SU420906A1 - VISKOSYMETR - Google Patents

Description

one

The invention relates to the study of the rheological characteristics of liquid media.

A viscometer is known, comprising a cylindrical body, a hollow rotor connected to an axis, which is rotated during the measurement. Inside the hollow rotor is a tube that senses the rotational force transmitted by the annular fluid layer.

The aim of the invention is to increase the accuracy and the expansion of the viscosity measurement range.

To do this, a pneumatic tube is installed in the rotor, with a curved end at the end of the counter flow of the rotation of the fluid, connected to a secondary device.

The drawing shows the scheme described viscometer.

The device contains a sampling device 1, a dosing pump 2, a synchronous motor 3 for driving the pump, a thermostat 4, a rigidly fixed hollow tube 5 for supplying the test liquid through the seal and a bearing 6 to a rotating hollow tube and to a rotor 7 rigidly connected with it a circular conical rim through which the test liquid flows out — into a circular fluted drain channel with a discharge of a cylindrical, rigidly fixed body 8 of the viscometer. On a rotating hollow tube, there are rigidly mounted support plates.

9 and the drive pawl 10. A similar pawl is attached to the motor shaft of the rotor drive. Movement is transmitted by the belt 11. The speed at a fixed point is measured by a rigidly fixed pneumometric tube 12 connected to a secondary device. 13, showing and recording the value of the fluid.

The principle of operation of the viscometer is based on

viscosity based on flow velocity at a fixed point of the laminar flow of the test fluid. Such a flow is created by the transmission of motion through internal friction between the adjacent forcibly driven layers of the flow and the free layers in a state of rest.

Driving one of the layers, forcing the adjacent layers due to the presence of viscosity

(due to the internal friction forces between the layers) also move, and their speed is inversely proportional to the distance from the leading layer. For the same, equally distant from the leading layer, the speed of movement with a higher viscosity of the test liquid will be greater, and with a lower viscosity, the test liquid will decrease. The flow rate at the fused point of the laminar flow of the test liquid is the value characterizing the viscosity.

the test fluid. By measuring it, you can determine the value of viscosity.

With a uniform rotation of a vertically arranged cylindrical rotor filled with the liquid under test, the outer (outer) annular fluid layer in contact with the rotor wall comes into rotational motion at a speed almost equal to the speed of rotation of the rotor walls. The layers separated from the walls will also rotate at a constant speed, the magnitude of which will depend on the distance from the annular fluid layer to the vessel walls and on the viscosity of the liquid under study, and for a fixed point at which the velocity is measured continuously, the rotational speed of the annular The layer will be a function of viscosity only.

The test liquid is fed into the rotating rotor continuously by a metering pump, driven by a synchronous motor, through a thermostat and a rigidly fixed hollow tube, through a bearing and sealing device, through a rotating rotor at a constant speed simultaneously with the hollow tube fixed to it and flows out of the rotor along its conical drain rim into the drain chute of the cylindrical viscometer housing.

Subject invention

A viscometer containing a metering pump, a thermostat, a rotor with a hollow shaft, a drain rim mounted on the upper end of the rotor, and an annular tank with a drain placed around the rotor, characterized in that in order to increase the accuracy and viscosity measurement range, The rotor is fitted with a pneumatic tube with a curved end at the opposite end of the flow of rotation of the fluid, connected to a secondary device.

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