SU591944A1 - Drive mechanism for electric record player - Google Patents

Description

The invention relates to the field of instrumentation, in particular to the accumulation and reproduction of information, and can be used in electro-playing devices.

Mechanisms are known for moving the recording medium, which contain oscillating elements in the form of a l-shaped lever, on both arms of which piezoceramic plates are flexurally oscillated, and one of the arms is mounted with the possibility of acting on a tape or a rotating surface 1.

In such mechanisms, the driving force or torque is relatively small, since here only the vibrational energy of the piezoceramic elements is used.

The closest in technical essence is a device for moving a recording medium, in which the oscillating element is designed as a stepwise longitudinal oscillation transducer connected to a piezoceramic element and installed with the possibility of axial movement. The electromagnet winding is also introduced into this mechanism. The electromagnet serves to divert the contacting stage of the converter from the object of rotation 2.

A disadvantage of the known device is the instability of the rotor rotation due to the impossibility of ensuring the minimum clamping force. The purpose of the invention is to increase the stability of rotation of the rotor.

To do this, in a known mechanism containing a piezoceramic vibrator connected to a stepped longitudinal vibration transducer, and an electromagnet, a longitudinal vibration transducer is coupled by a lever and a spring connected to it with an electromagnet core, the winding of which is electrically connected to a time relay.

The drawing shows schematically the drive mechanism and the electrical circuit of its power supply.

The drive mechanism comprises a rotor 1 and

a stepwise longitudinal vibration transducer in contact with it with a narrow step 2 and a width of 3. It is connected to a piezoceramic vibrator 4. The vibration transducer is mounted for axial movement along axis 5 and a lever 6 and a spring 7 connected to it with the core 8 of an electromagnet. The winding 9 of the electromagnet is electrically connected to the output of a time relay 10, the input of which is connected to a direct current source 11. Vibrator electrodes

4 through-generator 12 high-frequency electrical oscillations are also connected to the source 11.

The mechanism works as follows.

When the electrical circuit is closed from the generator 12, high-frequency electrical signals are sent to the electrodes of the vibrator 4. In the latter, ultrasonic mechanical vibrations occur, which propagate in the longitudinal vibration transducer, where their amplitudes are amplified due to the difference in the cross-sectional areas of the steps 2 and 3. the contact part of the drive stage 2 rotates the rotor 1.

Simultaneously with the excitation of the vibrator 4, the electric signals are also fed to the electromagnet winding 9. The armature 8 of the electromagnet is drawn into the winding 9 and thereby presses the oscillation transducer to the rotor, creating a clamping force necessary for rapid acceleration of the rotor. After 1.5-2 seconds, when the rotor picks up the required rotational speed and the tone arm drops onto the plate, the relay 10 is activated. The electromagnet is turned off, the measles 8 is lowered, and the oscillation transducer is removed from the rotor and self-adjusts with an optimal clamping force.

This mechanism improves the rotational stability of the rotor by 20% compared to the known.

Claims (2)

1. USSR Author's Certificate No. 370643, cl. G 11 B 15/40, 1971. 2. USSR author's certificate number 526012, cl. G & B 25/00, 1974.