SU59192A1 - Instrument for determining the viscosity of liquids - Google Patents

Description

Viokozimetra, based on the Stokes cobbler, with a ball falling in a liquid, are known, consisting of a cylindrical glass tube filled with test liquid and coil wound onto the tube, and the other connected to the grid of the electron tube, in an anode circuit which includes a relay controlling the warren motor associated with the direction arrow.

The present invention proposes a device for determining the viscosity of a test liquid, for example, peat hydromass, by the rate of falling of balls in it, automatically discharged into the liquid from the funnel through a tube periodically connected to a funnel when the drum rotates and is provided with elastic at its bottom end. focusing.

The use of electrical signaling and the Warren motor in the present invention is preserved, as in the already known viscometers of this type.

In the accompanying schematic drawing of FIG. 1 shows the general scheme of the proposed device; FIG. 2 - the basic (principal) scheme of the device; FIG. 3 - position diagram

a drum with a funnel tube; FIG. 4 - the same side view in raeray; FIG. 5 - wrong position of the drum, excluding the connection of the tube with the funnel; FIG. b - Same with a different turn.

The author proposed the scheme shown in FIG. The basis of the Preferred autoball ball viscometer. 2

A coil 2 of insulated wire is threaded onto the glass cylinder 4. One end of the coil is connected to the grid of the electron tube 21, and the other to the source; power supply 29. A loudspeaker 30 is turned on in the anode circuit, which SOUNDS when the ball falls inside the cylinder. The duration of the sound allows judging the speed of the ball and, therefore, based on the Stokes law, on the viscosity of the test liquid.

The duration of the sound can be detected using a stopwatch or a self-recording device.

Details and operation of the device 3 and 4 (Fig. 1) consist in the following Warren 6 motor drives the drum 9 with the pointer (brush) 8, which is inside the stationary cylinder 10 with the recorder 13

and three pins 12 (12, 12 and 12) corresponding to the speed of the ball. From each contact, wires go to monitored (signaling) lamps 28, indicating speeds: 28 — lower than otgimalnoy viscosity, 28 — co-opto-opto-opticLyoje, “—below optimum. The ball is let through a funnel 7, from where it enters the transverse channel 11 located in the drum 9, and from there the S tube 5 leading to the cylinder 4 is received. On the way, the ball falls on the support 3 of elastic material, designed to absorb the kinetic energy of the falling ball. Then pass the layer of the test liquid, the ball enters the ball trap 1.

When a steel ball falls in a cylinder with a coil, in and out of the coil, the electromotive force will change and the anode current in the amplifier circuit will change. The latter includes: high resistance resistors 14, 16, 18, 20 and 24, capacitors 15, 17, 19 and 23, power sources 29 (Ii, Ia, Ying, Ia), electronic .camps 21 and two transformers: between the lamp 22 and hatcher 25.

The amplification of the anode current will continue throughout the entire time the ball falls. At the same time, it is necessary to select a relay 27 so that it O is triggered when a ball enters the coil with the current turned off as the ball passes through the entire coil; the time interval between these limits is measured and is the starting material for the determination of viscosity.

The relay, which operates, closes the contacts of the Warren motor, which behaves: the role of a watch recorder. Warren's motor is powered by 220 volt AC power. To control the entire installation, a neon lamp 26 is used, which lights up when a relay is triggered.

FIG. Figures 5 and 6 depict the positions of the transverse channel in the rabbit, with a correct start-up of the ball, when the pointer has not been previously brought to the required initial position.

In the first position (Fig. 5), the ball cannot get from the funnel 7 into the transverse channel AND, and the second position (Fig. 6) of the ball that falls into the transverse channel cannot enter the tube 5 leading to the viscometer cylinder.

Subject and d optin.

Claims (2)

1. An instrument for determining the viscosity of liquids by determining the speed of a ball falling in liquid, made in the form of a glass tube with a coil superimposed on it and connected to a power source and to a grid of a vacuum tube, in which the anode controls the rotation of the Warren motor associated with a directional arrow, characterized in that, in order to automatically drop balls into the test liquid in a glass tube, a drum 9 with a transverse channel rotated by a Warren motor is used, the periodicity informing a funnel 7 with a tube supplied to the vessel with a liquid. 2. In accordance with claim 1, use is installed at the end of the inlet tube of an abutment of elastic material designed to absorb the kinetic energy of the balls falling through the tube. Sz, CVJ rc igcoowpopopl Fig 2 r nests ||| . ha 28 S8 thirty to: Fig4 "- TE ::::