SU842483A1 - Device for measuring liquid media viscosity - Google Patents

Description

The invention relates to instruments for measuring the viscosity of various liquids. A visually known viscometer of the type VU consists of two brass cylinders, of which the inner one is intended to be filled with the test fluid and the outer one plays the role of a thermostat. At the bottom of the inner cylinder there is a drain hole to which a capillary is attached. For measuring the viscosity of the fluid flowing from the capillary, a graduated measuring flask serves. Conditional viscosity is defined as the ratios of the expiration of a specific volume of the test liquid to the time of expiration of distilled water of the same volume 1. However, this device does not have sufficient accuracy, since the level of the test liquid is determined visually. The closest in technical terms to the present invention is a device for determining the viscosity of liquid media containing a measuring capacitance, a filling vessel, a capillary, as well as an electromagnetic valve for locking the filling vessel and a photoelectric sensor, associated with the automatic control unit 2. The disadvantage of this device consists in the impossibility of detecting the level of transparent liquids in transmitted light, since these liquids have: it is a small linear coefficient. light off. The intensity of the luminous flux detected by the photocell remains almost unchanged and even increases in the case of using cylindrical measuring vessels due to focusing of the luminous flux. The purpose of the invention is to expand the range of the tested liquids. The goal is achieved by the fact that in a device for measuring the viscosity of liquid media containing a measuring capacitance, a filling vessel, a capillary connecting the measuring capacitance with the filling vessel, a photoelectric level gauge and a solenoid valve for locking the filling vessel, connected to the automatic control unit, The photoelectric sensor is located eccentrically relative to the axis of the measuring capacitance.

moreover, the value of eccentricity is 0.13-0.3 of its outer diameter.

1 shows the proposed device, a general view and a block diagram, FIG. 2 shows a beam passing scheme when the optical axis of the photoelectric sensor is co-powered with the axis of the measuring capacitance; FIGS. 3-5 shows the light beam passing scheme when the optical axis of the photoelectric sensor is mixed relative to the axis of the measuring capacitance.

A device for measuring the viscosity of liquids contains a measuring capacitance 1 installed in a housing 2 of a photoelectric sensor, formed by a photocell 3 and a source 4 of light. A filling vessel 5 with a discharge pipe b and a capillary 7 placed in a thermostat 8 is installed above the measuring tank. A heating element 9 is installed in the cavity between the walls of the thermostat 8 and the filling vessel 5. The capillary tube 7 is closed by an electromagnetic valve 10. In the filling vessel 5 sensor

11temperatures. The housing 2 photoelectric gauge has a hole

12 for measuring tank 1 and hole 13 for forming a narrow beam of rays from light source 4 to photocell 3. The axis of hole 13 is offset relative to the axis of hole 12 by the amount required to use the effect of refraction of light and equal to 0.13-0.3 outer diameter of measuring tank .

The block diagram of the device includes a power source 14, a voltage regulator 15, a pulse generator 16, a control unit 17, a temperature controller 18, a indicator light 19, a measuring bridge 20, a photo relay control cascade 21, and a pulse counter 22;

The device works as follows.

When the solenoid valve 10 is closed, a certain volume of the test liquid C is poured into the filling vessel 5 From the power source 14 through the stabilizer 15, voltage is applied to the pulse generator 16. At the same time, a voltage is applied across the temperature regulator 18 to the heating element 9 and the temperature sensor 11. The test liquid is temperature-controlled from the temperature previously set by the controller 18. When the indicator is set to the Temperature, the indicator lamp 19 lights up, indicating that the instrument is ready for measurement. Then switch on the meter: Measurement: control unit 17, solenoid valve 10 is opened, and the liquid from the filling vessel 5 is tested through the capillary 7, is transferred into measuring capacitance 1. Simultaneously, source 4 of light is turned on, from which a narrow beam of rays is formed through opening 13 (fig.Z) which, falling on the photocell 3 ,. changes the resistance of the measuring bridge arm 20. The error signal is applied to the cascade 21 of the control-

0 lazy photocell and includes a counter 22 pulses. The pulse count stops when level 1-1 is reached when filling measuring tank 1 from level 0-0 with the test liquid,

5 which causes the deviation of the luminous flux from the photocell 3 (FIGS. 4 and 5) and, thus, turns off the pulse counter 22.

Claims (2)

1. Viscometer of type VU.GOST 1532-54, 2. Patent of the USSR No. 398058 / C. C 01 N 11/04, 1968 (prototype). (rig. H (puz.S