SU1651955A1 - Centrifugal-vibration concentrator - Google Patents

Abstract

The invention relates to the mining technique and is intended to enrich the sand of alluvial deposits. The goal is to simplify the design of the concentrator. On the frame 1 of the concentrator there is a semi-axle 2 floor, on which in bearings 3 there is a hollow shaft (PV) 4. Through flanges 5 and 6 and bearings 3 to PV 4, PV 9 is attached. The upper end of PV 9 is rigidly connected to bowl 10. PV cavity 9 overlapped overlapping element 11. The lower part of PI 9 is in communication with the atmosphere. On PV 4, a driven pulley (W) 13 is attached, which serves to rotate the bowl 10 around the axis O. An axle 14 is attached to the frame 1 in its lower part, on which the bearings 16 have an Ø 16 for rotating the bowl around the axis O, With toroidal elastic shell 17 DI 16 is connected to MF 9. Rotation of tea 10 is transmitted through W 13 through intermediate elements of MF 9 and communicates in a cup 10 to the orbital motion around the axis 0 | with a radius equal to the eccentricity e. In this case, W 16 transmits the rotation of PV 9 through the toroidal shell 17, and PV 9 rotates the bowl 10 around the axis O-. Due to the gyration of the bowl 10, the material is divided according to density. The useful minerals settle at the bottom of the bowl 10 and flute and unload through PW 9. 1 sludge. (L

Description

The invention relates to a mining technique, in particular, to devices for beneficiation of placer sands.

The aim of the invention is to simplify the design.

The drawing schematically shows a device in section.

The device consists of a frame 1 on which the semi-axle 2 is rigidly mounted. On the semi-axis 2 on bearings 3 there is a hollow shaft 4, to which a flange 5 is rigidly fixed, is eccentrically attached to the flange 5

flange 6 is a hollow shaft 7, in which a hollow shaft 9 of a bowl 10 is mounted on bearings 8. Axis 0 is an axis of a hollow shaft 4, and axis 0 is an axis of a bowl 10. The upper end of a hollow shaft 9 is rigidly connected to the bowl 10. The cavity of the shaft 9 is closed on top by the overlapping element 11. When the element 11 is raised or removed, the cavity 12 of the shaft 9 communicates with the working cavity of the bowl 10, and when closed from above, the cavity 12 is connected to the atmosphere from the bottom. A driven pulley 13 is rigidly mounted on the hollow shaft 4, which serves to rotate the bowl 10 around the axis O.

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An axle 14 is attached to the frame 1 in its lower part, on which a pulley 16 is mounted on the bearings 15, which serves to rotate the bowl 10 around the axis 0. The pulley 16 is connected to the hollow shaft 9 of the bowl 10 and the pulley 16 by means of a toroidal shell 17 The axes O and O are parallel. The flanges 5 and 6 are interconnected by means of bolts 18 so that the eccentricity can be changed, namely, for example, when moving flange 6 to the right along the flange 5, eccentricity e will decrease, / and to the left - to increase.

The balancing of the rotating parts of the concentrator is carried out by installing the counterweights 19, for example, on the flange 6. In this case, the counterweight 19 can be made of a set of removable plates to ensure accurate balancing.

The shaft 9 with the bowl 10 is rigidly connected with bolts so that if it is necessary to repair or prevent the bowls 10, it can be separated from the shaft 9.

Toroid-shaped rubber sheath 17 to the pulley 16 is attached with bolts 20, and to the hollow shaft 9 - with the help of two nuts 21.

To the frame 1, the axis 14 is attached with bolts 22 and mounted coaxially with the semi-axis 2. The bottom of the bowl 10 is rigidly connected to the shaft 9.

The dimensions (diameter) of the cavity of the axle shaft 2 and the axis 14 of the pulley 16 are made such that the hollow shaft 9 of the bowl 10 freely together with the bowl 10 makes gyrations, i.e. orbital motion in a circle whose radius is equal to the eccentricity e.

The device works as follows.

When the motor is turned on, the pulleys of which are connected by belts to the pulleys 13 and 16, the latter rotate. The pulley 13 transmits the rotation to the hollow shaft 4, the shaft 4 to the shaft 7, which through

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bearings 8, shaft 9, in the case of 10, inform orbital circumferential motion, ti around the axis Oj with a radius equal to eccentricity e.

The pulley 16 transmits the rotation to the shaft 9 through the toroidal sheath 17. The shaft 9 rotates in the bearings 8, rotates the bowl 10 around the axis 0.

Thus, the bowl 10 performs a gyration around the axis Of, and rotates

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around its axis 0-, and the directions of rotation coincide, i.e. rotate in the same direction, but at different speeds. For example, the gyration frequency of bowl 10 around the axis 0 is 540 rpm, and the frequency of rotation of the bowl 10 around axis 0 is 180 rpm. The rotational speeds are selected by the gear ratios of the driving and driven pulleys.

By performing these gyrations around the axis O, and rotating the bowl 10 around the axis 0%, the enriched material (sand / water mixture) is divided in density. Useful minerals settle at the bottom of the bowl 10 and its ripples, and the waste rock is discharged outside the bowl. The useful minerals are unloaded after stopping the concentrator by raising element 11, for example, manually and washing the collected minerals with water through the cavity 12 into a specially prepared container.

Claims (1)

Invention Formula A centrifugal vibratory concentrator comprising a frame mounted on a hollow shaft in an eccentric bowl, with a hole in the bottom, a bowl drive connected to the hollow shaft, 6 tons due to the fact that, in order to simplify the design, the hollow shaft is connected to the upper part with the hole at the bottom of the bowl, and the lower part with the atmosphere, while the hollow shaft is connected to the drive by a pulley and attached to the pulley toroid-shaped elastic sheath connected to the lower part of the hollow shaft. 4U LG Jr JP