SU1124212A1 - Automatic device for measuring electrolyte concentration - Google Patents

Abstract

AUTOMATIC DEVICE FOR MEASURING ELECTROLYTE CONCENTRATION containing an electrolyte conductivity meter, to the output of which are connected serially connected multiplying device, integrator and memory cell, the integrator and the memory cell connected to the first output of the control unit, the second output of which is connected to the heater, and the temperature meter electrolyte, the output of which is connected to the input of the control unit and through a differentiation device to a multiplying device, characterized by That, for the purpose povsh1eni tochnosi five measurements concentration therein introduced comparator whose cos (A union of inlet to the outlet of electrolyte conductivity meter, and the output of the additional input of the control unit. Jto 4i to Yu

Description

one

This invention relates to instrumentation technology and can be applied to various fields of complexity, for example, in chemical to control technical processes.

A device for measuring and controlling the concentration of electrolytes is known, which contains an automatic measuring circuit for the conductivity of electrolytes and a device for temperature compensation 5 reducing the effect of changes in the temperature of electrolytes on the accuracy and measurement of the concentration tl 3.

However, this device measures only the electrolyte concentration, the temperature of which is almost constant or varies in a narrow range (to).

Closest to the proposed technical entity is an automatic device for measuring the concentration of electrolytes containing an electrolyte conductivity meter, the output of which is connected in series with a multiplying device, an integrator and a memory cell, the integrator and the memory cell being connected to the first output of the control unit, the second the output of which is connected to the heater, and the temperature meter electrolyte the output of which is connected to the input of the control unit and through the differential Spinning device to the copying device 2,

A disadvantage of the known device is low accuracy in measuring the concentration of electrolytes in which the temperature coefficients of the specific conductivity depend little or not at all on the concentration.

The purpose of the invention is to improve the accuracy of measuring the concentration of electrolytes,

The goal is achieved by the fact that in an automatic device, for measuring the concentration of electrolytes, an electrolyte conductivity meter is connected to the output of which a serially connected multiplying device, an integrator and a memory cell are connected, the integrator and the memory cell being connected to the first output of the control unit, the second output of which

42

122

connected to the heater, and an electrolyte temperature meter, the output of which is connected to the input of the control unit and through a differentiating device to the copying device, a comparator is inputted, the input of which is connected to the output of the electrolyte conductivity meter, and the output to the additional input of the control unit.

The drawing shows a block diagram of an automatic device for measuring the concentration of electrolytes.

The device comprises an electrolyte conductivity meter 1, a multiplying device 2, an integrator 3s, a memory cell 4, a control unit 5, a heater 6, an electrolyte temperature meter 7, a differentiating device 8, a comparator 9 and an electrolyte chamber 10.

The output of meter 1 is connected in series with a multiplying device 2, integrator 3, and memory cell 4. The integrator 3 and the memory cell 4 are connected to the first output of the control unit 5, the second output of which is connected to the heater 6. The output of the meter 7 is connected to the input of the control unit 5 and through the differential device 8 to the duplicating device 2. The input of the comparator 9 is connected to the output of the meter 2, and the output with the additional input of the control unit 5.

The device works in the following way,

When the electrolyte enters the chamber 10 of the conductivity meter 1 by the command of block 5, the heater is turned on. 6 and after the electrolyte temperature reaches ti, S corresponding to the lower limit of the range, the integrator 3 turns on the integrator 3 at the same time. In a multiplying device, a signal is produced that is proportional to the electrical conductivity of the electrolyte and that is proportional to the rate of change of the electrolyte temperature. Integration occurs before the moment. This is when the comparator 9 generates a signal to the second input of the control unit 5. This moment corresponds to

3

when the electrolyte temperature reaches a value when the conductivity of the electrolyte, by heating it, takes a certain, constant, pre-selected value. On a signal from comparator 9, control unit 5 turns on memory block 4, resets the integrator to its initial state and turns off the heater 6. At the same time, the analyzed electrolyte drains automatically. Cell A stores the measurement result. After replacing the electrolyte, the next breakdown of the signal from control unit 5 repeats the measurement cycle.

Thus, the proposed device measures the integral value of the product of electrical conductivity by the rate of temperature change, the magnitude of which further expands 242,124.

reads electrolyte concentration.,

The technical and economic effect compared with the base object, as chosen for the prototype, is expressed in 5 that it provides an increase in the relative sensitivity of the output signal to a change in concentration for electrolytes, in which the temperature coefficients of the specific conductivity do not depend or weakly depend t on concentration (i.e., expand the field of application of the device). This leads to a reduction in component errors.

J5 concentration determination, i.e. to improve the accuracy characteristics, which contributes to the improvement of the quality of control of technological processes and processes in various industries.

Claims (1)

AUTOMATIC DEVICE FOR MEASURING ELECTRIC CONCENTRATION LITOV, comprising an electrolyte conductivity meter, the output of which is connected in series to a multiplying device, an integrator and a memory cell, the integrator and a memory cell being connected to the first output of the control unit, the second output of which is connected to the heater, and the electrolyte temperature meter, the output of which is connected to the input of the control unit and through a differentiating device to a multiplying device, characterized in that, in order to increase the accuracy of measuring the concentration, $ n comparator having an input connected to the output of electrolyte conductivity meter, and the output of the additional input of the control unit. I I 242 12