SU548794A1 - Friction sensor in electrolyte flow - Google Patents

Description

one

The invention relates to a measuring technique, namely, sensors for measuring friction.

The sensor, which contains electrodes, is installed in the direction of flow, and the power source is 1.

However, such a sensor does not allow to measure friction in the flow of electrolyte, as the electrodes close due to the electrolyte conductivity.

A friction sensor in the electrolyte stream is also known, which contains the recording and reading values corresponding to the main recording and reading electrodes installed in series in the flow direction, the power sources of the recording and reading circuits, and the 1/2 electrode installed in the flow arbitrarily 2.

This sensor is the closest to the invention in terms of technical efficiency and the result achieved.

However, it has a low measurement accuracy due to current and current flowing through and recording, paired into a readme circuit, because when the recording circuit is turned on, an electric field arises between the recording electrode and the o6niiiM electrode, which causes current to create a drop.1 in solution. When commutated, the high frequency component of the voltage drops

causes a high frequency of the read current.

The aim of the invention is to improve the measurement accuracy.

For this purpose, the sensor is provided with an auxiliary recording electrode, installed in front of the main electrode, at a distance not exceeding half the distance between the main electrodes, and an auxiliary reading electrode, mounted behind the main electrode.

On what is shown is the proposed sensor with the wiring diagram of its electrodes.

In case 1 of a sensor made of an inert electronically insulating material, whose surface is wrapped around an electrolyte flow, a robust recording electrode 2, a main (generating) recording electrode 3, a main reading electrode 4 and an auxiliary reading electrode 5 are installed in the flow direction. Sources 6 and 7 of the power supply provide the operation of the write and read circuits. The distance between the main and auxiliary recording electrodes is chosen to be greater than half the distance between the main electrons.

The sensor works as follows.

The electric fields of the write circuits and the readings of the nation are localized predominantly between

3

main II pspomogatelny electrodes of the corresponding circuits. When a pulse of electric current passes through to the zein of the electroactive wave, the substance released near the axis electrode is re-energized by the flow of the liquid electrolyte to the axis of the read electrode 4 and causes a change in the current in the read circuit. The effect of a low reading circuit is weakened, the smaller the distance between the main transmitting electrodes of the write circuit, the smaller this effect and, hence, the higher the measurement accuracy.

Formula invented by

The friction sensor in the electrolyte flow, containing the zaiisp and readout circuit, respectively, with the main electrodes and readings, installed in the direction of flow of the detector, is known to supply the write supply circuits and readings; characterized in that, in order to improve the accuracy of the measurement of PIM, it is equipped with an optical fixing electrode installed before the recording electrode at a distance not exceeding the distance between the main electrodes and the auxiliary reading electrode mounted behind the main reading electrode.

Data of information taken into account during the examination:

1. Mpkhin B. 3. High-frequency capacitive and inductive sensors. M.-L., Gosenergonzdat, I960, p. 9.

2. Avt. St. No. 359707, cl. H 01C 9/22, 1970 (nrototii).