SU1259154A1 - Apparatus for measuring in-flow liquid viscosity - Google Patents

Abstract

The invention relates to a technique for measuring the viscosity of liquids. Its purpose is to improve the measurement accuracy by eliminating the effect of flow on the oscillatory characteristics of the probe. The device comprises an information processing unit, a viscosity measuring transducer, a rod probe consisting of damped and non-damped parts separated by an elastic suspension. The damping part of the probe is located in a protective casing, made in the form of a cylindrical cup with slots. The non-finished portion of the probe is placed in the coaxial gaps of the exciter and receiver transducers, oriented in the same plane, passing through the axis of the rod probe. The protective cover in its bottom part is provided with a central hole and slots in its upper part, oriented in a plane perpendicular to the orientation plane of the transducers. 2 Il. (L ate with

Description

I1

This invention relates to a technique for measuring the viscosity of liquids and can be used in the chemical, petrochemical, and other industries to control the viscosity of a product stream.

The purpose of the invention is to improve the measurement accuracy by eliminating the effect of flow on the oscillatory characteristics of the probe.

Figure 1 shows a device for measuring the viscosity of a fluid in a stream; FIG. 2 shows exciting electromagnetic transducers and a non-damped part of the rod probe oscillating in equipotential gaps (5.

A device for measuring the viscosity of liquids in a stream contains a unit 1 for processing information and controlling oscillations of a probe, a measuring transducer 2, a rod probe 3 consisting of a damped 4 and an undamped 5 parts separated by an elastic suspension 6, the housing 7 of the measuring transducer 2, a protective cover 8j having notches 9 and a central hole 10, which excite electromagnetic transducers t1, receiving electromotive-magnetic converters 12,

A device for measuring the viscosity of fluids in a stream operates as follows.

The undamped part 5 of the rod probe 3 oscillates under the influence of a variable force of the exciting electromagnetic transducers 11, which is close to the oscillations in the same plane coinciding with the axis of the rod probe. Due to the elastic suspension 6, these oscillations are transmitted to the damped part 4 of the rod probe placed in the measured medium, while the orientation of the oscillation plane of the damped part coincides with the orientation of the oscillation plane of the undamped part.

The measured fluid through the gaps 9 in the upper part of the protective casing 8 fixed on the housing 7 of the measuring transducer 2 enters the cavity of the protective casing and after contact with the damped part of the rod probe through the central opening 10 from it emerges, and the flow direction .- liquids perpendicular to the plane of oscillations of the rod probe.

542

The viscosity of the medium to be measured is converted by means of a receiving electromagnetic transducer 11 into an electrical signal fed to the information processing unit 1 and controlling the oscillations of the probe for subsequent transformations into the appropriate form.

In accordance with the proposed design and the relative positioning of the elements of the measuring transducer, the dynamic effect of fluid flow on the oscillatory characteristics of the probe is reduced, thereby increasing the measurement accuracy. This is achieved due to coaxial electromagnetic transducers in the device, creating an equipotential field in the gaps of electromagnets, orienting the plane of oscillations in strict accordance with the orientation of the latter (in the absence of such an orientation, the rod probe will perform flexural-rotational oscillations that enhance its interaction with fluid flow, while reducing measurement accuracy).

In addition, a certain oscillation plane unambiguously increases the quality factor of an oscillatory system formed by a rod probe and an elastic suspension, which also improves the accuracy of the measurement.

Perforations in the upper part of the protective casing create a flow direction perpendicular to the plane of the vibrations, and since the sensitivity of the damped part of the probe to the impact of the damping force is less in this zone than in the lower one, the dynamic flow effect decreases and the measurement accuracy improves.

The central opening in the lower part of the protective casing together with the slots in its upper part creates a dynamically balanced fluid flow when the frontal resistance is reduced from the damping part of the probe, reducing the effect of flow on the oscillatory characteristics of the latter and increasing the measurement accuracy. Measurement error decreased from 4 to 2.

Claims (1)

Invention Formula An instrument for measuring the viscosity of fluids in a stream containing a measurement A transducer with excitatory and receiving electromagnetic transducers and a rod ond, consisting of damped and non-damped parts, separated by an elastic suspension, while the non-damped part of the probe is located in the housing of the viscosity measuring transducer, and the damped part is in a protective casing made in a housing of the measuring viscosity converter, and the damped part is located in a protective cover made of damped viscosity converter. slotted glass, and a unit for processing information and controlling oscillations of the probe, characterized in that, in order to increase 544 measurement accuracy by eliminating the effect of flow on the oscillatory characteristics of the probe; the non-damped part of the probe is located in the coaxial gaps of the exciting and receiving electromagnetic transducers, oriented in the same plane passing through the axis of the rod probe; in the bottom of the protective casing, parts oriented in the plane perpendicular to the orientation plane of the electromagnetic transducers. ./ Editor N. Tupitsa .0Ut, 2 Compiled by V. Krutin Tehred M. Khodanich Proofreader M. Sharoshi Order 5114/41 Circulation 778 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4