JP2005308843A - Collapsible lens barrel and imaging device - Google Patents

Collapsible lens barrel and imaging device Download PDF

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JP2005308843A
JP2005308843A JP2004122466A JP2004122466A JP2005308843A JP 2005308843 A JP2005308843 A JP 2005308843A JP 2004122466 A JP2004122466 A JP 2004122466A JP 2004122466 A JP2004122466 A JP 2004122466A JP 2005308843 A JP2005308843 A JP 2005308843A
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lens
holding frame
lens barrel
shielding member
light shielding
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JP4605439B2 (en
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Hiroaki Tojo
宏昭 東條
Takashi Koyama
高志 小山
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Sony Corp
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Sony Corp
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a collapsible lens barrel which is advantageously made small-sized in a collapsed state while securely preventing influence of stray light, and an imaging device. <P>SOLUTION: A light shielding member 50 is made of hard synthetic resin and provided to swing between a closure position P1 where the light shielding member 50 passes through a cut part 1624 and extends outward along a radius of a 2-group lens frame 1608 to cut off light passing along an inner peripheral surface of the lens barrel 10 and a retraction position P2 where the light shielding member extends along the axis of the lens barrel 10 to separate from the inner peripheral surface of the lens barrel 10. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

本発明は沈胴式レンズ鏡筒および撮像装置に関する。   The present invention relates to a retractable lens barrel and an imaging device.

デジタルスチルカメラやデジタルビデオカメラ等の撮像装置として、鏡筒内に配設され撮影光学系を構成するレンズを保持するレンズ保持枠と、撮影光学系によって導かれる被写体像を撮像する撮像素子とを備え、レンズ保持枠が後退して沈胴状態となる沈胴式レンズ鏡筒を備えるものがある。
このような沈胴式レンズ鏡筒においては、鏡筒内の後部に、鏡筒内の半径方向外側から内側に突出する部品が設けられていることが多く、このような場合には、これらの部品に当たらない範囲までしかレンズ保持枠を後退できず、沈胴状態における鏡筒の光軸方向の寸法の縮小する上で不利がある。
そこで、レンズ保持枠に切欠部を設け、レンズ保持枠が後退して鏡筒が沈胴状態となった際に、前記切欠部内に前記部品を位置させることで沈胴状態における鏡筒の光軸方向の寸法の縮小を図ることが考えられる。
しかしながら、このような切欠部をレンズ保持枠に設けると、迷光が切欠部を通り鏡筒の内周面に沿って撮像素子側に至るおそれがある。
近年、撮像素子の高画素化に伴ない撮像動作時における電荷蓄積時間が増加する傾向にあることから、撮像素子によって撮像された画像に上記の迷光が及ぼす悪影響が顕著になってきており、迷光の抑制が一段と要望されている。
一方、鏡筒の内周面に遮光部材の基端部を揺動可能に取着し、遮光部材の先端部がレンズ保持枠に当接することにより、迷光を遮断する構成が提案されている(例えば特許文献1参照)。
特開平10−160994号公報
As an imaging device such as a digital still camera or a digital video camera, a lens holding frame that holds a lens that is disposed in a lens barrel and constitutes a photographing optical system, and an imaging element that captures a subject image guided by the photographing optical system In some cases, there is a retractable lens barrel in which the lens holding frame is retracted to be retracted.
In such a retractable lens barrel, parts that protrude inward from the radially outer side in the lens barrel are often provided at the rear part in the lens barrel. The lens holding frame can only be retracted to a range that does not fall on the lens, which is disadvantageous in reducing the size of the lens barrel in the retracted state in the optical axis direction.
Therefore, a notch is provided in the lens holding frame, and when the lens holding frame is retracted and the lens barrel is in the retracted state, the part is positioned in the notched portion so that the lens barrel is in the retracted state in the optical axis direction. It is conceivable to reduce the size.
However, when such a notch is provided in the lens holding frame, stray light may pass through the notch and reach the image sensor side along the inner peripheral surface of the lens barrel.
In recent years, the charge accumulation time during the imaging operation tends to increase with the increase in the number of pixels of the imaging device, and thus the adverse effect of the stray light on the image captured by the imaging device has become remarkable. There is a demand for further suppression of this.
On the other hand, a configuration has been proposed in which stray light is blocked by attaching the base end portion of the light shielding member to the inner peripheral surface of the lens barrel so as to be swingable, and the distal end portion of the light shielding member abutting the lens holding frame ( For example, see Patent Document 1).
JP-A-10-160994

しかしながら、このような従来の構成では、遮光部材の基端部が鏡筒側に取着されているため、レンズ保持枠が移動することでレンズ保持枠と遮光部材との光軸方向における位置がずれると、遮光部材はレンズ保持枠に当たらなくなり、したがって、遮光部材により迷光を抑制できなくなる不具合がある。
本発明は、このような事情に鑑みなされたものであり、その目的は迷光の影響を確実に防止しつつ、沈胴状態における鏡筒の小型化を図る上で有利な沈胴式レンズ鏡筒および撮像装置を提供することにある。
However, in such a conventional configuration, since the base end portion of the light shielding member is attached to the lens barrel side, the position of the lens holding frame and the light shielding member in the optical axis direction is moved by moving the lens holding frame. If they are displaced, the light shielding member does not hit the lens holding frame, and therefore there is a problem that stray light cannot be suppressed by the light shielding member.
The present invention has been made in view of such circumstances, and an object of the present invention is to provide a retractable lens barrel and an imaging device that are advantageous in reducing the size of the barrel in the retracted state while reliably preventing the influence of stray light. To provide an apparatus.

上述の目的を達成するため、本発明は、鏡筒と、前記鏡筒内に配設され撮影光学系を構成するレンズを保持するレンズ保持枠とを備え、前記撮影光学系の焦点距離調整もしくは合焦調整が前記レンズ保持枠の前記レンズの光軸方向への移動により行なわれ、前記レンズ保持枠が後退して沈胴状態となる沈胴式レンズ鏡筒であって、前記レンズ保持枠の外周の一部に該箇所を切り欠いた切欠部が設けられ、前記切り欠かれた前記レンズ保持枠の壁部に、該壁部から前記切欠部を通って前記レンズ保持枠の径方向外方に延在し前記鏡筒の内周面に沿って通過する光を遮断する閉塞位置と、該壁部から前記鏡筒の軸方向に延在し前記鏡筒の内周面から離れる退避位置との間で揺動可能な遮光部材が設けられ、前記遮光部材を前記閉塞位置に付勢する付勢部材が設けられていることを特徴とする。   In order to achieve the above-described object, the present invention includes a lens barrel and a lens holding frame that is disposed in the lens barrel and holds a lens that constitutes a photographic optical system, and adjusts the focal length of the photographic optical system. Focusing adjustment is performed by moving the lens holding frame in the direction of the optical axis of the lens, and the lens holding frame is retracted to be in a retracted state. A part of the lens holding frame is cut out at a part of the lens holding frame, and extends from the wall through the notch to the outside of the lens holding frame in the radial direction. Between a closed position for blocking light passing along the inner peripheral surface of the lens barrel and a retracted position extending from the wall portion in the axial direction of the lens barrel and away from the inner peripheral surface of the lens barrel A light-shielding member that can be swung at a position, and biases the light-shielding member to the closed position. Wherein the energizing member.

また、本発明は、鏡筒と、前記鏡筒内に配設され撮影光学系を構成するレンズを保持するレンズ保持枠と、前記撮影光学系によって導かれた被写体像を撮像する撮像素子とを備え、前記撮影光学系の焦点距離調整もしくは合焦調整が前記レンズ保持枠の前記レンズの光軸方向への移動により行なわれ、前記レンズ保持枠が後退して沈胴状態となる沈胴式レンズ鏡筒を有する撮像装置であって、前記レンズ保持枠の外周の一部に該箇所を切り欠いた切欠部が設けられ、前記切り欠かれた前記レンズ保持枠の壁部に、該壁部から前記切欠部を通って前記レンズ保持枠の径方向外方に延在し前記鏡筒の内周面に沿って通過する光を遮断する閉塞位置と、該壁部から前記鏡筒の軸方向に延在し前記鏡筒の内周面から離れる退避位置との間で揺動可能な遮光部材が設けられ、前記遮光部材を前記閉塞位置に付勢する付勢部材が設けられていることを特徴とする。   In addition, the present invention includes a lens barrel, a lens holding frame that is disposed in the lens barrel and holds a lens that constitutes a photographic optical system, and an imaging element that captures a subject image guided by the photographic optical system. A collapsible lens barrel in which focal length adjustment or focusing adjustment of the photographing optical system is performed by moving the lens holding frame in the optical axis direction of the lens, and the lens holding frame is retracted to be in a retracted state The lens holding frame is provided with a cutout portion in which a portion of the lens holding frame is cut out, and the cutout wall portion of the lens holding frame is provided with the cutout portion from the wall portion. A closed position that extends outward in the radial direction of the lens holding frame through the portion and blocks light passing along the inner peripheral surface of the lens barrel, and extends in the axial direction of the lens barrel from the wall portion And swingable between the retracted position away from the inner peripheral surface of the lens barrel Light member is provided, wherein the urging member for urging said light-shielding member to the closed position is provided.

本発明によれば、遮蔽部材が閉塞位置にあるときには鏡筒内の迷光が遮蔽部材よりも後方に侵入することを確実に防止することができ、遮蔽部材が退避位置にあるときには切欠部内にレンズ保持枠の後方に位置する部品を位置させることができる。したがって、迷光による悪影響を確実に防止しつつ、沈胴状態における鏡筒の光軸方向の寸法を縮小する上で有利となる。   According to the present invention, when the shielding member is in the closed position, stray light in the lens barrel can be reliably prevented from entering behind the shielding member, and when the shielding member is in the retracted position, the lens is formed in the notch. Parts located behind the holding frame can be positioned. Therefore, it is advantageous in reducing the dimension in the optical axis direction of the lens barrel in the retracted state while reliably preventing adverse effects due to stray light.

迷光による悪影響を確実に防止しつつ、沈胴状態における鏡筒の光軸方向の寸法を縮小するという目的を、レンズ保持枠に切欠部と遮光部材を設けることによって実現した。   The object of reducing the dimension in the optical axis direction of the lens barrel in the retracted state while reliably preventing adverse effects due to stray light has been realized by providing a cutout portion and a light shielding member in the lens holding frame.

次に本発明の実施例1について図面を参照して説明する。
図1は実施例1の撮像装置の斜視図、図2は実施例1の撮像装置の構成を示すブロック図である。
図1に示すように、本実施例の撮像装置100はデジタルスチルカメラであり、外装を構成するケース102を有している。
ケース102の前面右側部寄りの箇所には撮影光学系104を収容保持する沈胴式の鏡筒10が設けられ、ケース102の前面上部寄りの箇所には閃光を発光するフラッシュ部106、光学式ファインダ40(図3)の対物レンズ108などが設けられている。
鏡筒10はケース102の内部に組み込まれた駆動部124(図2)によってケース102の前面から前方に突出した使用位置(広角状態、望遠状態、および広角乃至望遠の中間状態)とケース102の前面に収容された収容位置(沈胴状態)との間を出没するように構成されている。
ケース102の上端面にはシャッタボタン110が設けられ、ケース102の後面には、前記光学式ファインダの接眼窓(不図示)、電源のオンオフ、撮影モード、再生モードの切替など種々の操作を行なうための複数の操作スイッチ112、撮像した映像を表示するディスプレイ114(図2)などが設けられている。
Next, Embodiment 1 of the present invention will be described with reference to the drawings.
FIG. 1 is a perspective view of the imaging apparatus according to the first embodiment, and FIG. 2 is a block diagram illustrating a configuration of the imaging apparatus according to the first embodiment.
As shown in FIG. 1, the imaging apparatus 100 of the present embodiment is a digital still camera, and has a case 102 that constitutes an exterior.
A retractable lens barrel 10 that houses and holds the photographing optical system 104 is provided near the front right side of the case 102, and a flash unit 106 that emits flash light and an optical viewfinder are disposed near the front upper part of the case 102. 40 (FIG. 3) objective lens 108 and the like are provided.
The lens barrel 10 has a use position (wide angle state, telephoto state, and intermediate state between wide angle and telephoto) that protrudes forward from the front surface of the case 102 by a drive unit 124 (FIG. 2) incorporated in the case 102 and the case 102. It is comprised so that it may appear between the accommodation positions accommodated in the front surface (collapsed state).
A shutter button 110 is provided on the upper end surface of the case 102, and various operations such as an eyepiece window (not shown) of the optical viewfinder, power on / off, photographing mode, and switching of the reproduction mode are performed on the rear surface of the case 102. For example, a plurality of operation switches 112 and a display 114 (FIG. 2) for displaying captured images are provided.

図2に示すように、鏡筒10の後部には、撮影光学系104によって結像された被写体像を撮像するCCDやCMOSセンサなどで構成された撮像素子116が配設され、撮像装置100は、撮像素子116から出力された撮像信号に基づいて画像データを生成し、メモリカードなどの記憶媒体118に記録する画像処理部120、前記画像データをディスプレイ114に表示させる表示処理部122、駆動部124、操作スイッチ112やシャッタボタン110の操作に応じて画像処理部120、表示処理部122、駆動部124を制御するCPUなどを含む制御部126などを備えている。   As shown in FIG. 2, an imaging element 116 configured by a CCD, a CMOS sensor, or the like that captures a subject image formed by the imaging optical system 104 is disposed at the rear of the lens barrel 10. An image processing unit 120 that generates image data based on an imaging signal output from the imaging element 116 and records the image data in a storage medium 118 such as a memory card, a display processing unit 122 that displays the image data on the display 114, and a driving unit 124, an image processing unit 120, a display processing unit 122, a control unit 126 including a CPU for controlling the driving unit 124, and the like according to operations of the operation switch 112 and the shutter button 110.

次に、鏡筒10の概略構成について説明する。
図3は鏡筒10の状態を説明する斜視図で、(A)が不使用時のレンズ収納状態すなわち沈胴状態を示すもの、(B)が使用時のレンズ突出状態(広角状態あるいは望遠状態)を示す。図4は鏡筒10の断面図であり、(A)が沈胴状態、(B)が広角状態、(C)が望遠状態を示すものである。図5は鏡筒10の分解斜視図である。
Next, a schematic configuration of the lens barrel 10 will be described.
3A and 3B are perspective views for explaining the state of the lens barrel 10. FIG. 3A shows the lens retracted state when not in use, that is, the retracted state, and FIG. 3B shows the lens protruding state when in use (wide-angle state or telephoto state). Indicates. 4A and 4B are cross-sectional views of the lens barrel 10. FIG. 4A shows a retracted state, FIG. 4B shows a wide-angle state, and FIG. 4C shows a telephoto state. FIG. 5 is an exploded perspective view of the lens barrel 10.

図3に示すように、鏡筒10は、ケース102に固定されるベース12に取着され、ベース12には撮像素子116が配設されている。
図4に示すように、撮影光学系は光学的には3群構成である。すなわち、鏡筒10の光軸方向で被写体側を前方とし、前記光軸方向で撮像素子116側を後方としたとき、鏡筒10を構成する3群は、前方から後方に向かってこの順番で配設された1群レンズ14、2群レンズ16、3群レンズ18によって構成されている。
鏡筒10は、1群レンズ14と2群レンズ16が所定のカムカーブにより光軸方向に駆動されることによってズーミング(焦点距離調整)を行い、3群レンズ18が光軸方向に微小に変位されることによってフォーカッシング(合焦調整)を行う。すなわち、1群レンズ14と2群レンズ16の変位によって焦点距離を可変し、この焦点距離の変化によって生じた合焦位置のずれを3群の変位によって修正し適切に合焦させるように構成されている。
As shown in FIG. 3, the lens barrel 10 is attached to a base 12 fixed to the case 102, and an imaging element 116 is disposed on the base 12.
As shown in FIG. 4, the photographing optical system has a three-group configuration optically. That is, when the subject side is the front in the optical axis direction of the barrel 10 and the imaging element 116 side is the rear in the optical axis direction, the three groups constituting the barrel 10 are arranged in this order from the front to the rear. The first group lens 14, the second group lens 16, and the third group lens 18 are provided.
The lens barrel 10 performs zooming (focal length adjustment) by driving the first group lens 14 and the second group lens 16 in the optical axis direction by a predetermined cam curve, and the third group lens 18 is slightly displaced in the optical axis direction. Focusing (focus adjustment) is performed. That is, the focal length is changed by the displacement of the first group lens 14 and the second group lens 16, and the deviation of the in-focus position caused by the change of the focal length is corrected by the displacement of the third group, and is appropriately focused. ing.

図5に示すように鏡筒10は、1群、2群レンズ14,16を前記光軸方向に移動させる構成として、固定環20、回転環22、カム環24、直進案内環26などが用いられ、3群レンズ18を光軸方向に移動させる構成として案内部28および駆動部29からなる駆動機構が用いられている。
本実施例では、図3(B)に示すように、鏡筒10は、第1鏡筒10Aと第2鏡筒10Bと第3鏡筒10Cとで構成された沈胴式である。第1鏡筒10Aは、ケース102内に配設された固定環20で構成され、第2鏡筒10Bは、固定環20の内側に配設されたカム環24で構成され、第3鏡筒10Cは、カム環24の内側に配設された1群レンズ枠1402で構成されている。なお、鏡筒10と、この鏡筒10内に配設される1群、2群レンズ、3群レンズ14,16、18やそれらの駆動系によりレンズ鏡筒が構成されている。
As shown in FIG. 5, the lens barrel 10 uses a fixed ring 20, a rotating ring 22, a cam ring 24, a rectilinear guide ring 26, and the like as a configuration for moving the first group and second group lenses 14 and 16 in the optical axis direction. As a configuration for moving the third group lens 18 in the optical axis direction, a drive mechanism including a guide unit 28 and a drive unit 29 is used.
In this embodiment, as shown in FIG. 3B, the lens barrel 10 is a collapsible type composed of a first lens barrel 10A, a second lens barrel 10B, and a third lens barrel 10C. The first lens barrel 10A is composed of a stationary ring 20 disposed in the case 102, and the second lens barrel 10B is composed of a cam ring 24 disposed inside the stationary ring 20, and a third lens barrel. Reference numeral 10 </ b> C includes a first group lens frame 1402 disposed inside the cam ring 24. A lens barrel is constituted by the lens barrel 10, the first group, the second group lens, the third group lenses 14, 16, and 18 disposed in the lens barrel 10, and their drive systems.

具体的に説明すると、固定環20はベース12に対して固定されており、固定環20の内周面には、図6に示すように、周方向に延在するカム溝2002,2004と、撮影光学系の光軸方向と平行に延在する直進案内溝2006とが設けられている。
回転環22は、固定環20の外周に回転可能にかつ光軸方向に移動不能に設けられている。
回転環22にはその内周面と外周面を貫通し周方向に延在する複数のカム溝2202が設けられ、内周面には光軸方向に沿って直線的に延在する直進溝2205が設けられ、外周面後部にはギア部2204が周方向に所定の長さ延在形成され、また、回転環22の後端には回転位置検知用の複数のフィン2206が突設されている。
ギア部2204はベース12に取着された回転環駆動機構23のギア2302に噛合され、回転環駆動機構23から供給される回転駆動力がギア2302とギア部2204を介して回転環22に供給されることで回転環22が光軸を中心に回転駆動されるように構成されている。
回転環駆動機構23は、ギア2302を回転駆動するDCモータと、このDCモータまたはギア2302の回転数をカウントするためのロータリエンコーダと、フィン2206の移動を検知するフォトセンサとを有し、これらロータリエンコーダおよびフォトセンサの検出信号に基づいて回転環22の回転速度または回転位置制御を行うように構成されている。
More specifically, the fixed ring 20 is fixed to the base 12, and cam grooves 2002, 2004 extending in the circumferential direction are formed on the inner peripheral surface of the fixed ring 20, as shown in FIG. A rectilinear guide groove 2006 extending in parallel with the optical axis direction of the photographing optical system is provided.
The rotary ring 22 is provided on the outer periphery of the fixed ring 20 so as to be rotatable and immovable in the optical axis direction.
The rotary ring 22 is provided with a plurality of cam grooves 2202 that penetrate the inner peripheral surface and the outer peripheral surface thereof and extend in the circumferential direction, and the rectilinear groove 2205 that extends linearly along the optical axis direction on the inner peripheral surface. A gear portion 2204 is formed to extend in the circumferential direction at a predetermined length at the rear portion of the outer peripheral surface, and a plurality of fins 2206 for detecting a rotational position are provided at the rear end of the rotating ring 22. .
The gear portion 2204 is engaged with the gear 2302 of the rotary ring drive mechanism 23 attached to the base 12, and the rotational driving force supplied from the rotary ring drive mechanism 23 is supplied to the rotary ring 22 via the gear 2302 and the gear portion 2204. Thus, the rotating ring 22 is configured to be driven to rotate about the optical axis.
The rotary ring drive mechanism 23 includes a DC motor that rotationally drives the gear 2302, a rotary encoder that counts the number of rotations of the DC motor or the gear 2302, and a photosensor that detects the movement of the fin 2206. The rotational speed or rotational position of the rotary ring 22 is controlled based on detection signals from the rotary encoder and the photo sensor.

3群レンズ18は3群レンズ枠1802で保持され、3群レンズ枠1802は、固定環20の内側で後部に配置され、案内部28によってベース12に対して光軸方向に移動可能に保持されることで光軸方向に移動可能にかつ光軸を中心に回転できないように案内されており、駆動部29によって光軸方向に微小に変位されるように構成されている。
詳細に説明すると、図8乃至図10に示すように、3群レンズ枠1802は環板状に形成されその中央開口部に3群レンズ18が保持されており、3群レンズ枠1802の径方向外側箇所で周方向に間隔をおいた箇所に第1軸受部1802Aと第2軸受部1802Bとが設けられている。
第1軸受部1802A、第2軸受部1802Bには、光軸方向に沿って延在するガイド軸28A、12Aが挿通されており、ガイド軸28A、12Aは、例えば均一外径の円柱状に形成されベース12に取付けられている。
これらガイド軸28A、12A、第1、第2軸受部1802A、1802Bによって、3群レンズ枠1802、すなわち3群レンズ18を3群レンズ18の光軸方向に沿って往復直線移動可能に案内する案内部28が構成されている。
The third group lens 18 is held by a third group lens frame 1802, and the third group lens frame 1802 is disposed at the rear inside the fixed ring 20, and is held by the guide unit 28 so as to be movable in the optical axis direction with respect to the base 12. Thus, it is guided so that it can move in the optical axis direction and cannot rotate around the optical axis, and is configured to be displaced minutely in the optical axis direction by the drive unit 29.
More specifically, as shown in FIGS. 8 to 10, the third group lens frame 1802 is formed in an annular plate shape, the third group lens 18 is held in the central opening thereof, and the radial direction of the third group lens frame 1802 A first bearing portion 1802A and a second bearing portion 1802B are provided at locations on the outer side that are spaced apart in the circumferential direction.
Guide shafts 28A and 12A extending along the optical axis direction are inserted into the first bearing portion 1802A and the second bearing portion 1802B, and the guide shafts 28A and 12A are formed in a cylindrical shape with a uniform outer diameter, for example. And attached to the base 12.
The guide shafts 28A, 12A and the first and second bearing portions 1802A, 1802B guide the third group lens frame 1802, that is, the third group lens 18, so as to be capable of reciprocating linear movement along the optical axis direction of the third group lens 18. Part 28 is configured.

図8乃至図10に示すように、ガイド軸28Aのベース12への取付は、ガイド軸支持壁91およびガイド軸押え部材9を用いてガイド軸28Aの前後両端を支持することでなされている。
ガイド軸支持壁91はベース12と一体に例えば型成形によって設けられている。
ガイド軸支持壁91は、ベース12の撮像素子116の前方に面した箇所から前記光軸に沿って前方に延在する2つの延出部91Aと、延出部91Aの先端を連結する先端部91Bとで構成され、先端部91Bはベース12に臨んでいる。また、2つの延出部91Aは、ガイド軸28Aをその周方向から挟むような2箇所に沿って設けられている。
先端部91B、すなわちガイド軸支持壁91の前端には、ガイド軸28Aの前端を保持する凹部91Cが設けられ、該凹部91Cはガイド軸28Aの先端が挿入される有底状の円柱孔で形成されている。この有底状の孔は例えば断面D字形を呈している。
As shown in FIGS. 8 to 10, the guide shaft 28 </ b> A is attached to the base 12 by supporting the front and rear ends of the guide shaft 28 </ b> A using the guide shaft support wall 91 and the guide shaft pressing member 9.
The guide shaft support wall 91 is provided integrally with the base 12 by, for example, molding.
The guide shaft support wall 91 includes two extending portions 91A extending forward along the optical axis from a portion facing the front of the image sensor 116 of the base 12, and a distal end portion connecting the distal ends of the extending portions 91A. 91B, and the tip 91B faces the base 12. The two extending portions 91A are provided along two places that sandwich the guide shaft 28A from the circumferential direction.
The front end 91B, that is, the front end of the guide shaft support wall 91 is provided with a recess 91C that holds the front end of the guide shaft 28A. Has been. The bottomed hole has, for example, a D-shaped cross section.

ガイド軸支持壁91の後端に位置するベース12箇所、言い換えるとガイド軸28Aの突出方向に向いたベース12の前面箇所には孔部が設けられ、該孔部にはガイド軸28Aの後端を保持する嵌合孔9Aが設けられたガイド軸押さえ部材9が取着される。この嵌合孔9Aは例えば断面D字形を呈している。
ガイド軸28Aは、その前端が凹部91Cに保持されるとともに、後端が嵌合孔9Aに嵌合固定された状態で、ガイド軸28Aの延在方向に対して直交する方向にガイド軸押え部材9が動かされ、これにより3群レンズ18の光軸が1群および2群のレンズの光軸と平行するように位置調節がなされ、その状態でガイド軸押さえ部材9とベース12の前記孔との間に接着剤が塗布されることにより、ガイド軸押さえ部材9とベース12とが接着固定される。
Holes are provided in 12 places on the base 12 located at the rear end of the guide shaft support wall 91, in other words, on the front face of the base 12 facing the protruding direction of the guide shaft 28A, and the rear end of the guide shaft 28A is provided in the hole. A guide shaft pressing member 9 provided with a fitting hole 9A for holding is attached. The fitting hole 9A has, for example, a D-shaped cross section.
The guide shaft 28A has a front end held in the recess 91C, and a rear end is fitted and fixed in the fitting hole 9A, and the guide shaft pressing member extends in a direction perpendicular to the extending direction of the guide shaft 28A. 9 is moved so that the optical axis of the third group lens 18 is adjusted to be parallel to the optical axes of the first and second group lenses. In this state, the guide shaft pressing member 9 and the holes of the base 12 By applying an adhesive in between, the guide shaft pressing member 9 and the base 12 are bonded and fixed.

図9、図10に示すように、駆動部29は、3群レンズ18を光軸方向に移動させるものであり、前記光軸方向に沿って延在する雄ねじ部材2902と、雄ねじ部材2902を回転させるステッピングモータなどからなるモータ2904と、雄ねじ部材2902に螺合する雌ねじ部材2906と、3群レンズ枠1802の係合部1802Cと、コイルスプリング2908とを有している。雄ねじ部材2902および雌ねじ部材2906として金属材料を用いている。   As shown in FIGS. 9 and 10, the drive unit 29 moves the third lens group 18 in the optical axis direction, and rotates the male screw member 2902 extending along the optical axis direction and the male screw member 2902. A motor 2904 including a stepping motor to be driven, a female screw member 2906 that is screwed into the male screw member 2902, an engaging portion 1802C of the third group lens frame 1802, and a coil spring 2908. A metal material is used for the male screw member 2902 and the female screw member 2906.

図9に示すように、モータ2904は、モータ配設用部材2910に取着されており、雄ねじ部材2902はモータ2904に連結され、3群レンズ18の光軸方向と平行する方向に延在している。
モータ配設用部材2910は、モータ2904のケースの端面に取着される第1支片2910Aと、第1支片2910Aに対向する第2支片2910Bと、これら第1、第2支片2910A、2910Bを連結する第3支片2910Cとを備えている。
第1支片2910Aには、雄ねじ部材2902の延在方向に対して直交する面に沿って突出形成された突出部2910Dが設けられている。この突出部2910Dには、ねじ挿通用の孔2910Eと、位置決め用孔2910Fとが形成され、図8に示すように、位置決め用孔2910Fがベース12のボスに係合された状態で、ねじ202を孔2910Eからベース12に設けられたねじ孔に螺合することでモータ配設用部材2910がベース12に取着されている。なお、ねじ挿通用の孔2910Eの半径方向外側の箇所に係合溝2910E−1が形成されており、該係合溝2910E−1がベース12側に設けられた凸部に係合されることでモータ配設用部材2910が孔2910Eを中心に揺動しないように構成されている。
図9に示すように、第3支片2910Cは第1支片2910Aの基端から延在しており、第2支片2910Bは第3支片2910Cの先端に設けられている。
雄ねじ部材2902の先端(3群レンズ18の光軸方向の前方の端部)は、第2支片2910Bの軸受孔などを介して回転可能に支持されている。
モータ配設用部材2910の第1、第2支片2910A、2910Bの間には、回り止め用のロッド2912が雄ねじ部材2902と間隔をおいてほぼ平行に延在するように取付けられている。
As shown in FIG. 9, the motor 2904 is attached to the motor arrangement member 2910, and the male screw member 2902 is connected to the motor 2904 and extends in a direction parallel to the optical axis direction of the third lens group 18. ing.
The motor arrangement member 2910 includes a first support piece 2910A attached to the end surface of the case of the motor 2904, a second support piece 2910B facing the first support piece 2910A, and the first and second support pieces 2910A. , 2910B are connected to the third support piece 2910C.
The first support piece 2910 </ b> A is provided with a protruding portion 2910 </ b> D that protrudes along a surface orthogonal to the extending direction of the male screw member 2902. The protrusion 2910D is formed with a screw insertion hole 2910E and a positioning hole 2910F. As shown in FIG. 8, the positioning member 2910F is engaged with the boss of the base 12, and the screw 202 is inserted. Is screwed into a screw hole provided in the base 12 through the hole 2910E, so that the motor disposing member 2910 is attached to the base 12. Note that an engagement groove 2910E-1 is formed at a radially outer portion of the screw insertion hole 2910E, and the engagement groove 2910E-1 is engaged with a convex portion provided on the base 12 side. Thus, the motor arrangement member 2910 is configured not to swing around the hole 2910E.
As shown in FIG. 9, the third support piece 2910C extends from the base end of the first support piece 2910A, and the second support piece 2910B is provided at the distal end of the third support piece 2910C.
The tip of the male screw member 2902 (the front end in the optical axis direction of the third group lens 18) is rotatably supported through a bearing hole of the second support piece 2910B.
Between the first and second support pieces 2910A and 2910B of the motor disposing member 2910, a rotation preventing rod 2912 is attached so as to extend substantially in parallel with the male screw member 2902.

雌ねじ部材2906は雄ねじ部材2902に螺合され、雌ねじ部材2906の係合凹部2906Bがロッド2912に係合し、これにより雌ねじ部材2906の回転が阻止されており、雄ねじ部材2902の正逆転により雌ねじ部材2906が雄ねじ部材2902の長手方向に沿って往復移動するように構成されている。
また、図10に示すように、雌ねじ部材2906が3群レンズ18の光軸方向の後方に臨む端部2906Aは、3群レンズ枠1802の外周部の一部をなす係合部1802Bに当接可能に設けられている。
雄ねじ部材2902は、図9、図10に示すように、雌ねじ部材2906に螺合する雄ねじ部2902Aを有し、雌ねじ部材2906は、雄ねじ部材2902の雄ねじ部2902Aの延在方向の全長にわたって該雄ねじ部材2902に沿って移動できるように配設されている。
コイルスプリング2908は、ガイド軸28Aに巻装されその一端が3群レンズ枠1802の第1軸受部1802Aに弾接し他端がベース12側(ガイド軸押え部材9)に弾接して配設されており、係合部1802Cを雌ねじ部材2906の端部2906Aに当接する方向に3群レンズ枠1802を付勢している。言い換えると、コイルスプリング2908は3群レンズ枠1802を光軸方向の前方に付勢し、3群レンズ枠1802を常時雌ねじ部材2906に弾接させている。したがって、3群レンズ枠1802、すなわち3群レンズ18は雌ねじ部材2906の動きに追従して光軸方向に往復直線移動することになる。
さらに、3群レンズ18の光軸上に位置するベース12箇所に開口が形成され、前記開口に臨むベース12の後面には収容凹部8Cが設けられ、撮像素子116は収容凹部8Cに収容保持されている。
また、3群レンズ枠1802のベース12に面した箇所には検知片1802Cが光軸方向の後方に向けて突設されており、該検知片1802Cに臨むベース12箇所にはフォトインタラプタからなるセンサ50が配設されている。このセンサ18は、次に説明するように、3群レンズ18の基準位置(原点)を設定するために用いられている。
したがって、モータ2904の正転により3群レンズ18が光軸方向の前方に移動し、逆転により光軸方向の後方に移動するとした場合、モータ2904が正転すると、雌ねじ部材2906は雄ねじ部材2902の正転に応じて前方に移動され、これにより、3群レンズ18は光軸方向の前方に移動され、モータ2904の正逆回転によって雌ねじ部材2906が雄ねじ部2902A上で光軸方向に往復直線移動され、これにより3群レンズ18が光軸方向に移動される。
なお、図10に示すように、ガイド軸支持壁91の先端部91Bには当接凸部91Dが設けられており、この当接凸部91Dは、モータモータ配設用部材2910の第2支片2910Bよりも光軸方向で高い位置に位置している。
The female screw member 2906 is screwed into the male screw member 2902, and the engaging recess 2906B of the female screw member 2906 is engaged with the rod 2912. This prevents the female screw member 2906 from rotating. 2906 is configured to reciprocate along the longitudinal direction of the male screw member 2902.
Also, as shown in FIG. 10, the end 2906A where the female screw member 2906 faces the rear in the optical axis direction of the third group lens 18 is in contact with the engaging portion 1802B forming a part of the outer peripheral portion of the third group lens frame 1802. It is provided as possible.
As shown in FIGS. 9 and 10, the male screw member 2902 has a male screw portion 2902A that is screwed into the female screw member 2906. It is arranged so as to be movable along the member 2902.
The coil spring 2908 is wound around the guide shaft 28A, and has one end elastically contacting the first bearing portion 1802A of the third group lens frame 1802 and the other end elastically contacting the base 12 (guide shaft pressing member 9). The third group lens frame 1802 is urged in a direction in which the engaging portion 1802C abuts on the end portion 2906A of the female screw member 2906. In other words, the coil spring 2908 urges the third group lens frame 1802 forward in the optical axis direction, and makes the third group lens frame 1802 elastically contact the female screw member 2906 at all times. Therefore, the third group lens frame 1802, that is, the third group lens 18, reciprocates linearly in the optical axis direction following the movement of the female screw member 2906.
Furthermore, an opening is formed at 12 base positions located on the optical axis of the third group lens 18, an accommodation recess 8C is provided on the rear surface of the base 12 facing the opening, and the image sensor 116 is accommodated and held in the accommodation recess 8C. ing.
In addition, a detection piece 1802C is protruded toward the rear in the optical axis direction at a position facing the base 12 of the third group lens frame 1802, and a sensor made of a photo interrupter is provided at the base 12 position facing the detection piece 1802C. 50 is arranged. The sensor 18 is used to set a reference position (origin) of the third group lens 18 as will be described below.
Therefore, when the third lens group 18 is moved forward in the optical axis direction by the forward rotation of the motor 2904 and moved backward in the optical axis direction by the reverse rotation, when the motor 2904 is rotated forward, the female screw member 2906 is moved to the male screw member 2902. The third group lens 18 is moved forward in the optical axis direction according to the forward rotation, and the female screw member 2906 is linearly reciprocated in the optical axis direction on the male screw portion 2902A by forward and reverse rotation of the motor 2904. As a result, the third lens group 18 is moved in the optical axis direction.
As shown in FIG. 10, a contact protrusion 91D is provided at the tip 91B of the guide shaft support wall 91, and the contact protrusion 91D is the second support of the motor / motor arrangement member 2910. It is positioned higher in the optical axis direction than the piece 2910B.

カム環24は、図5に示すように、固定環20の径方向内側箇所に回転可能にかつ前記光軸方向に移動可能に設けられ、カム環24の内周面には、図7に示すように、カム溝2402,2404が設けられ、図5に示すように、カム環24の後端には径方向外方向に突出する3つの凸部2406が周方向に間隔をおいて設けられている。そして、これら3つの凸部2406が固定環20のカム溝2002,2004に係合した状態で、カム環24が固定環20に対して回転運動することでこれら3つの凸部2406が固定環20のカム溝2002,2004に沿って動かされることによりカム環24が前記光軸方向に移動される。
さらに、固定環20のカム溝2002の少なくとも1つは径方向に貫通しており、前記貫通したカム溝2002に対応するカム環24の凸部2406に設けられた不図示のアームの先端が前記カム溝2002を通って回転環22の直進溝2205に係合されている。これにより、カム環24と回転環22は固定環20に対して連動して回転する。すなわち、回転環22を回転させると、カム環24は回転しながら光軸方向に移動する。
直進案内環26は、カム環24の径方向内側箇所に回転不能にかつ前記光軸方向にカム環24と連動して移動可能に設けられている。詳しく説明すると、直進案内環26の後端には径方向外方に突出する3つの凸部2602が周方向に間隔をおいて設けられている。そして、これら3つの凸部2602がカム環24の後方を通って固定環20の直進案内溝2008に係合した状態でカム環24が固定環20に対して回転運動することでこれら3つの凸部2602が固定環20の直進案内溝2008に沿って動かされ、これにより直進案内環26は回転せずにカム環24と連動して光軸方向にのみ移動される。
また、直進案内環26には、前縁の径方向を挟んだ2箇所から案内片2604がそれぞれ光軸方向と平行に前方に突設されている。
As shown in FIG. 5, the cam ring 24 is provided at a radially inner portion of the fixed ring 20 and is movable in the optical axis direction. The cam ring 24 has an inner peripheral surface shown in FIG. 7. Thus, cam grooves 2402 and 2404 are provided, and as shown in FIG. 5, three convex portions 2406 protruding radially outward are provided at the rear end of the cam ring 24 at intervals in the circumferential direction. Yes. Then, in a state where these three convex portions 2406 are engaged with the cam grooves 2002 and 2004 of the fixed ring 20, the cam ring 24 rotates with respect to the fixed ring 20, so that these three convex portions 2406 are fixed to the fixed ring 20. The cam ring 24 is moved in the optical axis direction by being moved along the cam grooves 2002 and 2004.
Furthermore, at least one of the cam grooves 2002 of the fixed ring 20 penetrates in the radial direction, and the tip of an arm (not shown) provided on the convex portion 2406 of the cam ring 24 corresponding to the penetrated cam groove 2002 is the above-mentioned. The cam groove 2002 is engaged with the rectilinear groove 2205 of the rotary ring 22. As a result, the cam ring 24 and the rotary ring 22 rotate in conjunction with the fixed ring 20. That is, when the rotating ring 22 is rotated, the cam ring 24 moves in the optical axis direction while rotating.
The rectilinear guide ring 26 is provided at a radially inner portion of the cam ring 24 so as not to rotate and to be movable in conjunction with the cam ring 24 in the optical axis direction. More specifically, three convex portions 2602 projecting radially outward are provided at the rear end of the linear guide ring 26 at intervals in the circumferential direction. Then, the cam ring 24 rotates with respect to the fixed ring 20 in a state where the three convex parts 2602 pass through the rear of the cam ring 24 and engage with the straight guide groove 2008 of the fixed ring 20, so that these three convex parts The portion 2602 is moved along the rectilinear guide groove 2008 of the fixed ring 20, whereby the rectilinear guide ring 26 is moved only in the optical axis direction in conjunction with the cam ring 24 without rotating.
In addition, guide pieces 2604 are provided on the linear guide ring 26 so as to protrude forward from two locations across the radial direction of the front edge in parallel with the optical axis direction.

2群レンズ16は2群レンズ枠1602(特許請求の範囲のレンズ保持枠に相当)に保持されている。2群レンズ枠1602はカム環24の内周に配設され、2群レンズ枠1602の外周面には、径方向を挟む2箇所に光軸方向と平行に延在し直進案内環26の2つの案内片2604に案内される案内部1604と、径方向を挟む2箇所に光軸方向と平行に延在し前方に突出する案内レール1605と、カム環24のカム溝2404に係合される3つのカムピン1606とが設けられている。
そして、案内部1604が案内片2604に案内され、かつ、3つのカムピン1606がカム環24のカム溝2404に係合された状態で、カム環24が回転することにより、2群レンズ16は、回転せずにカム溝2404で設定されたカムカーブにより光軸方向にのみ移動する。
2群レンズ枠1602には自動露光装置1610が設けられている。
自動露光装置1610はケース1620(図11)を備え、ケース1620は2群レンズ枠1602の前部に取着されている。
自動光量調整装置1610のケース1620内には、撮影光学系104の光路を開閉するシャッタ機構と、撮影光学系104の光路における光量を調節する光量調整機構とが配設され、自動露光装置1610はシャッタ機構と光量調整機構とを含んでいる。
これらシャッタ機構および光量調整機構は、撮像装置100のケース102内部に組み込まれた電気回路からフレキシブル基板1612を介して供給される制御信号によって動作するように構成され、例えば、シャッタ機構や光量調整機構としてはモータなどの電気式アクチュエータと機械的開閉機構とを組み合わせたもの、また、光量調整機構として液晶素子を用いたものなど、これらシャッタ機構および光量調整機構として従来公知の様々な機構が採用可能である。
The second group lens 16 is held by a second group lens frame 1602 (corresponding to a lens holding frame in claims). The second group lens frame 1602 is disposed on the inner periphery of the cam ring 24, and the outer surface of the second group lens frame 1602 extends in parallel with the optical axis direction at two locations sandwiching the radial direction. It is engaged with a guide portion 1604 guided by two guide pieces 2604, a guide rail 1605 extending in parallel with the optical axis direction at two positions across the radial direction, and protruding forward, and a cam groove 2404 of the cam ring 24. Three cam pins 1606 are provided.
Then, when the guide ring 1604 is guided by the guide piece 2604 and the three cam pins 1606 are engaged with the cam grooves 2404 of the cam ring 24, the cam ring 24 rotates, so that the second group lens 16 is It moves only in the optical axis direction by the cam curve set in the cam groove 2404 without rotating.
The second group lens frame 1602 is provided with an automatic exposure device 1610.
The automatic exposure apparatus 1610 includes a case 1620 (FIG. 11), and the case 1620 is attached to the front portion of the second group lens frame 1602.
In the case 1620 of the automatic light amount adjustment device 1610, a shutter mechanism that opens and closes the optical path of the photographing optical system 104 and a light amount adjustment mechanism that adjusts the light amount in the optical path of the photographing optical system 104 are disposed. A shutter mechanism and a light amount adjustment mechanism are included.
The shutter mechanism and the light amount adjustment mechanism are configured to operate in accordance with a control signal supplied from an electric circuit incorporated in the case 102 of the imaging apparatus 100 via the flexible substrate 1612. For example, the shutter mechanism and the light amount adjustment mechanism Various known mechanisms can be used as the shutter mechanism and the light amount adjustment mechanism, such as a combination of an electric actuator such as a motor and a mechanical opening / closing mechanism, and a liquid crystal element as the light amount adjustment mechanism. It is.

フレキシブル基板1612は、屈曲可能な素材で構成されその一端が自動露光装置1610のケース1620に接続されている。このフレキシブル配線板1612の中間部は、カム環24の後方を通って固定環20に設けられた不図示の保持部に保持されベース12に設けられた不図示の開口を通ってベース12の外方に導出され、フレキシブル配線板1612の他端は固定環20やベース12に固定されている。フレキシブル配線板1612は、回転環22の回転動作および2群レンズ枠1602と直進案内環26の光軸方向の移動に際して、連続的に屈曲部位が変化しながら、前記配線群に無理な力が加わらないように形成されている。
このフレキシブル基板1612は、自動露光装置1610に設けられたアクチュエータ群を動作させるための電気信号を供給する配線群を有している。また、フレキシブル配線板1612は、鏡筒10がケース102から外方に露出している部分に静電気等が加えられて瞬間的な大電流が流れる場合に、その電流の流路として機能する前記配線群とは別の配線群を備えている。フレキシブル基板1612の前記別の配線群のベース12側に位置する接続端は、ケース102と同電位となる接地部分に電気的に接続されている。
The flexible substrate 1612 is made of a bendable material, and one end thereof is connected to the case 1620 of the automatic exposure apparatus 1610. An intermediate portion of the flexible wiring board 1612 passes through the rear of the cam ring 24 and is held by a holding portion (not shown) provided in the fixed ring 20 and passes through an opening (not shown) provided in the base 12 to be outside the base 12. The other end of the flexible wiring board 1612 is fixed to the stationary ring 20 and the base 12. The flexible wiring board 1612 applies an unreasonable force to the wiring group while the bending portion continuously changes during the rotation operation of the rotating ring 22 and the movement of the second group lens frame 1602 and the linear guide ring 26 in the optical axis direction. It is formed so that there is no.
The flexible substrate 1612 has a wiring group for supplying an electrical signal for operating an actuator group provided in the automatic exposure apparatus 1610. Further, the flexible wiring board 1612 is a wiring that functions as a current flow path when an instantaneous large current flows when static electricity is applied to a portion where the lens barrel 10 is exposed outward from the case 102. A wiring group different from the group is provided. A connecting end of the flexible substrate 1612 located on the base 12 side of the other wiring group is electrically connected to a grounding portion having the same potential as the case 102.

1群レンズ14は1群レンズ枠1402に保持されている。1群レンズ枠1402はカム環24の内周で2群レンズ枠1602の前方に配設され、1群レンズ枠1602の内周面には、径方向を挟む2箇所に光軸方向と平行に延在し2群レンズ枠1602の2つの案内レール1605に案内される不図示の案内溝と、カム環24のカム溝2404に係合される3つのカムピン1406とが設けられている。
そして、前記案内溝が案内レール2605に案内され、かつ、3つのカムピン1406がカム環24のカム溝2402に係合された状態で、カム環24が回転することにより、1群レンズ14は、回転せずにカム溝2402で設定されたカムカーブにより光軸方向にのみ移動する。
また、1群レンズ枠1402と2群レンズ枠1602との間には、2つの金属製のコイルスプリング15が張設されており、これらコイルスプリング15の付勢力によって1群レンズ枠1402と2群レンズ枠1602は光軸方向に沿って互いに近接する方向に付勢されており、これにより、カムピン1406とカム溝2402との間のガタ、および、カムピン1606とカム溝2404との間のガタを吸収するように構成されている。
また、2群レンズ枠1602には1つの導通板31が組み込まれている。この導通板31には、前記2つのコイルスプリング15のうちの一方のコイルスプリング15の端部が係止されるとともに、フレキシブル配線板1612の前記別の配線群の接続端のうち1群レンズ枠1402側に位置する接続端が電気的に接続されている。これにより、前記一方のコイルスプリング15は導通板31とフレキシブル配線板1612の前記別の配線群を介して前記接地部分に接続されている。
The first group lens 14 is held by a first group lens frame 1402. The first group lens frame 1402 is disposed in front of the second group lens frame 1602 on the inner circumference of the cam ring 24, and the inner circumference surface of the first group lens frame 1602 is parallel to the optical axis direction at two locations across the radial direction. A guide groove (not shown) that extends and is guided by the two guide rails 1605 of the second group lens frame 1602, and three cam pins 1406 that are engaged with the cam grooves 2404 of the cam ring 24 are provided.
When the guide groove is guided by the guide rail 2605 and the three cam pins 1406 are engaged with the cam groove 2402 of the cam ring 24, the cam ring 24 rotates, so that the first group lens 14 is It moves only in the optical axis direction by the cam curve set in the cam groove 2402 without rotating.
Two metal coil springs 15 are stretched between the first group lens frame 1402 and the second group lens frame 1602, and the first group lens frame 1402 and the second group are urged by the urging force of the coil springs 15. The lens frame 1602 is urged in the direction close to each other along the optical axis direction, and thereby, the play between the cam pin 1406 and the cam groove 2402 and the play between the cam pin 1606 and the cam groove 2404 are reduced. It is configured to absorb.
Further, one conductive plate 31 is incorporated in the second group lens frame 1602. One end of one of the two coil springs 15 is locked to the conductive plate 31, and the first group lens frame of the connection ends of the other wiring group of the flexible wiring board 1612. The connection end located on the 1402 side is electrically connected. As a result, the one coil spring 15 is connected to the grounding portion via the another wiring group of the conductive plate 31 and the flexible wiring board 1612.

また、1群レンズ群14の前部に撮影光学系の光路を開閉するバリア機構30が設けられ、バリア機構30の前方の1群レンズ枠14部分には鏡筒10の体裁を整える金属製の化粧リング32が取着され、カム環24の前部には鏡筒の体裁を整えるための金属製の化粧リング34が取着されている。
1群レンズ枠14の外周とカム環24の内周との隙間には、この隙間からゴミや迷光の侵入を防ぐ遮光リング36が配設され、この遮光リング36は、1群レンズ枠14上に装着され、化粧リング34とカム環24との間にクリアランスを持った状態で配設されている。
カム環24の外周と固定環20の内周との隙間には、この隙間からゴミや迷光の侵入を防ぐための遮光リング38が配設され、この遮光リング38はカム環24の外周に装着され、固定環20の内周に弾接される。
また、光学式ファインダ40は可動式のレンズを内蔵しておりベース12に取着されている。前記可動式のレンズは不図示のカムピンを介して回転環22のカム溝2202に連結されており、回転環22の回転に連動して光軸方向に移動することで視野のズーミング動作がなされるように構成されている。
In addition, a barrier mechanism 30 that opens and closes the optical path of the photographing optical system is provided at the front of the first group lens group 14, and the first group lens frame 14 in front of the barrier mechanism 30 is made of a metal that adjusts the appearance of the lens barrel 10. A decorative ring 32 is attached, and a metallic decorative ring 34 for adjusting the appearance of the lens barrel is attached to the front portion of the cam ring 24.
In the gap between the outer periphery of the first group lens frame 14 and the inner circumference of the cam ring 24, a light shielding ring 36 that prevents intrusion of dust and stray light from the gap is disposed. The light shielding ring 36 is disposed on the first group lens frame 14. And is arranged with a clearance between the decorative ring 34 and the cam ring 24.
In the gap between the outer periphery of the cam ring 24 and the inner periphery of the fixed ring 20, a light-shielding ring 38 is disposed to prevent intrusion of dust and stray light from the gap, and this light-shielding ring 38 is attached to the outer periphery of the cam ring 24. Then, it is elastically contacted with the inner periphery of the fixed ring 20.
The optical finder 40 incorporates a movable lens and is attached to the base 12. The movable lens is connected to the cam groove 2202 of the rotary ring 22 via a cam pin (not shown), and is moved in the optical axis direction in conjunction with the rotation of the rotary ring 22 to perform a zooming operation of the visual field. It is configured as follows.

次に2群レンズ枠1608の構成について詳細に説明する。
図11は2群レンズ枠1608および自動光量調整装置1610の構成を示す分解斜視図、図12は2群レンズ枠1608に自動光量調整装置1610が取着された状態を斜め前方から見た斜視図、図13は2群レンズ枠1608に自動光量調整装置1610が取着された状態を斜め後方から見た斜視図、図14は遮蔽部材が閉塞位置にある状態を斜め前方から観た斜視図、図15(A)、(B)は鏡筒10が沈胴状態における遮蔽部材の動作を示す斜視図、図16(A)は鏡筒10が使用状態における遮蔽部材の動作を示す説明図、(B)は鏡筒10が沈胴状態における遮蔽部材の動作を示す説明図である。
Next, the configuration of the second group lens frame 1608 will be described in detail.
11 is an exploded perspective view showing the configuration of the second group lens frame 1608 and the automatic light amount adjustment device 1610. FIG. 12 is a perspective view of the state in which the automatic light amount adjustment device 1610 is attached to the second group lens frame 1608 as viewed obliquely from the front. FIG. 13 is a perspective view of the state in which the automatic light amount adjustment device 1610 is attached to the second group lens frame 1608 as viewed obliquely from the rear, and FIG. 14 is a perspective view of the state in which the shielding member is in the closed position as viewed obliquely from the front. 15A and 15B are perspective views illustrating the operation of the shielding member when the lens barrel 10 is retracted, and FIG. 16A is an explanatory diagram illustrating the operation of the shielding member when the lens barrel 10 is in use. ) Is an explanatory view showing the operation of the shielding member when the lens barrel 10 is in the retracted state.

図11に示すように、2群レンズ枠1602には、複数個のレンズからなる2群レンズ16が保持されている。
2群レンズ枠1602の前部には、自動光量調整装置1610のケース1620が取着されている。ケース1620は第2レンズ枠1608の外周の輪郭とほぼ同様の輪郭で形成されている。
ケース1620には、撮影光学系の光路を形成する開口が設けられ、2群レンズ枠1602の後部には、撮影光学系の光路を形成する開口が設けられた迷光防止用のマスク1622が取着されている。
図13に示すように、2群レンズ枠1602の外周にはその一部を切り欠いた切欠部1624が設けられ、この切り欠かれた2群レンズ枠1602の直線状の壁部1625に遮光部材50が設けられている。
また、切欠部1624の前方のケース1620箇所には切欠部1624とほぼ同様の形状をなすケース側切欠部1621が設けられている。
これら切欠部1624およびケース側切欠部1621は、上述した3群レンズ枠1802の案内部28および駆動部29の前方、具体的にはガイド軸支持壁91およびモータ配設用部材2910の前方に位置している。
したがって、第1鏡筒10A内に第2鏡筒10Bが収容され、第2鏡筒10B内に第3鏡筒10Cが収容された鏡筒10の沈胴状態では、2群レンズ枠1602がベース12に接近しており、切欠部1624およびケース側切欠部1621内にガイド軸支持壁91およびモータ配設用部材2910が侵入し、位置することになる。
As shown in FIG. 11, the second group lens frame 1602 holds a second group lens 16 composed of a plurality of lenses.
A case 1620 of the automatic light amount adjustment device 1610 is attached to the front of the second group lens frame 1602. The case 1620 is formed with a contour that is substantially similar to the contour of the outer periphery of the second lens frame 1608.
The case 1620 is provided with an opening for forming an optical path of the photographing optical system, and a stray light preventing mask 1622 provided with an opening for forming the optical path of the photographing optical system is attached to the rear of the second group lens frame 1602. Has been.
As shown in FIG. 13, a cutout portion 1624 with a part cut away is provided on the outer periphery of the second group lens frame 1602, and a light shielding member is provided on the linear wall portion 1625 of the cutout second group lens frame 1602. 50 is provided.
Further, a case-side notch 1621 having substantially the same shape as the notch 1624 is provided at the case 1620 in front of the notch 1624.
The cutout portion 1624 and the case side cutout portion 1621 are positioned in front of the guide portion 28 and the drive portion 29 of the above-described third group lens frame 1802, specifically, in front of the guide shaft support wall 91 and the motor arrangement member 2910. doing.
Therefore, in the retracted state of the lens barrel 10 in which the second lens barrel 10B is accommodated in the first lens barrel 10A and the third lens barrel 10C is accommodated in the second lens barrel 10B, the second group lens frame 1602 is the base 12. Thus, the guide shaft support wall 91 and the motor disposing member 2910 enter and are positioned in the notch 1624 and the case-side notch 1621.

遮光部材50は硬質な合成樹脂で形成され、遮光部材50は、図16(A)に示すように、壁部1625から切欠部1624を通って2群レンズ枠1608の径方向外方に延在し鏡筒10の内周面に沿って通過する光を遮断する閉塞位置P1と、図16(B)に示すように、壁部1625から鏡筒10の軸方向に延在し鏡筒10の内周面から離れる退避位置P2との間で揺動可能に設けられている。
図12、図13に示すように、遮光部材50は、光軸方向から見てその外周の輪郭が2群レンズ保持枠1602およびケース1620の外周の輪郭に連続してつながり円状をなすように形成され、より詳細には、2群レンズ保持枠1602およびケース1620の外周の輪郭に遮光部材50の外周の輪郭を合わせた輪郭が、カム環24の内周面に近接する円状をなすように形成されている。
図14に示すように、壁部1625の延在方向の両端部には2つの軸受部1626と、2つの係止部1628とが設けられ、これら軸受け部1626に支軸52が保持され、遮光部材50は、その基部が支軸52に揺動可能に支持されている。
また、支軸52には付勢部材を構成するねじりコイルばね54が装着され、ねじりコイルばね54によって遮光部材50が支軸52回りに付勢され、遮光部材50の下面の延在方向両端箇所が各係止部1628に係止されることで閉塞位置P1に位置決めされ、この位置決めされた状態に付勢されている。
The light shielding member 50 is formed of a hard synthetic resin, and the light shielding member 50 extends outward in the radial direction of the second group lens frame 1608 from the wall portion 1625 through the notch portion 1624 as shown in FIG. The closing position P1 that blocks light passing along the inner peripheral surface of the lens barrel 10 and the axial direction of the lens barrel 10 extending from the wall portion 1625 as shown in FIG. It is provided so as to be able to swing with respect to the retracted position P2 away from the inner peripheral surface.
As shown in FIG. 12 and FIG. 13, the light shielding member 50 has an outer peripheral contour that is continuously connected to the outer peripheral contours of the second lens group holding frame 1602 and the case 1620 when viewed from the optical axis direction. More specifically, the contour obtained by combining the outer periphery of the light shielding member 50 with the outer periphery of the second group lens holding frame 1602 and the case 1620 forms a circular shape close to the inner peripheral surface of the cam ring 24. Is formed.
As shown in FIG. 14, two bearing portions 1626 and two locking portions 1628 are provided at both ends in the extending direction of the wall portion 1625, and the support shaft 52 is held by these bearing portions 1626, thereby shielding the light. The base of the member 50 is supported by the support shaft 52 so as to be swingable.
Further, a torsion coil spring 54 constituting an urging member is attached to the support shaft 52, and the light shielding member 50 is urged around the support shaft 52 by the torsion coil spring 54, so that both ends of the lower surface of the light shielding member 50 in the extending direction. Is locked at each locking portion 1628 and positioned at the closed position P1, and is biased to this positioned state.

図16(A)、(B)に示すように、2群レンズ枠1602が後退することにより、遮光部材50がガイド軸支持壁91に当接されて揺動されることにより、遮光部材50は閉塞位置P1から退避位置P2に動かされるように構成され、本実施例では、開放位置P2で遮光部材50が光軸とほぼ平行をなするように構成されている。
より詳細に説明すると、本実施例では、2群レンズ枠1602が後退することにより、まず、閉塞位置P1にある遮光部材50の先端部がガイド軸支持壁91の先端部91Bの当接凸部91Dに当接する。すなわち、最初にガイド軸支持壁91に当接する遮光部材50の箇所は、支軸52から最も離間した箇所あるいは最も離間した寄り箇所となり、2群レンズ1602が後方に移動するにつれてガイド軸支持壁91に当接する遮光部材50の箇所は支軸52方向に徐々に近づくように構成されている。
また、本実施例では、遮光部材50の先端部の下面でガイド軸支持壁91の当接凸部91Dに当接する箇所に滑らかな曲面からなる当接面5002が形成されている。
As shown in FIGS. 16A and 16B, when the second group lens frame 1602 is retracted, the light shielding member 50 is brought into contact with and swings against the guide shaft support wall 91, so that the light shielding member 50 is In the present embodiment, the light shielding member 50 is configured to be substantially parallel to the optical axis at the open position P2.
More specifically, in this embodiment, when the second group lens frame 1602 is retracted, first, the distal end portion of the light shielding member 50 at the closing position P1 is brought into contact with the distal end portion 91B of the guide shaft support wall 91. Abuts on 91D. That is, the location of the light shielding member 50 that first contacts the guide shaft support wall 91 is the farthest or farthest location from the support shaft 52 and the guide shaft support wall 91 as the second group lens 1602 moves rearward. The portion of the light shielding member 50 that comes into contact with is configured to gradually approach the support shaft 52.
Further, in this embodiment, a contact surface 5002 having a smooth curved surface is formed at a position where the lower surface of the distal end portion of the light shielding member 50 contacts the contact convex portion 91D of the guide shaft support wall 91.

次に作用効果について説明する。
図16(A)に示すように、鏡筒10が使用位置にある場合について説明する。
2群レンズ枠1602の遮光部材50と、ガイド軸支持壁91とが光軸方向において離間しており、遮光部材50は閉塞位置P1に位置しその先端がカム環24の内周面に近接している。そのため、鏡筒10の内周面に沿って通過する光が遮光部材50により遮断され、迷光が撮像素子116に至ることが確実に防止される。
次に、図16(A)に示す使用位置から図16(B)に示す沈胴位置に鏡筒10が移動する場合について説明する。
まず、駆動部29により3群レンズ枠1802が最も後方の位置に移動される。
次いで、回転環駆動機構23の駆動により回転環22が所定方向に回動されることにより、2群レンズ枠1602および1群レンズ枠1802の双方が後方に移動される。
2群レンズ枠1602が後方に移動すると、遮光部材50の当接面5002がガイド軸支持壁91の当接凸部91Dに当接する。この状態でさらに2群レンズ枠1602が後退すると、遮光部材50の当接面5002がガイド軸支持壁91の当接凸部91Dによって前方に押し上げられることにより、遮光部材50が閉塞位置P1から開放位置P2に向けて揺動される。
さらに2群レンズ枠1602が後方に動かされ最も後方の位置に至り、遮光部材50はガイド軸支持壁91により図16(B)に示す開放位置P2に揺動され、その状態で保持される。
そして、この状態で、切欠部1624およびケース側切欠部1621内にガイド軸支持壁91およびモータ配設用部材2910が位置する。
さらに1群レンズ枠1402も2群レンズ枠1602に最も接近した位置まで後退し、これにより鏡筒10が沈胴状態となる。
Next, the function and effect will be described.
As shown in FIG. 16A, the case where the lens barrel 10 is in the use position will be described.
The light shielding member 50 of the second group lens frame 1602 and the guide shaft support wall 91 are separated from each other in the optical axis direction. The light shielding member 50 is located at the closing position P1 and the tip thereof is close to the inner peripheral surface of the cam ring 24. ing. Therefore, the light passing along the inner peripheral surface of the lens barrel 10 is blocked by the light shielding member 50, and stray light is reliably prevented from reaching the image sensor 116.
Next, the case where the lens barrel 10 moves from the use position shown in FIG. 16 (A) to the retracted position shown in FIG. 16 (B) will be described.
First, the driving unit 29 moves the third group lens frame 1802 to the rearmost position.
Next, when the rotary ring 22 is rotated in a predetermined direction by driving the rotary ring drive mechanism 23, both the second group lens frame 1602 and the first group lens frame 1802 are moved backward.
When the second group lens frame 1602 moves rearward, the contact surface 5002 of the light shielding member 50 contacts the contact convex portion 91D of the guide shaft support wall 91. When the second group lens frame 1602 is further retracted in this state, the contact surface 5002 of the light shielding member 50 is pushed forward by the contact convex portion 91D of the guide shaft support wall 91, so that the light shielding member 50 is released from the closing position P1. It is swung toward the position P2.
Further, the second group lens frame 1602 is moved rearward to reach the rearmost position, and the light shielding member 50 is swung to the open position P2 shown in FIG. 16B by the guide shaft support wall 91 and held in that state.
In this state, the guide shaft support wall 91 and the motor disposing member 2910 are positioned in the notch 1624 and the case-side notch 1621.
Furthermore, the first group lens frame 1402 is also retracted to the position closest to the second group lens frame 1602, so that the lens barrel 10 is in a retracted state.

本実施例によれば、2群レンズ枠1602の外周の一部に該箇所を切り欠いた切欠部1624を設け、切り欠かれた2群レンズ枠1602の壁部1625に、該壁部1625から切欠部1624を通って2群レンズ枠1602の径方向外方に延在しカム環24の内周面に沿って通過する光を遮断する閉塞位置P1と、壁部1625からカム環24の軸方向に延在しカム環24の内周面から離れる退避位置P2との間で揺動可能な遮光部材50を設け、遮光部材50を閉塞位置P1に付勢するねじりコイルばね54を設けた。
したがって、遮蔽部材50が閉塞位置P1にあるときには鏡筒10内の迷光が遮蔽部材50よりも後方に侵入することを確実に防止することができ、退避位置P2にあるときには切欠部1624内に2群レンズ枠1602の後方に位置するガイド軸支持壁91およびモータ配設用部材2910を位置させることができる。したがって、迷光による悪影響を確実に防止しつつ、沈胴状態における鏡筒10の光軸方向の寸法を縮小する上で有利となる。
また、本実施例では、最初にガイド軸支持壁91に当接する遮光部材50の箇所が、支軸52から最も離間した箇所あるいは最も離間した寄り箇所であるため、ガイド軸支持壁91と遮光部材50とが当接する際に、ガイド軸支持壁91と遮光部材50に生じる衝撃や振動を低減することができる。このため、ガイド軸支持壁91と遮光部材50の耐久性を向上させる上で有利となり、また、前記衝撃や振動が撮像装置100を構成する各種機構、部材、部品に及ぼす悪影響を抑制する上でも有利となる。
また、本実施例では、遮光部材50の先端部の下面でガイド軸支持壁91の当接凸部91Dに当接する箇所に滑らかな曲面からなる当接面5002が形成されているので、当接凸部91Dに当接された当接面5002の移動に際して生じる衝撃や振動を低減する上でより有利となっている。
According to the present embodiment, a notch portion 1624 in which the portion is notched is provided in a part of the outer periphery of the second group lens frame 1602, and the wall portion 1625 of the notched second group lens frame 1602 is provided from the wall portion 1625. A blocking position P1 that extends radially outward of the second group lens frame 1602 through the notch 1624 and blocks light passing along the inner peripheral surface of the cam ring 24, and an axis of the cam ring 24 from the wall 1625 A light shielding member 50 that can swing between the cam ring 24 and a retracted position P2 that extends in the direction and separates from the inner peripheral surface of the cam ring 24 is provided, and a torsion coil spring 54 that biases the light shielding member 50 to the closed position P1 is provided.
Therefore, when the shielding member 50 is at the closed position P1, stray light in the lens barrel 10 can be reliably prevented from entering behind the shielding member 50. The guide shaft support wall 91 and the motor placement member 2910 located behind the group lens frame 1602 can be positioned. Therefore, it is advantageous in reducing the dimension in the optical axis direction of the lens barrel 10 in the retracted state while reliably preventing adverse effects due to stray light.
Further, in the present embodiment, the location of the light shielding member 50 that first contacts the guide shaft support wall 91 is the location that is the farthest from the support shaft 52 or the location that is the farthest away from the support shaft 52. The impact and vibration generated in the guide shaft support wall 91 and the light-shielding member 50 when the 50 abuts can be reduced. For this reason, it is advantageous in improving the durability of the guide shaft support wall 91 and the light shielding member 50, and also in suppressing the adverse effects of the impact and vibration on the various mechanisms, members, and parts constituting the imaging apparatus 100. It will be advantageous.
Further, in this embodiment, the contact surface 5002 formed of a smooth curved surface is formed at a position where the lower surface of the tip portion of the light shielding member 50 contacts the contact convex portion 91D of the guide shaft support wall 91. This is more advantageous in reducing the impact and vibration generated when the contact surface 5002 in contact with the convex portion 91D moves.

なお、本実施例では、硬質な合成樹脂を用いて遮光部材50を構成し、遮光部材50を支軸52を介して壁部1625で揺動可能に支持し、付勢部材54で閉塞位置P1に付勢するようにしたが、遮光部材50を可撓性を有し閉塞位置P1に弾性復帰する材料、例えばつや消しフィルムや植毛紙などの弾性復帰する材料を用いて構成してもよく、この場合には遮光部材50が付勢部材を兼ねるので、付勢部材は省略される。
また、本実施例では、撮像装置としてデジタルスチルカメラを用いて説明したが、本発明は、ビデオカメラ、その他種々の撮像装置に適用可能である。
In the present embodiment, the light shielding member 50 is configured by using a hard synthetic resin, the light shielding member 50 is supported by the wall portion 1625 via the support shaft 52 so as to be swingable, and the urging member 54 is used as the closing position P1. However, the light shielding member 50 may be made of a flexible material that elastically returns to the closing position P1, such as a matte film or a flocked paper. In this case, since the light shielding member 50 also serves as the urging member, the urging member is omitted.
In this embodiment, a digital still camera is used as the imaging device. However, the present invention can be applied to a video camera and other various imaging devices.

実施例1の撮像装置の斜視図である。1 is a perspective view of an imaging apparatus according to Embodiment 1. FIG. 実施例1の撮像装置の構成を示すブロック図である。1 is a block diagram illustrating a configuration of an imaging apparatus according to Embodiment 1. FIG. 鏡筒10の状態を説明する斜視図である。2 is a perspective view for explaining a state of the lens barrel 10. FIG. 鏡筒10の状態を説明する断面図である。3 is a cross-sectional view illustrating a state of the lens barrel 10. FIG. 沈胴レンズの分解斜視図である。It is a disassembled perspective view of a retractable lens. 固定環20の展開図である。FIG. 3 is a development view of the stationary ring 20. カム環24の展開図である。4 is a development view of the cam ring 24. FIG. 3群レンズ枠1802とベース12の構成を示す斜視図である。FIG. 6 is a perspective view showing configurations of a third group lens frame 1802 and a base 12. 駆動部29の構成を示す斜視図である。4 is a perspective view showing a configuration of a drive unit 29. FIG. 3群レンズ枠1802とベース12の構成を示す説明図である。It is explanatory drawing which shows the structure of the 3 group lens frame 1802 and the base 12. FIG. 2群レンズ枠1608および自動光量調整装置1610の構成を示す分解斜視図である。FIG. 11 is an exploded perspective view showing configurations of a second group lens frame 1608 and an automatic light amount adjustment device 1610. 2群レンズ枠1608に自動光量調整装置1610が取着された状態を斜め前方から見た斜視図である。It is the perspective view which looked at the state by which the automatic light quantity adjustment apparatus 1610 was attached to the 2nd group lens frame 1608 from diagonally forward. 2群レンズ枠1608に自動光量調整装置1610が取着された状態を斜め後方から見た斜視図である。It is the perspective view which looked at the state by which the automatic light quantity adjustment apparatus 1610 was attached to the 2nd group lens frame 1608 from diagonally back. 遮蔽部材が閉塞位置にある状態を斜め前方から観た斜視図である。It is the perspective view which looked at the state which has a shielding member in the obstruction | occlusion position from diagonally forward. 鏡筒10の沈胴状態における遮蔽部材50の動作を示す斜視図である。FIG. 6 is a perspective view showing the operation of the shielding member 50 when the lens barrel 10 is retracted. 遮蔽部材50の動作を示す説明図である。It is explanatory drawing which shows operation | movement of the shielding member.

符号の説明Explanation of symbols

100……撮像装置、10……鏡筒、16……2群レンズ、1602……2群レンズ枠、1624……切欠部、1625……壁部、50……遮光部材、54……ねじりコイルスプリング。
DESCRIPTION OF SYMBOLS 100 ... Imaging device, 10 ... Lens barrel, 16 ... 2nd group lens, 1602 ... 2nd group lens frame, 1624 ... Notch part, 1625 ... Wall part, 50 ... Shading member, 54 ... Torsion coil spring.

Claims (18)

鏡筒と、前記鏡筒内に配設され撮影光学系を構成するレンズを保持するレンズ保持枠とを備え、
前記撮影光学系の焦点距離調整もしくは合焦調整が前記レンズ保持枠の前記レンズの光軸方向への移動により行なわれ、前記レンズ保持枠が後退して沈胴状態となる沈胴式レンズ鏡筒であって、
前記レンズ保持枠の外周の一部に該箇所を切り欠いた切欠部が設けられ、
前記切り欠かれた前記レンズ保持枠の壁部に、該壁部から前記切欠部を通って前記レンズ保持枠の径方向外方に延在し前記鏡筒の内周面に沿って通過する光を遮断する閉塞位置と、該壁部から前記鏡筒の軸方向に延在し前記鏡筒の内周面から離れる退避位置との間で揺動可能な遮光部材が設けられ、
前記遮光部材を前記閉塞位置に付勢する付勢部材が設けられている、
ことを特徴とする沈胴式レンズ鏡筒。
A lens barrel and a lens holding frame that is disposed in the lens barrel and holds a lens that constitutes a photographing optical system;
A retractable lens barrel in which focal length adjustment or focusing adjustment of the photographing optical system is performed by moving the lens holding frame in the optical axis direction of the lens, and the lens holding frame is retracted to be in a retracted state. And
A notch part in which the portion is cut out is provided in a part of the outer periphery of the lens holding frame,
Light that extends from the wall portion to the notched wall portion of the lens holding frame, passes through the notched portion, radially outward of the lens holding frame, and passes along the inner peripheral surface of the lens barrel. A light-shielding member that is swingable between a closed position for blocking and a retracted position extending from the wall portion in the axial direction of the lens barrel and separating from the inner peripheral surface of the lens barrel,
A biasing member that biases the light shielding member to the closed position is provided.
A retractable lens barrel characterized by that.
前記遮光部材は、合成樹脂製で支軸を介して前記壁部に揺動可能に支持されていることを特徴とする請求項1記載の沈胴式レンズ鏡筒。   2. The retractable lens barrel according to claim 1, wherein the light shielding member is made of a synthetic resin and is swingably supported on the wall portion via a support shaft. 前記遮光部材は、可撓性を有し前記閉塞位置に弾性復帰する材料で構成され、前記遮光部材は前記付勢部材を兼ねていることを特徴とする請求項1記載の沈胴式レンズ鏡筒。   2. The retractable lens barrel according to claim 1, wherein the light shielding member is made of a flexible material that elastically returns to the closed position, and the light shielding member also serves as the biasing member. . 前記遮光部材が前記閉塞位置に位置した状態において、前記光軸方向から見て前記遮光部材と前記レンズ保持枠と合わせた輪郭は、前記レンズ保持枠が配設された鏡筒部分の内周面に近接する大きさの円形を呈していることを特徴とする請求項1記載の沈胴式レンズ鏡筒。   In the state where the light shielding member is located at the closed position, the contour combined with the light shielding member and the lens holding frame when viewed from the optical axis direction is the inner peripheral surface of the lens barrel portion where the lens holding frame is disposed. The retractable lens barrel according to claim 1, wherein the lens barrel has a circular shape close to the lens. レンズ保持枠の前部に前記撮影光学系の光路における光量を調節する光量調整装置が配設され、前記光量調整装置のケースは前記レンズ保持枠の前部に取着され、前記ケースには、前記光軸方向から見て前記切欠部と合致する輪郭のケース側切欠部が設けられ、前記遮光部材が退避位置に揺動すると前記ケース側切欠部内に位置することを特徴とする請求項1記載の沈胴式レンズ鏡筒。   A light amount adjusting device for adjusting the light amount in the optical path of the photographing optical system is disposed at the front portion of the lens holding frame, and the case of the light amount adjusting device is attached to the front portion of the lens holding frame. The case-side notch portion having a contour that matches the notch portion as viewed from the optical axis direction is provided, and the light-shielding member is located in the case-side notch portion when swinging to a retracted position. Retractable lens barrel. 前記鏡筒内の後部には、撮影を行なうための他の機構が位置しており、前記レンズ保持枠が後退して沈胴状態となると、前記機構の一部は前記切欠部内に位置し、前記遮光部材は前記機構の一部に当たって前記閉塞位置から前記退避位置に揺動されることを特徴とする請求項1記載の沈胴式レンズ鏡筒。   In the rear part of the lens barrel, another mechanism for photographing is located, and when the lens holding frame is retracted into a retracted state, a part of the mechanism is located in the notch, 2. The retractable lens barrel according to claim 1, wherein the light shielding member is swung from the closed position to the retracted position when hitting a part of the mechanism. 前記鏡筒内の後部には、撮影を行なうための他の機構が位置しており、前記レンズ保持枠が後退して沈胴状態となると、前記機構の一部は前記切欠部内に位置し、前記遮光部材は前記機構の一部に当たって前記閉塞位置から前記退避位置に揺動され、前記遮光部材が前記機構の一部に当たる際に、前記遮光部材は、前記壁部から最も離れた箇所に近い箇所が前記機構の一部に当たることを特徴とする請求項1記載の沈胴式レンズ鏡筒。   In the rear part of the lens barrel, another mechanism for photographing is located, and when the lens holding frame is retracted into a retracted state, a part of the mechanism is located in the notch, The light shielding member hits a part of the mechanism and is swung from the closed position to the retracted position, and when the light shielding member hits a part of the mechanism, the light shielding member is located at a position closest to the wall part. 2. The retractable lens barrel according to claim 1, wherein a part of the mechanism hits the mechanism. 前記鏡筒内の後部に、前記レンズとは別のレンズを保持する前記レンズ保持枠とは別のレンズ保持枠が設けられ、前記鏡筒の後部に、前記別のレンズ保持枠を光軸方向に移動させる駆動機構が設けられ、前記レンズ保持枠が後退して沈胴状態となると、前記駆動機構の一部は前記切欠部内に位置し、前記遮光部材は前記駆動機構の一部に当たって前記閉塞位置から前記退避位置に揺動されることを特徴とする請求項1記載の沈胴式レンズ鏡筒。   A lens holding frame different from the lens holding frame for holding a lens different from the lens is provided at the rear part in the lens barrel, and the other lens holding frame is arranged in the optical axis direction at the rear part of the lens barrel. When the lens holding frame is retracted into a retracted state, a part of the driving mechanism is located in the notch, and the light shielding member is in contact with a part of the driving mechanism and is in the closed position. 2. The retractable lens barrel according to claim 1, wherein the retractable lens barrel is swung from the retracted position to the retracted position. 前記鏡筒内の後部に、前記レンズとは別のレンズを保持する前記レンズ保持枠とは別のレンズ保持枠が設けられ、前記鏡筒の後部に、前記別のレンズ保持枠を光軸方向に移動させる駆動機構が設けられ、前記レンズ保持枠が後退して沈胴状態となると、前記駆動機構の一部は前記切欠部内に位置し、前記遮光部材は前記駆動機構の一部に当たって前記閉塞位置から前記退避位置に揺動され、前記遮光部材が前記駆動機構の一部に当たる際に、前記遮光部材は、前記壁部から最も離れた箇所に近い箇所が前記駆動機構の一部に当たることを特徴とする請求項1記載の沈胴式レンズ鏡筒。   A lens holding frame different from the lens holding frame for holding a lens different from the lens is provided at the rear part in the lens barrel, and the other lens holding frame is arranged in the optical axis direction at the rear part of the lens barrel. When the lens holding frame is retracted into a retracted state, a part of the driving mechanism is located in the notch, and the light shielding member is in contact with a part of the driving mechanism and is in the closed position. When the light blocking member hits a part of the drive mechanism, the light blocking member hits a part of the drive mechanism at a position closest to the position farthest from the wall. The retractable lens barrel according to claim 1. 鏡筒と、前記鏡筒内に配設され撮影光学系を構成するレンズを保持するレンズ保持枠と、前記撮影光学系によって導かれた被写体像を撮像する撮像素子とを備え、
前記撮影光学系の焦点距離調整もしくは合焦調整が前記レンズ保持枠の前記レンズの光軸方向への移動により行なわれ、前記レンズ保持枠が後退して沈胴状態となる沈胴式レンズ鏡筒を有する撮像装置であって、
前記レンズ保持枠の外周の一部に該箇所を切り欠いた切欠部が設けられ、
前記切り欠かれた前記レンズ保持枠の壁部に、該壁部から前記切欠部を通って前記レンズ保持枠の径方向外方に延在し前記鏡筒の内周面に沿って通過する光を遮断する閉塞位置と、該壁部から前記鏡筒の軸方向に延在し前記鏡筒の内周面から離れる退避位置との間で揺動可能な遮光部材が設けられ、
前記遮光部材を前記閉塞位置に付勢する付勢部材が設けられている、
ことを特徴とする撮像装置。
A lens barrel, a lens holding frame that is disposed in the lens barrel and holds a lens constituting the imaging optical system, and an imaging device that captures a subject image guided by the imaging optical system,
A focal length adjustment or focusing adjustment of the photographing optical system is performed by moving the lens holding frame in the direction of the optical axis of the lens, and the lens holding frame is retracted to have a retractable lens barrel. An imaging device,
A notch part in which the portion is cut out is provided in a part of the outer periphery of the lens holding frame,
Light that extends from the wall portion to the notched wall portion of the lens holding frame, passes through the notched portion, radially outward of the lens holding frame, and passes along the inner peripheral surface of the lens barrel. A light-shielding member that is swingable between a closed position for blocking and a retracted position extending from the wall portion in the axial direction of the lens barrel and separating from the inner peripheral surface of the lens barrel,
A biasing member that biases the light shielding member to the closed position is provided.
An imaging apparatus characterized by that.
前記遮光部材は、合成樹脂製で支軸を介して前記壁部に揺動可能に支持されていることを特徴とする請求項10記載の撮像装置。   The imaging device according to claim 10, wherein the light shielding member is made of a synthetic resin and is swingably supported by the wall portion via a support shaft. 前記遮光部材は、可撓性を有し前記閉塞位置に弾性復帰する材料で構成され、前記遮光部材は前記付勢部材を兼ねていることを特徴とする請求項10記載の撮像装置。   The imaging device according to claim 10, wherein the light shielding member is made of a flexible material that elastically returns to the closed position, and the light shielding member also serves as the biasing member. 前記遮光部材が前記閉塞位置に位置した状態において、前記光軸方向から見て前記遮光部材と前記レンズ保持枠と合わせた輪郭は、前記レンズ保持枠が配設された鏡筒部分の内周面に近接する大きさの円形を呈していることを特徴とする請求項10記載の撮像装置。   In the state where the light shielding member is located at the closed position, the contour combined with the light shielding member and the lens holding frame when viewed from the optical axis direction is the inner peripheral surface of the lens barrel portion where the lens holding frame is disposed. The imaging apparatus according to claim 10, wherein the imaging apparatus has a circular shape with a size close to. レンズ保持枠の前部に前記撮影光学系の光路における光量を調節する光量調整装置が配設され、前記光量調整装置のケースは前記レンズ保持枠の前部に取着され、前記ケースには、前記光軸方向から見て前記切欠部と合致する輪郭のケース側切欠部が設けられ、前記遮光部材が退避位置に揺動すると前記ケース側切欠部内に位置することを特徴とする請求項10記載の撮像装置。   A light amount adjusting device for adjusting the light amount in the optical path of the photographing optical system is disposed at the front portion of the lens holding frame, and the case of the light amount adjusting device is attached to the front portion of the lens holding frame. The case-side notch portion having a contour that matches the notch portion when viewed from the optical axis direction is provided, and when the light shielding member swings to the retracted position, the case-side notch portion is located in the case-side notch portion. Imaging device. 前記鏡筒内の後部には、撮影を行なうための他の機構が位置しており、前記レンズ保持枠が後退して沈胴状態となると、前記機構の一部は前記切欠部内に位置し、前記遮光部材は前記機構の一部に当たって前記閉塞位置から前記退避位置に揺動されることを特徴とする請求項10記載の撮像装置。   In the rear part of the lens barrel, another mechanism for photographing is located, and when the lens holding frame is retracted into a retracted state, a part of the mechanism is located in the notch, The imaging apparatus according to claim 10, wherein the light shielding member is swung from the closed position to the retracted position when hitting a part of the mechanism. 前記鏡筒内の後部には、撮影を行なうための他の機構が位置しており、前記レンズ保持枠が後退して沈胴状態となると、前記機構の一部は前記切欠部内に位置し、前記遮光部材は前記機構の一部に当たって前記閉塞位置から前記退避位置に揺動され、前記遮光部材が前記機構の一部に当たる際に、前記遮光部材は、前記壁部から最も離れた箇所に近い箇所が前記機構の一部に当たることを特徴とする請求項10記載の撮像装置。   In the rear part of the lens barrel, another mechanism for photographing is located, and when the lens holding frame is retracted into a retracted state, a part of the mechanism is located in the notch, The light shielding member hits a part of the mechanism and is swung from the closed position to the retracted position, and when the light shielding member hits a part of the mechanism, the light shielding member is located at a position closest to the wall portion. The image pickup apparatus according to claim 10, wherein hits a part of the mechanism. 前記鏡筒内の後部に、前記レンズとは別のレンズを保持する前記レンズ保持枠とは別のレンズ保持枠が設けられ、前記鏡筒の後部に、前記別のレンズ保持枠を光軸方向に移動させる駆動機構が設けられ、前記レンズ保持枠が後退して沈胴状態となると、前記駆動機構の一部は前記切欠部内に位置し、前記遮光部材は前記駆動機構の一部に当たって前記閉塞位置から前記退避位置に揺動されることを特徴とする請求項10記載の撮像装置。   A lens holding frame different from the lens holding frame for holding a lens different from the lens is provided at the rear part in the lens barrel, and the other lens holding frame is arranged in the optical axis direction at the rear part of the lens barrel. When the lens holding frame is retracted into a retracted state, a part of the driving mechanism is located in the notch, and the light shielding member is in contact with a part of the driving mechanism and is in the closed position. The imaging apparatus according to claim 10, wherein the imaging apparatus is swung to a retracted position. 前記鏡筒内の後部に、前記レンズとは別のレンズを保持する前記レンズ保持枠とは別のレンズ保持枠が設けられ、前記鏡筒の後部に、前記別のレンズ保持枠を光軸方向に移動させる駆動機構が設けられ、前記レンズ保持枠が後退して沈胴状態となると、前記駆動機構の一部は前記切欠部内に位置し、前記遮光部材は前記駆動機構の一部に当たって前記閉塞位置から前記退避位置に揺動され、前記遮光部材が前記駆動機構の一部に当たる際に、前記遮光部材は、前記壁部から最も離れた箇所に近い箇所が前記駆動機構の一部に当たることを特徴とする請求項10記載の撮像装置。
A lens holding frame different from the lens holding frame for holding a lens different from the lens is provided at the rear part in the lens barrel, and the other lens holding frame is arranged in the optical axis direction at the rear part of the lens barrel. When the lens holding frame is retracted into a retracted state, a part of the driving mechanism is located in the notch, and the light shielding member is in contact with a part of the driving mechanism and is in the closed position. When the light blocking member hits a part of the drive mechanism, the light blocking member hits a part of the drive mechanism at a position closest to the position farthest from the wall. The imaging device according to claim 10.
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JP2007047285A (en) * 2005-08-08 2007-02-22 Canon Inc Light-intercepting structure and imaging apparatus having light-intercepting structure
JP2008076581A (en) * 2006-09-19 2008-04-03 Ricoh Co Ltd Lens barrel and imaging apparatus
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