SU99758A1 - Device for studying the nature of the movement of mineral grains with gravity enrichment methods - Google Patents

Description

When studying the gravitational methods of mineral processing (wet jigging, heavy liquids and suspensions, pneumatic jigging machines, tables, etc.), the main issue is to determine the nature of movement of individual mineral grains. By knowing the law of movement of a mineral grain in a given environment or having a graph of the dependence of the position of the studied grain on time, one can determine the distance traveled, the speed and acceleration of grain movement at any point.

In the described device, to study the nature of the movement of mineral grains during the processes of gravity-enrichment, an inductive sensor is used, as is already known in devices of this kind, which is a coil superimposed on a dielectric tube through which the medium under study passes.

A feature of this device is the implementation of a coil with a step of winding increasing from one end to the other, which makes it possible to determine the position of an individual mineral grain with a ferromagnetic ball embedded in it.

In the drawing, which depicts the principal differential diagram of the proposed device, the following are indicated: 1-sensor, through which the test-tagged (i.e., embedded with a ferromagnetic ball) grain 2 passes; 3 - reference sensor, 4 - differential transformer; 5 - rectifier, 6 - socket for switching on the oscilloscope.

Due to the fact that the coils of sensors 7 and 5 have a uniformly increasing winding step from one end to another, the magnetic field intensity gradient inside the coils is not zero, as in cylindrical rolls, but has a constant value across the entire length of the Qatzka.

Therefore, if a vessel of a dielectric with a ferromagnetic ball moving in it is placed inside this coil (it can be embedded in grain of any shape), then when the coil is fed with alternating current, its inductance changes in direct proportion to the position of the ball (labeled

grain) from the beginning of the winding coil. If this coil, having become a usu- ing sensor, should be included in one branch of the differential transformer, and in the other branch, it should include an identical coil, which is a reference sensor, THEN in the branch, and it is from the midpoint of the transformer to the connection point of both coils , a current will be generated that corresponds to the position of the ball from the base of the coil. The indicator included in the middle branch (for example, an oscilloscope) shows on the screen the nature of the current change over time, i.e., the ball's motion chart - (labeled grain). When studying periodic processes (for example, jigging) on the oscilloscope screen, you can see a solid curve characterizing the movement of a given mineral labeled grain, which has a certain specific gravity, size, condition of motion (constrained or free). The device can record on film or paper the nature of the movement of such a grain.

When studying the movement of very fine grains it is possible to iitani

schemes to apply increased frequency. In addition, an amplifier may be switched on.

Subject invention

Claims (2)

1. An instrument for studying the nature of the movement of mineral grains in gravitational methods of mineral processing, using an induction sensor made in the form of a coil superimposed on a dielectric tube through which the medium under study passes, characterized in that in order to enable the determination of the position of an individual mineral grain C embedded in it with a ferromagnetic ball, the coil has a coiling step increasing from one end to the other. 2. The form of the instrument according to claim 1, is different from the fact that, in order to increase its sensitivity, it is assembled according to a differential scheme, the two arms of which include identical sensors, one of which is a reference, and the test is passed through the other Wednesday.