SU819866A1 - Vibration motor - Google Patents

Description

(54) VIBRATION MOTOR

one

The invention relates to the field of instrumentation and is intended to create a precise rotational movement, for example, magnetic drums.

A tape mechanism is known that contains drive nodes mounted on both sides of the magnetic heads, which drive the magnetic tape, where the lead nodes are made in the form of piezocrystal-vibropafopov, coupled with a magnetic tape through air pads and connected to a source of periodic voltages shifted in phase at 30-80 ° 1.

The disadvantages of the known mechanism are the low speed of the magnetic tape pulling, low power and the possibility of destruction of the magnetic tape due to its direct contact with the vibrators.

Known vibrating motor, containing an annular rotor and a piezo transducer, located inside the rotor on a fixed rack, made in the form of piezoelectric plates forming a triangle connected to a multiphase generator of high-frequency electrical oscillations 2.

The disadvantage of this engine is relatively small torque and power.

The aim of the invention is to increase the torque and power of the vibromotor.

The goal is achieved by the fact that in a vibration motor containing an annular rotor and a piezo transducer located inside the rotor on a fixed rack, made in the form of piezoelectric plates forming a triangle, connected to a multiphase generator of high-frequency electrical oscillations, inside the triangle of piezoplates, there are three additional piezoelectric plates located star-shaped and rigidly attached by one ends to the rack, and by others to the tips of the triangle, with additional Body piezoplates are also connected to the generator.

FIG. 1 shows a diagram of a vibromotor; in fig. 2 - section A-A of FIG. one; in fig. 3 - oscillations of the contacting element of the converter (shoe).

Claims (1)

The vibration motor contains a piezoelectric transducer of piezoelectric plates 1, forming a triangle, and piezoelectric plates 2, located inside the triangle star-shaped. In the center is a rack 3, to which piezoplates 2 are attached directly, and piezoplates 1 by means of connecting elements 4. The ends of piezoplates are interconnected by means of contacting elements 5, which are elastically aligned with the rotor 6. The engine operates as follows. When a multi-phase alternating electrical voltage generator (not shown) is connected to piezoelectric plates 1 and 2, the latter begin to oscillate. The direction of movement of each of the piezoplates 1 and 2 coincides with the direction of its longitudinal axis. If the power between each piezoelectric elements 1 and 2 is supplied with a phase shift of 60 °, as a result of the summation of oscillations from the individual piezoplates 1 and 2 in the contacting elements 5, the latter make circular motions (Fig. 3) and the rotor starts to rotate. Placing three additional piezoplates inside the triangular vibration transducer, with one end rigidly fixed in the rack and the other to the triangle vertices, and connecting them to a multiphase high-frequency generator significantly increases the normal component of the oscillation of the contacting angle / element, which leads to an increase in torque , as well as power vibrodvigatel. Testing of the vibromotor mockup showed that the torque and power of the vibromotor increases, ts by 15-25 / o compared to the known ones. The invention includes a vibrating motor comprising an annular rotor and a piezo transducer located inside the rotor on a fixed stand made in the form of piezoelectric plates forming a triangle connected to a multiphase high-frequency electric oscillator, characterized by 4Vo, in order to increase the torque and power of the engine inside a triangle of piezoplates placed three additional piezoelectric plates located star-shaped and rigidly attached to one end rack, and the other - to the triangle verschinam, wherein additional piezoceramic plate is also connected to the generator. Sources of information taken into account during the examination 1. USSR author's certificate number 320826, cl. G 11 V 15 / 26,1972.2. The USSR author's certificate No. 480875, cl. F 16 H 17/00,975 (prototype) fPi / e.Z / Fig.Z