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JP2001225010A - Multi-functional sound generating body - Google Patents

Multi-functional sound generating body

Info

Publication number
JP2001225010A
JP2001225010A JP2000035956A JP2000035956A JP2001225010A JP 2001225010 A JP2001225010 A JP 2001225010A JP 2000035956 A JP2000035956 A JP 2000035956A JP 2000035956 A JP2000035956 A JP 2000035956A JP 2001225010 A JP2001225010 A JP 2001225010A
Authority
JP
Japan
Prior art keywords
magnetic circuit
support spring
fixed
top plate
sounding body
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP2000035956A
Other languages
Japanese (ja)
Inventor
Takashi Kobayashi
小林  孝
Akira Yoneyama
昭 米山
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Citizen Electronics Co Ltd
Original Assignee
Citizen Electronics Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Citizen Electronics Co Ltd filed Critical Citizen Electronics Co Ltd
Priority to JP2000035956A priority Critical patent/JP2001225010A/en
Publication of JP2001225010A publication Critical patent/JP2001225010A/en
Pending legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B06GENERATING OR TRANSMITTING MECHANICAL VIBRATIONS IN GENERAL
    • B06BMETHODS OR APPARATUS FOR GENERATING OR TRANSMITTING MECHANICAL VIBRATIONS OF INFRASONIC, SONIC, OR ULTRASONIC FREQUENCY, e.g. FOR PERFORMING MECHANICAL WORK IN GENERAL
    • B06B1/00Methods or apparatus for generating mechanical vibrations of infrasonic, sonic, or ultrasonic frequency
    • B06B1/02Methods or apparatus for generating mechanical vibrations of infrasonic, sonic, or ultrasonic frequency making use of electrical energy
    • B06B1/04Methods or apparatus for generating mechanical vibrations of infrasonic, sonic, or ultrasonic frequency making use of electrical energy operating with electromagnetism
    • B06B1/045Methods or apparatus for generating mechanical vibrations of infrasonic, sonic, or ultrasonic frequency making use of electrical energy operating with electromagnetism using vibrating magnet, armature or coil system

Landscapes

  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Details Of Audible-Bandwidth Transducers (AREA)
  • Electrostatic, Electromagnetic, Magneto- Strictive, And Variable-Resistance Transducers (AREA)
  • Apparatuses For Generation Of Mechanical Vibrations (AREA)
  • Audible-Bandwidth Dynamoelectric Transducers Other Than Pickups (AREA)

Abstract

PROBLEM TO BE SOLVED: To materialize a multi-functional sound generating body which generates both sound and vibration by using an external magnet type magnetic circuit part to be small in size, high in performance, and low in price. SOLUTION: On the upper surface side of the magnetic circuit part 33 comprising a magnet 37, a pole piece 38, and a top plate 39, the inside part of a support spring A (36) which has the inside part and a circular outside part and is formed in a shape in which the parts are connected by arc-shaped arm parts is fixed and the outside part is fixed to a cover and supported. A support spring B in a shape in which the spring A is rotated at 90 deg. is used on the lower surface side, and both surfaces of the circuit part are supported. The circuit part and the springs A, B are positioned by engaging round holes in the middle of springs with circular step parts formed on the upper surface of the top plate and on the lower surface of the pole piece. Since the springs are circular, cases are made circular and can be miniaturized. Since the upper and lower surface of the circuit part are supported, the part is not slanted, and its action is stabilized. Since the springs are positioned by the step parts and the round holes, the mutual centering of parts is simple and exact.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】本発明は、携帯電話やペイジ
ャー等の移動体通信機に組み込み、着信を音響あるいは
振動によって使用者に知らせる多機能型発音体に関する
ものである。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multifunctional sound generator incorporated in a mobile communication device such as a portable telephone or a pager to notify a user of an incoming call by sound or vibration.

【0002】[0002]

【従来の技術】上記のような携帯機器は、一般に、使用
者に着信を知らせるのにブザー音やメロディ音を発する
ことと、音は出さずに振動することを切り替えて使える
よう構成されており、そのため小型スピーカーに類する
音響発生用の発音体と、偏心重りを小型モータで回転さ
せて振動を発生する振動体を内蔵させる構造が取られて
きた。このように発音体と振動体の両方を組み込むのは
機器の小型化や低価格化の上で不利であったが、近年、
1個の発音体で音響と振動の両方を発生するものが用い
られるようになった。この種の発音体には、ハンズフリ
ー状態で会話する際の音声出力用にも使用できる多機能
なものもある。
2. Description of the Related Art In general, such portable devices are configured so that they can be switched between emitting a buzzer sound or a melody sound to notify a user of an incoming call and vibrating without generating a sound. Therefore, a sound-generating body for generating sound similar to a small speaker and a vibrating body that generates vibration by rotating an eccentric weight with a small motor have been adopted. Incorporating both a sounding body and a vibrating body in this way was disadvantageous in terms of miniaturization and cost reduction of equipment, but in recent years,
One sounding body that generates both sound and vibration has come to be used. Some of these types of sounding bodies have multi-functions that can also be used for audio output when talking in a hands-free state.

【0003】図5は特開平10−257594号公報に
開示された振動発生器で、磁気回路部1は短円柱のセン
ターポール2aとフランジ2bからなるヨーク2、環状
の磁石3、トッププレート4を一体化して構成され、セ
ンターポール2aの外周とトッププレート4の内周の間
に磁気ギャップを生じている。磁気回路部1は湾曲した
断面の第1のサスペンション5で支持されて支持部材6
の上端に接合され、機械振動系を構成している。また、
支持部材6の上端に円板状の第1の振動板7が接合さ
れ、支持部材6の下端にボイスコイル8を支持した円板
状の第2のサスペンション9が接合されていて、ボイス
コイル8は磁気回路部1の磁気ギャップに位置してい
る。磁気回路部1、第1のサスペンション5、および第
1の振動板7の間に密閉された空室10が形成されてい
る。
FIG. 5 shows a vibration generator disclosed in Japanese Unexamined Patent Publication No. Hei 10-257594. A magnetic circuit unit 1 comprises a yoke 2 comprising a short pole center pole 2a and a flange 2b, an annular magnet 3, and a top plate 4. A magnetic gap is formed between the outer periphery of the center pole 2 a and the inner periphery of the top plate 4. The magnetic circuit unit 1 is supported by a first suspension 5 having a curved cross section, and is supported by a support member 6.
To form a mechanical vibration system. Also,
A first disk-shaped diaphragm 7 is joined to the upper end of the support member 6, and a second disk-shaped suspension 9 supporting the voice coil 8 is joined to the lower end of the support member 6. Are located in the magnetic gap of the magnetic circuit section 1. A closed air space 10 is formed between the magnetic circuit section 1, the first suspension 5, and the first diaphragm 7.

【0004】この構成の振動発生器のボイスコイル8に
交流の電気信号が入力されると、ボイスコイル8と磁気
回路部1の間に電磁力が発生して磁気回路部1が振動
し、この振動が支持部材6を経てこの振動発生器を組み
込んだ機器に伝わり、使用者に着信を知らせる。上記文
献に示された他の実施形態には、図5では平板である第
2のサスペンション9を断面が波形の第2の振動板にし
たものがあり、その場合、ボイスコイルに供給される電
気信号の周波数が可聴周波数帯を下回る比較的低いもの
であると、上記の説明と同様に磁気回路部1が振動して
使用者に着信を知らせるが、電気信号の周波数がある程
度高くて可聴周波数領域のものであると、第1のサスペ
ンション5で支持された磁気回路部は固有振動数が低い
ためほとんど振動しなくなり、一方、ボイスコイル8が
固定された第2の振動板の振動が大きくなってブザー音
を発生する。これにより、供給する電気信号の周波数に
応じて1個の発音体で発音と振動の両様の動作をする多
機能型発音体が得られる。
When an AC electric signal is input to the voice coil 8 of the vibration generator having this configuration, an electromagnetic force is generated between the voice coil 8 and the magnetic circuit unit 1 and the magnetic circuit unit 1 vibrates. The vibration is transmitted to the device incorporating the vibration generator via the support member 6 to notify the user of the incoming call. In another embodiment shown in the above document, the second suspension 9 which is a flat plate in FIG. 5 is formed as a second diaphragm having a corrugated cross section. In this case, the electric power supplied to the voice coil is provided. If the frequency of the signal is relatively low below the audible frequency band, the magnetic circuit unit 1 vibrates to notify the user of the incoming call as described above, but the frequency of the electric signal is somewhat high and the audible frequency range is low. In this case, the magnetic circuit portion supported by the first suspension 5 hardly vibrates because of its low natural frequency, while the vibration of the second diaphragm to which the voice coil 8 is fixed increases. Generates a buzzer sound. As a result, a multi-functional sounding body can be obtained in which one sounding body performs both sounding and vibration operations in accordance with the frequency of the supplied electric signal.

【0005】図6は特開平11−68093号公報に開
示された多機能型発音体で、図(A)は平面図、図
(B)は(A)のB−B断面図である。支持部材15は
輪郭が矩形で中央部の円形空洞に磁気回路部21を収容
している。磁気回路部21はヨーク16、磁石12、お
よびトッププレート13が一体になったもので、さらに
環状の重り19がヨーク16の外周に取り付けられて、
磁気回路部21と重り19で可動部22を構成してい
る。サスペンション17は支持部17aが重り19の上
面に取り付けられて可動部22を支持し、腕部17bの
先端の固定部17cが支持部材15の受容部に固定され
ている。
FIG. 6 shows a multifunctional sounding body disclosed in Japanese Patent Application Laid-Open No. 11-68093. FIG. 6A is a plan view, and FIG. 6B is a sectional view taken along line BB of FIG. The support member 15 has a rectangular outline and accommodates the magnetic circuit section 21 in a circular cavity at the center. The magnetic circuit portion 21 is one in which the yoke 16, the magnet 12, and the top plate 13 are integrated, and an annular weight 19 is attached to the outer periphery of the yoke 16,
The movable portion 22 is constituted by the magnetic circuit portion 21 and the weight 19. The suspension 17 has a support portion 17 a attached to the upper surface of the weight 19 to support the movable portion 22, and a fixed portion 17 c at the tip of the arm portion 17 b is fixed to a receiving portion of the support member 15.

【0006】サスペンション18はサスペンション17
と同じ形状のものであるが、サスペンション17に対し
平面的に見て90°回転した位置で、支持部が重り19
の下面に取り付けられて可動部22を支持し、腕部18
bの先端の固定部18cが支持部材15の受容部に固定
されている。円形の振動板11が外周を支持部材15の
下面に取り付けられており、振動板11に固定されたボ
イスコイル14がヨーク16の中央凹部の内周とトップ
プレート13の外周の間の磁気ギャップに挿入されてい
る。ボイスコイル14の巻き線端末は入力端子20に接
続されている。
The suspension 18 is a suspension 17
However, at a position rotated by 90 ° with respect to the suspension 17 in a plan view, the support portion has a weight 19.
The movable part 22 is attached to the lower surface of the
The fixing portion 18c at the tip of b is fixed to the receiving portion of the support member 15. A circular diaphragm 11 has an outer periphery attached to the lower surface of the support member 15, and a voice coil 14 fixed to the diaphragm 11 is provided in a magnetic gap between the inner periphery of the central recess of the yoke 16 and the outer periphery of the top plate 13. Has been inserted. The winding terminal of the voice coil 14 is connected to the input terminal 20.

【0007】図6の多機能型発音体の動作は前述のもの
と同様で、ボイスコイル14に可聴周波数の信号電流が
流れると、振動板11が磁気回路部21の吸引力を受け
て振動して音響を発生し、信号の周波数が低くて機械振
動領域であると、振動板11からは音が出なくなる一
方、可動部22が振動して使用者に着信を知らせるので
ある。
The operation of the multifunctional sound generator shown in FIG. 6 is the same as that described above. When a signal current of an audible frequency flows through the voice coil 14, the diaphragm 11 vibrates under the attraction of the magnetic circuit portion 21. If the frequency of the signal is low and the vibration is in the mechanical vibration region, no sound is output from the diaphragm 11, while the movable portion 22 vibrates to notify the user of the incoming call.

【0008】図7は特開平11−69488号公報に見
られる多機能型発音体の可動部の構造で、磁石12とト
ッププレート13をヨーク16に搭載した磁気回路部2
1の上下に2個のサスペンション17、18を固定して
あり、サスペンション17、18の腕部の先端の固定部
を、図6に見るのと同様に支持部材に固定して多機能型
発音体を構成するものである。2枚のサスペンション1
7、18はばね動作の安定のために互いに90°ずれた
位置に固定するのであり、ヨーク16の上下面にダボ1
6aと16bを1対ずつ設け、サスペンション17、1
8の小穴をこれらのダボにはめて位置決めしている。
FIG. 7 shows a structure of a movable part of a multifunctional sounding body disclosed in Japanese Patent Application Laid-Open No. 11-69488. The magnetic circuit part 2 has a magnet 12 and a top plate 13 mounted on a yoke 16.
The two suspensions 17 and 18 are fixed on the upper and lower sides of the device 1, and the fixing portions at the tips of the arms of the suspensions 17 and 18 are fixed to the support member as shown in FIG. It constitutes. Two suspensions 1
Numerals 7 and 18 are fixed at positions shifted from each other by 90 ° to stabilize the spring operation.
6a and 16b are provided in pairs, and the suspensions 17 and 1
The small holes No. 8 are positioned in these dowels.

【0009】[0009]

【発明が解決しようとする課題】図5の従来例の場合、
磁気回路部1を弾性支持する湾曲断面の第1のサスペン
ション5は膜状の部材であるから、振動エネルギーを上
げたくとも大きく変位させるのが困難だったり、応力が
増えて材料の疲労を起こしやすかったりする。そして第
1のサスペンション5が磁気回路部1の上面側を支持し
ているだけなので、振動中に磁気回路部1が傾く傾向を
生じた場合これを防ぐことができず、その結果、ボイス
コイル8とセンターポール2aやトッププレート4が接
触して異音を発したり、部品を損傷したりする恐れがあ
る。
In the case of the conventional example shown in FIG.
Since the first suspension 5 having a curved cross section for elastically supporting the magnetic circuit portion 1 is a film-shaped member, it is difficult to make large displacement even if the vibration energy is increased, or the material tends to be fatigued due to increased stress. Or Since the first suspension 5 only supports the upper surface side of the magnetic circuit section 1, if the magnetic circuit section 1 tends to tilt during vibration, this cannot be prevented. As a result, the voice coil 8 The center pole 2a and the top plate 4 may come into contact with each other to generate abnormal noise or damage components.

【0010】図6の従来例では、磁気回路部21と重り
19を一体化した可動部22の上下両側を2枚のサスペ
ンション17、18で支持しているので、振動中に可動
部22が傾斜することが防がれ、可動部を支えるサスペ
ンションの腕部17b、18bは長さがあるので、振動
時にサスペンション17、18の応力が過大になること
もないが、サスペンション17、18の腕部17b、1
8bの先端の固定部17c、18cがある程度の面積を
持つので、2枚のサスペンションの向きを90°ずらし
て取り付けると、支持部材15の四隅を固定部17c、
18cが占めて、支持部材15の輪郭を矩形か正方形に
せねばならず、面積の小さな円形にすることができな
い。
In the prior art shown in FIG. 6, since the upper and lower sides of a movable portion 22 in which a magnetic circuit portion 21 and a weight 19 are integrated are supported by two suspensions 17 and 18, the movable portion 22 tilts during vibration. And the arms 17b and 18b of the suspension supporting the movable portion have a long length, so that the stress of the suspensions 17 and 18 does not become excessive during vibration. , 1
Since the fixing portions 17c and 18c at the tip of 8b have a certain area, if the two suspensions are mounted with the directions shifted by 90 °, the four corners of the supporting member 15 are fixed to the fixing portions 17c and 17c.
18c, the contour of the support member 15 must be rectangular or square, and cannot be a circle having a small area.

【0011】図7の従来例では、サスペンション17、
18を磁気回路部21に固定する際の位置決めを、ヨー
ク16の上下面のダボ16a、16bとサスペンション
17、18に設けた小穴のはめ合いで行っている。しか
し、そのためにはダボ径と小穴径、および二つのダボ間
および二つの小穴間の中心間距離を精度よく製作せねば
ならず、加工の手間が増す。本発明はこれらの問題を解
決して、有用な多機能型発音体を実現することを目的と
する。
In the conventional example shown in FIG.
Positioning when fixing 18 to the magnetic circuit portion 21 is performed by fitting dowels 16 a and 16 b on the upper and lower surfaces of the yoke 16 with small holes provided in the suspensions 17 and 18. However, for that purpose, the diameter of the dowel and the diameter of the small hole and the distance between the centers of the two dowels and between the two small holes must be manufactured with high accuracy, which increases the processing labor. An object of the present invention is to solve these problems and realize a useful multifunctional sounding body.

【0012】[0012]

【課題を解決するための手段】従来、市場に現れた多機
能型発音体では、磁気回路部は短円筒の縁のついた深皿
状の磁性材料のヨークの内側に短円柱状の磁石を接合
し、磁石の上面に磁性体のトッププレートを接合した構
成で、磁石がボイスコイルの内側に位置することから内
磁型と呼ばれるものに限られていた。これに対し本発明
では外磁型の磁気回路を用いる。
Means for Solving the Problems Conventionally, in a multifunctional sounding body which has appeared on the market, a magnetic circuit portion has a short columnar magnet inside a yoke of a deep dish-shaped magnetic material with an edge of a short cylinder. In this configuration, a magnetic top plate is joined to the upper surface of the magnet, and since the magnet is located inside the voice coil, it has been limited to what is called an inner magnet type. On the other hand, in the present invention, an external magnet type magnetic circuit is used.

【0013】外磁型の磁気回路では磁路は短い円柱部で
あるセンターポールにフランジの付いたポールピースを
備え、内径がボイスコイル外径より大きい円環状の磁石
をボイスコイルを取り囲むようにポールピースのフラン
ジに接合し、磁石の上面に円環状のトッププレートを接
合してある。この磁気回路部を支持ばねで弾性支持して
カバー内に収容する。支持ばねは内周部と円環状の外周
部を複数の円弧状の腕部で連結した形状であって、内周
部を点溶接等によって磁気回路部に固定し、外周部を接
着やインサート成形によってカバーに固定する。支持ば
ねが円形であるからカバーも円形に作ることができる。
In the magnetic circuit of the outer magnet type, the magnetic path is provided with a pole piece with a flange on a center pole which is a short cylindrical portion, and an annular magnet whose inner diameter is larger than the outer diameter of the voice coil is formed so as to surround the voice coil. It is joined to the flange of the piece, and an annular top plate is joined to the upper surface of the magnet. The magnetic circuit is elastically supported by a support spring and housed in the cover. The support spring has a shape in which the inner peripheral portion and the annular outer peripheral portion are connected by a plurality of arc-shaped arms, and the inner peripheral portion is fixed to the magnetic circuit portion by spot welding or the like, and the outer peripheral portion is bonded or insert molded. To the cover. Since the support spring is circular, the cover can also be made circular.

【0014】さらに本発明では、上記のような外周が円
環状の支持ばねをもう1枚追加して2枚用い、磁気回路
部を上下両側で支持する。これによって磁気回路部が上
下両面とも横振れしなくなって傾斜せず、振動中に磁気
回路部とボイスコイルが接触したりすることが防がれ
る。2枚の支持ばねは平面位置を90°ずらして配置す
ることにより、ばね特性に方向性が生じるのを押さえ
る。
Further, according to the present invention, two additional support springs having an annular outer periphery as described above are used, and the magnetic circuit portion is supported on both upper and lower sides. As a result, the magnetic circuit section does not swing and does not tilt on both the upper and lower surfaces, thereby preventing the magnetic circuit section from contacting the voice coil during vibration. By arranging the two support springs at a plane position shifted by 90 °, it is possible to suppress the generation of directionality in the spring characteristics.

【0015】また本発明では、支持ばねを磁気回路部に
固定するに当たって、ポールピースとトッププレートの
各表面に丈の低い円形の段差部を形成し、支持ばねの内
周部の丸穴をこれらの段差部にはめることによって部品
相互の中心出しを行う。図7の従来例のように複数のダ
ボと小穴のはめ合いによることがないので、ダボ間ある
いは小穴間の中心距離を精度よく製作したりする必要が
なくなる。
According to the present invention, when the supporting spring is fixed to the magnetic circuit portion, a low-height circular step is formed on each surface of the pole piece and the top plate, and the round holes in the inner peripheral portion of the supporting spring are formed. The parts are centered by fitting them into the steps. Since there is no need to fit a plurality of dowels and small holes as in the conventional example of FIG. 7, there is no need to accurately manufacture the center distance between the dowels or small holes.

【0016】[0016]

【発明の実施の形態】以下、図面に基づいて本発明の実
施形態を説明する。図1は本発明による多機能型発音体
の第1の実施形態で、図(A)は平面図、図(B)は
(A)のB−B断面図である。図(A)は分かりやすく
するため、図(B)に見られる振動板34を除去して描
いてある。樹脂製のカバーA(31)とカバーB(3
2)を突き合わせたケースに磁気回路部33を収容して
あり、磁気回路部33は短円柱状のセンターポール38
aとフランジ38bからなる磁性材料のポールピース3
8のフランジ38bに円環状の磁石37を接合し、磁石
37の上面に同じく円環状の磁性材料のトッププレート
39を接合したものである。トッププレート39に支持
ばねA(36)の内周部を点溶接その他の手段で固定
し、支持ばねA(36)の外周部をカバーB(32)に
接着やインサート成形で固定してあって、磁気回路部3
3は支持ばねA(36)により弾性支持されて振動部を
構成している。
Embodiments of the present invention will be described below with reference to the drawings. 1A and 1B show a first embodiment of a multifunctional sounding body according to the present invention, wherein FIG. 1A is a plan view, and FIG. 1B is a sectional view taken along line BB of FIG. 1A. In FIG. 7A, the diaphragm 34 shown in FIG. 7B is removed for clarity. Resin cover A (31) and cover B (3
The magnetic circuit portion 33 is housed in a case where the two are abutted, and the magnetic circuit portion 33 has a short cylindrical center pole 38.
and a pole piece 3 of a magnetic material comprising a flange 38b
An annular magnet 37 is joined to the flange 38b of No. 8 and a top plate 39 of an annular magnetic material is joined to the upper surface of the magnet 37. The inner peripheral portion of the support spring A (36) is fixed to the top plate 39 by spot welding or other means, and the outer peripheral portion of the support spring A (36) is fixed to the cover B (32) by bonding or insert molding. , Magnetic circuit section 3
Numeral 3 is elastically supported by a support spring A (36) to form a vibrating portion.

【0017】図1(A)、(B)に見るように、ポール
ピース38のフランジ38bの外周には外向きに2個の
突出部38cを設けてある。その先端がカバーA(3
1)の内周に接近しているので、衝撃力を受けた際など
に磁気回路部33が横方向に過大に変位して破損したり
するのが防がれる。カバーB(32)の上面に振動板3
4が固定してあり、振動板34にはボイスコイル35が
固定してあって、ボイスコイル35はセンターポール3
8aの外周とトッププレート39の内周で形成される磁
気ギャップ内に位置している。
As shown in FIGS. 1A and 1B, two protrusions 38c are provided outward on the outer periphery of the flange 38b of the pole piece 38. The tip is cover A (3
Since it is close to the inner circumference of 1), it is possible to prevent the magnetic circuit section 33 from being excessively displaced in the lateral direction and damaged when receiving an impact force or the like. The diaphragm 3 is provided on the upper surface of the cover B (32).
4, a voice coil 35 is fixed to the diaphragm 34, and the voice coil 35 is fixed to the center pole 3
8a is located in a magnetic gap formed by the outer periphery of the top plate 39 and the inner periphery of the top plate 39.

【0018】磁性体のリング40は磁気回路部33を遮
蔽して発生磁界がケース外部に洩れるのを防ぐために設
けたものである。カバーBには外部回路との接続用に2
個の接続端子41が設けてあり、ボイスコイル35の巻
き線の端末を半田付け等でこれに接続する。36dは支
持ばねA(36)と一体に形成した接地端子で、外部回
路への組み込み時に磁気回路部33が帯びている静電気
を接地に逃がして、回路の静電破壊を防ぐ作用をする。
The magnetic ring 40 is provided to shield the magnetic circuit portion 33 and prevent the generated magnetic field from leaking outside the case. Cover B has 2
A plurality of connection terminals 41 are provided, and terminals of windings of the voice coil 35 are connected to the terminals by soldering or the like. Reference numeral 36d denotes a ground terminal integrally formed with the support spring A (36), which discharges static electricity carried by the magnetic circuit portion 33 to ground when incorporated in an external circuit, and has a function of preventing electrostatic breakdown of the circuit.

【0019】本発明の多機能型発音体の動作は従来例の
ものと同様で、接続端子41を通じてボイスコイル35
に信号電流を流すと、磁気回路部33とボイスコイル3
5の間に交番的な電磁力を発生し、信号の周波数が可聴
周波数帯にあれば振動板34が振動して音響を発生し、
周波数がそれより低くなれば振動板34の振動は小さく
なって音を発生しなくなり、代わりに支持ばねA(3
6)で支持された磁気回路部33が機械振動して、その
振動がケースを経てこれを組み込んだ機器に伝わり、使
用者に着信を知らせる。
The operation of the multifunctional sounding body of the present invention is the same as that of the conventional example.
When a signal current flows through the magnetic circuit unit 33 and the voice coil 3
5, an alternating electromagnetic force is generated, and if the frequency of the signal is in the audible frequency band, the diaphragm 34 vibrates to generate sound,
If the frequency is lower than that, the vibration of the diaphragm 34 becomes smaller and no sound is generated. Instead, the supporting spring A (3
The magnetic circuit part 33 supported in 6) vibrates mechanically, and the vibration is transmitted to a device incorporating the same via a case to notify a user of an incoming call.

【0020】図2は支持ばねA(36)の平面図であ
る。支持ばねA(36)は、内周部36aから2本の円
弧状の腕部36bが伸びて円環状の外周部36cにつな
がっている。先に述べたように内周部36aを磁気回路
部33に固定し、外周部36cをカバーB(32)に固
定する。これによって図1に見るようにケースの輪郭を
円形にできる。図6や図7のように円環状の外周部を持
たない従来のサスペンション17では、腕部17bの先
端の固定部17cを支持部材15に固定するためにはケ
ース輪郭が四角張ったものになり、本発明のような円形
のケースに比し面積が大きくなって機器を小型化する上
で不利である。図2にて36dは接地端子で、支持ばね
(36)のばね機能とは関係ないが、前述のようにこれ
を設けておけば磁気回路部33を接地できて有益であ
る。
FIG. 2 is a plan view of the support spring A (36). In the support spring A (36), two arc-shaped arms 36b extend from the inner peripheral portion 36a and are connected to an annular outer peripheral portion 36c. As described above, the inner peripheral portion 36a is fixed to the magnetic circuit portion 33, and the outer peripheral portion 36c is fixed to the cover B (32). This allows the contour of the case to be circular as seen in FIG. In the conventional suspension 17 having no annular outer peripheral portion as shown in FIGS. 6 and 7, the case outline becomes square in order to fix the fixing portion 17 c at the tip of the arm portion 17 b to the support member 15. This is disadvantageous in reducing the size of the device because the area is larger than that of a circular case as in the present invention. In FIG. 2, reference numeral 36d denotes a ground terminal, which has nothing to do with the spring function of the support spring (36). However, if this is provided as described above, the magnetic circuit section 33 can be grounded, which is useful.

【0021】図3は本発明の多機能型発音体の第2の実
施形態の断面図で、これは先の図1で示した第1の実施
形態に、さらにもう1枚の支持ばねB(42)を追加し
て構成したものである。支持ばねB(42)は内周部を
ポールピース38に点溶接等で固定し、外周部をカバー
A(31)に固定する。図1の多機能型発音体の場合、
磁気回路部33は基本的には単純な上下振動を行うが、
重量の僅かな不釣り合いなどのためにどうしても振動中
に傾斜する傾向を生じる。するとセンターポール38a
の上端外周やトッププレート39の内周がボイスコイル
35に接触して異音を生じたり、ボイスコイル35の断
線の原因になったりすることがある。図3の実施形態で
は、磁気振動部33の下面側も支持ばねB(42)で支
持することにより、磁気振動部33の上下両面の横揺れ
が防止されて磁気振動部33は傾斜することなく上下振
動する。
FIG. 3 is a cross-sectional view of a second embodiment of the multifunctional sounding body according to the present invention, which is the same as the first embodiment shown in FIG. 42). The support spring B (42) fixes the inner peripheral portion to the pole piece 38 by spot welding or the like, and fixes the outer peripheral portion to the cover A (31). In the case of the multifunctional sounding body of FIG.
The magnetic circuit part 33 basically performs a simple vertical vibration,
Due to a slight imbalance in weight, there is a tendency to incline during vibration. Then the center pole 38a
The outer periphery of the upper end and the inner periphery of the top plate 39 may come into contact with the voice coil 35, causing abnormal noise or disconnection of the voice coil 35. In the embodiment of FIG. 3, the lower surface side of the magnetic vibrating part 33 is also supported by the support spring B (42), so that the upper and lower sides of the magnetic vibrating part 33 are prevented from rolling, and the magnetic vibrating part 33 does not tilt. Vibrates up and down.

【0022】図3の上下2個の支持ばねの平面図を図4
に示し、図(A)が支持ばねA(36)、図(B)が支
持ばねB(42)である。支持ばねB(42)は、接地
端子36dを設ける必要がないことを除き支持ばねA
(36)と同形状で、内周部42aと腕部42bと外周
部42cからなる。ただし、同図(A)、(B)の関係
に見るように平面的に互いに90°ずらしてケースに取
り付ける。これは、極力、方向によらず均一なばね特性
を得るためである。
FIG. 4 is a plan view of the upper and lower two support springs of FIG.
(A) shows a support spring A (36), and FIG. (B) shows a support spring B (42). The support spring B (42) is the same as the support spring A except that it is not necessary to provide the ground terminal 36d.
It has the same shape as (36) and includes an inner peripheral portion 42a, an arm portion 42b, and an outer peripheral portion 42c. However, they are attached to the case so as to be shifted from each other by 90 ° in a plan view as seen in the relationship between FIGS. This is to obtain uniform spring characteristics irrespective of direction and direction.

【0023】このように支持ばねを2枚用いることは、
磁気回路部の傾斜を防ぐ以外にも次のような利点があ
る。すなわち1枚の支持ばねが持つばね定数は振動系に
必要なばね定数の半分でいいから、腕部36b、42b
を細長くできて応力を小さくできる。また振動系の共振
周波数が駆動信号の周波数に近いと振動が過大になって
傾斜などを起こしやすく、共振周波数を信号の周波数か
ら離すのが好ましいが、このような調整も1枚の支持ば
ねで行うよりも2枚の支持ばねに分担させて行う方が容
易である。
The use of two support springs as described above
The following advantages are provided in addition to the prevention of the inclination of the magnetic circuit portion. That is, since the spring constant of one supporting spring is half the spring constant required for the vibration system, the arm portions 36b, 42b
Can be elongated to reduce stress. If the resonance frequency of the vibration system is close to the frequency of the drive signal, the vibration becomes excessive and the inclination is apt to occur, and it is preferable that the resonance frequency is separated from the frequency of the signal. It is easier to carry out by sharing the two support springs than to carry out.

【0024】図3の実施形態の平面図はほぼ図1(A)
と同じで、ポールピース38のフランジ38bの外周に
突出部38cを2箇所、外向きに設けてある。突出部3
8cは前述のように先端をカバー内壁に接近させて横方
向の不要の変位を防ぐものであるが、フランジ38bの
全周でカバーに接近させないのは、一つにはそのように
するとフランジの受ける空気抵抗が増して、磁気回路部
33の自由な振動が阻害されるからである。
FIG. 1A is a plan view of the embodiment of FIG.
In the same manner as described above, two protrusions 38c are provided outward on the outer periphery of the flange 38b of the pole piece 38. Projection 3
8c is to prevent the unnecessary displacement in the lateral direction by making the tip close to the inner wall of the cover as described above. This is because the received air resistance increases and free vibration of the magnetic circuit section 33 is hindered.

【0025】また他の理由として、図3に見るように支
持ばねB(42)は、ポールピース38のフランジ38
bや突出部38cに対し密着しているか極狭い隙間しか
ないので、フランジ38bの全周をカバー内壁に接近さ
せたのでは、磁気回路部33が下方に変位しようとする
時、支持ばねB(42)の腕部42b[図4(B)]が
フランジ38bと重なって曲がることができず、従って
磁気回路部33が下方に変位できなくなる。そこで、突
出部38cを設けるのは、支持ばねB(42)の腕部4
2bが内周部36aにつながる箇所の近辺だけに限るの
である。
As another reason, as shown in FIG. 3, the support spring B (42) is connected to the flange 38 of the pole piece 38.
b and the protrusion 38c, or there is only a very narrow gap. Therefore, if the entire circumference of the flange 38b is close to the inner wall of the cover, the support spring B ( The arm 42b (FIG. 4B) of 42) overlaps the flange 38b and cannot be bent, so that the magnetic circuit section 33 cannot be displaced downward. Therefore, the provision of the protruding portion 38c is based on the arm 4 of the support spring B (42).
2b is limited only to the vicinity of the portion connected to the inner peripheral portion 36a.

【0026】本発明のもう一つの特徴は、支持ばねA
(36)、支持バネB(42)を磁気回路部33に固定
するために部品同士を位置決めする方法である。これに
は図3に見るように、トッププレート39の上面に円形
の段差部44を設け、またポールピース38のフランジ
38bの下面にも円形の段差部43を設ける。そしてこ
れらの段差部に図4の支持バネA(36)と支持バネB
(42)の内周部36a、42aの径大の丸穴をはめて
位置決めし、点溶接等で固定する。これにより図7の従
来例におけるダボと小穴を用いた位置決めのような、ダ
ボ間や小穴間の中心距離に精度を要するという制約がな
くなり、部品相互の中心出しが容易で確実になって、組
み立て治具等も簡単なもので済むようになる。
Another feature of the present invention is that the support spring A
(36) This is a method of positioning components to fix the support spring B (42) to the magnetic circuit section 33. 3, a circular step 44 is provided on the upper surface of the top plate 39, and a circular step 43 is also provided on the lower surface of the flange 38b of the pole piece 38. The support spring A (36) and the support spring B shown in FIG.
The large-diameter round holes of the inner peripheral portions 36a and 42a of (42) are fitted and positioned, and fixed by spot welding or the like. This eliminates the restriction that the center distance between the dowels and the small holes requires precision, such as the positioning using the dowels and the small holes in the conventional example of FIG. Jigs and the like can be simplified.

【0027】[0027]

【発明の効果】以上述べたように、本発明は外磁型の多
機能型発音体を実現するに当たり、磁気回路部を弾性支
持する支持ばねが円環状の外周部を持つので、ケースも
円形にできて製品が小型化され、かつ、2枚の支持ばね
を用いて磁気回路部の上面側と下面側を支持するので、
振動中に磁気回路部が傾斜しなくなって、磁気回路部と
ボイスコイルの接触が防がれて異音の発生や部品の損傷
が回避される。また、磁気回路部と支持ばねの中心出し
は、磁気回路部の構成部品であるポールピースおよびト
ッププレートにそれぞれ設けた円形の段差部と支持ばね
内周部の丸穴のはめ合いで行うので、簡単で正確であ
る。このように本発明によれば、外磁型の磁気回路によ
り、発音と振動の二つの作用をする多機能型発音体を小
型で高性能、かつ廉価に提供することができる。
As described above, according to the present invention, in realizing an external magnet type multifunctional sounding body, the support spring for elastically supporting the magnetic circuit portion has an annular outer peripheral portion, so that the case is also circular. As the product is made smaller and the upper and lower sides of the magnetic circuit are supported using two support springs,
The magnetic circuit portion does not tilt during the vibration, and the contact between the magnetic circuit portion and the voice coil is prevented, so that generation of abnormal noise and damage to components are avoided. In addition, since the centering of the magnetic circuit portion and the support spring is performed by fitting the circular step portion provided on the pole piece and the top plate, which are components of the magnetic circuit portion, and the round hole of the inner peripheral portion of the support spring, Easy and accurate. As described above, according to the present invention, it is possible to provide a small-sized, high-performance, and inexpensive multifunctional sounding body that performs two functions, sound generation and vibration, by using an external magnet type magnetic circuit.

【図面の簡単な説明】[Brief description of the drawings]

【図1】本発明の多機能型発音体の実施形態で、図
(A)は平面図、図(B)は(A)のB−B断面図であ
る。
FIG. 1A is a plan view of a multifunctional sounding body according to an embodiment of the present invention, and FIG. 1B is a sectional view taken along line BB of FIG. 1A.

【図2】図1の多機能型発音体に用いる支持ばねAの平
面図である。
FIG. 2 is a plan view of a support spring A used for the multifunctional sounding body of FIG.

【図3】本発明の多機能型発音体の別の実施形態の断面
図である。
FIG. 3 is a cross-sectional view of another embodiment of the multifunctional sounding body of the present invention.

【図4】図3の多機能型発音体に用いる2枚の支持ばね
の平面図で、図(A)が支持ばねA、図(B)が支持ば
ねBである。
4A and 4B are plan views of two support springs used in the multifunctional sounding body of FIG. 3, wherein FIG. 4A is a support spring A and FIG.

【図5】従来の多機能型発音体の断面図である。FIG. 5 is a sectional view of a conventional multifunctional sounding body.

【図6】従来の別の多機能型発音体で、図(A)は平面
図、図(B)は(A)のB−B断面図である。
6 (A) is a plan view and FIG. 6 (B) is a cross-sectional view taken along the line BB of FIG. 6 (A).

【図7】従来のさらに別の多機能型発音体の磁気回路部
とサスペンションで、図(A)は平面図、図(B)は
(A)のB−B断面図である。
7A is a plan view and FIG. 7B is a cross-sectional view taken along the line BB of FIG. 7A showing a magnetic circuit portion and a suspension of still another conventional multifunctional sounding body.

【符号の説明】[Explanation of symbols]

1、21、33 磁気回路部 2、16 ヨーク 3、12、37 磁石 4、13、39 トッププレート 7、11、34 振動板 8、14、35 ボイスコイル 16a、16b ダボ 17、18 サスペンション 36 支持ばねA 36a、42a 内周部 36b、42b 腕部 36c、42c 外周部 38 ポールピース 38a センターポール 38b フランジ 38c 突出部 42 支持ばねB 1, 21, 33 Magnetic circuit section 2, 16 Yoke 3, 12, 37 Magnet 4, 13, 39 Top plate 7, 11, 34 Vibration plate 8, 14, 35 Voice coil 16a, 16b Dowel 17, 18 Suspension 36 Support spring A 36a, 42a Inner circumference 36b, 42b Arm 36c, 42c Outer circumference 38 Pole piece 38a Center pole 38b Flange 38c Projection 42 Support spring B

───────────────────────────────────────────────────── フロントページの続き Fターム(参考) 5D012 CA02 CA09 FA10 GA04 HA01 5D017 AA11 AE29 5D021 BB03 BB07 BB08 BB11 BB19 5D107 AA20 BB08 CC08 CC09 CC10 CC11 DD12 FF10  ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 5D012 CA02 CA09 FA10 GA04 HA01 5D017 AA11 AE29 5D021 BB03 BB07 BB08 BB11 BB19 5D107 AA20 BB08 CC08 CC09 CC10 CC11 DD12 FF10

Claims (3)

【特許請求の範囲】[Claims] 【請求項1】 センターポールとフランジを有するポー
ルピースのフランジに、センターポールを中心にして円
環状の磁石を固定し、さらに該磁石の上面にこれも円環
状のトッププレートを固定して外磁型の磁気回路部を形
成し、 円環状の外周部と内周部を備えこれらを円弧状の複数の
腕部で連結してなる支持ばねAの内周部を磁気回路部に
固定するとともに、外周部をカバーに固定して磁気回路
部をカバー内に弾性支持し、 ボイスコイルを固定した振動板をカバーに取り付けて、
前記センターポール外周とトッププレート内周で作る磁
気ギャップにボイスコイルが位置するように構成したこ
とを特徴とする多機能型発音体。
An annular magnet is fixed to a flange of a pole piece having a center pole and a flange with an annular magnet centering on the center pole, and an annular top plate is also fixed to an upper surface of the magnet. Forming a magnetic circuit part of a mold, fixing an inner peripheral part of a support spring A having an annular outer peripheral part and an inner peripheral part and connecting these with a plurality of arc-shaped arms to the magnetic circuit part, The outer peripheral part is fixed to the cover, the magnetic circuit part is elastically supported inside the cover, and the diaphragm to which the voice coil is fixed is attached to the cover,
A multifunctional sounding body characterized in that a voice coil is located in a magnetic gap formed by the outer periphery of the center pole and the inner periphery of the top plate.
【請求項2】 請求項1に記載の多機能型発音体に、支
持ばねAを平面的に90°回転した形状の支持ばねBを
追加して、支持ばねBの内周部を磁気回路部を挟んで支
持ばねAと反対の側で磁気回路部に固定するとともに、
支持バネBの外周部をカバーに固定することにより、磁
気回路部を上下両面でカバー内に弾性支持したことを特
徴とする多機能型発音体。
2. The multi-function sounding body according to claim 1, further comprising: a support spring B having a shape obtained by rotating the support spring A by 90 ° in a plane, so that an inner peripheral portion of the support spring B is a magnetic circuit unit. And fixed to the magnetic circuit part on the side opposite to the support spring A,
A multifunctional sounding body characterized in that the magnetic circuit portion is elastically supported in the cover on both upper and lower surfaces by fixing the outer peripheral portion of the support spring B to the cover.
【請求項3】 請求項2に記載の多機能型発音体におい
て、トッププレートの上面に円形の段差部を設けて支持
ばねAの内周部の丸穴をこれにはめて固定し、ポールピ
ースのフランジの下面に円形の段差部を設けて支持ばね
Bの内周部の丸穴をこれにはめて固定する構造により、
磁気回路部と両支持ばねを中心出しすることを特徴とす
る多機能型発音体。
3. The multi-function sounding body according to claim 2, wherein a circular step is provided on an upper surface of the top plate, and a round hole in an inner peripheral portion of the support spring A is fixed thereto, and the pole piece is fixed. A structure is provided in which a circular step is provided on the lower surface of the flange, and a round hole in the inner peripheral portion of the support spring B is fixed therein.
A multifunctional sounding body characterized in that a magnetic circuit portion and both support springs are centered.
JP2000035956A 2000-02-14 2000-02-14 Multi-functional sound generating body Pending JP2001225010A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2000035956A JP2001225010A (en) 2000-02-14 2000-02-14 Multi-functional sound generating body

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2000035956A JP2001225010A (en) 2000-02-14 2000-02-14 Multi-functional sound generating body

Publications (1)

Publication Number Publication Date
JP2001225010A true JP2001225010A (en) 2001-08-21

Family

ID=18560071

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2000035956A Pending JP2001225010A (en) 2000-02-14 2000-02-14 Multi-functional sound generating body

Country Status (1)

Country Link
JP (1) JP2001225010A (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2002011904A1 (en) * 2000-08-08 2002-02-14 Namiki Seimitsu Houseki Kabushiki Kaisha Electromagnetic induction type actuator device and mounting structure therefor and pda (personal digital assistant)
JP2002263573A (en) * 2001-03-07 2002-09-17 Namiki Precision Jewel Co Ltd Electromagnetic induction type actuator device and portable information device including portable telephone or the like
WO2004077879A1 (en) * 2003-02-27 2004-09-10 Namiki Seimitsu Houseki Kabushikikaisha Multifunctional actuator and mobile terminal
JP2005229551A (en) * 2004-02-16 2005-08-25 Citizen Electronics Co Ltd Multifunctional speaker
GB2425911A (en) * 2005-02-03 2006-11-08 Citizen Electronics Spring support of an acoustic transducer in a casing

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JPH1168903A (en) * 1997-06-11 1999-03-09 Matsushita Electric Ind Co Ltd Suspension, electro-mechanical-acoustic transducer and portable terminal equipment

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JPH10112897A (en) * 1996-10-07 1998-04-28 Denso Corp Electromechanical vibration transducer
JPH1168903A (en) * 1997-06-11 1999-03-09 Matsushita Electric Ind Co Ltd Suspension, electro-mechanical-acoustic transducer and portable terminal equipment

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2002011904A1 (en) * 2000-08-08 2002-02-14 Namiki Seimitsu Houseki Kabushiki Kaisha Electromagnetic induction type actuator device and mounting structure therefor and pda (personal digital assistant)
US6807282B2 (en) 2000-08-08 2004-10-19 Namiki Seimitsu Houseki Kabushiki Kaisha Electromagnetic induction type actuator device and mounting structure therefor and pda(personal digital assistant)
JP2002263573A (en) * 2001-03-07 2002-09-17 Namiki Precision Jewel Co Ltd Electromagnetic induction type actuator device and portable information device including portable telephone or the like
JP4665089B2 (en) * 2001-03-07 2011-04-06 並木精密宝石株式会社 Portable information equipment including electromagnetic induction type actuator device and mobile phone
WO2004077879A1 (en) * 2003-02-27 2004-09-10 Namiki Seimitsu Houseki Kabushikikaisha Multifunctional actuator and mobile terminal
US7599510B2 (en) 2003-02-27 2009-10-06 Namiki Seimitsu Houseki Kabushiki Kaisha Multifunctional actuator and mobile terminal
JP2005229551A (en) * 2004-02-16 2005-08-25 Citizen Electronics Co Ltd Multifunctional speaker
GB2425911A (en) * 2005-02-03 2006-11-08 Citizen Electronics Spring support of an acoustic transducer in a casing
GB2425911B (en) * 2005-02-03 2008-04-16 Citizen Electronics Acoustic transducer
US7680294B2 (en) 2005-02-03 2010-03-16 Citizen Electronics Co., Ltd. Acoustic transducer

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