KR20090060387A - Flat type vibration motor - Google Patents

Abstract

A flat type vibration motor is provided to rapidly generate vibration by increasing a driving torque of a rotor. A top cover(21) is coupled with a bottom cover(22). A supporting shaft(20) is vertically installed in a central part of an inner side of the top cover and the bottom cover. A first stator(23) is arranged in an inner side of the bottom cover. A second stator(24) is arranged in an inner side of the top cover, and is faced with the first stator. A rotor(25) is rotatably installed in the supporting shaft between the first stator and the second stator. A power supply unit(26) is arranged in the inner side of the bottom cover in order to supply a power to the rotor. The power supply unit comprises a bottom circuit board(261) and a pair of brushes(262). A shaft groove(211) is formed in a center of the top cover. A shaft supporting part(221) is formed in a center of the bottom cover.

Description

Flat Vibration Motors {FLAT TYPE VIBRATION MOTOR}

1 is a view showing the rising time of a conventional flat vibration motor

Figure 2 is a longitudinal sectional view of the flat vibration motor according to an embodiment of the present invention

3 is a view illustrating a rising time of a flat vibration motor according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

21,22; Upper and lower covers 23; First stator

24; Second stator 25; Rotor

26; Power supply means 27; First washer

28; Second washer 30; bearing

The present invention relates to a flat vibration motor.

In general, the flat vibration motor is widely used as a receiving means of the portable terminal mainly because the vibration can be sufficiently exhibited even in the state of shortening, lightening and slimming.

Recently, many touch screens that simply input signals by touching a hand or a fan to touch characters or other menus displayed on a screen that is a display device of the portable terminal have been applied. In order to ensure that the use of the flat vibration motor is under consideration.

However, in the conventional flat vibration motor, as shown in FIG. 1, when a driving signal is applied, the flat vibration motor starts a vibration and reaches a normal vibration, that is, a rising time is typically 270 to 300 ms. You have a degree.

Therefore, when the screen touch of the portable terminal, there is a problem that the vibration is felt only after the screen touch.

The present invention shortens the rising time of the flat vibration motor.

The present invention is coupled to each other, the lower cover;

A support shaft provided perpendicular to the inner center of the upper and lower covers;

A first stator provided inside the lower cover;

A second stator provided inside the upper cover to face the first stator; A rotor rotatably provided on the support shaft between the first stator and the second stator; And means for supplying power so that the rotor can rotate.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a longitudinal cross-sectional view of a flat vibration motor according to an embodiment of the present invention, Figure 3 is a view showing the rising time of the flat vibration motor according to an embodiment of the present invention.

One embodiment of the present invention is the support shaft 20, the upper and lower cover 21, 22, the first stator 23, the second stator 24, the rotor 25 and the power supply means 26 Include.

The upper and lower covers 21 and 22 are coupled to each other to block the inflow of dust or foreign matter from the outside to protect the inside, and the upper cover 21 is provided with a shaft groove 211 at the center, and the lower portion The cover 22 is provided with a shaft support 221 in the center.

One end of the support shaft 20 is fixed to the shaft support 221, and the other end of the support shaft 20 is supported by the shaft groove 211.

The first stator 23 is provided with a magnet for generating magnetic flux.

The lower part of the first stator 23 is provided with a power supply means 26, the power supply means 26 is mounted inside the lower cover 22, the lower circuit board for supplying an external driving voltage ( 261 and a pair of brushes 262 are provided.

The second stator 24 is disposed inside the upper cover 21, and is provided as a magnet that increases driving torque by increasing magnetic flux density.

The rotor 25 is rotatably installed on the support shaft 20 between the first stator 23 and the second stator 24 via a bearing 30.

The rotor 25 has an upper circuit board 252 having a commutator 251 in contact with the brush 262 at a bottom thereof, and a plurality of coils mounted on the upper surface of the upper circuit board 252 spaced apart from each other ( A weight 255 provided between the 253 and 254 and the plurality of coils 253 and 254 to generate vibration by an eccentricity, an upper circuit board 252, and a plurality of coils 253 and 254, The resin material 256 which integrates the weight 255 is included.

A first washer 27 and a first washer 27 for minimizing frictional force are provided on the support shaft 20 supported by the bearing 30 of the rotor 25 and the shaft groove 211 of the upper cover 21. And a second washer 28 to minimize the friction area between the bearing and the bearing 30.

The second washer 28 is provided with an outer diameter and a thinner thickness than the outer diameter of the bearing 30 in order to minimize the friction area with the bearing 30.

The first and second washers 27 and 28 are made of a resin material which is excellent in wear resistance and can minimize frictional force.

Power is applied to the flat vibration motor configured as described above in the order of the lower circuit board 231, the brush 232, the commutator 251 of the rotor 25, and the plurality of coils 253 and 254.

Accordingly, the plurality of coils 253 and 254 may interact with the first stator 23 located below and the second stator 24 located above to rotate the rotor 25. At this time, since the rotor 25 is eccentric by the weight 255, the rotor 25 generates vibration.

Therefore, the driving torque T of the vibration motor is increased in proportion to the magnetic flux density increased by the magnet of the first stator 23 and the magnet of the second stator 24. In one embodiment of the present invention is increased by about 1.5 times or more than the conventional.

Therefore, the vibration motor is shortened to 125ms as shown in Figure 3, that is, the time to reach the normal vibration by the increased drive torque (T), as shown in Figure 3, so that the user touches the screen at the same time I can feel it.

One embodiment of the present invention has been described with respect to the flat type vibration motor, it is also possible to apply the stator placed up and down in the brushless type vibration motor.

The above embodiments are merely illustrative of the technical idea of the present invention, and those skilled in the art may make various modifications and changes without departing from the essential characteristics of the present invention.

Therefore, the above embodiments are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

As described above, the present invention can increase the drive torque of the rotor to shorten the rising time for the vibration motor to reach the normal vibration, it is possible to feel a rapid vibration.

Claims (6)

Upper and lower cover coupled to each other; A support shaft provided perpendicular to the inner center of the upper and lower covers; A first stator provided inside the lower cover; A second stator provided inside the upper cover to face the first stator; A rotor rotatably provided on the support shaft between the first stator and the second stator; And means for supplying power so that the rotor can rotate. The method of claim 1, A flat vibration motor, wherein the first and second stators are magnets. The method of claim 1, And a first washer in the support shaft between the bearing upper portion of the rotor and the shaft groove of the upper cover to minimize frictional force. The method of claim 1, And a second washer on the support shaft between the bearing upper portion of the rotor and the shaft groove of the upper cover. The method of claim 4, wherein And said second washer is smaller than the outer diameter of said bearing. The method of claim 1, The first and second washers are flat vibration motor made of a resin material which is excellent in wear resistance and minimizes friction noise.

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