SU1767350A1 - Device for determining current conductive fluid level - Google Patents

Abstract

Usage: in measurement technology, for continuous measurement of the level of an electrically conductive fluid. SUMMARY OF THE INVENTION: When an AC source 1 is turned on, an alternating current flows through the first electrode sensor formed by electrodes 3 and 5 and through the second electrode sensor formed by electrodes 4 and 5. Electrode sensors are included in the adjacent arms of an automatic balanced bridge and therefore the voltage drops across them are equal. Therefore, the bridge equilibrium is uniquely related to the ratio of the resistances (currents) of the electrode sensors, i.e. with measured level. Aligning the voltages on the sensors improves accuracy. 1 il.

Description

The invention relates to the field of measuring the levels of electrically conductive liquids in various tanks and can be used in water treatment plants of galvanic shops, as well as for measuring and maintaining water levels in steam boilers, electrolyte levels in galvanic baths, and the like.

A device is known for level measurement, consisting of a source of alternating current, several groups of electrodes of the same configuration, immersed in a tank of various depths, and devices for measuring alternating current parameters (see Japanese application No. 54-31698).

A device for level measurement, consisting of a power source, a measuring unit connected to the first terminal of the source, two electrode sensors consisting of a corresponding electrode and a common electrode, which is connected to the second terminal of the source (see ed. St. No. 45517). The disadvantage of this level gauge is the low accuracy of the measurements. . '··. ·

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

This goal is achieved by the fact that in the device for determining the level of the electrically conductive liquid, consisting of a power source, a measuring unit connected to the first terminal of the power source. the first electrode sensor formed by the first electrode and the common electrode, which is connected to the second terminal of the source, and the second electrode sensor formed by the common electrode and the second electrode, made shorter than the common electrode, according to the invention, the power source is made in the form of an alternating current source, measuring the block is made in the form of an automatic measuring bridge, in the adjacent shoulders of which are included electrode sensors, the first and second electrodes are made equal in length, and the first and second th electrodes are parallel to the common.

The drawing shows a structural diagram of the proposed device.

The device contains a source of alternating current 1, two electrode sensors, 06 formed by a common electrode 2 and two other electrodes 3 and 4. and a measurement circuit made in the form of an automatic measuring bridge formed by electrode sensors, alternating 5 and fixed 6 resistors, and also a voltage comparison device 7 included in the diagonal of the bridge, to the second diagonal of which a variable current source 1 is connected. The measuring circuit also includes a device 8 for measuring the variable resistance of resistors 5 and a device 9 for measuring this resistance. All electrodes have the same configuration10, are parallel to each other, but electrode 4 is immersed in liquid to a depth different from the immersion depth of electrodes 2 and 3, immersed to the same depth.

The device operates as follows.

'As the reservoir is filled (or emptied) with conductive fluid, the voltage drop between the electrodes 2-3 and 2-4 changes. These voltages are supplied to a comparison device 7, in which, depending on the ratio of these voltages, a mismatch signal is generated that acts on device 8, which changes the resistance value of resistor 5 to a value at which the voltages on electrodes 2-3 and 2-4 become equal. In this position, the device 9 reads the resistance value 30 of the resistor 5, which in relation to the constant resistance of the resistor 6 will uniquely determine the liquid level in the tank. Level measurement can be carried out both in automatic and manual mode.

Claims (1)

Claim A device for determining the level of the conductive liquid, consisting of a power source, a measuring unit 40 connected to the first terminal of the source, a first electrode sensor formed by a first electrode and a common electrode that is connected to a second terminal of the source, and a second electrode sensor 45 formed by a common electrode and a second electrode made shorter than the common electrode, characterized in that, in order to improve accuracy, the power source is made in the form of an AC source 50, measure ny unit is configured as the automatic measuring bridge, the shoulders of the adjacent electrode sensors are included, the first and common electrodes are made equal mezh55 a row along the length, and the first and second electrodes are arranged parallel to the general.