RU52483U1 - DEVICE FOR CONTINUOUS MEASUREMENT OF VISCOSITY OF LIQUID IN THE FLOW - Google Patents

Abstract

Objective: increase the functionality of the device. The device consists of a power supply 1, an ultrasonic vibration generator 2, an ultrasonic vibration emitter 3, a radiation receiver 4, a preamplifier 5, a detector 6 and; information processing systems 7. An emitter of ultrasonic vibrations 3 and a radiation receiver 4 are mounted on a pipe 8 through which the test fluid passes. Positive effect: continuous determination of fluid viscosity in the stream.

Description

The utility model relates to the field of measuring viscosity in a stream, and can be used in various branches of the food industry, as well as in the oil refining industry.

A device for measuring the viscosity of liquid media containing a sensing element with a rod connected to the membrane, and the drive of the sensing element, which contains two electrodes separated by a dielectric gasket, the cavity between which is filled with an electrorheological suspension, and one of the electrodes serves as an elastic membrane with an electric drive layer on the inside surface [Aut. testimonial. USSR No. 832419, MKI G 01 N 11/00, 1981].

The disadvantage of this device is the inability to measure the viscosity of the liquid in the stream.

Closest to the claimed device, in terms of features, is a device for measuring the viscosity of a liquid, comprising a generator of ultrasonic vibrations, an emitter of ultrasonic vibrations, a radiation receiver electrically connected to an information processing system including a mixer and a measuring device [see Petrov I.K. Technological measurements and devices in the food industry. - 2nd ed. reslave. and add. - M .: Agropromizdat, 1985. - p.263-265].

The disadvantage of this device is the inability to continuously measure the viscosity of the liquid in the stream, which reduces the functionality of this device.

The task of the utility model <increase the functionality of the device.

The problem is solved in that the known device containing a generator of ultrasonic vibrations, an emitter of ultrasonic vibrations, a receiver of ultrasonic vibrations and an information processing system further comprises a detector electrically connected to the information processing system.

Distinctive features in the claimed technical solution were not identified when studying this and related areas of technology.

The combination of the claimed features ensures the achievement of a utility model - increasing the functionality of the device.

In FIG. shows a diagram of this device.

The device consists of a power supply 1, an ultrasonic vibrations generator 2, an ultrasonic vibrations emitter 3, a radiation receiver 4, a preamplifier 5, a detector 6 and an information processing system 7. An ultrasonic vibrations emitter 3 and a radiation receiver 4 are installed on a pipe 8 through which the test liquid passes .

The device operates as follows. The power supply 1 continuously supplies electric current to the ultrasonic oscillation generator 2, which generates an electrical signal of high frequency and supplies it to the radiation source 3, converting the electrical signal into ultrasonic vibrations. When passing through the test medium, these oscillations are captured by the radiation receiver 4 and converted into an electrical signal. This signal is amplified by the preamplifier 5, converted by the detector 6 and processed by the information processing system 7. Simultaneously with the supply of a pulse to the ultrasonic emitter 3, the current is supplied to the preamplifier 5, amplified and fed to the information processing unit 7. The received signals are processed by the information processing system 7, the input amplitudes are determined and the output signals, and the difference in the amplitudes determine the viscosity of the test fluid. The function of the detector 6 is the conversion of alternating current into direct current, which allows you to continuously monitor the viscosity of the liquid at any time intervals.

The application of the proposed device allows you to continuously determine the viscosity of a moving fluid in a stream, which is necessary for continuous monitoring of viscosity in a production environment.

Claims (1)

A device for continuously measuring the viscosity of a liquid in a stream, comprising an ultrasonic vibrations generator, an ultrasonic vibrations emitter, an ultrasonic vibrations receiver and an information processing system, characterized in that the device further comprises a detector electrically coupled to the information processing system.