SU439744A1 - Device for measuring particle size - Google Patents

Description

one

The proposed device is intended to measure the size of particles according to the magnitude of the voltage pulses when a suspension or emulsion with particles passes through the measuring channel.

A device for measuring the size of particles in a suspension or emulsion, consisting of a measuring channel, is a narrow opening in a non-conductive barrier.

On the one side of the partition there is a reference electrode, on the other - a signal electrode through which electric current is passed. In the circuit of the signal electrode active resistance is included.

In existing devices for measuring particle size, the temperature and concentration of the electrolyte are tried to be kept strictly constant. In practice, this is very difficult and is not always possible even under laboratory conditions.

This circumstance significantly limits the use of the conductometric method of measuring particle sizes, especially under production conditions and in the process flow, where it is impossible to maintain a constant resistivity of the electrolyte, as a result of which particle size measurements, obtained by conductometric method, sometimes significantly diverge from their actual sizes. .

The purpose of the invention is to eliminate the measurement error, i.e., to eliminate the dependence of the output signal on the change in the resistivity of the electrolyte. In the proposed device, an inductance is inserted between the power supply and the signal electrode, which represents

high resistance to voltage pulses, but almost no resistance to direct current. The drawing shows a diagram of the device. The non-conductive septum has a narrow

hole 1. On one side of the partition there is a reference electrode 2, on the other - a signal electrode 3. An inductive resistance 5 is connected between the signal electrode and the power source 4, and a capacitor 7 is connected between the signal electrode and the measuring device 6.

Electric so the power source is limited only by the resistance of the electrolyte between the electrodes, since the active

The resistance of the power supply and the inductor is relatively small.

The constant current passes only through the electrolyte between the electrodes, since the capacitance prevents the current to be shunted through the unit.

measurements.

The voltage pulse from the signal electrode only passes to the measuring device through the separation capacitance, because the inductance prevents the voltage pulse from being shunted through the power supply.

The amplitude of the voltage pulse is proportional to the product of the current strength and the resistivity of the electrolyte.

When, for example, the resistivity of the electrolyte changes, the resistance between the electrodes increases proportionally and n times and, as a result, the current passing through the electrolyte decreases n times. As a result, the pulse amplitude does not depend on the change in the resistivity of the electrolyte.

The described device can be embedded in the process stream, for example, the classification of abrasive powders.

The subject of the invention

A device for measuring particle size according to voltage pulses, comprising a vessel C with two electrodes, between which there is a baffle with a hole and a measuring device, characterized in that, with a slit, increasing the accuracy of measuring particle sizes by compensating for the accuracy of

electrolyte resistivity, inductive resistance is included in the sensor supply circuit.