SU723381A1 - Autocompensation-type liquid level indicator - Google Patents

Description

(54) LIQUID LEVEL AUTOCOMPENSATION SENSOR

The invention relates to information-measuring technology and automation and can be used for remote measurement of liquid level.

A contactless level gauge is known, which contains an electric motor with an impeller, made in the form of a float, sliding along a vertically mounted shaft of an electric motor and between the stops fixed to the shaft, and an ammeter in the power supply circuit of the electric motor 1.

The disadvantages of this device are the large size and high power consumption due to the use of an electric motor.

The closest technical solution to the present invention is a device for measuring the level of a liquid, comprising a tube of non-magnetic material, the bottom of which is closed by a membrane with a strain gauge attached to it, a DC bridge, an amplifier, a DC rod electromagnet, a secondary converter and a power source 2.

A disadvantage of this device is its low reliability, large size and power consumption.

The purpose of the invention is to increase reliability with decreasing size and consumed mosh.

The goal is achieved by the fact that in the autocompensation liquid level sensor the secondary converter is designed as an electroosmotic converter connected to the output with a flat annular capillary filled with a dielectric polarized liquid divided by a mercury column

to which a bias voltage is applied, with electrodes connected to a power source located outside the capillary in the area of the mercury column. FIG. 1 shows a section of the sensitive head of the device in a reservoir of liquid; in fig. 2 - electrical measuring circuit.

Claims (2)

The bottom of the tube 1 of non-magnetic material is covered with a sensitive membrane 2. A membrane is fixed, naprmer glued, a strain gauge 3 and a permanent magnet 4. A rod solenoid 5 is fixed in the tube. One terminal of the electromagnet winding 6 is connected to the negative terminal of the stabilized power source UUT 1, and the other end of the winding “b” is connected to electrode 7. Electrode 8 is connected to the positive terminal of the power source Ucf i- Electrodes 7 and 8 are located on a flat capillary 9 of an electroosmotic converter filled with a dielectric polar liquid 10. In the capillary 9 there is a mercury column 11, to which a bias voltage UCM is applied by contact 12. Electrodes 13 of the electroosmotic converter are connected to the output of amplifier 14, the output of which is connected to a bridge circuit consisting of resistors 15, 16, 17 and resistances of 18 ten zodatchika. Terminals "in" and "d are connected to a stabilized voltage source Uc.T2. The device works as follows. When the liquid level in the reservoir changes, the hydrostatic pressure P changes. In this case, the membrane 2 is deformed with the strain gauge 3, as a result of which the resistance of the strain gauge changes and, therefore, an imbalance appears at the output of the balanced bridge circuit. The unbalance voltage amplified by the amplifier 14 is applied to the input electrodes 13 by an electroosmotic converter. This leads to a change in the position of the mercury column 11 in the capillary 9. Moving the mercury column relative to electrodes 7 and 8 leads to a change in current between the electrodes. As a result of this, the current in the winding 6 of the electromagnet 5, and hence the magnetic force acting on the permanent magnet, changes in the following way. THAT the deformation of the membrane 2 with the strain gauge 3 is reduced to zero. Thus, the current in the winding 6 of the electromagnet 5 is proportional to the measured liquid level. The invention of the Autocompensation liquid level sensor, comprising a tube of non-magnetic material, the bottom of which is closed by a membrane with a strain gauge and a permanent magnet attached to it, a rod-type DC electromagnet, an amplifier, a DC bridge, a secondary converter and a power source, characterized in that In order to increase reliability while reducing size and power consumption, the secondary converter is designed as an electroosmotic amplifier connected to the output. a transducer with a flat annular capillary filled D14elektricheskoy polarized liquid separated mercury column, to which a bias voltage, while the outside of the capillary column of mercury in the positioning area has electrodes connected to a power source. Sources of information accepted in the attention during the examination 1. Author's certificate of the USSR No. 347585, cl. G 01 F 23/00, 1970. 2. USSR author's certificate number 494614, cl. G 01 F 23/18, 1974 (prototype). FIG. 2