SU328375A1 - ROTARY VISKOSIMETER - Google Patents

Description

The invention relates to devices for the rheological testing of low-viscosity liquids.

A rotational viscometer is known, comprising a housing, an outer cylinder associated with a drive, an inner cylinder and a torsion meter.

In the proposed device, in order to expand the range of measurements, the torsion is fixed to the body through the mechanism of rotation and connection to the inner cylinder with the aid of a powered coupling.

The invention is illustrated in the drawing.

The inner measuring cylinder / instrument is equipped with cores 2 and 3. The lower core 2 is installed in the bottom 4 of the outer cylinder 5, made, of nanrichsr, of transparent quartz. The upper core 3 is located at the lower end of the torsnon 6, which is connected to the inner cylinder by means of a powered coupling 7. The upper end of the torsioi is mounted in the iodicle box 8 in the housing 9. The gap between the torsion bar 6 and the housing 9 is sealed with a ring W.

The torsnon is attached to the body through a high-speed turning mechanism, embedded in the form of a coil spring //, lever 12 and solenoid 13 with a clamping core 14, against which the pinion of the lever 12 abuts.

attached to the bottom end. At the upper end of the rod 5, a pocket mirror 16 is mounted. The housing 9 is connected to the outer cylinder 5 through a sealing ring 17. To create pressure in the material under study, the housing 9 is provided with a spring 18, a spring 19 and a screw 20.

The viscometer works as follows.

The space inside the building 9 and the gap between the cylinders / and 5 are filled with the test material. In the outer direction of the cylinder 5, a rotational double ring is reported, while in the material under study there are various gears that create a torque on the inner cylinder. The cool moment is transmitted through the coupling sleeve 7 to the torso 6 and causes it to twist. The twist angle, and consequently, the magnitude of the torque, is determined but not offset by the light beam reflected by the mirror 16.

After deformation of the material under study by a given amount, the outer znidr 5 stops and simultaneously turns on the solenoid 13. In this case, the latch 14 releases the lever 12 and under the action of the spring and the torsion 6 quickly turns to the direction of the deformed material. The coupling clutch 7 is disconnected at this moment. Under the influence of our recovery

of the material under study, the inner cylinder is rotated through a certain angle.

The magnitude of the rotational angle of the inner cylinder, which is a measure of the elasticity of the material under study, is measured by the movement of the mark applied on its lower end. The movement of the mark is observed through the transparent bottom 4 of the outer cylinder 5 using an optical system.

Subject invention

A rotational viscometer comprising a housing, an outer cylinder associated with the drive, an inner cylinder, a torsion bar, and an assembly for measuring its twisting, characterized in that, in order to extend the measurement range, the torsion is attached to the housing through a turning mechanism and connected to the inner cylinder by means of a pedestal couplings.

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