RU2530439C1 - Contactless sensor to measure electric charge of mineral moving particles - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: contactless sensor to measure electric charge of mineral moving particles comprises a sensitive electrode with inner channel of variable cross-section, high-quality isolator and grounded electrode, which upper part is made as a truncated pyramid with inner surface of the pyramid side faces inclined towards the sensor vertical axis selected in the range of 30-55 degrees.

EFFECT: reducing a number of parasitic actions of the actuating mechanism, whereby share of the associated minerals is reduced in the concentrate, improving condition of the concentrate without additional time and power costs.

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Description

The present invention relates to the field of measurement technology, is intended to measure the electric charge of moving particles of minerals and is intended, in particular, to detect diamonds in diamond-containing mixtures of minerals, for their subsequent extraction using the actuator. In addition, the claimed invention can be used to measure the electric charge of mineral particles in the study of the processes of electrical separation of various ores.

Electro-capacitive control methods are known in which an electro-capacitive transducer / non-destructive testing and diagnostics is used as the primary signal source: Reference. / V.V. Klyuyev, F.R.Sosnin, A.V. Kovalev and others; Ed. V.V. Klyueva. 3rd ed., Rev. and add. - M.: Mechanical Engineering, 2005. p. 453-455 /. Electrical capacitors according to the number and shape of the electrodes are divided into overhead and walk-through. Overhead converters are used to control massive products with one-way access. Feed-through electric capacitive converters are used for control objects having a small cross section. In this case, the control object is placed or moves in the internal channel of the transducer between the electrodes or in the cavity of one of the electrodes. Electrical capacitors are designed to measure the electric capacitance or the tangent of the loss angle of control objects made of dielectric materials. It is possible to measure the geometric dimensions and control the shape of products made of metal. In the control of solid bulk materials, electro-capacitive converters are used in the control of physical and mechanical parameters, for example, the dispersion of the composition and humidity of the material.

A disadvantage of the known electric capacitive converters is that they do not allow non-contact measurement of the sign and absolute value of the electric charge of moving solid particles of minerals, such as diamonds, or related minerals.

A known method of separation of minerals and a device for its implementation / RF patent No. 2353439, D07C 5/344, dated 05/02/2007 /, based on non-contact measurement of the electric charge of mineral particles freely moving inside the sensor. In an example of a specific implementation of the method, a sensor is described for non-contact measurement of the sign and magnitude of the electrical tribo-charge of a mineral. The sensor contains a grounded housing, inside of which there is a sensitive electrode in the form of a pipe of rectangular cross section mounted on a high-quality insulator. The transverse dimensions of the internal channel of the sensitive electrode are made with the possibility of free passage of the separated material inside the sensor, that is, the material should move along the free fall path without touching the surface of the sensitive electrode. The known device has the same purpose as the claimed invention.

The disadvantages of the known device are: firstly, the lack of stability of the output signal of the sensor associated with the dependence of the induced charge on the geometric dimensions and shape of the sensitive electrode, and secondly, the dependence of the shape of the pulses on the shape of the grounded housing in the areas of the input and output windows of the grounded housing.

A known sensor for non-contact measurement of the electric charge of moving particles of a mineral / RF patent No. 2393465, G01N 27/60, from 11.03.2009 /. In the description of the sensor, three possible embodiments are described in detail, which differ in the shape of the sensitive electrode. In all versions, the sensitive electrode has a constant cross-section, mounted on an insulator inside a grounded electrode. The geometric shape of the grounded electrode is not specified. The known sensor has the same purpose as the claimed invention.

The disadvantages of the known sensor are: firstly, the insufficient selectivity of the separation of the signal from diamonds with respect to the signals recorded from related minerals having a charge sign opposite to that of diamonds, and secondly, a decrease in selectivity with an increase in separation performance by switching from the grained separation feed mode material to flow.

The closest analogue of the claimed device is a sensor for non-contact measurement of the electric charge of moving particles of mineral / RF patent 2401427, G01N 27/60, dated 05/12/2009 /. including a grounded case, inside of which there is a sensitive electrode mounted on a high-quality insulator, an entrance window is made in the upper part of the grounded case, an exit window is made in the bottom of the grounded case and an additional grounded electrode installed with an insulating gap is installed, the internal channel of the sensitive electrode has a variable transverse section. The sensitive electrode has a variable cross section, and the cross section of the inner surface of the channel along the axis of the sensor has three possible shape options. The first option has a cross-sectional shape in the form of a hyperbola. The second option has a combined shape, in which the upper part is made in the form of a hyperbola, and the lower part in the form of straight lines parallel to the axis of the sensor. The third option describes a form in which the cross section has the appearance of a broken line, with the line tilted to the axis in the upper part and the line parallel to the axis in the lower part. The shape of the grounded electrode in the upper part of the sensor in the zone of entry of charged particles into the sensor in the prototype is not specified.

The disadvantages of the known sensor are: firstly, the insufficient selectivity of the separation of the signal from diamonds with respect to the signals recorded from related minerals having a charge sign opposite to that of diamonds, and secondly, a decrease in selectivity with an increase in separation performance by switching from the grained separation feed mode material to flow.

The task of the invention is to increase the selectivity of separation during registration of signals from particles of minerals of different signs.

The task is achieved in that in the sensor for non-contact measurement of the electric charge of moving particles of minerals, including a sensitive electrode with an internal channel of variable cross section, a high-quality insulator and a grounded electrode, the upper part of the grounded electrode is made in the form of a truncated pyramid with an inclination of the inner surface of the side faces of the pyramid to the vertical axis of the sensor, selected from an interval of 30-55 degrees.

The inventive sensor has a number of features common to the prototype.

The sensor includes a sensitive electrode mounted inside a grounded electrode on a high-quality insulator. The sensitive electrode has an internal channel through which particles of the mineral freely move, for example along the path of free fall. The sensitive electrode has a variable cross section of the inner channel in a plane perpendicular to the axis of the sensor. The cross section maximum at the top of the sensitive electrode decreases gradually when shifted down and has a minimum cross section at the bottom of the electrode.

A significant difference of the claimed device is a change in the geometric shape of the upper part of the grounded electrode. The upper part of the grounded electrode is made in the form of a truncated pyramid with an entrance window for the material, made in the upper base. The angle of inclination of the inner surface of the side faces to the vertical axis of the sensor has a value from the interval of 35-55 degrees. The fulfillment of these conditions allows you to get the minimum amplitude of the first pulse while maintaining the amplitude of the second pulse.

If the angle of inclination of the side face to the vertical axis of the sensor is less than 35 degrees, then the amplitude of the first pulse of the sensor increases, while the maximum of the first pulse approaches the second pulse.

If the angle of inclination of the lateral face to the vertical axis of the sensor is more than 55 degrees, then the amplitude of the first pulse of the sensor increases, while the maximum of the first pulse is removed from the second pulse.

The selection of the optimal tilt angles was performed experimentally.

For the convenience of choosing the optimal parameters of the sensors, the upper part of the grounded electrode is made in the form of a removable cover. This design allows you to change the selectivity by replacing the removable element.

The time shift of the pulses does not significantly affect the diamond separation process, since diamonds are detected by the amplitude of the second pulse.

A decrease in the amplitude of the first pulse is of fundamental importance for increasing selectivity, since some of the accompanying minerals have an electric charge opposite to the sign of the electric charge of diamonds, so the first pulse from a mineral may be mistaken as a signal from a diamond, which will lead to a false actuation of the actuator in the absence of diamond .

The figure 1 shows a sensor for non-contact measurement of electric charge in the context. Where: 1 is a sensitive electrode, 2 is a high-quality insulator, 3 is the base of the grounded electrode, 4 is the top of the grounded electrode, and is the angle between the inner face of the top of the grounded electrode and the vertical axis of the sensor.

Figure 2 shows the sensor signal at an angle α = 45 ° and the axis t is designated - time, I _D - current sensor.

Figure 3 shows the sensor signal at an angle α = 35 ° and the axis t is designated - time, I _D - current sensor.

Figure 4 shows the sensor signal at an angle α = 55 ° and the axis t is designated - time, I _D - current sensor.

The sensitive electrode 1 is mounted on a high-quality insulator 2 and installed inside the base of the grounded electrode 3. The upper part of the grounded electrode is mounted on the base of the grounded electrode.

The device operates as follows.

When a charged particle of material passes through the inside of the sensor, two current pulses of different polarity are observed. The first pulse is generated at the moment a charged particle enters the sensitive electrode. The second pulse has the opposite polarity and is generated when the charged particle of the material leaves the sensitive electrode. The duration and amplitude of the current pulses at the output of the sensor depends on the speed of movement of the material and the distance from the charged particle to the inner surface of the sensitive electrode and to the inner surface of the grounded electrode. The main task of generating a sensor signal intended for non-contact measurement of the charge of a particle of a mineral is to minimize the amplitude of the first pulse while maintaining the amplitude of the second pulse. In the prototype of the invention, a decrease in the amplitude of the first pulse is achieved by changing the shape of the sensitive electrode, the inner channel of which is expanded in the upper part and gradually narrows in the lower part. The formation of the second pulse occurs in the part with a minimum cross section. The shape of the grounded electrode in the upper part of the sensor is not specified, but in examples of a specific implementation, the grounded electrode is depicted in the form of a rectangular parallelepiped, in which the upper part is made in the form of a flat face with an opening for material input.

In the process of non-contact measurement of the electric charge, mineral particles fly through the internal channel of the sensitive electrode. An induced electric charge is created on the inner surface of the sensitive electrode, which varies with time. A change in charge over time causes a pulsed electric current in the form of two pulses.

The first pulse corresponds to the entrance of a charged particle into the sensor, and the second pulse corresponds to the exit of a charged particle from the sensor. These two pulses have opposite polarities. Diamond detection is made by the amplitude of the second pulse. The first pulse does not participate in the recognition of the mineral, but may interfere with the correct recognition of diamond, so the amplitude of the first pulse should be minimal.

The technical effect is to reduce the number of parasitic actuator actuations, as a result of which the proportion of associated minerals in the concentrate decreases. This leads to increased condition of the concentrate without additional time and energy.

Claims (1)

A sensor for non-contact measurement of the electric charge of moving particles of minerals, including a sensitive electrode with an internal channel of variable cross-section, a high-quality insulator and a grounded electrode, characterized in that the upper part of the grounded electrode is made in the form of a truncated pyramid with an inclination of the inner surface of the side faces of the pyramid to the vertical axis of the sensor selected from an interval of 30-55 degrees.

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