SU1721443A1 - Acoustic wave guide - Google Patents

Abstract

This invention relates to a measurement technique. The aim of the invention is to improve the measurement accuracy. The acoustic waveguide is placed in the test medium, and the ultrasound signal from the piezoelectric element 9, which passes through the rod 1, the gasket 2, is supplied through the controls 14 and, reflecting from the surface of the balanced horn 4, reaches, for example, the wall from which the signal is reflected and returns to the piezoelectric element from which through the amplifier 11 in the converted form is registered. 2 hp f-ly, 1 ill.

Description

The invention relates to measuring equipment in the nuclear and heat power engineering, chemical and other sectors of the economy.

The aim of the invention is to improve the accuracy of measurement.

The drawing shows an acoustic waveguide, a General view.

The acoustic waveguide consists of a rod 1, in the lower part of which there is a multilayer gasket 2 made of metals and a cylindrical perforated part, to which a perforated horn is articulated with a bottom covered on both sides with reflective layers 4 made primarily of foil and a counterweight 5 connected by a flexible connection 6 with the mechanism 7 of lifting with a limb 8 of the upper part of the rod. In addition, a piezoelectric element 9 and a vibration exciter 10 are mounted in the upper part, which are respectively connected through an amplifier 11, a measuring device 12, and a recorder 13 with a control panel 14.

The acoustic waveguide operates as follows.

An acoustic waveguide is placed in the test medium and an ultrasonic signal is supplied from the piezoelectric element 9 through the control panel 14, which passes along the rod 1, gasket 2 and, reflecting from the surface of the balanced horn 4, reaches, for example, a wall from which the signal is reflected and returns to the piezoelectric element, from which through the amplifier 35 11 in a transformed form (electrical signal) is recorded on the measuring device 12 and the recorder 13, and in order to remove air bubbles from the reflecting surface of the speaker 4 and m the exciter 10 briefly turns on the vibration exciter 10, and to change the slope of the reflector surface, the lift mechanism 7 is activated, by which the necessary angle of inclination is set by flexible measurements by 6 measurements on the limb 8 through the counterweight 5. A multilayer gasket made of metals with various acoustic impedances makes it possible to increase the transmission coefficient of ultrasonic waves during the transition of the metal - liquid interface.

Claims (3)

Claim 1. An acoustic waveguide containing a rod, a piezoelectric element associated with an amplifier and a recorder, distinguishing 20 s, in order to increase the accuracy of measurements, the rod is made with open tubular ends, the piezoelectric element is mounted on its upper end, where vibration exciters and a lifting mechanism with a limb are additionally installed, while the lower end of the rod is equipped with a balanced horn with a counterload connected with a lifting mechanism, and the bottom of the horn is coated on both sides with reflective layers. 2. The waveguide according to claim 1, characterized in that at the end of the lower part of the rod is installed a multilayer gasket of metals with various acoustic impedances. 3. The waveguide according to claim 1, with the fact that the lower tubular end of the rod and the horn are perforated.