CS211899B1 - Ultrasonic piezoelectric transducer for rotary technology - Google Patents

Abstract

The invention relates to ultrasonic machining. The invention solves the problem of the ultrasonic rotary drive. converter. The essence of the invention is that the connecting sleeve of the converter is equipped with a pulley.

Description

The invention relates to an embodiment of a power ultrasonic piezoelectric transducer for rotary technology of the Langevin-sendylic type, for example for ultrasonic machining, insertion, cleaning and the like.

The use of hitherto known ultrasonic piezoelectric transducers, whose reflector and ra, dilator are connected to one another by means of a circumferential sleeve, is very difficult for rotational technologies because they are mounted on complex working spindles, from which rotational movement is also disadvantaged. ultrasonic spindles are their complexity and especially their high weight, which at high speed adversely affects the overall spindle bearing in the bearings, and thus leads to inaccuracies of the operating technology. The large weight of the known devices does not allow their correct balancing, which is Useful for large perimeter fastBtlach converters.

The aforementioned disadvantages are rendered ineffective by the ultrasonic piezoelectric transducer according to the invention, in which the coupling sleeve is provided with a pulley. It is also an object of the invention that a circumferential groove is formed in the housing between the connecting sleeve and the pulley.

The ultrasonic piezoelectric transducer according to the invention has made it possible to use large peripheral spindles of the spindle at a low weight of the entire ultrasonic spindle, thereby achieving high precision of the process technology. The advantage is also the simplicity of the whole device.

The accompanying drawing shows an exemplary embodiment of an ultrasonic piezoelectric transducer for rotational technology, wherein a portion of the transducer is drawn in a longitudinal section and also in perspective.

An ultrasonic piezoelectric transducer for rotational technology requires a reflector 1 and a radiator 2. A meidizi reflector 1 and a radiator 2 is a stored eilectrode 4 surrounded by both sides of the piezo discs. On the outer periphery of the piezoelectric ceramic discs 5, there is an electrical insulating sleeve 6. The surface of the working end of the reflector 1 and the surface of the upper end of the radiator 2 are provided with a socket 8 through which the connecting sleeve 3 are reflector 1 and radiator 2. connected. The lower end of the coupling sleeve 3 is provided with a pulley 10. A circumferential groove 11 is formed in the corner between the coupling sleeve 3 and the pulley 10. At the lower end of the radiator 2 an opening 9 for a working tool is formed in the donkey.

A working tool (not shown in the figure) is inserted into the opening 9a. When the ultrasonic piezoelectric transducer is connected to a power source at any electrode 4 and to the transducer body, the transducer starts to rotate through the pulley 10 and the transducer is ready to perform its own technological operation.

Claims (2)

OBJECT 1. An ultrasonic piezoelectric transducer consisting of a reflector and a radiator, a mediation of piezoelectric ceramic discs and a radiator reflector. interconnected by means of a coupling sleeve characterized in that the coupling sleeve (3) is provided with a pulley (10). 2. An ultrasonic piezoelectric transducer according to claim 1, wherein a circular circumferential groove (11) is formed between the coupling sleeve (3) and the pulley (10). 211899