RU1787574C - Vibratory classifier - Google Patents

Abstract

Usage: the invention is used to classify materials by size in the construction and other industries. SUMMARY OF THE INVENTION: the vibratory classifier comprises a box with two grate grates of trapezoidal longitudinal grates, arranged alternately relative to each other, facing smaller bases facing each other with the possibility of oscillating in antiphase in the axial and vertical directions, with one grating located above the other , and the bottom is installed in a bath with water. 1 C.p. f-ls, 4 ill.

Description

The invention relates to a technique for classifying by size of materials and may find application in the building materials industry in the processing and enrichment of minerals from mining and other sectors of the national economy.

A vibration classifier is known, including a box, sheet surfaces with transverse slits, a vibrator, a loading device, receivers of selected fractions, cutters mounted above the slots and connected to the loading devices.

A disadvantage of the known classifier is the low efficiency when fractioning wet, sticky and dispersed materials, causing a decrease in productivity due to sticking of the working surfaces and their discharge slots. In addition, the process is accompanied by dust formation.

The closest invention is a screen containing a box, two gratings with mutually moving grates, a vibrator and elastic elements, the grates of both gratings being made in the longitudinal direction in the form of wedges oriented in opposite directions with reciprocating motion along the longitudinal axis of the box.

A disadvantage of the technical solution is the low separation efficiency of bulk material, dust emission.

The purpose of the invention is to increase the efficiency of separation of bulk material by separating a finely divided fraction into the pulp and reducing dust formation.

This goal is achieved in that the vibration classifier, comprising a box with two axially mounted grates of longitudinal grates arranged alternately relative to each other, oscillating in antiphase in the axial direction, loading and unloading devices, is equipped with a bathtub filled with water and

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having control devices for discharging water, while the grilles are mounted with the possibility of oscillation in antiphase in a vertical plane, one of the grilles is mounted higher than the other, the grid houses of the lower grill are located in the water bath, and the grates of the upper and lower grilles are made in a trapezoidal shape cross section and facing smaller bases towards each other |, and their lateral surfaces are made with extended protrusions and depressions.

In FIG. T shows a vibrational classifier, a general view; in FIG. 2 - the same, top view; in FIG. 3 is a section BB in FIG. 1; in Fig. 4a, section B with open grates; in FIG. 46 - the same, with close grates.

The vibration classifier consists of the upper 1 and lower 2 gratings, which, by means of elastic elements 3 and 4, respectively, are mounted on the supporting frame 5. The vibrodrive of both gratings includes an eccentric shaft 6, which transmits antiphase vibrational movements to each grating using rods 7 and 8. Each of the gratings is made in the form of longitudinal grate-irons of a trapezoidal shape in cross section, moreover, the grate-irons 9 of the upper lattice face the smaller base towards the smaller base of the grid-irons 10 of the lower lattice and are placed with black dovaniem relative to each other. On the support frame there is a bath 11 with water, into which the lower grate is immersed. The lateral surfaces of the grates of both gratings are made with longitudinal protrusions 12 and troughs 13. The granular material to be classified is fed from the loading device 14 to the upper grate and during the classification a large fraction of dry material is separated into the unloading device 15, and the fine fraction in the form of pulp is slurry piping 16. The regulation of the water level in the bath is provided by means of valves 17 and 18.

When the vibrodrive is turned on, the eccentric shaft 6 through the connecting rods 7 and 8 causes the upper 1 and lower 2 grates on the elastic elements 3 and 4, mounted in the same plane and fixed to the supporting frame 5, to be in antiphase vibrational motion, which eliminates the transmission of vibration to foundation. Regulation of the position of the valves 17 and 18 achieves this level of water in the bath

11, so that the lower grate 2 is immersed in an aqueous medium. When the gratings 1 and 2 oscillate in motion, the grates 10 enter the longitudinal spaces between the grates 9 immersed in water, creating eddy turbulent flows of medium water and washing the lateral longitudinal surfaces of both gratings. When feeding bulk material from the loading device 14, the coarse fraction in dry form moves under the action of directed vibrations along the load-bearing surface of the upper grill 1 and enters the unloading device 15. A friable fraction of the granular material wakes up in the space between the grates 9 and 10 of both grates and under the action of turbulent vortex water flows are subjected to wetting and crushing in an aqueous medium between the approaching and diverging protrusions 12 and the depressions 13 of the lateral partite surfaces of the two grates. The resulting pulp from the finely divided material fraction from the bath 11 is sent to the pulp line 1 b for subsequent use.

Claims (1)

1. Vibration classifier, comprising a box with two gratings of longitudinal grates arranged with alternating rotation in antiphase in the axial direction, loading and unloading devices, characterized in that, in order to increase the efficiency of separation of bulk material by separation in finely dispersed pulp and dust reduction, the classifier is equipped with a bathtub filled with water and having control devices for inlet and outlet water, while the gratings are installed with the possibility of oscillating in antiphase in the vertical plane, one of the gratings is installed higher than the other, and the grates of the lower grating are located in the bath with water, and the grates of the upper and lower gratings are made in trapezoidal cross-sectional shape and face smaller bases towards friend of another 2. Separator pop. 1, characterized in that the side surfaces of the grid-irons of each grate are made with longitudinal protrusions and depressions.