SU76269A1 - Instrument for measuring the viscosity of liquids - Google Patents

Description

The present invention proposes a device for determining the measurement of the viscosity of a fluid, intended to study the physicochemical properties of plastic materials when determining their viscosity characteristics and structural strength.

Known viscometers do not provide an exact strict increase in load, its continuity and automatic recording of the viscosity curve.

In the proposed device, these disadvantages are eliminated. Using a siphon device to empty the water vessel, which serves as a counterweight to the load, a smooth and continuous increase in load from zero to maximum with a predetermined loading speed gradient and automatic registration of the viscosity curve of the material under investigation, plotted directly on the graph with a self-recording device installed on the axis rolling cylinder.

The results of the study are obtained immediately after the end of the test in the form of a diagram. This allows us to immediately reveal all the patterns in the behavior of the material under study, and also to timely detect errors that occurred during the testing process due to mechanism malfunctions (for example, bearing sticking, etc.).

In order to test different samples under the same conditions, adjacent cylinders with different working surfaces, for example, from 2 to 10, from 10 to 50 cm and from 50 to 100 cm, are used in the device. P1Change the filling level of the cylinders with the test material, it is possible within these limits to obtain any area of the working surface of the rolling cylinder.

The drawing shows a general diagram of the device device.

The test material 13 is placed between the walls of the cylinders. The outer cylinder 3 is fixed, and the inner 4 is rotating. The cylinders are mounted inside the temperature chamber 1 on the rotating stand 2. The rotating cylinder 4 is connected to the drive pulley shaft 6 by means of a sleeve 5.

The automatic registration of the viscosity curve on the drum 8 is achieved by mounting the pen of the recorder 7 at the end of the shaft, which, when the shaft rotates, moves around the drum 8 having od27.

modern progressive movement along the vertical, communicated to it by MOTOp4KKON5 or by local mechanism.

The loading device consists of a cargo weight 9, balanced by a counterweight in the form of a vessel 10 with water, which is emptied by means of a siphon 12 fixed on the float //. Upon opening the siphon 11, water from the vessel 10 will begin to flow at a uniform rate regardless of the level of the liquid in the vessel.

When a known weight difference is reached, the weight of the weight 9 will begin to fall, and the endless belt will transmit torque to the shaft.

To protect the water vessel from accidental shocks, a fence 14 is arranged. If the weight 9 or the drum reaches 8 extreme extreme positions or when the water supply in the vessel 10 is exhausted, the device automatically stops.

Subject invention

Claims (3)

1. An instrument for measuring the viscosity of a fluid using a symmetrical body immersed in the test fluid, which is put into rotation during measurement with a uniform speed, for example, using a weight suspended on the unit, so that the viscosity is determined by the body deceleration time. in a fluid under the influence of friction forces, about t and h and with the fact that, in order to create a smooth change in the load on the axis of rotation, the load that causes it to rotate is made in the form of a vessel filled with liquid, mounted on a vessel enclosed in the float siphon outcoupling intended for providing persistence outflow velocity of the water vessel regardless of the last layer. 2. In the device according to claim 1, use a stylus fixed directly on the axis of rotation of the body and intended to automatically record the viscosity curve on the surface of the rotating chart drum. 3. In the device according to claim 1, use several replaceable vessels to place samples of the test materials in them, with the aim of being able to test different samples in the same conditions.