KR20170142571A - nonflammables speaker of piezoelectricity type - Google Patents

Abstract

The present invention relates to a fireproof piezoelectric speaker device,
In the state that the ceramic plate is attached to the center of the diaphragm diaphragm of the metal diaphragm, the electrical signal of the amplified voice is outputted from the acoustic device through the amplifier and transmitted through the ceramic plate and the first metal diaphragm diaphragm, do.
The electrical signal of the first amplified voice from the first metal diaphragm diaphragm is amplified again by the second metal diaphragm diaphragm so that the other end of the elastic supporting piece, Thereby controlling the vibration of the plate so that high-quality sound can be amplified from high to low.
And a resonance removing hole is formed in the first metal diaphragm diaphragm and the support plate to eliminate resonance generated in the closed space.

Description

Technical Field [0001] The present invention relates to a nonflammable speaker of piezoelectricity type,

More particularly, the present invention relates to a fire-proof piezo-electric speaker device, and more particularly to a fire-proof piezoelectric speaker device in which a ceramic plate is attached to an outer surface of a convex portion of a first metal diaphragm diaphragm to bend an outer circumferential surface, The vibration of the ceramic plate is controlled by the sharp end of the elastic support piece that is received in the supporting plate by the elastic force of the spring in the supporting plate so that the electrical signal of the voice outputted through the amplifier, amplified while passing through the amplifier, The first metal diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm diaphragm Of Piezo Piezoelectric Speaker to Output Audio Relate to.

In general, almost all the ambient noise is transmitted in the form of waves. For example, the sounds heard by the ear, the light coming into the eye, and the electromagnetic waves received by the television and radio are transmitted in the form of wave motion.

The sound heard by the ear is a wave created by the vibration of the object. The sound comes in through the ear canal of the person, that is, through the ear canal, vibrates in the eardrum, and the cells are stimulated in the inner ear of the eardrum, have.

The range of sounds that people can hear varies from 20 to 20,000 Hz, depending on their hearing ability, and 125 to 8,000 Hz is suitable for human hearing.

Conventionally, loudspeakers have a cone shape, a dome shape, a horn shape, and the like, and they are used separately according to the use. Among them, the cone type speaker has generally used a cone type diaphragm, and by causing a driving current to flow through the voice coil disposed on the diaphragm, the diaphragm vibrates to produce a dense wave (airwaves) of the air, .

BACKGROUND ART [0002] Conventionally, NTX Corporation has developed a speaker for generating sound by using a flat plate as a diaphragm and vibrating it, and has put it into practical use (see, for example, Japanese Laid-Open Patent Publication No. 11-512249). This type of loudspeaker is advantageous in that it is lightweight and easy to install regardless of the place. However, in terms of the range of frequency, frequency characteristics, and reproducibility of sound, a conventional box equipped with a cone woofer, a dome-shaped tweeter, and a squawker Type speakers.

Conventional loudspeakers output sound by producing a dense wave (dense wave) of air, so that the sound propagation is attenuated in proportion to the second power of the distance, and in order to send sound to a distant place, I had to generate sound.

On the other hand, the transverse wave has a characteristic that the attenuation rate is very low as compared with the longitudinal wave, and a speaker capable of transmitting sound to a distant place by using it is proposed (for example, Japanese Patent Application Laid-Open No. 2007-19623). In this method, a bending stress is applied to the diaphragm of the speaker and a transverse wave is produced due to the bending. However, in this technique, it is assumed that the plate-like member such as wood, plastic, or metal is used as the diaphragm to flex and generate the bending stress.

Speakers produce sound by converting electric signals into vibrations by electromagnetic coils or piezoelectric elements, and transmitting vibrations to the air through a flat panel (diaphragm).

Therefore, when the rigidity of the panel (diaphragm) is small and smooth, the panel can not follow the vibration of the vibrator. In other words, only the periphery of the vibrator vibrates, and most of the other vibrations can not be obtained at the required frequency, so that irrelevant noise occurs or no sound is produced due to interference. Particularly, in the case of high tone (high frequency and high vibration), the aforementioned phenomenon is remarkably expressed.

Therefore, in the case where the above-described panel is made of plate-like plastic or the like as described above, the above-described phenomenon becomes remarkable, and the panel, that is, the speaker can not have a performance that can be provided for practical use.

On the other hand, in the case where the panel (diaphragm) is made of a rigid plate-like member such as a metal, the rigidity of the panel can be increased but the panel itself becomes too heavy so that the inertial force Becomes too large, the panel can not follow the vibration of the vibrator. As a result, the panel can reproduce only the partial frequency with respect to the vibration from the vibrator.

Therefore, when the panel is formed of a plate-like metal as described above, the above-described phenomenon becomes remarkable, and the panel, that is, the speaker can not have a performance that can be provided for practical use.

In addition, a piezoelectric element refers to a device capable of changing electric energy and mechanical energy from one another, and a piezoelectric speaker converts the mechanical movement of such piezoelectric element acoustically by means of a diaphragm to generate a sound of a desired frequency band It is a representative product of acoustic parts.

The piezoelectric speaker includes a diaphragm formed to be larger than a piezoelectric element and a piezoelectric element and attached to one surface of the piezoelectric element to amplify vibration generated in the piezoelectric element.

The diaphragm applied to the piezoelectric speaker is made of a metal material having good sound wave transmission rate and Young's modulus (elongation modulus). Accordingly, the piezoelectric speaker has a good efficiency of converting the vibration of the piezoelectric element into a sound wave.

However, because of its inherent characteristics, metals are thick and heavy. Accordingly, the diaphragm applied to the piezoelectric speaker is relatively thick and heavy compared to a diaphragm applied to a dynamic speaker composed of a thin synthetic resin sheet of several tens of microns.

The thinner and lighter the diaphragm is, the lower frequency band sound can be generated. For the reasons described above, the piezoelectric speaker has a limitation in generating a sound of a low frequency band as compared with a dynamic speaker.

Thus, Korean Patent Laid-Open Publication No. 10-2013-0016976 (Feb. 19, 2013) (an acoustic transducer using a main piezoelectric actuator) has been proposed,

This is because the main piezoelectric actuator;

A diaphragm physically coupled to the main piezoelectric actuator;

A supporting portion (supporting portion) for supporting at least one of the main piezoelectric driving body and the diaphragm at a fixed point located inside the outer periphery of the main piezoelectric driving body;

A housing housing the main piezoelectric actuator and the diaphragm; And

And an amplifying unit that is restarted between the supporting unit and the housing and increases a moving amount of the supporting unit in response to the operation of the main piezoelectric actuator,

The outer periphery of the main piezoelectric driving body and the diaphragm being free to vibrate around the fixed point,

The fixed point is provided at a center or an eccentric position of the main piezoelectric actuator,

Wherein the main piezoelectric actuator is physically coupled to the diaphragm at the center of the diaphragm,

The diaphragm is physically coupled to the diaphragm at an eccentric position of the diaphragm, and the distance from the fixed point to the most distant point and the most recent point of the outer periphery of the diaphragm is different, Lt; / RTI >

Wherein the amplifying unit includes an auxiliary main piezoelectric actuator and is adapted to increase the motion of the diaphragm in synchronism with the operation of the main piezoelectric actuator,

An outer periphery is supported on the housing so that the auxiliary main piezoelectric driving body is attached to the amplifying plate,

Wherein the amplifying plate is directly or indirectly connected to the supporting portion,

Wherein the amplification unit provides the amplification plate and the auxiliary main piezoelectric driving body in at least one layer structure,

A housing for directly or indirectly supporting the support portion, and a vibration magnifying plate coupled to the vibration plate,

Wherein the vibration magnifying plate is coupled to an outer frame of the housing,

An edge portion is interposed between the vibration magnifying plate and the outer frame,

The edge portion may be integrally formed with or separately adhered to the vibration magnifying plate,

The vibration magnifying plate may be provided in the form of a flat plate, a relief plate, a concave plate or a cone,

The housing includes a front housing and a rear housing, and the support is provided on at least one of the front surface and the rear housing to support the main piezoelectric actuator or the diaphragm.

However, according to the conventional acoustic transducer using the main piezoelectric driving body, the main piezoelectric driving body and the diaphragm are coupled to each other at one point, that is, the fixed point, and the amplifying unit is fixed to the housing or another structure And the supporting portion is provided on the amplifying portion to hold the main piezoelectric driving body and the diaphragm vibrating up and down,

Since the main piezoelectric driving body and the diaphragm are sequentially coupled and bonded through the supporting portion to the amplifying portion fixed to the housing or other structure so as to vibrate together, the center of the ceramic plate of the main piezoelectric driving body, So that a desired sound is not output, and there is a risk that the ceramic plate of the main piezoelectric actuator may be damaged.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a diaphragm diaphragm which has a convex portion and a joining portion formed by bending an outer circumferential surface thereof, The vibration of the ceramic plate is controlled by the sharp ends of the elastic support pieces which are joined to the diaphragm diaphragm so as to receive the elastic force of the spring in the support plate so that the electric power outputted from the acoustic device and amplified while passing through the amplifier, It is an object of the present invention to provide a fire-incapable piezoelectric speaker device in which a signal obtains a maximum vibration effect in the first and second metal diaphragm diaphragms.

Another object of the present invention is to prevent vibrations from being transmitted to the cabinet by coupling the vibration diaphragm to the speaker cabinet through the joints of the diaphragm diaphragm plate and the support plate.

It is another object of the present invention to provide a high-quality sound output from a high sound to a low sound by eliminating the resonance sound due to the resonance removing holes formed in the first metal diaphragm diaphragm and the support plate .

According to an aspect of the present invention, there is provided a fireproof piezoelectric speaker device comprising:

The outer circumferential surface of the first metal diaphragm diaphragm is bent so that the convex portion and the joint portion are integrally formed,

A resonance removing hole is formed in the first metal diaphragm vibration plate,

A ceramic plate is attached to the outer surface of the convex portion of the first metal diaphragm diaphragm,

The junction of the first metal diaphragm diaphragm is joined to the second diaphragm diaphragm,

The support plate is bent so that the convex portion and the joining portion are integrally formed,

A hole for resonance elimination is formed in the support plate,

And a connecting portion of the second diaphragm diaphragm and a joining portion of the supporting plate are joined to form a three-

The vibration diaphragm is coupled to the speaker cabinet through the vibration damping material on both sides of the joining portion of the diaphragm diaphragm and the joining portion of the support plate to prevent the vibration from being transmitted to the cabinet,

The other one of the elastic support pieces having one sharp end of the ceramic plate attached to the first metal diaphragm vibration plate is supported by the support plate while being supported by the elasticity of the spring to control the vibration of the ceramic plate, In this way, it is possible to output high-quality voice signals from high to low sound when the amplified voice electrical signal is transmitted through the electric wire while passing through the amplifier. In addition, the non-flammable parts including the ceramic plate and the metal diaphragm diaphragm, And is capable of outputting voice without being influenced by external factors such as temperature and moisture.

In the piezoelectric speaker device of the present invention, the ceramic plate is attached to the center of the diaphragm diaphragm, and the electrical signal of the amplified voice is outputted from the acoustic device through the amplifier, Metal diaphragm diaphragms, and other non-combustible components.

The electrical signal of the first amplified voice from the first metal diaphragm diaphragm is amplified again by the second metal diaphragm diaphragm so that the other end of the elastic supporting piece, Thereby controlling the vibration of the plate so that high-quality sound can be amplified from high to low.

The vibration diaphragm is coupled to both sides of the joint portion of the diaphragm diaphragm and the support plate so as to be coupled to the speaker cabinet through the vibration damping material, thereby preventing vibration from being transmitted to the cabinet,

And a resonance removing hole is formed in the first metal diaphragm diaphragm and the supporting plate to eliminate resonance generated in the closed space.

Brief Description of the Drawings Fig. 1 is a perspective view showing an overall configuration of the present invention. Fig.
2 is a photograph of a sash showing the configuration of the present invention.
3 is a schematic view showing a configuration of a vibration member according to another embodiment of the present invention;

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

In a fireproof piezoelectric speaker device according to the present invention,

The first and second metal diaphragm diaphragms 1 and 11 are made of copper, copper alloy, stainless steel, titanium, nickel, or the like,

The outer peripheral surface of the first metal diaphragm diaphragm 1 is bent so that the convex portion 2 and the joint portion 3 are integrally formed,

A plurality of resonance removing holes 4 are formed in the first metal diaphragm diaphragm 1 so as to prevent resonance from occurring in the closed space,

A ceramic plate 10 as a piezoelectric element is attached to the outer surface of the convex portion 2 of the first metal diaphragm diaphragm 1,

The second diaphragm diaphragm 11 is folded to form the joining portion 12,

A joint portion (3) of the first metal diaphragm diaphragm (1) is bonded to the second diaphragm diaphragm (11)

The support plate 21 is bent so that the convex portion 22 and the joint portion 23 are integrally formed,

Holes 24 for resonance removal are formed in the support plate 21,

The joining portion 12 of the second diaphragm diaphragm 11 and the joining portion 23 of the support plate 21 are joined to form a three-dimensional shape,

The vibration damping members 13 and 26 are coupled to both sides of the joint portion 12 of the second diaphragm diaphragm 11 and the joint portion 23 of the support plate 21 so as to be coupled to a speaker cabinet Is prevented from being transmitted to the cabinet,

The other end of the elastic gripping piece 31 having one sharp end abutting against the ceramic plate 10 attached to the first metal diaphragm diaphragm 1 receives the elasticity of the spring 32 against the support plate 21 So that the vibration of the ceramic plate 10 is controlled

The ceramic plate 10 and the first and second metal diaphragm diaphragms 1 and 2 which are non-combustible when amplified while being output from the acoustic device 40 and amplified through the amplifier 41 to transmit a voice electrical signal through the electric wire 42, (11) to output a high-quality voice signal from high to low.

On the other hand, in one embodiment of coupling the elastic gripping piece 31,

A support hole 25 is formed at the center of the support plate 21 and a bolt portion 33 formed on the elastic support piece 31 is inserted into the support hole 25 while the elastic support piece 31 is inserted into the support hole 25 The elastic support pieces 31 are elastically supported by the spring 32 and the two nuts 34 and 35 on the inner surface and the outer surface of the support plate 21 so as to be stably engaged.

In the fireproof piezo-electric speaker device of the present invention constructed as described above,

The ceramic plate 10, which is a piezoelectric element, is made to have a thickness of about 0.2 mm.

The first and second metal diaphragm diaphragms 1 and 11 made of copper, copper alloy, stainless steel, titanium, nickel or the like are manufactured, and the frequency characteristics are measured to grasp in advance which frequency band is vulnerable.

The outer circumferential surface of the first metal diaphragm diaphragm 1 is bent so that the convex portion 2 and the joint portion 3 are integrally formed.

A number of resonance removing holes (4) are formed in the first metal diaphragm diaphragm (1) to prevent resonance from occurring in a closed space.

A ceramic plate 10 as a piezoelectric element is attached to the outer surface of the convex portion 2 of the first metal diaphragm diaphragm 1 and is amplified while passing through the amplifier 41 and outputted from the acoustic device 40, ) Through the non-conductive ceramic plate 10 and the first metal diaphragm diaphragm 1 when the voice electrical signal is transmitted through the non-conductive ceramic plate 10 and the first metal diaphragm diaphragm 1.

Then, the second diaphragm diaphragm 11 is folded to form the joining portion 12.

The electrical signal of the voice amplified by the first diaphragm diaphragm 1 is transmitted to the second diaphragm diaphragm 1 by joining the junction 3 of the first diaphragm diaphragm 1 with the second diaphragm diaphragm 11, 2 diaphragm diaphragm 1 to be amplified with a high-quality voice signal from high to low.

The support plate 21 is bent so that the convex portion 22 and the joint portion 23 are integrally formed.

A resonance removing hole 24 is formed in the support plate 21 and a joint portion 12 of the second diaphragm diaphragm 11 is joined to a joint portion 23 of the support plate 21 to form a three- So that the resonance generated in the closed space through the resonance removing holes 4 and 24 formed in the first metal diaphragm vibration plate 11 and the support plate 21 is eliminated.

The joining portion 12 of the second diaphragm diaphragm 11 and the joining portion 23 of the support plate 21 are joined to form a three-dimensional shape.

Vibrations are transmitted to the cabinet through vibration damping members 13 and 26 on both sides of the joining portion 12 of the second diaphragm diaphragm 11 and the joining portion 23 of the support plate 21 so as to be coupled to the speaker cabinet. So that only the voice amplified by the first diaphragm diaphragm 1 and the second diaphragm diaphragm 11 is output.

The other end of the elastic gripping piece 31 having one sharp end abutting against the ceramic plate 10 attached to the first metal diaphragm diaphragm 1 receives the elasticity of the spring 32 against the support plate 21 The vibration of the ceramic plate 10 can be controlled while being amplified while being output from the acoustic device 40 through the amplifier 41 and transmitted through the electric wire 42 to the non-combustible ceramic plate 10 and the first and second metal diaphragm diaphragms 1, 11 so as to be amplified to a high-quality voice signal from high to low.

On the other hand, the elastic gripping piece (31)

A support hole 25 is formed at the center of the support plate 21 and a bolt portion 33 formed on the elastic support piece 31 is inserted into the support hole 25 while the elastic support piece 31 is inserted into the support hole 25 The elastic plate 31 and the support plate 31 are elastically supported by the spring 32 and the two nuts 34 and 35 at the inner and outer surfaces of the support plate 21, The vibration of the ceramic plate 10 is controlled by the sharp ends of the elastic gripping pieces 31 that receive the elastic force of the spring 32 between the upper and lower parts 21 and 21, .

Since the ceramic plate 10 and the first and second diaphragm diaphragms 1 and 11 are made of a flame-retardant material, even when an emergency such as a fire, a building collapse, or various gas leaks occurs, So that the voice can be outputted without being influenced by the outside.

Referring to Figures 3 to 5,

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, but many variations and modifications may be made without departing from the scope of the invention. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

1, 11: metal diaphragm diaphragm 2, 22: convex portion
3, 12, and 23: junctions 4 and 24: holes for removing resonance
10: ceramic plate 21: support plate
31: elastic gripping piece 32: spring

Claims (4)

The convex portion 2 and the joint portion 3 are integrally formed by bending the outer peripheral surface of the first metal diaphragm diaphragm 1,
A ceramic plate 10 as a piezoelectric element is attached to the outer surface of the convex portion 2 of the first metal diaphragm diaphragm 1,
The second diaphragm diaphragm 11 is folded to form the joining portion 12,
A joint portion (3) of the first metal diaphragm diaphragm (1) is bonded to the second diaphragm diaphragm (11)
The convex portion 22 and the joint portion 23 are integrally formed by bending the support plate 21,
The joining portion 12 of the second diaphragm diaphragm 11 and the joining portion 23 of the support plate 21 are joined to form a three-dimensional shape,
The other end of the elastic gripping piece 31 having one sharp end abutting against the ceramic plate 10 attached to the first metal diaphragm diaphragm 1 receives the elasticity of the spring 32 against the support plate 21 So as to control the vibration of the ceramic plate (10). The method according to claim 1,
(24) are formed in the first metal diaphragm diaphragm (1) and the support plate (21) to prevent resonance from occurring in the closed space. Device. The method according to claim 1,
Vibrations are transmitted to the cabinet through vibration damping members 13 and 26 on both sides of the joining portion 12 of the second diaphragm diaphragm 11 and the joining portion 23 of the support plate 21, Of the piezoelectric speaker device. The method according to claim 1,
The elastic gripping piece (31)
A support hole 25 is formed at the center of the support plate 21 and a bolt portion 33 formed on the elastic support piece 31 is inserted into the support hole 25 while the elastic support piece 31 is inserted into the support hole 25 Wherein the resilient supporting piece (31) is elastically coupled by the spring (32) and the two nuts (34) and (35) on the inner surface and the outer surface of the support plate (21) Speaker device.

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