RU2255811C2 - Working surface of jigging machines - Google Patents

Abstract

FIELD: separating solid materials.

SUBSTANCE: working surface of jigging machines comprises several members secured to the frame. For above-grid discharging of heavy fractions, some members are mounted at an angle to horizon and are made of S-shaped sheets without perforation, which are assembled to define U-shaped cells.

EFFECT: enhanced quality of concentrate.

3 dwg

Description

The invention relates to the field of mineral processing on jigging machines.

A siege of a jigging machine installed in a movable box with end loading and side walls is known, the sieve is made in the form of a wavy surface, while the generatrix of the wavy surface is parallel to the side walls (AS SU No. 1755923, IPC B 03 V 5/24 " Sieve of the jigging machine "from 04.25.90).

The disadvantage of this surface is that it is also made of a perforated sheet, which does not exclude the under-sieve unloading of the heavy fraction.

The closest is the surface of the jigging machines (sieve), consisting of individual elements (grates) mounted on the frame, grate bars connected by transverse connections, and the grate bars in the cross section are conoidal and arranged at an angle to the vertical, and the angle of inclination of the grate to the vertical is 7-20 ° (A.S. SU No. 956009, priority 05.12.80, IPC B 03 V 5/24, “Sieve of the jigging machine”).

Their disadvantage is under-grain unloading of heavy fractions with a size smaller than the size of the sieve openings, which determines the low content of heavy fractions in the concentrate (under-sieve product) due to clogging of light fractions of the same size by particles.

The objective of the invention is to eliminate the under-sieve unloading of heavy fractions and thus increase the degree of their concentration and, accordingly, improve the quality of the concentrate.

The technical result is achieved by the fact that on the working surface of jigging machines, consisting of individual elements mounted on the frame, for oversize unloading of heavy fractions, individual elements are installed at an angle to the horizon and are made of non-perforated S-shaped sheets and assembled in the form of U-shaped cells .

A general view of the working surface of the jigging machine is shown in FIG. 1, FIG. 2 shows fragments of the jigging process on a given surface during an upward flow of water, and FIG. 3 shows fragments of the jigging process on a given surface during a downward flow.

The working surface (figure 1) includes S-shaped elements 1, assembled in the form of U-shaped cells 2, mounted on the frame 3 and installed at an angle to the horizontal.

On the working surface of jigging machines are formed (Figs. 1 and 3) layers of heavy A and light B minerals. During the upward flow of water (figure 2) the material in the U-shaped cell loosens and the layer of heavy minerals is shifted to the right side. During the downward flow (figure 3), the layer of heavy minerals is shifted to the left. In this case, the maximum lift height of the heavy fractions in the left part of the U-shaped cell is predominantly determined by the consumption of "oversize" water (air), that is, by the ratio of the velocities of the ascending and descending flows.

The fluidized bed of heavy fractions in a U-shaped cell (on the "sieve") behaves like a heavy medium, displacing particles of lower density from its volume.

Unloading heavy and light fractions from the "sieve" can be gravity, forced (for example, rotary devices) or combined.

Tests of an experimental sample of the working surface on a laboratory diaphragm jigging machine with an artificial quartz - magnetite mixture with a content of the latter of 2.5% with a grain size of -3 + 0 mm showed the possibility of obtaining a concentrate with a magnetite content of up to 98%.

Claims (1)

The working surface of jigging machines, consisting of individual elements mounted on a frame, characterized in that for the oversize unloading of heavy fractions, individual elements are installed at an angle to the horizon, made of non-perforated S-shaped sheets and assembled in the form of U-shaped cells.

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