KR101474862B1 - Vibration generating device - Google Patents

Abstract

The present invention relates to a vibration generating apparatus.
According to the present invention, there is disclosed a technique capable of reducing the thickness by generating vibration by using a piezoelectric body and improving the productivity by simplifying the structure.

Description

[0001] VIBRATION GENERATING DEVICE [0002]

The present invention relates to a vibration generating apparatus.

Generally, a method for informing an incoming call from a communication device is a method of using a ring tone or vibrate the device to vibrate. Among them, the vibration method is mainly used when the user does not want to cause noise damage to the other person through the ring tone. For this purpose, a small vibration generating device constructed inside the device is driven to transmit the driving force to the case of the device.

BACKGROUND ART [0002] Currently, a vibration generating device applied to a communication device such as a cellular phone is a part for converting electrical energy into mechanical vibration by utilizing the principle of electromagnetic force generation, and is used for alerting incoming calls in a silent state .

In recent years, the vibration generator has been rapidly expanding in the mobile phone market, and various functions have been added to the mobile phone. Therefore, it is required to downsize and improve the quality of the mobile phone parts. The need for the

1, a conventional general vibration generating apparatus 10 includes a case 11, a coil 12, a magnet 13, a spring 14, a plate 15, a yoke 16, (17) and the like.

The case 11 has a receiving space for accommodating other components.

The coil 12 is attached to the bottom surface of the case 11 to generate a magnetic field in accordance with an input electrical signal.

The magnet 13 is vibrated by the magnetic field generated by the coil 12.

The spring 14 supports the magnet 13 in a vibratable manner.

The plate 15 maximizes the interference between the magnetic field formed by the coil 12 and the magnet 13 by focusing the magnetic flux generated from the magnet 13 toward the coil 12 side.

The yoke 16 together with the magnet 13 and the plate 15 constitute a magnetic circuit.

Here, the plate 15 and the yoke 16 are attached to the magnet 13 with the magnet 13 interposed therebetween.

The weight 17 is attached to the yoke to add weight to the vibration.

The vibration generating apparatus 10 having the above structure is configured such that when an alternating current is applied to the coil 12, the magnet 13, the plate 15, and the armature 13 interfere with the fluctuating magnetic field formed by the coil 12, The yoke 16 and the weight 17 are vibrated.

However, the vibration generator of the above structure has the following disadvantages.

First, the power consumed is large because the vibrations of the weight 17 due to the interaction between the permanent magnets 13 and the magnetic field generated in proportion to the current flowing in the coil 12, which is an essential constitution, are used.

Secondly, there is an electromagnetic influence by the coil 12 and the magnet 13 on the peripheral components.

Third, the structure is complicated, and there is a danger such as the occurrence of the knitting vibration, and the defect rate is high, so that the design and manufacture are difficult.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a vibration generating apparatus which does not use a coil.

According to an aspect of the present invention, there is provided a vibration generating apparatus comprising: a case having a receiving space therein; A vibrating body accommodated in the accommodating space of the case; A first elastic plate having one side fixed to the case and the other side being a free end coupled to a first portion of the vibrating body to allow free vibration; A first piezoelectric member attached to the first elastic plate, the first piezoelectric member including a first electrode; And a second elastic plate having one side joined to a second portion different from the first portion of the vibrating body to be a free end capable of free vibration and the other side being a fixed end fixed to the case; .

A second piezoelectric body attached to the second elastic plate, the second piezoelectric body including a second electrode; .

The first portion and the second portion of the vibrating body are spaced apart and protrude in mutually opposite directions.

Furthermore, the vibration generating device according to the present invention may include: a first vibrator having the same structure as the above-described vibration generating device; And a second vibrator having a vibrating body vibrating in a direction different from a direction in which the vibrating body of the first vibrating body vibrates, the second vibrating body having the same structure as the above-mentioned vibration generating device; .

As described above, the present invention has the following effects.

First, since the piezoelectric body is used, it can be driven with low power consumption.

Second, magnets and coils can be omitted.

Third, since the structure is simple, the defect rate is small, and the design and manufacture are easy, and the productivity is improved.

1 is a cross-sectional view of a conventional vibration generator.
2 is a schematic exploded perspective view of a vibration generating device according to the present invention.
3 is a cross-sectional view of the vibration generator of FIG.
Fig. 4 is an exaggerated reference diagram for explaining the operation principle of the vibration generator of Fig. 2; Fig.
5 is an exaggerated operational state diagram for explaining the operation of the vibration generating device of Fig.
6 is a cross-sectional view of a first modification of the vibration generator of FIG.
Fig. 7 is a cross-sectional view of a second modification of the vibration generator of Fig. 2;
Fig. 8 is an exaggerated operational state diagram for explaining the operation of the second variation of the vibration generator of Fig. 2; Fig.
9 is a schematic perspective view of a vibration generator according to another example of the present invention.

The preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings, in which the technical parts already known will be omitted or compressed for simplicity of explanation.

2 and 3, the vibration generating device 20 according to the embodiment of the present invention includes a case 21, a vibrating body 22, a first elastic plate 23, a first piezoelectric body 24, 2 elastic plate 25 and a second piezoelectric body 26. [

The case 21 includes a housing 21a and a lid 21b.

The housing 21a has a housing space S for accommodating the vibrating body 22, the first elastic plate 23, the first piezoelectric body 24, the second elastic plate 25 and the second piezoelectric body 26 And one side is open.

The cover 21b is provided to cover one side of the housing 21a that is open.

The oscillating body 22 has a weight enough to have a sufficient oscillation amount and the oscillating body 22 is arranged in such a manner that one side first portion 22L (front portion) and the other second portion 22R (rear portion) And a direction projecting leftward and rightward with respect to the center line C). In other words, the first portion 22L and the second portion 22R are positioned apart from each other at both front and rear ends of the vibrating body 22.

The first elastic plate 23 is provided as a leaf spring and has one end fixed to the case 21 and the other end being coupled to the first portion 22L of the vibrating body 22, It becomes a free end 23b as much as possible.

The first piezoelectric member 24 is attached to a surface facing the leftward outer side of the first elastic plate 23 with reference to the center line C as shown in Fig.

The first piezoelectric body 24 includes a first electrode 24a that functions as an electrode and a second electrode 24b that is insulated from the first elastic plate 23.

The second elastic plate 25 is provided as a leaf spring and is connected to the second portion 22R of the vibrating body 22 at one side thereof to be a free end 25b capable of free vibration and the other side is fixed to the case 21 As shown in Fig.

The second piezoelectric body 26 is attached to the inwardly facing surface of the second elastic plate 25 in the leftward direction with respect to the center line C as shown in Fig.

Similarly, the second piezoelectric body 26 includes a first electrode 26a that functions as an electrode and a second electrode 26b that is insulated from the second elastic plate 25.

 The first piezoelectric body 24 and the second piezoelectric body 26 shrink or expand as the power source is applied.

Subsequently, the operation of the vibration generator 20 having the above configuration will be described.

Generally, the first piezoelectric body 24 and the second piezoelectric body 26 contract or expand as shown in FIGS. 4 (a) and 4 (b) when the power is applied, and the first and second elastic plates 23 and 24, The second elastic plate 25 is bent while being elastically deformed.

Since the first elastic plate 23 and the second elastic plate 25 are fixed to the case 21 at the fixed ends 23a and 25a in this embodiment, only the free ends 23b and 25b are displaced I do the swing exercise to be done.

5 (a), the first piezoelectric body 24 and the second piezoelectric body 26 contract to form the state shown in Fig. 5 (b) or the first piezoelectric body 24 and the second piezoelectric body 26 The vibrating body 22 vibrates while repeating that the piezoelectric body 26 expands and becomes the state shown in Fig. 5 (c). At this time, the vibrating body 22 performs the linear motion and the rotational motion in parallel.

That is, when the first piezoelectric body 24 and the second piezoelectric body 26 contract in the state of FIG. 5 (a) and go to the state of FIG. 5 (b), the vibrating body 22 linearly moves upward (See arrows in FIG. 5 (b)) in the clockwise direction at a certain angle (?) With respect to the center line (C). 5 (b), the first piezoelectric body 24 and the second piezoelectric body 26 expand, and the vibrating body 22 returns to the state of FIG. 5 (a) again. At this time, the vibrating body 22 moves linearly downward and at the same time performs a counterclockwise reverse rotation with respect to the center line C at a predetermined angle?. 5 (a) to 5 (c) in accordance with the expansion of the first piezoelectric body 24 and the second piezoelectric body 26 which are continued, the vibrating body 22 moves further downward At the same time, a clockwise rotation is performed based on the center line C (see arrows in FIG. 5 (c)). Then, the oscillator has a cyclic cycle from (a) → (b) → (a) → (c) → (a) of FIG. 5 at a high speed and the oscillator vibrates rapidly in parallel with linear movement and rotational motion.

Of course, when the alternating current having a frequency equal to the resonance frequency unique to the vibration system constituted by the first elastic plate 23 and the second elastic plate 25 and the vibrating body 22 is inputted, the vibration power can be further increased.

For reference, the reason why the two elastic plates 23 and 25 are applied in this embodiment is for balanced vibration. Therefore, the present invention can be completed even if the piezoelectric member on one side is removed and the elastic plate 65 on the side is used merely as a fixing member as in the first modification of Fig.

7 is a cross-sectional view of the vibration generator 70 according to the second modification.

In the vibration generating device 70 according to the second modification, the second piezoelectric body 76 is attached to the right side of the second elastic plate 75 with respect to the center line C '.

2, the first elastic plate 23 and the second elastic plate 25 have the same direction of deformation. However, in the vibration generator 70 according to the second modified example, The deformation directions of the plate 73 and the second elastic plate 75 are opposite to each other.

8, the first piezoelectric body 74 and the second piezoelectric body 76 contract as the AC power source is applied in the state of FIG. 8 (a), so that the state of FIG. 8 (b) The vibrating body 72 vibrates while repeating that the first piezoelectric body 74 and the second piezoelectric body 76 expand and become the state of Fig. 5 (c). At this time, the vibrating body 72 performs a rotation-oriented motion.

8 (a), when the first piezoelectric body 74 and the second piezoelectric body 76 contract and go to the state shown in FIG. 8 (b), the vibrating body 22 moves along the center line C ' So as to rotate in the clockwise direction by a predetermined angle alpha. 8B, the first piezoelectric body 74 and the second piezoelectric body 76 expand and the vibrating body 72 returns to the state of FIG. 8A again. At this time, the oscillator 72 performs a reverse rotation in a counterclockwise direction at a predetermined angle? With respect to the center line C '. 8 (a) to 8 (c) according to the expansion of the first piezoelectric body 74 and the second piezoelectric body 76 that have been sustained, the vibrating body 72 moves along the center line C ' So as to rotate further in the counterclockwise direction. Then, the oscillating body 72 swings at a high speed while rotating in the forward and reverse directions with a cycle cycle from (a) → (b) → (a) → (c) → (a) of FIG.

In the above embodiment, the vibrating bodies 22 and 72 are shown as vibrating in the horizontal direction. However, the vibrating bodies 22 and 72 may be provided so as to vibrate in the vertical direction. That is, the vibration generators 20 and 70 may vibrate in the vertical direction or vibrate in the horizontal direction in accordance with the installation direction of the vibration generators 20 and 70.

Further, the present invention is a structure in which vibrators 92a and 92a provided in a pair of vibrators 90a and 90b, which are coupled to each other as in the vibration generator 90 of FIG. 9, . The structure of each of the vibrators 90a and 90b is the same as that of the vibration generators 20 and 70. The vibrator 92a provided in the first vibrator 90a vibrates in the horizontal direction, The vibrating body 92b provided in the second vibrator 90b vibrates in the vertical direction.

The vibration generator 90 shown in Fig. 9 can be utilized in various ways. For example, when the two vibrators 90a and 90b are oscillated at the same time to maximize the sense of vibration, or when the characters are input, only the first vibrator 90a is selectively oscillated. When the vibrator 90b is placed on the same plane as the desk, ) Can be used in various ways such as selectively oscillating.

For reference, all of the above embodiments apply only a piezoelectric body having a monomolph structure, but it is also possible to apply a piezoelectric body of a Bimolph structure (a piezoelectric body having a multilayer structure) according to the practice.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. And the scope of the present invention should be understood as the following claims and their equivalents.

20, 70: Vibration generator
21: Case
22, 72: vibrating body
22L: first part 22R: second part
23, 73: a first elastic plate
23a: fixed end 23b: free end
24, 74: first piezoelectric body
24a: first electrode
25, 75: second elastic plate
25a: fixed end 25b: free end
26, 76: second piezoelectric element
26a: the second electrode

Claims (4)

A case having a receiving space therein;
A vibrating body accommodated in the accommodating space of the case;
A first elastic plate having one side fixed to the case and the other side being a free end coupled to a first portion of the vibrating body to allow free vibration;
A first piezoelectric member attached to the first elastic plate, the first piezoelectric member including a first electrode;
A second elastic plate having one side connected to a second portion different from the first portion of the vibrating body to be a free end capable of free vibration and the other side being a fixed end fixed to the case; And
A second piezoelectric body attached to the second elastic plate, the second piezoelectric body including a second electrode; Lt; / RTI >
Wherein the first portion and the second portion of the vibrating body are spaced apart from each other to generate vibration by at least rotating the vibrating body in accordance with the operation of the first piezoelectric body,
The moving direction of the free end of the first elastic plate due to the compression and expansion of the first piezoelectric body and the moving direction of the free end of the second elastic plate due to the compression and expansion of the second piezoelectric body do not exist in a straight line , The first piezoelectric body and the second piezoelectric body apply force to the vibrating body in directions opposite to each other, thereby causing the vibrating body to vibrate in a rotational motion
Vibration generating device. delete The method according to claim 1,
Wherein the first portion and the second portion protrude in mutually opposite directions
Vibration generating device. delete

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