KR20080048643A - Embossed film speaker and method of producing the same - Google Patents

Abstract

An embossed film speaker and a method for producing the same are provided to improve sound characteristics by forming a plurality of curved parts instead of a planar structure. A base film(10) is composed of a polymer film having a plurality of curved parts(5). A lower electrode layer(20) is overlapped with the curved parts on the base film. A piezoelectric complex layer(30) is formed on the lower electrode layer. The piezoelectric complex layer is composed of a mixture of piezoelectric powders and a polymer matrix. An upper electrode layer(40) is overlapped with the piezoelectric complex layer. An electrical signal applying terminal is connected to the upper electrode layer and the lower electrode layer.

Description

Film speaker having a bent portion and a method for producing the same {Embossed film speaker and method of producing the same}

1A and 1B are cross-sectional views of a conventional piezoelectric composite speaker.

2A and 2B are a cross-sectional view and a plan view of a piezoelectric composite speaker according to a first embodiment of the present invention.

3A and 3B are cross-sectional views of a piezoelectric composite speaker according to a second embodiment of the present invention.

Figure 4 is a detailed view of the bent portion of the piezoelectric composite speaker according to an embodiment of the present invention.

5 and 6 are cross-sectional views of a piezoelectric composite speaker according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1: base film 2: lower electrode

3: piezoelectric composite 4: upper electrode

5: bend 11: height of bend

12: width of bend 13: gap of bend

The present invention relates to a method for manufacturing a film speaker having a bent portion using a 0-3 type piezoelectric composite, wherein the base film is primarily molded to form a bent portion, and in order to impart conductivity, ITO, Cu, Al, conductive polymer, etc. A lower electrode is formed by using a conductor of 0, and a piezoelectric composite layer vibrating according to an electrical signal is formed using a 0-3 type composite (piezoelectric powder + polymer matrix) as a raw material by printing, spraying, or spin coating. A method of manufacturing a film speaker, characterized in that the upper electrode of Ag, Carbon, Cu, Al, etc. is formed on the top by printing, spraying, spin coating or vapor deposition, and polarized to be used as a thin speaker, and without primary molding After the piezoelectric composite film-type speaker is formed by the secondary molding to form a bent portion by the film-type speaker, characterized in that It relates to a crude film-type speaker.

The loudspeaker according to the conventional moving voice coil diaphragm method can faithfully reproduce the sound, but the structure is complicated, the cabinet (speaker) space can not be miniaturized, and takes an inefficient method of converting electrical power into acoustic power. .

Meanwhile, in order to compensate for this, a technology of using a film speaker using a polyvinylidene difluoride (PVDF), which is a piezoelectric polymer, is developed. However, in case of the film speaker using PVDF, the price of PVDF film is high, and d33 value is low to use as a speaker, and high voltage (approximately 100V or more) must be applied, and a separate high voltage (approximately 100V or more) is required to apply high voltage. Since a boost amplifier is required and the impedance of the film is large, a transformer must be used for impedance matching, and as the size becomes smaller, the acoustic characteristics in the low range are sharply degraded.

In addition, the existing magnet speaker has a thickness limit of about 3 mm, and if it is 2 mm or less, the magnetic field is rapidly weakened and thus cannot be used. In addition, the conventional piezoelectric polymer film speaker was not able to be used because the size of the piezoelectric polymer speaker rapidly lowered the characteristics of the bass region and the sound pressure became weak.

In order to solve the problems of the existing speaker, the inventor of the present application has proposed the "film speaker using the O-3 type piezoelectric composite and its manufacturing method" of the Korean Patent Application No. 10-2005-0121622, and related drawings Is shown in FIG. 1A.

The patent application of the present invention relates to a method for manufacturing a film speaker using a 0-3 type piezoelectric composite, and in order to impart conductivity to the base film 1, a lower electrode using a conductor such as ITO, Cu, Al, or a conductive polymer. (2) to form a piezoelectric composite layer vibrating according to an electrical signal by forming an O-3 type composite (piezoelectric powder 31 + polymer matrix 32) by a printing method or a doctor blade method (3). ), A top electrode 4 such as Ag, Carbon, Cu, Al, etc. is formed on the top by a printing or vapor deposition method, and polarized to be used as a thin speaker.

In addition, the inventor of the present application in the "Laminated piezoelectric composite film speaker using a 0-3 type piezoelectric composite and its manufacturing method" of Korean Patent Application No. 10-2006-0014393, as shown in Figure 1b, 0-3 By forming a piezoelectric composite speaker in a dome shape, a method of obtaining a louder volume than the speaker of FIG.

In the present invention, it is an object of the present invention to provide a 0-3 type piezoelectric composite speaker that can significantly increase the sound pressure while still utilizing the advantages of the present 0-3 piezoelectric composite speaker.

In addition, an object of the present invention is to provide a piezoelectric composite speaker with a remarkable improvement in acoustic characteristics by manufacturing a piezoelectric composite film speaker formed using a curved base film or a curved through a molding process.

In addition, an object of the present invention is to provide an improved piezoelectric composite speaker that can easily adjust the acoustic characteristics by adjusting the curvature of the bend, the shape of the bend, the distance between the bends, the depth of the bend according to the acoustic characteristics.

In addition, the present invention can be easily bent to adjust the high, low and diffuseness of the sound according to the degree of bending, and to form a bent portion to concentrate the sound pressure to have a higher volume, the front and rear surfaces of the film speaker An object of the present invention is to provide a piezoelectric composite speaker capable of emitting sound.

In addition, the present invention is easy to manufacture by using a piezoceramic-polymer composite, low cost, ultra-thin, flexible, excellent piezoelectric properties, printing (including silk screen printing, the same below), spray or spin coating method It is easy to produce and manufacture in large quantity by forming electrode by printing, spraying, spin coating or deposition method, and control piezoelectric properties and thickness of piezoelectric composite, electrode control, base film It is easy to control characteristics and size by selection, etc., and to mass-produce thin and light weight products with various designs with desired specifications, and various patterns and patterns by printing patterns on the base film of film-type speakers. Easily print advertisements, use various base films as they are, and compare with conventional PVDF piezoelectric films. Operation at low voltages prevents loss due to excessive boost, low impedance for easy matching, reduced power consumption, and easy control of properties by adjusting the ratio of piezoelectric powder to PVDF medium It can be manufactured in a multi-layered structure to improve the sound characteristics, and the film-type speaker that can listen to sound regardless of a specific position because the middle and high sound range is superior to the existing speaker and the sound spread is wide. It is for providing a manufacturing method.

In order to achieve the above object, the film speaker according to the present invention, the base film formed of a polymer film having a plurality of bends; A lower electrode layer formed on the base film in a form overlapping with the bent portion; A piezoelectric composite layer formed on the lower electrode layer and overlapping the bent portion, the piezoelectric composite layer comprising a mixture of a piezoelectric powder and a polymer matrix; An upper electrode layer formed on the piezoelectric composite so as to overlap the curved portion; And an electrical signal applying terminal connected to the lower electrode layer and the upper electrode layer, respectively.

The film speaker of the present invention uses a base film molded to have a bent portion, or a piezoelectric composite film speaker manufactured in a planar shape to have a bent portion to concentrate sound pressure and to use a high displacement of the curved piezoelectric body. It is characterized by amplifying sound pressure.

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

2A and 2B are a cross-sectional view and a plan view of a piezoelectric composite speaker according to a first embodiment of the present invention.

In the piezoelectric composite speaker having a bent portion according to the present invention, the base electrode 10 is formed on the base film 10 on which the bend 5 is formed, and the piezoelectric composite 30 is formed on the base film on which the bottom electrode 20 is formed. 10) and the upper electrode 40 formed thereon. The upper electrode 40 and the lower electrode 20 are provided with terminals (not shown) for applying an external signal. When the speaker is operated, vibration due to piezoelectric phenomenon is generated by the application of an external electric signal to output sound. .

As the base film 10, a material having excellent acoustic properties and easy moldability, such as polyethylene naphthalate (PEN), polyethylene terephtalate (PET), polyethylene terephtalate (PET), polystyrene (PS), and polypropylene (PP), is used. do. Due to the characteristics of the base film 10, which is a polymer film, the base film 10 may be provided with a decoration such as a pattern and a pattern having various colors by a method such as pattern printing.

According to the feature of the invention, the base film 10 is formed with a bent portion 5 as shown in Figure 2a. In order to form the bent part 5, an injection molding method using a mold may be used, and in addition, various well-known molding methods capable of forming a bend on the polymer film may be used. When molding using a mold, the temperature at the time of molding may be set according to the material of the base film (10).

On the other hand, as shown in Figure 4, when forming a plurality of the bent portion 5 in the base film 10 of the size corresponding to the speaker effective area of the desired size, the height 11, the width ( 12), the interval 13, the thickness 14 can be designed and manufactured in consideration of the desired frequency band and acoustic characteristics, wherein the height (11), width (12), interval (13) of the bent portion (5) The value of the variable may be adjusted in consideration of the characteristics of the effective area, sound pressure characteristics, directivity, etc. of the speaker, and in this case, it should be noted that the acoustic characteristics due to the curved portions 5 should be implemented so as not to cancel each other. The design values of the bend 5 suitable for the operating environment can be experimentally derived or designed through computer simulation. In computer simulation analysis, consideration should be given to the characteristics of the wave, including negative superposition, interference, and resonance.

2A, the lower electrode 20 is formed by printing or spraying an Ag paste, a carbon paste, or a conductive polymer on the base film 10, or by depositing a conductive material such as Cu, Al, Ag, or ITO. Is laid. The shape of the lower electrode 20 is formed over the entire surface of the base film 10 as shown in FIG. 2A. When the lower electrode 20 is formed by printing with Ag paste or carbon paste, the resistance is low. Therefore, it is important that the lower electrode 20 is formed as thin as possible so that the negative pressure characteristics do not change with the weight of the electrode. .

In addition, the condition that the lower electrode 20 layer is to be thermally stable than the film of the piezoelectric composite 30 to be placed on the upper side, exhibits a low sheet resistance, and mechanically should have a small Young's modulus.

Next, the piezoelectric composite 30 layer is formed on the lower electrode 20 using a 0-3 type piezoelectric composite by printing, spraying, or spin coating. The piezoelectric composite 30 of the present invention is composed of a mixture of the piezoelectric powder 31 and the PVDF medium 32.

In the case of the piezoelectric composite 30, the dielectric constant is large and the loss tangent of the frequency is stably small, and the leakage current should be minimized. To this end, it is necessary to reduce the thickness or increase the area of the piezoelectric composite 30, and to use the piezoelectric powder 31 having a large dielectric constant.

The piezoelectric powder 31 satisfying this may be used as long as it is a piezoelectric powder having a high piezoelectric constant such as PZT (Pb (TiZr) O ₃ ) system or lead-free system such as BNT or SBT.

In addition, the piezoelectric powder 31 should be evenly distributed in the PVDF medium 32, and the size of the piezoelectric powder 31 should be about 2 µm or less, and the sintered powder is pulverized and sieved by a conventional ball mill method. do. In order to obtain finer particle size, a high energy ball mill, a dynomill, or the like may be used.

Meanwhile, the PVDF medium 32 is a polymer mixture in which an additive such as HFP, CTFE, or PTFE is added to the PVDF, and may be prepared by using VDF (Vinylidenefluoride) or TrFE (Trifluoroethylene) instead of PVDF, and adding the above additive. have. Solvent, dispersant, antifoaming agent, etc. are mixed for printing or spraying using the PVDF medium 32 and the piezoelectric powder 31, and are dispersed evenly by a dispersing equipment such as a three-bone roll mill or a basket mill. At this time, the amount of the solvent and other additives should be adjusted to form a thick film evenly by printing and spraying method, and in the above embodiment, the viscosity of about 6,000 cps at room temperature is considered in consideration of the mesh and the printing thickness of the screen during screen printing. Eggplant is used to prepare a piezoelectric composite slurry.

On the other hand, in the case of the conventional PVDF piezoelectric film speaker, it is impossible to use the PVDF film for a long time due to a problem of adhesion to the electrode when corona, plasma, or ion beam treatment, which is a known surface modification method, is used. ) Is basically a polymer resin and the adhesive having a PET, the adhesive strength is improved, furthermore, sufficient adhesion can be secured only by corona, plasma treatment, which is a known surface modification method.

In order to further improve the adhesion between the base film 10, the lower electrode 20, and the upper electrode 40, an acrylic resin, a polyester resin, or the like may be added, and the amount of the resin may be adjusted according to the material of the film. Can be. It should be noted that as the amount of the added resin increases, the amount of the PVDF medium 32 may be relatively reduced, and thus the piezoelectricity of the PVDF medium 32 may be lowered.

A piezoelectric composite 30 having a predetermined shape designed according to acoustic characteristics is formed on the entire surface of the base film 10 on which the lower electrode 20 is formed by printing, spraying, or spin coating.

To form the piezoelectric composite 30 in order to form by printing, spraying or spin coating, the viscosity of the slurry of the piezoelectric powder and the polymer matrix mixture should be adjusted, and the ratio of the medium 32 and the piezoelectric powder 31 should be adjusted so as to have excellent piezoelectric properties. The ratio is preferably in the range of 6: 4 to 2: 8.

The upper electrode 40 is formed on the piezoelectric complex 30 by printing, vapor deposition, or spraying. The structure and the material of the upper electrode 40 are generally the same as the lower electrode 20. However, it is important that the upper electrode 40 is designed and formed so that there is no short phenomenon with the lower electrode which may occur when a pattern is formed on the silk screen and polarized. Meanwhile, if necessary, a protective layer (not shown) may be further formed on the upper electrode 40 to protect and dampen the piezoelectric composite speaker.

Next, terminals (not shown) for applying an external sound source signal to the upper electrode 4 and the lower electrode 2 are provided.

When a voltage difference occurs between the piezoelectric composite speaker upper electrode 40 and the lower electrode 20, a displacement occurs in the piezoelectric composite 30, and mechanical vibration is generated according to the frequency of the input sound source, thereby pushing out the air. Sound will be generated.

Subsequently, as a post-treatment process for producing a piezoelectric composite speaker, the piezoelectric composite 30 is polarized by applying an electric field of about 4 KV / mm (about 1 MV / cm in the case of a conventional PVDF film) to impart piezoelectricity. Direct field application or corona polarization may be selected. The polarization is performed at a temperature of approximately 80 to 120 ° C., and the d ₃₃ value is preferably about 20 to 100 pC / N.

As described above, the piezoelectric composite speaker according to the first exemplary embodiment of the present invention is manufactured by stacking the lower electrode 20, the piezoelectric composite 30, and the upper electrode 20 using the base film 10 having the bend. do.

On the other hand, the piezoelectric composite speaker according to the second embodiment of the present invention after forming the lower electrode 20, the piezoelectric composite 30, the upper electrode 20 on the base film 10, the bending is formed in the entire structure Characterized in that.

That is, in order to make the structure in FIG. 2A, in the first embodiment, after bending the base film 10, the lower electrode 20, the piezoelectric composite 30, and the upper electrode 40 are sequentially stacked. In the second embodiment, the base film 10, the lower electrode 20, the piezoelectric composite 30, and the upper electrode 20 are all stacked to form the bent structure. In this case, an injection molding method using a mold may be used for the bending molding.

Also in the second embodiment, the material of the base film 10, the lower electrode 20, the piezoelectric composite 30, and the upper electrode 40 and the method of forming, printing, depositing, spraying, and spin coating are basically the first. The same as in the embodiment, except that, when forming the piezoelectric composite speaker structure according to the second embodiment as shown in FIG. 2A, the upper electrode 40 and the lower electrode 20 are short-circuited or the piezoelectric composite 30 during bending molding. Since cracks may occur, the lower electrode 20, the piezoelectric composite 30, and the upper electrode 40 may be formed only in the bent portion 5 to prevent the crack. Of course, even in the case of the second embodiment, when the bend is formed smoothly, each layer may be formed over the entire surface of the film speaker as shown in FIG. 2A.

In FIG. 3A, only the curved portion 5 is formed on the curved portion 5 in consideration of the area where the curved portion 5 is formed during molding according to the gap 13, the height 11, and the width 12 of the curved portion 5 of the base film 10. The lower electrode 20, the piezoelectric composite 30, and the upper electrode 40 are formed. 3A is a cross-sectional view taken along the line AA ′ of the top view of FIG. 3B.

When the electrode is formed only in the bent portion 5, the lower electrodes 20 spaced apart from each other should be connected to each other, and this is also the case in the upper electrode 40. In FIG. 3B, the interconnected upper electrode 40 is shown, and the lower electrode 20 is not shown in view of the plan view.

On the other hand, as shown in Figure 3a, the lower electrode 20 and the upper electrode 40 should be formed in the insulating layer 50 in the middle to be electrically insulated, wherein the insulating layer (between each spaced apart piezoelectric composite 30 50) should be patterned to fill. However, in FIG. 3B, the insulating layer 50 is not formed for convenience.

On the other hand, since the piezoelectric composite 30 is a kind of insulator, the piezoelectric composite 30 layer may be formed on the front surface of the film speaker including the bent portion 5 without using a separate insulator and serve as the insulating layer 50. have.

On the other hand, Figure 5 and Figure 6 shows an example of the bend of the form applicable by those skilled in the art. As such, the specific process parameters in the manufacturing method step of the present invention described above should be changed accordingly by the shape of the bending, but such a change can be easily implemented by those skilled in the art, and thus does not depart from the scope of the present invention. . That is, the core of the present invention is to propose a three-dimensional three-dimensional film speaker rather than a flat structure. In addition, the speaker of the present invention is to propose a stacked speaker in which the sound pressure characteristics can be improved by stacking a plurality of lower electrodes, piezoelectric composites, and upper electrode layers based on one base film in one direction or in both directions.

In the above, the present invention has been described through the embodiments of the present invention, but the scope of the present invention is not limited to the described embodiments, various modifications or changes by those skilled in the art within the scope of the claims based on the appended claims This possibility is self-evident.

The film speaker of the present invention can improve the acoustic properties by forming a bent in three dimensions from the planar structure of the conventional piezoelectric composite speaker.

When the piezoelectric composite of the present invention is three-dimensionally formed (particularly, the bent portion), the vibration displacement amount is maximized, so that the piezoelectric properties are significantly increased. Can dramatically increase.

According to the present invention, there is provided a piezoelectric composite speaker in which acoustic characteristics are remarkably improved by manufacturing a piezoelectric composite film speaker formed using a curved base film or forming a curved speaker through a molding process.

Further, according to the present invention, there is provided an improved piezoelectric composite speaker that can easily adjust the acoustic characteristics by adjusting the curvature of the bend, the shape of the bend, the distance between the bends, and the depth of the bend according to the acoustic characteristics.

In addition, according to the present invention, since it can be easily bent, it is possible to adjust the high, low and diffuseness of the sound according to the degree of bending, when forming the bent portion can concentrate the sound pressure to have a larger volume, the film speaker There is provided a piezoelectric composite speaker capable of emitting sound to the front and back sides of.

In addition, according to the present invention, piezoelectric ceramic-polymer composite is easy to manufacture, low cost, ultra-thin and flexible, excellent piezoelectric properties, printing (including silk screen printing, the same below), spray or spin coating method It is excellent in mass production by using and forms electrodes by printing, spraying, spin coating or evaporation method, so it is easy to mass production and manufacturing, control piezoelectric properties and thickness of piezoelectric composite, control electrode, base film It is easy to adjust the characteristics and size by selecting, and can mass-produce thin and light weight products with various designs of desired specifications, and various patterns by printing patterns on the base film of film-type speakers. And advertisements can be printed easily, and the base film with various designs can be used as it is. It can be operated at a voltage lower than the voltage, preventing loss due to excessive voltage boost, low impedance, easy matching, low power consumption, and easy adjustment of the piezoelectric powder: PVDF medium. It is possible to control, and it can be manufactured in a multi-layer structure to improve the sound characteristics.The piezoelectric composite that can listen to sound regardless of the specific position because the mid- and high-range sound band is superior to the existing speaker and the sound spread is wide. A film speaker and a method of manufacturing the same are provided.

Claims (5)

A base film formed of a polymer film having a plurality of bends; A lower electrode layer formed on the base film in a form overlapping with the bent portion; A piezoelectric composite layer formed on the lower electrode layer so as to overlap with the bent portion and comprising a mixture of a piezoelectric powder and a polymer matrix; An upper electrode layer formed on the piezoelectric composite so as to overlap the curved portion; And And an electrical signal applying terminal connected to the lower electrode layer and the upper electrode layer, respectively. The method of claim 1, The piezoelectric composite layer, the lower electrode layer and the upper electrode layer are each composed of a plurality of layers, the film speaker having a bent portion, characterized in that it is repeatedly stacked in an alternating manner. Providing a base film using a polymer film having a plurality of bends; Forming a lower electrode layer on the base film in a form overlapping with the bent portion; Forming a piezoelectric composite layer formed on the lower electrode layer so as to overlap with the bent portion and comprising a mixture of a piezoelectric powder and a polymer matrix; Forming an upper electrode layer on the piezoelectric composite so as to overlap the curved portion; And And connecting electrical signal application terminals to the lower electrode layer and the upper electrode layer, respectively. Providing a base film formed of a polymer film; Forming a lower electrode on the base film; Forming a piezoelectric composite layer composed of a mixture of a piezoelectric powder and a polymer matrix on the lower electrode; Forming an upper electrode on the piezoelectric composite layer; And And forming a bent portion in a structure in which the base film, the bottom electrode, the piezoelectric composite layer, and the top electrode are stacked. The method according to claim 3 or 4, The shape of the lower electrode, the upper electrode and the piezoelectric composite is formed in a predetermined pattern defined on the bent portion, film speaker manufacturing method having a bent portion.

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