JP5064179B2 - Speaker device - Google Patents

Description

  The present invention relates to a speaker device.

  For example, the speaker is arranged in the opening formed above the cabinet so that the central portion of the cone paper protrudes outward, and the substantially planar reflector is located at a position facing the cone protrusion. An omnidirectional (non-directional) speaker is known (see, for example, Patent Document 1). In addition, in a specific example of the omnidirectional speaker described in Patent Document 1, a magnetic circuit is disposed at a position facing the cone ridge, and the magnetic circuit functions as the reflector.

  The speaker is a column (frame) formed so as to surround the diaphragm, and more specifically, a frame having a shape that extends upward from the upper end of the outer periphery of the cabinet and is bent toward the center in the radial direction. The reflector and the magnetic circuit arranged at the position corresponding to are supported.

Japanese Utility Model Publication No. 50-146535

  However, in the above speaker, a frame is provided so as to surround the diaphragm, and when the speaker is driven, unnecessary vibration such as vibration of the frame itself may occur and acoustic characteristics may be deteriorated. Further, since the reproduced sound radiated from the diaphragm is reflected on the frame, the acoustic characteristics may be deteriorated.

  Further, in the speaker having the above configuration, for example, when a terminal portion to which a conductive wire (lead wire) drawn from a voice coil is connected is provided on a reflector or a magnetic circuit outside the diaphragm, the terminal is used when the speaker is driven. In some cases, the conductive characteristic or external connection line connected to the part vibrates and interferes with the reproduced sound, so that the acoustic characteristics are deteriorated. In addition, there is a possibility that unnecessary sound may be generated when the conductive wire or the external connection wire connected to the terminal portion contacts the frame.

  Moreover, in the said speaker, it is required to form the flame | frame surrounding a diaphragm, and a speaker becomes comparatively large sized. In addition, when the terminal portion is simply provided on the outer peripheral portion of a frame or a magnetic circuit, it is difficult to reduce the size of the speaker. Moreover, when the said terminal part is provided, there exists a possibility that the aesthetics of a speaker may be impaired.

  This invention makes it an example of a subject to cope with such a problem. That is, providing a relatively high sound quality speaker device, providing a relatively small speaker device, providing a relatively small and high sound quality omnidirectional speaker device, and the like. It is an object of the invention.

In order to achieve such an object, the present invention includes at least a configuration according to the following independent claims.
A speaker device according to the present invention passes through a housing, a magnetic circuit disposed opposite to the housing, a vibrating body disposed between the housing and the magnetic circuit, and the inside of the vibrating body. As described above, provided between the housing and the magnetic circuit, and arranged to extend into a space surrounded by the support member that supports the magnetic circuit and at least the back surface of the vibrating body and the inner surface of the housing And the vibrating body has a voice coil, and a conductive wire drawn out from the voice coil is electrically connected to the terminal portion through the space. . The back surface of the vibrating body here refers to a surface opposite to the acoustic radiation direction.

A speaker device according to an embodiment of the present invention includes a housing, a magnetic circuit disposed to face the housing, a vibrating body disposed between the housing and the magnetic circuit, and the vibrating body. Extending between the housing and the magnetic circuit and extending into a space surrounded by at least the back surface of the vibrating body and the inner surface of the housing. The vibrating body has a voice coil, and the terminal portion is electrically connected to a conductive wire drawn from the voice coil. Preferably, one end of the terminal part is fixed to the support member. Also, preferably, the housing has a through hole penetrating a speaker inside and the outside, the conductive wire drawn from the terminal portion passes through the said space, further passes through the through hole, the terminal portion And an external device are electrically connected.

In the speaker device configured as described above, the support member is provided between the housing and the magnetic circuit so as to pass through the inside of the vibrating body, and the terminal portion is surrounded by the back surface of the vibrating body and the inner surface of the housing. Since the terminal part is electrically connected to the conductive wire drawn from the voice coil fixed to the vibrating body, the terminal part is provided outside the magnetic circuit or the housing, for example. Compared to a general speaker, it is possible to reduce generation of unnecessary sound due to the terminal portion and the conductive wire, and to provide a relatively high sound quality reproduced sound. Further, in the speaker device according to an embodiment of the present invention, the above-described terminal portion is disposed in a space surrounded by the back surface of the vibrating body and the inner surface of the housing, and thus a relatively small omnidirectional speaker. An apparatus can be provided.

  Hereinafter, a speaker device according to an embodiment of the present invention will be described with reference to the drawings.

[First Embodiment]
FIG. 1 is a cross-sectional view of the speaker device 1 according to the first embodiment of the present invention. FIG. 2 is a cross-sectional view of the speaker device 1 according to a modification of the first embodiment of the present invention.
As shown in FIGS. 1 and 2, the speaker device 1 according to the first embodiment of the present invention includes a magnetic circuit 10, a vibrating body 20, a terminal portion 27, a housing 31, a support member 35, and an equalizer 40.
The magnetic circuit 10 corresponds to an embodiment of a magnetic circuit according to the present invention, and the vibrating body 20 corresponds to an embodiment of the vibrating body according to the present invention. The terminal portion 27 corresponds to an embodiment of the terminal portion according to the present invention, and the housing 31 corresponds to an embodiment of the housing according to the present invention. The support member 35 corresponds to an embodiment of the support member according to the present invention.

In the speaker device 1 according to the present embodiment, for example, the magnetic circuit 10, the vibrating body 20, the housing 31, the support member 35, the equalizer 40, and the like are formed concentrically, and in detail, rotate about the central axis. It has symmetry (isotropic property) and has omnidirectional (non-directional) acoustic characteristics in a direction orthogonal to the longitudinal direction (direction along the central axis) of the support member 35. That is, the speaker device according to the present invention is applied to a horizontal omnidirectional speaker device.
Hereinafter, each component will be described in detail.

  For example, as shown in FIG. 1, the housing 31 is formed in a concave shape and functions as a base of the speaker device 1. The housing 31 has a recess 31a formed on the outer side of the bottom surface and a through hole 31d formed in a substantially central portion of the recess 31a. Moreover, the housing | casing 31 has the recessed part 31c in the back side. In detail, the recessed part 31c is formed in the surface side facing the surface side in which the support member 35 was provided. For example, a network element 8 is provided in the recess 31c. The network element 8 is an electronic component or an electrical component such as a capacitor, a coil, a transistor, an integrated circuit (IC), a switch, or a light emitting element.

The support member 35 supports the magnetic circuit 10. Specifically, the support member 35 is disposed between the casing 31 and the magnetic circuit 10 so as to pass through the inside of the vibrating body 20, and supports the casing 31 and the magnetic circuit 10 so as to face each other. For example, as shown in FIG. 1, the support member 35 includes a first support member 35a and a second support member 35b.
The first support member 35a corresponds to an embodiment of a columnar support member according to the present invention, and the second support member 35b corresponds to an embodiment of a cylindrical support member according to the present invention.

The first support member 35a is inserted into the through hole 31d. Further, the first support member 35a is inserted into the cylindrical second support member 35b. The first support member 35 a has, for example, one end coupled to the magnetic circuit 10 and the other end coupled to the housing 31. Specifically, for example, a bolt or the like can be employed as the first support member 35a, and the top of the bolt is accommodated in the recess 31c. For example, the first support member 35 a and the magnetic circuit 10 are formed by screwing a threaded portion formed at the tip of the bolt into a threaded portion formed on the inner peripheral portion of the yoke 11 of the magnetic circuit 10. Are joined. The first support member 35a is made of a known material such as metal or resin. The first support member 35a is not limited to the above-described embodiment, for example. For example, the tip of the bolt may be coupled to the housing 31 and the top may be coupled to the magnetic circuit 10.
The second support member 35b is formed in a cylindrical shape, and the first support member 35a is inserted therein. The second support member 35 b has one end joined to the magnetic circuit 10 and the other end joined to the housing 31. The second support member 35b is made of a known material such as resin or metal. Further, a terminal portion 27 described later is attached to the second support member 35b, and the second support member 35b is made of a non-conductive material such as a resin so as not to be electrically connected to the terminal portion 27. It is preferable to be formed.

  Moreover, it is preferable that the support member 35 and the members constituting the housing 31 or the magnetic circuit 10 are formed of different members, particularly different metal materials. By forming in this way, for example, the terminal portion 27, the conductive wire 26, the conductive wire 7, and the like provided on the support member 35 are prevented from resonating due to vibration propagating from the housing 31 through the support member 35. be able to.

  As shown in FIG. 1, the housing 31 has a plurality of relatively small through holes 31 b formed in the circumferential direction in the range where the recesses 31 c are formed. The through hole 31b functions as a passage through which the conductive wire (external connection wire) 7 electrically connected to the terminal portion 27 passes, for example. For example, the conductive wire 7 may be directly electrically connected to the external device 9 or may be connected to the external device 9 via the network element 8 and the conductive wire 81 as shown in FIG. . In addition, the network element 8 according to the present embodiment is provided in the recess 31c, but is not limited to this form, and may be provided in, for example, a housing.

  As shown in FIGS. 1 and 2, the through hole 31 b is provided inside the speaker device 1, specifically, the internal space of the speaker device 1 formed by the vibrating body 20 and the housing 31, and the outside of the housing 31. By exchanging air between them, it functions as a vent hole that suppresses temperature rise inside the vibrating body and inside the magnetic circuit. The through hole 31b also has a function of adjusting the air pressure inside the vibrating body 20. For example, in the case of a busless speaker device in which the housing 31 functions as a cabinet, the low-band resonance frequency can be made relatively small by forming the through hole 31b in the housing 31. The through hole 31b is not limited to the above form, and for example, the through hole 31b may be formed from the side surface of the housing 31 toward the center side along the radial direction.

[Vibrating body 20]
The vibrating body 20 includes a voice coil bobbin 21, a voice coil 22, a diaphragm 23, an edge 24, and a damper 25.
The voice coil bobbin 21 is formed in a cylindrical shape. The voice coil bobbin 21 is provided with a voice coil 22 at the upper end (the end on the magnetic circuit side). The voice coil bobbin 21 according to the present embodiment extends from an inner peripheral portion of a diaphragm 23 described later to the magnetic circuit 10 and is disposed between the diaphragm 23 and the magnetic circuit 10. By disposing the voice coil bobbin 21 between the diaphragm 23 and the magnetic circuit 10, the length of the voice coil bobbin 21 can be made relatively small, and the weight of the vibrating body 20 can be reduced. Further, by making the length of the voice coil bobbin 21 relatively small, the vibration of the voice coil 22 is easily transmitted by the diaphragm 23, and in particular, the high frequency reproduction band can be expanded. In addition, by arranging the voice coil bobbin 21 between the terminal unit 27 described later and the magnetic circuit 10, even if the voice coil bobbin 21 vibrates due to the vibration of the voice coil 22, it contacts the terminal unit 27. It is possible to suppress the generation of abnormal noise by contacting the portion 27.
The voice coil 22 is formed in a cylindrical shape and is wound around the voice coil bobbin 21. A conductive wire (lead wire) 26 drawn out from the voice coil 22 is electrically connected to the terminal portion 27. As the voice coil 22, for example, a short voice coil, a long voice coil, or the like can be employed. The voice coil 22 according to the present embodiment employs a short voice coil. By employing the short voice coil 22, the weight of the vibrating body 20 can be reduced, and the short voice coil 22 can be prevented from contacting a part of the magnetic circuit.
The diaphragm 23 is formed in a conical shape and is disposed so as to cover the housing 31. Specifically, the diaphragm 23 is formed in a cone shape in which the diameter of the end portion on the housing 31 side is larger than the diameter of the end portion on the magnetic circuit 10 side. The diaphragm 23 has an outer peripheral portion (outer peripheral end) fixed to the outer peripheral portion of the casing 31 through the edge 24 so as to freely vibrate, and an inner peripheral portion connected to the outer peripheral portion of the voice coil bobbin 21 with an adhesive or the like. Has been.
The edge 24 has an inner peripheral portion fixed to the outer peripheral portion of the diaphragm 23, and an outer peripheral portion (outer peripheral end portion) fixed to the housing 31. For example, the diaphragm 23 and the edge 24 may be integrally formed or may be separate members.
The damper 25 has an inner peripheral portion connected to the outer peripheral portion of the voice coil bobbin 21 and an outer peripheral portion connected to a member constituting the magnetic circuit 10. Specifically, the damper 25 is connected to a damper support member 14 disposed on the lower surface side of the magnetic circuit 10.

[Magnetic circuit 10]
The magnetic circuit 10 includes a yoke 11, a magnet 12, a plate 13, and a damper support member 14. As the magnetic circuit 10, for example, an outer magnet type magnetic circuit, an inner magnet type magnetic circuit, or the like may be employed. As the magnetic circuit 10 according to the present embodiment, an external magnet type magnetic circuit is employed. The magnetic circuit 10 is provided at the upper part of the support member 35, specifically, at the end opposite to the housing 31. The magnetic circuit 10 according to the present embodiment is provided in the recess of the equalizer 40. Specifically, the magnetic circuit 10 is surrounded by the equalizer 40.

The yoke 11 includes a substantially cylindrical main body portion 11a and a flange portion 11b extending from the upper end of the main body portion 11a in the outer peripheral direction. The yoke 11 is supported by a support member 35. Specifically, the first support member 35 a is inserted into a hole formed in the central portion of the yoke 11 while the yoke 11 is disposed on the second support member 35 b. The yoke 11 is made of a known material such as metal.
The magnet 12 is formed in a ring shape, and is disposed on the lower surface portion of the flange portion 11 b of the yoke 11. The magnet 12 is made of, for example, a permanent magnet such as a samarium / cobalt, alnico, rare earth, or ferrite magnet.
The plate 13 is formed in a ring shape and is disposed on the lower surface of the magnet 12. The plate 13 is made of a known material such as metal. In the magnetic circuit 10 configured as described above, a magnetic gap is formed between the outer peripheral wall of the substantially cylindrical main body 11 a of the yoke 11 and the inner peripheral wall of the plate 13.
The damper support member 14 is formed in a ring shape and is provided on the lower surface of the plate 13. The damper support member 14 is made of a known material such as a resin.

  The terminal portion 27 is made of, for example, a metal such as iron, and is electrically connected to a conductive wire 26 drawn from the voice coil 22 fixed to the vibrating body 20. For example, as illustrated in FIGS. 1 and 2, the terminal portion 27 is provided at a substantially intermediate position of the second support member 35 b. The terminal portion 27 has one end fixed to the second support member 35b and the other end formed in a shape extending a predetermined distance toward the outside in the radial direction. In addition, the terminal portion 27 according to the present embodiment is formed in, for example, an L shape, and a portion along the longitudinal direction of the support member 35 is a groove-shaped fitting formed in the second support member 35b. It is fixed with an adhesive or the like in a state of being fitted to the part. Moreover, the terminal part 27 and the 2nd support member 35 may be integrally molded by the injection molding manufacturing method etc., for example. In addition, for example, the conductive wire 7 may be electrically connected to the external device 9 through the through hole 31 b or may be connected to the network element 8 in the terminal portion 27.

  The equalizer 40 is formed in a shape surrounding the magnetic circuit 10 as shown in FIGS. 1 and 2, for example, and the outer peripheral shape is formed in a substantially cylindrical shape, and an inclined surface portion is formed at the end on the housing 31 side. Is formed. In the equalizer 40 according to the present embodiment, the inclined surface portion formed at the end portion on the housing 31 side has a curved surface shape. By making the inclined surface portion into a curved surface, the output sound pressure frequency characteristic can be made flat from the low sound range to the high sound range. Further, by making the outer diameter of the equalizer 40 smaller than the inner diameter of the casing 31, the output sound pressure frequency characteristic can be made flat from the low sound range to the high sound range.

In the speaker device 1 having the above configuration, for example, an audio signal is transmitted from the external device 9 such as an audio reproduction device, an amplifier circuit, a radio, a television broadcast receiving device, a tuner, a car navigation system, an audio processing device, etc. The signal is input to the terminal portion 27 through the element 8 and the conductive wire 7. At this time, an audio signal may be input from the external device 9 to the terminal unit 27 via the conductive wire 7. Then, an audio signal is input from the terminal unit 27 to the voice coil 22 via the conductive wire 26. A driving force (Lorentz force) corresponding to the magnetic gap of the magnetic circuit 10 and the level of the audio signal is generated in the voice coil 22, and the vibrating body 20 such as the voice coil bobbin 21 and the diaphragm 23 is generated by the driving force. Oscillates in the vertical direction (the direction along the longitudinal direction of the support member 35). A part of the sound wave (reproduced sound) radiated from the diaphragm 23 is reflected by the equalizer 40 and is radiated in a predetermined direction as a sound wave having a predetermined acoustic characteristic.
In the speaker device 1 having the above configuration, the vibrating body 20 and the equalizer 40 are concentrically formed, and the reproduced sound reflected and radiated by the equalizer 40 is in a direction orthogonal to the longitudinal direction of the support member 35. Have omnidirectional (omnidirectional) acoustic characteristics.

FIG. 3 is a diagram for explaining the acoustic characteristics of the speaker device. Specifically, FIG. 3A is a diagram for explaining the acoustic characteristics of the speaker device according to the embodiment of the present invention, and FIG. 3B is a general diagram including a dome-shaped diaphragm of a comparative example. It is a figure for demonstrating the acoustic characteristic of a speaker apparatus, and FIG.3 (C) is a figure for demonstrating the measurement angle of an acoustic characteristic.
3A and 3B, the vertical axis represents SPL (Sound Pressure Level: unit dB (decibel)), and the horizontal axis represents frequency (unit Hz).

Next, measurement results of the acoustic characteristics of the reproduced sound of the speaker device 1 according to the embodiment of the present invention and a general speaker device (specifically, a dome-type speaker device) will be described. As shown in FIG. 3C, the acoustic characteristics of the reproduced sound were measured in directions of 0 °, 30 °, 60 °, and 90 ° with respect to the upper side of the speaker device (longitudinal direction of the support member).
As shown in FIG. 3B, in a general dome type speaker, the variation in acoustic characteristics at each angle is relatively large. Specifically, a general dome-shaped speaker has a directional acoustic characteristic that a sound pressure level in a high sound range is smaller than that in the central axis direction in a direction (horizontal direction) orthogonal to the central axis. .
On the other hand, as shown in FIG. 3A, in the speaker device 1 according to an embodiment of the present invention, the variation in the acoustic characteristics of the reproduced sound at each angle is relatively small. In the speaker device 1, reproduced sound having a relatively large sound pressure level was obtained at each frequency.
That is, the speaker device 1 according to the present invention has omnidirectional (non-directional) acoustic characteristics in a direction orthogonal to the longitudinal direction of the support member 35, and an angle of 0 ° to about the longitudinal direction of the support member 35. The acoustic characteristics in the 90 ° direction are also substantially uniform. For this reason, when the reproduction sound is emitted from the speaker unit 1, the sound becomes clear to the listener.

As described above, the speaker device 1 according to the present embodiment is disposed between the housing 31, the magnetic circuit 10 disposed to face the housing 31, and the housing 31 and the magnetic circuit 10. In addition, the vibrating body 20 whose outer peripheral portion is supported by the housing 31 so as to freely vibrate, and a support that supports the magnetic circuit 10 provided between the housing 31 and the magnetic circuit 10 so as to pass through the inside of the vibrating body 20. The member 35 has a terminal portion 27 disposed in a space surrounded by at least the back surface of the vibrating body 20 and the inner surface of the housing 31, and the terminal portion 27 is formed from the voice coil 22 fixed to the vibrating body 20. Since the drawn conductive wire 26 (lead wire) is electrically connected and the conductive wire 7 is connected to the external device 9 from the terminal portion 27 through the through hole 31b formed in the housing 31, for example, magnetic Terminals are provided outside the circuit or housing Compared were a general speaker device, it is possible to reduce the emission of unwanted sounds by the terminal unit 27 and the conductive wire 26, it is possible to provide a relatively high sound quality of the reproduced sound.

Further, in the speaker device 1, the terminal portion 27 is disposed in a space surrounded by the back surface of the vibrating body 20 and the inner surface of the housing 31 , specifically, at a substantially intermediate position of the support member 35. As compared with a general speaker device provided with a terminal portion, an omnidirectional speaker device having a relatively small size and high sound quality can be provided.

  Further, the speaker device 1 has good appearance symmetry because the conductive wire 26 drawn from the voice coil is not exposed outside the diaphragm.

  Moreover, since the speaker device 1 according to the present embodiment includes the network element 8 in the recess 31c of the housing 31, for example, compared to a general speaker device in which the network element 8 is provided on the outer side, A relatively small speaker device can be provided. Further, since the speaker device 1 is provided with the network element 8 in the recess 31c of the housing 31, for example, it is simpler than the case where the network element 8 is provided on the inner peripheral surface side of the recess 31a of the housing 31. In addition, the external device 9 can be wired.

  In the speaker device 1 according to the present embodiment, since an open space is formed on the acoustic radiation side of the diaphragm 23, a general speaker in which a frame or the like is formed on the acoustic radiation side of the diaphragm 23. Compared with the apparatus, there is no problem such as reflection of reproduced sound by the frame and deterioration of sound quality due to unnecessary vibration of the frame, and it is possible to provide reproduced sound with high sound quality.

  Moreover, the speaker device 1 according to the present embodiment can reduce the weight of the vibrating body 20 by adopting the short voice coil 22, and the short voice coil 22 can be prevented from contacting a part of the magnetic circuit. can do.

  Moreover, it is preferable that the support member 35 and the members constituting the housing 31 or the magnetic circuit 10 are formed of different members, particularly different metal materials. By doing in this way, it can suppress that the terminal part 27, the conductive wire 26, the conductive wire 7, etc. which were provided in the support member 35 resonate by the vibration transmitted from the support member 35 from the housing | casing 31, for example. .

[Second Embodiment]
FIG. 4 is a cross-sectional view of the speaker device 1a according to the second embodiment of the present invention. Differences from the first embodiment will be described.
As shown in FIG. 4, the speaker device 1 a according to this embodiment includes a metal member 58, a metal member 59, and a metal member 60.
The metal member 58 is provided on the inner peripheral portion of the magnet 12 facing the outer peripheral portion of the yoke 11. The metal member 59 is provided on the outer peripheral portion of the yoke 11 that faces the inner peripheral portion of the plate 13. The metal member 60 is provided on the inner periphery of the plate 13. As these metal members 58-60, well-known metal materials, such as copper and iron, are employable, for example.
The metal members 58 to 60 can suppress, for example, an increase in inductance (also referred to as an induction coefficient) of the short voice coil 22, and can improve the sensitivity of the speaker unit 1a.

  As described above, since the speaker device 1a according to the present embodiment includes the metal members 58 to 60, an increase in inductance (also referred to as an induction coefficient) of the short voice coil 22 can be suppressed, and the speaker unit 1a Sensitivity can be improved. In particular, it is possible to provide a reproduced sound having relatively good acoustic characteristics in a high sound range.

  Moreover, although the speaker apparatus 1a which concerns on embodiment mentioned above had the metal members 58-60, it is not restricted to this embodiment, For example, the metal member 58, the metal member 59, and the metal member 60 of Either of them may be included, or a combination thereof.

[Third Embodiment]
FIG. 5 is a cross-sectional view of the speaker device 1b according to the third embodiment of the present invention. Differences from the first and second embodiments will be described.
As shown in FIG. 5, the speaker device 1 b according to this embodiment includes a plate 17. The plate 17 is formed in a ring shape extending from the yoke 11 toward the inside of the diaphragm 23. Specifically, the speaker device 1 b includes a plate 13 attached to the lower surface of the magnet 12 and a ring-shaped plate 17 that surrounds the second support member 35 b on the lower side of the yoke 11.
The speaker device 1b configured as described above has a substantially uniform magnetic flux density distribution within the magnetic gap of the magnetic circuit 10, and can reduce distortion of reproduced sound due to the non-uniform magnetic flux density distribution, and is relatively good particularly in the high sound range. It is possible to provide a reproduced sound having a proper acoustic characteristic.

[Fourth Embodiment]
6A is a cross-sectional view of a speaker device 1c according to a fourth embodiment of the present invention, and FIG. 6B is a cross-sectional view of a speaker device 1d according to a modification of the fourth embodiment of the present invention. It is. Differences from the first to third embodiments will be described.
Although the speaker device according to the first and second embodiments has the outer magnet type magnetic circuit 10, the speaker device 1c according to the present embodiment has an inner magnet type magnetism as shown in FIG. A circuit 10c is included.
The magnetic circuit 10c includes a flat plate-shaped yoke 11c, a ring-shaped magnet 12c disposed on the lower surface side of the yoke 11c, and a ring-shaped plate 13c disposed on the lower surface side of the magnet 12c. The support member 35a is coupled to the yoke 11c and supports the equalizer 40.

  In addition, as shown in FIG. 6B, the speaker device 1d includes an inner magnet type magnetic circuit 10c. The magnetic circuit 10c includes a yoke 11d, a ring-shaped magnet 12d disposed on the lower surface side of the yoke 11d, and a ring-shaped plate 13d provided on the lower surface side thereof. Specifically, the yoke 11 d is formed in a shape in which the outer peripheral portion extends toward the housing 31. The support member 35a is coupled to the yoke 11d and supports the equalizer 40.

  Since the speaker devices 1c and 1d having the above configuration have the inner magnet type magnetic circuit 10, the speaker device according to the present invention is realized with a simple configuration as compared with, for example, a speaker device having an outer magnet type magnetic circuit. be able to. Further, since the speaker device has a relatively simple configuration, it can be further reduced in size.

[Fifth Embodiment]
FIG. 7 is a cross-sectional view of a speaker device 1e according to a fifth embodiment of the present invention. Differences from the speaker device according to the first to fourth embodiments will be described.
As shown in FIG. 7, the speaker device 1e according to the present embodiment includes an inner magnet type magnetic circuit 10e. The magnetic circuit 10e includes a yoke 11e, a ring-shaped magnet 12e, and a ring-shaped plate 13d provided on the lower surface side of the magnet 12e. Specifically, the yoke 11e is formed in a shape that is bent radially inward toward the plate 13e after the end portion extends to the housing 31 side as compared with the yoke 11c according to the third embodiment. .

  Since the speaker device 1e having the above configuration includes the internal magnet type magnetic circuit 10e including the yoke 11e having the above configuration, for example, the magnetic flux density of the magnetic gap of the magnetic circuit 10e is compared with the speaker device 1c according to the third embodiment. Big. Therefore, the speaker device 1e can provide a reproduction sound having a relatively high sound pressure.

[Sixth Embodiment]
FIG. 8 is a cross-sectional view of a speaker device 1f according to a sixth embodiment of the present invention. Differences from the first and second embodiments will be described.
The speaker device 1f according to the present embodiment includes an inner magnet type magnetic circuit 10f. Specifically, as shown in FIG. 8, the magnetic circuit 10f includes a yoke 11f, a plate-shaped magnet 12f, and a plate-shaped plate 13f arranged on the lower surface side of the magnet 12f. Specifically, the yoke 11f is formed in a shape with an end portion extending toward the housing 31 as compared with the yoke 11c according to the third embodiment.

  Since the speaker device 1f having the above configuration includes the inner magnet type magnetic circuit 10f including the yoke 11f having the above configuration, for example, the yoke 11f has a simple configuration as compared with the speaker device 1e according to the fifth embodiment. Therefore, the speaker device 1f according to the present invention can be realized with a simple configuration.

[Seventh Embodiment]
FIG. 9A is a cross-sectional view of a speaker device 1g according to a seventh embodiment of the present invention, and FIG. 9B is a cross-sectional view of a speaker device 1h according to a modification of the seventh embodiment of the present invention. It is. Differences from the first to sixth embodiments will be described.
In the speaker device of each embodiment, the diaphragm 23 may be protected by providing a protective net, a guard, a protective member, and the like so as to surround the diaphragm 23.

  Specifically, for example, as illustrated in FIG. 9A, the speaker device 1 g according to the seventh embodiment includes a protection net 51. The protective net 51 is provided so as to cover the space between the equalizer 40 and the housing 31. Since the protective net 51 and the cylindrical protective guard are uniformly formed in the circumferential direction, the acoustic characteristics are adversely affected even if the protective net and the cylindrical protective guard are arranged around the diaphragm. Can be deterred.

Further, as shown in FIG. 9B, the speaker device 1 h has a protective member 52. The protection member 52 is, for example, a rod-shaped member, and a plurality of protection members 52 are provided at equal intervals in the circumferential direction. By providing the protection member 52 having the shape shown in FIG. 9B in the speaker device 1h having the above-described configuration, resonance or the like is generated in the protection member 52, and adverse effects on the acoustic characteristics can be suppressed.
For example, in the case of a speaker device in which the protective member is formed in a shape extending from the housing 31 to the magnetic circuit 10 and supported by both the housing 31 and the magnetic circuit 10 or the equalizer 40, the following There are some problems. When the voice coil 22 vibrates, for example, when the voice coil 22 vibrates in the acoustic radiation direction, the magnetic circuit 10 receives a magnetic repulsive force and vibrates in the direction opposite to the acoustic radiation direction. This vibration is transmitted to the protection member 52 to cause resonance and the protection member 52 generates sound waves. Further, when the voice coil 22 vibrates, the damper 25 vibrates following the vibration of the diaphragm 23. Therefore, the vibration of the damper 25 is transmitted to the protective member 52, causing resonance and the like, and the protective member 52 generates sound waves. To do. Further, when the voice coil 22 vibrates, the diaphragm 23 vibrates, so that air pressure acts on the casing 31 from the back surface (surface opposite to the acoustic radiation direction) of the diaphragm 23 toward the casing 31. The casing 31 vibrates. For this reason, the vibration of the casing 31 is transmitted to the protection member 52, resonance and the like occur, and the protection member 52 generates sound waves.
On the other hand, the protection member 52 according to the present embodiment is formed in a shape as shown in FIG. 9B, specifically in a cone shape in which the lower end portion is not joined to the housing 31. Can suppress the generation of sound waves due to resonance or the like and adversely affecting the acoustic characteristics. FIG. 10 is a diagram showing experimental results of the speaker device. In detail, it is a figure which shows the acoustic characteristic of the speaker apparatus with and without the case where the protection member 52 is provided. The horizontal axis represents frequency (kHz), and the vertical axis represents sound pressure (dB). As shown in FIG. 10, there is almost no influence on the acoustic characteristics when the protective member 52 having the shape as shown in FIG. 9B is provided and when the protective member 52 is not provided. Further, the lower end portion of the protective member may be joined to the housing, and the upper end portion may be an open end portion.

The present invention is not limited to the embodiment described above. The present invention may be implemented in various forms, or may be implemented in combination with the above-described embodiments.
In the above-described embodiment, the terminal portion 27 is formed in an L shape, but is not limited to this form, and may be formed in various shapes.
In the above-described embodiment, the omnidirectional (non-directional) speaker device, particularly the sound pressure level in the horizontal direction (direction perpendicular to the vibration direction of the voice coil) is substantially equal, and the sound pressure level in the horizontal direction. Although the speaker unit in which a large difference is not seen between the sound pressure level in the vibration direction of the voice coil and the voice coil has been described, the present invention is not limited to this form and may have directivity in a specific direction.
In the above-described embodiment, the diaphragm 23 is formed in a circular shape, but is not limited to this shape, and may be formed in various shapes such as a quadrangular pyramid shape and a polygonal pyramid shape. .

As described above, the speaker device 1 according to the present invention is disposed between the housing 31, the magnetic circuit 10 disposed to face the housing 31, and between the housing 31 and the magnetic circuit 10. The vibrating body 20 whose outer peripheral portion is supported by the housing 31 so as to freely vibrate, and a support member that is provided between the housing 31 and the magnetic circuit 10 so as to pass through the inside of the vibrating body 20 and supports the magnetic circuit 10. 35 and at least a terminal portion 27 disposed in a space surrounded by the back surface of the vibrating body 20 and the inner surface of the housing 31, and the terminal portion 27 is drawn from the voice coil 22 fixed to the vibrating body 20. The conductive wire 26 (lead wire) is electrically connected, and the conductive wire 7 is connected from the terminal portion 27 to the external device 9 through the through hole 31b formed in the housing 31, so that, for example, a magnetic circuit And a terminal part on the outside of the housing Compared with the general speaker device, it is possible to reduce the emission of unwanted sounds by the terminal unit 27 and the conductive wire 26, it is possible to provide a relatively high sound quality of the reproduced sound.

Moreover, since the speaker device 1 has the terminal portion 27 disposed inside the vibrating body 20, the external appearance of the speaker device 1 has good symmetry. It looks good.
Moreover, since the speaker device 1 has the terminal portion 27 formed on the inner side of the vibrating body 20, a relatively small speaker device 1 can be provided.
Further, in the speaker device 1, a terminal portion 27 is provided on a support member 35 that passes through the inside of the vibrating body 20, and conductive wires 26 (including lead wires and tinsel wires) drawn from the voice coil 22 are connected to the terminal portion 27. Since they are connected, it is possible to provide a relatively high-quality reproduced sound.

1 is a cross-sectional view of a speaker device 1 according to a first embodiment of the present invention. It is sectional drawing of the speaker apparatus 1 which concerns on the modification of 1st Embodiment of this invention. It is a figure for demonstrating the acoustic characteristic of a speaker apparatus, in detail (A) is a figure for demonstrating the acoustic characteristic of the speaker apparatus which concerns on one Embodiment of this invention, (B) is a comparative example. It is a figure for demonstrating the acoustic characteristic of a general speaker apparatus provided with a dome shape diaphragm, (C) is a figure for demonstrating the measurement angle of an acoustic characteristic. It is sectional drawing of the speaker apparatus 1a which concerns on 2nd Embodiment of this invention. It is sectional drawing of the speaker apparatus 1b which concerns on 3rd Embodiment of this invention. (A) is sectional drawing of the speaker apparatus 1c which concerns on 4th Embodiment of this invention, (B) is sectional drawing of the speaker apparatus 1d which concerns on the modification of 4th Embodiment of this invention. It is sectional drawing of the speaker apparatus 1e which concerns on 5th Embodiment of this invention. It is sectional drawing of the speaker apparatus 1f which concerns on 6th Embodiment of this invention. (A) is sectional drawing of the speaker apparatus 1g which concerns on 7th Embodiment of this invention, (B) is sectional drawing of the speaker apparatus 1h which concerns on the modification of 7th Embodiment of this invention. It is a figure for demonstrating the acoustic characteristic of the speaker apparatus 1h shown in FIG.9 (B).

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Speaker apparatus 7 Conductive wire 8 Network element 9 External apparatus 10 Magnetic circuit 11 Yoke 12 Magnet 13 Plate 14 Damper support member 20 Vibrating body 21 Voice coil bobbin 22 Voice coil 23 Diaphragm 24 Edge 25 Damper 26 Conductive wire (lead wire)
27 Terminal portion 31 Housing 31c Recessed portion 31d Through hole (drawing passage)
35 support member 35a first support member 35b second support member 40 equalizer 51 protection net 52 protection member 58-60 metal member 81 conductive wire

Claims (21)

A housing,
A magnetic circuit disposed opposite the housing;
A vibrating body disposed between the casing and the magnetic circuit; a support member provided between the casing and the magnetic circuit so as to pass through the inside of the vibrating body; and supporting the magnetic circuit;
And at least a terminal portion extending and disposed in a space surrounded by the back surface of the vibrating body and the inner surface of the housing,
The vibrator has a voice coil,
A speaker device, wherein a conductive wire led out from the voice coil is electrically connected to the terminal portion through the space . The speaker device according to claim 1, wherein one end portion of the terminal portion is fixed to the support member. The housing has a through hole;
Through the conductive wire drawn from the terminal portion is the space, and further through the through-hole, according to claim 1 and an external device said terminal portion, characterized in that it is electrically connected Speaker device. The housing has a recess formed on a surface facing the surface provided with the support member, and the recess includes a network element.
The speaker device according to claim 1, wherein the network element is electrically connected to the terminal portion by a conductive wire. The magnetic circuit has an outer magnet type magnetic circuit including a magnet and a yoke,
The speaker device according to claim 1, wherein the support member supports the yoke. The magnetic circuit includes an inner magnet type magnetic circuit including a yoke, a magnet, and a plate disposed on a lower surface side of the magnet,
The speaker device according to claim 1, wherein the support member supports the plate. The magnetic circuit has an outer magnet type magnetic circuit including a yoke, a magnet, and a plate disposed on a lower surface side of the magnet,
The speaker device according to claim 1, wherein the support member supports the yoke. The speaker device according to claim 1, wherein the magnetic circuit includes an equalizer. The speaker device according to claim 1, wherein the supporting member and the member constituting the casing or the magnetic circuit are formed of different materials. The speaker device according to claim 1, wherein an outer peripheral portion of the vibrating body is supported by the housing so as to freely vibrate. The vibrator includes a diaphragm, an edge, a voice coil bobbin around which the voice coil is wound, and a damper.
The diaphragm has an outer peripheral portion supported by the casing via the edge, an inner peripheral portion connected to the outer peripheral portion of the voice coil bobbin,
The speaker device according to claim 10, wherein the damper has an inner peripheral portion connected to an outer peripheral portion of the voice coil bobbin, and an outer peripheral portion connected to a member constituting the magnetic circuit. The speaker device according to claim 11, wherein the diaphragm and the edge are integrally formed. The magnetic circuit has an outer magnet type magnetic circuit including a yoke, a magnet, a plate, and a damper support member disposed on the lower surface side of the plate,
The speaker device according to claim 1, wherein an outer peripheral portion of the damper is connected to the damper support member. The speaker device according to claim 1, wherein a protective net or a protective member is disposed so as to surround the periphery of the vibrating body. The speaker device according to claim 1, wherein the vibrating body includes a diaphragm, and an open space is formed on an acoustic radiation side of the diaphragm. The speaker device according to claim 1, wherein the vibrating body includes a diaphragm formed in a cone shape. The speaker device according to claim 1, wherein the terminal portion is provided at a substantially intermediate position of the support member. The support member is formed in a cylindrical shape, and one end portion is joined to the magnetic circuit, and the other end portion is joined to the housing;
A columnar support member that is inserted into the cylindrical support member, has one end coupled to the magnetic circuit, and the other end coupled to the housing.
The speaker device according to claim 1, wherein the terminal portion is provided on an outer surface of the cylindrical support member. The speaker device according to claim 1, wherein the speaker device has omnidirectional acoustic characteristics in a direction orthogonal to a longitudinal direction of the support member. The speaker device according to claim 1, wherein the voice coil is a short voice coil. The speaker device according to claim 11 , wherein the voice coil bobbin extends from an inner periphery of the diaphragm to the magnetic circuit and is disposed between the diaphragm and the magnetic circuit.

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