SU1086367A1 - Device for viscosity determination - Google Patents

Abstract

A DEVICE FOR DETERMINING VISCOSITY containing a ball of ferromagnetic material dispersed in a cylindrical housing for a test medium, a ring source of a magnetic field, and a circuit for measuring the time of movement of a ball, characterized in ken with. B1 than three-phase a ecticoft cat: / - shki, connected to a three-phase current source, and the ball travel time measurement circuit contains two Q Q1cc spliced electrical coils, first in the plane I will set the ball along the arc of the cylinder body i; connections with the g-belt measuring unit. OU U 1o iCO

Description

The design of fires for imaging equipment, in particular, for the determination of the viscosity of plastic-viscous media, for example, mortar and concrete mixtures, is a baking dough. A device for determining the viscosity of plastic-viscous media, containing a container for the medium under investigation, with a hollow ball partially filled with liquid, a source of disturbing force (vibration) acting on the medium and the ball, and a scheme for measuring the time of ball movement are known. on Wednesday .13. A disadvantage of the known device is low measurement accuracy, due to the fact that the ball moves in the medium along an arbitrary trajectory, depends not only on the viscosity of the medium, but also on the frequency and amplitude of vibration, as well as on the mass of the ball. Therefore, the time of the ball passing in the studied medium of a certain path is always different from the time of the ball passing through the height fixed in the known devices. All this leads to a substantial reduction in the accuracy of measurements. The filling of a ball with a heavy liquid does not ensure the strict stabilization of the trajectory of its movement in the medium under study. In addition, the known device allows to determine not the true value of the viscosity of the medium in its volume, but the viscosity of the medium around the ball, i.e. vibration. The closest to the proposed device by its technical essence and the achieved effect is a device for determining viscosity, which contains a ferrous alloy ball, a tiny source of magnesium sweat and a ball time measurement circuit located in a cylindrical housing for the test medium. When the ball moves to stabilize, it is made with a cylindrical through hole and is mounted on a string fixed at the bases of the cylindrical body, and the ring source of magnetic psp is slidable over the cylindrical surface of the body 2. However, the DSC is from (: My device is characteristic of measurement 5 measurement accuracy, due to the viscosity depending on the height of the column, studied by SRSN..1 B cylindrical case. In addition, the known device is intended only for determining the viscosity of poorly structured systems such as oil, solidi, fuel oil, etc. The purpose of the invention is to improve the accuracy of measurement and enhance the functionality of the device. The goal is achieved by the fact that the device for determining viscosity contains in a cylindrical housing for the test medium a ball of ferromagnetic material, an annular source of a magnetic field and a circuit for measuring the time of movement of a ball, an annular source of magnetic psp is extracted in the form of a three-phase electric coil connected to a three-phase current source switched on electric coils, lined up in the plane of installation of the ball along the arc of the cylindrical body and connected to the time measurement unit. FIG. 1 shows a structural diagram of the device, front view; in FIG. 2, the same plan view. The device for determining viscosity contains a cylindrical body 1, made of a non-magnetic material, with a ferromagnetic ball 2 placed on its bottom}). The ball 2 is made of magnetic-magnetic material, for example, barium hexaferrite, in the form of a dipole with a coercive force exceeding E. Vokrug. Corps 1 is equipped with a three-phase electric coil 3, connected through a switch 4 with a three-phase AC source 5 (industrial network B or 38 O, 5 O Hz). The circuit for measuring the time of movement of the ball 2 is made in the form of counter-connected electric coils 6 and 7, jjacn complicated in the plane of installation and the ball moves along the arc of the cylindrical body 1 and connected to the time measurement unit. The time measurement cell contains an amplifier 8 connected to block 9, which controls the operation of the reversible counter 10. A pulse generator 11 is connected to the input of the counter 1O through block 9, a pulse 9 (electronic key) can be made on the basis of a multivibrator with one stable position. The frequency of the oscillation of the generator pulses 11 selects - -Hj based on rpe6ypN; oft the accuracy of measuring the time of passage of the ball by the ball 2

Claims (1)

DEVICE FOR DETERMINING VISCOSITY, comprising a ball made of ferromagnetic material located in a cylindrical housing for the medium under investigation, an annular magnetic source and a measurement circuit for the ball's travel time, characterized in that, with a chain for increasing the accuracy of measurement and expanding functionality, the magnetic field source is made in wade a three-phase electric coil 'connected to a three-phase current source, and the circuit for measuring the time of movement of the ball contains two counter-connected electric ue coil disposed in the image plane of the ball along the arc of the cylindrical housing and connected to the time measuring unit. fie ί 10863 67