CS242036B1 - Cascade separator - Google Patents

Abstract

The purpose is to solve the problem of separating a mixture consisting of material particles of different sizes into electrically conductive and electrically non-conductive parts. The stated purpose is achieved by displacing the input chute (4) relative to the output chute (5). Their linear electric motors (8), (81) are mounted under both chutes (4), (5). A linear electric motor (82) is adjustable in the upper part of the separator support frame, which is mirror-inverted relative to the output linear electric motor (81).

Description

The present invention relates to a cascade separator and to the resolution of a mixture of particulate matter of different size into electrically conductive and non-conductive parts.

So far, separators have been known which separate electrically conductive from electrically non-conductive particles. These separators operate on the principle of self-excitation of eddy currents by passing a magnetic field consisting of rod magnets in which the magnetic polarity is alternately changed.

Separators are also known, provided with a transversely disposed linear motor suspended under a rubber conveyor, which also excites an electromotive force in the electrically conductive part, which then transports the particulate matter off the flow of the separated mixture.

A disadvantage of the first embodiment of the solid magnet separator is that the ferromagnetic particles are permanently trapped on the separator and must be removed subsequently. A disadvantage of the linear motor separators located below the rubber conveyor is that it only removes particles that come into contact with the linear motor over a large area, while the rugged and small particles pass through the electromagnetic field of the linear motor without noticeably reacting to this field.

These drawbacks are overcome by the cascade separator according to the invention, consisting of a stand, to which a support frame consisting of a hopper and a chute is attached, under which an input linear electric motor is arranged. It is an object of the invention that a height offset chute is arranged downstream of the inlet chute, under which the output linear electric motor is mounted. At least one linear electric motor, which is mirror-inverted with respect to the output linear electric motor, can be adjusted in the upper part of the support frame.

An advantage of the cascading separator according to the invention is that it has a preferential arrangement of the inlet and each other linear motor offset with respect to other separators with the addition of at least one mirror-mounted upper linear motor which increases the overall efficiency of the separator. such as solid household waste, sheared cables, shredded electrical appliances as well as granular and powdered ceramics to be stripped of metallic and electrically conductive components.

The cascade separator according to the invention is illustrated by way of example in the drawing, in which Fig. 1 is a longitudinal section of the separator and Fig. 2 is a plan view from above showing the direction of movement of the electrically non-conductive particles by long lines.

The cascade separator in the exemplary embodiment according to the invention consists of a stand 2, which is connected by a bearing 21 and an adjusting screw 22 to a support frame formed in the upper part by a hopper 3 and an inlet chute 4 under which an inlet linear electric motor 8 is mounted. a side-by-side support frame is provided with a side chute 6, the outlet portion of which extends above the first container 10. The outlet chute 5 extends above the second container 9. From above, the support frame is provided with a cover 7. According to an alternative embodiment, a linear electric motor 82, which is mirror-inverted with respect to the output linear electric motor 81, is adjustable in the upper part of the support frame.

The mixture to be separated is conveyed to the hopper 3 from where it slides over the flexible cover foil of the inlet chute 4 into the space above the inlet linear electric motor 8. From the inlet chute 4, the appropriately positioned electrically conductive particles move to the side chute 6 while remaining cascade 12, with a height offset K formed by an offset of the input linear electric motor 8 and each of the following output linear electric motor 81, which causes a change in the position of the mixture particles and allows further separation of the remaining electrically conductive particles from lower chute 5 to lateral chute 6 from which it is collected in the first container 10, while the remaining electrically non-conductive part is collected in the second container 9, or is transported to a downstream processing device. The electric field at the exit of the cascading separator is reinforced by another upper linear electric motor 82 located mirror-mounted above the output linear electric motor 81 so as to create a spatial effect of both fields, thereby further increasing the overall efficiency of the cascade separator. The movable cover ensures the flow of the mixture

7. The power supply is via terminal block 11.

Claims (2)

SUBJECT A cascade separator comprising a stand to which a support frame consisting of a hopper and an inlet chute is attached, under which an inlet linear electric motor is arranged, characterized in that a height offset outlet chute (5) is arranged behind the inlet chute (4). an output linear electric motor [81) is mounted. VYNALEZU A cascade separator according to claim 1, characterized in that at least one linear electric motor (82), which is mirror-inverted with respect to the output linear electric motor (81), is adjustable in the upper part of the support frame.