RU1794572C - Metal working ultrasonic device - Google Patents

Abstract

The inventive device comprises an ultrasonic harmonic signal generator, an electro-acoustic transducer with a waveguide and a reflector waveguide. The waveguide-reflector is made with a natural frequency of longitudinal vibrations less than the resonant frequency of the electro-acoustic transducer. 2 ill.

Description

The invention relates to devices for the processing of metals by pressure with the application of ultrasonic vibrations.

An ultrasonic device for processing metals is known comprising an ultrasonic harmonic signal generator, an electro-acoustic transducer with a waveguide and a reflector waveguide.

A disadvantage of the known device is the low productivity of the processing process, due to the inability to obtain the required intensity of the vibration-shock mode in the processing zone.

The purpose of the invention is to increase processing productivity due to the intensification of the vibro-shock mode in the processing zone.

This goal is achieved in that in an ultrasonic device for processing metals containing an ultrasonic harmonic signal generator, an electro-acoustic transducer with a waveguide and a reflector waveguide, the reflector waveguide is made with a natural frequency of longitudinal vibrations less than the resonant frequency of the electro-acoustic transducer.

Figure 1 shows a diagram of a device; figure 2 - dependence of a on the amplitude of the relative oscillations of the interacting ends of the preload force G; curve 1 - the corresponding frequency of the reflector is less than the resonant frequency of the magnetostrictive transducer, curve 2 - the natural frequency of the reflector is greater than the resonant frequency of the magnetostrictive transducer. ,

The device comprises an ultrasonic generator 1, an electro-acoustic transducer 2 with a waveguide 3 and a waveguide-reflector 4.

The device operates as follows.

Ultrasonic vibrations from the generator 1 are transmitted through the transducer 2 to the waveguide 3. The processed material is located between the ends of the waveguides.

Vj

Yu

4 SP x |

Yu

The waveguide A is pressed against the waveguide 3 by a static preload force G. Through the material being processed, the oscillations are transmitted to the reflector waveguide. Processing performance depends on the relative amplitude of the vibrations of the interacting ends of the waveguide 3 and the waveguide-reflector 4. The greater the relative amplitude of the oscillations for a given compression force G, the higher

destructiveness. As can be seen from FIG. 2. if the natural frequency of the longitudinal vibrations is less than the resonant frequency of the magnetostrictive transducer, then the amplitude of the relative vibrations is higher than in the opposite case. The case when the natural frequency of the waveguide-reflector is equal to the resonant frequency of the magnetostrictive transducer is practically not feasible.

Formula Ultrasonic device for metal processing, comprising an ultrasonic harmonic signal generator, an electro-acoustic transducer with a waveguide and a reflector waveguide, characterized in that, in order to increase

s

productivity of the processing process due to the intensification of i vibration mode in the processing zone, the waveguide-reflector is made with a natural frequency of longitudinal vibrations less than the resonant frequency of the electro-acoustic transducer, x

, A i

IE1.