SU743081A1 - Vibromotor - Google Patents

Description

The vibration motor belongs to the field of instrumentation and is designed to create an accurate rotational motion. A motor containing a rotor, a piezoceramic transducer, a leading element located tangentially to the cylindrical surface of the rotor 1 is known. the surface of the rotor also wears out, which leads to a decrease in torque and stability of the rotor retention rate. This is also due to the fact that during the return movement of the leading element, it slides for some time in the opposite direction of the rotor, which also reduces the efficiency of the moving bodies. A vibromotor is known that comprises longitudinal transducers arranged in housing 1; 1 ceramic transducers, a driving member, a rotor in bearing supports, and a high frequency power supply unit 2. A disadvantage of the known device is the low efficiency, stability of rotation and low durability. The aim of the invention is to increase the efficiency, stability of the DW (as well as engine idling. The goal is achieved by the fact that the driving element is made in the form of a sleeve freely attached to the rotor, on opposite sides of the cylindrical surface of which there are at least two projections, in which the upwardly moving ends of the piezoceramic transducers located tangentially relative to the cylindrical surface of the rotor, and in the rotor, in the place of action of the driving element, A complete through slot is inserted into which an additional piezoceramic transducer inserted through the collector rings on

the rotor shaft is connected to a high frequency power supply unit.

The device of the vibromotor is explained in drawing where in FIG. 1 shows the device; in fig. 2 view A-A of FIG. one.

The vibration motor includes a housing 1, in which piezoceramic transducers 2 and 3 are placed at one end abutting against the housing 1, and the other end against the protrusion of the driving element 4, which is freely attached to the rotor 5. The driving element 4 is pressed against the two ceramic transducer 2 and 3 by springs 6 7, the rigidity of which is regulated by adjusting screws 8 and 9, the High-frequency oscillation generator 10 is connected to the converters 2 and 3 / and also through a switch 11, a terminal block 12 and collector rings 13. To the additional converter 14 is placed Nomu in slot 15 of the rotor 5. The rotor is installed in the housing 1 in the bearing supports.

The vibration motor is working. Next

The way.

When the power generator 10 is turned on, current is supplied to the converters 2 and 3, which rotate the driving element 4. Since the driving element is freely mounted on the rotor shaft, the rotor does not turn. When the switch 11 is turned on, a high-frequency voltage is applied to the converter 14, which periodically connects the rotor shaft 5 with the master element 4. The oscillation frequency of the converter 14 coincides with the frequency of the converters 2 and 3. The motor is reversed by switching switch 11 supplying high frequency voltage is phase shifted by 189.

Studies have shown that the efficiency has increased by 10%, and the durability has increased 4 times, since the contacting parts of the drive element and the rotor shaft do not wear out.

Claims (2)

1. US patent number 3192417, CL. 310-8.6, 1963. 2. The patent of France No. 2277458, cl. H 02 N 11/00, 1974, prototype.