SU775626A1 - Sensor of aggressive medium level ultrasonic indicator - Google Patents

Description

The invention relates to measuring technique and can be used in ultrasonic liquid level detectors, in particular for monitoring the level of aggressive liquids.

A known sensor of an ultrasonic liquid level signaling device containing a piezoelectric transducer rigidly fixed to the bottom of a thin-walled glass and excited by: a generator at a resonant frequency [1].

The level is determined by the change in the value of the energy of ultrasonic vibrations radiated into the medium.

The closest in technical essence to the proposed one is an ultrasonic level transmitter of aggressive liquids, containing a metal cup and two piezoelectric transducers fixed inside the cup, and the piezoelectric transducers are made in the form of disks and are rigidly fixed to the bottom of the cup interacting with an aggressive medium [2].

In the known sensor, when touching the bottom of the glass with a controlled liquid, the loss of ultrasonic vibrations into the liquid sharply increases and, accordingly, the voltage at the electrodes of the piezoelectric transducer connected to the alarm unit sharply decreases. The use of two piezoelectric transducers allows to increase the sensitivity, since between the piezoelectric transducers a section of the bottom of the glass is switched on, through which the energy of ultrasonic vibrations is transmitted. It creates the opportunity to make a glass of steel.

The disadvantages of the known sensors of ultrasonic signaling devices include their low sensitivity and instability of characteristics, since it is possible to create reliable acoustic contact of the piezoelectric transducer with the bottom of the glass only with glue so that the transverse vibrations of the radiating piezoelectric transducer are effectively transmitted to the receiving piezoelectric transducer. However, all adhesives * change their characteristics from external influences, especially from the action of temperature and radiation. In addition, in the known sensors of signaling devices, the emitting and receiving surfaces are small, since the piezoelectric transducers3 are glued to the bottom of the glass by the end part.

A disadvantage of the known sensor sensors is that under the bottom of the glass can accumulate air bubbles, which lead to false alarms.

The purpose of the invention is to increase the sensitivity, sensitivity and stability of the characteristics of the sensor.

This goal is achieved by the fact that the piezoelectric transducers are made in the form of hollow cylinders identical in size, mounted on the same axis to ensure contact with the metal cup on external surfaces and fixed with bushings made of sound-absorbing material.

The drawing shows a structural diagram of the proposed signaling device.

The device contains a metal cup 1, inside of which the cylindrical piezoelectric transducers 2 and 3 are inserted in a tight fit, one of which is connected to the generator, the other to the signaling unit. Piezoelectric transducers 2 and 3 are fixed in the glass 1 by bushings 4 made of sound-absorbing material, for example, from ebonite.

The device operates as follows.

One of the piezoelectric transducers is excited at the resonant frequency of the radial oscillation mode. The walls of the glass 1 also vary in radius. The energy of mechanical vibrations along the cylindrical wall of the glass is transferred to another transducer, which also begins to oscillate at the resonant frequency of the radial mode of vibrations.

When the liquid level reaches a portion of the cylindrical surface between the transducers, the loss of ultrasonic energy increases and the amplitude of the oscillations of the receiving piezoelectric transducer drops sharply and, accordingly, a signal is sent from the receiving piezoelectric transducer to the alarm unit.

The design of the proposed alarm sensor has maximum simplicity and reliability.

In this case, the piezoelectric transducers contact the glass with a cylindrical lateral surface and have a maximum emitting and perceiving surface, which determines the increased sensitivity of the signaling device. The absence of adhesive joints increases the stability of the sensor characteristics.

In addition, the sensor eliminates the accumulation of gas bubbles and other inclusions along the acoustic path between the emitting and receiving piezoelectric transducers, which prevents false alarms.

Claims (2)

Claim An ultrasonic liquid level sensor of aggressive liquids containing a metal glass and two piezoelectric transducers fixed inside the glass, 30 characterized in that, in order to increase the sensitivity and stability of the characteristics, the piezoelectric transducers are made in the form of 35 hollow cylinders identical in size, mounted on the same axis with the possibility 'contact with a metal cup on external surfaces and fixed with bushings made of sound-absorbing material.' 40 Sources of information taken into account in the examination 1. USSR copyright certificate No. 613213, cl. G 01 F 23/28, 1977. 2. Copyright certificate of the USSR ._. At the application of "2604573/10, cl. G 01 F 23/28, 1978 (prototype). ВНИИПИ Order 7716/57 Circulation 801 Subscription Branch of the PPP ’'Patent' ', Uzhgorod, Project 4,