RU88639U1 - VIBRATOR - Google Patents

Abstract

A vibration motor including a motion transducer, characterized in that the motion transducer consists of a solenoid type electromagnet mounted rotatably around an axis, and the retractable core is suspended from a spring with a reciprocating motion.

Description

The utility model relates to vehicle propulsion and can be used in the development of vibrational robots.

A known vehicle vibrator consisting of a pusher and an inertial-pulse converter (see RF patent No. 2047001, IPC F03G), in which translational motion is carried out by transmitting a pulse of rotating inertial masses to the pusher.

The disadvantage of this device is its low efficiency.

Known vibration motor, consisting of an inertial-pulse converter with inertial masses and a mechanism for changing the radius of rotation of the masses and a pusher with a reciprocating mechanism (see RF patent No. 2274574, IPC B62D).

The disadvantage of this device is the design complexity due to the large number of kinematically connected links.

The objective of the utility model is to simplify the design and reduce the overall dimensions of the device.

The task is achieved in that in a vibrator including a motion transducer, the motion transducer consists of an electromagnet of the solenoid type mounted rotatably around an axis, and the retractable core is suspended from the spring with the possibility of reciprocating motion.

The claimed technical solution differs from the prototype in that the motion converter consists of an electromagnet of the solenoid type mounted with the possibility of rotation around the axis, and the retractable core is suspended on the spring with the possibility of reciprocating motion.

Distinctive features in the claimed technical solution were not identified when studying this and related areas of technology.

The combination of the claimed features ensures the achievement of the utility model - simplifying the design and reducing the overall dimensions of the device.

In FIG. shows a General view of the proposed device.

The vibration motor consists of a housing 1, which is mounted on a platform 2. Inside the housing 1, an electromagnet coil 3 is installed, which can be rotated by an angle of 0 ° to 90 ° relative to the vertical position using a servo drive 4. The rotation is carried out in increments of 5 °, the coil 3 is fixed in required position. In the housing of the coil 3, the core 6 is resiliently suspended on the spring 5, which moves reciprocally, the coil frame 3 is used as a guide. The amplitude of movement of the core 6 is limited by elastic stops 7 and 8 attached to the metal sleeve 9 and plate 10, respectively. The metal sleeve 9 and the plate 10 are screwed to the frame of the coil 3.

The device operates as follows. The angle of inclination of the coil 3 of the electromagnet relative to the vertical position is set before applying voltage to the winding. When applying a sinusoidal voltage to the winding 3 of the electromagnet, an electromagnetic force occurs, under the action of which the core 6 moves. When approaching the core 6 to the elastic limiter 7, the elastic force of the spring 5, opposite in direction to the electromagnetic force, becomes equal to it in value. The core 6 stops before it hits the elastic limiter 7. After that, the core 6 begins to move in the opposite direction under the action of the spring force 5, which is larger than the electromagnetic force. When the core 6 approaches the elastic limiter 8, the electromagnetic force balances the elastic force and the core 6 stops before hitting the limiter 8. The portable inertia arising from the movement of the core 6 exceeds the friction force of the platform 2 on the surface, the device comes into motion. Due to the asymmetry of the inertia force, the platform 2 moves in the positive direction of the Ox axis to a greater distance (when moving the core 6 from the limiter 7 to the limiter 8) than in the opposite direction (when the core 6 moves from the limiter 8 to the limiter 7). The asymmetry of the inertia force is created by tilting the coil 3 relative to the vertical axis of the Oh. The movement of the core 6 of the electromagnet in both directions is carried out on each half-wave of the sinusoid of the applied voltage.

Using the proposed device can significantly reduce the size of the vibrator due to the solenoid type electromagnet with a retracting core, control the angle of the coil relative to the vertical axis, and therefore, control the asymmetry of the inertia force, which allows you to control the movement of the vibrator.

Claims (1)

A vibration motor including a motion transducer, characterized in that the motion transducer consists of a solenoid type electromagnet mounted rotatably around an axis, and the retractable core is suspended on a spring with the possibility of reciprocating motion.