SU545897A1 - Instrument for determining the rheological parameters of dispersed materials - Google Patents

Description

The device has a plate displacement measurement unit consisting of a projector 14, a movable mirror 15, a fixed mirror 16 and a photoelectric tracking system 17, made on the basis of a high-speed self-feeding device. As the photosensitive element is the photoresistance 18, mounted on the carriage 19 of the recording device. The photoresistance 18 is included in one shoulder of the bridge 20, the output of which is connected to the input of the amplifier 21, which controls the reversing motor 22, which is kinematically connected to the carriage 19. A recording pen 23 is attached to the carriage 19.

The device works as follows.

The force acting on the plate 5 is created by the mechanism 6, the torque developed by it is proportional to the current in the movable coil 7 connected to the output of the amplifier 8. The required current is established with the help of the setting device 9 at the input of the amplifier 8. The coil of the magnetoelectric speed sensor 10 is induced The electromotive force is proportional to the shear rate of plate 5. The output of speed sensor 10 is differentiated by differentiator 12, the output of which produces a signal proportional to acceleration ha moving parts, ie. e. at the same time as the forces of inertia. The output signal of the differentiator 12 is supplied to the input of the amplifier 8 with a value that provides accurate compensation of the inertia forces. The degree of compensation is set by the regulator 13.

Non-continuous measurement, as well as recording the movement of the plate 5 in the test medium 3 is as follows.

From the projector 14, the light beam is directed to a sliding mirror 15. The beam is reflected from the mirror 15, the direction of which depends on the displacement of the plate 5 in the test. medium 3, falls onto mirror 16, reflecting from it onto the photosensitive element 18 of the following system 17.

Moving the light beam causes the imbalance of the bridge 20, in one arm of which photocontacts are included 18. Amplified by the amplifier 21, the signal of the imbalance of the bridge 20 causes the rotary indicator 22, which causes the carriage 19 to follow the movement of the light beam until the balance of the bridge is restored. In this way, continuous measurement as well as recording by pen 23 during the movement of plate 5 in the test medium 3 is ensured.

This device allows small plate displacements to be measured, and the measuring range can be easily changed by changing the distance between the creation and transfer unit of the plate and the photoelectric tracking system. In this case, the relationship between the actual and measured values of the plate displacement is linear, which greatly simplifies further processing of the obtained data. Due to the sufficiently powerful light source (projector), the device can be operated under general illumination of the room.

Ф о р. М у л and inventions

A device for determining the rheological parameters of dispersed materials, including a base with a vessel for the test medium, a plate, a pressure source connected to the plate by a lever, and a measuring device, characterized in that, in order to improve the accuracy of the measurement, the pressure source is equipped with a magnetoelectric power mechanism, magnetoelectric sensor speed, electronic differentiator, feedback depth regulator, force adjuster and amplifier, the power mechanism, speed sensor and lever located on the shaft, and the winding of the speed sensor is connected to a differentiator, which is connected to an amplifier through the feedback controller and force adjuster, the output of which is connected to the winding of the force mechanism.

Sources of information taken into account in the examination:

1. Mason R., Wockey N. “Rheology of Elastomers, London, 1958

2. USSR author's certificate L 484809, G 01 p 3/24, 1972.

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