SU748583A1 - Vibromotor - Google Patents

Description

The invention relates to the field of instrumentation and relates to vibratory motors. Vibrating motors containing piezoceramic transducer of longitudinal movement located in a housing of a roto, a driving element and a high-frequency power unit are known. The disadvantage of these vibromotors is that with the vibro-impact reciprocating motion of the piezoceramic transducer, the drive element in contact with the rotor surface quickly wears out, and the rotor surface also wears out. This is due to the fact that during the return movement the driving element slides for some time in the opposite direction of the rotor movement. From the known vibration motor, containing a high-frequency power supply unit, a housing and a rotor mounted therein in bearings, a driving element made in the form of a sleeve worn on the rotor, having at least two protrusions on the outside. cylindrical surface and piezo

ijjg gS -pgMP yjyk..sv-ceramic transducers of longitudinal Oscillations located between the protrusions of the sleeve and the housing 2. To prevent the leading element from slipping in the working cycle, the rotor has a through slot in which the additional piezoceramic transducer is placed through the collector rings on the rotor shaft is connected to a high frequency power supply unit. The design of this engine is complicated by collector rings, which also affects the reliability of operation. The purpose of the invention is to simplify the design of the vibromotor. The objective is achieved in that the vibromotor containing a high-frequency power supply unit, a housing and a rotor mounted therein mounted in bearings has a driving member made in the form of a sleeve worn on the rotor. the protrusion on the outer cylindrical surface, and piezoceramic transducers of longitudinal vibrations, located between the protrusions of the sleeve and the housing, according to the invention.

Additional piezoelectric transducers of longitudinal vibrations were introduced, and two diametrically located grooves were formed in the hub of the leading element, the bottom of which was made in the form of a membrane. The additional transducers are hinged at one end in the housing, and the other end abutting the indicated membranes.

FIG. 1 shows the proposed engine, a cross section; FIG. 2 is a longitudinal section.

The vibration motor includes a housing 1, in which piezoceramic transducers 2 and 3 are placed, with one end abutting the housing and the other into the protrusions of the driving element - sleeve 4, which is freely mounted on the rotor 5. On the diametrically opposite sides of the cylindrical surface of the sleeve are grooves, the bottom of which made in the form of membranes b and 7. Some ends of additional transducers 8.9 longitudinal vibrations abut against corresponding membranes, while the other arms are hingedly attached to the housing. The driving element is pressed against the main piezoelectric transducers by springs 10 and 11, the rigidity of which is adjusted by screws 12 and 13. The high-frequency power supply unit 14 is connected to the transducers via switch 15.

The vibrator works as follows.

When the unit is turned on, power 14 is supplied with current to converters 2 and 3 which rotate the driving element - the sleeve. Since the drive member is loosely mounted on the rotor shaft, the rotor does not rotate. When the switch 15 is turned on, high-frequency voltage is applied to

converters 8 and 9, which periodically connect the rotor shaft 5 to the drive element. The motor is reversed by switching switch 15 and applying a high-frequency voltage that is shifted in phase by 180.

The proposed vibration motor is simpler in construction and more reliable in operation than the known ones.

Claims (2)

1.Patent of France No. 2277458, cl. H 02 N 11/00, published 1974. 2.Certificate of Certificate No. 2588544 / 18-25, cl. H 01., L 41/10, 07.03.78 (prototype). L 12 10 75 U7A U7 / 7 / A V 12 id /; V //// 7 ///// A 13 t g -TO.