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JPH116949A - Photographing lens barrel - Google Patents

Photographing lens barrel

Info

Publication number
JPH116949A
JPH116949A JP9175123A JP17512397A JPH116949A JP H116949 A JPH116949 A JP H116949A JP 9175123 A JP9175123 A JP 9175123A JP 17512397 A JP17512397 A JP 17512397A JP H116949 A JPH116949 A JP H116949A
Authority
JP
Japan
Prior art keywords
optical axis
lens barrel
photographing
internal mechanism
operation ring
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.)
Withdrawn
Application number
JP9175123A
Other languages
Japanese (ja)
Inventor
Hiroshi Tanioka
洋 谷岡
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.)
Nikon Corp
Original Assignee
Nikon Corp
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 Nikon Corp filed Critical Nikon Corp
Priority to JP9175123A priority Critical patent/JPH116949A/en
Publication of JPH116949A publication Critical patent/JPH116949A/en
Withdrawn legal-status Critical Current

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  • Lens Barrels (AREA)

Abstract

PROBLEM TO BE SOLVED: To provide a compact photographing lens barrel where the degree of freedom in design is increased while sufficiently supporting plural operation rings and securing space for arranging an internal mechanism such as an encoder. SOLUTION: This photographing lens barrel is equipped with photographing optical systems L1, L2 and L3, plural operation members 60 and 70 which can rotate centered on the optical axis C of the photographing optical system, the internal mechanisms 80, 102, 103 and 201 performing actions related to photographing based on the rotation of the operation members, and a fixed member 500 supporting the internal mechanisms and the operation members. In such a case, the member 500 supports the internal mechanism on its outer surface 520a and supports plural operation members by a separate member 151 separately provided to be opposed to the outer surface and extended in an optical axis direction.

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、ズーミングやフォ
ーカシング等についての操作環を有する撮影レンズ鏡筒
に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a photographic lens barrel having an operation ring for zooming, focusing, and the like.

【0002】[0002]

【従来の技術】従来の撮影レンズ鏡筒としては、例えば
図3に示すようなものがある。図3は、従来の撮影レン
ズ鏡筒の縦断面図である。このレンズ鏡筒は、光軸C上
に配されている複数のレンズ群L1,L2,L3と、各
レンズ群L1,L2,L3をそれぞれ支持する第1、第
2及び第3のレンズ枠l0,20,40と、カメラ本体
(図示省略)に取り付けるためのマウント部51を有す
る固定筒50と、ズーム操作を行うためのズーム操作環
60と、フォーカシング操作を行うためのフォーカス操
作環70と、光軸Cの回りにスパイラル状のカム溝8
2,83に嵌り込むカムピン92,94等を備えてい
る。
2. Description of the Related Art As a conventional photographing lens barrel, for example, there is one as shown in FIG. FIG. 3 is a longitudinal sectional view of a conventional photographing lens barrel. This lens barrel includes a plurality of lens groups L1, L2, and L3 arranged on the optical axis C, and first, second, and third lens frames 10 that respectively support the lens groups L1, L2, and L3. , 20, 40, a fixed barrel 50 having a mount portion 51 for mounting to a camera body (not shown), a zoom operation ring 60 for performing a zoom operation, a focus operation ring 70 for performing a focusing operation, Spiral cam groove 8 around optical axis C
2 and 83 are provided.

【0003】固定筒50は、円筒部52と、この円筒部
52の外周面上に形成されているフランジ部53,54
と、前述のマウント部51とを有している。固定筒50
のフランジ部54の外周側に、ズーム操作環60が径方
向に嵌合され、光軸Cの回りに回転可能に支持され、側
面側には図示の如く外筒110がビス111によって固
定されている。フランジ部53の外周側には、フォーカ
ス操作環70がねじ嵌合され、光軸Cの回りに回転可能
に設けられている。また、フォーカス操作環70の内周
側には、光軸Cと平行な方向に延びるフォーカシング用
直進溝75が形成されている。
The fixed cylinder 50 has a cylindrical portion 52 and flange portions 53, 54 formed on the outer peripheral surface of the cylindrical portion 52.
And the mount 51 described above. Fixed cylinder 50
A zoom operation ring 60 is radially fitted on the outer peripheral side of the flange portion 54, is rotatably supported around the optical axis C, and an outer cylinder 110 is fixed to the side surface by screws 111 as shown in the figure. I have. A focus operation ring 70 is screw-fitted on the outer peripheral side of the flange portion 53, and is provided rotatably around the optical axis C. Further, a focusing rectilinear groove 75 extending in a direction parallel to the optical axis C is formed on the inner peripheral side of the focus operation ring 70.

【0004】固定筒50の円筒部52の外周側には、図
示の如くカム筒80が、その周溝80a内に直進溝80
bを通過した突起53bが嵌摺する状態で、光軸Cの回
りに回転可能に配置されている。カム筒80上には、連
結部材65がビス100によって固定されており、該連
結部材65は図示の如く、フランジ部53の切り欠き部
53aを遊貫しズーム操作環60の切り欠き60aに挿
嵌されている。
On the outer peripheral side of the cylindrical portion 52 of the fixed cylinder 50, a cam cylinder 80 as shown in FIG.
The projection 53b that has passed through b is disposed so as to be rotatable around the optical axis C in a state of fitting. On the cam cylinder 80, a connecting member 65 is fixed by a screw 100. The connecting member 65 passes through a notch 53a of the flange 53 and is inserted into a notch 60a of the zoom operation ring 60 as shown in the figure. It is fitted.

【0005】このカム環80には、光軸Cの回りにスパ
イラル状に内周側から外周側へ貫通するように第2レン
ズ群用カム溝82と第3レンズ群用カム溝83とが形成
されている。固定筒50の円筒部52には、光軸Cと平
行な方向に延び、内周側から外周側へ貫通したズーミン
グ用直進溝57,58が形成されている。第3のレンズ
枠40は、第3レンズ群L3を支持する第3レンズ支持
部41と、固定筒50の円筒部52の内周面に摺接する
直胴円筒部42と、直胴円筒部42の被写体側端部(図
面左方)に形成されている雄へリコイド44とを有して
いる。この第3レンズ枠40の直胴円筒部42には、内
周側から外周側へ貫通した逃げ溝43が形成されてい
る。
The cam ring 80 has a cam groove 82 for the second lens group and a cam groove 83 for the third lens group so as to spirally penetrate around the optical axis C from the inner peripheral side to the outer peripheral side. Have been. The cylindrical portion 52 of the fixed cylinder 50 is formed with zooming rectilinear grooves 57 and 58 extending in a direction parallel to the optical axis C and penetrating from the inner peripheral side to the outer peripheral side. The third lens frame 40 includes a third lens supporting portion 41 that supports the third lens unit L3, a straight cylindrical portion 42 that slides on the inner peripheral surface of the cylindrical portion 52 of the fixed barrel 50, and a straight cylindrical portion 42. And a male helicoid 44 formed at the subject side end (left side in the drawing). A relief groove 43 penetrating from the inner peripheral side to the outer peripheral side is formed in the straight cylindrical portion 42 of the third lens frame 40.

【0006】第2レンズ群L2を支持する第2のレンズ
枠20は、第3のレンズ枠40の直胴円筒部42の内周
側に、光軸C方向に移動可能に配されている。
The second lens frame 20 supporting the second lens unit L2 is arranged on the inner peripheral side of the straight cylindrical portion 42 of the third lens frame 40 so as to be movable in the direction of the optical axis C.

【0007】第1のレンズ枠10は、第3のレンズ枠4
0の雄へリコイド部44の外周側でかつフォーカス操作
環70の内周側に配されている外筒部13及び第1レン
ズ群L1を支持する第1レンズ支持部11が形成されて
いる。また、この外筒部13の内周側には、第3のレン
ズ枠40の雄へリコイド部44が螺合する雌ヘリコイド
部14が形成され、この外筒部13の外周側には、フォ
ーカス操作環70のフォーカシング用直進溝75に嵌り
込む連結突起部15が形成されている。
The first lens frame 10 has a third lens frame 4
The outer cylinder 13 and the first lens support 11 that supports the first lens unit L1 are formed on the outer circumference of the male helicoid part 44 and on the inner circumference of the focus operation ring 70. A female helicoid portion 14 is formed on the inner peripheral side of the outer cylindrical portion 13 to which the male lyricoid portion 44 of the third lens frame 40 is screwed. The connecting projection 15 is formed to fit into the focusing straight groove 75 of the operation ring 70.

【0008】第3レンズ群用カムピン94は、第3のレ
ンズ枠40の直胴円筒部42の外周側に突設され、固定
筒50の円筒部52のズーミング用直進溝57を通り、
カム筒80の第3レンズ用カム溝83に嵌り込んでい
る。また、第2レンズ群用カムピン92は、第2レンズ
枠20の外周側に突設され、第4レンズ枠40の直胴円
筒部42の逃げ溝43を通り、更に、固定筒50の円筒
部52のズーミング用直進溝58を通って、カム筒80
の第2レンズ群用カム溝82に嵌り込んでいる。なお、
各カムピン92,94や各カム溝82,83等は、光軸
Cを中心として対称的な位置にも設けられている。
The third lens group cam pin 94 protrudes from the outer peripheral side of the straight cylindrical portion 42 of the third lens frame 40 and passes through the zooming rectilinear groove 57 of the cylindrical portion 52 of the fixed barrel 50.
The cam barrel 80 is fitted in the third lens cam groove 83. The cam pin 92 for the second lens group projects from the outer peripheral side of the second lens frame 20, passes through the clearance groove 43 of the straight cylindrical portion 42 of the fourth lens frame 40, and further passes through the cylindrical portion of the fixed barrel 50. 52 through the zooming straight groove 58 of the cam cylinder 80
In the second lens group cam groove 82. In addition,
The cam pins 92 and 94, the cam grooves 82 and 83, and the like are also provided at symmetrical positions about the optical axis C.

【0009】以上の撮影レンズ鏡筒は以下のように動作
する。ズーム操作環60を光軸Cの回りに回転させる
と、これに伴ってカム筒80も光軸Cの回りに回転す
る。このカム筒80の回転により各カム溝82,83に
嵌り込んでいる各カムピン92,94は、光軸Cと平行
な方向に移動する。この結果、第3レンズ群用カムピン
94が突設されている第3レンズ枠40、及びこの第3
レンズ枠40の雄へリコイド部44に螺合している第1
のレンズ枠10が光軸C方向に移動して、これらのレン
ズ枠40,10に支持されている第3レンズ群L3及び
第1レンズ群L1が光軸C方向に移動する。また、第2
レンズ群用カムピン92が突設されている第2のレンズ
枠20が光軸C方向に移動して、この第2のレンズ枠2
0に支持されている第2レンズ群L2も光軸C方向に移
動する。
The above-described taking lens barrel operates as follows. When the zoom operation ring 60 is rotated around the optical axis C, the cam barrel 80 is also rotated around the optical axis C accordingly. The cam pins 92 and 94 fitted into the cam grooves 82 and 83 move in a direction parallel to the optical axis C by the rotation of the cam cylinder 80. As a result, the third lens frame 40 on which the third lens group cam pin 94 protrudes,
The first screwed into the male helicoid part 44 of the lens frame 40
Moves in the direction of the optical axis C, and the third lens group L3 and the first lens group L1 supported by these lens frames 40 and 10 move in the direction of the optical axis C. Also, the second
The second lens frame 20 on which the lens group cam pin 92 protrudes moves in the direction of the optical axis C, and the second lens frame 2
The second lens unit L2 supported at 0 also moves in the direction of the optical axis C.

【0010】また、フォーカス操作環70を光軸Cの回
りに回転させると、この回転に伴って、第1レンズ枠1
0も光軸Cの回りに回転する。この第1のレンズ枠10
は、外筒部13の内周側の雌ヘリコイド部14が第3レ
ンズ枠40の雄へリコイド部44と螺合しているため、
光軸Cの回りに回転しつつ光軸C方向に移動する。この
ため、この第1のレンズ枠10に支持されている第1レ
ンズ群L1も光軸C方向に移動して、フォーカス調整が
なされる。
When the focus operation ring 70 is rotated around the optical axis C, the first lens frame 1 is rotated with this rotation.
0 also rotates around the optical axis C. This first lens frame 10
Since the female helicoid portion 14 on the inner peripheral side of the outer cylindrical portion 13 is screwed with the male helicoid portion 44 of the third lens frame 40,
It moves in the direction of the optical axis C while rotating around the optical axis C. Therefore, the first lens unit L1 supported by the first lens frame 10 also moves in the direction of the optical axis C, and focus adjustment is performed.

【0011】フォーカス操作環70の後端であって、固
定筒51のフランジ部53とフランジ部54との間に
は、ブラシ103をかしめた支持部材102がビス10
4により固定されている。ブラシ103は、エンコーダ
用のパターンが設けられたフレキシブルプリント基板2
01上に摺接するように配置されている。なお、連結部
材65と支持部材102とは、お互いが干渉しないよう
にその作動角度範囲が重ならぬように配置されている。
At the rear end of the focus operation ring 70, between the flange 53 and the flange 54 of the fixed cylinder 51, a support member 102 with a brush 103 caulked is a screw 10.
4 fixed. The brush 103 is a flexible printed circuit board 2 provided with a pattern for an encoder.
01 is disposed so as to be in sliding contact with the uppermost portion 01. The connecting member 65 and the supporting member 102 are arranged so that their operating angle ranges do not overlap so that they do not interfere with each other.

【0012】[0012]

【発明が解決しようとする課題】このような構成の撮影
レンズ鏡筒において、円筒部52の外周上にフレキシブ
ルプリント基板201の実装スペースを確保するため
や、カム環80を回転可能に支持するための突起53b
を設けるために、両操作環60、70の回転支持部(フ
ランジ部53,54)を円筒部52と一体で形成しよう
とすると、図示の如くその回転支持部を機械加工上のあ
るいはプラスチック成形上の理由から、円筒部52の外
周面に対してオーバーハングするように設けることはで
きない。このため、ズーム操作環及びフォーカス操作環
を固定筒上において支持するための回転支持部の光軸方
向の嵌合長を十分に確保できず、操作環の操作時にがた
つきが大きくなってしまうという不具合が生じる場合が
あった。また、逆に、このようながたつきを抑制するた
めに、フランジ部53,54を光軸C方向に厚く構成す
ると、エンコーダ等の実装可能スペースが狭くなった
り、またはレンズ鏡筒が長くなってしまう等の問題が生
じる。
In the photographing lens barrel having such a configuration, in order to secure a mounting space for the flexible printed circuit board 201 on the outer periphery of the cylindrical portion 52 and to rotatably support the cam ring 80. Projection 53b
In order to form the rotary support portions (flange portions 53, 54) of the two operation rings 60, 70 integrally with the cylindrical portion 52, as shown in FIG. For this reason, it cannot be provided so as to overhang the outer peripheral surface of the cylindrical portion 52. For this reason, it is not possible to secure a sufficient fitting length in the optical axis direction of the rotation support portion for supporting the zoom operation ring and the focus operation ring on the fixed cylinder, and rattling becomes large when operating the operation ring. There was a case where such a problem occurred. Conversely, if the flange portions 53 and 54 are configured to be thick in the direction of the optical axis C in order to suppress such rattling, the mountable space for an encoder or the like becomes narrower or the lens barrel becomes longer. And other problems arise.

【0013】本発明は、かかる従来の問題点を解消し、
複数の操作環を十分に支持するとともにエンコーダ等の
内部機構の配置のためのスペースを確保しつつ、設計の
自由度を増したコンパクトな撮影レンズ鏡筒を提供する
ことを目的とする。
The present invention solves such a conventional problem,
An object of the present invention is to provide a compact photographing lens barrel that has a sufficient degree of design freedom while sufficiently supporting a plurality of operation rings and securing a space for disposing an internal mechanism such as an encoder.

【0014】[0014]

【課題を解決するための手段】上記課題達成のため、本
発明の撮影レンズ鏡筒は、撮影光学系と、前記撮影光学
系の光軸を中心として回転可能である複数の操作部材
と、前記操作部材の回転に基づいて撮影関連動作を行う
内部機構と、前記内部機構及び前記操作部材を支持する
固定部材とを具備する撮影レンズ鏡筒において、前記固
定部材は、前記内部機構を外面で支持するとともに、前
記外面と対向して前記光軸の方向に延在するように別に
設けられた別部材により前記複数の操作部材を支持する
ことを特徴とする。
In order to achieve the above object, a photographic lens barrel according to the present invention comprises: a photographic optical system; a plurality of operation members rotatable around an optical axis of the photographic optical system; In a photographic lens barrel including an internal mechanism that performs a photographing-related operation based on rotation of an operation member, and a fixing member that supports the internal mechanism and the operation member, the fixing member supports the internal mechanism on an outer surface. In addition, the plurality of operation members are supported by another member separately provided so as to extend in the direction of the optical axis so as to face the outer surface.

【0015】本発明によれば、別部材が固定部材の外面
と対向し、光軸方向に延在しているので、複数の操作部
材を支持する面積を十分確保でき、操作部材のがたつき
等の発生を防止できる。また、別部材が外面と対向し光
軸方向の延在しても、この別部材を固定部材と別に設け
る構成したので、機械加工やプラスチック成形加工を行
う上での障害もない。
According to the present invention, since the separate member faces the outer surface of the fixed member and extends in the optical axis direction, a sufficient area for supporting the plurality of operation members can be ensured, and the operation member is rattled. And the like can be prevented. In addition, even if another member is opposed to the outer surface and extends in the optical axis direction, since this separate member is provided separately from the fixing member, there is no obstacle in performing machining or plastic molding.

【0016】また、前記外面に前記内部機構の構成部材
に係合する突状部を一体に形成するとともに、この突状
部を形成した外面上に前記別部材が張りだすように設け
る構成にできる。
Further, a projection may be integrally formed on the outer surface to be engaged with a constituent member of the internal mechanism, and the separate member may be provided on the outer surface on which the projection is formed so as to protrude. .

【0017】この構成により、固定部材の外面に突状部
を設け別部材が外面上にオーバーハングして張り出した
場合でも、固定部材の加工上の問題はない。
According to this configuration, even when the protrusion is provided on the outer surface of the fixing member and another member overhangs and protrudes from the outer surface, there is no problem in processing the fixing member.

【0018】また、前記固定部材は、前記外面から前記
光軸の直交方向に延在したフランジ部を有し、このフラ
ンジ部に前記別部材を取り付けるように構成することが
できる。
The fixing member may have a flange extending from the outer surface in a direction orthogonal to the optical axis, and the separate member may be attached to the flange.

【0019】この構成により、別部材を固定部材に取り
付けることができ、フランジ部において操作部材を支持
しないので、フランジ部の光軸方向への厚み大きくとる
必要がなく、内部機構の配置のためのスペースを十分に
確保しながら、コンパクトな撮影レンズ鏡筒を実現でき
る。
According to this configuration, the separate member can be attached to the fixed member, and the operating member is not supported by the flange portion. Therefore, it is not necessary to increase the thickness of the flange portion in the optical axis direction, and the arrangement for the internal mechanism is not required. A compact shooting lens barrel can be realized while securing sufficient space.

【0020】また、前記複数の操作部材は、ズーム操作
部材及びフォーカス操作部材に構成できる。
Further, the plurality of operation members can be constituted by a zoom operation member and a focus operation member.

【0021】また、前記内部機構は、前記撮影光学系を
移動させるカム機構を備え、前記構成部材は前記固定部
材の外面に前記光軸を中心として回転可能に保持された
カム部材に構成できる。
[0021] The internal mechanism may include a cam mechanism for moving the photographing optical system, and the constituent member may be a cam member rotatably held around the optical axis on an outer surface of the fixed member.

【0022】また、前記内部機構は、前記撮影関連動作
に関する情報を検出する検出手段を備え、この検出手段
を前記固定部材の前記外面と前記別部材との間の空隙に
配置する構成にできる。
Further, the internal mechanism may include a detecting means for detecting information relating to the photographing-related operation, and the detecting means may be arranged in a gap between the outer surface of the fixed member and the separate member.

【0023】また、前記検出手段は、プリント基板とブ
ラシとから構成され前記撮影関連動作に関する情報を検
出するエンコーダに構成することができる。
Further, the detecting means may be constituted by an encoder which comprises a printed board and a brush and detects information relating to the photographing-related operation.

【0024】[0024]

【発明の実施の形態】以下、本発明による実施の形態に
ついて図面を用いて説明する。図1は、本発明による実
施の形態の撮影レンズ鏡筒の縦断面図である。なお、前
述した図3の従来の撮影レンズ鏡筒と同一の作用をする
部分は、同一の符号を付し、その説明を省略する。
Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a longitudinal sectional view of a taking lens barrel according to an embodiment of the present invention. Note that portions having the same functions as those of the conventional photographing lens barrel of FIG. 3 described above are denoted by the same reference numerals, and description thereof will be omitted.

【0025】図1に示すように、固定筒500は、カム
筒80等をその外周面520aで支持する円筒部52
0、及び円筒部520の外周面520aから光軸Cと直
交する方向にズーム操作環60の後端部近傍の内周側に
向けて延びるフランジ部550を備える。フランジ部5
50は、円筒部520と一体に形成され、後述の操作環
支持部材151を取り付けるためのビス穴550aを備
える。
As shown in FIG. 1, the fixed barrel 500 has a cylindrical portion 52 for supporting the cam barrel 80 and the like on its outer peripheral surface 520a.
0, and a flange portion 550 extending from the outer peripheral surface 520a of the cylindrical portion 520 to the inner peripheral side near the rear end of the zoom operation ring 60 in a direction perpendicular to the optical axis C. Flange part 5
50 is formed integrally with the cylindrical portion 520, and has a screw hole 550a for attaching an operation ring support member 151 described later.

【0026】操作環支持部材151は、筒状に構成さ
れ、フランジ部550に取り付けられ、このフランジ部
550から光軸Cと平行にレンズ鏡筒の前方に延在し、
固定筒500の円筒部520の外周面520aに設けら
れた突起部530bの光軸C方向の位置を超えて張り出
している。
The operating ring support member 151 is formed in a cylindrical shape, is attached to a flange 550, and extends from the flange 550 in front of the lens barrel in parallel with the optical axis C.
The projection 530b provided on the outer peripheral surface 520a of the cylindrical portion 520 of the fixed cylinder 500 extends beyond the position in the direction of the optical axis C.

【0027】操作環支持部材151は、その先端側(被
写体側)がズーム操作環60の内周面とフォーカス操作
環70の外周面との間に位置し、その後端側がズーム操
作環60の内周面とフランジ部の端面550bとの間に
位置するように配置されている。これにより、操作環支
持部材151は、その外周面においてズーム操作環60
を、内周面においてフォーカス支持環70をそれぞれ回
転可能に支持している。
The operation ring support member 151 has its tip end (subject side) positioned between the inner peripheral surface of the zoom operation ring 60 and the outer peripheral surface of the focus operation ring 70, and its rear end side inside the zoom operation ring 60. It is arranged so as to be located between the peripheral surface and the end surface 550b of the flange portion. As a result, the operation ring support member 151 moves the zoom operation ring 60 on its outer peripheral surface.
Are rotatably supported on the inner peripheral surface of the focus support ring 70.

【0028】操作環支持部材151は、その後端におい
て光軸C方向に突出するように折れ曲がった突出部15
1fを有し、この突出部151fが、ビス152のフラ
ンジ部550のビス穴550aへの螺合によりフランジ
部550に固定されることによって、操作環支持部材1
51が固定筒500に取り付けられている。また、操作
環支持部材151には、ズーム操作環60の切り欠き6
0aに挿嵌される連結部材65が遊貫するように孔15
1eが形成されている。
The operating ring supporting member 151 has a protruding portion 15 bent at its rear end so as to protrude in the direction of the optical axis C.
1f, and the protrusion 151f is fixed to the flange 550 by screwing the screw 152 into the screw hole 550a of the flange 550.
51 is attached to the fixed cylinder 500. The operation ring support member 151 has a notch 6 of the zoom operation ring 60.
0a so that the connecting member 65 inserted into the hole
1e is formed.

【0029】以上のように、ズーム操作環60及びフォ
ーカス操作環70は、固定筒500のフランジ部550
に取り付けられた操作環支持部材151の内周部及び外
周部にそれぞれ回転可能に支持されている。
As described above, the zoom operation ring 60 and the focus operation ring 70 are connected to the flange 550 of the fixed barrel 500.
Are rotatably supported on the inner peripheral portion and the outer peripheral portion of the operation ring support member 151 attached to the control ring.

【0030】また、操作環支持部材151の外周には周
溝151a,及び内周には周溝151bが設けられ、そ
れぞれの周溝151a,151bに操作環支持部材15
1の各端面からつながる直進溝151c,151dがそ
れぞれ設けられている。図2は、操作環支持部材151
を後端側(カメラ側)から見た直進溝151cの円周方
向位置を示す図である。図2のように、直進溝151c
は、円周方向に4等分されて90°の間隔で4個形成さ
れている。
A peripheral groove 151a is provided on the outer periphery of the operation ring support member 151, and a peripheral groove 151b is provided on the inner periphery. The operation ring support member 15 is provided in each of the peripheral grooves 151a and 151b.
1 are provided with straight grooves 151c and 151d, respectively, which are connected to the respective end faces. FIG. 2 shows the operation ring support member 151.
FIG. 7 is a diagram showing a circumferential position of a rectilinear groove 151c as viewed from the rear end side (camera side). As shown in FIG.
Are divided into four equal parts in the circumferential direction and four are formed at 90 ° intervals.

【0031】図2には、また、ズーム操作環60を後端
側から見た図も示されているが、ズーム操作環60に
は、その後端部の内周側に突き出た突起60bが円周方
向に4等分されて90°の間隔で4個形成されている。
FIG. 2 also shows a view of the zoom operation ring 60 viewed from the rear end side. The zoom operation ring 60 has a circular protrusion 60b projecting inward from the rear end. It is divided into four equal parts in the circumferential direction and four are formed at 90 ° intervals.

【0032】図2に示すように、ズーム操作環60の各
突起60bを操作環支持部材151の各直進溝151c
に合わせる。この状態で、ズーム操作環60を図1の右
方より左方に押し込んで操作環支持部材151に組み込
むことにより、突起60bが周溝151aに収まった状
態で使用される。ズーム操作環60は上記組み込み後、
通常の操作では突起60bと直進溝151cとの角度位
置が合致して、外れてしまわないように回転規制され
る。例えば、図2に示した例では、ズーム操作環60の
回転角度は、90°未満とされる。
As shown in FIG. 2, each projection 60b of the zoom operation ring 60 is connected to each straight groove 151c of the operation ring support member 151.
Adjust to In this state, the zoom operation ring 60 is pushed leftward from the right side in FIG. 1 and incorporated into the operation ring support member 151, so that the projection 60b is used in a state where the protrusion 60b is accommodated in the circumferential groove 151a. After the zoom operation ring 60 is assembled,
In a normal operation, the angular positions of the protrusion 60b and the rectilinear groove 151c match, and the rotation is regulated so as not to come off. For example, in the example shown in FIG. 2, the rotation angle of the zoom operation ring 60 is less than 90 °.

【0033】フォーカス操作環70は、その後端部付近
の外周側に突き出た突起70aを有し、上述の場合と同
様に突起70aを直進溝151dに合わせて図面左方よ
り右方に押し込んで操作環支持部材151に組み込むこ
とにより、突起70aが周溝151bに収まった状態で
使用される。フォーカス操作環70は上記組み込み後、
通常の操作では突起70aと直進溝151dとの角度位
置が合致して外れてしまわないように上述の場合と同様
に回転規制される。
The focus operation ring 70 has a projection 70a protruding on the outer peripheral side near the rear end thereof. As in the above-described case, the projection 70a is aligned with the straight groove 151d and pushed rightward from the left side in the drawing to operate. By being incorporated in the ring support member 151, the projection 70a is used in a state of being accommodated in the circumferential groove 151b. After the focusing operation ring 70 is assembled,
In a normal operation, the rotation is regulated in the same manner as described above so that the angular positions of the protrusion 70a and the straight groove 151d do not coincide with each other and do not come off.

【0034】以上のように、操作環60,70と操作環
支持部材151との組み込み構造は、突起60b,70
aと直進溝151c、151dを係合させて、直進溝か
ら内部に形成した周溝151a,151b内を突起60
a、70aが摺動するように構成されている。従って、
その係合が不測に解除されないためには、複数の突起を
円周方向に等分に形成すると、操作環の回転角度は、突
起の数をnとすると、(360°/n)未満に回転規制
される構成とされる。
As described above, the built-in structure of the operation rings 60 and 70 and the operation ring support member 151 is different from that of the projections 60b and 70
is engaged with the rectilinear grooves 151c and 151d, and the protrusions 60 are formed in the circumferential grooves 151a and 151b formed therein from the rectilinear grooves.
a and 70a are configured to slide. Therefore,
In order to prevent the engagement from being unexpectedly released, if a plurality of protrusions are formed equally in the circumferential direction, the rotation angle of the operation ring is less than (360 ° / n), where n is the number of protrusions. It is configured to be regulated.

【0035】また、カム環80の後端とフランジ部55
0との間であって固定筒520の円筒面520a上に
は、ブラシ103をかしめた支持部材102がビス10
4により固定されている。ブラシ103とエンコーダ用
のパターンが設けられたフレキシブルプリント基板20
1とによりエンコーダが構成されている。フレキシブル
プリント基板201上のエンコーダ用のパターンは、鏡
筒内に設けられたCPU(図示省略)に接続され、CP
Uは、カメラボディに装着した状態でカメラボディへエ
ンコーダから得た距離情報を送出する。
The rear end of the cam ring 80 and the flange 55
0, and the supporting member 102 with the brush 103 caulked is provided on the cylindrical surface 520a of the fixed cylinder 520.
4 fixed. Flexible printed circuit board 20 provided with brush 103 and encoder pattern
1 constitutes an encoder. The pattern for the encoder on the flexible printed circuit board 201 is connected to a CPU (not shown) provided in the lens barrel,
U sends the distance information obtained from the encoder to the camera body while being attached to the camera body.

【0036】このような構成によれば、操作環支持部材
151を別部材として固定筒500の円筒部520と別
に設けたので、操作環支持部材151の突起部530b
へオーバーハング(張り出し)を気にすることなく、成
形加工や機械加工が可能となる。このため、操作環支持
部を光軸C方向に延ばすことが可能となり、操作環支持
部材151において両操作環60,70を支持する面積
を大きく確保でき、両操作環60,70の操作時におけ
るがたつきの発生を抑制できる。
According to such a configuration, since the operation ring support member 151 is provided separately from the cylindrical portion 520 of the fixed cylinder 500, the protrusion 530b of the operation ring support member 151 is provided.
Forming and machining can be performed without worrying about overhang. For this reason, it is possible to extend the operation ring support portion in the direction of the optical axis C, and it is possible to secure a large area for supporting the operation rings 60 and 70 in the operation ring support member 151, and to operate the operation rings 60 and 70 during operation. The occurrence of rattling can be suppressed.

【0037】更に、内部機構の構成部材であるカム環8
0を光学系の光軸Cを中心として回転可能に保持するた
めの突起530b及びカム環80をスペースの許す限り
図面右方に寄せることができるため、特にレンズ鏡筒自
体の光軸C方向のコンパクト化に有効である。
Further, the cam ring 8 which is a component of the internal mechanism
0 can be moved rightward in the drawing as far as space allows, so that the projection 530b for rotatably holding the optical axis C around the optical axis C of the optical system can be moved to the right of the drawing. It is effective for downsizing.

【0038】また、両操作環60,70を支持するため
に円筒部520上に設けるフランジ部は550のみでよ
く、かつそのフランジ部550自体も両操作環60,7
0を操作環支持部材151が支持するのに強度上必要な
最低肉厚を確保すればよい。従って、図3の従来のレン
ズ鏡筒のフランジ部53,54のように両操作環60、
70の光軸C方向の嵌合長を確保する必要もない。従っ
て、撮影関連動作を実施するために用いるエンコーダ等
の内部機構を組み込むためのスペースの確保が容易とな
り、設計の自由度が増す。
Further, only the flange portion 550 provided on the cylindrical portion 520 for supporting the operation rings 60 and 70 is required, and the flange portion 550 itself is also provided on the operation rings 60 and 7.
What is necessary is just to secure the minimum thickness required for strength so that the operating ring support member 151 supports 0. Therefore, like the flange portions 53 and 54 of the conventional lens barrel in FIG.
It is not necessary to secure the fitting length of the optical axis 70 in the direction of the optical axis C. Therefore, it is easy to secure a space for incorporating an internal mechanism such as an encoder used for performing a photographing-related operation, and the degree of design freedom is increased.

【0039】また、操作環支持部材151の内周及び外
周にスペース効率よく両操作環60,70を支持するの
で従来に比べ径方向のコンパクト性を損なうことも殆ど
無い。
Since the operation rings 60 and 70 are supported on the inner and outer circumferences of the operation ring support member 151 with good space efficiency, the radial compactness is hardly impaired as compared with the conventional case.

【0040】なお、本発明は、以上説明した実施の形態
に限定されることなく、本発明の技術思想の範囲内で種
々の変形または変更が可能であり、それらも本発明の範
囲である。例えば、操作環は例示したものに限定され
ず、オートフォーカスとマニュアルフォーカスの切り替
え操作環等であってもい。
It should be noted that the present invention is not limited to the embodiments described above, and various modifications or changes are possible within the scope of the technical idea of the present invention, and these are also within the scope of the present invention. For example, the operation ring is not limited to the illustrated one, and may be an operation ring for switching between auto focus and manual focus.

【0041】また、円筒部520の突起部530bは、
カム環を回転自由に支持する機能を持つものと例示した
が、その他にも場所を移してカム環自体の回転制限とし
て機能させてもよい。
The protrusion 530b of the cylindrical portion 520 is
Although the cam ring has a function of freely rotating and supporting the cam ring, the cam ring may be moved to another position to function as a rotation limit of the cam ring itself.

【0042】また、内部機構中の構成部材は例示したカ
ム環に限定されず、例えば円筒部520に固定されるA
F用ギアトレイン等であってもよい。この場合、内部機
構中の構成部材を固定筒に対し支持するための凸部は、
ギア用地板を固定するためのフランジ状突起等が考えら
れる。
The components in the internal mechanism are not limited to the illustrated cam ring.
An F gear train or the like may be used. In this case, the convex portion for supporting the component members in the internal mechanism with respect to the fixed cylinder,
A flange-like projection or the like for fixing the gear base plate may be considered.

【0043】[0043]

【発明の効果】本発明によれば、複数の操作環を十分に
支持するとともに内部機構の配置のためのスペースを確
保し、設計の自由度を増したコンパクトな撮影レンズ鏡
筒を提供することができる。
According to the present invention, it is possible to provide a compact photographing lens barrel which sufficiently supports a plurality of operation rings, secures a space for disposing an internal mechanism, and increases design flexibility. Can be.

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

【図1】本発明による実施の形態の撮影レンズ鏡筒の縦
断面図である。
FIG. 1 is a longitudinal sectional view of a taking lens barrel according to an embodiment of the present invention.

【図2】図1に示す撮影レンズ鏡筒の操作環支持部材の
正面図である。
FIG. 2 is a front view of an operation ring support member of the taking lens barrel shown in FIG.

【図3】従来の撮影レンズ鏡筒の縦断面図である。FIG. 3 is a longitudinal sectional view of a conventional photographing lens barrel.

【符号の説明】[Explanation of symbols]

60 ズーム操作環 70 フォーカス操作環 80 カム環 151 操作環支持部材(別部材) 500 固定環(固定部材) 520 円筒部 520a 外周面 530b 突起部 550 フランジ部 Reference Signs List 60 zoom operation ring 70 focus operation ring 80 cam ring 151 operation ring support member (separate member) 500 fixed ring (fixed member) 520 cylindrical portion 520a outer peripheral surface 530b projecting portion 550 flange portion

Claims (7)

【特許請求の範囲】[Claims] 【請求項1】 撮影光学系と、 前記撮影光学系の光軸を中心として回転可能である複数
の操作部材と、 前記操作部材の回転に基づいて撮影関連動作を行う内部
機構と、 前記内部機構及び前記操作部材を支持する固定部材と、
を具備する撮影レンズ鏡筒において、 前記固定部材は、前記内部機構を外面で支持するととも
に、前記外面と対向して前記光軸の方向に延在するよう
に別に設けられた別部材により前記複数の操作部材を支
持することを特徴とする撮影レンズ鏡筒。
A photographing optical system; a plurality of operation members rotatable around an optical axis of the photographing optical system; an internal mechanism for performing a photographing-related operation based on rotation of the operation member; And a fixing member supporting the operation member,
Wherein the fixing member supports the internal mechanism on an outer surface, and the plurality of fixing members are provided by another member separately provided so as to extend in the direction of the optical axis in opposition to the outer surface. A photographing lens barrel that supports the operation member of (1).
【請求項2】 前記外面に前記内部機構の構成部材に係
合する突状部を一体に形成するとともに、この突状部を
形成した外面上に前記別部材が張りだすように設けられ
た請求項1記載の撮影レンズ鏡筒。
2. A projection which is integrally formed on the outer surface to engage with a component member of the internal mechanism, and wherein the another member is provided so as to project on the outer surface on which the projection is formed. Item 2. The taking lens barrel according to Item 1.
【請求項3】 前記固定部材は、前記外面から前記光軸
の直交方向に延在したフランジ部を有し、このフランジ
部に前記別部材を取り付けるように構成した請求項1ま
たは2記載の撮影レンズ鏡筒。
3. The imaging device according to claim 1, wherein the fixing member has a flange portion extending from the outer surface in a direction orthogonal to the optical axis, and the separate member is attached to the flange portion. Lens barrel.
【請求項4】 前記複数の操作部材は、ズーム操作部材
及びフォーカス操作部材である請求項1、2または3記
載の撮影レンズ鏡筒。
4. The photographic lens barrel according to claim 1, wherein the plurality of operation members are a zoom operation member and a focus operation member.
【請求項5】 前記内部機構は、前記撮影光学系を移動
させるカム機構を備え、前記構成部材は前記固定部材の
外面に前記光軸を中心として回転可能に保持されたカム
部材である請求項1,2、3または4記載の撮影レンズ
鏡筒。
5. The internal mechanism includes a cam mechanism for moving the photographing optical system, and the constituent member is a cam member rotatably held on an outer surface of the fixed member around the optical axis. The imaging lens barrel according to 1, 2, 3 or 4.
【請求項6】 前記内部機構は、前記撮影関連動作に関
する情報を検出する検出手段を備え、この検出手段が前
記固定部材の前記外面と前記別部材との間の空隙に配置
される請求項1,2,3、4または5記載の撮影レンズ
鏡筒。
6. The apparatus according to claim 1, wherein the internal mechanism includes a detecting unit configured to detect information regarding the photographing-related operation, and the detecting unit is disposed in a gap between the outer surface of the fixed member and the separate member. , 2, 3, 4 or 5.
【請求項7】 前記検出手段は、プリント基板とブラシ
とから構成され前記撮影関連動作に関する情報を検出す
るエンコーダである請求項6記載の撮影レンズ鏡筒。
7. The photographic lens barrel according to claim 6, wherein said detection means is an encoder which includes a printed circuit board and a brush and detects information relating to said photographic-related operation.
JP9175123A 1997-06-17 1997-06-17 Photographing lens barrel Withdrawn JPH116949A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP9175123A JPH116949A (en) 1997-06-17 1997-06-17 Photographing lens barrel

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP9175123A JPH116949A (en) 1997-06-17 1997-06-17 Photographing lens barrel

Publications (1)

Publication Number Publication Date
JPH116949A true JPH116949A (en) 1999-01-12

Family

ID=15990693

Family Applications (1)

Application Number Title Priority Date Filing Date
JP9175123A Withdrawn JPH116949A (en) 1997-06-17 1997-06-17 Photographing lens barrel

Country Status (1)

Country Link
JP (1) JPH116949A (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US9620437B2 (en) 2010-12-02 2017-04-11 Tessera, Inc. Stacked microelectronic assembly with TSVS formed in stages and carrier above chip
US9640437B2 (en) 2010-07-23 2017-05-02 Tessera, Inc. Methods of forming semiconductor elements using micro-abrasive particle stream
US9847277B2 (en) 2010-09-17 2017-12-19 Tessera, Inc. Staged via formation from both sides of chip

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US9640437B2 (en) 2010-07-23 2017-05-02 Tessera, Inc. Methods of forming semiconductor elements using micro-abrasive particle stream
US9847277B2 (en) 2010-09-17 2017-12-19 Tessera, Inc. Staged via formation from both sides of chip
US10354942B2 (en) 2010-09-17 2019-07-16 Tessera, Inc. Staged via formation from both sides of chip
US9620437B2 (en) 2010-12-02 2017-04-11 Tessera, Inc. Stacked microelectronic assembly with TSVS formed in stages and carrier above chip

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