SU586368A1 - Ball-type viscosimeter for opaque liquids - Google Patents

Description

one

This invention relates to a technique for viscosimetry of opaque liquids and can be used in the metallurgical, chemical and other areas of industry.

Known ball viscometers with a vertical or inclined tube filled with the liquid under study, in which the ball moves. The ball time is recorded and it is proportional to the viscosity at other constant parameters. The disadvantage of these viscometers is the low measurement accuracy.

The closest technical solution to the invention is a ball viscometer for opaque liquids, containing a vertically or inclined tube located with coils of inductance placed at the reference points, a thermostat.

The disadvantage of this ball viscometer is the contradiction between the need to reduce the size of the coil to more accurately record the time when the ball passes the reference point and is proportional to the decrease in the magnitude of the primary signal. This causes unreliable measurements.

The aim of the invention is to improve the reliability of measurements.

This goal is achieved due to the fact that the tube is equipped with a second pair of inductors, and both pairs of coils are provided with ferromagnetic cores,

diametrically opposed around the tube, with one pair of coils connected to an AC source, and the other to a time counter and the number of pairs of coils is at least two. This goal is also achieved due to the fact that the nearest edges of the ferromagnetic diametrically opposed cores are made pointed.

FIG. 1 shows schematically the proposed ball viscometer, a general view; in fig. 2 - reference point node; in fig. 3 is a signal acquisition and recording circuit.

The ball viscometer consists of a rack 1, on which the tube 2 with the test liquid is fixed. The coils 3, connected to the AC source circuit, are installed at a minimum of two reference points, as shown in FIG. 3. The ball 4 is located in the tube 2, surrounded by a thermostatically controlled vessel 5. The detector coil 6 is located at a reference point opposite the connected coil 3.

Ball viscometer works as follows.

The angle of inclination of the tube 2 is fixed, the temperature in the thermostatically controlled vessel 5 is set, the induction coils 3 are turned on at least two reference points. Detector coils are connected to time counter 7 shown in FIG. 3. When the circuit is turned on, the time counter does not work due to the dissipation of the electromagnetic energy of the induction coil 3. At the moment when the ball passes the 4th reference point, as shown in FIG. 2, the magnetic lines of force are closed and the EMF is excited in the detector coil 6, which is sufficient to turn on a time counter, such as an electric stopwatch. With the passage of the next reference point, the time counter can be automatically turned off and the resulting ball movement time is used to calculate viscosity.

The technical and economic efficiency of the invention consists in increasing the reliability of measurements and avoiding expensive amplifying devices.

Claims (2)

1. Ball Viscometer for opaque liquids containing vertically or an obliquely positioned tube with coils injected at reference points on it, a thermostat, characterized in that, in order to improve the reliability of measurements, the tube is equipped the second pair of inductors, both pairs of coils equipped with ferromagnetic cores located diametrically opposite the tube, with one pair of coils connected to an alternating current source and the other to a time counter and the number of pairs of coils is at least two. 2. Viscometer according to claim 1, distinguished by the fact that the nearest ferromagnetic edge diametrically opposed cores are made pointed. Fy