the source material, an unloading window for outputting the extracted ferromagnetic inclusions, made in the pipe wall and covered by a rotatable cover, characterized in that, in order to increase efficiency and reliability in the operation of the iron separator, it is equipped with two spring-loaded rotary dampers with elements of ma soft material installed in the pipeline opposite the pole pieces, the lower flap being connected with the pivoting cover.