KR20160102604A - Speaker device - Google Patents

Abstract

According to an embodiment of the present invention, a speaker device comprises: a case; a vibratory plate comprising a magnetic thin film having a relative permeability of 100 or higher, wherein at least a portion of an edge thereof is mounted on the case; a voice coil which has a closed surface formed therein, is fixed on an upper surface of a bottom of the case, is arranged below a practically middle portion of the vibratory plate, and is separated from the vibratory plate (a distance for preventing interference with vibration of the vibratory plate); and a magnet fixed on the case, arranged on the outside of the closed surface of the voice coil, and separated from the voice coil. At least a portion of the magnetic thin film is magnetically connected to the magnet, and at least a different portion of the magnetic thin film is formed on a position facing the voice coil to supply magnetism to the voice coil. The case comprises: a first and a second voice coil connection unit disposed on the upper surface of the bottom of the case and electrically connected to both ends of the voice coil; and a first and a second connection pad disposed on a lower surface of the bottom of the case and electrically connected to an external circuit. The first voice coil connection unit is electrically connected to the first connection pad, and the second voice coil connection unit is electrically connected to the second connection pad.

Description

[0001] SPEAKER DEVICE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a speaker device, and more particularly, to a speaker device capable of reducing a mass of a vibration system and downsizing a speaker device.

Speakers are widely used in audio devices, automobiles, and IT devices. These kinds of speakers are classified into a dynamic speaker driven by an electromagnetic force, a piezo speaker driven by a piezoelectric effect, and an electrostatic speaker driven by an electrostatic force according to the driving force. Dynamic speakers are the most frequently used speakers, but they require a magnetic circuit and a coil, which complicates the structure, making it difficult to make the speaker slim and automating the manufacturing process difficult. Piezo loudspeakers are advantageous for slimness and automation because they are simple in structure. However, since a metal diaphragm is used, the acoustic characteristics of the low frequency band are lowered and the piezoelectric elements of the ceramic material are weak to impact. Although the electrostatic speaker is also simple in structure, it is advantageous in slimness and automation, but it has a problem that it is difficult to adopt it in a portable communication device such as a tablet type computer and a mobile phone driven by a battery because a high voltage is required. Therefore, compared with piezoelectric speaker with complex structure, it has a simple structure, high acoustic characteristic and reliability compared with piezoelectric speaker with limited acoustic characteristics and durability, and a new structure with low driving voltage as compared with an electrostatic speaker driven with high voltage Speakers are required.

In the conventional dynamic speaker, a voice coil is attached to a diaphragm and a voice coil is moved by an electromagnetic force. Therefore, the dynamic speaker is hereinafter referred to as a moving-coil speaker. The moving-coil type speaker comprises a magnet, a voice coil, a diaphragm, and a frame. Moving-coil type speakers are widely used in portable IT devices such as smart phones, tablet PCs, digital cameras, notebook computers, and stationary IT devices such as TVs and monitors because of their durability and acoustic characteristics. However, moving-coil speakers have the following problems.

First, in order to connect a voice coil to a terminal, a soldering process is usually performed. In the process of soldering a voice coil (or a gold wire) having a small diameter to a terminal, it is difficult to automate the assembly process and the defect rate in the assembly process is high .

Second, the voice coil is attached to the diaphragm and vibrates several hundreds to several tens of times per second when it is used. This vibration causes the problem that the voice coil is disconnected or the solder to be adhered to the terminal is dropped.

Third, the voice coil, which is a cause of high temperature, is directly attached to the diaphragm by using adhesive or the like. When the voice coil is used for a long time, the adhesive is fused by heat emitted by the voice coil, There is a problem that the surround of the thermoplastic polyurethane (TPU) material around the diaphragm is fused and the diaphragm compliance is changed to deteriorate the acoustic characteristics.

The weight of the vibration system increases by attaching the voice coil to the diaphragm. The increase of the vibration system reduces the sound pressure level (SPL) and requires a high driving force. It is necessary to use an expensive magnet such as neodymium or to increase the size of the magnet in order to provide a high driving force. This increases the manufacturing cost of the speaker device and makes it difficult to miniaturize the speaker device.

Fifth, the current direction of the voice coil should be orthogonal to the direction of the magnetic field of the magnet, but it requires a magnetic circuit composed of a yoke and a plate for constantly guiding the magnetic field direction, and thus the manufacturing cost of the speaker device is increased .

Sixth, the voice coil moving up and down must be supplied with a magnetic field through a narrow space between the plate and the yoke. To achieve this, the center of the voice coil, the plate and the yoke must be precisely aligned. If eccentricity occurs, There is a problem that defects that do not normally operate occur.

A moving-magnet type speaker has been proposed to solve the problem of such a moving-coil type speaker. A moving-coil type speaker is composed of a diaphragm, a magnet, and a voice coil. In contrast to a moving-coil type speaker, a magnet is attached to an upper portion of a diaphragm to provide vibration and a voice coil is fixed.

 Since the moving-magnet type speaker is fixed to the voice coil, there is an advantage of solving some problems of heat generation due to voice coil, disconnection of voice coil, and eccentricity of voice coil. However, in a moving-magnet type speaker, a magnet which is heavier than a voice coil must be attached to the diaphragm, which causes a serious increase in the weight of the vibration system, and a diaphragm can not be formed of a lightweight material such as pulp or polymer film, It is necessary to form a diaphragm with a heavy material such as As a result, there is a fundamental problem that the compliance of the diaphragm is reduced and the bass characteristics are degraded.

To solve this problem, a balanced-magnetic speaker using a ferromagnetic diaphragm has been proposed. The balanced-magnetic speaker consists of a diaphragm made of a ferromagnetic material such as a permalloy, a magnet placed on the outer periphery of the speaker so as to be spaced apart from the diaphragm, a voice coil disposed on the bottom of the center of the speaker, To constitute a magnetic circuit circulating to the magnet-diaphragm-voice coil-core metal. According to this structure, since the diaphragm does not engage with a magnet having a high mass or a voice coil, the weight of the vibration system becomes light, and the structure of the speaker device becomes very simple.

However, balanced-magnetic speakers have the following problems.

First, the ferromagnetic diaphragm must be separated from the magnet. In this case, the intensity of the magnetic field applied to the ferromagnetic diaphragm is reduced in proportion to the cube of the distance, and the magnetism supplied to the voice coil is further reduced according to the magnetoresistance of the diaphragm . Therefore, there is a problem that the SPL of the speaker device is reduced. To solve this problem, there is a problem that the manufacturing cost of the speaker device is increased or the size of the speaker device is increased due to the use of an expensive magnet or an increase in size of the magnet.

Second, the voice coil must include a center pole inside the diaphragm, and a strong attraction force is generated between the ferromagnetic diaphragm and the center pole, and the diaphragm receives a strong vibration resistance downward. As a result, the vibration displacement of the speaker is reduced, and the output sound is distorted due to unevenness of the upward vibration and the downward vibration.

Third, the center pole inside the voice coil has a structure in which a magnet is surrounded by a metal material to form a magnetic circuit with the outer periphery. This makes it difficult to form the external signal input path to the voice coil into the bottom of the case. As a result, the electric path is formed toward the diaphragm similarly to the conventional speaker, thereby complicating the structure of the speaker and increasing the defective assembly.

Korean Patent Publication No. 1999-0073516 Korea Registered Utility Model No. 0284571 U.S. Patent No. 6,600,400

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problem, and it is an object of the present invention to simplify the structure of a speaker by driving a magnetic substance diaphragm and a voice coil opposed thereto to minimize the mass of the vibration system, .

The speaker device according to the embodiment of the present invention is intended to simplify the electric path by forming a terminal at the bottom of the frame by not including a magnetic circuit, and to discharge heat generated from the voice coil through the terminal.

A speaker device according to an embodiment of the present invention aims at simplifying a speaker structure by forming a voice coil as a flat voice coil and a flat voice coil as a terminal.

A speaker device according to an embodiment of the present invention aims at enhancing a driving force of a speaker device by reinforcing a magnetic field of a magnetic substance diaphragm by contacting a magnet and a magnetic substance diaphragm with each other.

According to an aspect of the present invention, there is provided a speaker device comprising: a casing; A diaphragm including at least a portion of the edge bonded to the case and having a relative magnetic permeability of 100 or more; And a voice coil fixed to the upper surface of the bottom surface of the case and spaced apart from the vibration plate at a substantially central portion of the vibration plate so as not to interfere with vibration of the vibration plate, ; And a magnet fixed to the case and disposed outside the closed surface of the voice coil so as to be spaced apart from the voice coil, wherein at least a part of the magnetic thin film is magnetically connected to the magnet and at least another part The first voice coil connecting portion and the second voice coil connecting portion being electrically connected to both ends of the voice coil, respectively, on the upper surface of the bottom surface, the case being formed at a position opposite to the voice coil, ; And a first connection pad and a second connection pad electrically connected to an external circuit on the bottom surface of the bottom surface, wherein the first voice coil connection portion is electrically connected to the first connection pad, And the connection portion is electrically connected to the second connection pad.

In the speaker device according to another embodiment of the present invention, at least a part of the magnetic thin film is adhered or closely attached to the magnet.

In the speaker device according to another embodiment of the present invention, the magnetic thin film may be formed of at least one selected from the group consisting of metglas, a nanoperm alloy, a mu-metal, a cobalt-iron alloy, a permalloy, And is characterized in that the main material is any one of electrical steel, ferritic stainless steel, martensitic stainless steel, carbon steel, and nickel or a combination thereof.

In the speaker device according to another embodiment of the present invention, the magnetic thin film is formed in a film shape and functions as a vibration surface.

In the speaker device according to another embodiment of the present invention, the diaphragm includes a vibration surface, a surround which is joined to an edge of the vibration surface to provide elasticity to the vibration surface, and the magnetic thin film has a And is combined with the entire surface.

In the speaker device according to another embodiment of the present invention, the diaphragm includes a vibration surface, a surround coupled to an edge of the vibration surface to provide elasticity to the vibration surface, and the magnetic thin film has a curved surface And is coupled to a part of the surface.

In the speaker device according to another embodiment of the present invention, the magnetic thin film may include: a magnetic input unit formed on an outer frame of the diaphragm and supplied with magnetism from the magnet; A magnetic output portion formed at a central portion of the diaphragm so as to face the voice coil and supplying the magnet to the voice coil; And a magnetic coupling unit for transmitting the magnetism input to the magnetism input unit to the magnetism output unit.

In the speaker device according to another embodiment of the present invention, the width of the magnetic connection part is narrower than the width of the magnetic input part and the width of the magnetic output part.

According to another aspect of the present invention, there is provided a speaker device comprising: a flat portion formed at an outermost periphery and coupled to at least a portion of the case; And a convex portion extending inwardly from the flat portion and forming a convex surface on one side, wherein the magnetic input portion is coupled with a bottom surface of the flat portion of the surround, and the magnetic output portion includes a bottom surface And the magnetic coupling unit connects the magnetic input unit and the magnetic output unit without being coupled to the bottom surface of the convex portion.

In the speaker device according to another embodiment of the present invention, the magnetic input portion is selectively formed in a part of the edge region of the diaphragm.

In the speaker device according to another embodiment of the present invention, the diaphragm is substantially formed in a quadrangle, and the four magnetic input portions are respectively coupled to the bottom of the flat portion on four sides of the diaphragm, And the magnetic coupling part is formed with four magnetic coupling parts extending from the magnetic output part and connected to the four magnetic output parts, respectively.

In the speaker device according to another embodiment of the present invention, the magnetic input portions are magnetically coupled to only one of the magnetic input portions selectively with the magnet.

In the speaker device according to another embodiment of the present invention, the magnetic output portion is formed with a cavity at the center depending on the shape of the voice coil.

In the speaker device according to another embodiment of the present invention, the diaphragm is substantially formed in a quadrangle, and one of the magnetic input portions is formed to selectively engage with a bottom surface of the flat portion on one surface of the diaphragm, And the magnet is connected to the magnetism input part, and the magnet is connected to a position opposite to the magnetism input part in a position opposite to the magnetism input part, As shown in FIG.

In the speaker device according to another embodiment of the present invention, the magnetic connection portion has a width narrower than a width of the magnetic input portion and the magnetic output portion.

In the speaker device according to another embodiment of the present invention, the magnetic output portion is formed with a cavity at the center depending on the shape of the voice coil.

In the speaker device according to another embodiment of the present invention, the case is formed as a PCB substrate on the bottom surface.

In the speaker device according to another embodiment of the present invention, the case may include a first contact hole formed through a part of the bottom surface and electrically connecting the first voice coil connection part and the first connection pad, And a second contact hole formed to penetrate a part of the bottom surface and electrically connecting the second voice coil connecting portion and the second connection pad.

In the speaker device according to another embodiment of the present invention, the case may include a first conductive pattern formed on one side of the bottom surface and connecting the first voice coil connection portion and the first connection pad, And a second conductive pattern formed on the other side and connecting the second voice coil connection part and the second connection pad.

In the speaker device according to another embodiment of the present invention, the case has a substantially rectangular shape, and the magnet is formed in an annular shape so as to be disposed adjacent to the entire periphery of the case.

In the speaker device according to another embodiment of the present invention, the case has a rectangular shape having a substantially long axis and a short axis, and the magnets are each composed of two pieces arranged in two minor axis directions of the case .

In the speaker device according to another embodiment of the present invention, the case has a rectangular shape having a substantially long axis and a short axis, and the magnet is selectively arranged in any one of the two minor axis circumferential portions of the case .

In the speaker device according to another embodiment of the present invention, the voice coil is characterized in that a plurality of voice coils are arranged so as to overlap with each other.

In the speaker device according to another embodiment of the present invention, the voice coil is a flat voice coil.

The speaker device according to another embodiment of the present invention may further include a center pole formed inside the voice coil at a height lower than the height of the voice coil and formed of a magnetic material as a main material .

According to another aspect of the present invention, there is provided a speaker device comprising: a casing; A first lead frame and a second lead frame that engage with a lower portion of the case; A diaphragm including at least a portion of the edge bonded to the case and having a relative magnetic permeability of 100 or more; A voice coil fixed to an upper surface of one of the lead frames, the voice coil being disposed at a lower portion of a substantially central portion of the diaphragm, the diaphragm being spaced apart from the diaphragm; And a magnet fixed to the frame and disposed apart from the voice coil at an outer side of the voice coil, wherein the magnetic thin film is magnetically connected to the magnet to supply magnetism to the voice coil, The first lead frame includes a first voice coil connection portion that is electrically connected to one end of the voice coil on an upper surface thereof and is electrically connected to an external circuit through a bottom surface or a side surface of the first lead frame, And a second voice coil connection part electrically connected to the other end of the voice coil, and is electrically connected to the external circuit through a bottom surface or a side surface.

In the speaker device according to another embodiment of the present invention, at least a part of the magnetic thin film is adhered or closely attached to the magnet.

In the speaker device according to another embodiment of the present invention, the magnetic thin film may be formed of at least one selected from the group consisting of metglas, a nanoperm alloy, a mu-metal, a cobalt-iron alloy, a permalloy, And is characterized in that the main material is any one of electrical steel, ferritic stainless steel, martensitic stainless steel, carbon steel, and nickel or a combination thereof.

In the speaker device according to another embodiment of the present invention, the magnetic thin film is formed in a film shape and functions as a vibration surface.

In the speaker device according to another embodiment of the present invention, the diaphragm includes a vibration surface, a surround which is joined to an edge of the vibration surface to provide elasticity to the vibration surface, and the magnetic thin film has a And is combined with the entire surface.

In the speaker device according to another embodiment of the present invention, the diaphragm includes a vibration surface, a surround coupled to an edge of the vibration surface to provide elasticity to the vibration surface, and the magnetic thin film has a curved surface And is coupled to a part of the surface.

In the speaker device according to another embodiment of the present invention, the magnetic thin film may include: a magnetic input unit formed on an outer frame of the diaphragm and supplied with magnetism from the magnet; A magnetic output portion formed at a central portion of the diaphragm so as to face the voice coil and supplying the magnet to the voice coil; And a magnetic coupling unit for transmitting the magnetism input to the magnetism input unit to the magnetism output unit.

In the speaker device according to another embodiment of the present invention, the width of the magnetic connection part is narrower than the width of the magnetic input part and the width of the magnetic output part.

According to another aspect of the present invention, there is provided a speaker device comprising: a flat portion formed at an outermost periphery and coupled to at least a portion of the case; And a convex portion extending inwardly from the flat portion and forming a convex surface on one side, wherein the magnetic input portion is coupled with a bottom surface of the flat portion of the surround, and the magnetic output portion includes a bottom surface And the magnetic coupling unit connects the magnetic input unit and the magnetic output unit without being coupled to the bottom surface of the convex portion.

In the speaker device according to another embodiment of the present invention, the magnetic input portion is selectively formed in a part of the edge region of the diaphragm.

In the speaker device according to another embodiment of the present invention, the diaphragm is substantially formed in a quadrangle, and the four magnetic input portions are respectively coupled to the bottom of the flat portion on four sides of the diaphragm, And the magnetic coupling part is formed with four magnetic coupling parts extending from the magnetic output part and connected to the four magnetic output parts, respectively.

In the speaker device according to another embodiment of the present invention, the magnetic input portions are magnetically coupled to only one of the magnetic input portions selectively with the magnet.

In the speaker device according to another embodiment of the present invention, the magnetic output portion is formed with a cavity at the center depending on the shape of the voice coil.

In the speaker device according to another embodiment of the present invention, the diaphragm is substantially formed in a quadrangle, and one of the magnetic input portions is formed to selectively engage with a bottom surface of the flat portion on one surface of the diaphragm, And the magnet is connected to the magnetism input part, and the magnet is connected to a position opposite to the magnetism input part in a position opposite to the magnetism input part, As shown in FIG.

In the speaker device according to another embodiment of the present invention, the magnetic connection portion has a width narrower than a width of the magnetic input portion and the magnetic output portion.

In the speaker device according to another embodiment of the present invention, the magnetic output portion is formed with a cavity at the center depending on the shape of the voice coil.

In the speaker device according to another embodiment of the present invention, the case is formed as a PCB substrate on the bottom surface.

In the speaker device according to another embodiment of the present invention, the case has a substantially rectangular shape, and the magnet is formed in an annular shape so as to be disposed adjacent to the entire periphery of the case.

In the speaker device according to another embodiment of the present invention, the case has a rectangular shape having a substantially long axis and a short axis, and the magnets are each composed of two pieces arranged in two minor axis directions of the case .

In the speaker device according to another embodiment of the present invention, the case has a rectangular shape having a substantially long axis and a short axis, and the magnet is selectively arranged in any one of the two minor axis circumferential portions of the case .

In the speaker device according to another embodiment of the present invention, the voice coil is characterized in that a plurality of voice coils are arranged so as to overlap with each other.

In the speaker device according to another embodiment of the present invention, the voice coil is a flat voice coil.

The speaker device according to another embodiment of the present invention may further include a center pole formed inside the voice coil at a height lower than the height of the voice coil and formed of a magnetic material as a main material.

According to the above configuration, the speaker device according to the present invention is driven by the magnetic substance diaphragm and the voice coil opposed thereto, thereby simplifying the structure of the speaker and reducing the mass of the vibration system, thereby minimizing the driving force.

The speaker device according to the embodiment of the present invention does not include a magnetic circuit so that a terminal is formed at the bottom of the frame to simplify the electric path and provide the effect of discharging heat generated from the voice coil through the terminal.

A speaker device according to an embodiment of the present invention aims at simplifying a speaker structure by forming a voice coil as a flat voice coil and a flat voice coil as a terminal.

The speaker device according to the embodiment of the present invention provides an effect of enhancing the driving force of the speaker device by reinforcing the magnetic field of the magnetic substance diaphragm by the contact between the magnet and the magnetic substance diaphragm.

1 is a sectional view showing a speaker device according to an embodiment of the present invention;
2 is a cross-sectional view showing detailed combinations of a vibration surface, a surround, and a magnetic thin film according to an embodiment of the present invention;
3 is a sectional view showing a speaker device according to another embodiment of the present invention.
4 is a sectional view showing a speaker device according to another embodiment of the present invention;
FIG. 5 is a perspective view showing a combination of a case and a magnet according to another embodiment of the present invention; FIG.
6 is a perspective view showing a combination of a case and a magnet according to another embodiment of the present invention;
FIG. 7 is a perspective view showing a combination of a case and a magnet according to another embodiment of the present invention; FIG.
8 is a plan view showing a bottom surface of a diaphragm coupled with a magnetic thin film according to an embodiment of the present invention.
9 is a plan view showing a bottom surface of a diaphragm with a magnetic thin film coupled thereto according to another embodiment of the present invention.
10 is a plan view showing a bottom surface of a diaphragm coupled with a magnetic thin film according to another embodiment of the present invention.
11 is a plan view showing a bottom surface of a diaphragm with a magnetic thin film bonded thereto according to another embodiment of the present invention.
12 is a sectional view showing a speaker device according to another embodiment of the present invention.
13 is a sectional view showing a speaker device according to another embodiment of the present invention including a lead frame.

1 shows a speaker device 100 according to an embodiment of the present invention. A speaker 100 according to the present invention includes a case 110, a diaphragm 120, a voice coil 130, and a magnet 140.

The case 110 constitutes the external shape of the speaker device 100 and functions to store parts therein. The case 110 is configured in such a manner that the upper portion thereof is opened so as to engage with the diaphragm 120. The area except for the upper part of the case 110 may be configured such that the interior thereof is hermetically sealed as shown, and a part of the side surface or the bottom surface may be configured as an open type. The material of the case 100 is not particularly limited, but it is preferably formed of a material such as a polymer resin, which is a non-magnetic material that is not magnetized by contact with a magnet, or a material such as a metal having a relative permeability of less than 10 . The case 100 may be formed so that the side surface and the bottom surface are integrally formed of the same material, or the side surface and the bottom surface may be constituted by separate parts and coupled to each other. If the side surface and the bottom surface are different parts, the side surface and the bottom surface of the case 100 may be formed of different materials. Since the bottom surface of the case 100 includes the voice coil connecting portions 131-1 and 131-2 and the connecting pads 132-1 and 132-2, which are electrically conductive, as shown in the drawing, the nonconductive material Or when a conductive material is used, a short circuit is prevented by an insulating process.

[tympanum]

The diaphragm 120 includes a magnetic thin film 150 having at least a portion of an edge thereof coupled to the case 110 and having a relative permeability of 100 or more. Although the conventional speaker device has a circulating magnetic path composed of a magnet-plate-yoke due to the magnetic thin film 150, the speaker device 100 according to the present invention has a non-circulating magnetic path composed of the magnet- .

On the other hand, the conventional diaphragm of the dynamic-coil type speaker has a problem that the mass of the vibration system increases because the voice coil (or the bobbin including the voice coil), which is relatively heavy, is attached to the bottom. The increase in the mass of the vibration system not only increases the required driving force but also decreases the speaker efficiency. Furthermore, it is common to design the diaphragm so that the weight ratio between the diaphragm and the voice coil is 1: 1, because stable vibration is difficult when the mass of the diaphragm is lighter than the voice coil. In this case, since the mass of the diaphragm is increased by the mass of the voice coil, the weight of the vibration system is further increased. The diaphragm 120 of the speaker device 100 according to the present invention does not include a separate voice coil at the bottom and the thickness of the magnetic thin film 150 is as thin as several tens to several hundreds of micrometers. In addition, since there is no need to consider the mass ratio of the voice coil and the voice coil, it is advantageous in that the weight can be reduced to about 20% to 40% as compared with the vibration plate of the conventional dynamic-coil speaker apparatus. Thereby reducing the size, power consumption, and heat generation of the speaker device.

The magnetic thin film 120 should be formed of a material having a high relative permeability. Examples of the material include a metal such as a metglas, a nanoperm alloy, a mu-metal, a cobalt-iron alloy, a permalloy ), Electrical steel, ferritic stainless steel, martensitic stainless steel, carbon steel, nickel, or a combination thereof.

The magnetic thin film 150 may be formed in a film shape so as to function as a vibration surface itself. According to this embodiment, the manufacturing process of the diaphragm 120 is simplified.

Since the magnetic thin film 150 is typically a high-priced material, it is advantageous to reduce the manufacturing cost of the speaker device 100 by minimizing the use area of the magnetic thin film 150. Further, in order to improve the acoustic performance of the speaker device 100, a material having good physical properties as a vibration surface may be used rather than the magnetic substance thin film 150, and the magnetic substance thin film 150 may be supplementarily used. For this purpose, according to an embodiment of the present invention, as shown in detail in FIG. 2, a pulp, a polymer film, a metal thin film, or the like, which is a material having a very low relative permeability, And the diaphragm 120 may be configured to use, for example, a polymer material as the surround 122 to provide elasticity to the edge of the vibration surface 121 and the vibration surface. At this time, the magnetic thin film 150 may be configured to engage with an entire surface or a partial surface of one side of the vibration surface 121. The magnetic thin film 150 may be formed on the upper surface of the diaphragm 120, but in this case, the magnetism induced by the voice coil 130 is reduced by the material of the diaphragm. Therefore, it is preferable that the magnetic thin film 150 is formed on the bottom surface of the diaphragm 120 in order to maximize magnetism induced in the voice coil 130.

[Voice coil]

The voice coil 130 is configured to form a closed surface inside and is fixed to the upper surface of the bottom surface of the case 110 so as not to interfere with the vibration of the diaphragm 120 under the substantially central portion of the diaphragm 120 As shown in FIG. The speaker device 100 according to the present invention differs from the conventional speaker device in which the voice coil 130 vibrates like the diaphragm 120. The voice coil 130, which is a relatively durable component having a relatively complicated structure, So that reliability is improved and an effect of easy assembly is provided. Further, since the voice coil, which generates a large amount of heat by the resistance element, is attached directly to the case 110, the heat radiating performance is improved by a method of disposing a material having excellent thermal conductivity on the bottom surface of the case 110.

The inner closed surface of the voice coil 130 may be formed in a circular shape, a track shape, a square shape, or the like according to an embodiment, and is fixed to the bottom surface of the case 110 using an adhesive or the like.

The electromagnetic force induced by the magnetic thin film 150 increases as the voice coil 130 and the magnetic thin film 150 of the diaphragm 120 are closer to each other. However, since the voice coil 130 may cause interference with the vibration of the diaphragm 120 when it is too close, an appropriate interval should be selected.

The voice coil 130 may be composed of a single voice coil 130 as shown in FIG. 1, and a plurality of voice coils 130-1, 130-2, 130-3, and 130-4. In the case of a plurality of voice coils, as shown in FIG. 3, the voice coils 130-1 and 130-2 are arranged so as not to overlap with each other, or the voice coils 130 -3, and 130-4 may be disposed so as to overlap with each other. In this case, the voice coils 130-1 and 130-2 can be connected to each other in series or in parallel, and in case of being connected in series, the driving force of the speaker device 100 can be increased. In case of being connected in parallel, It is possible to reduce the heat generated by the speaker units 130-1 and 130-2 to improve the heat radiation performance of the speaker unit 100 and reduce the volume of the voice coil 130 to reduce the profile of the speaker unit do.

On the other hand, the driving force can be increased by making the magnetism induced in the voice coil 130 uniform, and widening the area to which the attraction force and repulsive force applied to the vibration plate 120 are applied. For this, the speaker device 100 preferably includes a voice coil 130, a center pole formed at a lower level than the voice coil 130 inside the closed face, and formed of a magnetic material as a main material. The center pole according to the embodiment of the present invention can be formed independently because it does not need to form a magnetic path with the magnet unlike the center pole constituting the magnetic circuit of the conventional dynamic speaker. Therefore, since the yoke surrounding the voice coil 130 is not needed, the electric path of the voice coil 130 due to the magnetic circuit is not interrupted. Therefore, even in the embodiment where the center pole is added, the electric path of the external circuit and the voice coil 130 can be easily provided through the bottom surface of the case 110.

Meanwhile, according to the embodiment, the voice coil 130 may be formed of a flat voice coil, not a coil wound in a height direction. In this case, a voice coil can be formed in a spiral pattern on the PCB, and a plurality of planar voice coils can be formed in a multilayer structure, if necessary. According to this embodiment, the effect of reducing the profile of the speaker device 100 is provided.

[magnet]

The magnet 140 is fixed to the case 110 and is disposed outside the closed surface of the voice coil 130 so as to be spaced apart from the voice coil.

In the case of the conventional speaker device of the present invention, the yoke is disposed so as to surround the outer surface of the closed end of the voice coil, and the plate on the upper part of the magnet inside the voice coil and the yoke So that the voice coil is supplied with magnetism. In the case of a conventional external speaker apparatus, a yoke is disposed so that the center pole is positioned inside the closed face of the voice coil, and the yoke is disposed so as to surround the outside of the closed face of the voice coil. So that the voice coil is supplied with magnetism. According to this structure, the magnet, the plate, the yoke, or the center pole are located adjacent to the voice coil, and the magnet is magnetically connected again to the yoke or the center pole so that the components are densely packed near the voice coil. Such a structure makes it difficult to assemble the speaker device, and there is a high possibility that an operation failure due to the eccentricity of the voice coil is likely to occur, and a magnet due to heat generated from the voice coil is demagnetized, resulting in poor performance of the speaker device.

However, according to the speaker device 100 of the present invention, the voice coil 130 is not coupled to the magnetic circuit composed of the magnet-plate-yoke (or the center pole), but by the magnetic thin film 150 formed on the diaphragm 120 The structure of the speaker device 100 is simplified and the operation failure due to the eccentricity of the voice coil 130 does not occur and the magnet 140 and the voice coil 130 are electrically connected to each other The magnet 140 is sufficiently separated from the voice coil 130, thereby providing no effect of generating the magnet 140 by the heat generated in the voice coil 130.

On the other hand, since the arrangement of the magnets 140 is free from the conventional dynamic speaker, it can be arranged in various positions and shapes. For example, as shown in FIG. 5, when the case 110 has a substantially rectangular shape, the magnet 140 may be formed in an annular shape so as to be disposed adjacent to the entire periphery of the case 110. According to this embodiment, magnetism applied to the magnetic thin film 150 increases, and the output of the speaker is increased.

6, when the case 110 has a substantially rectangular shape having a major axis and a minor axis, the magnets 140 are composed of two pieces, and each of the magnets 140 is divided into two minor axis directions May be disposed at the peripheral portion. Of course, the magnets 140 may be disposed at the periphery in the major axis direction. According to this embodiment, since the size of the magnet 140, which is higher in price than the embodiment of FIG. 5, can be designed small, the manufacturing cost of the speaker device 100 can be reduced

In another embodiment, when the case 110 has a rectangular shape having a substantially long axis and a short axis as shown in Fig. 7, the magnet 140 may be selectively disposed only on one of the two minor axis circumferential portions of the case . This embodiment provides an effect of further reducing the size of the magnet than the embodiment of Fig. In this case, the magnet 140 is formed of a magnet having high magnetism such as neodymium, and the magnetic thin film 150 is formed of a material having a high magnetic permeability to prevent the magnetism transmitted to the voice coil 130 from being insufficient, It is desirable to offset the driving force reduction due to the size of the magnet 140.

[Thin film of magnetic material]

Hereinafter, the magnetic thin film 150 will be described with reference to FIGS. 8 to 11. FIG.

At least a portion of the magnetic thin film 150 is magnetically connected to the magnet 140 and at least another portion of the magnetic thin film 150 is formed at a position opposite to the voice coil 130 to supply magnetism to the voice coil 130. The magnetic thin film 150 is configured such that at least a part thereof is adhered or closely attached to the magnet 140 to be magnetically connected to the magnet 140. The magnetic substance thin film 150 may be constituted by the vibration surface 121 of the diaphragm 120 or the magnetic substance thin film 150 may be attached to the entire surface of the vibration surface 121 or may be attached to a part of the surface It is possible. The magnetic thin film 150 may be attached to the vibration surface 121 in a predetermined pattern or may be deposited on the surface of the vibration surface 121 by a method such as sputtering or may be formed by a method such as etching.

2, the diaphragm 120 may be configured to include a vibration surface 121 and a surround 122, and the surround 122 may surround the edge of the vibration surface 121 So as to provide elasticity to the vibration surface 121. The magnetic thin film 150 is configured to engage with a part of one surface of the vibration surface 121.

8, the magnetic thin film 150 includes a magnetic input portion 151 formed on the outer portion of the diaphragm 120 and supplied with magnetism from the magnet 140, a diaphragm (not shown) facing the voice coil 130, A magnetic output portion 153 formed at a central portion of the magnet 120 for supplying magnetism to the voice coil 130 and a magnetic connection portion 152 for transmitting magnetism inputted from the magnetism input portion 151 to the magnetic output portion 153 . Since ferromagnetic materials such as Permalloy are expensive materials, minimizing the size of the magnetic thin film 150 is effective in reducing the manufacturing cost. Also, as the size of the magnetic thin film 150 having a high specific gravity is minimized, the weight of the diaphragm 120 is reduced, thereby improving the speaker efficiency. It is preferable that the width w2 of the magnetic coupling part 152 is narrower than the width w1 of the magnetic input part 151 and the width w3 of the magnetic output part 153. [

2, the surround 122 is formed at the outermost portion and includes a flat portion 123, which is at least partially engaged with the case 110, and a flat portion 123, which extends inward from the flat portion 123 and forms a convex surface The magnetism input part 151 is coupled with the bottom surface of the flat part 123 of the surround 122 and the magnetism output part 153 And the magnetic coupling portion 152 does not engage with the bottom surface of the convex portion 124 so that the stress due to the vibration of the surround 122 is directly transmitted to the magnetic coupling portion 152 It is possible to provide an effect of improving the durability.

Meanwhile, the magnetic input unit 151 may be selectively formed in a part of the edge region of the diaphragm 120 according to the arrangement of the magnets 140. For example, when the diaphragm 120 is formed in a substantially quadrangular shape, as shown in FIG. 8, four magnetic input portions 151 are formed, which are respectively engaged with the bottom surfaces of the four flat surfaces of the diaphragm 120, One magnetic coupling part 153 is formed to be coupled with the central area of the bottom surface of the vibration surface 121 and four magnetic coupling parts 152 are formed to extend from the magnetic output part 153 to be connected to four magnetic output parts 153 .

In this case, it is not necessary that all of the magnetic input unit 151 is magnetically coupled to the magnet 140. The magnetic input unit 151 selectively connects only one magnet input unit 151 to the magnet 140 as shown in FIG. As shown in FIG. The magnetic input unit 151 is configured to contact the magnet 140 to receive magnetism from the magnet 140 as much as possible. This includes not only direct contact but also very close contact at intervals of several hundred micrometers or less by means of an adhesive. For example, when the edge of the diaphragm 120 is coupled to the case 110 adjacent to the magnet 140, the diaphragm 120 can be configured to contact with each other without a separate adhesive means. When the magnet 140 forms a part of the case 110, The magnet 120 may be directly attached to the magnet 140.

In order to minimize the area of the magnetic thin film 150, it is preferable that the magnetic output portion 153 has a hollow portion 154 formed at the center thereof according to the shape of the voice coil 130, as shown in FIG. The cavity 154 may be formed in the shape of a circle in FIG. 9 when the voice coil 130 is rectangular, and may be circular in the case where the voice coil 130 is circular, for example.

Hereinafter, the magnetic thin film 150 according to the embodiment shown in FIG. 10 will be described. 8, only one magnetic input portion 151 is formed, so that the bottom surface of the flat portion 123 of one surface of the diaphragm 120 And one magnetic output portion 153 is formed to be coupled to a central region of the bottom surface of the vibration surface 121. One magnetic connection portion 152 is formed to extend from the magnetic output portion 153, And the magnet 140 is configured to be selectively disposed at a position opposed to the magnetic input unit 151 as shown in FIG. According to this embodiment, the manufacturing cost of the speaker device 100 can be reduced by minimizing the magnets 140 and the magnetic thin film 150. [

10, it is preferable to configure the magnetic coupling section 152 to have a width narrower than that of the magnetic input section 151 and the magnetic output section 153, It is preferable that a cavity 154 is formed at the center according to the shape of the voice coil 130 as shown in FIG.

[case]

1, the case 110 includes a first voice coil connecting portion 111-1 and a second voice coil connecting portion 111-2 which are electrically connected to both ends of the voice coil 130 on the upper surface of the bottom surface, . The bottom surface of the bottom surface of the case 110 is configured to include a first connection pad 112-1 and a second connection pad 112-2 for being electrically connected to an external circuit. At this time, the first voice coil connecting portion 111-1 is electrically connected to the first connection pad 112-1 and the second voice coil connecting portion 111-2 is electrically connected to the second connection pad 112-2 . According to the present invention, unlike a conventional speaker device, a magnetic circuit surrounding the voice coil 130 is unnecessary. The magnetic circuit usually has electrical conductivity because it is formed mainly of iron, which is a ferromagnetic material. Therefore, the conventional speaker device is difficult to provide an electrical connection with the external circuit through the bottom surface of the speaker device 100 due to the magnetic circuit. On the other hand, the speaker device 100 according to the present invention is characterized in that not only the voice coil 130 is fixed on the bottom surface but also the electric wiring is provided through the bottom surface of the case 110 because there is no magnetic circuit around the voice coil 130 So that it is easy to mount and does not require an additional wiring structure or an insulating structure, so that the structure of the speaker device can be greatly simplified.

Meanwhile, by forming the bottom surface of the case 110 as a PCB substrate, electrical wiring between the external circuit and the voice coil 130 can be more easily provided.

1, the electrical wiring between the voice coil connection portions 111-1 and 111-2 and the connection pads 112-1 and 112-2 is provided with a contact hole passing through the bottom of the case 110 Or may be provided through a conductive pattern that is connected through the outside of the case 110 as shown in FIG.

[Lead Frame]

13 shows a speaker device 100 according to another embodiment of the present invention. 13, the speaker device 100 includes the case 110, the diaphragm 120, the voice coil 130, and the magnet 140 in the same manner as in the previous embodiment. Hereinafter, repetitive description of the parts common to the embodiments of FIGS. 1 to 12 and the embodiment of FIG. 13 will be omitted.

The lower portion of the case 110 is coupled to the first lead frame 113-1 and the second lead frame 113-2 and the voice coil 130 is coupled to the lower portion of the case 110 And is fixed to the upper surface of the lead frame 113. The voice coil 130 is connected to the first voice coil connecting portion 114-1 of the first lead frame 113-1 and the second voice coil connecting portion 114-2 of the second lead frame 113-2 And is electrically connected. The speaker device 100 is electrically connected to the external circuit through the bottom surface or the side surface of the first lead frame 113-1 and the second lead frame 113-2.

According to this embodiment, since the speaker device 100 is connected to the external circuit through the lead frame 113, the structure of the speaker device 100 is very simple, the manufacturing cost is reduced, and the electric wiring structure is also simplified, The short circuit is prevented and the reliability is increased.

100: speaker device 110: case
120: diaphragm 130: magnet
140: voice coil 150: magnetic thin film

Claims (48)

case;
A diaphragm including at least a portion of the edge bonded to the case and having a relative magnetic permeability of 100 or more;
And a voice coil fixed to the upper surface of the bottom surface of the case and spaced apart from the vibration plate at a substantially central portion of the vibration plate so as not to interfere with vibration of the vibration plate, ; And
And a magnet fixed to the case and disposed outside the closed surface of the voice coil so as to be spaced apart from the voice coil,
At least a portion of which is magnetically connected to the magnet and at least another portion is formed at a position facing the voice coil to supply magnetism to the voice coil,
Wherein the case includes a first voice coil connecting portion and a second voice coil connecting portion which are respectively electrically connected to both ends of the voice coil on an upper surface of the bottom surface, And a first connection pad and a second connection pad electrically connected to an external circuit on the bottom surface of the bottom surface,
Wherein the first voice coil connection portion is electrically connected to the first connection pad,
And the second voice coil connection portion is electrically connected to the second connection pad.
The method according to claim 1,
Wherein at least a part of the magnetic thin film is adhered or closely attached to the magnet.
The method according to claim 1,
The magnetic thin film may be formed of a material selected from the group consisting of metglas, nanoperm alloy, mu-metal, cobalt-iron alloy, permalloy, electrical steel, ferritic stainless steel, martensitic stainless steel, carbon steel, nickel, or a combination thereof.
The method according to claim 1,
Wherein the magnetic thin film is formed in a film shape and functions as a vibration surface.
The method according to claim 1,
Wherein the diaphragm comprises a vibration surface, a surround coupled to an edge of the vibration surface to provide elasticity to the vibration surface,
Wherein the magnetic thin film is combined with the entire surface of one side of the vibration surface.
The method according to claim 1,
Wherein the diaphragm comprises a vibration surface, a surround coupled to an edge of the vibration surface to provide elasticity to the vibration surface,
Wherein the magnetic thin film is joined to a part of one surface of the vibration surface.
The method according to claim 6,
Wherein the magnetic thin film comprises: a magnetic input unit formed on an outer side of the diaphragm and receiving magnetism from the magnet; A magnetic output portion formed at a central portion of the diaphragm so as to face the voice coil and supplying the magnet to the voice coil; And a magnetic connection unit for transmitting the magnetism input to the magnetism input unit to the magnetism output unit.
8. The method of claim 7,
And the width of the magnetic connection part is narrower than the width of the magnetic input part and the width of the magnetic output part.
9. The method of claim 8,
Wherein the surround is a flat portion formed at an outermost periphery and joined to at least a part of the case; And a convex portion extending inward from the flat portion and forming a convex surface on one side,
Wherein the magnetic input portion is coupled to a bottom surface of the flat portion of the surround,
Wherein the magnetic output portion is coupled to a bottom surface of the vibration surface,
Wherein the magnetic connection unit connects the magnetic input unit and the magnetic output unit without being coupled to the bottom surface of the convex portion.
10. The method of claim 9,
Wherein the magnetic input portion is selectively formed in a partial edge region of the diaphragm.
10. The method of claim 9,
The diaphragm is formed substantially in a rectangular shape,
Four magnetic input portions are formed, each of the four magnetic input portions being coupled to a bottom surface of the flat portion on four sides of the diaphragm,
Wherein one of the magnetic output portions is formed to engage with a central region of the bottom surface of the vibrating surface,
Wherein the four magnetic coupling portions are formed to extend from the magnetic output portion and are connected to the four magnetic output portions, respectively.
12. The method of claim 11,
Wherein the magnetic input units selectively magnetically couple only one of the magnetic input units with the magnet.
12. The method of claim 11,
Wherein the magnetic output portion is formed with a hollow portion at the center depending on the shape of the voice coil.
10. The method of claim 9,
The diaphragm is formed substantially in a rectangular shape,
Wherein one of the magnetic input portions is formed to selectively engage with a bottom surface of the flat portion on one surface of the diaphragm,
Wherein one of the magnetic output portions is formed to engage with a central region of the bottom surface of the vibrating surface,
Wherein the magnetic coupling unit is formed with one magnetic coupling unit and is extended from the magnetic output unit and connected to the magnetic input unit,
Wherein the magnet is selectively disposed at a position opposite to the magnetism input portion.
15. The method of claim 14,
Wherein the magnetic coupling portion has a width narrower than a width of the magnetic input portion and the magnetic output portion.
15. The method of claim 14,
Wherein the magnetic output portion is formed with a hollow portion at the center depending on the shape of the voice coil.
The method according to claim 1,
Wherein the case has a bottom surface formed of a PCB substrate.
The method according to claim 1,
The case includes a first contact hole formed to penetrate a part of the bottom surface and electrically connecting the first voice coil connection part and the first connection pad, and a second contact hole formed through a part of the bottom surface, And a second contact hole electrically connecting the second voice coil connecting portion and the second connection pad.
The method according to claim 1,
The case includes a first conductive pattern formed on one side surface of the bottom surface and connecting the first voice coil connection portion and the first connection pad and a second conductive pattern formed on the other side surface of the bottom surface, And a second conductive pattern connecting the first connection pad and the second connection pad.
The method according to claim 1,
The case has a substantially rectangular shape,
Wherein the magnet is formed in an annular shape so as to be disposed adjacent to the entire periphery of the case.
The method according to claim 1,
The case has a substantially rectangular shape having a major axis and a minor axis,
Wherein the magnet is composed of two pieces, and each of the magnets is disposed at two peripheral portions in the minor axis direction of the case.
The method according to claim 1,
The case has a substantially rectangular shape having a major axis and a minor axis,
Wherein the magnet is selectively disposed in any one of two minor axis circumferential portions of the case.
The method according to claim 1,
Wherein the voice coil is arranged such that a plurality of voice coils are overlapped with each other.
The method according to claim 1,
Wherein the voice coil is a flat voice coil.
The method according to claim 1,
Wherein the speaker device further comprises a center pole formed inside the voice coil with a height lower than a height of the voice coil and formed of a magnetic material as a main material.
case;
A first lead frame and a second lead frame that engage with a lower portion of the case;
A diaphragm including at least a portion of the edge bonded to the case and having a relative magnetic permeability of 100 or more;
A voice coil fixed to an upper surface of one of the lead frames, the voice coil being disposed at a lower portion of a substantially central portion of the diaphragm, the diaphragm being spaced apart from the diaphragm; And
And a magnet fixed to the frame and disposed apart from the voice coil outside the voice coil,
Wherein the magnetic thin film is magnetically connected with the magnet to supply magnetism to the voice coil,
Wherein the first lead frame includes a first voice coil connection portion that is electrically connected to one end of the voice coil on an upper surface thereof and is electrically connected to an external circuit through a bottom surface or a side surface,
Wherein the second lead frame includes a second voice coil connection portion that is electrically connected to the other end of the voice coil on an upper surface thereof and is electrically connected to the external circuit through a bottom surface or a side surface.
27. The method of claim 26,
Wherein at least a part of the magnetic thin film is adhered or closely attached to the magnet.
27. The method of claim 26,
The magnetic thin film may be formed of a material selected from the group consisting of metglas, nanoperm alloy, mu-metal, cobalt-iron alloy, permalloy, electrical steel, ferritic stainless steel, martensitic stainless steel, carbon steel, nickel, or a combination thereof.
27. The method of claim 26,
Wherein the magnetic thin film is formed in a film shape and functions as a vibration surface.
27. The method of claim 26,
Wherein the diaphragm comprises a vibration surface, a surround coupled to an edge of the vibration surface to provide elasticity to the vibration surface,
Wherein the magnetic thin film is combined with the entire surface of one side of the vibration surface.
27. The method of claim 26,
Wherein the diaphragm comprises a vibration surface, a surround coupled to an edge of the vibration surface to provide elasticity to the vibration surface,
Wherein the magnetic thin film is joined to a part of one surface of the vibration surface.
32. The method of claim 31,
Wherein the magnetic thin film comprises: a magnetic input unit formed on an outer side of the diaphragm and receiving magnetism from the magnet; A magnetic output portion formed at a central portion of the diaphragm so as to face the voice coil and supplying the magnet to the voice coil; And a magnetic connection unit for transmitting the magnetism input to the magnetism input unit to the magnetism output unit.
33. The method of claim 32,
And the width of the magnetic connection part is narrower than the width of the magnetic input part and the width of the magnetic output part.
34. The method of claim 33,
Wherein the surround includes a flat portion formed at an outermost periphery and coupled to at least a portion of the case; And a convex portion extending inward from the flat portion and forming a convex surface on one side,
Wherein the magnetic input portion is coupled to a bottom surface of the flat portion of the surround,
Wherein the magnetic output portion is coupled to a bottom surface of the vibration surface,
Wherein the magnetic connection unit connects the magnetic input unit and the magnetic output unit without being coupled to the bottom surface of the convex portion.
35. The method of claim 34,
Wherein the magnetic input portion is selectively formed in a partial edge region of the diaphragm.
35. The method of claim 34,
The diaphragm is formed substantially in a rectangular shape,
Four magnetic input portions are formed, each of the four magnetic input portions being coupled to a bottom surface of the flat portion on four sides of the diaphragm,
Wherein one of the magnetic output portions is formed to engage with a central region of the bottom surface of the vibrating surface,
Wherein the four magnetic coupling portions are formed to extend from the magnetic output portion and are connected to the four magnetic output portions, respectively.
37. The method of claim 36,
Wherein the magnetic input units selectively magnetically couple only one of the magnetic input units with the magnet.
37. The method of claim 36,
Wherein the magnetic output portion is formed with a hollow portion at the center depending on the shape of the voice coil.
37. The method of claim 36,
The diaphragm is formed substantially in a rectangular shape,
Wherein one of the magnetic input portions is formed to selectively engage with a bottom surface of the flat portion on one surface of the diaphragm,
Wherein one of the magnetic output portions is formed to engage with a central region of the bottom surface of the vibrating surface,
Wherein the magnetic coupling unit is formed with one magnetic coupling unit and is extended from the magnetic output unit and connected to the magnetic input unit,
Wherein the magnet is selectively disposed at a position opposite to the magnetism input portion.
39. The method of claim 38,
Wherein the magnetic coupling portion has a width narrower than a width of the magnetic input portion and the magnetic output portion.
40. The method of claim 39,
Wherein the magnetic output portion is formed with a hollow portion at the center depending on the shape of the voice coil.
27. The method of claim 26,
Wherein the case has a bottom surface formed of a PCB substrate.
27. The method of claim 26,
The case has a substantially rectangular shape,
Wherein the magnet is formed in an annular shape so as to be disposed adjacent to the entire periphery of the case.
27. The method of claim 26,
The case has a substantially rectangular shape having a major axis and a minor axis,
Wherein the magnet is composed of two pieces, and each of the magnets is disposed at two peripheral portions in the minor axis direction of the case.
27. The method of claim 26,
The case has a substantially rectangular shape having a major axis and a minor axis,
Wherein the magnet is selectively disposed in any one of two minor axis circumferential portions of the case.
27. The method of claim 26,
Wherein the voice coil is arranged such that a plurality of voice coils are overlapped with each other.
27. The method of claim 26,
Wherein the voice coil is a flat voice coil.
27. The method of claim 26,
Wherein the speaker device further comprises a center pole formed inside the voice coil with a height lower than a height of the voice coil and formed of a magnetic material as a main material.

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