JP2577118B2 - Vibration wave drive - Google Patents
Vibration wave driveInfo
- Publication number
- JP2577118B2 JP2577118B2 JP2207763A JP20776390A JP2577118B2 JP 2577118 B2 JP2577118 B2 JP 2577118B2 JP 2207763 A JP2207763 A JP 2207763A JP 20776390 A JP20776390 A JP 20776390A JP 2577118 B2 JP2577118 B2 JP 2577118B2
- Authority
- JP
- Japan
- Prior art keywords
- rotary
- output member
- rotor
- vibration
- frictional force
- 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.)
- Expired - Fee Related
Links
- 230000002093 peripheral effect Effects 0.000 claims description 4
- 238000003825 pressing Methods 0.000 description 8
- 230000002159 abnormal effect Effects 0.000 description 7
- 230000005540 biological transmission Effects 0.000 description 3
- 238000006243 chemical reaction Methods 0.000 description 2
- 238000006073 displacement reaction Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 230000033001 locomotion Effects 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- 239000007769 metal material Substances 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 229910001369 Brass Inorganic materials 0.000 description 1
- 229930182556 Polyacetal Natural products 0.000 description 1
- 239000000853 adhesive Substances 0.000 description 1
- 230000001070 adhesive effect Effects 0.000 description 1
- 229910052782 aluminium Inorganic materials 0.000 description 1
- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 description 1
- 239000010951 brass Substances 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 239000002245 particle Substances 0.000 description 1
- 229920006324 polyoxymethylene Polymers 0.000 description 1
- 230000000087 stabilizing effect Effects 0.000 description 1
- 230000002194 synthesizing effect Effects 0.000 description 1
Landscapes
- General Electrical Machinery Utilizing Piezoelectricity, Electrostriction Or Magnetostriction (AREA)
Description
【発明の詳細な説明】 [産業上の利用分野] 本発明は、フリクションクラッチを備えた振動波駆動
装置に関するものである。Description: TECHNICAL FIELD The present invention relates to a vibration wave driving device provided with a friction clutch.
[従来の技術] 近年、振動の合成によって振動弾性体の表面粒子に
円、又は楕円運動を励起させ、その表面に摩擦接触する
部材と該弾性体とを相対移動させる超音波モータが提供
されている。[Related Art] In recent years, an ultrasonic motor has been provided which excites a circular or elliptical motion on surface particles of a vibrating elastic body by synthesizing vibrations, and relatively moves a member in frictional contact with the surface and the elastic body. I have.
超音波モータとして、円環形状に形成された形式、ま
た棒状に形成された形式が提案されているが、これらは
いずれも駆動のための振動を発生させるためのステータ
を構成する振動弾性体と、該振動弾性体に形成される駆
動振動を回転力に変換するロータ等の回転変換部材とを
摩擦接触させ、摩擦力により該回転変換部材を回転させ
るという基本的な駆動原理は同じである。As an ultrasonic motor, a ring-shaped form and a rod-shaped form have been proposed, but each of these forms a vibration elastic body constituting a stator for generating vibration for driving. The basic driving principle is the same in that a rotational conversion member such as a rotor for converting the driving vibration formed in the vibration elastic body into a rotational force is brought into frictional contact, and the rotational conversion member is rotated by the frictional force.
円環形状の超音波モータを例えばオートフォーカスの
駆動源としてレンズ鏡筒に使用する場合、ギア等の伝達
機構を用いずに、ロータの回転出力を直接フォーカスレ
ンズに付与することができるといった利点があるが、円
環形状の形式の超音波モータは、製作コストの点におい
て棒状の形式の超音波モータに比べて不利であるといっ
た難がある。For example, when an annular ultrasonic motor is used in a lens barrel as a drive source of an autofocus, there is an advantage that the rotation output of the rotor can be directly applied to the focus lens without using a transmission mechanism such as a gear. However, there is a problem that the annular type ultrasonic motor is disadvantageous in terms of manufacturing cost as compared with the rod type ultrasonic motor.
棒状超音波モータは、円環形状の超音波モータのよう
に、例えばレンズを取り囲むように配置することができ
ないため、歯車等の伝達機構を介してロータの回転力を
被駆動部材、例えばフォーカスレンズに伝達する構成と
することになる。Since a rod-shaped ultrasonic motor cannot be arranged to surround a lens, for example, like an annular ultrasonic motor, the rotational force of a rotor is transmitted to a driven member, such as a focus lens, via a transmission mechanism such as a gear. To be transmitted.
[発明が解決しようとする課題] しかしながら、棒状超音波モータを駆動源とし、伝達
機構を介して被駆動部材を駆動する場合、ロータの回転
力を被駆動部材に伝達する歯車等の回転出力部材に高負
荷加わると、ロータの回転が不安定となり、最悪の場合
ステータ振動の共振状態から外れて回転が停止するた
め、ステータが振動しているのにロータがその場所で止
まっていることによる音の発生(キーキー音)を起こし
たり、ステータとロータとの間で異常摩耗が発生すると
いう問題があった。[Problems to be Solved by the Invention] However, when a driven member is driven via a transmission mechanism using a rod-shaped ultrasonic motor as a drive source, a rotation output member such as a gear for transmitting the rotational force of the rotor to the driven member. When a high load is applied to the rotor, the rotation of the rotor becomes unstable, and in the worst case, the rotor stops moving out of the resonance state of the stator vibration. This causes problems such as generation of noise (squeak noise) and abnormal wear between the stator and the rotor.
そこで、このような問題を解決するために、特開平2
−97281号では、高負荷が加わるとロータを空回転させ
るようにしているが、この方式ではロータと出力軸との
間に摩擦板を新たに設ける必要があるため、スペース
や、コストの面で有効とはいえなかった。In order to solve such a problem, Japanese Patent Laid-Open No.
In -97281, the rotor is made to run idle when a high load is applied.However, this method requires a new friction plate between the rotor and the output shaft. It was not effective.
本発明は、このような従来の問題を解決し、外部から
駆動系に高負荷が加わっても、ロータとステータ間の異
常摩設や、異音の発生を防止することができる機構を簡
単な構造で得ることができ、しかも装置の小型化が図れ
ることができる振動波駆動装置を提供することを目的と
する。The present invention solves such a conventional problem and provides a simple mechanism that can prevent abnormal wear between the rotor and the stator and generation of abnormal noise even when a high load is externally applied to the drive system. It is an object of the present invention to provide a vibration wave driving device that can be obtained with a structure and that can be downsized.
[課題を解決するための手段] 本発明の目的を実現する振動波駆動装置の構成は、所
定方向に延びた軸を有する振動子に回転部材を摩擦接触
させ、該振動子に駆動振動を励起させて該回転部材を駆
動すると共に、前記軸の回りに配置され、かつ該回転部
材と摩擦接触して出力を取り出す中空回転出力部材とを
備え、該回転部材と該回転出力部材との摩擦力を、該振
動子と該回転部材との摩擦力より小さく設定したことを
特徴とする振動波駆動装置にある。[Means for Solving the Problems] The configuration of a vibration wave driving device for realizing the object of the present invention is to bring a rotating member into friction contact with a vibrator having an axis extending in a predetermined direction to excite driving vibration on the vibrator. And a hollow rotary output member disposed around the shaft and frictionally coming into contact with the rotary member to take out an output, and a frictional force between the rotary member and the rotary output member. Is set to be smaller than the frictional force between the vibrator and the rotating member.
この構成において、回転部材と回転出力部材との摩擦
力は、前記回転出力部材の内周面と前記軸との間に設け
られ、一端が軸の一部に係合し、他端が前記回転出力部
材に間接的に係合した、振動子と回転部材とに摩擦力を
付与する加圧部材によって発生させることができる。In this configuration, the frictional force between the rotation member and the rotation output member is provided between the inner peripheral surface of the rotation output member and the shaft, one end of which engages a part of the shaft, and the other end of which rotates the rotation output member. It can be generated by a pressure member which indirectly engages the output member and applies a frictional force to the vibrator and the rotating member.
また、前記回転出力部材の外周面に設けられ、負荷に
係合する出力歯車を有する。Further, it has an output gear provided on the outer peripheral surface of the rotation output member and engaging with a load.
[作 用] 上記の如く構成した振動波駆動装置は、回転出力部材
に高負荷が加わった場合、回転部材の回転が不安定又は
停止する前に回転出力部材に対して回転部材が滑り出
す。[Operation] In the vibration wave driving device configured as described above, when a high load is applied to the rotation output member, the rotation member starts to slide with respect to the rotation output member before the rotation of the rotation member becomes unstable or stops.
また、振動子と回転部材に摩擦力を付与するための加
圧部材を利用して、回転部材と回転出力部材との摩擦力
を得ているが、この加圧部材は回転出力部材の中空の内
部に配置でき、装置の小型化が可能となる。Further, a frictional force between the rotating member and the rotation output member is obtained by using a pressure member for applying a frictional force to the vibrator and the rotation member. It can be arranged inside, and the size of the device can be reduced.
さらに、回転出力部材と出力歯車とを一体化でき、装
置の小型化を図ることができる。Furthermore, the rotation output member and the output gear can be integrated, and the size of the device can be reduced.
[実施例] 以下本発明を図面に示す実施例に基づいて詳細に説明
する。EXAMPLES Hereinafter, the present invention will be described in detail based on examples shown in the drawings.
第1図は本発明による振動波駆動装置の一実施例を示
し、同図(a)は平面図、同図(b)は縦断面図であ
る。FIG. 1 shows an embodiment of a vibration wave driving device according to the present invention, wherein FIG. 1 (a) is a plan view and FIG. 1 (b) is a longitudinal sectional view.
1は金属材料からなる円柱形状の振動弾性体、2は振
動弾性体1の外径と同形の外径を有する金属材料からな
る押え体、3a〜3dは振動弾性体1の外径と同径の外径に
形成された円環形状の圧電素子板、4a〜4dは圧電素子板
3a〜3dの電極板であり、振動弾性体1と押え体2との間
に、該電極板4a〜4d、圧電素子板3a〜3dを配設し、ボル
ト5を押え体2を通して振動弾性体1に螺着することに
より、これらを一体に固定し、振動波駆動装置Aのステ
ータを構成している。1 is a cylindrical vibration elastic body made of a metal material, 2 is a holding body made of a metal material having the same outer diameter as the vibration elastic body 1, and 3 a to 3 d are the same diameter as the outer diameter of the vibration elastic body 1. Ring-shaped piezoelectric element plates formed on the outer diameter of
Electrode plates 3a to 3d, wherein the electrode plates 4a to 4d and the piezoelectric element plates 3a to 3d are arranged between the vibration elastic body 1 and the pressing body 2, and the bolt 5 is passed through the pressing body 2 These are integrally fixed by screwing them to 1 to form a stator of the vibration wave driving device A.
振動波駆動装置Aは、ステータの電極板4a〜4dに不図
示の電源回路から位相の異なる交流電圧を印加すること
により、圧電素子板3a〜3dが機械的振動をステータに形
成し、これら振動の合成によってステータに縄飛びのよ
うな運動を励起し、ステータの前端部に摩擦接触する後
記のロータ6を摩擦駆動する。6はロータで、後端部
(摩擦接触部)6aを振動弾性体1のテーパ部1aに当接さ
せ、後記する加圧バネ10による加圧により適切な摩擦力
を得ている。The vibration wave driving device A applies AC voltages having different phases from a power supply circuit (not shown) to the electrode plates 4a to 4d of the stator, whereby the piezoelectric element plates 3a to 3d form mechanical vibrations on the stator, and these vibrations are generated. In this way, a rope-like movement is excited in the stator, and a rotor 6 described later frictionally contacts the front end of the stator. A rotor 6 has a rear end portion (friction contact portion) 6a in contact with the tapered portion 1a of the vibrating elastic body 1 and obtains an appropriate frictional force by pressing by a pressing spring 10 described later.
7は歯車7aを有する摩擦安定材料製の回転出力部材
で、後端面とロータ6の端面との間でフリクション結合
している。この歯車7aは、ロータ6の回転を外部に伝達
するためのものである。Reference numeral 7 denotes a rotational output member made of a friction stabilizing material having a gear 7a, which is frictionally connected between the rear end surface and the end surface of the rotor 6. The gear 7a is for transmitting the rotation of the rotor 6 to the outside.
ロータ6と回転出力部材7とのフリクション結合のフ
リクション力は、加圧バネ10により発生し、その力は振
動弾性体1とロータ6との摩擦力より小さくなるように
(摩擦係数が小さくなるように)設定されている。The frictional force of the frictional connection between the rotor 6 and the rotation output member 7 is generated by the pressure spring 10 so that the force is smaller than the frictional force between the vibrating elastic body 1 and the rotor 6 (the frictional coefficient is reduced). ) Is set.
すなわち、回転出力部材7に外部から回転力を与えて
も、ロータ6はステータに対する摩擦力が回転出力部材
7に対する摩擦力よりも大きいために回転することはな
く、回転出力部材7のみが回転することになる。That is, even when a rotational force is applied to the rotation output member 7 from the outside, the rotor 6 does not rotate because the friction force on the stator is larger than the friction force on the rotation output member 7, and only the rotation output member 7 rotates. Will be.
一方、回転出力部材7の内径部にベアリング8を設
け、このベアリング8の内径部に中空の軸9を嵌入する
ことで、ロータ6と回転出力部材7とを回転可能として
いる。On the other hand, a bearing 8 is provided on the inner diameter of the rotation output member 7, and the hollow shaft 9 is fitted into the inner diameter of the bearing 8, so that the rotor 6 and the rotation output member 7 can rotate.
軸9は、ボルト5の摺動部5aに嵌合することで、ステ
ータの軸心と一致させている。The shaft 9 is fitted to the sliding portion 5a of the bolt 5 so as to coincide with the axis of the stator.
10は加圧バネであり、軸9の段部9aを押圧すること
で、フランジ部9bによりベアリング8を押圧し、その押
圧力で振動弾性体1とロータ6、ロータ6と回転出力部
材7との間に摩擦力が発生するように構成している。Reference numeral 10 denotes a pressure spring, which presses the step 9a of the shaft 9 to press the bearing 8 with the flange 9b, and the pressing force causes the vibration elastic body 1 and the rotor 6, and the rotor 6 and the rotation output member 7 to move. It is configured so that a frictional force is generated between them.
加圧バネ10の加圧力は、平板形状の保持部材11の孔部
11cをボルト5の先端部に形成されたピン部5bに挿入
し、例えば接着剤により固着するといった周知の方法で
固定することで発生させている。The pressing force of the pressing spring 10 is applied to the hole of the flat holding member 11.
11c is inserted into a pin 5b formed at the tip of the bolt 5 and fixed by a known method such as fixing with an adhesive.
この振動波駆動装置Aは、保持部材11を不図示の固定
部材に対し、ビス孔11a、11bを通して不図示のビスによ
りビス止めすることにより固定されている。The vibration wave driving device A is fixed by fixing the holding member 11 to a fixing member (not shown) with screws (not shown) through screw holes 11a and 11b.
なお、振動波駆動装置のステータを支持するに際し、
ステータに励起される振動に影響を与えないようにする
ことが必要であり、ステータの端は振動の腹位置とな
り、径方向における変位があるのみで、しかも該変位は
実際には微小であるため、ステータの一端であるピン部
5bで固定することにより、ステータの振動に影響を与え
ることはない。In supporting the stator of the vibration wave driving device,
It is necessary not to affect the vibration excited by the stator, and the end of the stator becomes the antinode of the vibration, and there is only a displacement in the radial direction, and the displacement is actually very small. , The pin part which is one end of the stator
By fixing at 5b, the vibration of the stator is not affected.
このように構成した振動波駆動装置において、回転出
力部材7に高負荷が加わった場合、ロータ6の回転が不
安定となったり、あるいは回転停止する前に、ロータ6
が回転出力部材7に対し滑り出し、ロータ6とステータ
との間に、回転出力部材7からの高負荷が伝達されるこ
とがない。In the vibration wave driving device configured as described above, when a high load is applied to the rotation output member 7, the rotation of the rotor 6 becomes unstable before the rotation of the rotor 6 becomes unstable or stops.
Slides out from the rotary output member 7 and a high load from the rotary output member 7 is not transmitted between the rotor 6 and the stator.
以上のような作動を成立させるためには、振動弾性体
1、ロータ6及び回転出力部材7の材質の選択が問題と
なるが、振動弾性体1を黄銅、ロータ6をアルミニウム
とする組み合わせとし、この摩擦係数を0.8以上とする
と共に、回転出力部材7をポリアセタールとし、ロータ
6との摩擦係数を0.2以下として上記の動作を行わせた
ところ、良好に作動することが確認され、またこれらの
材質だけでなく、4倍程度の摩擦係数の差があれば、振
動弾性体1とロータ6とが滑る前に、ロータ6と回転出
力部材7が確実に滑ることが確認された。In order to achieve the above operation, selection of the materials of the vibration elastic body 1, the rotor 6, and the rotation output member 7 is problematic. However, a combination of the vibration elastic body 1 made of brass and the rotor 6 made of aluminum is used. When the above operation was performed with the friction coefficient being 0.8 or more, the rotational output member 7 being made of polyacetal, and the friction coefficient with the rotor 6 being 0.2 or less, it was confirmed that the operation was satisfactory. Not only that, if there is a friction coefficient difference of about four times, it was confirmed that the rotor 6 and the rotation output member 7 reliably slipped before the vibration elastic body 1 and the rotor 6 slipped.
なお、図に示すように、振動弾性体1、ロータ6、回
転出力部材7は略同径に形成され、保持部材11がこれら
振動弾性体1、ロータ6、回転出力部材7に対して略同
径以上となるように構成し、これを一体的に組みつけて
ユニット化している。As shown in the figure, the vibration elastic body 1, the rotor 6, and the rotation output member 7 are formed to have substantially the same diameter, and the holding member 11 is substantially the same as the vibration elastic body 1, the rotor 6, and the rotation output member 7. It is configured to be larger than the diameter, and it is assembled as a unit to form a unit.
[発明の効果] 請求項1に係る発明によれば、回転出力部材に高負荷
が加わっても、回転部材の回転が不安定又は停止する前
に、回転部材が回転出力部材に対して滑り出すことによ
り、振動子と回転部材との間に異常摩耗が発生するこ
と、および異常音が発生することを防止できるという効
果のみならず、以下の効果も奏する。According to the invention according to claim 1, even when a high load is applied to the rotation output member, the rotation member slides out relative to the rotation output member before the rotation of the rotation member becomes unstable or stops. Accordingly, not only the effect of preventing abnormal wear between the vibrator and the rotating member and the occurrence of abnormal sound can be prevented, but also the following effects can be obtained.
すなわち、回転出力部材は、軸の回りに配置されてい
るので、該回転出力部材はブレることなく滑らかに回転
し、したがって該回転出力部材と回転部材との間の摩擦
力は、回転時にも初期の摩擦力を保持することができ
る。That is, since the rotation output member is arranged around the axis, the rotation output member rotates smoothly without blurring, and therefore, the frictional force between the rotation output member and the rotation member is also reduced during rotation. The initial frictional force can be maintained.
このため、回転部材と回転出力部材との間の摩擦部
と、振動子と回転部材との間の摩擦部との両摩擦部の摩
擦力の関係が逆転するという可能性は極めて少なくな
り、上述した異常摩耗等の問題が発生する可能性をより
一層減少させることができる。For this reason, the possibility that the relationship between the frictional force of the frictional portion between the rotating member and the rotation output member and the frictional force of the two frictional portions of the frictional portion between the vibrator and the rotating member is significantly reduced, and It is possible to further reduce the possibility of occurrence of problems such as abnormal abnormal wear.
請求項2に係る発明によれば、振動子と回転部材に摩
擦力を付与するための加圧部材を利用して、回転部材と
回転出力部材との摩擦力を得ており、しかもこの加圧部
材は回転出力部材の中空の内部に配置しているので、装
置の小型化が可能となる。According to the second aspect of the present invention, the frictional force between the rotating member and the rotating output member is obtained by using the pressing member for applying the frictional force to the vibrator and the rotating member. Since the member is disposed inside the hollow of the rotary output member, the size of the device can be reduced.
請求項3に係る発明によれば、回転出力部材と出力歯
車とを一体化でき、装置の小型化を図ることができる。According to the invention according to claim 3, the rotation output member and the output gear can be integrated, and the size of the device can be reduced.
第1図は本発明による振動波駆動装置の一実施例を示
し、同図(a)は平面図、同図(b)は断面図である。 A:超音波モータ 1:弾性振動体、2:押え体 3a〜3d:圧電素子板 4a〜4d:電極板 5:ボルト、6:ロータ 7:回転出力部材、8:ベアリング 9:軸、10:加圧バネ 11:保持部材。FIG. 1 shows an embodiment of a vibration wave driving device according to the present invention, wherein FIG. 1 (a) is a plan view and FIG. 1 (b) is a sectional view. A: Ultrasonic motor 1: Elastic vibrator, 2: Holder 3a-3d: Piezoelectric element plate 4a-4d: Electrode plate 5: Bolt, 6: Rotor 7: Rotary output member, 8: Bearing 9: Shaft, 10: Pressure spring 11: holding member.
Claims (3)
部材を摩擦接触させ、該振動子に駆動振動を励起させて
該回転部材を駆動すると共に、前記軸の回りに配置さ
れ、かつ該回転部材と摩擦接触して出力を取り出す中空
の回転出力部材とを備え、該回転部材と該回転出力部材
との摩擦力を、該振動子と該回転部材との摩擦力より小
さく設定したことを特徴とする振動波駆動装置。1. A rotating member is brought into frictional contact with a vibrator having an axis extending in a predetermined direction to excite driving vibration to the vibrator to drive the rotating member, and is arranged around the axis, and A hollow rotary output member for taking out an output by frictionally contacting the rotary member, wherein a frictional force between the rotary member and the rotary output member is set to be smaller than a frictional force between the vibrator and the rotary member. A vibration wave driving device characterized by the above-mentioned.
材との摩擦力は、前記回転出力部材の内周面と前記軸と
の間に設けられ、一端が軸の一部に係合し、他端が前記
回転出力部材に間接的に係合した、振動子と回転部材と
に摩擦力を付与する加圧部材によって発生させることを
特徴とする振動波駆動装置。2. The rotary power member according to claim 1, wherein the frictional force between the rotary member and the rotary output member is provided between an inner peripheral surface of the rotary output member and the shaft, and one end is engaged with a part of the shaft. A vibration member which is generated by a pressurizing member that applies frictional force to the vibrator and the rotating member, the other end of which is indirectly engaged with the rotation output member.
部材の外周面に設けられ、負荷に係合する出力歯車を有
することを特徴とする振動波駆動装置。3. The vibration wave driving device according to claim 1, further comprising an output gear provided on an outer peripheral surface of the rotation output member and engaging with a load.
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2207763A JP2577118B2 (en) | 1990-08-06 | 1990-08-06 | Vibration wave drive |
US08/034,182 US5428260A (en) | 1990-08-03 | 1993-03-18 | Vibration driven motor |
US08/416,183 US5633553A (en) | 1990-08-03 | 1995-04-04 | Vibration driven motor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2207763A JP2577118B2 (en) | 1990-08-06 | 1990-08-06 | Vibration wave drive |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH0491682A JPH0491682A (en) | 1992-03-25 |
JP2577118B2 true JP2577118B2 (en) | 1997-01-29 |
Family
ID=16545144
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP2207763A Expired - Fee Related JP2577118B2 (en) | 1990-08-03 | 1990-08-06 | Vibration wave drive |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP2577118B2 (en) |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH01123492U (en) * | 1988-02-17 | 1989-08-22 | ||
JPH0297281A (en) * | 1988-09-30 | 1990-04-09 | Kyocera Corp | Oscillatory wave motor |
-
1990
- 1990-08-06 JP JP2207763A patent/JP2577118B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JPH0491682A (en) | 1992-03-25 |
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