KR100299765B1 - Magnet Rotary Vibration Motor - Google Patents

Abstract

The present invention relates to a vibration motor, and more particularly, to a magnet rotating vibration motor for generating vibration by rotating an eccentric magnet using a fixed brush and a rotating brush.

Conventional vibration motors have a problem that the mass of the rotor coil eccentrically about the rotation axis is small, so that the centrifugal force generated when the rotor coil rotates is small, and thus the vibration amount is small.

Accordingly, the present invention is a magnet rotation type vibration motor having a large amount of vibration since the magnet generates a vibration by rotating a magnet having a larger mass than a conventional rotor coil using a fixed brush and a rotation brush.

Description

Magnet Rotary Vibration Motor

1 is a cross-sectional view of a conventional vibration motor.

2 is a cross-sectional view of the magnet rotary vibration motor of the present invention.

* Explanation of symbols for the main parts of the drawings

11; Magnet 12; Rotary commutator

13: fixed commutator 14; Stationary brush

15; Rotary brush 16; Stator coils

The present invention relates to a vibration motor, and more particularly, to a magnet rotating vibration motor for generating vibration by rotating an eccentric magnet using a fixed brush and a rotating brush.

1 is a cross-sectional view of a conventional vibration motor, the configuration is as follows.

The commutator 1 fixed to the rotor coil, the brush 2 in contact with the lower side of the commutator 1, and the upper side of the commutator 1 are eccentric about the rotating shaft 5. It consists of the rotor coil 3 and the magnet 4 fixed to the lower side of the rotor coil 3.

The operation of the conventional vibration motor configured as described above is as follows.

First, when power is supplied to the vibration motor, the voltage is supplied to the brush 2 in contact with the commutator 1, and the voltage is also supplied to the commutator 1 in contact with the brush 2.

At this time, the commutator 1 periodically changes the polarity of the voltage supplied from the brush 2 and outputs it to the rotor coil 3, and accordingly, the polarity of the magnetic field generated by the rotor coil 3 also periodically The attraction and repulsive force are alternately generated by the magnetic field generated by the magnet 4 fixed to the lower side of the rotor coil 3 so as to be fixed to the rotor coil 3 and the rotor coil 3. The commutator 1 rotates.

Once the rotor coil 3 and the commutator 1 start to rotate, attraction force and repulsive force are generated by a magnetic field that is periodically changed in polarity generated in the rotor coil 3 and a magnetic field generated in the magnet 4. Alternatingly generated, the rotor coils 3 continue to rotate.

Therefore, the vibration is generated by the centrifugal force generated by the rotation of the rotor coil eccentric about the rotation axis.

However, the conventional vibration motor has a problem that the mass of the rotor coil eccentrically about the rotating shaft is small, so that the centrifugal force generated when the rotor coil rotates is small, and thus the vibration amount is small.

Accordingly, an object of the present invention is to provide a magnet rotating vibration motor for generating vibration by rotating the eccentric magnet using a fixed brush and a rotating brush to solve the above problems.

Figure 2 is a cross-sectional view of the magnet rotary vibration motor of the present invention for achieving the above object, the configuration is as follows.

A magnet 11 fixed and supported by a rotating shaft 17, a rotating commutator 12 fixed to a lower side of the magnet 11, and a fixed commutator fixed at a position opposed to the lower side of the rotating commutator ( 13), a fixed brush 14 fixed to the fixed commutator 13 to be in contact with the rotary commutator 12, and fixedly supported to the rotary commutator 12 to be in contact with the fixed commutator 13. And a stator coil 16 fixed to a position opposite to the lower side of the magnet 11.

The operation of the magnet 11 rotary vibration motor of the present invention configured as described above is as follows.

First, when power is supplied to the fixed brush 14, a voltage of a predetermined polarity is applied to the rotary commutator 12 to which the fixed brush 14 is contacted, and the rotary brush 15 fixed to the rotary commutator 12 is provided. ), A voltage of constant polarity is applied.

In addition, the voltage supplied from the rotary brush 15 is applied to the high frequency coil 16 by the fixed commutator 13 in contact with the rotary brush 15 to generate a constant magnetic field in the stator coil 16. do.

Therefore, the magnet 11 and the stator coil 16 are attracted or repulsed by the magnetic field generated by the magnet 11 and the magnetic field generated by the stator coil 16 so that the magnet 11 rotates at an angle. As the magnet 11 rotates at an angle, the rotating commutator 12 and the rotating brush 15 fixed to the magnet 11 also rotate together.

At this time, the polarity of the voltage supplied to the stator coil 16 is changed by the stator commuter 13 in contact with the rotary brush 15 in accordance with the rotation of the rotary brush 15 is generated in the stator coil 16 The polarity of the magnetic field is changed, and as the magnetic field polarity of the failure coil 16 is changed, the attraction force or repulsive force with the magnetic field generated by the magnet 11 is converted so that the magnet 11 continuously rotates.

The magnet 11 is continuously rotated by the attraction force or repulsive force generated between the magnet 11 and the stator coil 16 as described above, and thus the magnet 11 is eccentric about the rotation shaft 17. The vibration is generated by the centrifugal force generated by the rotation of.

As described above, the present invention is a magnet rotating vibration motor having a large amount of vibration since the magnet having a larger mass than the conventional rotor coil is used to generate vibration using a fixed brush and a rotating brush.

Claims (1)

A magnet 11 that is eccentrically rotated about the rotary shaft 17, a rotary commutator 12 fixed to the lower side of the magnet 11, and a fixed commutator fixed to a position opposite to the lower side of the rotary commutator. (13), a fixed brush 14 fixed to the fixed commutator 13 to be in contact with the rotary commutator 12, and a fixed support to the rotary commutator 12 to be in contact with the fixed commutator 13 And a stator coil (16) fixed at a position opposite to the lower side of the magnet (11).