SU881577A1 - Device for continuous measuring of liquid viscosity - Google Patents

Description

one

 The invention relates to a device for measuring the viscosity of liquids, in particular to rotary viscometers, and can be used in the manufacture of chemical fibers and films.

A rotational viscometer is known, comprising a housing and a rotor rotated at constant speed, located inside it, a plate rigidly mounted on the measuring element, and set so that the gap between the surface of the rotor and the plate is narrowed in the direction of rotation of the rotor 11.

This device is characterized by the presence of a rigid connection of sensitive elements with load transducers, which adversely affects the performance of the devices, as it leads to a violation of the setting and even breakdown of devices due to the occurrence of overvoltages on sensitive elements.

The closest technical solution to the invention is a device for measuring the viscosity of liquids containing a flow housing

and a rotor in the form of a ring with a constant speed, a sensitive element in the form of two mechanically connected plates, connected by a lever with a registration circuit - a displacement transducer located in it. In the known device, due to the replacement of a power converter with a displacement transducer, reliability and accuracy of measurement 2 are significantly increased.

5 The disadvantages of the device include the relative complexity of the design. With a rotor diameter of 100 mm, a lever length of 150 mm and a converter of 50 mm, the overall dimensions of only the measuring part of the device reach 300 mm, which makes both the installation and operation of the device difficult. In addition, when measuring viscosity, the measured medium is usually

25 is under pressure, and therefore, a variable pressure acts on the lever rotation unit (elastic plate), which inevitably leads to an additional measurement error.

The purpose of the invention is to simplify the design of the device and improve the accuracy of its measurement.

This goal is achieved by the fact that in a device for continuous measurement of the viscosity of liquids, comprising a flow housing with a rotor located in it, a flat sensing element, a lever, one end of which is connected by means of an elastic plate with a flow housing, and measuring system, flat sensing element is made

in the form of two half-rings, the center of a circle of which is located at the junction of the elastic plate and the flow-through body, and which are located on both sides of the rotor.

The drawing shows a schematic diagram of the device.

The device contains a flow housing 1, an annular rotor 2, a flat sensing element (half ring) 3, a lever 4 in the form of a U-shaped frame, elastic plates 5, a core b, a defatush (displacement transducer): 7.

The device works as follows.

Through the flow-through housing 1 the measured liquid flows continuously. When the rotor rotates, its lateral surface at the expense of viscous forces draws a liquid into the gap between the plates of the flat sensing element 3, where due to the shear stresses of the measured liquid a force arises that acts on it. The latter is moved and, with the help of the core b, acts on the diffusion of KaTsmiKy 7, which changes its output signal in proportion to the change in the viscosity of the liquid.

Covering the sensitive element with plates of opposite parts of the rotor and making them in the form of half-rings allows the device dimensions to be significantly reduced while maintaining sensitivity and measurement accuracy.

With a rotor diameter of 100 mm and a lever length of 150 mm and a transducer

50 mm dimensions of the measuring part do not exceed 200 mm, i.e. decreased by 1.5 times.

In addition, the connection of the lever with the device case by means of elastic plates at these two points makes it possible to increase the stability of the sensitive element relative to the rotor, which has a positive effect on the stability and accuracy of measurements, and also makes it possible to eliminate the influence of a possible change in pressure of the controlled medium on the measurements.

As difkatushki (displacement transducer) is used

5 standard difftransformer unit, the maximum displacement of the core of which does not exceed 4 mm, which makes it possible to obtain (with a lever length of 100-150 mm) a practically linear output signal of the device. Therefore, no additional signal linearization is required in the device.

Claims (2)

1. Author's certificate of the USSR 380995, cl. G 01 N 11/14, 1973. 2. Authors certificate of the USSR according to the application 2734223 / 18-25, 1979 (prototype).