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JP4603124B2 - Multi-functional pronunciation body - Google Patents
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JP4603124B2 - Multi-functional pronunciation body - Google Patents

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Publication number
JP4603124B2
JP4603124B2 JP2000052741A JP2000052741A JP4603124B2 JP 4603124 B2 JP4603124 B2 JP 4603124B2 JP 2000052741 A JP2000052741 A JP 2000052741A JP 2000052741 A JP2000052741 A JP 2000052741A JP 4603124 B2 JP4603124 B2 JP 4603124B2
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Japan
Prior art keywords
magnetic
cover
ring
permanent magnet
suspension spring
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JP2001239210A (en
Inventor
孝 小林
昭 米山
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Citizen Electronics Co Ltd
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Citizen Electronics Co Ltd
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Description

【0001】
【発明の属する技術分野】
本発明は複数の周波数帯に対して応答し、音響周波数あるいは更に低周波の振動を出力する多機能型発音体の構造に関する。
【0002】
【従来の技術】
例えば数100〜数kHzの音響周波数の電気的入力に応答して音響信号を出力すると共に、10〜100Hz程度の低周波数の電気的入力にも応答して体感できる振動(バイブレーション)出力をも行う多機能型発音体が知られている。
これは1個の音響変換器であるのに複数種類の信号を発生できるために、携帯電話等の機器の小型化・低コスト化のための手段としての有効性が高い。図4および図5に従来例の多機能発音体の構造の概略を示す。
【0003】
図4は第1の従来例である多機能発音体の構造の概略を示す断面図である。1はカバーで合成樹脂製の筐体であり略箱型をなす。2は振動板で音響出力用のものであり、カバー1に周縁部を固着され、ボイスコイル3が一体化されている。5は円筒形の永久磁石であり、円筒の軸方向に磁化され、高透磁率材料より成る円筒型カップ状のヨーク7の中心部に固着されている。6はトッププレートでやはり高透磁率材料より成る磁極片で、永久磁石5の上端に固着されている。
【0004】
永久磁石5、トッププレート6およびヨーク7は磁気回路を構成する。ヨーク7にはサスペンションバネ8が固着されている。サスペンションバネ8はヨーク7の外側に向かって延びる複数の腕部状部(断面図のみであらわされている)を有し、この腕部の外端はカバー1に固着されている。従って磁気回路はサスペンションバネ8の腕状部に弾性的に懸架され、一体となって軸方向(図の上下方向)に振動することができる。ヨーク7の外周のリング状の部分は付加質量9で、磁気回路の主要部の外側を占め、磁束の通路としてよりは磁気回路の固有振動数を十分低く下げるための追加の質量としての役割を持つ。従ってヨーク7と異なる材質で作って結合してもよい。
【0005】
永久磁石5が生成する磁束はトッププレート6の周囲側面とヨーク7のカップ状の上端付近内面との間のリング状の磁気空隙に集中され、協力な磁界が形成される。この磁気空隙内にはボイスコイル3が挿入されており、ボイスコイルに音響周波数の信号電流が流れると振動板2が振動し音響を発する。なおカバー1は小型電気音響機器の外壁または回路基板等(図示せず)に固着されている。
【0006】
このような構成であるから、ボイスコイル3に外部回路(図示せず)から駆動電流を入力するとボイスコイル3と磁気回路との間に相対的に電磁力が発生する。駆動電流が音響あるいは音声周波数であると、磁気回路はその固有振動数がはるかに低いために応答せず、専ら振動板2のみが振動して音響を出力する。しかし駆動電流が磁気回路の固有振動数に近い低い周波数であると、振動板3はほとんど応答せず、磁気回路が共振して大振幅で軸方向に振動する。そして音響を嫌う環境中やあるいは逆に騒音が大きくて音響信号が不適当な環境の中で、サイレントでかつ体感可能な振動による信号を発生する。
【0007】
一般に磁気回路には漏洩磁束が必ずあり、それが遠方まで届くのは他の部品や機器に影響を与え好ましくないため、何らかの防磁策が施こされる。図4においてヨーク7に設けたリング状の溝11は磁束の漏洩を防止するために設けられたものである。即ち高透磁率材料に設けた溝11の内部は磁気抵抗が高いため、永久磁石5→トッププレート6→磁気空隙→ヨーク7の上端部→ヨーク7の下端部→永久磁石5と一巡する磁束はこの部分を越えることが少なく、それより外側への漏洩が減少し即ち磁気遮蔽が行われ、必要な磁気空隙に磁束が集中するようになる。
【0008】
図5は第2の従来例である多機能発音体の構造の概略を示す断面図である。ほとんど図4の第1の従来例と同じ構造であり、各部分に付した符号も共通にしてある。第1の従来例との相違点は漏洩磁束の防止構造であり、第2の従来例では溝に替えてヨーク7の材質よりも更に高い透磁率を有する材料より成る防磁リング10を磁気遮蔽部材として磁気空隙に接近して設けた。永久磁石から発して上記一巡する磁束は、大部分が磁気抵抗の低い防磁リング10の内部を通り、漏洩磁束の比率は小さくなる。
【0009】
【発明が解決しようとする課題】
上記従来例はいずれもヨークが中心軸部にある永久磁石を囲んでいる、内磁型の構造を採用している。これに対し、永久磁石がリング状であって、永久磁石が発生する磁束の主要部分を永久磁石リングの内側にある磁気空隙に集中させるようにした、外磁型構造があり、本発明ではこの構成を採用しようとする。外磁型構造は永久磁石の容積を内磁型よりも容易に大きくすることができ、大きな磁気エネルギーを利用することができる。また永久磁石の容積を抑えるならば、比較的薄型の磁気回路を設計することもできる利点がある。しかし永久磁石が外側にあるため、外部への漏洩磁束はやや多い傾向があり、これを効果的に抑制する必要があるが、外耳型構造における有効性の高い漏洩磁束防止構造はまだ提案されていない。
【0010】
本発明の目的は、外磁型の構造を採用した多機能型発音体において、その外部への漏洩磁束を効果的に減少させ、外磁型の利点を十分に発揮し得る構成を提供することである。
【0011】
【課題を解決するための手段】
上記課題を解決するため、本発明の多機能型発音体は下記の特徴を備える。
(1)カバーと、該カバーに支持され音響周波数の電磁力を受けて振動する振動板と、前記カバーに弾性部材により弾性支持されて比較的低周波の振動系を構成し、前記振動板に対して前記電磁力を発生するための磁界を与える永久磁石を含み比較的質量の大なる外磁型の磁気回路より成り、複数の周波数帯の電気的入力に対応して前記振動板または前記磁気回路が主に応答して振動する多機能型発音体において、前記永久磁石はリング状をなしてその内側に前記磁界を形成すると共に、
前記弾性部材は、それぞれ内側のリング、外側のリングおよびこれら内外のリングを連結する一対の弧状の腕部より成る2枚の平行な板状の、上サスペンションバネおよび下サスペンションバネであり、
前記外磁型の磁気回路は、リング状の前記永久磁石の上面にトッププレートの下面が接し、前記永久磁石の下面にポールピースの周縁部の上面が接して構成されており、
前記上サスペンションバネの内側のリングは前記トッププレートの上面の段差部に固着され、前記下サスペンションバネの内側のリングは前記ポールピースの下面の段差部に固着され、
前記上サスペンションバネの前記外側のリングと前記下サスペンションバネの前記外側のリングに挟まれた位置に、前記筐体の外部への磁束の漏洩を減少させるため、透磁率の大きい材料より成る防磁リングを配置したこと。
【0012】
また本発明の多機能型発音体は更に下記の特徴のうち少なくとも一つを備えることがある。
(2)前記磁気遮蔽部材は前記カバーにインサートモールドされていること。
【0013】
(3)前記カバーは高透磁率の材料粉末を混入した合成樹脂材料で成形されていること。
【0015】
【発明の実施の形態】
図1は本発明の実施の形態の一例である多機能型発音体の断面図である。図5および図6で既に説明したものと機能に共通性がある部分については同じ記号と名称を付して重複する説明を省略する。従来例と以下の部分が主に異なる。
(1)永久磁石5が円筒形ではなくリング状(磁化は厚み方向)であって磁気回路の外側を占め、いわゆる外磁型の構造をなすこと。これに伴って従来例のヨーク7に対応するポールピース4は図3に示した斜視図のように、高透磁率の軟磁性部分が外周部ではなく芯の部分であること。またトッププレート6も従来例と異なってリング状である。
【0016】
(2)合成樹脂製のカバー1が上下2体となり、上カバー1aと下カバー1bにはそれぞれ磁気回路を弾性支持する弾性部材である、上サスペンションバネ8a、下サスペンションバネ8bがインサートモールドによって一体化されていること。この構造およびそのための加工法が本発明の眼目となる。またカバーの平面形状が角形でなく円形である。上下カバーは多機能型発音体の組立の際一体に接合される(上下の腕部は90°向きを異ならせる)。その内部で磁気回路が上下サスペンションバネの各腕部によって従来例同様に弾性的に懸架される。
【0017】
(3)外磁型構造では大きな体積の永久磁石を用いて強力な空隙磁束を得ることもできるが、永久磁石から外側へ漏れる磁束も比較的多い傾向がある。そのため、永久磁石5の外周から少し離れた外側を高透磁率材料より成る防磁リング10で囲み、漏洩磁束を防磁リングに集めてその外側への漏洩を極力少なくしていること。なお本実施の形態においては、防磁リング10は発音体の組立時にも役割を持っている。
【0018】
図2(a)は上述の本発明の実施の形態の一例における上カバーの平面図、(b)は同じく下カバーの平面図で、いずれもサスペンションバネのインサートモールドを完了した状態を示している。上サスペンションバネ8a、下サスペンションバネ8bはいずれも平板状であり、内側および外側に同心のリング部を持ち、両リングは点対称に配置された一対のほぼ半円弧状の腕部で連結されている。外側のリングはカバー内にモールドされ、内側のリングは図1に示すように、下サスペンションバネ8bはポールピース4の下面の段差部に、上サスペンションバネ8aはトッププレート6の上面の段差部に圧入固着される。
【0019】
上カバー1a、下カバー1bはいずれもほぼリング状をなすが、上カバー1aには方形の突出部である端子部1fを有する。この部分には2本の端子ピン1gが植えられる。これらには多機能型発音体の組立の際、ボイスコイル3の両端からの引出し線が接続される。また上サスペンションバネ8aの一部は端子部1fを貫通して外部に延びており、これはアース端子8dとなる。また下カバー1bには下サスペンションバネ8bと共に防磁リング10の下部がインサートモールドされている。防磁リング10の上部は下カバー1bの上面から突出している。この部分を収容するリング状の切欠きが上カバー1aの下面に設けてあり、上下カバーを合せて固定し、一体化する際、防磁リング10は両者の位置決めの役割をも果たす。なお上カバー1aの上部には同心円状のひだを付けた振動板2がその外周部で接着される。
【0020】
以上本発明の実施の形態の一例について説明したが、本発明はこの実施の形態に限定されないことはもちろんである。例えば防磁リングの寸法形状や配置はもとより、カバーの形状、サスペンションバネの形状や腕数や枚数、振動板の形状、永久磁石の形状、ポールピースの形状、トッププレートの形状、付加質量を設けること、その他細部の形状、他の部材を付加すること、あるいは各部の材質等は種々変更が可能である。
【0021】
【発明の効果】
(1)本発明においてはリング状の永久磁石の外側のサスペンションバネの腕部で隔てられた位置に防磁リングを配置したので、簡素な構造であるにもかかわらず、外磁型構造においても漏洩磁束を十分に小さくすることができる効果がある。
【0022】
(2)また更に防磁リングを2枚のサスペンションバネの外側のリングの間に配した構成により、多機能型発音体の外径を増さずに効果的な防磁構造を実現できる効果がある。
【0023】
(3)また磁気遮蔽部材をカバーにインサートモールドした構成によって、磁気遮蔽部材を多機能型発音体の内部で正しい位置に自動的に配置することができる効果がある。また二つのカバーの位置決めを磁気遮蔽部材を仲介として正しく行うことができる効果がある。
【0024】
(4)またカバーに高透磁率の材料粉末を混入した合成樹脂材料を用いることにより、カバーにも防磁作用を分担させ、一層効果的な防磁を行うことができる効果がある。
【図面の簡単な説明】
【図1】本発明の実施の形態の一例である多機能型発音体の断面図である。
【図2】(a)は本発明の実施の形態の一例における上カバーの平面図、(b)は同じ例における下カバーの平面図である。
【図3】本発明の実施の形態の一例におけるポールピースの斜視図である。
【図4】多機能型発音体の第1の従来例の断面図である。
【図5】多機能型発音体の第2の従来例の断面図である。
【符号の説明】
1 カバー
1a 上カバー
1b 下カバー
1f 端子部
1g 端子ピン
2 振動板
3 ボイスコイル
4 ポールピース
5 永久磁石
6 トッププレート
7 ヨーク
8a 上サスペンションバネ
8b 下サスペンションバネ
8d アース端子
9 付加質量
10 防磁リング
11 溝
[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a structure of a multifunctional sounding body that responds to a plurality of frequency bands and outputs an acoustic frequency or even a low frequency vibration.
[0002]
[Prior art]
For example, an acoustic signal is output in response to an electrical input having an acoustic frequency of several hundreds to several kHz, and a vibration (vibration) output that can be felt in response to an electrical input having a low frequency of about 10 to 100 Hz is also performed. Multi-function sound generators are known.
Since this is a single acoustic transducer, it can generate a plurality of types of signals, and is therefore highly effective as a means for reducing the size and cost of devices such as mobile phones. 4 and 5 show an outline of the structure of a conventional multi-function sound generator.
[0003]
FIG. 4 is a cross-sectional view schematically showing the structure of a multi-function sounding body as a first conventional example. Reference numeral 1 denotes a cover made of synthetic resin, which has a substantially box shape. Reference numeral 2 denotes a diaphragm for sound output. A peripheral portion is fixed to the cover 1 and the voice coil 3 is integrated. Reference numeral 5 denotes a cylindrical permanent magnet which is magnetized in the axial direction of the cylinder and is fixed to the center of a cylindrical cup-shaped yoke 7 made of a high magnetic permeability material. A top plate 6 is also a pole piece made of a high permeability material and is fixed to the upper end of the permanent magnet 5.
[0004]
The permanent magnet 5, the top plate 6 and the yoke 7 constitute a magnetic circuit. A suspension spring 8 is fixed to the yoke 7. The suspension spring 8 has a plurality of arm portions (shown only in a sectional view) extending toward the outside of the yoke 7, and the outer ends of the arm portions are fixed to the cover 1. Accordingly, the magnetic circuit is elastically suspended on the arm portion of the suspension spring 8 and can vibrate in the axial direction (vertical direction in the figure) as a unit. The ring-shaped portion of the outer periphery of the yoke 7 is an additional mass 9 that occupies the outside of the main part of the magnetic circuit and serves as an additional mass for sufficiently reducing the natural frequency of the magnetic circuit rather than as a magnetic flux path. Have. Therefore, the yoke 7 may be made of a different material and coupled.
[0005]
The magnetic flux generated by the permanent magnet 5 is concentrated in a ring-shaped magnetic gap between the peripheral side surface of the top plate 6 and the inner surface near the cup-shaped upper end of the yoke 7 to form a cooperative magnetic field. A voice coil 3 is inserted into the magnetic gap, and when a signal current having an acoustic frequency flows through the voice coil, the diaphragm 2 vibrates and emits sound. The cover 1 is fixed to the outer wall of a small electroacoustic apparatus or a circuit board (not shown).
[0006]
Due to such a configuration, when a drive current is input to the voice coil 3 from an external circuit (not shown), an electromagnetic force is relatively generated between the voice coil 3 and the magnetic circuit. When the drive current is an acoustic or audio frequency, the magnetic circuit does not respond because its natural frequency is much lower, and only the diaphragm 2 vibrates and outputs sound. However, if the drive current has a low frequency close to the natural frequency of the magnetic circuit, the diaphragm 3 hardly responds, and the magnetic circuit resonates and vibrates in the axial direction with a large amplitude. Then, in an environment where sound is disliked, or in an environment where the noise is high and the sound signal is inappropriate, a signal is generated that is silent and can be experienced.
[0007]
In general, a magnetic circuit always has a leakage magnetic flux, and it is not preferable that the magnetic flux reaches far away because it affects other parts and devices. In FIG. 4, a ring-shaped groove 11 provided in the yoke 7 is provided to prevent leakage of magnetic flux. That is, since the inside of the groove 11 provided in the high magnetic permeability material has high magnetic resistance, the magnetic flux that makes a round with the permanent magnet 5 → the top plate 6 → the magnetic gap → the upper end of the yoke 7 → the lower end of the yoke 7 → the permanent magnet 5 is This portion is rarely exceeded, and leakage to the outside is reduced, that is, magnetic shielding is performed, so that the magnetic flux is concentrated in a necessary magnetic gap.
[0008]
FIG. 5 is a cross-sectional view schematically showing the structure of a multi-function sounding body as a second conventional example. The structure is almost the same as that of the first conventional example of FIG. 4, and the reference numerals assigned to the respective parts are also common. The difference from the first conventional example is a structure for preventing leakage magnetic flux. In the second conventional example, a magnetic shielding member 10 made of a material having a higher magnetic permeability than the material of the yoke 7 is used instead of the groove. As close to the magnetic gap. Most of the magnetic flux generated from the permanent magnet passes through the inside of the magnetic shielding ring 10 having a low magnetic resistance, and the ratio of the leakage magnetic flux becomes small.
[0009]
[Problems to be solved by the invention]
Each of the above conventional examples employs an internal magnet type structure in which the yoke surrounds the permanent magnet at the central shaft portion. On the other hand, there is an outer magnet type structure in which the permanent magnet is ring-shaped and the main part of the magnetic flux generated by the permanent magnet is concentrated in the magnetic gap inside the permanent magnet ring. Try to adopt the configuration. The outer magnet type structure can easily make the volume of the permanent magnet larger than that of the inner magnet type, and can use a large magnetic energy. If the volume of the permanent magnet is reduced, there is an advantage that a relatively thin magnetic circuit can be designed. However, since the permanent magnet is on the outside, there is a tendency for the amount of magnetic flux leakage to the outside to be somewhat high, and it is necessary to effectively suppress this. However, a highly effective magnetic flux leakage prevention structure in the outer ear structure has not yet been proposed. Absent.
[0010]
An object of the present invention is to provide a multi-function sounding body adopting an outer magnet type structure that can effectively reduce the leakage magnetic flux to the outside and sufficiently exhibit the advantages of the outer magnet type. It is.
[0011]
[Means for Solving the Problems]
In order to solve the above problems, the multi-function sounding body of the present invention has the following characteristics.
(1) A cover, a diaphragm that is supported by the cover and vibrates by receiving an electromagnetic force of an acoustic frequency, and a relatively low-frequency vibration system that is elastically supported by the cover by an elastic member is formed on the diaphragm. On the other hand, it comprises a permanent magnet that provides a magnetic field for generating the electromagnetic force and has a relatively large outer magnetic type magnetic circuit, and the diaphragm or the magnet corresponding to an electrical input of a plurality of frequency bands. In the multifunctional sounding body in which the circuit mainly responds and vibrates, the permanent magnet forms a ring shape and forms the magnetic field inside thereof,
The elastic members are two parallel plate-like upper suspension springs and lower suspension springs each composed of an inner ring, an outer ring, and a pair of arc-shaped arms connecting the inner and outer rings,
The outer magnetic type magnetic circuit is configured such that the lower surface of the top plate is in contact with the upper surface of the ring-shaped permanent magnet, and the upper surface of the peripheral portion of the pole piece is in contact with the lower surface of the permanent magnet,
The inner ring of the upper suspension spring is fixed to the stepped portion on the upper surface of the top plate, and the inner ring of the lower suspension spring is fixed to the stepped portion of the lower surface of the pole piece,
To the position where the sandwiched outer ring of the lower suspension spring and the outer ring of the upper suspension spring, to reduce the magnetic flux leakage to the outside of the casing, made of material with a high permeability magnetic-shield Arranged the ring .
[0012]
The multi-function sounding body of the present invention may further include at least one of the following features.
(2) The magnetic shielding member is insert-molded to the cover.
[0013]
(3) The cover is formed of a synthetic resin material mixed with a material powder having a high magnetic permeability.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a cross-sectional view of a multifunctional sound producing body as an example of an embodiment of the present invention. Parts having common functions with those already described with reference to FIGS. 5 and 6 are denoted by the same symbols and names, and redundant description is omitted. The following parts are mainly different from the conventional example.
(1) The permanent magnet 5 is not cylindrical but ring-shaped (magnetization is in the thickness direction), occupies the outside of the magnetic circuit, and has a so-called outer magnet type structure. Accordingly, in the pole piece 4 corresponding to the yoke 7 of the conventional example, the high magnetic permeability soft magnetic part is not the outer peripheral part but the core part as shown in the perspective view of FIG. Also, the top plate 6 has a ring shape unlike the conventional example.
[0016]
(2) The synthetic resin cover 1 has two upper and lower bodies, and the upper cover spring 8a and the lower suspension spring 8b, which are elastic members that elastically support the magnetic circuit, are integrally formed on the upper cover 1a and the lower cover 1b by an insert mold. Being made. This structure and the processing method therefor are the eyes of the present invention. Moreover, the planar shape of the cover is not square but circular. The upper and lower covers are joined together when assembling the multi-function sounding body (the upper and lower arms are 90 ° different). Inside, the magnetic circuit is elastically suspended by the arms of the upper and lower suspension springs as in the prior art.
[0017]
(3) In the outer magnet type structure, a strong gap magnetic flux can be obtained by using a large-volume permanent magnet, but there is a tendency that a relatively large amount of magnetic flux leaks from the permanent magnet to the outside. Therefore, the outer side of the permanent magnet 5 that is slightly apart from the outer periphery is surrounded by a magnetic-shielding ring 10 made of a high magnetic permeability material, and leakage flux is collected in the magnetic-shielding ring to minimize leakage to the outside. In the present embodiment, the magnetic shield ring 10 also has a role in assembling the sounding body.
[0018]
FIG. 2A is a plan view of the upper cover in the above-described embodiment of the present invention, and FIG. 2B is a plan view of the lower cover, both showing a state where the insert molding of the suspension spring is completed. . Each of the upper suspension spring 8a and the lower suspension spring 8b has a flat plate shape and has concentric ring portions on the inner side and the outer side, and both the rings are connected by a pair of substantially semicircular arc-shaped arm portions arranged symmetrically. Yes. As shown in FIG. 1, the outer ring is molded in the cover, the lower suspension spring 8b is on the stepped portion on the lower surface of the pole piece 4, and the upper suspension spring 8a is on the stepped portion on the upper surface of the top plate 6. Press fit.
[0019]
Both the upper cover 1a and the lower cover 1b are substantially ring-shaped, but the upper cover 1a has a terminal portion 1f that is a rectangular protrusion. Two terminal pins 1g are planted in this portion. These are connected to lead wires from both ends of the voice coil 3 when assembling the multi-function sound generator. Further, a part of the upper suspension spring 8a extends through the terminal portion 1f and becomes the ground terminal 8d. The lower cover 1b is insert-molded with the lower suspension spring 8b and the lower portion of the magnetic shield ring 10. The upper part of the magnetic shielding ring 10 protrudes from the upper surface of the lower cover 1b. A ring-shaped notch that accommodates this portion is provided on the lower surface of the upper cover 1a. When the upper and lower covers are fixed together and integrated, the magnetic-shielding ring 10 also serves to position both of them. A diaphragm 2 with concentric pleats is bonded to the upper portion of the upper cover 1a at the outer periphery thereof.
[0020]
Although an example of the embodiment of the present invention has been described above, it is needless to say that the present invention is not limited to this embodiment. For example, not only the size and shape of the magnetic shield ring, but also the shape of the cover, the shape of the suspension spring, the number and number of arms, the shape of the diaphragm, the shape of the permanent magnet, the shape of the pole piece, the shape of the top plate, and the additional mass Further, the shape of other details, the addition of other members, or the material of each part can be variously changed.
[0021]
【The invention's effect】
(1) In the present invention, since the magnetic-shielding ring is disposed at a position separated by the arm portion of the suspension spring outside the ring-shaped permanent magnet, it is leaked even in the outer-magnet type structure despite the simple structure. There is an effect that the magnetic flux can be made sufficiently small.
[0022]
(2) Furthermore, the configuration in which the magnetic shield ring is disposed between the outer rings of the two suspension springs has an effect of realizing an effective magnetic shield structure without increasing the outer diameter of the multi-function sounding body.
[0023]
(3) Further, the structure in which the magnetic shielding member is insert-molded in the cover has an effect that the magnetic shielding member can be automatically arranged at a correct position inside the multifunctional sounding body. Further, there is an effect that the two covers can be correctly positioned using the magnetic shielding member as an intermediary.
[0024]
(4) Further, by using a synthetic resin material mixed with high permeability material powder in the cover, there is an effect that the cover can share the magnetic shielding action and more effective magnetic shielding can be performed.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a multifunctional sounding body as an example of an embodiment of the present invention.
2A is a plan view of an upper cover in an example of an embodiment of the present invention, and FIG. 2B is a plan view of a lower cover in the same example.
FIG. 3 is a perspective view of a pole piece in an example of an embodiment of the present invention.
FIG. 4 is a cross-sectional view of a first conventional example of a multifunctional sounding body.
FIG. 5 is a cross-sectional view of a second conventional example of a multi-function sounding body.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Cover 1a Upper cover 1b Lower cover 1f Terminal part 1g Terminal pin 2 Diaphragm 3 Voice coil 4 Pole piece 5 Permanent magnet 6 Top plate 7 Yoke 8a Upper suspension spring 8b Lower suspension spring 8d Ground terminal 9 Additional mass 10 Magnetic shield ring 11 Groove

Claims (3)

カバーと、該カバーに支持され音響周波数の電磁力を受けて振動する振動板と、前記カバーに弾性部材により弾性支持されて比較的低周波の振動系を構成し、前記振動板に対して前記電磁力を発生するための磁界を与える永久磁石を含み比較的質量の大なる外磁型の磁気回路より成り、複数の周波数帯の電気的入力に対応して前記振動板または前記磁気回路が主に応答して振動する多機能型発音体において、前記永久磁石はリング状をなしてその内側に前記磁界を形成すると共に、
前記弾性部材は、それぞれ内側のリング、外側のリングおよびこれら内外のリングを連結する一対の弧状の腕部より成る2枚の平行な板状の、上サスペンションバネおよび下サスペンションバネであり、
前記外磁型の磁気回路は、リング状の前記永久磁石の上面にトッププレートの下面が接し、前記永久磁石の下面にポールピースの周縁部の上面が接して構成されており、
前記上サスペンションバネの内側のリングは前記トッププレートの上面の段差部に固着され、前記下サスペンションバネの内側のリングは前記ポールピースの下面の段差部に固着され、
前記上サスペンションバネの前記外側のリングと前記下サスペンションバネの前記外側のリングに挟まれた位置に、前記筐体の外部への磁束の漏洩を減少させるため、透磁率の大きい材料より成る防磁リングを配置したことを特徴とする多機能型発音体。
A cover, a diaphragm that is supported by the cover and vibrates by receiving an electromagnetic force of an acoustic frequency, and constitutes a relatively low-frequency vibration system that is elastically supported by the cover by an elastic member; An outer magnet type magnetic circuit having a relatively large mass including a permanent magnet that provides a magnetic field for generating an electromagnetic force, and the diaphragm or the magnetic circuit is mainly used in response to electrical inputs in a plurality of frequency bands. In the multifunctional sounding body that vibrates in response to the above, the permanent magnet forms a ring shape and forms the magnetic field inside thereof,
The elastic members are two parallel plate-like upper suspension springs and lower suspension springs each composed of an inner ring, an outer ring, and a pair of arc-shaped arms connecting the inner and outer rings,
The outer magnetic type magnetic circuit is configured such that the lower surface of the top plate is in contact with the upper surface of the ring-shaped permanent magnet, and the upper surface of the peripheral portion of the pole piece is in contact with the lower surface of the permanent magnet,
The inner ring of the upper suspension spring is fixed to the stepped portion on the upper surface of the top plate, and the inner ring of the lower suspension spring is fixed to the stepped portion of the lower surface of the pole piece,
To the position where the sandwiched outer ring of the lower suspension spring and the outer ring of the upper suspension spring, to reduce the magnetic flux leakage to the outside of the casing, made of material with a high permeability magnetic-shield Multi-function sound generator characterized by the arrangement of rings .
前記磁気遮蔽部材は前記カバーにインサートモールドされていることを特徴とする請求項1の多機能型発音体。  The multi-function sounding body according to claim 1, wherein the magnetic shielding member is insert-molded to the cover. 前記カバーは高透磁率の材料粉末を混入した合成樹脂材料で成形されていることを特徴とする請求項1の多機能型発音体。  The multi-function sounding body according to claim 1, wherein the cover is formed of a synthetic resin material mixed with a material powder having a high magnetic permeability.
JP2000052741A 2000-02-29 2000-02-29 Multi-functional pronunciation body Expired - Fee Related JP4603124B2 (en)

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JP2006203709A (en) 2005-01-24 2006-08-03 Citizen Electronics Co Ltd Oscillator
DE102008055172A1 (en) * 2008-12-29 2010-07-01 Sennheiser Electronic Gmbh & Co. Kg transducer
KR101046003B1 (en) 2010-11-17 2011-07-04 삼성전기주식회사 Linear oscillator
GB2497315A (en) * 2011-12-06 2013-06-12 B & W Group Ltd Decoupled loudspeaker drive unit operated by magnet reaction force or recoil
CN104918191A (en) * 2015-06-29 2015-09-16 歌尔声学股份有限公司 Loudspeaker structure

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CN103337942A (en) * 2013-07-19 2013-10-02 金龙机电股份有限公司 Thin type flat rectilinear vibration motor

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