SU646225A1 - Viscosimeter with automatic reduction of measuring viscosity to predetermined temperature - Google Patents

Description

(54) VISKOSIMETER WITH AUTOMATIC ARRANGEMENT OF THE MEASURABLE VISCOSITY. TO THE SET TEMPERATURE

can be measured at a strictly determined casting temperature.

The disadvantage of the known viscometer is that the regulator

 Auto-tuning does not signal with

the temperature sensor of the chamber where the viscosity sensor is placed, the signal of which is compensated, i.e. thermal compensator, getting information about. the coefficient of the argument of the operational function of the temperature coefficient of viscosity does not receive a signal depending on the actual temperature in the measuring chamber, i.e. from the argument itself. Inevitably, this means a low –ffocTfc measurement of the viscosity of liquids with a lead, since the error in determining the reduced viscosity increases with an increase in the temperature range of the measured viscosity. .

The well-known viscometer also contains ottryTCfBYiot

change the Setpoint Temperature in the measurement process.

The purpose of the present invention is to improve the measurement accuracy.

For this, the viscometer is additionally equipped with a wb1) b1Mitel and a potentiometer for setting the temperature of the set, a multiplier and a summing amplifier covered by the non-linear current communication, with a single input connected to the output of the multiplication unit, 1SgrHrHrHrHrHrHrHrHrHrHrHrHrHrHrHrHyrHyrHyrHyrHyrHyrHyrHyrHyrHyrHyrHyrHyrHyrHyrHyrHyyi

dinene with a temperature sensor, and the input is connected: to the logarithm V GSH la: dMTCHYK in HS

- prl, burnt in one measuring gauge: çà т à à à à à ¯ à nd Ã Г 31  ° temperate: a potentiometer for setting the temperature of the actuator connected to the second meter. , . % a WFefe G115 ALREADY §1 The scheme before SSPte es o of a vyekbzymetr with an arithmetic by recruiting the measured temperature to a predetermined temperature.

 with a volume of measured return of the cable. Measuring sensors 2, 3 and 2, s in Ekosti; I Shchrat1 / Ra install in the areas of measurement. The signals from viscometers 2 and 2 come into WH WHAT blister 4 determining the temperature coefficient of viscosity of liquids, the output of which produces a signal proportional to the ENERGY logarithm to the inputs of a log propellant. 5.

5lrk 5 is included in the functional block 4 of the continuous determination of the temperature coefficient of viscosity of the 6mgt, tio & p & Shiicfc in the known device. The unit 4 includes a subtractor 6, which forms an output signal proportional to the temperature difference at the measurement points t | -12) and a division unit 7, the output signal of which is proportional to the temperature coefficient of viscosity ().

The output of the logarithm of the signal from one of the viscometers, for example 2, is connected to the input of summing amplifier 11, and the signal from thermal simulator 3, which is in the same measuring zone with viscometer 2, is subtracted from the signal taken from potentiometer 9 that sets the temperature of the reduction temperature using a subtractor 8. Signal from the output of the subtractor, proportional to the value of tnp-t | , is fed to the input of block 10 multiplication.

Since the latter consists of -. logarithmizing, summing and actilogarithm amplifier, in block 7 of division it is possible to remove the actilogarithmator, which will avoid one logarithm amplifier in block 1 multiplication, and then the subtractor of block 7 will be connected to the input of block 10,

At the output of the multiplication unit, a signal is formed that is proportional to the product of t (t ave.- t).

This signal is fed to the input of summing amplifier 11, covered by block 12 with nonlinear feedback.

If there is an ijnp, at the input of the nonlinear block, its output is the signal r p-Epp p. Thus, after summing up all the signals at the input of amplifier 11, its output will be: a time proportional to

. Apr-- "Mr. Npr-Ch1 gpr- pr

: S1There is obvious, h.tr

O. „p (np, -ti

ifiP Zie.

The Gysson dependence corresponds to the dependence jr 12dv, which, as shown by experimental data. Obtained on petroleum oils, with an accuracy of no worse than 2%. Approximates the curve at b-temperature in the temperature range of +20 -.

The secondary device 13 is designed to read the result corresponding to the measured viscosity reduced to a predetermined temperature. The amplifier 12 may be connected to a process controller.

Thus, the proposed viscometer allows a continuous flow viscosity adjusted to a predetermined temperature.

rtb with the known devices it has the following advantages:

1) approximation of the viscosity curve of the known product becomes unnecessary, since the parameters of viscosity-temperature dependence are directly calculated on the basis of the sensor readings;

2) viscosity conversion is carried out for a L, previously unknown product;

3) viscosity values can be reduced to any given temperature;

4) the output signal with high accuracy corresponds to the viscosity of the measured liquid at a given temperature ;.

5) measurement and reduction is performed continuously;

6) the lack of contact elements significantly increases its reliability.

The proposed viscometer is designed for continuous measurement of the viscosity of liquids at a given temperature.

Claims (2)

Invention Formula A viscometer with an automatic conversion of the measured viscosity to a predetermined temperature, containing viscosity and temperature sensors, arranged in pairs in two measuring bays, a functional unit for continuously determining the temperature coefficient of viscosity of the monitored product, including a logarithm and calculator, a secondary device characterized by that, in order to increase the measurement accuracy, dp is additionally equipped with a second subtracter and a potentiometer for setting the temperature of the set, multiplying the unit and summing m amplifier covered nonlinear feedback, and the summing amplifier with one input connected to the output of multiplying unit, the input of which through a subtracter is connected to the sensor tempera5 tours, and a second input connected to; a logarithmometer of a viscosity sensor signal located in the same measuring zone with this sensor; tours, and the potentiometer for setting the reference temperature is connected to the second subtractor. Sources of information taken into account in the examination l-Qroiden Lerome E.Cornpenscilec of the BSW mea5urement, by speciaE-purpose an oEo computer LSA 3noinsl96 -, 3, No.l. 2. USSR author's certificate 208332, cl. 01 M 11/04, 1966.