SU800824A1 - Liquid viscosity measuring device - Google Patents

Description

one

The invention relates to devices for measuring the physicomechanical properties of liquids and can be found for measuring the viscosity of liquids, for example, in the chemical, petrochemical, and paint and varnish industries.

A device for measuring viscosity is known, consisting of a reservoir with a controlled fluid, equipped with an outflow capillary tube, a shut-off device and a thermostat. The viscosity of such devices is judged by the time the fluid flows through a constant volume of liquid through the capillary.

The disadvantage of this device is the presence of an error resulting from a visual determination of the beginning and end of the expiration.

Closest to the present invention is a device equipped with an electric circuit measuring the expiration time. Measuring the elapsed time is reduced to determining the time for the mercury to descend between two contacts, upper and lower, sunk into tank 2.

The disadvantages of such a device are the presence of electrical contact groups in the measuring circuit, which decrease the reliability of operation and the fires of explosive conditions; In addition, in such devices it is impossible to change the dose of fluid and make measurements independently of the initial level of the controlled fluid in the reservoir.

The purpose of isophene is to increase the reliability of measurements in fire and explosive conditions.

This goal is achieved by the fact that the device is equipped with a five membrane diaphragm element, a pressure unit, a memory unit, a pneumatic three membrane diaphragm and a power amplifier, while the pressure unit and the outputs of the level meter and the memory node, whose input is connected to the corresponding inputs of the five membrane membrane element

3YO

connected to the output of the level meter i of the control device, and the output of the plug-in comparison element is connected to the nozzle of the three-membrane relay, the control chamber of the three-membrane relay connected to the output of the control device and output through the power amplifier connected to the shut-off valve and to the input of the registrar expiration time.

The figure schematically shows the ycipOHCTBO for measuring the viscosity of liquids.

The container 1 with the controlled liquid is equipped with a tube 2 of expiration. The level of the liquid, the value of which is judged on its quantity in the tank 1, is measured by means of a level gauge 3, the output of which is connected to chambers B and E of memory node 4 and to chamber B of the five-membrane membrane 5, the chamber D of which is connected to the output pressure setting device 6, and chamber B to the output of memory node 4. The output of the five-membrane element 5 is connected to the nozzle 7 of the sin-membrane relay 8, the nozzle. 9 is connected to the atmosphere. In chamber G of unit 4 of memory and in chamber B of relay 8, the pressure P from a control device, for example, a pneumatic button or a pneumotumotor, is key. The output of the relay 8 through the power amplifier 10 is connected to the pneumatic valve 11 and to the expiration time recorder (not shown)

A device for measuring the viscosity of liquids operates as follows.

The container 1 is filled with a controlled fluid. When command pressure F 1 is applied, chamber B of memory node 4 is in communication with the output line of equalizer 3, and pressure P from this line enters chamber B of the membrane-element 5 of the comparison. The command Remember P, O cuts chamber B of node 4 of the Tfi memory from the input line, and the pressure in it, which means also at the outlet in chamber B of the comparison element 5 remains unchanged as long as the command Remember is active.

The pressure at the outlet of the five-membrane comparison element 5 is equal to

if RD + Pg, Pg

PS

lo if Rd +

After removing the signal P 1, the output signal of the five-membrane component of the comparison Pd 1 through the open under the action of the back-up applied to chamber B,

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the nozzle 9 of three membranes aiogo n; ne 8, amplified by power, amplifies 1 O to the recorder during an expiration time and opens valve 11. The expiration occurs until 1d + becomes equal to Pf-. At pressure (0), valve 11 closes, the expiration time recorder records the duration of the pulse WG 1.

The proposed device makes it possible to simplify the measurement of viscosity upon repeated measurements, for example, in obtaining the dependence of the viscosity of liquid media on temperature. In addition, the device allows automated sample preparation simultaneously with the measurement of viscosity.

Claims (2)

1.Bogomolov A.I., Mikhailov K.A. Hydraulics. M., stroiizdat, 1972, with. 2O-21. 2.Agayev N.A., et al. Automatic measurement of expiration time in visco: imetry. - Measuring equipment, .1971, No. 7, p. 74 (prototype).