JP4567484B2 - Electroacoustic transducer - Google Patents

Description

  The present invention relates to a so-called electrodynamic electroacoustic transducer.

  In general, an electrodynamic electroacoustic transducer such as an electrodynamic speaker includes a diaphragm, a voice coil fixed to the lower surface of the diaphragm, and an outside of the diaphragm, as described in, for example, “Patent Document 1”. The frame includes a frame that fixes and supports the peripheral edge.

  In that case, “Patent Document 2” describes a small electroacoustic conversion in which a large number of narrow grooves extending to the fixing portion with the voice coil are formed in the sub dome portion positioned on the outer peripheral side of the fixing portion with the voice coil in the diaphragm. The vessel is described.

JP 2002-152885 A JP-A-8-140183

  A small electroacoustic transducer is often mounted on an external device such as a cellular phone. However, if the outer shape of the small electroacoustic transducer is set to a substantially rectangular shape, the mountability on the external device can be improved.

  In the case of adopting such a configuration, if an attempt is made to increase the size of the diaphragm in order to enhance the acoustic characteristics, the outer shape of the diaphragm and the winding shape of the voice coil are also set to be substantially rectangular. At that time, it is preferable to electrically fix the coil end of the voice coil to the terminal member between the short side portion of the voice coil and the outer peripheral edge of the diaphragm in order to maintain the electroacoustic transducer in an elongated shape.

  However, in this case, the rigidity of the vicinity of the fixed portion with the short side portion of the voice coil in the diaphragm is greatly reduced compared to the vicinity of the fixed portion with the long side portion. There is a problem that it becomes difficult to secure required vibration characteristics and the reproduction band is narrowed. In addition, when the outer shape of the diaphragm is set to a substantially rectangular shape in this way, it is difficult to sufficiently secure the volume of the back pressure space on the inner peripheral side of the voice coil, so it is difficult to sufficiently increase the sound pressure. There is also the problem of becoming. Further, in general, an electrodynamic electroacoustic transducer is provided with a magnetic circuit unit having a magnetic gap for accommodating the lower end portion of the voice coil. The gap between the magnetic circuit unit and the voice coil has a magnetic efficiency. Since it is set narrowly from the surface, there is a problem that a large pressure is generated when air travels between the inner space and the outer space of the voice coil through this gap, thereby increasing the back pressure.

  On the other hand, in the electroacoustic transducer in which the outer shape of the diaphragm and the winding shape of the voice coil are set to a substantially rectangular shape as described above, the voice coil is attached to the sub dome portion of the diaphragm as described in "Patent Document 2". If the structure is formed with a large number of narrow grooves extending to the fixed portion, the rigidity of the region near the fixed portion with the short side portion of the voice coil in the diaphragm can be increased. However, in this case, since the rigidity of the sub dome portion itself is increased, there is a problem that there is no room for the vibration limit and the acoustic characteristics may be deteriorated.

  The present invention has been made in view of such circumstances, and in an electrodynamic electroacoustic transducer having a substantially rectangular outer shape, an electric power capable of expanding a reproduction band and improving sound pressure. An object of the present invention is to provide an acoustic transducer.

  According to the present invention, the above object is achieved by forming a bead at a predetermined portion of the diaphragm.

That is, the electroacoustic transducer according to the present invention is
In an electroacoustic transducer comprising: a diaphragm; a voice coil fixed to the lower surface of the diaphragm; and a frame that fixes and supports the outer peripheral edge of the diaphragm.
The outer shape of the diaphragm is set to a substantially rectangular shape, and the winding shape of the voice coil is set to a substantially rectangular shape with a predetermined interval from the outer peripheral edge of the diaphragm,
The interval between the short side portion of the voice coil and the outer peripheral edge portion of the diaphragm is set to a value larger than the interval between the long side portion of the voice coil and the outer peripheral edge portion of the diaphragm,
At least one bead that connects the inner space and the outer space of the voice coil is formed in the fixed portion of the diaphragm with the short side portion of the voice coil ,
The fixed portion of the diaphragm with the long side portion of the voice coil is formed as a flat portion extending in a planar shape, and is fixed to the voice coil at each of the flat portions. is there.

  If the “at least one bead” is formed so as to communicate the inner space and the outer space of the voice coil at the fixed portion of the diaphragm to the short side portion of the voice coil, the cross-sectional shape or formation thereof The specific configuration such as the number is not particularly limited.

  As shown in the above configuration, the electroacoustic transducer according to the present invention is configured as an electrodynamic electroacoustic transducer, but since the diaphragm has a substantially rectangular outer shape, the electroacoustic transducer The device can be formed in an elongated shape, thereby improving the mountability to an external device such as a mobile phone.

  Further, in the electroacoustic transducer according to the present invention, the winding shape of the voice coil is set to a substantially rectangular shape with a predetermined interval from the outer peripheral edge portion of the diaphragm. Since the distance between the outer peripheral edge of the diaphragm is set to a value larger than the distance between the long side of the voice coil and the outer peripheral edge of the diaphragm, the coil terminal of the voice coil is connected to the short side of the voice coil. It becomes easy to conduct and fix to the terminal member between the outer peripheral edge of the diaphragm, and thereby the electroacoustic transducer can be maintained in an elongated shape.

  On the other hand, when such a configuration is adopted, it becomes difficult to sufficiently secure the rigidity in the vicinity of the fixed portion with the short side portion of the voice coil in the diaphragm, but in the electroacoustic transducer according to the present invention, Since at least one bead for communicating the inner space and the outer space of the voice coil is formed at the fixed portion of the diaphragm with the short side portion of the voice coil, the rigidity of the region near the fixed portion is improved. Thus, the required vibration characteristics can be secured and the reproduction band can be expanded.

  Further, since the inner space and the outer space of the voice coil are communicated with each other by these at least one bead, even if the volume of the back pressure space on the inner peripheral side of the voice coil is small, By communicating with the back pressure space on the outer peripheral side, the air is connected to the inner space of the voice coil compared to the case where the inner space and the outer space of the voice coil are communicated only with the gap between the voice coil and the magnetic circuit unit. The pressure when going to and from the outer space can be kept low. As a result, the inner space and the outer space can be handled as one back pressure space, so that the volume of the back pressure space can be sufficiently secured, and thereby the sound pressure can be sufficiently increased.

  As described above, according to the present invention, in the electrodynamic electroacoustic transducer, it is possible to expand the reproduction band and improve the sound pressure.

  In the above configuration, the portion of the diaphragm that is located on the inner peripheral side of the fixed portion with the voice coil is formed as an upward bulging portion that bulges upward, and from the fixed portion with the voice coil in the diaphragm If the bead is formed so as to extend from the upper bulging portion to the vicinity of the standing wall portion after the standing wall portion rising upward is formed at the outer peripheral side position, the short side portion of the voice coil in the diaphragm The rigidity in the vicinity of the fixed portion can be further improved. Alternatively, even when each bead is formed so as to extend from the upward bulging portion to the standing wall portion, the rigidity of the region in the vicinity of the fixed portion with the short side portion of the voice coil in the diaphragm can be further improved.

  In this case, the diaphragm is composed of a central vibration part and an annular vibration part joined to the outer peripheral edge of the central vibration part, and the junction between the central vibration part and the annular vibration part is the vertical wall part. If the configuration is performed at a position closer to the outer periphery side, the diaphragm can be configured with different materials and film thicknesses at the central vibration portion and the annular vibration portion. While the rigidity of the central vibration part can be increased, the rigidity of the annular vibration part can be kept low. As a result, it is possible to provide a margin for the vibration limit of the annular vibration part without causing abnormal vibration in the central vibration part, so that it is possible to suppress a rise in the minimum resonance frequency and ensure a sufficiently wide reproduction band. This can further enhance the acoustic characteristics of the electroacoustic transducer.

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

  FIG. 1 is a plan view showing an electroacoustic transducer 10 according to an embodiment of the present invention in a state where the electroacoustic transducer 10 is arranged upward. 2 is a cross-sectional view taken along the line II-II in FIG. 1, and FIG. 3 is a cross-sectional view taken along the line III-III in FIG.

  As shown in these drawings, the electroacoustic transducer 10 is a small electrodynamic speaker and is used in a state of being mounted on an external device such as a mobile phone. The electroacoustic transducer 10 has a substantially rectangular outer shape in plan view, and the width in the long side direction is set to a value of about 20 mm and the width in the short side direction is set to a value of about 10 mm.

  The electroacoustic transducer 10 accommodates a diaphragm 12, a voice coil 14 fixed to the lower surface of the diaphragm 12, a frame 16 that fixes and supports the outer peripheral edge 12 a of the diaphragm 12, and a lower end portion of the voice coil 14. A magnetic circuit unit 18 in which a magnetic gap is formed, a cover 20 that covers the diaphragm 12 from above, and a pair of terminal members 22 fixed to the frame 16 are provided.

  4 is a detailed view of a portion IV in FIG. 3, and FIG. 5 is a plan view showing the diaphragm 12 as a single product.

  As shown in these drawings, the diaphragm 12 includes a central vibrating portion 12A and an annular vibrating portion 12B, and has a substantially rectangular outer shape slightly smaller than the outer shape of the electroacoustic transducer 10. The central vibrating portion 12 </ b> A has a substantially rectangular outer shape that is long in the long side direction of the electroacoustic transducer 10. On the other hand, the annular vibrating portion 12B has a substantially rectangular outer shape that is slightly larger than the central vibrating portion 12A, and is formed as an annular member that surrounds the central vibrating portion 12A with substantially the same width over the entire circumference. . The annular vibrating portion 12B is joined to the outer peripheral edge 12Aa of the central vibrating portion 12A at the inner peripheral edge 12Ba.

  Each of the central vibration part 12A and the annular vibration part 12B is configured by a light-transmitting member. At this time, the annular vibration part 12B is configured by a member having lower rigidity than the central vibration part 12A. Specifically, the central vibrating portion 12A is made of a hard resin member such as polyetherimide having a thickness of about 50 μm, for example, and the annular vibrating portion 12B is made of polyurethane having a thickness of about 100 μm, for example. It is composed of a soft resin member.

  The joining of the central vibration part 12A and the annular vibration part 12B is performed by adhesion using a photo-curing adhesive A. That is, in this joining, after applying a photo-curing adhesive A that is cured by visible light irradiation on the upper surface of the outer peripheral edge 12Aa of the central vibration part 12A, the inner peripheral edge of the annular vibration part 12B is applied to the outer peripheral edge 12Aa. This is performed by irradiating visible light from above (or from below) with 12Ba superposed from above.

  The voice coil 14 is fixed to the diaphragm 12 by bonding using the photo-curing adhesive A at a position away from the joint between the central vibrating portion 12A and the annular vibrating portion 12B toward the inner peripheral side. .

  The winding shape of the voice coil 14 is set to a substantially rectangular shape. At that time, the long side portion 14A of the voice coil 14 extends linearly in parallel with the outer peripheral edge portion 12Aa in the vicinity of the inner peripheral side of the outer peripheral edge portion 12Aa of the central vibrating portion 12A. On the other hand, the short side portion 14B of the voice coil 14 extends in an arc shape so as to gently swell toward the outer peripheral side at a position somewhat away from the outer peripheral edge 12Aa of the central vibrating portion 12A toward the inner peripheral side. The pair of coil terminals 14a of the voice coil 14 is directed from the pair of corner portions located at both ends of the one long side portion 14A of the voice coil 14 to the outer peripheral side of the pair of short side portions 14B. Is extended.

  A portion of the central vibrating portion 12A located on the inner peripheral side of the position where the voice coil 14 is fixed is formed as an upper bulging portion 12Ab that bulges upward. The upper bulging portion 12Ab has a linear cross-sectional shape with respect to the long side direction of the electroacoustic transducer 10, and has an arc-shaped cross-sectional shape that gently bulges upward with respect to the short side direction. . And the outer peripheral edge part of this upward bulging part 12Ab is a pair of linear standing wall parts 12Ab1 along the long side part 14A of the voice coil 14, and a pair of arcuate standing wall parts along the short side part 14B. It is formed as 12Ab2.

  An annular portion located on the outer peripheral side of the upper bulging portion 12Ab in the central vibrating portion 12A is formed as a flat portion 12Ac that comes into contact with the upper end surface of the voice coil 14. The long side portion 12Ac1 adjacent to the straight standing wall portion 12Ab1 of the upper bulging portion 12Ab in the flat surface portion 12Ac is formed with a width that is slightly wider than the winding thickness of the voice coil 14, and the voice in the central portion in the width direction. Adhesive fixation with the coil 14 is performed. On the other hand, the short side portion 12Ac2 adjacent to the arcuate standing wall portion 12Ab2 of the upward bulging portion 12Ab in the flat portion 12Ac is formed with a width that is considerably wider than the winding thickness of the voice coil 14, and at the inner peripheral edge portion thereof Adhesive fixation with the voice coil 14 is performed.

  Three beads 12Ad are formed in each short side portion 12Ac2 in the flat surface portion 12Ac of the central vibration portion 12A. Each of these three beads 12Ad has a trapezoidal cross-sectional shape, and extends in the long side direction at equal intervals in the short side direction of the electroacoustic transducer 10. At this time, each of these beads 12b extends from the arcuate standing wall portion 12Ab2 of the upper bulging portion 12Ab to the vicinity of the outer peripheral edge portion 12Aa of the central vibration portion 12A, thereby the inner space and the outer space of the voice coil 14 are separated. Communication is made above the voice coil 14.

  On the outer peripheral side of the flat surface portion 12Ac of the central vibration portion 12A, an upright wall portion 12Ae is formed over the entire periphery, so that the outer peripheral edge portion 12Aa of the central vibration portion 12A is one step higher than the flat surface portion 12Ac. . As a result, the joining position of the central vibrating portion 12A and the annular vibrating portion 12B is set to a position displaced above the fixed position of the voice coil 14 and the diaphragm 12.

  The annular vibrating portion 12B is formed as an upper bulging portion 12Bb extending in an annular shape with an upward arc-shaped cross section at a portion between the inner peripheral edge portion 12Ba and the outer peripheral edge portion (that is, the outer peripheral edge portion 12a of the diaphragm 12). Has been.

  The frame 16 is made of a synthetic resin member having a substantially rectangular outer shape in plan view, and a diaphragm support portion 16a for fixing and supporting the outer peripheral edge portion 12a of the diaphragm 12 is formed on the outer peripheral edge portion thereof. The frame 16 is formed with a substantially rectangular central opening 16b that is slightly larger than the winding shape of the voice coil 14, and the magnetic circuit unit 18 is attached to the central opening 16b.

  The pair of terminal members 22 are formed integrally with the frame 16 by insert molding. A part of the pair of terminal members 22 is formed as a land portion exposed on the upper surface of the bottom wall portion located on both sides in the long side direction of the central opening portion 16b in the frame 16. Is formed so as to be exposed on the outer surface of the frame 16. The coil terminals 14a extending from the voice coil 14 are conductively fixed to the land portions of the terminal members 22 by thermocompression bonding or the like.

  The cover 20 is made of a steel plate formed in a substantially reverse tray shape, and has a substantially rectangular outer shape in plan view. The cover 20 is bonded and fixed with a normal adhesive B to the outer peripheral edge portion 12a of the diaphragm 12 fixedly supported by the diaphragm support portion 16a of the frame 16 at the outer peripheral edge portion 20a. As this normal adhesive B, a cyanoacrylate instantaneous adhesive, an adhesive that cures by moisture in the air, an adhesive that vaporizes a solvent, and the like can be employed. The cover 20 has sound emitting holes 20b formed at a plurality of locations.

  The magnetic circuit unit 18 has a substantially U-shaped cross section and extends in the direction of the long side of the electroacoustic transducer 10, a steel base 32, a magnet 34 formed in a relatively thick rectangular plate shape, and a relatively thin rectangular plate shape. The steel yokes 36 are formed and fixed in this order. In the magnetic circuit unit 18, a pair of magnetic gaps for accommodating the lower end portion of the voice coil 14 is formed between the inner surfaces of both side walls of the base 32 and both end surfaces in the short side direction of the yoke 36. It has become so. The magnetic circuit unit 18 is bonded and fixed to the frame 16 with the adhesive B in a state where the magnetic circuit unit 18 is positioned in the vertical direction in the central opening 16 b of the frame 16.

  6 and 7 are side cross-sectional views showing the manufacturing process of the electroacoustic transducer 10, and are views showing cross-sectional positions corresponding to FIGS.

  As shown in these drawings, the diaphragm 12 is fixed to the voice coil 14 and the frame 16 in a state where the center vibrating portion 12A and the annular vibrating portion 12B are joined in advance and completed as the diaphragm 12. It has become.

  At that time, the voice coil 14 is in a state in which each coil terminal 14 a is conductively fixed to each terminal member 22 in advance and is positioned and supported with respect to the frame 16 by the receiving jig 100. To be maintained. In this state, after the photocurable adhesive A is applied to the upper end surface of the voice coil 14 and the diaphragm support portion 16a of the frame 16, the diaphragm is applied to the upper end surface of the voice coil 14 and the diaphragm support portion 16a of the frame 16, respectively. The diaphragm 12 is simultaneously bonded and fixed to the voice coil 14 and the frame 16 by placing the No. 12 and irradiating visible light from above to cure the respective photo-curing adhesives A.

  As described above in detail, the electroacoustic transducer 10 according to the present embodiment is configured as an electrodynamic speaker. However, since the diaphragm 12 has a substantially rectangular outer shape, the electroacoustic transducer is provided. 10 can be formed in an elongated shape, thereby improving the mountability to an external device such as a mobile phone.

  In the electroacoustic transducer 10 according to the present embodiment, the winding shape of the voice coil 14 is set to a substantially rectangular shape with a predetermined distance from the outer peripheral edge portion 12a of the diaphragm 12. 14 is set to a value larger than the distance between the long side portion 14A of the voice coil 14 and the outer peripheral edge portion 12a of the diaphragm 12, so that the voice The coil terminal 14a of the coil 14 can be easily conductively fixed to the terminal member 22 between the short side portion 14A of the voice coil 14 and the outer peripheral edge portion 12a of the diaphragm 12, whereby the electroacoustic transducer 10 is fixed. It can be maintained in an elongated shape.

  On the other hand, when such a configuration is adopted, it is difficult to sufficiently secure the rigidity in the vicinity of the fixed portion of the diaphragm 12 with the short side portion 14B of the voice coil 14, but the electroacoustic conversion according to the present embodiment. In the vessel 10, since three beads 12Ad for communicating the inner space and the outer space of the voice coil 14 are formed in the fixed portion of the diaphragm 12 to the short side portion 14B of the voice coil 14, the fixed portion Thus, it is possible to improve the rigidity of the region in the vicinity, thereby ensuring the required vibration characteristics and expanding the reproduction band.

  In addition, the three beads 12Ad are configured to communicate the inner space and the outer space of the voice coil 14, so that the volume of the back pressure space on the inner peripheral side of the voice coil 14 is quite small. The air is communicated with the back pressure space on the outer peripheral side of the voice coil 14 so that the air can be communicated with the inner space and the outer space only in the gap between the voice coil 14 and the magnetic circuit unit 18. The pressure at the time of going back and forth between the inner space and the outer space of the voice coil 14 can be kept low. As a result, the inner space and the outer space can be handled as one back pressure space, so that the volume of the back pressure space can be sufficiently secured, and thereby the sound pressure can be sufficiently increased.

  Thus, according to this embodiment, in the electrodynamic electroacoustic transducer 10, it is possible to expand the reproduction band and improve the sound pressure.

  Moreover, the electroacoustic transducer 10 according to the present embodiment is formed as an upper bulging portion 12Ab in which a portion of the diaphragm 12 located on the inner peripheral side with respect to the fixing portion with the voice coil 14 bulges upward. In addition, a standing wall portion 12Ae that rises upward is formed at a position on the outer peripheral side of the fixed portion with the voice coil 14 in the diaphragm 12, and each bead 12Ad rises from the arc-shaped standing wall portion 12Ab2 in the upper bulging portion 12Ab. Since it is formed so as to extend to the vicinity of 12Ae, the rigidity of the region in the vicinity of the fixed portion of the diaphragm 12 with the short side portion 14B of the voice coil 14 can be further improved.

  Further, the electroacoustic transducer 10 according to the present embodiment includes a diaphragm 12 having a central vibration part 12A and an annular vibration part 12B joined to an outer peripheral edge part 12Aa of the central vibration part 12A. Since the joining of 12A and the annular vibrating portion 12B is performed at a position on the outer peripheral side of the standing wall portion, the diaphragm 12 is composed of a material and a film thickness different from each other in the central vibrating portion 12A and the annular vibrating portion 12B. be able to. At this time, in the present embodiment, since the central vibration part 12A is made of a hard resin member and the annular vibration part 12B is made of a soft resin member, the central vibration part having a fixing part with the voice coil 14 is used. While the rigidity of 12A can be raised, the rigidity of the annular vibration part 12B can be kept low. As a result, a margin can be given to the vibration limit of the annular vibrating portion 12B without causing abnormal vibration in the central vibrating portion 12A, so that a sufficiently wide reproduction band can be secured by suppressing an increase in the minimum resonance frequency. Thus, the acoustic characteristics of the electroacoustic transducer 10 can be further enhanced.

  In the above embodiment, the three beads 12Ad are described as extending in the long side direction at equal intervals in the short side direction of the electroacoustic transducer 10, but as shown in FIG. The protruding portion 12Ab may be configured to extend radially from the arcuate standing wall portion 12Ab2 toward the standing wall portion 12Ae, or as shown in FIG. 9, the arcuate standing wall at the upper bulging portion 12Ab. It is also possible to adopt a configuration formed so as to extend from the portion 12Ab2 to the standing wall portion 12Ae. Even when such a configuration is adopted, it is possible to improve the rigidity of the area near the fixed portion of the diaphragm 12 with the short side portion 14B of the voice coil 14.

  In the above embodiment, the electroacoustic transducer 10 is described as a small speaker having a maximum width of about 20 mm. However, in the case where the electroacoustic transducer 10 is a speaker having a size other than this, or an electric power other than a speaker such as a receiver. Even in the case of an acoustic transducer, it is possible to obtain the same effect as that of the above embodiment by adopting the same configuration as that of the above embodiment.

The top view which shows the electroacoustic transducer which concerns on one Embodiment of this invention in the state arrange | positioned upwards II-II sectional view of Fig. 1 Sectional view along line III-III in Fig. 1 Detail view of part IV in Fig. 3 The top view which shows the diaphragm of the said electroacoustic transducer by a single item It is a sectional side view which shows the manufacturing process of the said electroacoustic transducer, Comprising: The figure shown in the cross-sectional position corresponding to FIG. It is a sectional side view which shows the manufacturing process of the said electroacoustic transducer, Comprising: The figure shown in the cross-sectional position corresponding to FIG. The same figure as FIG. 5 which shows the 1st modification of the said embodiment. The same figure as FIG. 5 which shows the 2nd modification of the said embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Electroacoustic transducer 12 Diaphragm 12a Outer peripheral edge part 12A Central vibration part 12Aa Outer peripheral edge part 12Ab Upper bulging part 12Ab1 Straight standing wall part 12Ab2 Arc-like standing wall part 12Ac Plane part 12Ac1 Long side part 12Ac2 Short side part 12Ad Standing wall part 12Ad 12B annular vibration part 12Ba inner peripheral edge part 12Bb upward bulging part 14 voice coil 14a coil terminal 14A long side part 14B short side part 16 frame 16a diaphragm support part 16b central opening 18 magnetic circuit unit 20 cover 20a outer peripheral part 20b sound emission Hole 22 Terminal member 32 Base 34 Magnet 36 Yoke A Photo-curing adhesive B Adhesive

Claims (4)

In an electroacoustic transducer comprising: a diaphragm; a voice coil fixed to the lower surface of the diaphragm; and a frame that fixes and supports the outer peripheral edge of the diaphragm.
The outer shape of the diaphragm is set to a substantially rectangular shape, and the winding shape of the voice coil is set to a substantially rectangular shape with a predetermined interval from the outer peripheral edge of the diaphragm,
The interval between the short side portion of the voice coil and the outer peripheral edge portion of the diaphragm is set to a value larger than the interval between the long side portion of the voice coil and the outer peripheral edge portion of the diaphragm,
At least one bead that connects the inner space and the outer space of the voice coil is formed in the fixed portion of the diaphragm with the short side portion of the voice coil ,
An electroacoustic characterized in that a fixed portion of the diaphragm to the long side portion of the voice coil is formed as a flat portion extending in a planar shape, and is fixed to the voice coil at each of the flat portions. converter. The portion located on the inner peripheral side of the fixed portion with the voice coil in the diaphragm is formed as an upward bulging portion that bulges upward,
A standing wall portion that rises upward is formed at a position on the outer peripheral side of the fixed portion with the voice coil in the diaphragm,
2. The electroacoustic transducer according to claim 1, wherein each of the beads is formed so as to extend from the upward bulging portion to the vicinity of the standing wall portion. The portion located on the inner peripheral side of the fixed portion with the voice coil in the diaphragm is formed as an upward bulging portion that bulges upward,
A standing wall portion that rises upward is formed at a position on the outer peripheral side of the fixed portion with the voice coil in the diaphragm,
2. The electroacoustic transducer according to claim 1, wherein each of the beads is formed so as to extend from the upward bulging portion to the standing wall portion. The diaphragm comprises a central vibration part and an annular vibration part joined to the outer peripheral edge of the central vibration part,
4. The electroacoustic transducer according to claim 2, wherein the central vibration portion and the annular vibration portion are joined at a position on the outer peripheral side of the standing wall portion.

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