SU1093360A1 - Ultrasonic converter - Google Patents

Abstract

ULTRASONIC CONVERTER, containing a resonant flexural-oscillating diaphragm, along the contour of which In the nodal lines there are fastening elements of the cooling tank, core packages of magnetostrictive material arranged in rows on the diaphragm, and winding, in order to increase the intensity , the core packages are arranged in rows without a gap, and the turns of the windings are passed through holes in packages arranged opposite one another in different rows. 1

Description

The invention relates to the field of TaxHonorimecKoro using ultrasound, in particular, devices for creating ultrasonic oscillations in a liquid medium, and can be used in ultrasonic devices for cleaning parts, impregnating, baking and preparing emulsions. An ultrasonic transducer is known for creating oscillations in liquid the medium containing packets of a magnetostrictive material, from a diaphragm that is flexibly oscillating out of phase and the excitation winding P, The disadvantages of this converter are the labor intensity quipment winding excitation and emission intensity is insufficient elastic vibrations. The closest to the technical essence of the invention is an ultrasonic transducer that contains rod packets of magnetostrictive material located on a resonant flexural oscillating diaphragm with a gap between the packets in each row. The excitation winding covers successively all adjacent cores of packages located in the same row, on the cooling tank 21. The disadvantage of the known interrupter is a small intensity of radiation A1 ostically; 1 of them, the purpose of the invention is to increase the intensity of radiation of acoustic oscillations. The goal is achieved by the fact that in an ultrasonic transducer containing a resonant bending-wheel there is a diaphragm, along the contour of which in the nodal lines there are elements of fastening of the cooling tank, rod packages of magnetostrictive material, arranged in rows on the diaphragm, and winding, .. rod packages are located in p dah without a gap, and the turns of the windings are passed through holes in the packages. located one opposite the other; In different rows. Fig, I shows the transducer, a general view; Fig. 2 is the same, top view (the dotted line shows the instantaneous amplitude value of the diaphragm displacement during radiator operation). The device contains a bending-oscillating diaphragm 1, whose dimensions are multiples of the half-wavelength of bending vibrations, and aperture 2 are attached to the diaphragm 1 in two rows from a magnetostrictive material located at a distance of a multiple of the half-wavelength of bending vibrations forming a closed loop on its surface along which the cooling tank 3 is attached. The field winding 4 is positioned in such a way that its turns pass through the openings of two packages 2, located one opposite the other in different rows. The device works as follows. A cooling tank 3 to prevent overheating of the packages 2 with the excitation winding 4 is connected to running water (not shown). The bias current and excitation of power sources (not shown) transmits to winding 4. In the packets due to the magnetostrictive effect, a repulsive mechanical force arises, which excites the diaphragm 1. An increase in the intensity of radiation of acoustic oscillations in the proposed device as compared to the known one is achieved due to better utilization of the diaphragm surface the location of the active elements. The coefficient of increase in intensity with a package width of 60 mm, recommended for transducers with a capacity of 2-5 kW, with the exception of the gap between the packages in rows of 16 mm, necessary to accommodate the winding in a known device is 16:60 0.268, Thus, the proposed ultrasonic transducer provides an increase in the intensity of radiation of acoustic oscillations by approximately 20–25%.

FIG. 2

Claims (1)

2. USSR copyright certificate No. 173489, cl. 06 V 1/08, 1964. 'ULTRASONIC TRANSDUCER containing a resonant flexurally oscillating diaphragm, along the contour of which in the nodal lines there are fastening elements of the cooling tank, rod packages of magnetostrictive material located in rows on the diaphragm, and a winding characterized in that that, in order to increase the radiation intensity of acoustic vibrations, the rod packages are arranged in rows without a gap, and the turns of the windings are passed through holes in the packages located one on the other in different rows.