KR101500562B1 - Piezoelectric Speaker - Google Patents

Abstract

The present invention relates to a piezoelectric speaker capable of smoothly reproducing a low frequency while increasing an output sound pressure by dually installing a sound diaphragm and minimizing a short of an electrode due to a vibration by forming the electrode with a circuit pattern. The piezoelectric speaker includes: a first sound diaphragm, one pair of pattern electrodes which are formed on the upper side of the first sound diaphragm with the circuit pattern and apply an electric signal, at least two connection terminals which are flatly attached on the upper side of the pattern electrode and are made of conductive materials, a piezoelectric layer which is attached on the upper side of the connection terminal and outputs a sound by converting the electric signal applied through the pattern electrode into the vibration, a second sound diaphragm which is attached on the upper side of the piezoelectric layer, and a frame which is attached to surround the first sound diaphragm and the second sound diaphragm.

Description

Piezoelectric Speaker [0002]

More particularly, the present invention relates to a piezoelectric speaker in which electrodes are formed in a circuit pattern so that occurrence of short-circuiting of electrodes due to vibration is minimized while dual acoustic diaphragms are installed to increase the output sound pressure, To a piezoelectric speaker.

In recent years, slimmerization of TV products including LCD TVs, LED TVs, and mobile terminals such as mobile phones, smart phones, and notebooks has accelerated, and piezoelectric speakers are attracting attention as an alternative to dynamic speakers using conventional magnet coils .

In general, piezoelectric speakers are thinner and lighter than conventional dynamic speakers and have lower power consumption, making them a future-oriented speaker technology.

In spite of the above advantages, however, the piezoelectric speaker has a disadvantage in that the output sound pressure is low and the low frequency reproduction is difficult compared with the conventional dynamic speaker, and thus it is difficult to commercialize it.

Conventional piezoelectric loudspeakers include piezoelectric loudspeakers such as piezoelectric loudspeakers, piezoelectric loudspeakers using a piezoelectric vibrator or a piezoelectric disk over a metal diaphragm, film piezoelectric loudspeakers such as PVDF (polyvinylidene fluoride), and silicon MEMS (Mechanical Electronic Micromachined System) And a miniature piezoelectric speaker of a type in which the speaker is manufactured.

As a conventional piezoelectric speaker, a film type piezoelectric speaker using a piezoelectric film material uses a piezoelectric film material such as PVDF to form electrodes at upper and lower portions, and applies a voltage to generate a sound. The film-type piezoelectric speaker is manufactured by forming a polymer conductive film on both sides of a piezoelectric film, forming electrodes extending along the edges of the piezoelectric film, and forming terminals for applying a voltage to the electrodes.

However, the above-described conventional techniques have the following problems.

The conventional film type piezoelectric speaker has a problem in that the power is connected to the piezoelectric film through the soldering of the copper wire so that the copper wire itself or the soldering portion is damaged by the vibration during long use and is easily short-circuited.

In addition, the conventional film type piezoelectric speaker has a disadvantage in that the output sound pressure is lower than that of a dynamic speaker, and reproduction of a low frequency is particularly difficult.

Open Patent No. 2012-0064984 "Piezoelectric speaker" (2012. 06. 20)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

An object of the present invention is to provide a piezoelectric speaker in which an electrode is formed in a circuit pattern so that short-circuiting of electrodes due to vibration is minimized while providing an acoustic diaphragm doubly so that reproduction of a low frequency can be smoothly performed while increasing output sound pressure .

Another object of the present invention is to provide a piezoelectric speaker in which electrodes are symmetrically provided so that connection and adhesion with the piezoelectric layer can be uniformly and stably performed.

It is another object of the present invention to provide a piezoelectric speaker having an amplitude control plate to increase the sound pressure while appropriately adjusting the amplitude of the acoustic diaphragm.

In order to achieve the above object, a "piezoelectric speaker" according to the present invention comprises: a first acoustic diaphragm; A pair of pattern electrodes formed on the upper surface of the first acoustic diaphragm in a circuit pattern and applying an electric signal; A connection terminal formed on the upper surface of the pattern electrode so as to be at least two or more flat and made of a conductive material; A piezoelectric layer attached to an upper surface of the connection terminal, for converting an electric signal applied through the pattern electrode into vibration and outputting sound; A second acoustic diaphragm attached to an upper surface of the piezoelectric layer; A frame attached to surround the first acoustic diaphragm and the second acoustic diaphragm; .

Further, the "piezoelectric speaker" according to the present invention is characterized in that it is attached to the periphery of the upper surface of the first acoustic diaphragm and the lower surface of the second acoustic diaphragm corresponding to the inner surface of the frame, Member; And further comprising:

Further, the pattern electrodes of the "piezoelectric speaker" according to the present invention are provided so as to be symmetrical with respect to the piezoelectric layer in plan view.

The pattern electrode of the "piezoelectric speaker" according to the present invention includes a power connection portion provided to the left and right of the frame, one end connected to the power connection portion and the other end connected to the upper surface of the first acoustic diaphragm The first acoustic diaphragm is formed in a pair of straight lines on the upper surface of the first acoustic diaphragm and the connection terminal is bent at 90 degrees on the upper surface of the first acoustic diaphragm, And a linear pattern portion to which the pattern is attached.

Further, a "piezoelectric speaker" according to the present invention includes: a first amplitude control plate made of a synthetic resin material attached to a lower surface of the first acoustic diaphragm; And further comprising:

Further, a "piezoelectric speaker" according to the present invention includes: a second amplitude control plate made of synthetic resin attached to an upper surface of the second acoustic diaphragm; And further comprising:

According to the present invention as described above, since electrodes are formed in a circuit pattern, the occurrence of short-circuiting of the electrodes due to vibration is minimized to prolong the life span, and a double sounding diaphragm is provided, .

In addition, the present invention has the effect that the electrodes are provided symmetrically so that the connection with the piezoelectric layer and the adhesion are uniform and stable.

Further, the present invention has the effect of increasing the sound pressure while appropriately adjusting the amplitude of the acoustic diaphragm by providing the amplitude control plate.

1 is a schematic vertical cross-sectional view of a piezoelectric speaker according to the present invention,
2 is a sectional view taken along the line AA in Fig. 1,
Fig. 3 is a configuration diagram of the main part of Fig. 2,
4 is a schematic vertical cross-sectional view of a piezoelectric speaker in accordance with another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the invention can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

Fig. 1 is a schematic longitudinal sectional view of a piezoelectric speaker according to the present invention, Fig. 2 is a cross-sectional view taken along line A-A of Fig. 1, and Fig.

As shown, the piezoelectric speaker of the present invention includes a first acoustic diaphragm 10, a pattern electrode 20 formed on the first acoustic diaphragm 10, A second acoustic diaphragm 50 attached to an upper surface of the piezoelectric layer 40; and a second acoustic diaphragm 50 attached to the upper surface of the connection terminal 30, And a frame 60 surrounding the diaphragm 10 and the second acoustic diaphragm 50.

The first acoustic diaphragm 10 is mounted on the frame 60 and vibrates according to the vibration of the piezoelectric layer 40 to output sound and is made of a material such as rubber, silicone, and urethane .

The pattern electrodes 20 are formed on the upper surface of the first acoustic diaphragm 10 in a circuit pattern and serve to apply an electric signal to the piezoelectric layer 40. For this purpose, the pattern electrode 20 is formed by transfer-printing particles of electrically conductive metal such as copper, silver, lead, and palladium to form a thin circuit pattern.

3, the entire upper and lower thicknesses of the present piezoelectric speaker can be made thinner, and at the same time, the thickness of the first acoustic diaphragm 10 and the piezoelectric thin- It does not break even with the vibration of the layer 40, so that the electric short-circuit is prevented and the long life of the piezoelectric speaker itself is guaranteed.

The pattern electrodes 20 may be symmetrically arranged with respect to the piezoelectric layer 40 in plan view. This is to enable the piezoelectric layer 40 to be attached to the upper surface of the pattern electrode 20 in a balanced manner on the plane while connecting the positive electrode and the negative electrode to the piezoelectric layer 40 without shorting.

The pattern electrode 20 has a power connection part 21 provided on the left and right sides of the frame 60 and has one end connected to the power connection part 21 and the other end connected to the inner side of the frame 60 A bending pattern portion 22 formed to be symmetrically symmetrical with the upper surface of the first acoustic diaphragm 10 being bent at 90 degrees and a second acoustic diaphragm 22 bent at 90 degrees from the end of the bending pattern portion 22, And a linear pattern portion 23 formed in a pair of straight lines on the upper surface of the connection terminal 10 and attached to the upper surface of the connection terminal 30.

3, the power connection unit 21 electrically connects the external power source connected to the frame 60 to the bending pattern unit 22, and the bending pattern unit 22 is connected to the external power source, The rectilinear pattern part 23 serves to electrically connect the power connection part 21 and the linear pattern part 23 so that the connection terminal 30 can be symmetrically attached as shown in FIG. .

The connection terminal 30 is formed on the upper surface of the pattern electrode 20 so that the pattern electrode 20 and the piezoelectric layer 40 can be electrically connected to each other. It also serves to attach each other.

The connection terminal 30 having such a role can be formed by soldering (soldering) or can be formed of an electrically conductive metal adhesive, but not limited thereto, various connection and adhesive means capable of being energized can be used.

3, four connection terminals 30 are provided on the upper surface of the linear pattern portion 23 so that the connection and adhesion of the piezoelectric layer 40 to the pattern electrode 20 are smooth. And the like.

The piezoelectric layer 40 is attached to the upper surface of the connection terminal 30 and converts an electric signal applied through the pattern electrode 20 into vibration to output sound. The piezoelectric layer 40 having such a role is formed by performing a polishing process on a piezoelectric ceramic of a thick film type to form a thin single layer film or by depositing or coating a thin film of a laminated structure.

The piezoelectric layer 40 may be a single crystal piezoelectric material such as PMN-PT, PZN-PT, PIN-PT, or PYN-PT as well as polycrystalline ceramics such as PZT, a flexible piezoelectric polymer material such as PVDF or PVDF- BNT, and BZT-BCT, and the like. In addition, the piezoelectric layer 40 may have various shapes such as a circular shape, an elliptical shape, and a polygonal shape as well as a square shape as shown in FIG. 3 when viewed in a plan view.

The second acoustic diaphragm 50 is attached to the upper surface of the piezoelectric layer 40 and is attached to the frame 60 in the same manner as the first acoustic diaphragm 10, It plays the role of outputting sound when it is vibrated, and is made of materials such as rubber, silicone and urethane.

It is preferable that the second acoustic diaphragm 50 having the same function as the first acoustic diaphragm 10 is formed with the same size and material as that of the first acoustic diaphragm 10, ), Thereby improving the sound pressure and improving the reproduction of the low frequency sound more smoothly.

The frame 60 is attached so as to surround the lower surface of the first acoustic diaphragm 10 and the upper surface of the second acoustic diaphragm 50. The first acoustic diaphragm 10 and the second acoustic diaphragm 50 50) to be fixed firmly. The frame 60 may be formed of polybutylene terephthalate (PBT), polyacetal (PBT), or the like in order to minimize the anti-vibration due to the internal loss when the first acoustic diaphragm 10 and the second acoustic diaphragm 50 vibrate POM) and polycarbonate (PC), or the like, or a metal or an alloy including stainless steel.

The piezoelectric speaker is attached to the inner surface of the frame 60 so as to surround the upper surface of the first acoustic diaphragm 10 and the lower surface of the second acoustic diaphragm 50 and is made of an elastically deformable material. Member (70).

The elastic member 70 is installed between the periphery of the upper surface of the first acoustic diaphragm 10 and the lower surface of the second acoustic diaphragm 50 between the frame 60 and the first acoustic diaphragm 10, And acts to elastically support the vibrations of the first acoustic diaphragm 10 and the second acoustic diaphragm 50 by the piezoelectric layer 40 disposed between the acoustic diaphragms 50 to improve the sound pressure. The elastic member 70 having such a function may be a synthetic rubber such as urethane having high elasticity.

4 is a schematic longitudinal sectional view of a piezoelectric speaker according to another embodiment of the present invention.

As shown in the figure, the piezoelectric speaker according to another embodiment of the present invention further includes a first amplitude control plate 80 made of synthetic resin attached to a lower surface of the first acoustic diaphragm 10. The first amplitude control plate 80 adjusts the amplitude of the first acoustic diaphragm 10 caused by the vibration generated in the piezoelectric layer 40 and transmitted to the first acoustic diaphragm 10 to improve the sound pressure, And to reduce the distortion of the image. The first amplitude control plate 80 may be formed of a synthetic resin material having flexibility or rigidity such as silicone or plastic.

The piezoelectric speaker further includes a second amplitude control plate 90 made of synthetic resin and attached to the upper surface of the second acoustic diaphragm 50. The second amplitude control plate 90 adjusts the amplitude of the second acoustic diaphragm 50 caused by the vibration generated in the piezoelectric layer 40 and transmitted to the second acoustic diaphragm 50, And to reduce the distortion of the image. The second amplitude control plate 90 may be formed of a synthetic resin material having flexibility or rigidity such as silicone or plastic.

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. It is clear that the present invention can be suitably modified and applied in the same manner. Therefore, the above description does not limit the scope of the present invention, which is defined by the limitations of the following claims.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

10: first acoustic diaphragm
20: pattern electrode
21: power connection part 22: bending pattern part
23: Linear pattern portion
30: Connection terminal
40: piezoelectric layer
50: second acoustic diaphragm
60: frame
70: elastic member
80: First amplitude control plate
90: Second amplitude control plate

Claims (6)

A first acoustic diaphragm;
A pair of pattern electrodes formed on the upper surface of the first acoustic diaphragm in a circuit pattern and applying an electric signal;
A connection terminal formed on the upper surface of the pattern electrode so as to be at least two or more flat and made of a conductive material;
A piezoelectric layer attached to an upper surface of the connection terminal, for converting an electric signal applied through the pattern electrode into vibration and outputting sound;
A second acoustic diaphragm attached to an upper surface of the piezoelectric layer;
A frame attached to surround the first acoustic diaphragm and the second acoustic diaphragm; Including,
An elastic member attached between the periphery of the upper surface of the first acoustic diaphragm and the lower surface of the second acoustic diaphragm corresponding to the inner surface of the frame and formed of an elastically deformable material; Further comprising a piezoelectric resonator.
delete The method according to claim 1,
The pattern electrode may be formed,
Wherein the piezoelectric layer is symmetrically arranged in a plane with respect to the piezoelectric layer.
The method according to claim 1,
The pattern electrode may be formed,
A pair of left and right power connection units installed on the frame,
A bending pattern portion having one end connected to the power connection portion and the other end formed to be mutually symmetric with the upper surface of the first acoustic diaphragm bent 90 degrees to the inside of the frame;
A linear pattern portion bent at 90 degrees from an end of the bending pattern portion and formed in a pair of straight lines on an upper surface of the first acoustic diaphragm,
The piezoelectric speaker comprising:
The method according to claim 1,
The piezoelectric speaker includes:
A first amplitude control plate made of a synthetic resin material attached to the lower surface of the first acoustic diaphragm;
Further comprising a piezoelectric resonator.
The method according to claim 1,
The piezoelectric speaker includes:
A second amplitude control plate made of a synthetic resin and attached to an upper surface of the second acoustic diaphragm;
Further comprising a piezoelectric resonator.

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