KR20160067344A - Multi-Function Microspeaker - Google Patents

Abstract

According to the present invention, a complex vibration microspeaker comprises: a fixing part providing an internal space having a predetermined size; at least one permanent magnet disposed in the internal space of the fixing part, and generating a magnetic force; a coil disposed to face the permanent magnet and generating an electromagnetic force by interaction with the permanent magnet; a vibration part including a support member integrally coupled to the coil and disposed in a lower side of the coil; an elastic member coupled with the fixing part and the vibration part to provide an elastic force; and a power supply device which is coupled to the vibration part, is disposed in a lower end of the permanent magnet to be in non-contact with the permanent magnet, and surrounds a part of the elastic member. The complex vibration microspeaker increases a magnetic force by configuring a plurality of permanent magnets by disposing the other permanent magnet, surrounding the outside as being spaced apart from the permanent magnet of the inside at regular intervals, and disposes a coil between the permanent magnets to generate a strong vibration force, thus operating in spite of a micro signal. Since a ferromagnetic material can surround the outside to block a leakage magnetic flux generated from the permanent magnet, the complex vibration microspeaker does not affect surrounding electronic devices and human bodies.

Description

Multi-Function Microspeaker [0002]

[0001] The present invention relates to a composite vibration speaker, and more particularly, to a micro vibration speaker having a structure in which bone conduction function, various vibration functions, and attached speaker functions are realized, will be.

In recent years, among speakers using permanent magnets, vibrating loudspeakers for applying the generated vibrations without using a conventional sound reproducing part (diaphragm) have appeared, and the vibrating loudspeakers for transmitting sound through the vibration of the human bones, Is used as a bone conduction speaker or a sensation acoustical speaker that makes vibration feel tactile (skin).

The vibrating loudspeaker providing the functions of the bone conduction and the bodily sensation sound is required to be able to generate vibrations in conjunction with the electrical acoustic signal and transmit the externally transmitted vibrations to the outside. The improvement of the structure enabling this is the core of the technology can do.

However, since the conventional vibrating loudspeaker has many factors that suppress or interfere with the vibration of the permanent magnet due to the supporting member or the portion exposed to the external pressure, the transmission of the fine vibration has failed in fact. It is not realistic.

In addition, vibration motors applied to small-sized multimedia mobile communication devices such as mobile phones have only been focused on transmitting strong vibrations to the outside, so that there is no room for realizing various vibrations themselves.

If a speaker using a permanent magnet is reconstructed so as to have the maximum vibration force and efficiency with the center structure interlocked with an electric acoustic signal even if the acoustic part is removed, a single vibration speaker structure may be used as a vibration motor having a bone conduction speaker, It is possible to realize a monolithic composite vibrating loudspeaker that provides all of the functions of the present invention, thereby providing tremendous economic efficiency and functionality.

However, if the above-described various functions are added to a single vibrating speaker structure, the overall size increases, which can not be applied to a small multimedia communication device such as a cellular phone. When the size is reduced, mass production of components such as a magnet, Deterioration of the vibration performance due to deterioration, small magnetism, coil, etc., occurs. Therefore, it is urgent to improve the structure so that various functions as described above can be implemented with a very small size.

In addition, in a vibrating loudspeaker using permanent magnets, electromagnetic noise is generated due to leakage magnetic fluxes generated in permanent magnets, thereby affecting surrounding electronic devices. Particularly, in an acoustic receiver worn on an ear close to the brain, There is a problem that can adversely affect.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems of the prior art described above, and it is an object of the present invention to provide a microcomputer capable of forming a strong magnetic force so as to operate on a fine signal, The object of the present invention is to provide a vibrating micro speaker.

In order to achieve the above object, the present invention provides a magnetic bearing device comprising: a fixing portion for providing an internal space of a predetermined size; at least one permanent magnet disposed in an internal space of the fixing portion to generate a magnetic force; An elastic member that is coupled to the fixed portion and the vibration portion to provide an elastic force, and an elastic member that is engaged with the elastic member and the elastic member. The elastic member includes a coil for generating an electromagnetic force by interaction, a vibrating portion integrally coupled to the coil and disposed at a lower side of the coil, And a power supply unit which is disposed at a lower end of the permanent magnet and surrounds a part of the elastic member so as not to contact the permanent magnet when the vibrating unit vibrates.

The fixing part may be configured by integrally connecting the case and the bracket.

The permanent magnet may be composed of a plurality of permanent magnets and another permanent magnet surrounding the inner permanent magnets with a predetermined gap therebetween.

The coils are preferably disposed between the plurality of permanent magnets with a predetermined gap therebetween.

Preferably, the support member is disposed below the permanent magnet and the coil, and is electrically insulated from the coil.

It is preferable that the support member is made of a metal which is a non-magnetic material.

And the support member may be made of brass or stainless steel or tungsten.

The support member may include a coil fixing groove for allowing a part of the coil to be connected to the power supply unit.

An elastic supporting member may be disposed on one side of the elastic member.

A part of the fixing part may be a circuit board.

The features and advantages of the present invention will become apparent from the following detailed description based on the accompanying drawings. Prior to this, terms and words used in the present specification and claims should be construed in accordance with the spirit and scope of the present invention, on the basis of the principle that a concept of a term can be properly defined to explain it in a normal and best manner. .

According to the present invention, it is possible to arrange a plurality of permanent magnets by disposing another permanent magnet which surrounds the inner permanent magnet at a certain interval, thereby increasing the magnetic force and arranging the coils between the permanent magnets. It is possible to provide a very small complex vibrating micro speaker that can operate on a fine signal by generating a magnetic field and can surround and construct a ferromagnetic body so as to block a leakage magnetic flux generated from the permanent magnet, have.

1 is a cross-sectional view of a composite vibration micro speaker according to the present invention;
2 is an exploded perspective view of a composite vibration micro speaker according to the present invention.
3 is a circuit diagram of a power supply device of a composite vibration micro speaker according to an embodiment of the present invention.
4 is a circuit diagram of a coil power supply according to an embodiment of the present invention;
5 is a sectional view showing another embodiment of a composite vibration micro speaker according to the present invention.
6 shows an embodiment of a permanent magnet magnet of a composite vibration micro speaker according to the present invention
7 is a view showing an embodiment of a bodily-sensible vibration type composite acoustic receiver to which the composite vibration micro speaker according to the present invention is applied
8 shows a conventional linear oscillator

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

FIG. 1 is a cross-sectional view of a composite vibration micro speaker 100 according to the present invention, and FIG. 2 is an exploded perspective view of the composite vibration micro speaker 100. As shown in the figure, the composite vibration micro speaker 100 includes a fixing part 111 for providing an internal space of a predetermined size, at least one permanent magnet 113 A coil 125 disposed opposite to the permanent magnet 113 to generate an electromagnetic force by an interaction with the permanent magnet 113 and a coil 125 integrally coupled to the coil 125, An elastic member 123 which is coupled to the fixing part 111 and the vibration part 120 to provide an elastic force and an elastic part 123 which is coupled to the vibration part 120, And a power supply unit 115 disposed at the lower end of the permanent magnet 113 and enclosing a part of the elastic member 123 so as not to contact the permanent magnet 113 when the vibration unit 120 vibrates, .

The fixing part 111 is basically a side-covered structure, which fixes the internal components and protects the product from external impacts. The vibrating part 120 vibrates upward or downward, (111), and transmits all vibrations including fine vibration to the outside.

The fixing part 111 is made of a ferromagnetic metal such as pure iron to prevent leakage of magnetic force generated from the permanent magnet 113 coupled to the inside of the fixing part 111 and form a magnetic circuit, It is preferable to increase the magnetic force of the magnet 113.

When a yoke 121 made of a ferromagnetic metal such as pure iron is coupled to the opposite side of the side of the permanent magnet 113 coupled with the fixed portion 111, leakage of the magnetic force to the lower side is blocked, The magnetic force of the permanent magnet 113 can be maximized.

Further, a yoke 121 may be additionally disposed between the permanent magnet 113 and the fixing portion 111 to increase the effect of blocking magnetic leakage.

The shape of the fixing part 111 may affect the shape of the internal component. The shape of the fixing part 111 may be variously shaped, for example, a quadrangular prism or a cylinder. , And the internal components are also formed in a similar shape with different scales according to the shape of the fixing part 111.

The embodiment shown in Figs. 1 and 2 adopts the cylindrical fixing portion 111 as a preferred embodiment thereof, and the inner component also has a circular shape as a basic shape. It should be understood that the embodiment shown in FIG. 1 is only one example, and does not mean that the shape of the housing and the internal components is limited thereto.

Considering the manufacturing process, the fixing part 111 may be integrally formed. However, when considering the manufacturing process, the fixing part 111 may include a case 127 partially opened and a bracket 129 coupled to the open side of the case 127, The case 127 and the bracket 129 may be assembled after the internal component is assembled to the case 127 or the bracket 129. In this case,

In this case, if the thickness of the entire speaker is to be further reduced, the bracket 129 may be omitted.

A part of the fixing part 111 may be formed of a circuit board to connect the power supply unit 115.

Hereinafter, in describing the internal components in the case of adopting the cylindrical and fixed portion 111 covering the entire surface, it is inevitably referred to the description of the embodiment in terms of the shape suitable for the cylindrical fixed portion 111 And that the scope of the present invention is not intended to be limited to that form.

The elastic member 123 includes at least one elastic part 133, which is an elastic body such as a leaf spring, which can limit the vibration width within the fixing part 111 while transmitting vibration to the outside by using the elasticity of metal, And a coupling portion 135 to which the vibration portion 120 or the fixing portion 111 is coupled.

At this time, the elastic member 123 may be directly attached to the vibration unit 120 and the fixing unit 111, or may be indirectly attached using another elastic supporting member 131.

It is most important that the elastic member 123 has elasticity that does not interfere with vibration and does not cause eccentricity. The number and shape of the elastic members 133 are determined by the size of the elastic member 123, It is adjustable according to the weight and the vibration force of the earthen portion 120 and various implementations are possible as long as the above technical idea is satisfied.

The elastic portion 133 may be formed in various shapes to provide elasticity such as a straight shape, a tri-bow shape, a cross shape, a wavy shape, a torsion spring shape, And at least one elastic part 133 formed to provide a required elasticity even if the elastic member 123 is formed and one side of the coupling part 135 is centered on the vibration part 120, May be connected to the fixing portion 111 so as not to cause eccentricity, thereby satisfactorily performing vibration generation and transmission.

Here, the term "center coupling" means a coupling at a position where the eccentricity does not occur by centering.

When the compound vibration micro speaker 100 generates a vibration force by an acoustic signal received from the sound reproduction apparatus, it is preferable that a strong magnetic force is formed so that the compound vibration micro speaker 100 can operate also on a minute signal. To this end, another permanent magnet 113 which surrounds the inner permanent magnet 113 at a certain interval is disposed, so that a plurality of the permanent magnets 113 can be formed to increase the magnetic force.

The coil 125 is provided as a space formed between the permanent magnets 113 disposed on the inner side and the outer side to generate an electromagnetic force by interaction with the permanent magnets 113 to cause the coil 125 to move upward or downward Vibration.

This is because when a permanent magnet and a permanent magnet are brought close to each other, a very strong magnetic field is formed, and a coil is disposed therebetween to generate a powerful vibration force.

The supporting member 117 is integrally coupled to the lower side of the coil 125 so that the supporting member 117 vibrates together with the movement of the coil 125. [

The coil 125 is electrically connected to the power supply unit 115 and receives an external power source to generate an electromagnetic force.

The power supply unit 115 is disposed below the permanent magnet 113 so as not to contact the permanent magnet 113 when the vibration unit 120 vibrates and vibrates the vibration unit 120 due to elasticity The elastic member 123 may be formed to surround a part of the elastic member 123 as shown in FIG. 3 so as to maximize the length so as not to interfere. Also, it is preferable that the power supply device 115 is composed of a flexible circuit board which can be flexibly moved.

The coil 125 and the support member 117 are electrically insulated from each other to prevent the power supplied to the coil 125 from leaking to the outside through the support member 117 and the elastic member 123 .

The coil 125 and the support member 117 are insulated from each other by using a non-conductive material such as a bond or a resin or a film to insulate the coil 125 and the support member 117, The coil 125 may be directly connected to the power supply device 115 and the coil 125 may be fixed to the circuit board and the support member 117 may be coupled to the circuit board so that the coil 125 and a part of the circuit board And may be electrically connected to the circuit board and the power supply device 115 so as to supply power to the coil 125. [ That is, if the coil 125 and the support member 117 are electrically insulated from each other, various configurations are possible.

The support member 117 may be made of a non-magnetic material so that the support member 117 can vibrate without being affected by the magnetic force generated by the permanent magnets 113. In order to maximize the vibration power, the support member 117 is preferably made of a metal having a large specific gravity such as brass or stainless steel or tungsten so that the weight can be increased even if the same volume is used.

The support member 117 may include a coil fixing groove 119 so that a part of the coil 125 may be electrically connected to the power supply device 115 as shown in FIG.

The elastic member 123 may be bonded to the fixing part 111 or the moving part 120 by bonding or welding. When the fixing portion 111 or the moving portion 120 is made of a material difficult to weld and the bonding portion 135 provided on the elastic member 123 has a small area so that bonding strength can not be sufficiently realized by bonding And an elastic supporting member 131 made of a metal that can be welded to the elastic supporting member 131 to couple the elastic supporting member 131 to the fixing unit 111 or the moving unit 120, Or may be welded to the base plate 131 to increase the bonding strength.

FIG. 3 illustrates an embodiment of a power supply unit 115 included in the composite vibration micro speaker 100 according to the present invention. As shown in the figure, the power supply unit 115 may be formed outside the elastic member 123 so as to maximize the length thereof so as not to interfere with the vibration of the vibration unit 120. Also, it is preferable that the power supply device 115 is composed of a flexible circuit board which can be flexibly moved.

FIG. 4 shows an embodiment of power connection of the coil 125 of the composite vibration micro speaker 100 according to the present invention. A coil fixing groove 119 is formed in a part of the support member 117 so that a part of the coil 125 is disposed through the coil fixing groove 119 and the coil provided in the power supply device 115 The coil 125 is connected to the electrode 139 so that external power can be supplied to the coil 125 through the power supply unit 115.

5 shows another embodiment of a composite vibration micro speaker 100 according to the present invention.

5A shows an elastic member 123 provided with an elastic supporting member 131 on the lower side of the elastic member 123. It is difficult to directly couple the elastic member 123 to the fixing member 111 due to a small coupling area of the elastic member 123 The elastic support member 131 may be coupled to the fixing member 111 by bonding or the like so that the elastic member 123 and the elastic support member 131 are welded to each other, The durability of the micro speaker 100 can be increased.

5B shows an elastic member 123 provided on an upper surface of the elastic member 123. When the elastic member 123 has a small coupling area and is difficult to be directly coupled to the vibration unit 120 The elastic support member 131 is coupled to the vibration unit 120 by bonding or the like and the elastic member 123 and the elastic support member 131 are welded to each other to maximize the bonding strength.

6 illustrates a magnetizing direction of the permanent magnet 113 provided in the composite vibration micro speaker 100 according to the present invention. Preferably, the permanent magnets 113 are magnetized in the same direction as the direction of motion of the vibration unit 120.

When a plurality of the permanent magnets 113 are formed, the direction of the electromagnetic force generated when power is applied to the coils 125 is generated in opposite directions from the inside and outside of the coils 125, It is preferable that the magnetization directions of the permanent magnets 113 disposed inside and outside the coil 125 are formed in directions opposite to each other.

FIG. 7 shows a configuration of a bodily-sensible vibration type composite acoustic receiver 200 using the composite vibration micro speaker 100 according to the present invention.

The conventional small acoustic receiver has a weak output because of a small area of the diaphragm, so that it has not been possible to sufficiently realize a low-frequency band sound. Therefore, in order to solve this problem, it is possible to separate the vibration generating unit separately from the sound generating unit, and to fix the vibration generating unit integrally, thereby making an acoustic receiver. At this time, in the low frequency band, the vibration of the vibration generating part obtains the bone conduction effect through the skin and the bones of the ear, so that the sound generating part generates the sound and vibration by using the auditory sense so that the sound is synthesized through the bone conduction effect, The effect can be obtained. Particularly, when a high-frequency sound is generated in an acoustic-wave generating section and a low-frequency vibration is generated in a vibration generating section, a rich sound can be realized.

7, the bodily-sound-absorbing composite acoustic receiver 200 includes an acoustic-wave generating unit 210 for outputting acoustic waves by vibrating the diaphragm 213 according to acoustic signals received from the acoustic-wave reproducing apparatus, And a housing 221 that integrally couples the sound generating unit 210 and the composite vibration micro speaker 100. The housing 210 is a housing for housing the vibration generating unit 210,

The sound generating unit 210 includes an acoustic part permanent magnet 217, an acoustic part coil 219, and a diaphragm 133. An electromagnetic force is generated in the acoustic part coil 219 according to an acoustic signal inputted from an acoustic reproduction device such as a smart phone, an MP3 player and a PC, and the acoustic part coils 219 interact with the acoustic part permanent magnet 217, The diaphragm 213 coupled to the diaphragm 213 vibrates to generate sound. The acoustic part yoke 215 made of a ferromagnetic material may be disposed on one side of the acoustic part permanent magnet 217 to increase the magnetic efficiency of the acoustic part permanent magnet 217.

In addition to the structure shown in FIG. 7, the sound generating unit 210 may be any small speaker structure adopted in a conventional small acoustic receiver.

It is preferable that a cover 211 is provided to protect the sound generating unit 210 toward the diaphragm 213.

The housing 221 may be integrally formed as shown in FIG. 7 or the housing 221 may be separately provided in the sound generating unit 210 and the composite vibration micro speaker 100, May be directly coupled to each other, or may be connected through wires, rubber, plastic, or a metal material so that the vibration force generated in the composite vibration micro speaker 100 is transmitted to the ear.

The housing 221 is preferably made of synthetic resin, metal or wood, which can transmit vibration without absorbing vibration. In order to receive the sound signal generated by the sound reproducing apparatus, the bodily-sound-absorbing composite acoustic receiver 200 may be connected by a wire or may be integrally built into the bodily-sound-absorbing composite acoustic receiver 200, So that there is no inconvenience caused by the problem. The wireless signal receiving module may include a Bluetooth module or a ZigBee module.

Fig. 8 shows a conventional linear oscillator 300. Fig. The linear vibrator 300 includes a fixed part 111 having a space therein, a permanent magnet 113 disposed inside the fixed part 111, a mass body (not shown) surrounding a part of the permanent magnet 113 An elastic member 123 coupled to the permanent magnet 113 and the fixed portion 111, a coil 125 disposed to face the permanent magnet 113, and a coil 125 electrically connected to the coil 125. [ And a power supply unit 115.

When power is applied to the coil 125, the linear vibrator 300 interacts with the permanent magnet 113 to generate an electromagnetic force, and the permanent magnet 113 vibrates upward or downward.

At this time, the magnetic force generated in the permanent magnet 113 flows out to the outside of the linear vibrator 300, and the permanent magnet 113 moves quickly to cause a change in the magnetic field, thereby generating electromagnetic noise, In particular, there is a problem that the electromagnetic noise of the acoustic receiver worn on the ear close to the brain can adversely affect the human body.

When the metal of the ferromagnetic material is disposed close to the linear vibrator 300, the permanent magnets 113 may be disposed in the vicinity of the linear vibrator 300. In order to block the leakage magnetic force, The linear vibrator 300 can not normally vibrate by attracting the metal of the ferromagnetic body to each other.

Therefore, the metal of the ferromagnetic material must be disposed apart from the linear vibrator 300, and thus can not be miniaturized.

However, in the case of the composite vibration micro speaker 100 according to the present invention, the permanent magnet 113 is fixed and does not move, so that even if the ferromagnetic metal is disposed close to the permanent magnet 113, the generation of vibration power is not hindered. It is also possible to configure the fixed portion 111 as a ferromagnetic body, which enables miniaturization.

The composite vibration micro speaker 100 according to the present invention is also applicable to a mobile phone. For example, when a call comes from the outside, the reception state can be known by a strong vibration force when the compound vibration micro speaker 100 is driven at a frequency with a strong resonance effect with the best resonance effect. In addition, when the user is listening to a normal call or listening to music, vibrations of the audible frequency band may cause the vibration of the mobile phone to shake the whole of the mobile phone or to shake a part of the mobile phone, The vibration signal generated from the composite vibration micro speaker 100 may be transmitted to the user through the bone conduction effect, such as general telephone tone or music. This can disturb other people when using a general speaker, but using the bone conduction signal transmission principle has an advantage that a user can receive a signal without an acoustic signal interfering with others.

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

100: composite vibration micro speaker 111:
113: permanent magnet 115: power supply
117: support member 119: coil fixing groove
120: Vibrating part 121: York
123: elastic member 125: coil
127: Case 129: Bracket
131: elastic support member 133: elastic member
135: Coupling portion 137: Mass
139: coil electrode 200: bimodal vibration type complex acoustic receiver
210: sound generator 211: cover
213: diaphragm 215: acoustic portion yoke
217: Acoustic part permanent magnet 219: Acoustic part coil
221: housing

Claims (10)

A fixing part for providing an internal space of a predetermined size;
At least one permanent magnet disposed in the inner space of the fixed portion and generating a magnetic force;
A coil disposed opposite to the permanent magnet to generate an electromagnetic force by interaction with the permanent magnet;
A vibration unit integrally coupled to the coil and including a support member disposed below the coil;
An elastic member coupled to the fixed portion and the vibration portion to provide an elastic force; And
And a power supply unit coupled to the vibrating unit and disposed at a lower end of the permanent magnet so as not to contact the permanent magnet upon vibration of the vibrating unit and surrounding a part of the elastic member,
The method according to claim 1,
Characterized in that the fixing part is constituted by integrally connecting a case and a bracket.
The method according to claim 1,
Wherein the permanent magnet comprises a plurality of permanent magnets and another permanent magnet which surrounds the permanent magnets at a certain interval from the inner permanent magnets.
4. The method according to claim 1 or 3,
And the coils are disposed at a predetermined interval between the plurality of permanent magnets.
The method according to claim 1,
Wherein the support member is disposed below the permanent magnet and the coil and is electrically insulated from the coil.
The method according to claim 1,
Characterized in that the support member is made of a metal which is a non-magnetic material.
7. The method of claim 1 or 6,
Characterized in that the support member is made of brass, stainless steel or tungsten.
The method according to claim 1,
Wherein the support member includes a coil fixing groove for allowing a part of the coil to be connected to the power supply device.
The method according to claim 1,
Characterized in that an elastic supporting member is disposed on one side surface of the elastic member
The method according to claim 1,
Characterized in that a part of the fixing portion is composed of a circuit board

Images