JP2007336338A - Speaker device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a speaker device of repulsion magnetic circuit type which can be improved in magnetic efficiency and reduced in thickness. <P>SOLUTION: The speaker device is equipped with a magnetic circuit provided with a yoke and a pair of magnets which are magnetized in the perpendicular direction, arranged on the same axis so as to make the similar poles confront each other, and form a magnetic gap between themselves and the yoke, and a case cap which covers the magnetic circuit. By this setup, the magnetic circuit forms a repulsion magnetic circuit. Therefore, in the magnetic circuit, a magnetic flux produced by one of the magnets and another magnetic flux produced by the other magnet are made to flow toward the yoke as they repel each other in a space formed between one magnet and the other magnet. Therefore, magnetic efficiency can be improved. One of the magnets is attached to the inner surface of the case cap located at a magnetic circuit side. By this setup, the speaker device can be reduced in thickness. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to the structure of a so-called repulsive magnetic circuit type speaker device.

  2. Description of the Related Art Conventionally, a so-called repulsive magnetic circuit type speaker device is known in which two magnets are coaxially arranged so as to have relatively opposite magnetic poles (see, for example, Patent Documents 1 and 2). ).

  For example, the round speaker unit described in Patent Document 1 includes a magnet part and a coil part that can be magnetically linked to the magnet part, and the magnet part is coaxially disposed and is in a mutually opposite direction. Two magnets magnetized to each other, an intermediate magnetic pole element arranged between the two magnets, and an external magnetic pole element arranged outside each magnet. Moreover, this round speaker unit has a diaphragm, and the diaphragm is attached to the coil part, and can extend in a substantially radial direction from the coil part to the parallel movement axis of the coil part.

  The speaker described in Patent Document 2 includes a speaker diaphragm to which a drive coil is fixed, and two magnets arranged on both sides of the drive coil with respect to the vibration direction of the speaker diaphragm. And a magnetic circuit.

  In addition, Patent Document 3 discloses a speaker in which a repulsive magnetic field is formed by arranging two magnets in a magnetic direction that repels each other.

JP 2005-524308 A Japanese Patent Laid-Open No. 2004-88739 JP-A-6-233384

  However, since the round speaker unit described in Patent Document 1 does not have a diaphragm (diaphragm) at a position corresponding to the magnet part due to the presence of the magnet part, the area of the diaphragm (diaphragm) accordingly. Becomes smaller, and it is difficult to obtain a desired sound pressure. Further, in this round speaker unit, since the external magnetic pole elements are respectively provided outside the two magnets, the thickness of the magnet portion corresponding to the vibration direction of the diaphragm is increased accordingly, and the round speaker unit There is also a problem that it is difficult to reduce the thickness.

  Further, in the speaker described in Patent Document 2, the drive coil fixed to the speaker diaphragm is disposed between the two magnets, so that the drive coil becomes thin like a plane, which is desired. There is a problem that it is difficult to ensure the driving force. In addition, in this speaker, the gap between the magnetic gaps is increased by arranging the drive coil between the two magnets, which makes it difficult to reduce the thickness of the speaker and lowers the magnetic efficiency. Thus, there is a problem that the moving amount (amplitude amount) of the diaphragm is limited.

  Examples of problems to be solved by the present invention include the above. It is an object of the present invention to provide a repulsive magnetic circuit type speaker device capable of improving the magnetic efficiency and reducing the thickness.

  According to the first aspect of the present invention, the speaker device is arranged on the same axis so as to be magnetized in the thickness direction so that the same poles face each other, and a magnetic gap is formed between the yoke device and the yoke. A magnetic circuit having a pair of magnets, and a case cap that covers the magnetic circuit, wherein one of the pair of magnets is attached to an inner surface of the case cap located on the magnetic circuit side. It is characterized by being.

  In one embodiment of the present invention, a speaker device includes a yoke and a pair of magnets that are magnetized in the thickness direction so that the same poles face each other and form a magnetic gap between the yoke and the yoke. , And a case cap that covers the magnetic circuit, and one of the pair of magnets is attached to an inner surface of the case cap located on the magnetic circuit side.

  The above speaker device includes a yoke and a pair of magnets that are magnetized in the thickness direction and arranged coaxially so that the same poles face each other and form a magnetic gap between the yoke and the yoke device. A magnetic circuit and a case cap that covers the magnetic circuit are provided.

  For this reason, in this magnetic circuit, in addition to forming a magnetic field between one magnet and the yoke, a magnetic field is also formed between the other magnet and the yoke. That is, this magnetic circuit constitutes a repulsive magnetic circuit. Therefore, in this magnetic circuit, the magnetic flux generated by one magnet and the magnetic flux generated by the other magnet flow toward the yoke while repelling each other in the space formed between the one magnet and the other magnet. It will be. For this reason, compared with a magnetic circuit having one magnet, the magnetic flux in the magnetic gap can be increased, and the magnetic efficiency can be improved. In this speaker device, one of the pair of magnets is attached to the inner surface of the case cap located on the magnetic circuit side opposite to the sound emission side. Thereby, the speaker device can be thinned.

  In a preferred example, the other magnet of the pair of magnets is mounted on the yoke, and the one magnet and the other magnet are spaced apart from each other with reference to the upper end surface of the yoke. Are preferably opposed to each other. The case cap is preferably made of a non-magnetic material so as to prevent magnetic flux generated from the one magnet or the like from leaking to the case cap itself.

  In one aspect of the above speaker device, it has a diaphragm that holds a voice coil, a part of the diaphragm is formed in a substantially planar shape, and is positioned between the pair of magnets, The voice coil is located in the magnetic gap.

  In this way, a part of the diaphragm existing at a position corresponding to each of the pair of magnets is formed thin so as to have a substantially planar shape, thereby increasing the thickness of the pair of magnets accordingly. It is possible to reduce the distance between the case cap and the yoke while increasing the magnetic flux in the magnetic gap in which the voice coil is disposed. That is, the speaker device can be thinned while sufficiently securing the driving force of the diaphragm.

  In another aspect of the above speaker device, the one of the magnets is provided with an opening for allowing sound waves radiated from the diaphragm to pass outside, and the portion of the case cap corresponding to the position of the opening Is provided with an opening. Thereby, the sound wave radiated from a part of the diaphragm can be passed to the outside through the opening of one magnet and the opening of the case cap. Therefore, it is possible to effectively utilize the sound pressure obtained from a part of the diaphragm existing at the position covered with one magnet.

  In another aspect of the above speaker device, the case cap is disposed at a position covering the diaphragm, and has a through hole for allowing sound waves radiated from the diaphragm to pass outside. Thereby, the sound wave radiated from the diaphragm can be passed to the outside through the through hole of the case cap.

  In another aspect of the speaker device, a magnetic body such as a plate is attached to at least one of the pair of magnets. As a result, the operating point of one of the magnets attached to the case cap can be raised, and the magnetic flux is hardly demagnetized in the magnetic circuit.

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

[Configuration of speaker device]
First, with reference to FIG. 1 and FIG. 2, the structure of the speaker apparatus 100 which has the magnetic circuit 30 based on the Example of this invention is demonstrated. The speaker device 100 of the present invention can be suitably used as a speaker device such as a mobile phone.

  FIG. 1 is a perspective view showing the configuration of the speaker device 100 in a partially cut state. FIG. 2 is a cross-sectional view of the speaker device 100 when cut along a plane passing through the central axis L1.

  The speaker device 100 mainly includes a magnetic circuit 30 and a vibration system member 31.

  The configuration of the magnetic circuit 30 is as follows.

  This magnetic circuit 30 is configured as an internal magnet type magnetic circuit, and is a pair of magnets arranged on the same axis (center axis L1) so as to face the yoke 1 in the thickness direction so that the same poles face each other. 2 and a magnet 3. Thereby, the magnetic circuit 30 constitutes a so-called repulsive magnetic circuit. The yoke 1 has a disc shape, a mounting portion 2a on which the magnet 2 is mounted, and an annular portion 1b that has an annular shape and protrudes from the outer peripheral portion of the mounting portion 2a to the sound emission side. And having. A magnet 2 having a disk shape is attached on the mounting portion 2a. As will be described later, the magnet 3 is attached to the inner surface 7x of the case cap 7, and is disposed on the same axis (center axis L1) with a certain distance from the magnet 2 in the direction of the center axis L1. Further, the magnet 2 and the magnet 3 are opposed to each other with a constant interval d1 with reference to a plane S1 passing through the upper end surface 1ba of the yoke 1. A magnetic gap 32 a is formed between the magnet 2 and the annular portion 1 b of the yoke 1, and a magnetic gap 32 b is formed between the magnet 3 and the annular portion 1 b of the yoke 1. As described above, the opposing surfaces of the pair of magnets 2 and 3 are set to have the same polarity. The magnetized state of the N and S poles of the pair of magnets 2 and 3 in FIG. 1 and FIG. 2 is an example, and in the present invention, the N and S poles of the pair of magnets 2 and 3 are magnetized. The state may be set in the reverse relation to the state shown in the figure.

  Next, the configuration of the vibration system member 31 is as follows.

  Examples of the vibration system member 31 include components such as the frame 4, the diaphragm 5, the voice coil 6, and the case cap 7.

  The frame 4 has an annular shape and a step-like cross-sectional shape, and has a function of supporting various components constituting the speaker device 100. The inner peripheral wall of the frame 4 is in contact with the outer peripheral wall of the annular portion 1a of the yoke 1, and the frame 4 and the yoke 1 are joined in this state.

  The diaphragm 5 has a circular shape when seen in a plan view, and has a recess 5 a for holding the voice coil 6. The outer peripheral portion of the diaphragm 5 is attached to the upper end side of the frame 4, whereby the diaphragm 5 is fixed to the frame 4.

  The voice coil 6 has an annular shape and is held in the recess 5 a of the diaphragm 5. The voice coil 6 has a pair of plus and minus lead wires (not shown). The positive lead wire is an input wiring for an L (or R) channel signal, and the negative lead wire is an input wiring for a ground (GND) signal. Each lead wire is electrically connected to a speaker device terminal (not shown). The speaker device terminal is also electrically connected to a pair of output wires on the amplifier side. As a result, a signal and power (hereinafter also simply referred to as “voice current”) for one channel are input to the voice coil 6 from the amplifier side.

  The case cap 7 has a lid-like shape and has a function as a casing and a function as a cap for preventing foreign matters such as dust from entering the magnetic circuit 30, and is located on the opposite side to the sound emission side. The magnet 3 having a disk shape is attached to the inner surface 7x. The case cap 7 is disposed at a position that covers the vibration system member 31 including the magnetic circuit 30 and the diaphragm 5, and the outer periphery of the case cap 7 is fitted with the outer periphery of the frame 4. Further, the case cap 7 has a through hole 7a for allowing sound waves radiated from the diaphragm 5 to pass outside. Thereby, the sound wave radiated | emitted from the diaphragm 5 can be passed to the exterior used as the arrow Y1 direction through the through hole 7a. In a preferred example, the case cap 7 is preferably formed of a non-magnetic material so as to prevent magnetic flux generated from the magnet 3 or the like from leaking to the case cap 7 itself.

  In the speaker device 100 having the above configuration, the audio current output from the amplifier side is input to the voice coil 6 through a speaker device terminal (not shown) and a pair of positive and negative lead wires of the voice coil 6. . Accordingly, a driving force is generated in the voice coil 6 in the magnetic gaps 32 a and 32 b based on Fleming's left-hand rule, and the diaphragm 5 is vibrated in the direction of the central axis L 1 of the speaker device 100. Thus, the sound wave radiated from the diaphragm 5 passes through the through hole 7a of the case cap 7 and is radiated to the outside as indicated by the arrow Y1 direction.

  Next, a specific effect of the speaker device 100 having the magnetic circuit 30 according to the embodiment of the present invention will be described.

  The speaker device 100 according to the present embodiment is arranged on the same axis (center axis L1) as the yoke 1 is magnetized in the thickness direction so that the same poles face each other. The magnetic circuit 30 includes the magnets 2 and 3 that form the gaps 32 a and 32 b, respectively, and the case cap 7 that covers at least the magnetic circuit 30.

  For this reason, in this magnetic circuit 30, a magnetic field as shown by a broken arrow Y 3 is formed between one magnet 3 and the yoke 1, and a solid line is also formed between the other magnet 3 and the yoke 1. A magnetic field as shown by arrow Y2 is formed. That is, the magnetic circuit 30 constitutes a repulsive magnetic circuit. Therefore, in this magnetic circuit 30, the magnetic flux generated by one magnet 3 and the magnetic flux generated by the other magnet 2 repel each other in the space E <b> 1 formed between the one magnet 3 and the other magnet 2. However, it flows toward the annular portion 1b of the yoke 1. For this reason, compared with the magnetic circuit which has one magnet, the magnetic flux in the magnetic gaps 32a and 32 can be increased, and the improvement of magnetic efficiency can be aimed at. In the speaker device 100, one magnet 3 of the pair of magnets 2 and 3 is attached to the inner surface 7 x of the case cap 7 located on the magnetic circuit 30 side. Thereby, thickness reduction of the speaker apparatus 100 is realizable.

  In a preferred example, the other magnet 2 of the pair of magnets 2 and 3 is mounted on the mounting portion 1 a of the yoke 1, and the one magnet 3 and the other magnet 2 are annular of the yoke 1. It is preferable that they face each other with a constant distance d1 with respect to the upper end surface 1ba of the portion 1b. The case cap 7 is preferably formed of a non-magnetic material so as to prevent magnetic flux generated from the magnet 3 or the like from leaking to the case cap 7 itself.

  The speaker device 100 includes a diaphragm 5 having a recess 5 a that holds the voice coil 6, and a part 5 x of the diaphragm is formed in a substantially planar shape, and the pair of magnets 2 and 3 The voice coil 6 is positioned between the magnetic gaps 32a and 32b. Thus, by forming a part 5x of the diaphragm 5 present at a position corresponding to each of the magnet 2 and the magnet 3 so as to have a substantially planar shape, the magnet 2 and the magnet 3 correspondingly. The gap d2 between the upper surface of the case cap 7 and the rear surface of the yoke 1 can be reduced while increasing the magnetic flux in the magnetic gaps 32a and 32b in which the voice coil 6 is disposed. . That is, the speaker device 100 can be thinned while sufficiently securing the driving force of the diaphragm 5.

[Modification]
In the present invention, on the premise of the basic configuration of the speaker device 100 described above, the sound wave radiated from the part 5x of the diaphragm 5 existing at the position corresponding to each of the magnets 2 and 3 is transmitted to the outside in the direction of the arrow Y1. As shown in FIG. 3, an opening 3a is provided in the magnet 3 attached to the case cap 7, and an opening 7b is provided in a portion of the case cap 7 corresponding to the opening 3a of the magnet 3 so as to pass through. It doesn't matter. Thereby, the sound wave radiated from the part 5x of the diaphragm 5 can be passed to the outside through the opening 3a of the magnet 3 and the opening 7b of the case cap 7. Therefore, it is possible to effectively use the sound pressure obtained from the part 5x of the diaphragm 5 present at the position covered with the magnet 3.

  In the present invention, there is no limitation on the position and number of openings 3a for the magnet 3 formed. Further, the position and the number of openings 7b formed with respect to the case cap 7 are not limited, but the opening 7b of the case cap 7 must be provided at a position corresponding to the opening 3a of the magnet 3.

  In the present invention, the plate 8 as a magnetic body may be attached to at least one of the pair of magnets 2 and 3. FIG. 4 shows an example of a speaker device having a magnetic circuit 30x in which a magnetic plate 8 is mounted on a magnet 2. Thereby, the operating point of the magnet 3 attached to the case cap 7 can be raised, and the magnetic flux in the magnetic circuit 30 is hardly demagnetized.

  In addition, in the present invention, various modifications can be made without departing from the spirit of the present invention.

The perspective view which shows the structure of the state which cut | disconnected some speaker apparatuses which have a magnetic circuit based on the Example of this invention. Sectional drawing cut | disconnected by the plane which passes along the central axis of the speaker apparatus which concerns on a present Example. The perspective view of the speaker apparatus which concerns on the modification which has the structure which provided the opening for allowing the sound wave radiated | emitted from some diaphragms to pass in each of a magnet and a case cap corresponding to FIG. Sectional drawing of the speaker apparatus which concerns on the other modification which has the structure which attached the plate which is a magnetic body to the magnet corresponding to FIG.

Explanation of symbols

1 Yoke 1ba Upper end surface (one end surface)
2, 3 Magnet 5 Diaphragm 6 Voice coil 7 Case cap 7a Through hole 7b Opening 8 Plate 30, 30x Magnetic circuit 31 Vibration system member 32a, 32b Magnetic gap 100 Speaker device

Claims (7)

A magnetic circuit having a yoke and a pair of magnets that are magnetized in the thickness direction and coaxially arranged so that the same poles face each other and form a magnetic gap with the yoke; A case cap that covers the magnetic circuit;
One speaker of the pair of magnets is attached to an inner surface of the case cap located on the magnetic circuit side. The other of the pair of magnets is mounted on the yoke,
2. The speaker device according to claim 1, wherein the one magnet and the other magnet are opposed to each other with a certain distance from an upper end surface of the yoke. Having a diaphragm to hold the voice coil,
The part of the diaphragm is formed in a substantially planar shape, is positioned between the pair of magnets, and the voice coil is positioned in the magnetic gap. 3. The speaker device according to 1 or 2.   The one of the magnets is provided with an opening for allowing sound waves radiated from the diaphragm to pass outside, and an opening is provided in a portion of the case cap corresponding to the position of the opening. The speaker device according to claim 3.   5. The speaker device according to claim 3, wherein the case cap is disposed at a position covering the diaphragm and has a through hole for allowing sound waves emitted from the diaphragm to pass outside.   The speaker device according to claim 1, wherein a magnetic body is attached to at least one of the pair of magnets.   The speaker device according to claim 1, wherein the case cap is formed of a nonmagnetic material.

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