KR100974899B1 - Linear type vibration actuator - Google Patents

Abstract

The present invention relates to a linear vibration actuator. The present invention is provided with an inner and outer magnet to increase the electromagnetic force of the vibration generating portion, the spring that transmits the vibration force of the vibration portion to the case is wound in a vortex form, the outer end and the center end are downward and the outer The middle part between the end and the center end is raised. Therefore, the vibration force of the vibration part is improved, and the vibration force of the vibration part is distributed to the center and the outside by the spring and is transmitted to the case, thereby obtaining a stabilized vibration force.

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Description

Linear vibration actuator {LINEAR TYPE VIBRATION ACTUATOR}

The present invention relates to a linear vibration actuator, and more particularly, to increase the electromagnetic force of the vibration unit that generates vibration to improve the vibration force, as well as to distribute the vibration force to a linear vibration actuator to obtain a stabilized vibration force. .

In general, the linear vibration actuator performs an incoming call function, which is one of the essential functions in a mobile communication device, and the incoming call function performs a vibration function that shakes the mobile communication device, not an acoustic function such as a melody or a bell.

The linear vibration actuator that performs the vibration function is mainly used at present because it has the advantage of being capable of miniaturization without mechanical friction because the spring-loaded vibrator vibrates by the electromagnetic force between the magnet and the coil.

The conventional linear vibration actuator used in this way, as shown in Figure 1, the case (1), a spring (2) fixedly coupled to the case (1), a vibration unit (10) and a vibration suspended on the spring (2) It has a coil 4 for generating electric force in the eastern part (10). The coil 4 is fixed to the board 3 coupled to the case 1.

The vibrating part 10 is formed of a cylindrical shape with an open lower surface and an upper surface of the yoke 11 coupled with the lower end of the spring 2, the magnet 12 and the yoke 11 coupled inside the yoke 11 It is provided with a weight 13 attached to the outer peripheral surface.

When a current is supplied to the coil 4, the magnet 12 vibrates by the electromagnetic force formed between the coil 4 and the magnet 12, and vibrates the vibrating unit 10 suspended by the spring 2, The vibration of the vibrating unit 10 is transmitted to the case 1 in which the portable communication device or the like is installed through the spring 2, and vibration is generated in the portable communication device.

As described above, the conventional linear vibration actuator may increase the weight of the weight 13 and the size of the magnet 12 in order to obtain a larger vibration force, and according to the recent trend of slimming and miniaturization of devices, the weight 13 and the magnet ( 12) There is a problem in that a larger vibration force cannot be obtained because there is a limit in increasing the size.

An object of the present invention is to increase the vibration force of a linear vibration actuator and to distribute the increased vibration force in a distributed manner to obtain an improved and stabilized vibration force.

Linear actuator according to the present invention for achieving the above object, the case; Yoke, the outer magnet and plate sequentially coupled to the edge of the yoke, the inner portion of the case while having an inner magnet and pole pieces which are sequentially coupled to the center portion of the yoke and located inside the outer magnet and the plate, respectively. A vibrating unit installed to vibrate up and down; One side is coupled to the upper surface of the case, the other side of the yoke is suspended, spring wound in a vortex form to transmit the vibration of the vibration unit to the case; In the linear vibration actuator having a coil provided inside the case to vibrate the vibration unit,
The spring is coupled to the upper surface of the case with the left and right coupling ends and the center portion downward, and the intermediate portion between the left and right coupling ends and the center portion is upward, so that the yoke is suspended.

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According to the present invention, the vibrating unit that generates vibration is provided with inner and outer magnets to increase the electromagnetic force, and the spring that transmits the vibrating force of the vibrating unit to the case is wound into a vortex, and the outer and central ends are downward. The intermediate portion between the outer end and the central end is raised. Therefore, the vibration force of the vibration part is improved, and the vibration force of the vibration part is distributed to the center and the outside by the spring and is transmitted to the case, thereby obtaining a stabilized vibration force.

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

2 is a cross-sectional view of a linear vibration actuator according to an embodiment of the present invention, and FIG. 3 is a perspective view of a spring of a linear vibration actuator according to an embodiment of the present invention.

The linear vibration actuator according to the present embodiment includes a case 20, a spring 30, a vibration unit 40, and a coil 50.

The case 20 is provided in a cylindrical shape with an open bottom surface.

The spring 30 is in the vortex form based on the middle part 33 and the middle part 33 wound upward in a vortex form based on the left and right coupling ends 31 and 32 and the left and right coupling ends 31 and 32. It is wound downward and has a central portion 34 positioned on the same line as the left and right coupling ends 31 and 32.

In the spring 30, the central part 34 and the left and right coupling ends 31 and 32 are fixedly coupled to the inner upper surface of the case 20, and the intermediate part 33 is fixedly coupled to the vibrating part 40.

The vibrating portion 40 is provided with a yoke 41 suspended from the middle portion 33 of the spring 30, an outer magnet 42, a plate 43, an inner magnet 44, and a pole piece 45.

The yoke 41 is formed in a disc shape and is coupled to the upper surface 33 of the spring 30.

The outer magnet 42 is formed in a ring shape and is coupled to the lower edge of the yoke 41.

Plate 43 is formed in a ring shape is coupled to the lower surface of the outer magnet (42).

The inner magnet 44 is formed in a disc shape and is located inside the outer magnet 42 and is coupled to the lower surface of the yoke 41.

The pole piece 45 is formed in a disk shape and is coupled to the lower surface of the inner magnet 44.

The coil 50 has a lower end fixed to a board 51 fixedly coupled to an open surface of the case 20, and an upper end is positioned between the outer magnet 42 and the inner magnet 44 of the vibrating portion 40.

When the current is supplied to the coil 50, the linear vibration actuator according to the present embodiment configured as described above, the vibration unit suspended in the spring 30 by the electromagnetic force formed between the coil 46 and the vibration unit 40 ( 40) vibrates up and down, and the up and down vibration of the vibrating part 40 is transmitted to the case 20 through the spring 30, thereby causing the entire case 20 to vibrate.

At this time, the vibration unit 40 that generates vibration has a strong magnetic field by the outer magnet 42 and the inner magnet 44, and forms an electromagnetic force with the coil 46, and the outer magnet 42 acts as a weight. As it is, a large vibration force is generated.

And the large vibration force generated in the vibration unit 40 is transmitted to the intermediate portion 33 of the spring 30, the vibration force transmitted to the intermediate portion 33 of the spring 30 is vortex in the intermediate portion 33 As it is distributed to the case 20, which is distributed to the central part 34 wound in the form and the left and right coupling ends 31 and 32, respectively, the case 20 generates a more stabilized vibration force.

1 is a cross-sectional view of a conventional linear vibration actuator

2 is a cross-sectional view of a linear vibration actuator according to an embodiment of the present invention

3 is a perspective view of a spring of a linear vibration actuator according to an embodiment of the present invention

*Explanation of symbols for the main parts of the drawing*

20; Case 30 spring

31,32; Left and right coupling end 33; Middle part

34; Central 40; Vibration

41; York 42; Outside magnet

43; Plate 44; Inside magnet

45; Pole piece 50; coil

51; baud

Claims (4)

case; Yoke, the outer magnet and plate sequentially coupled to the edge of the yoke, the inner portion of the case while having the inner magnet and the pole piece, which are sequentially coupled to the center portion of the yoke and located inside the outer magnet and the plate, respectively A vibrating unit installed to vibrate up and down; One side is coupled to the upper surface of the case, the other side of the yoke is suspended, the spring wound in a vortex form to distribute and transmit the vibration of the vibration unit to the case; In the linear vibration actuator having a coil provided inside the case to vibrate the vibration unit, The spring is a linear vibration actuator in which the left and right coupling ends and the center are downwardly coupled to the upper surface of the case, and the intermediate portion between the left and right coupling ends and the center is upward and the yoke is suspended. According to claim 1, The left and right coupling ends and the central portion are linear vibration actuators positioned on the same line. delete delete

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