WO2017018074A1 - 音響変換装置及び音声出力機器 - Google Patents
音響変換装置及び音声出力機器 Download PDFInfo
- Publication number
- WO2017018074A1 WO2017018074A1 PCT/JP2016/067390 JP2016067390W WO2017018074A1 WO 2017018074 A1 WO2017018074 A1 WO 2017018074A1 JP 2016067390 W JP2016067390 W JP 2016067390W WO 2017018074 A1 WO2017018074 A1 WO 2017018074A1
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- WIPO (PCT)
- Prior art keywords
- diaphragm
- acoustic
- holding frame
- transmission beam
- acoustic transducer
- Prior art date
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04R—LOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
- H04R11/00—Transducers of moving-armature or moving-core type
- H04R11/02—Loudspeakers
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04R—LOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
- H04R7/00—Diaphragms for electromechanical transducers; Cones
- H04R7/02—Diaphragms for electromechanical transducers; Cones characterised by the construction
- H04R7/12—Non-planar diaphragms or cones
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04R—LOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
- H04R7/00—Diaphragms for electromechanical transducers; Cones
- H04R7/16—Mounting or tensioning of diaphragms or cones
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04R—LOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
- H04R2307/00—Details of diaphragms or cones for electromechanical transducers, their suspension or their manufacture covered by H04R7/00 or H04R31/003, not provided for in any of its subgroups
- H04R2307/207—Shape aspects of the outer suspension of loudspeaker diaphragms
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04R—LOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
- H04R2400/00—Loudspeakers
- H04R2400/11—Aspects regarding the frame of loudspeaker transducers
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04R—LOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
- H04R7/00—Diaphragms for electromechanical transducers; Cones
- H04R7/02—Diaphragms for electromechanical transducers; Cones characterised by the construction
- H04R7/04—Plane diaphragms
- H04R7/06—Plane diaphragms comprising a plurality of sections or layers
- H04R7/10—Plane diaphragms comprising a plurality of sections or layers comprising superposed layers in contact
Definitions
- This technology relates to a technical field of an acoustic conversion device that transmits vibrations of a vibration part in an armature to a diaphragm by a transmission beam and an audio output device including the acoustic conversion device.
- an acoustic conversion device that functions as a small speaker having a vibrator called an armature that is incorporated in various audio output devices such as headphones, earphones, and hearing aids.
- a drive unit having an armature and a diaphragm unit having a diaphragm are housed in a housing case, and when the vibrating portion of the armature vibrates, vibration is transmitted to the diaphragm by the transmission beam, A sound corresponding to the vibration of the diaphragm is output (for example, see Patent Documents 1 to 4).
- a resin film is attached to a holding frame, a diaphragm is attached to the resin film, and one end portion of the diaphragm is held by an adhesive. It is fixed to.
- a beam portion transmission beam
- the distal end portion of the beam portion is fixed to the distal end portion of the vibrating portion in the armature by an adhesive.
- the vibration of the vibration part is transmitted from the transmission beam to the vibration plate, the vibration plate vibrates, and sound corresponding to the vibration of the vibration plate is output.
- the diaphragm since one end of the diaphragm is fixed to the holding frame by an adhesive, the diaphragm vibrates in a cantilever state with the bonded portion as a fulcrum. In this way, by vibrating using the portion to which the diaphragm is bonded as a fulcrum, variation in sound pressure, particularly in a high frequency region, is suppressed, and stable sound pressure can be obtained.
- the acoustic conversion device since the acoustic conversion device is used not only in the high frequency region but also in the low frequency region, it is desirable to improve the acoustic characteristics in the low frequency region.
- the holding frame etc. It is necessary to increase the size of the other members, which may increase the size of the acoustic conversion device and the sound output device including the same.
- the acoustic transducer includes a yoke formed of a magnetic material, a magnet attached to the yoke, a coil to which a driving current is supplied, and vibration when the driving current is supplied to the coil.
- a driving unit having an armature provided with a vibrating portion, a holding frame having an opening, a film attached to the holding frame in a state of covering the opening, and a state of the holding frame in a state of being attached to the film
- a diaphragm unit having a diaphragm held on the inside and a transmission beam for transmitting the vibration of the vibration part to the diaphragm, the entire circumference of the outer periphery of the diaphragm being the entire circumference of the inner periphery of the holding frame It is separated from.
- the diaphragm is held by the film inside the inner periphery of the holding frame, and when the vibration is transmitted from the transmission beam to the diaphragm, the diaphragm is easily translated in the thickness direction.
- the distance between the entire circumference of the outer periphery of the diaphragm and the entire circumference of the inner periphery of the holding frame be constant.
- the inner periphery of the corner portion of the holding frame is formed in a curved shape.
- the outer periphery of the corner portion of the diaphragm is formed in a curved shape.
- the transmission beam be formed by being bent from the diaphragm.
- the transmission beam and the diaphragm are integrally formed.
- the transmission beam has a base portion that is continuous with the diaphragm and a connecting portion that is continuous with the base portion and is connected to the vibrating portion, and the width of the base portion is the connecting portion. It is desirable to make it larger than the width of the part.
- the width of the base portion and the width of the connecting portion are made constant.
- reinforcing ribs be formed on the diaphragm.
- This increases the strength of the transmission beam and suppresses the deflection of the transmission beam during vibration.
- the sound output device has a case body and a cover body for housing the drive unit and the diaphragm unit, and outputs sound generated when vibration is transmitted to the diaphragm. It is desirable to provide a storage unit in which holes are formed.
- voice output apparatus which concerns on this technique is equipped with the 1st acoustic converter and the 2nd acoustic converter, and both the said 1st acoustic converter and the said 2nd acoustic converter are a magnet
- the drive unit having a coil to which a drive current is supplied and an armature provided with a vibrating part that vibrates when the drive current is supplied to the coil, a holding frame having an opening, and the holding in a state of covering the opening
- a diaphragm unit having a film affixed to a frame, a diaphragm held inside the holding frame in a state affixed to the film, and a transmission beam that transmits vibrations of the vibration part to the diaphragm
- the first acoustic converter is separated from the entire circumference of the inner periphery of the holding frame, and the second acoustic converter has one end of the diaphragm held by the holder. Inside the frame Those fixed to the section
- the diaphragm is held by the film inside the inner periphery of the holding frame, and the diaphragm is easily translated in the thickness direction when vibration is transmitted from the transmission beam to the diaphragm.
- said transmission beam is formed by bending from said diaphragm, and said 1st acoustic converter It is desirable that the width of the bent portion from the diaphragm of the transmission beam in the conversion device be larger than the width of the bent portion from the diaphragm of the transmission beam in the second acoustic conversion device.
- the transmission beam of the first acoustic transducer and the transmission beam of the second acoustic transducer are formed with suitable strengths in the low frequency region and the high frequency region, respectively.
- the thickness of the diaphragm in the first acoustic transducer is larger than the thickness of the diaphragm in the second acoustic transducer.
- the diaphragm of the first acoustic transducer and the diaphragm of the second acoustic transducer are formed with suitable strengths in the low frequency region and the high frequency region, respectively.
- the diaphragm is held by the film inside the inner periphery of the holding frame, and the diaphragm is easily translated in the thickness direction when vibration is transmitted from the transmission beam to the diaphragm. Therefore, the acoustic characteristics can be improved without increasing the manufacturing cost and increasing the size.
- FIG. 18 show an embodiment of an acoustic conversion device and an audio output device of the present technology
- this drawing is an exploded perspective view of the acoustic conversion device.
- It is an expansion perspective view of an acoustic converter.
- It is an expanded sectional view of an acoustic converter.
- It is an enlarged front view which shows the state with which the drive unit and the diaphragm unit were couple
- It is an enlarged plan view of a diaphragm unit.
- It is an expansion perspective view of a diaphragm and a transmission beam.
- the acoustic conversion device 1 includes a drive unit 2, a diaphragm unit 3, and a storage unit 4 (see FIGS. 1 to 3).
- the acoustic conversion device 1 is used by being incorporated in various audio output devices such as a headphone, an earphone, and a hearing aid, for example.
- the drive unit 2 has a yoke 5, a pair of magnets 6 and 6, a coil 7, connection terminals 8 and 8, and an armature 9 (see FIGS. 1 and 3).
- the yoke 5 is made of a magnetic material, and is formed by combining a flat plate-like first member 10 facing upward and downward and a U-shaped second member 11 opened upward.
- the second member 11 includes a bottom surface portion 11a facing in the vertical direction and side surface portions 11b and 11b protruding upward from the left and right end portions of the bottom surface portion 11a.
- the left and right side surfaces of the first member 10 are attached to the inner surfaces of the side surface portions 11b and 11b of the second member 11 by, for example, welding or adhesion.
- the yoke 5 is formed in a rectangular tube shape that is penetrated forward and backward by combining the first member 10 and the second member 11.
- the magnets 6 and 6 are arranged in a state of being opposed to each other in the vertical direction, and the poles on the opposite sides are different poles.
- the upper magnet 6 is attached to the lower surface of the first member 10, and the lower magnet 6 is attached to the upper surface of the bottom surface portion 11a of the second member 11 (see FIG. 4).
- the coil 7 is wound around a coil bobbin 12 (see FIGS. 1 and 3).
- the coil bobbin 12 has a coil winding portion 13 that is open at the top and bottom and penetrates back and forth, and a terminal holding portion 14 that protrudes rearward from the upper end portion of the rear surface of the coil winding portion 13.
- the front end portion of the coil winding portion 13 is provided with receiving protrusions 13a and 13a protruding left and right.
- the coil 7 is wound around the coil winding portion 13 in a state where the axial direction is the front-rear direction.
- connection terminals 8 and 8 are held on the terminal holding part 14 of the coil bobbin 12 in a state of being arranged side by side.
- the connection terminal 8 includes an embedded portion 8a embedded and held in the terminal holding portion 14, a coil connection portion 8b protruding laterally from the embedded portion 8a, and a terminal portion 8c protruding backward from the embedded portion 8a.
- the coil connection portion 8 b protrudes laterally from the side surface of the terminal holding portion 14, and the terminal portion 8 c protrudes rearward from the rear surface of the terminal holding portion 14.
- Both ends of the coil 7 are connected to the coil connection portions 8b and 8b of the connection terminals 8 and 8, respectively.
- the terminal portions 8c and 8c are connected to an input signal source (not shown). Accordingly, an input signal is supplied to the coil 7 from the input signal source via the connection terminals 8 and 8.
- the armature 9 is formed by integrally forming each part with a magnetic metal material.
- the armature 9 is protruded forward from the left and right ends of the base portion 15, the base portion 15 formed in a horizontally long shape facing the vertical direction, the vibrating portion 16 protruding forward from the center portion in the left-right direction of the base portion 15, respectively.
- the fixed parts 17 and 17 are integrally formed.
- the vibration part 16 is formed in a plate shape facing in the vertical direction, and the fixed parts 17 and 17 are formed in a plate shape facing in the left-right direction.
- the upper surfaces of the fixed portions 17 and 17 are formed as fixing surfaces 17a and 17a, respectively.
- the coil bobbin 12 is attached to the armature 9 by bonding the coil 7 to the inner surfaces of the fixed parts 17 and 17 (see FIGS. 3 and 5).
- the vibrating part 16 is penetrated through the coil winding part 13 of the coil bobbin 12 and a part protrudes forward from the coil 7 (see FIG. 3).
- the intermediate parts of the fixed parts 17 and 17 are respectively placed on the receiving protrusions 13a and 13a of the coil bobbin 12, and the armature 9 is positioned with respect to the coil bobbin 12 (see FIG. 5).
- the fixed parts 17 and 17 to which the coil 7 is attached and the vibrating part 16 that penetrates the coil bobbin 12 are both provided in the armature 9. Therefore, the position of the vibration part 16 with respect to the coil bobbin 12 and the coil 7 can be ensured with high accuracy, and the position accuracy of the vibration part 16 with respect to the coil bobbin 12 and the coil 7 can be improved.
- the armature 9 is fixed to the outer surfaces of the side surfaces 11b and 11b of the yoke 5 by adhesion, welding, or the like (see FIGS. 4 and 6). .
- the diaphragm unit 3 includes a holding frame 18, a film 19, a diaphragm 20, and a transmission beam 21 (see FIGS. 1 and 3).
- a film 19 for example, a resin film or a paper film is used.
- the holding frame 18 is formed in a substantially rectangular frame shape whose length in the front-rear direction is longer than the length in the left-right direction with a metal material, and the width in the left-right direction is substantially the same as the width in the left-right direction of the armature 9. ing.
- the holding frame 18 has a lower surface as a first bonding surface 18a and an upper surface as a second bonding surface 18b.
- the film 19 has the same size as the outer shape of the holding frame 18, and is adhered to the second joint surface 18b of the holding frame 18 by adhesion or the like so as to close the opening 18c of the holding frame 18 (FIG. 3). reference).
- the holding frame 18 is formed in a rounded shape in which the four corner portions 22, 22, 23, 23 are not angular (see FIG. 7).
- the outer peripheries 22a and 22a of the front corners 22 and 22 and the outer peripheries 23a and 23a of the rear corners 23 and 23 are formed in an arc shape having the same curvature.
- the inner peripheries 22b, 22b of the front corners 22, 22 are formed in an arc shape having a larger curvature than the outer peripheries 22a, 22a, and the inner peripheries 23b, 23b of the rear corners 23, 23 are outer peripheries 23a, It is formed in an arc shape having a larger curvature than 23a.
- the diaphragm 20 is formed in a substantially rectangular shape whose outer shape is slightly smaller than the inner shape of the holding frame 18. The vibration generated in the vibrating portion 16 of the armature 9 is transmitted to the diaphragm 20 via the transmission beam 21.
- the diaphragm 20 is made of a thin metal material such as aluminum or stainless steel.
- the diaphragm 20 has a thickness T (see FIG. 3) of, for example, about 50 ⁇ m, and a width L (see FIG. 7) in the left-right direction of, for example, about 2.3 mm.
- the weight can be reduced by forming the diaphragm 20 from aluminum.
- the diaphragm 20 is made of stainless steel, the strength can be increased and the transmission efficiency of vibration from the vibrating portion 16 to the diaphragm 20 can be improved.
- the vibration plate 20 is provided with reinforcing ribs 20a, 20a, 20a that extend in the front-rear direction and are separated from each other in the left-right direction, and the reinforcing ribs 20a, 20a, 20a are formed in a shape that is punched upward or downward (see FIG. 8).
- the diaphragm 20 is, for example, in a state of being attached to the film 19 from below (see FIG. 3).
- the diaphragm 20 has four corners 24, 24, 25, and 25 that are not angular and rounded (see FIG. 7).
- the outer peripheries 24a and 24a of the front corners 24 and 24 are each formed in an arc shape having a larger curvature than the inner peripheries 22b and 22b of the front corners 22 and 22 of the holding frame 18, and the arcs of the outer peripheries 24a and 24a.
- the center and the center of the arcs of the inner circumferences 22b and 22b are respectively matched.
- outer peripheries 25a and 25a of the rear corners 25 and 25 are each formed in an arc shape having a larger curvature than the inner peripheries 23b and 23b of the rear corners 23 and 23 of the holding frame 18, and the outer peripheries 25a and 25a, The center of the arc of 25a and the center of the arc of the inner circumferences 23b and 23b are respectively matched.
- the outer shape of the diaphragm 20 is made slightly smaller than the inner shape of the holding frame 18, and the center of the arcs of the outer peripheries 24a and 24a and the center of the arc of the inner peripheries 22b and 22b are formed.
- the centers of the arcs of the outer peripheries 25a and 25a and the centers of the arcs of the inner peripheries 23b and 23b are respectively matched.
- the distance M between the inner shape of the holding frame 18 and the outer shape of the diaphragm 20 is set to a constant size in a portion excluding a part of the entire circumference.
- the transmission beam 21 is formed by being bent from the diaphragm 20, and the bent portion is positioned on the inner side of the other part of the outer periphery of the diaphragm 20.
- a distance M1 from the inner periphery of the plate 20 is set larger than a distance M2 between the unbent portion and the inner periphery of the diaphragm 20.
- the distance M1 may be the same as the distance M2, and the distance M may be the same over the entire circumference.
- the transmission beam 21 is formed integrally with the diaphragm 20, and is formed, for example, by being bent downward from the diaphragm 20 (see FIG. 8).
- the transmission beam 21 is formed by bending downward from the central portion of the front edge of the diaphragm 20 in the left-right direction.
- a bent portion 21 a where the transmission beam 21 is bent from the diaphragm 20 is located on the inner side of the other portion of the outer periphery of the diaphragm 20.
- the width H in the left-right direction of the bent portion 21a is, for example, about 1.1 mm.
- the transmission beam 21 may be formed separately from the diaphragm 20 and attached to the diaphragm 20 by adhesion or welding. However, when the transmission beam 21 is formed separately from the diaphragm 20, it is desirable that the transmission beam 21 be attached to the diaphragm 20 by welding in order to improve strength.
- the transmission beam 21 may be formed of, for example, a round shaft-like metal column having a diameter of about 1 mm.
- the transmission beam 21 is formed in a plate shape facing in the front-rear direction, and includes a base portion 26 continuous with the diaphragm 20 and a connecting portion 27 continuous with the lower end of the base portion 26.
- the width of the base portion 26 in the left-right direction is constant, and the side edges 26a, 26a are formed in a straight line extending vertically.
- the connecting portion 27 has a constant width in the left-right direction, and the width in the left-right direction is smaller than the width of the base portion 26 in the left-right direction.
- the connecting portion 27 is formed in a linear shape with side edges 27 a and 27 a extending vertically, and the side edges 27 a and 27 a are positioned inside the side edges 26 a and 26 a of the base portion 26, respectively.
- the transmission beam 21 is formed with ribs 21b extending from the lower end to the substantially central portion of the base 26 in the vertical direction.
- the rib 21b is formed in a shape that is projected forward or backward.
- the acoustic transducer 1 has the base 26 that the transmission beam 21 continues to the diaphragm 20 and the connecting portion 27 that continues to the base 26 and is connected to the vibration part 16.
- the width is larger than the width of the connecting portion 27.
- the width of the continuous portion (bent portion 21a) of the transmission beam 21 with the diaphragm 20 is increased, the strength of the transmission beam 21 is increased, and the transmission efficiency of vibration from the vibration section 16 to the diaphragm 20 is improved. Can be achieved.
- the base portion 26 and the width of the connecting portion 27 are made constant, the base portion 26 and the connecting portion 27 have the same strength regardless of the position in the continuous direction (vertical direction) of both, and the vibrating portion The transmission efficiency of vibration from 16 to the diaphragm 20 can be further improved.
- the reinforcing ribs 20a, 20a, and 20a are formed on the diaphragm 20, the strength of the diaphragm 20 is increased, the bending of the diaphragm 20 is suppressed during vibration, and the diaphragm 20 is displaced in the thickness direction. It becomes easy to translate, and the favorable vibration state of the diaphragm 20 can be ensured.
- the rib 21b is formed on the transmission beam 21, the strength of the transmission beam 21 is increased, and the bending of the transmission beam 21 is suppressed during vibration, and the transmission efficiency of vibration from the vibrating portion 16 to the diaphragm 20 is improved. Further improvement can be achieved.
- the diaphragm unit 3 is fixed to the drive unit 2 from above by, for example, adhesion or laser welding (see FIGS. 3 and 9).
- the diaphragm unit 3 is fixed by joining the first joint surface 18 a of the holding frame 18 to the fixed surfaces 17 a and 17 a formed on the fixed portions 17 and 17 of the armature 9.
- the transmission beam 21 is formed by being bent from the vibration plate 20, the transmission beam 21 and the vibration plate 20 are integrally formed, and only the lower end portion of the transmission beam 21 is fixed to the vibration unit 16.
- the diaphragm 20 and the armature 9 are connected via the transmission beam 21, and the working efficiency in the connecting work of the diaphragm 20, the transmission beam 21 and the armature 9 can be improved.
- the transmission beam 21 is formed by being bent from the diaphragm 20, the transmission beam 21 and the diaphragm 20 are integrally formed, and the lower end portion of the transmission beam 21 is fixed to the vibration unit 16 of the armature 9.
- the upper end of the transmission beam 21 is fixed to the vibration unit 16 of the armature 9.
- the transmission beam 21 and the diaphragm 20 are integrally formed, it is possible to reduce the number of parts in the acoustic conversion device 1 and to improve the transmission efficiency of vibration from the vibration unit 16 to the diaphragm 20. Can be planned.
- the storage unit 4 includes a box-shaped case body 29 opened upward and a shallow box-shaped cover body 30 opened downward (see FIGS. 1 to 3).
- the case body 29 is formed with an insertion notch 31 a opened upward at the upper end portion of the rear surface portion 31.
- the cover body 30 is formed with an audio output hole 30a.
- the sound output hole may be formed in the case body 29.
- the first joint surface 18 a of the holding frame 18 is joined to the fixed surfaces 17 a and 17 a of the armature 9, and the lower end portion of the transmission beam 21 is the vibration portion in the armature 9.
- the front end portions of the 16 are joined together by an adhesive 28.
- the drive unit 2 and the diaphragm unit 3 coupled in this way are accommodated in the case body 29 from above (see FIG. 10).
- the diaphragm unit 3 housed in the case body 29 is positioned by placing the front and rear end portions of the holding frame 18 on the placement step surfaces 29a, 29a, 29a of the case body 29 (see FIG. 3). At this time, a predetermined gap is formed between the lower surface of the drive unit 2 and the upper surface of the bottom surface portion of the case body 29.
- the second joint surface 18 b of the holding frame 18 is positioned on the lower side just inside the upper end surface 29 b of the case body 29 ( FIG. 11). At this time, a gap S is formed between the outer surface 18 d of the holding frame 18 and the inner surface 29 c of the case body 29.
- the cover body 30 is placed on the outer peripheral portion of the upper surface 19a of the film 19 (see FIG. 12).
- the first sealing agent 33 is loaded on the outer surface side of the cover body 30 (see FIG. 13).
- the first sealing agent 33 also has an adhesive action.
- the first sealing agent 33 enters between the outer surface 18d of the holding frame 18 and the inner surface 29c of the case body 29 and between the outer surface 30b of the cover body 30 and the inner surface 29c of the case body 29, and the gap S is sealed. And the cover body 30 is fixed to the case body 29.
- a second sealant (adhesive) 34 is applied to the gap between the opening edge of the insertion notch 31a in the case body 29 and the connection terminals 8 and 8 to perform sealing and adhesion (FIG. 3). reference).
- the drive unit 2 and the diaphragm unit 3 are stored in the storage unit 4 that includes the case body 29 and the cover body 30 and in which the audio output hole 30a is formed. Therefore, the drive unit 2 and the diaphragm unit 3 are protected by the storage unit 4, and damage and breakage of the drive unit 2 and the diaphragm unit 3 can be prevented.
- the vibrating portion 16 of the armature 9 positioned between the pair of magnets 6 and 6 is magnetized, and the polarity of the vibrating portion 16 is set to the magnets 6 and 6. It is repeatedly changed at the opposing position.
- the polarity is repeatedly changed, a minute vibration is generated in the vibration portion 16, the generated vibration is transmitted from the transmission beam 21 to the diaphragm 20, and the transmitted vibration is amplified and converted into sound by the diaphragm 20.
- the sound is output from the sound output hole 30 a of the cover body 30.
- the diaphragm 20 it is necessary to ensure a good vibration state of the diaphragm 20 in order to improve the acoustic characteristics by suppressing the variation of the sound pressure in the frequency range of the output sound.
- the acoustic conversion device 1 is configured such that a distance M is formed between the entire circumference of the outer periphery of the diaphragm 20 and the entire circumference of the inner periphery of the holding frame 18 as described above.
- the diaphragm 20 is held by the film 19 inside the inner periphery of the holding frame 18, and when the vibration is transmitted from the vibrating portion 16 to the diaphragm 20 via the transmission beam 21, the diaphragm 20 translates in the thickness direction. Exercised (see FIG. 14).
- the amplitude of the drive unit 16 is increased. It is possible to translate the diaphragm 20 without causing the diaphragm 20 to increase in area.
- FIG. 15 is a graph showing the frequency (Hz) on the horizontal axis and the sensitivity (dB) on the vertical axis.
- A shows the frequency characteristic of the acoustic transducer 1 in which the distance M is formed around the entire circumference between the diaphragm 20 and the holding frame 18, and B shows one end (rear end) of the diaphragm as the holding frame.
- the frequency characteristics of an acoustic transducer (acoustic transducer 1A described later) in which the diaphragm is displaced in a cantilevered state with one end serving as a fulcrum are shown.
- the sensitivity of the acoustic transducer 1 is higher than that of the conventional acoustic transducer in a frequency region of about 2000 Hz or less.
- the acoustic conversion device 1 has higher sensitivity in the low frequency region and improved acoustic characteristics.
- the diaphragm 20 can be more easily translated and a good vibration state of the diaphragm 20 can be secured.
- the corner portions 24a, 24a, 25a, 25a in the corner portions 24, 24, 25, 25 of the diaphragm 20 are also formed in a curved shape, the corner portions of the diaphragm 20 when the diaphragm 20 vibrates. Stress concentration does not occur in 24, 24, 25, 25, and a better vibration state of the diaphragm 20 can be ensured.
- the high-frequency acoustic conversion device 1A capable of ensuring high acoustic characteristics in the high frequency region is incorporated in the audio output device 100 such as a headphone, an earphone, or a hearing aid. (See FIG. 16).
- the acoustic transducer 1 is used as a first acoustic transducer, and the acoustic transducer 1A is used as a second acoustic transducer.
- the acoustic conversion device 1A may be used as a device corresponding to the full range.
- the acoustic converter 1A includes, for example, a drive unit 2, a diaphragm unit 3A, and a storage unit 4, and includes a diaphragm unit 3A that is partially different from the diaphragm unit 3 of the acoustic converter 1 ( FIG. 17 and FIG. 18). Since the acoustic conversion device 1A is different from the diaphragm unit 3A only in a part of the configuration of the diaphragm unit 3A, the following description of the acoustic conversion device 1A will be described in detail only about the different configuration.
- the diaphragm unit 3A includes a holding frame 18, a film 19, a diaphragm 20A, and a transmission beam 21A.
- the diaphragm 20A has the same width in the left-right direction as the diaphragm 20, but has a longer length in the front-rear direction and a smaller thickness TA.
- the diaphragm 20 has a thickness TA of about 30 ⁇ m, for example, and is thinner than the thickness T of the diaphragm 20.
- the rear end portion of the diaphragm 20A is fixed to the inner peripheral portion of the holding frame 18 by a fixing adhesive 35.
- the transmission beam 21A is formed integrally with the diaphragm 20A, and is formed, for example, by being bent downward from the diaphragm 20A.
- the width HA in the left-right direction of the bent portion 21a bent from the diaphragm 20A of the transmission beam 21A is, for example, about 0.7 mm, and is smaller than the width H of the bent portion 21a in the transmission beam 21.
- the transmission beam 21A may be formed of, for example, a round shaft-like metal column.
- the acoustic conversion device 1A when a current is supplied to the coil 7 and the vibration unit 16 vibrates, the vibration of the vibration unit 16 is transmitted from the transmission beam 21A to the vibration plate 20A, and the vibration plate 20A vibrates, and the vibration of the vibration plate 20A. The sound corresponding to is output.
- the diaphragm 20A since one end of the diaphragm 20A is fixed to the inner peripheral portion of the holding frame 18, the diaphragm 20A vibrates in a cantilever state with the bonded portion as a fulcrum. In this way, by vibrating using the portion to which the diaphragm 20A is bonded as a fulcrum, variation in sound pressure particularly in a high frequency region is suppressed, and a stable sound pressure can be obtained.
- the acoustic transducer 1 having the diaphragm 20 whose entire circumference on the outer periphery is separated from the entire circumference on the inner circumference of the holding frame 18 and the acoustic having the diaphragm 20A having one end fixed to the inner circumference of the holding frame 18.
- the conversion device 1A it is possible to improve the acoustic characteristics without increasing the manufacturing cost and increasing the size in the entire output region of the low frequency region and the high frequency region.
- the width H of the bent portion 21a of the transmission beam 21 in the acoustic transducer 1 is larger than the width HA of the bent portion 21A of the transmission beam 21A in the acoustic transducer 1A, the strength of the transmission beam 21 is increased. It becomes higher than the strength of 21A.
- the transmission beam 21 and the transmission beam 21A are formed with appropriate strengths in the low-frequency region and the high-frequency region, respectively, and the acoustic characteristics in all regions of the low-frequency region and the high-frequency region are output. be able to.
- the thickness T of the diaphragm 20 in the acoustic conversion device 1 is larger than the thickness TA of the diaphragm 20A in the acoustic conversion device 1A, the strength of the diaphragm 20 is higher than the strength of the diaphragm 20A.
- the diaphragm 20 and the diaphragm 20A are formed with appropriate strengths in the low frequency region and the high frequency region, respectively, and further improvement of the acoustic characteristics in the entire output region of the low frequency region and the high frequency region is achieved. Can be planned.
- the acoustic conversion device 1A differs from the diaphragm unit 3 only in a part of the configuration of the diaphragm unit 3A. It is possible to share parts other than the diaphragm units 3 and 3A with respect to the device 1 and the acoustic conversion device 1A.
- the design of the audio output device 100 can be facilitated and the manufacturing cost can be reduced.
- a low-pass filter in the acoustic conversion device 1 and incorporating a high-pass filter in the acoustic conversion device 1A, it is possible to suppress the overlap of high and low sounds and to achieve good acoustics in each of the low frequency region and the high frequency region. It is also possible to ensure the characteristics.
- the present technology can be configured as follows.
- a drive unit having a yoke formed of a magnetic material, a magnet attached to the yoke, a coil to which a drive current is supplied, and an armature provided with a vibrating portion that vibrates when the drive current is supplied to the coil
- a holding frame having an opening; a film attached to the holding frame in a state of covering the opening; a vibration plate held inside the holding frame in a state of being attached to the film
- a diaphragm unit having a transmission beam for transmitting to the diaphragm, An acoustic conversion device in which an entire circumference of the outer periphery of the diaphragm is separated from an entire circumference of the inner periphery of the holding frame.
- the transmission beam has a base part that is continuous with the diaphragm and a connecting part that is continuous with the base part and connected to the vibration part,
- the acoustic conversion device according to any one of (1) to (5), wherein a width of the base portion is larger than a width of the connecting portion.
- a housing unit having a case body and a cover body for housing the drive unit and the diaphragm unit, and having an audio output hole for outputting sound generated when vibration is transmitted to the diaphragm;
- the acoustic conversion device according to any one of (1) to (9).
- a first acoustic transducer and a second acoustic transducer Each of the first acoustic transducer and the second acoustic transducer is an armature provided with a magnet, a coil to which a drive current is supplied, and a vibrating portion that vibrates when the drive current is supplied to the coil.
- a drive unit having an opening, a holding frame having an opening, a film attached to the holding frame in a state of covering the opening, and a diaphragm held inside the holding frame in a state of being attached to the film
- a vibration plate unit having a transmission beam for transmitting vibration of the vibration portion to the vibration plate;
- the second acoustic conversion device is an audio output device in which one end portion of the diaphragm is fixed to an inner peripheral portion of the holding frame.
- the transmission beam is formed by being bent from the diaphragm,
- the width of the bent portion from the diaphragm of the transmission beam in the first acoustic transducer is larger than the width of the bent portion from the diaphragm of the transmission beam in the second acoustic transducer.
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- Acoustics & Sound (AREA)
- Signal Processing (AREA)
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- Electromagnetism (AREA)
- Electrostatic, Electromagnetic, Magneto- Strictive, And Variable-Resistance Transducers (AREA)
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Abstract
Description
音響変換装置1は駆動ユニット2と振動板ユニット3と収納ユニット4から成る(図1乃至図3参照)。音響変換装置1は、例えば、ヘッドホーンやイヤホーンや補聴器等の各種の音声出力機器に組み込まれて用いられる。
音響変換装置1にあっては、コイル7に電流が供給されると、一対のマグネット6、6間に位置するアーマチュア9の振動部16が磁化され、振動部16の極性がマグネット6、6に対向する位置において繰り返し変化される。極性が繰り返し変化されることにより振動部16に微少な振動が発生し、発生した振動が伝達梁21から振動板20に伝達され、伝達された振動が振動板20において増幅されて音声に変換されカバー体30の音声出力孔30aから出力される。
図15に示すように、音響変換装置1においては、高周波数領域において十分な感度が確保されないおそれがある。
本技術は、以下のような構成にすることができる。
磁性材料によって形成されたヨークと前記ヨークに取り付けられたマグネットと駆動電流が供給されるコイルと前記コイルに前記駆動電流が供給されたときに振動する振動部が設けられたアーマチュアとを有する駆動ユニットと、
開口を有する保持枠と前記開口を覆う状態で前記保持枠に貼り付けられたフィルムと前記フィルムに貼り付けられた状態で前記保持枠の内側に保持された振動板と前記振動部の振動を前記振動板に伝達する伝達梁とを有する振動板ユニットとを備え、
前記振動板の外周における全周が前記保持枠の内周における全周から離隔された
音響変換装置。
前記振動板の外周における全周と前記保持枠の内周における全周との間の距離が一定にされた
前記(1)に記載の音響変換装置。
前記保持枠の隅角部における内周が曲線状に形成された
前記(1)又は前記(2)に記載の音響変換装置。
前記振動板の隅角部における外周が曲線状に形成された
前記(1)から前記(3)の何れかに記載の音響変換装置。
前記伝達梁が前記振動板から折り曲げられて形成された
前記(1)から前記(4)の何れかに記載の音響変換装置。
前記伝達梁が前記振動板に連続する基部と前記基部に連続し前記振動部に連結される連結部とを有し、
前記基部の幅が前記連結部の幅より大きくされた
前記(1)から前記(5)の何れかに記載の音響変換装置。
前記基部の幅と前記連結部の幅とがそれぞれ一定にされた
前記(6)に記載の音響変換装置。
前記振動板に補強リブが形成された
前記(1)から前記(7)の何れかに記載の音響変換装置。
前記伝達梁にリブが形成された
前記(1)から前記(8)の何れかに記載の音響変換装置。
前記駆動ユニットと前記振動板ユニットを収納するケース体とカバー体を有し前記振動板に振動が伝達されたときに発生する音声を出力する音声出力孔が形成された収納ユニットを備えた
前記(1)から前記(9)の何れかに記載の音響変換装置。
第1の音響変換装置と第2の音響変換装置を備え、
前記第1の音響変換装置と前記第2の音響変換装置は何れも、マグネットと駆動電流が供給されるコイルと前記コイルに前記駆動電流が供給されたときに振動する振動部が設けられたアーマチュアとを有する駆動ユニットと、開口を有する保持枠と前記開口を覆う状態で前記保持枠に貼り付けられたフィルムと前記フィルムに貼り付けられた状態で前記保持枠の内側に保持された振動板と前記振動部の振動を前記振動板に伝達する伝達梁とを有する振動板ユニットとを備え、
前記第1の音響変換装置は前記振動板の外周における全周が前記保持枠の内周における全周から離隔され、
前記第2の音響変換装置は前記振動板の一端部が前記保持枠の内周部に固定された
音声出力機器。
前記第1の音響変換装置と前記第2の音響変換装置において何れも、前記伝達梁が前記振動板から折り曲げられて形成され、
前記第1の音響変換装置における前記伝達梁の前記振動板からの折曲部分の幅が、前記第2の音響変換装置における前記伝達梁の前記振動板からの折曲部分の幅より大きくされた
前記(11)に記載の音響変換装置。
前記第1の音響変換装置における前記振動板の厚みが前記第2の音響変換装置における前記振動板の厚みより厚くされた
前記(11)又は前記(12)に記載の音響変換装置。
Claims (13)
- マグネットと駆動電流が供給されるコイルと前記コイルに前記駆動電流が供給されたときに振動する振動部が設けられたアーマチュアとを有する駆動ユニットと、
開口を有する保持枠と前記開口を覆う状態で前記保持枠に貼り付けられたフィルムと前記フィルムに貼り付けられた状態で前記保持枠の内側に保持された振動板と前記振動部の振動を前記振動板に伝達する伝達梁とを有する振動板ユニットとを備え、
前記振動板の外周における全周が前記保持枠の内周における全周から離隔された
音響変換装置。 - 前記振動板の外周における全周と前記保持枠の内周における全周との間の距離が前記全周において一定にされた
請求項1に記載の音響変換装置。 - 前記保持枠の隅角部における内周が曲線状に形成された
請求項1に記載の音響変換装置。 - 前記振動板の隅角部における外周が曲線状に形成された
請求項1に記載の音響変換装置。 - 前記伝達梁が前記振動板から折り曲げられて形成された
請求項1に記載の音響変換装置。 - 前記伝達梁が前記振動板に連続する基部と前記基部に連続し前記振動部に連結される連結部とを有し、
前記基部の幅が前記連結部の幅より大きくされた
請求項1に記載の音響変換装置。 - 前記基部の幅と前記連結部の幅とがそれぞれ一定にされた
請求項6に記載の音響変換装置。 - 前記振動板に補強リブが形成された
請求項1に記載の音響変換装置。 - 前記伝達梁にリブが形成された
請求項1に記載の音響変換装置。 - 前記駆動ユニットと前記振動板ユニットを収納するケース体とカバー体を有し前記振動板に振動が伝達されたときに発生する音声を出力する音声出力孔が形成された収納ユニットを備えた
請求項1に記載の音響変換装置。 - 第1の音響変換装置と第2の音響変換装置を備え、
前記第1の音響変換装置と前記第2の音響変換装置は何れも、マグネットと駆動電流が供給されるコイルと前記コイルに前記駆動電流が供給されたときに振動する振動部が設けられたアーマチュアとを有する駆動ユニットと、開口を有する保持枠と前記開口を覆う状態で前記保持枠に貼り付けられたフィルムと前記フィルムに貼り付けられた状態で前記保持枠の内側に保持された振動板と前記振動部の振動を前記振動板に伝達する伝達梁とを有する振動板ユニットとを備え、
前記第1の音響変換装置は前記振動板の外周における全周が前記保持枠の内周における全周から離隔され、
前記第2の音響変換装置は前記振動板の一端部が前記保持枠の内周部に固定された
音声出力機器。 - 前記第1の音響変換装置と前記第2の音響変換装置において何れも、前記伝達梁が前記振動板から折り曲げられて形成され、
前記第1の音響変換装置における前記伝達梁の前記振動板からの折曲部分の幅が、前記第2の音響変換装置における前記伝達梁の前記振動板からの折曲部分の幅より大きくされた
請求項11に記載の音声出力機器。 - 前記第1の音響変換装置における前記振動板の厚みが前記第2の音響変換装置における前記振動板の厚みより厚くされた
請求項11に記載の音声出力機器。
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US15/743,935 US10587959B2 (en) | 2015-07-29 | 2016-06-10 | Acoustic conversion apparatus and sound output equipment |
CN201680042836.5A CN107852553A (zh) | 2015-07-29 | 2016-06-10 | 声音转换装置以及声音输出装备 |
JP2017531073A JP6717306B2 (ja) | 2015-07-29 | 2016-06-10 | 音声出力機器 |
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US10587959B2 (en) | 2020-03-10 |
JP6717306B2 (ja) | 2020-07-01 |
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