SU1567271A1 - Arrangement for extracting and steeply-inclined conveying of ferromagnetic articles - Google Patents

Abstract

This invention relates to dry magnetic separation. The goal is to reduce the material consumption of the structure by increasing the angle of inclination of the extraction conveyor without reducing the extracting ability of the pulley. An inclined extraction conveyor with an electromagnetic pulley / W / 4 is installed above the horizontal feed conveyor 1. Transverse ferromagnetic partitions / П / 6 are attached to the tape / L / 5 of the retrieval conveyor and can be rotated around an axis 7 perpendicular to the longitudinal axis of the retrieval conveyor. Conveyor 1 supplies the material to the zone of action of the magnetic system Ш 4. Ferromagnetic objects 3 are attracted to Л 5, and non-magnetic material is carried away by the conveyor 1. In the zone of action Ш 4 the transverse П 6 are attracted to the surface. Due to this, the distance between L 5 and the conveyor belt 1 can be reduced to 40 - 50 mm. After exiting the zone of action Sh 4, the transverse P 6 under the action of the mass is folded back. In doing so, they form an emphasis of significant / up to 300 mm / height for ferromagnetic objects. Due to this, the angle of inclination of the extraction conveyor can be increased (up to 60 - 90 °) without reducing the extraction capacity of W 4. 2 Il.

Description

The invention relates to dry magnetic separation and can be used in the mining, foundry, and engineering industries to remove ferromagnetic objects (ore, scrap, parts, etc.) from the flow of bulk material.

The purpose of the invention is to reduce the material consumption of the structure by increasing the angle of inclination of the extraction conveyor without reducing the extracting ability of the pulley.

Figure 1 shows the fastening of the transverse partitions of the extraction conveyor; figure 2 - device, General view.

The device consists of a feeder - conveyor 1, moving a stream 2, of any material with ferromagnetic objects 3 contained therein. Above the feeder-conveyor 1 an electromagnetic pulley 4 is installed, which simultaneously serves as a driving drum of a 5-in-right steeply inclined conveyor belt, to which a defined transverse partitions 6 are attached in step, made in the form of plates of ferromagnetic material and mounted on a belt 5 with the possibility of rotation around an axis 7 that are perpendicular to the longitudinal axis of the driven conveyor drum 8.

The device works as follows.

In the operating mode, the feeder-conveyor 1 is driven (for example, in the direction of arrow A in FIG. 1), the pulley 4 is driven in rotation (for example, clockwise, as shown in FIG. 1) and the power is supplied from current on magneti0

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The winding winding of the electromagnetic pulley 4. At the same time, a magnetic field is created around the circumference of the pulley 4, under which ferromagnetic objects 3 are removed from the flow 2, pressed against the belt 5 and with it move in the direction of rotation

5 of the pulley 4. Under the action of the same magnetic field, the ferromagnetic transverse partitions 6 located in the magnetic field of the pulley (i.e. in the extraction zone) are rotated around the axis 7 clockwise, pressed against the belt 5 and in such a position together with the tape 5 to the place where the tape 5 comes off the surface of the pulley 4. As the tape 5 moves further from the partition 6 moves away from the surface of the pulley 4, the magnetic field weakens and therefore, under the action of its own weight, the partitions 6 rotate around the axis 7 into This direction (counterclockwise in FIG. 1) is fixed in a certain position relative to the belt 5, thus automatically turning into stops to hold and steeply transport the previously extracted ferromagnetic objects 3. Thus, by installing ferromagnetic transverse partitions 6 s the possibility of rotation around an axis 7 parallel to the plane of the belt 5 and perpendicular to the longitudinal axis of the extracting conveyor, the spatial position and overall dimensions of the transverse overlap 6 (in orthogonal to the plane of the belt 5) automatically - as the belt 5 moves around the pulley - out of 5

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five

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change, taking the minimum values in the extraction zone (almost no more than 40 mm) and the maximum values in the zone of sharply sloping transportation of the extracted objects (up to almost 300 mm), which allows to increase the angle of inclination of the conveyor (practically to 60-90) without increasing the height electromagnetic pulley suspension 4, i.e. while maintaining sufficient pulley extracting ability.

Claims (1)

Apparatus of the Invention A device for extracting and steeply oblique transporting ferromagnetic objects, including A horizontal feed conveyor and an inclined retrieval conveyor with an electromagnetic pulley located above it, characterized in that, in order to reduce the material consumption of the structure by increasing the inclination angle of the extracting conveyor without reducing the retrievability of the pulley, it is provided with transverse partitions made of ferromagnetic material mounted on the retrieval conveyor belt rotatably around an axis that is perpendicular to the longitudinal axis of the extraction conveyor and lying in a plane parallel to the plane his ribbons. ten U . .. . at; / lg77l. : L-: FIG. 2 FIG. 2