JPH0996752A - Fine adjustment device - Google Patents

Fine adjustment device

Info

Publication number
JPH0996752A
JPH0996752A JP7252618A JP25261895A JPH0996752A JP H0996752 A JPH0996752 A JP H0996752A JP 7252618 A JP7252618 A JP 7252618A JP 25261895 A JP25261895 A JP 25261895A JP H0996752 A JPH0996752 A JP H0996752A
Authority
JP
Japan
Prior art keywords
fulcrum
fine movement
moving
optical system
fixing member
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.)
Granted
Application number
JP7252618A
Other languages
Japanese (ja)
Other versions
JP3434097B2 (en
Inventor
Kazuhide Yamazaki
和秀 山崎
Hikari Hayashi
光 林
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.)
Olympus Corp
Original Assignee
Olympus Optical 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 Olympus Optical Co Ltd filed Critical Olympus Optical Co Ltd
Priority to JP25261895A priority Critical patent/JP3434097B2/en
Publication of JPH0996752A publication Critical patent/JPH0996752A/en
Application granted granted Critical
Publication of JP3434097B2 publication Critical patent/JP3434097B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Lens Barrels (AREA)

Abstract

PROBLEM TO BE SOLVED: To provide a fine adjustment device capable of realizing miniaturization and the reduction of cost. SOLUTION: This device is provided with a fixed member 21 having a 1st lens system 24 inside; a moving member 25 which is arranged outside the member 21, movably supported by the member 21 in a shaft direction through an elastic member and performs fine adjustment and to which a 2nd lens system 36 is attached; and an annular lever member 31 which is interposed between the members 21 and 25, and whose one surface is provided with a fine adjustment element displacing in the shaft direction of the member 25 and a fulcrum member opposed to the fine adjustment element and whose other surface is provided with a pair of fulcrum connecting parts arranged to be opposed to a position separated by 90 deg. from the position of the fine adjustment element. Then, the 2nd lens system 36 is finely adjusted through the member 31 by setting the fine adjustment element as the point of a lever where force is applied, the fulcrum connecting part as a fulcrum, and the fulcrum member as a point of application.

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、集積回路の露光装
置や干渉計等に使用する微動機構に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fine movement mechanism used in an exposure apparatus for an integrated circuit, an interferometer, or the like.

【0002】[0002]

【従来の技術】従来、干渉計等においては、レンズ等の
機能素子に傾きを生じさせることなく直線方向に微小量
移動させる微動機構が使用されている。
2. Description of the Related Art Conventionally, in an interferometer or the like, a fine movement mechanism has been used which moves a functional element such as a lens by a small amount in a linear direction without causing an inclination.

【0003】このような微動機構としては、図10乃至
図13に示すような微動機構が用いられている。図10
は平面図、図11は図10におけるA−A側断面図、図
12は図10における一部を破断したB−B側断面図で
ある。また図13はこの微動機構に光を射出するレンズ
系および微動させるレンズ系を配置したときのA−A側
断面図である。
As such a fine movement mechanism, a fine movement mechanism as shown in FIGS. 10 to 13 is used. FIG.
Is a plan view, FIG. 11 is a sectional view taken along line AA in FIG. 10, and FIG. 12 is a sectional view taken along line BB in FIG. FIG. 13 is a cross-sectional view taken along the line AA when a lens system for emitting light and a lens system for fine movement are arranged in this fine movement mechanism.

【0004】図10乃至図12において、60は円筒状
の固定部材であり、円筒状の支持枠63と、この支持枠
63の底部に設けた環状の固定ベース62とを具備し、
前記固定ベース62にはその中央に穴61を備え、ま
た、支持枠63の内周部の下側に環状の支持縁64を突
設することにより構成される。
In FIGS. 10 to 12, reference numeral 60 denotes a cylindrical fixing member, which comprises a cylindrical supporting frame 63 and an annular fixing base 62 provided on the bottom of the supporting frame 63.
The fixed base 62 is provided with a hole 61 in the center thereof, and an annular support edge 64 is provided on the lower side of the inner peripheral portion of the support frame 63 so as to project.

【0005】また、図10乃至図12において、65は
移動部材であり、この移動部材65は、前記固定部材6
0の固定ベース62に穿設された穴61の内径とほぼ同
一径の内径からなる円筒状の枠66と、この枠66の外
周の上部に突設した環状の支持縁67とにより構成され
る。
Further, in FIGS. 10 to 12, reference numeral 65 is a moving member, and the moving member 65 is the fixed member 6.
0 is formed by a cylindrical frame 66 having an inner diameter substantially the same as the inner diameter of the hole 61 formed in the fixed base 62, and an annular support edge 67 protruding from the upper portion of the outer periphery of the frame 66. .

【0006】さらに、固定部材60と移動部材65と
は、上下配置の一対の環状の板バネ68、69により連
結され、これにより、移動部材65は、固定部材60内
でこの固定部材60と同一軸上を上下方向に移動可能と
なっている。即ち、前記板バネ68、69は、それぞれ
の外周縁を固定部材60の内周壁部に埋設固定するとと
もに内周縁を移動部材65の外周壁部に埋設固定する状
態で固定部材60と移動部材65との間に介装されてい
る。
Further, the fixed member 60 and the moving member 65 are connected by a pair of upper and lower annular leaf springs 68 and 69, whereby the moving member 65 is the same as the fixed member 60 in the fixed member 60. It is possible to move vertically on the axis. That is, the leaf springs 68 and 69 have their outer peripheral edges embedded and fixed in the inner peripheral wall of the fixing member 60, and their inner peripheral edges embedded and fixed in the outer peripheral wall of the moving member 65. It is interposed between and.

【0007】図11、図12に示す70は環状の梃子部
材であり、この梃子部材70は、固定部材60と移動部
材65間に介装されるとともに、この梃子部材70と固
定部材60の支持縁64間に対向せしめ、支点連結部
(支点として作用する)としての支点バネ71、72を
取り付けることにより、前記梃子部材70を固定部材6
0に連結している。
Reference numeral 70 shown in FIGS. 11 and 12 is an annular lever member, and the lever member 70 is interposed between the fixed member 60 and the moving member 65 and supports the lever member 70 and the fixed member 60. The lever member 70 is fixed between the edges 64 by attaching fulcrum springs 71 and 72 as fulcrum connecting portions (acting as fulcrums) so as to face each other.
Connected to 0.

【0008】また、移動部材65の支持縁67と、梃子
部材70との間にピエゾ素子(力点として作用する)7
3を取り付けるとともに、このピエゾ素子73と前記移
動部材65に関して対向する位置において、移動部材6
5の支持縁67に末端を固定して取り付けた支点部材7
4の先端74a(作用点として作用する)を梃子部材7
0の図12における上面に当接させつつ配置することに
より、梃子部材70をピエゾ素子73、支点部材74を
介して移動部材65に連結させている。
A piezo element (acting as a force point) 7 is provided between the support edge 67 of the moving member 65 and the lever member 70.
3 is attached, and at the position facing the piezo element 73 with respect to the moving member 65, the moving member 6
Fulcrum member 7 fixedly attached to the supporting edge 67 of 5
The lever member 7 is provided with a tip 74a of 4 (acting as an action point).
The lever member 70 is connected to the moving member 65 via the piezo element 73 and the fulcrum member 74 by arranging the lever member 70 in contact with the upper surface in FIG.

【0009】以上の構成からなる従来の微動機構におい
て、図13に示すように、レンズ79と枠80からなる
微動させたいレンズ系78を移動部材65にセットした
後、このンズ系75から射出され、前記固定部材60の
固定ベース62に開いた穴61を透過した所望の光線
を、移動部材65に取り付けた別のレンズ系78に照射
するとともに、ピエゾ素子73に制御回路を介して駆動
信号を入力しつつ駆動することにより移動部材65を微
動させ、レンズ系78のピント位置を調整しつつ使用す
る。
In the conventional fine movement mechanism having the above structure, as shown in FIG. 13, after a lens system 78 including a lens 79 and a frame 80 to be finely moved is set on the moving member 65, it is ejected from the lens system 75. The desired light beam that has passed through the hole 61 formed in the fixed base 62 of the fixed member 60 is applied to another lens system 78 attached to the moving member 65, and a drive signal is sent to the piezo element 73 via a control circuit. The moving member 65 is finely moved by driving while inputting, and the focus position of the lens system 78 is adjusted and used.

【0010】また、ピエゾ素子73を駆動することによ
り、移動部材65の変位量は、固定部材60とこれに板
バネ68、69を介して保持される移動部材65との間
に介装されている梃子部材70を介して半減されるとと
もに、支点部材74を介して環状の板バネ68、69に
保持される移動部材65が固定部材60の同軸上を軸方
向に対して傾くことなく変位する。
By driving the piezo element 73, the displacement amount of the moving member 65 is interposed between the fixed member 60 and the moving member 65 held by the plate springs 68 and 69. The moving member 65 is halved through the lever member 70 and is held by the annular leaf springs 68 and 69 through the fulcrum member 74, and is displaced coaxially with the fixed member 60 without being inclined with respect to the axial direction. .

【0011】[0011]

【発明が解決しようとする課題】しかしながら、上述し
た従来技術では、図13に示すように、別のレンズ系7
5を固定部材60の固定ベース62に取り付け、微動さ
せたいレンズ系78を移動部材65に取り付けている。
このため、レンズ系75と、レンズ系78の間が大きく
開いてしまい、微動機構の省スペース化を図れないとい
う課題がある。
However, in the above-mentioned conventional technique, as shown in FIG. 13, another lens system 7 is used.
5 is attached to the fixed base 62 of the fixing member 60, and the lens system 78 to be finely moved is attached to the moving member 65.
For this reason, there is a problem in that the space between the lens system 75 and the lens system 78 is greatly opened, and the space for the fine movement mechanism cannot be saved.

【0012】上述した従来技術において、レンズ系75
を、移動部材の円筒状枠66の内部に配置することは可
能であるが、この場合には、レンズ系75を固定ベース
62に固定する枠が必要となり、この枠を円筒状枠66
の内部に収めなければならず、微動機構が非常に複雑と
なり、微動機構の低コトス化を図れないという課題があ
る。
In the above-mentioned prior art, the lens system 75
Can be placed inside the cylindrical frame 66 of the moving member, but in this case, a frame for fixing the lens system 75 to the fixed base 62 is required, and this frame is used as the cylindrical frame 66.
However, there is a problem in that the fine movement mechanism becomes very complicated, and the cost of the fine movement mechanism cannot be reduced.

【0013】本発明は、このような従来の微動機構の不
具合を解決し、従来の微動機構に比べ小型化、低コスト
化を図ることが可能な微動機構を提供する。
The present invention provides a fine movement mechanism which solves such a problem of the conventional fine movement mechanism and which can be made smaller in size and lower in cost than the conventional fine movement mechanism.

【0014】[0014]

【課題を解決するための手段】請求項1記載の発明に係
る微動機構は機能素子を内側に有した固定部材と、この
固定部材の外側に配置され、前記固定部材により弾性部
材を介して軸方向に移動可能に支持された微動させる機
能素子を取り付けた移動部材と、前記固定部材と移動部
材との間に介装され、一方の面には前記移動部材の軸方
向に変位する微動素子と該微動素子に対向せしめた支点
部材とを備え、他方の面には前記微動素子の位置と90
度離間した位置に対向する配置に一対の支点連結部を設
けた環状の梃子部材とを有し、前記微動素子を力点と
し、前記支点連結部を支点とし、前記支点部材を作用点
として、前記梃子部材を介して前記移動部材を微動させ
る機能素子とともに微動するようにしたことを特徴とす
るものである。
According to a first aspect of the present invention, there is provided a fine movement mechanism including a fixing member having a functional element inside, and a fixing member arranged outside the fixing member. A movable member that is supported so as to be movable in a predetermined direction and has a functional element for fine movement, and a fine movement element that is interposed between the fixed member and the movable member and that is displaced in the axial direction of the movable member on one surface thereof. A fulcrum member opposed to the fine movement element, and the position of the fine movement element on the other surface.
And an annular lever member provided with a pair of fulcrum connecting portions at positions facing each other at a distance, the fine movement element as a force point, the fulcrum connecting portion as a fulcrum, the fulcrum member as an action point, and It is characterized in that the movable member is finely moved together with the functional element for finely moving the movable member via the lever member.

【0015】請求項2記載の発明に係る微動機構は、第
1の光学系を内周部にネジ結合で軸方向に移動可能に備
えた円筒状の固定部材と、この固定部材の外側に配置さ
れ、前記固定部材により弾性部材を介して軸方向に移動
可能に支持されるとともに光を微動させる第2の光学系
を取り付けた円筒状の移動部材と、前記固定部材と移動
部材との間に介装され、一方の面には前記移動部材の軸
方向に変位する微動素子と該微動素子に対向せしめた支
点部材とを備え、他方の面には前記微動素子の位置と9
0度離間した位置に対向する配置に一対の支点連結部を
設けた環状の梃子部材とを有し、前記微動素子を力点と
し、前記支点連結部を支点とし、前記支点部材を作用点
として、前記梃子部材を介して前記移動部材を第2の光
学系とともに微動させるとともに、前記第1の光学系の
円筒状の固定部材に対する軸方向の移動による光学調整
を可能としたことを特徴とするものである。
According to a second aspect of the present invention, there is provided a fine movement mechanism in which a first optical system is provided in a cylindrical fixing member provided on an inner peripheral portion of the cylindrical member so as to be axially movable by screw connection, and arranged outside the fixing member. Between the stationary member and the moving member, which is movably supported in the axial direction by the fixing member and has a second optical system for finely moving the light attached thereto, and the fixing member and the moving member. A fine movement element which is interposed and which is displaced in the axial direction of the moving member, and a fulcrum member opposed to the fine movement element are provided, and the position of the fine movement element and the position of the fine movement element are provided on the other surface.
And an annular lever member provided with a pair of fulcrum connecting portions at positions facing each other at a distance of 0 degree, the fine movement element as a force point, the fulcrum connecting portion as a fulcrum, and the fulcrum member as an action point, The moving member is finely moved together with the second optical system via the lever member, and the optical adjustment is possible by axial movement of the first optical system with respect to the cylindrical fixing member. Is.

【0016】請求項3記載の発明に係る微動機構は、第
1の光学系を内周部に軸方向に移動可能に、かつ、着脱
可能に備えた円筒状の固定部材と、この固定部材の外側
に配置され、前記固定部材により弾性部材を介して軸方
向に移動可能に支持されるとともに光を微動させる第2
の光学系を取り付けた円筒状の移動部材と、前記固定部
材と移動部材との間に介装され、一方の面には前記移動
部材の軸方向に変位する微動素子と該微動素子に対向せ
しめた支点部材とを備え、他方の面には前記微動素子の
位置と90度離間した位置に対向する配置に一対の支点
連結部を設けた環状の梃子部材とを有し、前記微動素子
を力点とし、前記支点連結部を支点とし、前記支点部材
を作用点として、前記梃子部材を介して前記移動部材を
第2の光学系とともに微動させるとともに、前記第1の
光学系の固定部材に対する着脱によりこの第1の光学系
を取換え可能としたことを特徴とするものである。
According to a third aspect of the present invention, there is provided a fine movement mechanism in which the first optical system is axially movable in the inner peripheral portion and is detachably mounted, and a cylindrical fixing member, and the fixing member. A second member that is disposed on the outer side and is movably supported in the axial direction by the fixing member via an elastic member, and that finely moves the light.
A cylindrical moving member having an optical system attached thereto, and is interposed between the fixed member and the moving member, and one surface thereof is provided with a fine movement element which is displaced in the axial direction of the movement member and the fine movement element is opposed to the fine movement element. And a ring-shaped lever member provided with a pair of fulcrum connecting portions at a position facing the position of the fine movement element at a position 90 degrees apart from the position of the fine movement element. By using the fulcrum connection portion as a fulcrum, the fulcrum member as an action point, the moving member is finely moved together with the second optical system via the lever member, and the first optical system is attached to or detached from the fixed member. It is characterized in that the first optical system can be replaced.

【0017】請求項1記載の発明に係る微動機構によれ
ば、固定部材の内側に機能素子を配置し、前記微動素子
を力点とし、前記支点連結部を支点とし、前記支点部材
を作用点として、前記梃子部材を介して前記移動部材を
微動させる機能素子とともに微動するようにしたので、
従来例に比べ部品点数が減少し、かつ、前記両機能素子
間の距離を短くでき、構造が簡略となって、小型化、低
コスト化を図ることが可能となる。
According to the fine movement mechanism of the first aspect of the present invention, the functional element is arranged inside the fixed member, the fine movement element serves as a force point, the fulcrum connection portion serves as a fulcrum, and the fulcrum member serves as an action point. , Since it is configured to finely move together with the functional element for finely moving the moving member via the lever member,
Compared with the conventional example, the number of parts is reduced, the distance between the functional elements can be shortened, the structure is simplified, and the size and cost can be reduced.

【0018】請求項2記載の発明に係る微動機構によれ
ば、請求項1記載の発明に係る微動機構と同様部品点数
が減少し、かつ、前記第1、第2の光学系間の距離を短
くでき、構造が簡略となって、小型化、低コスト化を図
ることが可能となるとともに、第1の光学系の円筒状の
固定部材に対する軸方向の移動による光学調整もできる
ので、ピント調整等が容易となる。
According to the fine movement mechanism of the second aspect of the invention, the number of parts is reduced as in the fine movement mechanism of the first aspect of the invention, and the distance between the first and second optical systems is reduced. It can be shortened, the structure can be simplified, the size and cost can be reduced, and the optical adjustment can be performed by moving the first optical system with respect to the cylindrical fixing member in the axial direction. Etc. becomes easy.

【0019】請求項3記載の発明に係る微動機構によれ
ば、請求項2記載の発明に係る微動機構と同様部品点数
が減少し、かつ、前記第1、第2の光学系間の距離を短
くでき、構造が簡略となって、小型化、低コスト化を図
ることが可能となるとともに、第1の光学系を取換えで
きるので、既存の第1の光学系に対してこの微動機構を
取り付け光学調整を行うことが可能となる。
According to the fine movement mechanism of the third aspect of the invention, the number of parts is reduced as in the fine movement mechanism of the second aspect of the invention, and the distance between the first and second optical systems is reduced. It can be shortened, the structure can be simplified, downsizing and cost reduction can be achieved, and the first optical system can be replaced. Therefore, this fine movement mechanism can be used for the existing first optical system. It becomes possible to perform mounting optical adjustment.

【0020】[0020]

【発明の実施の形態】以下に本発明の実施の形態につい
て詳細に説明する。
Embodiments of the present invention will be described below in detail.

【0021】[実施の形態1]図1乃至図3は、本発明
の実施の形態1の微動機構を示し、図1は実施の形態1
の微動機構の平面図、図2は図1におけるC−C側断面
図、図3は図1における一部を破断したD−D側断面図
をそれぞれ示すものである。
[First Embodiment] FIGS. 1 to 3 show a fine movement mechanism according to a first embodiment of the present invention. FIG. 1 shows the first embodiment.
2 is a plan view of the fine movement mechanism of FIG. 2, FIG. 2 is a sectional view taken along line CC in FIG. 1, and FIG. 3 is a sectional view taken along line DD of FIG.

【0022】図1乃至図3において、21は固定部材で
あり、この固定部材21は、中央に穴22を穿設した円
筒状の支持枠52の外周部の上部に、環状の支持縁23
を突設するとともに、支持枠52の内周部には、穴22
を通り、微動させる機能素子である第2の光学系として
のレンズ系36に入射する光を射出する機能素子である
第1のレンズ系24を配置している。
In FIGS. 1 to 3, reference numeral 21 denotes a fixing member, and the fixing member 21 has an annular support edge 23 on the upper portion of the outer periphery of a cylindrical support frame 52 having a hole 22 formed in the center thereof.
And a hole 22 is formed in the inner peripheral portion of the support frame 52.
The first lens system 24, which is a functional element that emits light that enters the lens system 36 that is a second optical system that is a functional element that makes a slight movement, is arranged.

【0023】固定部材21の外周には、移動部材25を
配置している。この移動部材25は、微動させる第2の
光学系としてのレンズ系36の取り付け部が挿入可能な
穴28を底部に有する略円筒状の枠体26と、この枠体
26の内周の穴28側に突設した環状の支持縁27とに
より構成している。
A moving member 25 is arranged on the outer periphery of the fixed member 21. The moving member 25 has a substantially cylindrical frame body 26 having a hole 28 into which a mounting portion of a lens system 36 as a second optical system for fine movement can be inserted, and a hole 28 on the inner periphery of the frame body 26. It is constituted by an annular support edge 27 protruding on the side.

【0024】また、移動部材25は、固定部材21の外
側に同一軸上を上下方向に移動可能となるように一対の
環状の板バネ29、30により保持されている。一対の
板バネ29、30は、それぞれの外周縁を移動部材25
の内周壁部に埋設固定するとともに、内周縁を固定部材
21の外周壁部に埋設固定する構造であり、これによ
り、固定部材21と移動部材25間に介装される状態と
なっている。
The moving member 25 is held outside the fixed member 21 by a pair of annular leaf springs 29 and 30 so as to be vertically movable on the same axis. The pair of leaf springs 29, 30 have their outer peripheral edges moved by the moving member 25.
The structure is such that the inner peripheral edge is embedded and fixed in the inner peripheral wall portion, and the inner peripheral edge is embedded and fixed in the outer peripheral wall portion of the fixing member 21, whereby the state is interposed between the fixing member 21 and the moving member 25.

【0025】図2、図3において、31は環状の梃子部
材で、この梃子部材31は、固定部材21と移動部材2
5との間に介装されるとともに、この梃子部材31と移
動部材25の支持縁27との間に固定部材21に関して
対向する配置で支点連結部(支点として作用する)とし
ての支点バネ32、33を取り付けることにより、梃子
部材31を支点バネ32、33を介して移動部材25に
連結している。
In FIGS. 2 and 3, reference numeral 31 denotes an annular lever member, and the lever member 31 includes the fixed member 21 and the moving member 2.
5, and a fulcrum spring 32 as a fulcrum connecting portion (acting as a fulcrum) in a disposition facing the fixed member 21 between the lever member 31 and the support edge 27 of the moving member 25. By attaching 33, the lever member 31 is connected to the moving member 25 via the fulcrum springs 32 and 33.

【0026】また、固定部材21の支持縁23と、梃子
部材31との間にピエゾ素子(力点として作用する)3
4を取り付けるとともに、このピエゾ素子34と固定部
材21に関して対向位置に、固定部材21の支持縁23
に端部を固定して取り付けた支点部材35の先端35a
(作用点として作用する)を梃子部材31に当接させつ
つ配置することにより、梃子部材31をピエゾ素子3
4、支点部材35を介して固定部材21に連結してい
る。
A piezo element (acting as a force point) 3 is provided between the support edge 23 of the fixing member 21 and the lever member 31.
4 is attached, and at the opposite position with respect to the piezo element 34 and the fixing member 21, the supporting edge 23 of the fixing member 21 is provided.
35a of the fulcrum member 35 fixedly attached to the end
By placing the lever member 31 (which acts as the point of action) in contact with the lever member 31, the lever member 31 can be disposed.
4, it is connected to the fixing member 21 via the fulcrum member 35.

【0027】微動させるレンズ系36は、レンズ38
と、このレンズ38を移動部材25に固定させる枠37
とから構成している。
The lens system 36 for fine movement is a lens 38.
And a frame 37 for fixing the lens 38 to the moving member 25.
It is composed of

【0028】上述した微動機構において、微動させたい
レンズ系36を、移動部材25にセットした後、前記レ
ンズ系24に入射した光41は光42となり、固定部材
21の穴22を透過し、微動させたいレンズ系36に入
射し、このレンズ系36から所望の光43を射出させる
とともに、前記ピエゾ素子34に図示しない制御回路を
介して駆動信号を入力しつつ駆動することにより、ピエ
ゾ素子34の変位で移動部材25を微動し、レンズ系3
6のピント位置を調整する。
In the above-described fine movement mechanism, after the lens system 36 to be finely moved is set on the moving member 25, the light 41 incident on the lens system 24 becomes light 42, which passes through the hole 22 of the fixing member 21 and makes a fine movement. The desired light 43 is made incident on the desired lens system 36, and a desired light 43 is emitted from this lens system 36, and the piezoelectric device 34 is driven by inputting a drive signal through a control circuit (not shown). The moving member 25 is slightly moved by the displacement, and the lens system 3
Adjust the focus position of 6.

【0029】また、前記ピエゾ素子34を駆動すること
により、その変位量は固定部材21と、この固定部材2
1より板バネ29、30を介して保持される移動部材2
5との間に介装されている梃子部材31を介して半減さ
れるとともに、支点部材35を介して環状の板バネ2
9、30に保持される移動部材25が固定部材21の同
軸上を軸方向に対して傾くことなく変位せしめられる。
By driving the piezo element 34, the displacement amount of the piezo element 34 is fixed to that of the fixed member 21.
Moving member 2 held by leaf springs 29, 30 from 1
5 is halved via a lever member 31 interposed between the leaf springs 5 and 5, and an annular leaf spring 2 via a fulcrum member 35.
The moving member 25 held by 9, 30 is displaced coaxially with the fixed member 21 without tilting with respect to the axial direction.

【0030】本実施の形態1によれば、光を射出するレ
ンズ系24を直接固定部材21の穴22に固定配置して
いるので、従来例に比べ、微動機構を構成する部品の数
を少なくすることができ、構造が簡略化して省スペース
化、低コスト化を図れる微動機構を提供することができ
る。
According to the first embodiment, since the lens system 24 for emitting light is fixedly arranged directly in the hole 22 of the fixing member 21, the number of parts constituting the fine movement mechanism is smaller than that of the conventional example. Therefore, it is possible to provide the fine movement mechanism which has a simplified structure, saves space, and reduces cost.

【0031】また、図2、図3に示すように、レンズ系
36の外径が入るような穴39を穿設したカバー40内
に、上述した微動機構を収納すれば、移動部材25に不
用意に手や物が接触することを防げ、この微動機構の保
護が万全となる。
Further, as shown in FIGS. 2 and 3, if the fine movement mechanism described above is housed in a cover 40 having a hole 39 in which the outer diameter of the lens system 36 is inserted, the moving member 25 cannot be accommodated. You can easily prevent your hands and objects from touching, and the fine movement mechanism will be protected.

【0032】[実施の形態2]次に、図4乃至図6を参
照して本発明の第2実施の形態を説明する。図4は実施
の形態2の微動機構の平面図であり、図5は図4におけ
るE−E側断面図であり、図6は図4における一部を破
断したF−F側断面図である。
[Second Embodiment] Next, a second embodiment of the present invention will be described with reference to FIGS. 4 is a plan view of the fine movement mechanism according to the second embodiment, FIG. 5 is a sectional view taken along line EE in FIG. 4, and FIG. 6 is a sectional view taken along line FF in FIG. .

【0033】本実施の形態2では、実施の形態1におけ
る固定部材21の穴22に対応する部分を雌ネジ44と
し、光を射出させるレンズ系24を保持するレンズ枠4
5の外周に設けた雄ネジ46を前記雌ネジ44に螺合す
る構成としたことが特徴である。この他の構成は実施の
形態1の構成と同様である。
In the second embodiment, the portion corresponding to the hole 22 of the fixing member 21 in the first embodiment is a female screw 44, and the lens frame 4 for holding the lens system 24 for emitting light.
5 is characterized in that a male screw 46 provided on the outer circumference of 5 is screwed into the female screw 44. The other configurations are similar to those of the first embodiment.

【0034】実施の形態2の微動機構において、光を射
出させるレンズ系24は、レンズ枠45が雄ネジ46と
雌ネジ44との螺合構造により固定部材21に連結され
ているので、本微動機構を例えば干渉計に取り付けた後
に、レンズ系24から射出される光を所望の光になるよ
うに、レンズ枠45を雄ネジ46の雌ネジ44に対する
回転で固定部材21と同じ軸方向に移動させてピント位
置調整等の光学調整を容易に行うこととができる。
In the fine movement mechanism of the second embodiment, in the lens system 24 for emitting light, the lens frame 45 is connected to the fixing member 21 by the screwing structure of the male screw 46 and the female screw 44, so that the fine movement is performed. After attaching the mechanism to, for example, an interferometer, the lens frame 45 is moved in the same axial direction as the fixing member 21 by rotating the male screw 46 with respect to the female screw 44 so that the light emitted from the lens system 24 becomes a desired light. By doing so, optical adjustment such as focus position adjustment can be easily performed.

【0035】本実施の形態2によれば、レンズ系24を
固定部材21の軸方向に移動可能であるので、本実施の
形態2の微動機構を干渉計等に取り付けた後、レンズ系
24から射出される光が所望の光になるように、レンズ
枠45を回転させるだけでこのレンズ系24のピント位
置調整等の光学調整を外部から容易に行うことができ
る。
According to the second embodiment, since the lens system 24 can be moved in the axial direction of the fixing member 21, the lens system 24 is moved from the lens system 24 after the fine movement mechanism of the second embodiment is attached to an interferometer or the like. Optical adjustment such as focus position adjustment of the lens system 24 can be easily performed from the outside only by rotating the lens frame 45 so that the emitted light becomes a desired light.

【0036】[実施の形態3]次に、図7乃至図9を参
照して本発明の第3実施の形態を説明する。図7は実施
の形態3の微動機構の平面図であり、図8は図7におけ
るG−G側断面図であり、図9は図7における一部を破
断したH−H側断面図である。
[Third Embodiment] Next, a third embodiment of the present invention will be described with reference to FIGS. 7 is a plan view of the fine movement mechanism of the third embodiment, FIG. 8 is a sectional view taken along the line GG in FIG. 7, and FIG. 9 is a sectional view taken along the line HH in FIG. .

【0037】本実施の形態3では、実施の形態1におけ
る光を射出させるレンズ系24を内部に保持するととも
に、円形の外周49を有した円筒状のレンズ枠48と、
このレンズ枠48の外周49と摺動可能に嵌合する穴5
1を備えるとともに、外周上端部に設けた鍔部50aに
前記レンズ枠48の外周49に当接させるネジ53を配
置した前記固定部材21と略同様な構造の固定部材50
とを有することが特徴である。他の構成は実施の形態1
の構成と同様である。
In the third embodiment, the lens system 24 for emitting the light in the first embodiment is held inside, and a cylindrical lens frame 48 having a circular outer periphery 49,
A hole 5 slidably fitted to the outer circumference 49 of the lens frame 48
1, the fixing member 50 having substantially the same structure as that of the fixing member 21 in which a screw 53 for contacting the outer circumference 49 of the lens frame 48 is arranged on the flange 50a provided on the upper end of the outer circumference.
It is characterized by having: Other configurations are the same as those of the first embodiment.
The configuration is the same as that described above.

【0038】本実施の形態3の微動機構において、レン
ズ系24を取り付けたレンズ枠48を固定部材50より
取り外したい場合(微動機構とレンズ系24を取り付け
たレンズ枠48とを分離させたい場合)固定部材50の
ネジ53を弛め、レンズ枠48の外周49と固定部材5
0の穴51とを摺動させつつレンズ枠48を軸方向に引
き抜くだけでよい。
In the fine movement mechanism of the third embodiment, when it is desired to remove the lens frame 48 to which the lens system 24 is attached from the fixing member 50 (when it is desired to separate the fine movement mechanism and the lens frame 48 to which the lens system 24 is attached). The screw 53 of the fixing member 50 is loosened to fix the outer periphery 49 of the lens frame 48 and the fixing member 5.
It suffices to pull out the lens frame 48 in the axial direction while sliding it in the hole 51 of 0.

【0039】本実施の形態3によれば、レンズ枠48を
例えば干渉計に取り付けたままの状態で微動機構をレン
ズ枠48から取り外すことができ、再び微動機構を取り
付けた後に、レンズ系24の光学調整をやり直す必要が
なくなる。
According to the third embodiment, the fine movement mechanism can be removed from the lens frame 48 while the lens frame 48 is still attached to the interferometer, and after the fine movement mechanism is attached again, the lens system 24 There is no need to redo the optical adjustment.

【0040】また、既存のレンズ枠48の外周49に合
わせて固定部材50の穴51を製作すれば、微動機構が
無かったレンズ系24に、容易に微動機構を付加でき
る。更に、前記穴51を共通とする複数の微動機構を製
作しておけば、固定部材50のネジ53を使用して微動
機構の交換が可能となり、保守、点検が容易になる。
If the hole 51 of the fixing member 50 is manufactured so as to match the outer circumference 49 of the existing lens frame 48, the fine movement mechanism can be easily added to the lens system 24 which does not have the fine movement mechanism. Furthermore, if a plurality of fine movement mechanisms having the same hole 51 are manufactured, the fine movement mechanism can be replaced by using the screw 53 of the fixing member 50, and maintenance and inspection can be facilitated.

【0041】尚、上述した実施の形態1乃至3では、固
定部材の内側に機能素子としての光学系を配置した場合
について説明したが、機能素子としては光学系に限定さ
れるものではなく、レーザダイオード、LED等の各種
の光源素子でもよい。また、光学系としては、レンズに
代表される透過光学系の他、ミラーやプリズム等の反射
光学系でもよい。
In the above-described first to third embodiments, the case where the optical system as the functional element is arranged inside the fixing member has been described, but the functional element is not limited to the optical system, and the laser is not limited. Various light source elements such as diodes and LEDs may be used. The optical system may be a transmissive optical system represented by a lens or a reflective optical system such as a mirror or a prism.

【0042】[0042]

【発明の効果】請求項1記載の発明によれば、従来例に
比べ部品点数が減少し、かつ、前記両機能素子間の距離
を短くでき、構造が簡略となって、小型化、低コスト化
を図ることが可能な微動機構を提供することができる。
According to the first aspect of the present invention, the number of parts is reduced as compared with the conventional example, and the distance between the both functional elements can be shortened, the structure is simplified, the size is reduced, and the cost is reduced. It is possible to provide a fine movement mechanism that can be realized.

【0043】請求項2記載の発明によれば、請求項1記
載の発明の効果に加えて、第1の光学系の固定部材に対
する軸方向の移動による光学調整も可能な微動機構を提
供することができる。
According to the invention described in claim 2, in addition to the effect of the invention described in claim 1, there is provided a fine movement mechanism capable of optical adjustment by axial movement of the first optical system with respect to the fixing member. You can

【0044】請求項3記載の発明によれば、請求項2記
載の発明の効果に加えて、既存の第1の光学系に対して
この微動機構を取り付け光学調整を行うことが可能な微
動機構を提供することができる。
According to the third aspect of the invention, in addition to the effect of the second aspect of the invention, the fine movement mechanism can be attached to the existing first optical system to perform optical adjustment. Can be provided.

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

【図1】図1は実施の形態1の微動機構を示す平面図で
ある。
FIG. 1 is a plan view showing a fine movement mechanism according to a first embodiment.

【図2】図1におけるC−C側断面図である。FIG. 2 is a side sectional view taken along the line CC in FIG.

【図3】図1における一部を破断したD−D側断面図で
ある。
FIG. 3 is a sectional side view taken along the line DD of FIG.

【図4】実施の形態2の微動機構の平面図である。FIG. 4 is a plan view of a fine movement mechanism according to the second embodiment.

【図5】図4におけるE−E側断面図である。5 is a side sectional view taken along line EE in FIG.

【図6】図4における一部を破断したF−F側断面図で
ある。
FIG. 6 is a side sectional view taken along line FF of FIG.

【図7】実施の形態3の微動機構の平面図である。FIG. 7 is a plan view of a fine movement mechanism according to the third embodiment.

【図8】図7におけるG−G側断面図である。8 is a sectional view taken along the line GG in FIG.

【図9】図7における一部を破断したH−H側断面図で
ある。
FIG. 9 is a side sectional view taken along line HH of FIG.

【図10】従来の微動機構の平面図である。FIG. 10 is a plan view of a conventional fine movement mechanism.

【図11】図10に示す微動機構におけるA−A側断面
図である。
11 is a cross-sectional view taken along the line AA of the fine movement mechanism shown in FIG.

【図12】図10に示す微動機構おける一部を破断した
B−B側断面図である。
12 is a side cross-sectional view taken along the line BB of the fine movement mechanism shown in FIG.

【図13】図10に示す微動機構に光を射出するレンズ
系および微動させるレンズ系を配置したときのA−A側
断面図である。
13 is a cross-sectional view taken along the line AA when a lens system for emitting light and a lens system for fine movement are arranged in the fine movement mechanism shown in FIG.

【符号の説明】[Explanation of symbols]

21 固定部材 22 穴 23 支持縁 24 レンズ系 25 移動部材 26 枠体 27 支持縁 29 板バネ 30 板バネ 31 梃子部材 32 支点バネ 33 支点バネ 34 ピエゾ素子 36 レンズ系 37 枠 38 レンズ 52 支持枠 21 fixing member 22 hole 23 support edge 24 lens system 25 moving member 26 frame 27 support edge 29 leaf spring 30 leaf spring 31 lever member 32 fulcrum spring 33 fulcrum spring 34 piezo element 36 lens system 37 frame 38 lens 52 support frame

Claims (3)

【特許請求の範囲】[Claims] 【請求項1】 機能素子を内側に有した固定部材と、 この固定部材の外側に配置され、前記固定部材により弾
性部材を介して軸方向に移動可能に支持された微動させ
る機能素子を取り付けた移動部材と、 前記固定部材と移動部材との間に介装され、一方の面に
は前記移動部材の軸方向に変位する微動素子と該微動素
子に対向せしめた支点部材とを備え、他方の面には前記
微動素子の位置と90度離間した位置に対向する配置に
一対の支点連結部を設けた環状の梃子部材とを有し、 前記微動素子を力点とし、前記支点連結部を支点とし、
前記支点部材を作用点として、前記梃子部材を介して前
記移動部材を微動させる機能素子とともに微動するよう
にしたことを特徴とする微動機構。
1. A fixing member having a functional element inside, and a finely moving functional element arranged outside the fixing member and movably supported in the axial direction by an elastic member by the fixing member. A movable member, a fixed member interposed between the fixed member and the movable member, and provided on one surface with a fine movement element that is displaced in the axial direction of the movement member and a fulcrum member that is opposed to the fine movement element. The surface has an annular lever member provided with a pair of fulcrum connecting portions at a position facing the position of the fine moving element and a position separated by 90 degrees, and the fine moving element is a force point, and the fulcrum connecting portion is a fulcrum. ,
A fine movement mechanism, wherein the fulcrum member is used as a point of action to finely move together with a functional element that finely moves the moving member via the lever member.
【請求項2】 第1の光学系を内周部にネジ結合で軸方
向に移動可能に備えた円筒状の固定部材と、 この固定部材の外側に配置され、前記固定部材により弾
性部材を介して軸方向に移動可能に支持されるとともに
光を微動させる第2の光学系を取り付けた円筒状の移動
部材と、 前記固定部材と移動部材との間に介装され、一方の面に
は前記移動部材の軸方向に変位する微動素子と該微動素
子に対向せしめた支点部材とを備え、他方の面には前記
微動素子の位置と90度離間した位置に対向する配置に
一対の支点連結部を設けた環状の梃子部材とを有し、 前記微動素子を力点とし、前記支点連結部を支点とし、
前記支点部材を作用点として、前記梃子部材を介して前
記移動部材を第2の光学系とともに微動させるととも
に、前記第1の光学系の円筒状の固定部材に対する軸方
向の移動による光学調整を可能としたこと、 を特徴とする微動機構。
2. A cylindrical fixing member provided with a first optical system on an inner peripheral portion thereof so as to be axially movable by screw connection, and a cylindrical fixing member disposed outside the fixing member, with an elastic member interposed by the fixing member. A cylindrical moving member that is movably supported in the axial direction and that has a second optical system that slightly moves the light, and is interposed between the fixed member and the moving member, and one surface of the moving member is A fine movement element that is displaced in the axial direction of the moving member and a fulcrum member that opposes the fine movement element are provided, and a pair of fulcrum connection portions are arranged on the other surface so as to face the position of the fine movement element and a position separated by 90 degrees. And an annular lever member provided with, the fine movement element as a force point, the fulcrum connection portion as a fulcrum,
Using the fulcrum member as a point of action, the moving member can be finely moved together with the second optical system via the lever member, and optical adjustment can be performed by axial movement of the first optical system with respect to the cylindrical fixing member. And, a fine movement mechanism characterized by.
【請求項3】 第1の光学系を内周部に軸方向に移動可
能に、かつ、着脱可能に備えた円筒状の固定部材と、 この固定部材の外側に配置され、前記固定部材により弾
性部材を介して軸方向に移動可能に支持されるとともに
光を微動させる第2の光学系を取り付けた円筒状の移動
部材と、 前記固定部材と移動部材との間に介装され、一方の面に
は前記移動部材の軸方向に変位する微動素子と該微動素
子に対向せしめた支点部材とを備え、他方の面には前記
微動素子の位置と90度離間した位置に対向する配置に
一対の支点連結部を設けた環状の梃子部材とを有し、 前記微動素子を力点とし、前記支点連結部を支点とし、
前記支点部材を作用点として、前記梃子部材を介して前
記移動部材を第2の光学系とともに微動させるととも
に、前記第1の光学系の固定部材に対する着脱によりこ
の第1の光学系を取換え可能としたこと、 を特徴とする微動機構。
3. A cylindrical fixing member provided with the first optical system so as to be movable in the inner peripheral portion in the axial direction and detachably, and arranged outside the fixing member, and elastic by the fixing member. A cylindrical moving member, which is movably supported in the axial direction via a member and has a second optical system for finely moving light, and is interposed between the fixed member and the moving member, and one surface Is provided with a fine movement element that is displaced in the axial direction of the moving member and a fulcrum member that faces the fine movement element. On the other surface, there is a pair of arrangements that face the position of the fine movement element and a position that is separated by 90 degrees. And an annular lever member provided with a fulcrum connection portion, the fine movement element as a force point, the fulcrum connection portion as a fulcrum,
With the fulcrum member as an action point, the moving member is finely moved together with the second optical system via the lever member, and the first optical system can be replaced by attaching / detaching the first optical system to / from the fixing member. And, a fine movement mechanism characterized by.
JP25261895A 1995-09-29 1995-09-29 Fine movement mechanism Expired - Fee Related JP3434097B2 (en)

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Application Number Priority Date Filing Date Title
JP25261895A JP3434097B2 (en) 1995-09-29 1995-09-29 Fine movement mechanism

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Application Number Priority Date Filing Date Title
JP25261895A JP3434097B2 (en) 1995-09-29 1995-09-29 Fine movement mechanism

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JPH0996752A true JPH0996752A (en) 1997-04-08
JP3434097B2 JP3434097B2 (en) 2003-08-04

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Application Number Title Priority Date Filing Date
JP25261895A Expired - Fee Related JP3434097B2 (en) 1995-09-29 1995-09-29 Fine movement mechanism

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2006301584A (en) * 2005-04-18 2006-11-02 Samsung Electro-Mechanics Co Ltd Lens moving device improved in assemblability
CN113977258A (en) * 2021-12-27 2022-01-28 极限人工智能有限公司 Binocular lens assembling and debugging equipment and method

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2006301584A (en) * 2005-04-18 2006-11-02 Samsung Electro-Mechanics Co Ltd Lens moving device improved in assemblability
JP4509942B2 (en) * 2005-04-18 2010-07-21 サムソン エレクトロ−メカニックス カンパニーリミテッド. Lens transfer device with improved assembly
CN113977258A (en) * 2021-12-27 2022-01-28 极限人工智能有限公司 Binocular lens assembling and debugging equipment and method

Also Published As

Publication number Publication date
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