KR100431926B1 - Vibrator Using the Piezoelectric - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vibrating apparatus using a piezoelectric body that can realize a vibration mode of a mobile terminal such as a pager and a mobile phone by using a piezoelectric member whose shape is changed by contraction and relaxation when an electric field is applied. The vibration mode of the mobile terminal is simpler as it is implemented by the vibration motor, but the battery power consumption is high, and there is a limit in reducing the overall volume, thickness, and weight of the mobile terminal. There is a disadvantage, and the vibration motor currently used is a complicated structure and a lot of hands, there is a disadvantage that the failure rate of the vibration motor is large and mass production using an automatic process is not easy.

Accordingly, the present invention provides a cantilever for generating a source vibration as a piezoelectric body that contracts and relaxes when an electric field is applied to a predetermined voltage, and a spring and an external device for amplifying the source vibration of the cantilever with the vibration required by the mobile terminal. By implementing the vibration device of the mobile terminal using the diaphragm, it is possible to improve the terminal usable time and battery consumption efficiency, and to make the mobile terminal smaller and lighter than the conventional vibration motor. The structure is simple, the defect rate can be reduced, and the mass production using the automatic process is easy.

Description

Vibrator using piezoelectrics {Vibrator Using the Piezoelectric}

The present invention relates to a vibrating apparatus using a piezoelectric element, and in particular, to realize a vibration mode of a mobile terminal such as a pager and a mobile phone by using a piezoelectric element whose shape changes due to contraction and relaxation when an electric field is applied. A vibration device using a piezoelectric body.

Recently, due to the development of wireless communication technology, devices such as a personal communication service (PCS) terminal, a digital cellular phone, a pager, and the like, which allow an individual to transmit / receive with a counterpart using a mobile terminal, are commercially available.

In the case of such a mobile terminal, an incoming mode for informing a user of a call is a vibration mode and a ringing tone mode, in order to set the incoming mode of the mobile terminal in which mobility is emphasized to suit the surrounding situation.

In particular, as the use of mobile terminals has become common and commercialized, vibrations are set in order not to damage other people by generating ringing sounds of terminals in public places such as concert halls, theaters or public transportation.

At this time, the vibration mode of the mobile terminal is implemented by a DC vibration motor, the operation of the vibration motor is simple, but when the mobile terminal is operating in the vibration mode otherwise, that is, 1 / when operating in the ring tone mode Available time is reduced to three levels, the battery power consumption is much.

In addition, users of mobile terminals are demanding not only a functional upgrade of the terminal but also an externally smaller and lighter terminal. However, when implementing a vibration mode using a vibration motor as in the present case, the overall volume and thickness of the mobile terminal are required. And since there is a limit to reduce the weight, there is a disadvantage that can not be as small, lightweight as the terminal users require.

In addition, since the vibration motor currently used is a complicated structure and a lot of hands, there is a disadvantage that the failure rate of the vibration motor is large and mass production using an automatic process is not easy.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to move a cantilever generating a source vibration as a piezoelectric body that contracts and relaxes when an electric field is applied to a predetermined voltage, and moves the source vibration of the cantilever. By implementing a vibration device of the mobile terminal using a spring and an external diaphragm to amplify the vibration required by the terminal, it is to improve the terminal available time and battery consumption efficiency as compared to the case using a conventional vibration motor.

In addition, another object of the present invention, by implementing a vibration device of the mobile terminal using a piezoelectric material instead of a vibration motor, it is possible to reduce the size and weight of the mobile terminal, and at the same time simplify the structure of the vibration device, reduce the failure rate to automatically To facilitate mass production using the process.

1 illustrates a basic system for contracting and relaxing a piezoelectric body in the present invention.

FIG. 2 is a view showing a piezoelectric body that contracts and relaxes by FIG. 1; FIG.

3 is a view showing a vibration device using a piezoelectric body according to an embodiment of the present invention.

4 is a diagram illustrating a structure of a vibration amplifying apparatus for amplifying vibration of a vibration apparatus using the piezoelectric body shown in FIG. 3.

Explanation of symbols on the main parts of the drawings

30: cantilever 35: spring

40: external diaphragm

A feature of the present invention for solving the above object is to generate a source vibration when a voltage is supplied to generate an electric field, and at least two materials including at least one piezoelectric material having different degrees of shrinkage and relaxation are predetermined. A cantilever fixed at one end in a state of being attached at intervals; A spring elastically acting on a source vibration at an unfixed side of the cantilever; It is attached to both ends of the spring, together with the spring to provide a vibration device using a piezoelectric body comprising an external diaphragm to amplify the source vibration of the cantilever to the vibration required by the mobile terminal.

Here, in the case where both materials having different shrinkage and relaxation degrees are used as piezoelectric bodies, electric fields are generated in a vertical direction by supplying a voltage to the surface of the piezoelectric body in the state where different metals are inserted between the two piezoelectric bodies. If the part is not vibrating up and down to generate a source vibration, and one of the two materials of different shrinkage and relaxation degree is used one of the piezoelectric material and the other of the material as a metal A voltage is applied to the surface of the piezoelectric body in a state in which the piezoelectric body and the metal are attached, thereby generating an electric field in the vertical direction, thereby causing source vibration while the unfixed portion vibrates up and down.

The voltage supplied to the cantilever may be a sine wave or a square wave voltage generated by boosting the battery voltage.

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

In the present invention, the vibration mode of a mobile terminal such as a PCS terminal, a digital cellular phone, a pager, etc. is to be implemented as a vibration device using a piezoelectric body. The piezoelectric body is shown in FIG. When polarizing and supplying a predetermined voltage to generate an electric field, the shape of the piezoelectric body is changed by the contracting and relaxing action as shown in FIGS. 2A and 2B.

That is, the present invention is to implement a vibration device using a property that changes the shape by the contraction and relaxation action when an electric field is applied to the piezoelectric material as described above, for this purpose, the vibration must first be generated using the piezoelectric material, As shown in FIG. 3, the cantilever 30 is formed by fixing one end in the longitudinal direction while attaching two materials having different contraction and relaxation degrees at predetermined intervals, and corresponding cantilever ( If the electric field is applied by supplying a voltage to 30), the shape changes while bending in one direction to generate vibration.

Here, the two materials constituting the cantilever 30 having different shrinkage and relaxation degrees may both use a piezoelectric body or only one of them as a piezoelectric body, and in the case of using both materials as a piezoelectric body, between two piezoelectric bodies When a voltage is applied to the surface of the piezoelectric body while another metal is inserted, and an electric field is applied in the vertical direction, the unfixed portion vibrates up and down, and when one material uses a piezoelectric material and the other material is used as a metal When the electric field is applied in the vertical direction by supplying a voltage to the surface of the piezoelectric body in the state where the piezoelectric body and the metal are attached, the unfixed portion vibrates up and down and generates source vibration of the vibration device to be implemented in the present invention.

On the other hand, in order to implement the vibration device required by the mobile terminal by using the above-described vibration of the cantilever 30 using the piezoelectric body as the source vibration, the sine wave voltage or the square wave voltage having a maximum value of several tens of volts (V) in the cantilever 30. In order to supply this voltage from the mobile terminal, the battery voltage of 3.6V must be boosted and supplied.

However, if the boost ratio to the battery voltage is too large, the circuit efficiency is greatly reduced and the efficiency raised by the device loses its meaning. If the boost ratio is low, the vibration of the device is too small to provide a function as a vibration device. You won't be able to.

Accordingly, in the vibrating apparatus using the piezoelectric body according to the present invention, the cantilever 30 that generates source vibration while maintaining a low boost ratio to the battery voltage can provide the function of the vibrating device of the cantilever 30. In order to amplify the vibration, as shown in FIG. 4, an elastic spring is provided on one side of the cantilever 30, and both ends of the spring 35 have a predetermined resonance frequency. By attaching the external diaphragm 40, it is possible to provide the same vibration effect as the vibration mode provided by using a vibration motor in the current mobile terminal.

That is, in order to implement the vibration device of the mobile terminal using only the cantilever 30 using the piezoelectric body, the battery voltage of 3.6V should be boosted and supplied to about 30V, but as shown in FIG. 4, the spring 35 is installed on one side of the cantilever 30. In addition, by attaching the external diaphragm 40 to the spring 35, the spring 35 and the external vibration plate are generated even if only a small vibration is generated by supplying the cantilever 30 with only a voltage boosted to 3.6V by about 10V. By 40, it is possible to amplify the vibration to a degree that can be recognized by the terminal users, thereby lowering the boost ratio for the battery voltage to obtain the vibration required by the mobile terminal without lowering the battery usage efficiency It becomes possible.

At this time, the voltage supplied to the surface of the cantilever 30 can be connected and supplied as shown in Figure 3, if necessary can be supplied by puncturing the external diaphragm 40, the method for controlling the supply of the battery voltage is a conventional vibration Since it can be implemented in the same way as using a motor, the description thereof will be omitted.

In addition, the embodiments according to the present invention are not limited to the above-described embodiments, and various alternatives, modifications, and changes can be made within the scope apparent to those skilled in the art.

As described above, the present invention provides a cantilever that generates source vibration as a piezoelectric body that contracts and relaxes when an electric field is applied to a predetermined voltage, and a spring that amplifies the source vibration of the cantilever with vibration required by the mobile terminal. And by implementing the vibration device of the mobile terminal using an external diaphragm, it is possible to improve the terminal available time and battery consumption efficiency compared to the case of using a conventional vibration motor.

In addition, the present invention implements the vibration device of the mobile terminal by using a piezoelectric element instead of the vibration motor, which not only enables the compactness and light weight of the mobile terminal, but also simplifies the structure of the vibration device, reduces the defective rate, and automatically processes Mass production is facilitated using

Claims (4)

A cantilever that generates source vibration when a voltage is supplied to generate an electric field, and fixes one end in a state in which two materials including at least one piezoelectric body having different contraction and relaxation degrees are attached at predetermined intervals; A spring elastically acting on a source vibration at an unfixed side of the cantilever; And an external diaphragm attached to both ends of the spring to amplify the source vibration of the cantilever to the vibration required by the mobile terminal together with the spring. The method of claim 1, In the case where both materials having different shrinkage and relaxation degrees are used as the piezoelectric body, an electric field is generated in a vertical direction by supplying a voltage to the surface of the piezoelectric body while a different metal is inserted between the two piezoelectric bodies, thereby not fixing the portion. Vibration apparatus using a piezoelectric element characterized in that the source vibration is generated while vibrating up and down. The method of claim 1, When one material is used as a piezoelectric material and the other material is used as a metal among two materials having different degrees of contraction and relaxation, a voltage is applied to the surface of the piezoelectric body in a state in which a piezoelectric material and a metal are bonded to form an electric field in a vertical direction. Vibration apparatus using a piezoelectric element to generate a source vibration while the non-fixed portion vibrates up and down. The method of claim 1, And a voltage supplied to the cantilever is a sine wave or a square wave voltage generated by boosting a battery voltage.