WO2012132868A1 - レンズ装置及びフォーカス制御方法 - Google Patents
レンズ装置及びフォーカス制御方法 Download PDFInfo
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- WO2012132868A1 WO2012132868A1 PCT/JP2012/056354 JP2012056354W WO2012132868A1 WO 2012132868 A1 WO2012132868 A1 WO 2012132868A1 JP 2012056354 W JP2012056354 W JP 2012056354W WO 2012132868 A1 WO2012132868 A1 WO 2012132868A1
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- Prior art keywords
- focus
- lens
- touch sensor
- rotation
- focus ring
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- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B7/00—Mountings, adjusting means, or light-tight connections, for optical elements
- G02B7/02—Mountings, adjusting means, or light-tight connections, for optical elements for lenses
- G02B7/04—Mountings, adjusting means, or light-tight connections, for optical elements for lenses with mechanism for focusing or varying magnification
- G02B7/09—Mountings, adjusting means, or light-tight connections, for optical elements for lenses with mechanism for focusing or varying magnification adapted for automatic focusing or varying magnification
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- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B7/00—Mountings, adjusting means, or light-tight connections, for optical elements
- G02B7/02—Mountings, adjusting means, or light-tight connections, for optical elements for lenses
- G02B7/04—Mountings, adjusting means, or light-tight connections, for optical elements for lenses with mechanism for focusing or varying magnification
- G02B7/10—Mountings, adjusting means, or light-tight connections, for optical elements for lenses with mechanism for focusing or varying magnification by relative axial movement of several lenses, e.g. of varifocal objective lens
- G02B7/102—Mountings, adjusting means, or light-tight connections, for optical elements for lenses with mechanism for focusing or varying magnification by relative axial movement of several lenses, e.g. of varifocal objective lens controlled by a microcomputer
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/60—Control of cameras or camera modules
- H04N23/67—Focus control based on electronic image sensor signals
- H04N23/672—Focus control based on electronic image sensor signals based on the phase difference signals
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03B—APPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR
- G03B3/00—Focusing arrangements of general interest for cameras, projectors or printers
- G03B3/10—Power-operated focusing
Definitions
- the present invention relates to a lens apparatus and a focus control method capable of omitting parts for slide operation and improving the operability of an absolute position instruction operation and a relative position instruction operation for focus adjustment.
- a lens apparatus in which a focus ring 93 that can be slid back and forth in the direction of the optical axis O in the direction of the optical axis O is provided on the outer periphery of a lens barrel 91.
- Patent Document 1 a focus ring of a relative position indication method and a focus ring of an absolute position indication method are arranged on the outer periphery of the lens barrel 1, and the focus ring of the relative position indication method is arranged along the optical axis direction.
- a lens device is disclosed in which one of two focus rings is mechanically switched by a slide operation.
- a configuration is also known in which a key is operated when performing coarse adjustment for focusing, and a wheel is operated when performing fine adjustment (see Patent Document 5).
- JP 2007-178633 A JP 2009-169266 A JP 2010-117444 A Japanese Patent Laid-Open No. 10-111448 JP 2009-31654 A
- Patent Documents 2 to 4 disclose a configuration in which a focus instruction operation can be performed by a touch sensor, but nothing is described regarding switching between an absolute position instruction and a relative position instruction.
- Patent Document 5 does not disclose a touch operation.
- Patent Document 2 describes that the touched finger should be moved quickly when the focus is roughly adjusted, and the touched finger should be moved slowly when the focus is finely adjusted. Since there is a difference between the sensitivity of the finger movement and the detection on the lens device side, there is another problem that it is actually difficult to operate the coarse adjustment and fine adjustment only by the finger movement. .
- tactile sensation is important for TV camera operators who operate by groping while looking through the viewfinder, and further improvements in operability are required.
- the present invention has been made in view of such circumstances, and a lens capable of omitting a slide operation component and improving the operability of an absolute position instruction operation and a relative position instruction operation for focus adjustment.
- An object is to provide an apparatus and a focus control method.
- the present invention provides a lens barrel main body that holds a focus lens so as to be movable in the optical axis direction, and a focus ring that is provided on the outer peripheral portion of the lens barrel main body with a rotation range restricted.
- a rotation position detection unit that detects a rotation position of the focus ring within the rotation range, a touch sensor provided on an outer periphery of the lens barrel body, and the rotation position detection unit.
- a control device for performing a lens apparatus is
- the conventional sliding operation of the focus ring can be omitted, the absolute position instruction can be given by the rotation operation of the focus ring, and the relative position instruction can be given by the sliding operation by the touch sensor. Therefore, the parts for the slide operation can be omitted, and the operability of the focus adjustment absolute position instruction operation and the relative position instruction operation can be improved by omitting the slide operation.
- an annular convex portion is provided between the focus ring and the touch sensor in the optical axis direction. Thereby, an erroneous operation of simultaneously operating both the focus ring and the touch sensor is prevented.
- control means has an autofocus control function for automatically moving the focus lens to a position focused on a subject, and when a touch is detected by the touch sensor, Start focus operation.
- control unit when the slide is detected by the touch sensor after the end of the autofocus, the control unit is configured to perform a relative operation corresponding to the amount of slide by the touch sensor based on the absolute position determined by the autofocus. The focus lens is moved to a position.
- control means roughly adjusts the position of the focus lens according to the rotation of the focus ring, and finely adjusts the position of the focus lens according to the sliding amount of the touch sensor. .
- the present invention provides a lens barrel body that holds a focus lens so as to be movable in the optical axis direction, a focus ring that is provided on the outer periphery of the lens barrel body with a rotation range restricted, and the focus ring.
- a rotation position detection unit that detects a rotation position within the rotation range and a touch sensor provided on the outer periphery of the lens barrel body
- the rotation position detected by the rotation position detection unit A focus control method for performing absolute position control for moving the focus lens to a corresponding absolute position, and relative position control for moving the focus lens to a relative position corresponding to a sliding amount in a circumferential direction on the outer peripheral surface of the touch sensor I will provide a.
- parts for slide operation can be omitted, and the operability of the focus adjustment absolute position instruction operation and the relative position instruction operation can be improved.
- FIG. 1 is a block diagram illustrating an example of a photographing device equipped with the lens device illustrated in FIG.
- the flowchart which shows the flow of 1st Example of a lens control process.
- the flowchart which shows the flow of 2nd Example of a lens control process.
- the flowchart which shows the flow of 3rd Example of a lens control process.
- the flowchart which shows the flow of 4th Example of a lens control process.
- Side view showing an example of a lens device in which an annular convex portion is provided between the focus ring and the touch sensor.
- FIG. 1 is a side view showing an example of a lens apparatus according to the present invention.
- a touch sensor 2 a focus ring 3, a zoom ring 4, and an iris ring 6 are arranged on the outer periphery of the stationary ring 1 (hereinafter also referred to as “lens barrel body”) in order from the subject side (front side).
- the touch sensor 2 and the focus ring 3 are disposed adjacent to each other in the optical axis O direction.
- the touch sensor 2 of this example is annular and is provided endlessly on the outer periphery of the stationary ring 1, and detects any sliding of the finger in the outer circumferential direction of the stationary ring 1 around the optical axis O. Is possible.
- the focus ring 3 has an annular shape and is provided on the outer peripheral portion of the fixed ring 1 with a rotation range restricted by a restriction end (hereinafter also referred to as “rotation end”), and within the restricted rotation range,
- the stationary ring 1 can be rotated around the optical axis O in the outer peripheral direction.
- the zoom ring 4 and the iris ring 6 are annular, and are rotatable in the outer peripheral direction of the fixed ring 1 with the optical axis O as the center.
- FIG. 2 is a block diagram illustrating an example of an imaging apparatus configured by mounting the lens apparatus 100 and the lens apparatus 100 illustrated in FIG. 2, the same reference numerals are given to the components described in FIG. 1, and the description of the contents already described is omitted.
- a zoom (magnification) lens 32, an iris 40 (aperture), a master lens 34, and a focus lens 36 are arranged in order from the subject side (front side). These optical members are held in the stationary ring 1 of FIG.
- the lens apparatus 100 of this example is a rear focus type, but the order of the optical members on the optical axis O is not particularly limited in the present invention.
- the lens device 100 includes a driver 102 that drives the touch sensor 2, a rotation position detection unit 103 that detects a rotation position within a restricted rotation range of the focus ring 3, a zoom lens 32, and a focus lens. 36, drivers 112Z, 112F, and 112S for driving the iris 40, an A / D converter 113, an AF unit 115 that executes processing for autofocus, and communication within the system with the photographing unit 200, respectively. It includes an SCI interface 116, an external interface 117 for communicating with other external devices, a CPU 118 that controls each part of the lens device 100, and a storage unit 119.
- the zoom lens 32 and the focus lens 36 freely move in the direction of the optical axis O according to a command from the CPU 118 via the drivers 112Z and 112F. Further, the iris 40 freely changes the opening cross-sectional area on the optical path along the optical axis O according to a command from the CPU 118 via the driver 112S.
- the driver 102 for the touch sensor 2 and the rotation position detection unit 103 for the focus ring 3 a known sensor may be used, and detailed description thereof is omitted.
- the CPU 118 of the lens apparatus 100 cooperates with the AF unit 115 to perform a contrast AF type AF search by the AF unit 115 while moving the focus lens 36 in the optical axis O direction, and focus based on the AF result.
- the lens 36 is moved to a lens position for focusing on the subject (hereinafter referred to as “AF absolute position”).
- AF absolute position a lens position for focusing on the subject
- MF absolute position absolute position
- Absolute position control for moving the focus lens 36 is performed.
- the CPU 118 of the lens apparatus 100 moves the focus lens 36 to a relative position corresponding to the amount of sliding in the circumferential direction on the outer circumferential surface of the touch sensor 2 when the touch sensor 2 detects a finger touch and sliding.
- Relative position control is performed.
- the “relative position” means any of the lens position (AF absolute position) of the focus lens 36 determined by autofocus and the lens position (MF absolute position) of the focus lens 36 instructed by the focus ring 3. This is the position (difference) based on the absolute position, and is the lens position of the focus lens 36 (hereinafter referred to as “MF relative position”) indicated by the touch sensor 2.
- the CPU 118 of the lens apparatus 100 performs rough adjustment of the position of the focus lens 36 according to the rotation of the focus ring 3 and fine adjustment of the position of the focus lens 36 according to the sliding amount of the touch sensor 2. That is, the focus lens with respect to the sliding amount (or sliding angle) on the outer periphery of the touch sensor 2 rather than the moving amount in the optical axis O direction of the focus lens 36 with respect to the moving amount (or rotation angle) on the outer periphery of the focus ring 3.
- the amount of movement 36 in the direction of the optical axis O is made smaller. Therefore, the lens position (MF relative position) of the focus lens 36 can be easily finely adjusted by the touch sensor 2 from the focus position (AF absolute position) determined by autofocus.
- the imaging unit 200 includes an imaging element 221 that captures a subject image formed by the lens device 100, and a video signal processing circuit that performs image processing on a video signal output from the imaging element 221.
- an electronic view finder 224 for displaying a captured image obtained by the imaging element 221, and a captured image obtained by the imaging element 221 as a recording medium 225 includes a recording medium interface 226 to be recorded in 225, an operation unit 227 that receives an operation from an operator, and a CPU 229 that controls each unit of the photographing unit 200 in an integrated manner.
- FIG. 3 is a flowchart showing the flow of the first embodiment of the lens control process. This process is executed by the CPU 118 of the lens apparatus 100 according to a program.
- step S2 it is determined whether or not the focus ring 3 has been rotated.
- the CPU 118 determines the presence or absence of rotation based on the output signal of the rotation position detection unit 103.
- step S4 When the focus ring 3 rotates, the absolute position of the focus lens 36 corresponding to the rotation position of the focus ring 3 is acquired (step S4), and the focus lens 36 is moved to the absolute position (step S6).
- the relationship between the rotation position of the focus ring 3 and the absolute position of the focus lens 36 is stored in the storage unit 119, and the absolute position corresponding to the rotation position is acquired from the storage unit 119.
- the absolute position may be calculated from the rotation position.
- step S12 it is determined whether or not a touch is detected by the touch sensor 2 (step S12).
- step S14 it is further determined whether or not sliding is detected by the touch sensor 2 (step S14).
- the sliding amount is calculated (step S16), and the focus lens 36 is moved to the relative position of the focus lens 36 corresponding to the sliding amount (step S18).
- the relationship between the sliding amount of the touch sensor 2 and the relative position of the focus lens 36 is stored in the storage unit 119, and the relative position corresponding to the sliding amount is acquired from the storage unit 119.
- the relative position may be calculated from the sliding amount.
- the rotation of the focus ring 3 and the sliding with the touch sensor 2 are performed simultaneously, the rotation of the focus ring 3 is prioritized over the sliding with the touch sensor 2, and the focus The focus lens 36 moves to the MF absolute position indicated by the ring 3. Therefore, even if the operator who is going to give an instruction by the rotation operation of the focus ring 3 accidentally slides his / her finger on the touch sensor 2 simultaneously with the rotation of the focus ring 3, the focus ring 3 is as intended by the operator.
- the focus lens 36 moves to the absolute position instructed by the pivoting operation.
- an operator who intends to indicate the relative position by the sliding operation of the touch sensor 2 touches the focus ring 3 together with the touch sensor 2, such an operator is generally clearly touched.
- FIG. 4 is a flowchart showing the flow of the second embodiment of the lens control process. This process is executed by the CPU 118 of the lens apparatus 100 according to a program.
- step S22 it is determined whether or not the touch sensor 2 is touched.
- step S24 it is further determined whether or not sliding is detected by the touch sensor 2 (step S24), and whether or not the finger is separated from the touch sensor 2 (step S26).
- Step S26 when the finger is released from the touch sensor 2 (Yes in Step S26), the time measurement by the timer is started (Step S28). Thereafter, the sliding amount is calculated (step S30), and the focus lens 36 is moved to the relative position corresponding to the sliding amount (step S32).
- step S34 it is determined whether or not a certain time has elapsed since the finger was removed. If the certain time has not yet elapsed (step S34) In the case of Yes in S34), the process returns to step S22.
- step S36 it is determined whether or not the focus ring 3 has been rotated only when a certain time has passed since the finger has moved away from the touch sensor 2 (step S36).
- An absolute position corresponding to the rotation position is acquired (step S38), and the focus lens 36 is moved to the absolute position (step S40).
- the sliding with the touch sensor 2 has priority over the rotation of the focusing ring 3, and the touch is performed.
- the focus lens 36 moves to the relative position designated by the sensor 2. Therefore, even if the operator who has tried to indicate the relative position by the sliding operation with the touch sensor 2 accidentally rotates the focus ring 3 simultaneously with the sliding with the touch sensor 2, the touch is performed as intended by the operator.
- the focus lens 36 moves to the relative position designated by the sliding operation of the sensor 2. In touch operations, touch and slide with your finger ⁇ release your finger ⁇ touch and slide again with your finger ⁇ release your finger... In such cases, touch operation is given priority.
- FIG. 5 is a flowchart showing the flow of the third embodiment of the lens control process. This process is executed by the CPU 118 of the lens apparatus 100 according to a program.
- an autofocus process for automatically moving the focus lens 36 to a position focused on the subject is started.
- the AF search (focus position detection) of the contrast AF method is performed while moving the focus lens 36 in the direction of the optical axis O, and the lens position (AF absolute position) corresponding to the AF search result.
- the focus lens 36 is moved to.
- the CPU 118 performs autofocus using the driver 112 ⁇ / b> F of the focus lens 36 and the AF unit 115.
- steps S62 to S78 are performed.
- the processing of these steps S62 to S78 is the same as that of steps S2 to S18 in the first embodiment shown in FIG. 3, and the description thereof is omitted here.
- step S56 It is determined whether or not the focus ring 3 has been rotated from the start of the autofocus process in step S54 to the end of autofocus in step S58 (step S56). If the focus ring 3 rotates during execution of the autofocus process, the autofocus operation is stopped (step S60), and an absolute position corresponding to the rotation position of the focus ring 3 is acquired (step S64). The focus lens 36 is moved to an absolute position (MF absolute position) corresponding to the rotational position (step S66).
- the switch parts can be reduced from the outer periphery of the lens barrel 1.
- the sliding amount of the touch sensor 2 based on the absolute position (AF absolute position) determined by autofocus.
- the focus lens is moved to the relative position corresponding to (steps S76 and S78). That is, the combination of the AF by touch and the relative position instruction by sliding after AF enables the operator to adjust the focus easily and as intended. Further, even when autofocusing starts, the focus ring 3 is rotated to stop the autofocusing operation, and the focus lens 36 is moved to the absolute position (MF absolute position) designated by the focus ring 3. Can do.
- FIG. 6 is a flowchart showing the flow of the fourth embodiment of the lens control process. This process is executed by the CPU 118 of the lens apparatus 100 according to a program.
- steps S122 to S140 are the same as steps S22 to S40 in the second embodiment shown in FIG. 4, and description thereof will be omitted below. Further, in FIG. 6, steps S52, S54, and S58 are the same processes as the steps with the same reference numerals in the third embodiment shown in FIG.
- step S52 when it is determined that the touch sensor 2 detects a touch and is not slid (Yes in step S52), whether or not a certain time has elapsed after the finger is released after sliding for relative position indication. (Step S53), and if the predetermined time has not yet elapsed (Yes in step S53), the process returns to step S52. That is, autofocus is executed only when a predetermined time has elapsed since it was detected that the finger has moved away from the touch sensor 2 after sliding for relative position indication (step S54).
- FIG. 7 is a side view showing an example of the lens device 100 in the case where an annular convex portion 5 is provided between the focus ring 3 and the touch sensor 2 in the optical axis O direction.
- the same reference numerals are given to the components shown in FIG. 1, and only differences from the case of FIG. 1 will be described below.
- the width d and the height h in the optical axis O direction of the convex portion 5 are not particularly limited, but are set so that the finger does not touch both the touch sensor 2 and the focus ring 3. From the viewpoint of not touching both, it is preferable that the width d and the height h are large, but from the viewpoint of alternately operating both, the operability is hindered if the width d and the height h are too large.
- the width d is about the width of the finger, and the height h is about 2 to 3 mm.
- the CPU 118 of the lens apparatus 100 does not react even if it detects a touch and a slide at one place of the touch sensor 2 and detects a touch and a slide simultaneously at a plurality of places of the touch sensor 2.
- the focus lens may be moved to a relative position corresponding to the sliding amount.
- the focus ring 3 is described as an example in which only the rotation is detected and the touch is not detected.
- the focus ring 3 is not particularly limited to such a case.
- a detecting means for detecting that the finger touches the focus ring 3 is provided and both the focus ring 3 and the touch sensor 2 are touched, (1) both operations are ignored, and (2) the focus ring 3 is You may make it perform any one of giving priority to rotation and (3) giving priority to operation of the touch sensor 2.
- a means for detecting whether or not the focus ring 3 is stopped at the restriction end that restricts the rotation range is provided, and it is detected that the touch sensor 2 is touched while the focus ring 3 is stopped at the restriction end.
- the ratio of the moving amount of the focus lens 36 to the sliding amount may be reduced. That is, fine adjustment may be facilitated by sliding with the touch sensor 2 at the rotation end of the focus ring 3.
- the touch sensor 2 is not specifically limited to what can detect multi-touch (touch of several places). .
- the present invention can also be applied to a touch sensor 2 that is not multi-touch.
- the touch sensor 2 may be assigned to the touch sensor 2.
- a touch operation different from the AF start is accepted.
- the functions can be classified according to different number of touches, sliding of different trajectories (for example, a circle), different sliding directions, and the like. It is also possible to perform zooming and iris operation with the touch sensor 2 and omit the zoom ring 4 and the iris ring 6.
- Invention 1 A lens barrel body that holds a focus lens so as to be movable in the optical axis direction, a focus ring that is provided on the outer periphery of the lens barrel body with a rotation range restricted, and the rotation range of the focus ring An absolute position corresponding to the rotational position detected by the rotational position detected by the rotational position detector, a touch sensor provided on the outer periphery of the lens barrel body, and a rotational position detected by the rotational position detector A control means for performing absolute position control for moving the focus lens, and relative position control for moving the focus lens to a relative position corresponding to a sliding amount in a circumferential direction on the outer peripheral surface of the touch sensor. apparatus.
- Invention 2 The lens device according to Invention 1, wherein an annular convex portion is provided between the focus ring and the touch sensor in the optical axis direction.
- the control means has an autofocus control function for automatically moving the focus lens to a position focused on a subject, and when the touch is detected by the touch sensor, the autofocus operation of the focus lens
- Invention 4 When the slide is detected by the touch sensor after the end of the autofocus, the control means responds to the amount of sliding by the touch sensor based on the absolute position determined by the autofocus.
- Invention 5 When the rotation of the focus ring is detected during execution of the autofocus, the control means stops the autofocus operation and an absolute position corresponding to the rotation position of the focus ring.
- Invention 6 The lens device according to Invention 4 or 5, wherein the control means suspends execution of autofocus even if a touch is detected again by the touch sensor until a predetermined time elapses after the finger is removed from the touch sensor. .
- the control means performs coarse adjustment of the position of the focus lens according to the rotation of the focus ring, and finely adjusts the position of the focus lens according to the sliding amount of the touch sensor.
- the lens device according to any one of 6 to 6.
- Invention 8 When the rotation of the focus ring and the sliding with the touch sensor are performed simultaneously, the control means gives priority to the rotation of the focus ring over the sliding with the touch sensor, and The lens apparatus according to any one of inventions 1 to 7, wherein the focus lens is moved to an absolute position designated by a focus ring.
- Invention 9 When the rotation of the focus ring and the sliding with the touch sensor are performed simultaneously, the control means gives priority to the sliding with the touch sensor over the rotation of the focus ring, The lens device according to any one of inventions 1 to 7, wherein the focus lens is moved to a relative position instructed by a touch sensor.
- the control means suspends the movement of the focus ring to the absolute position even if the rotation of the focus ring is detected until a predetermined time elapses after the finger is removed from the touch sensor.
- the lens device according to any one of 9.
- Invention 11 In any one of Inventions 1 to 10, the control means moves the focus lens to a relative position corresponding to the amount of sliding when simultaneously detecting touch and sliding at a plurality of locations of the touch sensor. The lens device described.
- Invention 12 The lens device according to any one of Inventions 1 to 11, wherein the touch sensor has an annular shape and is provided endlessly on an outer peripheral portion of the barrel main body.
- Invention 13 A lens barrel body holding a focus lens so as to be movable in the optical axis direction, a focus ring provided with a rotation range restricted on an outer peripheral portion of the lens barrel body, and the rotation range of the focus ring An absolute position corresponding to the rotation position detected by the rotation position detection unit using a rotation position detection unit for detecting the rotation position in the lens and a touch sensor provided on the outer periphery of the lens barrel body
- Invention 14 to Invention 24 Focus control methods corresponding to Invention 2 to Invention 12, respectively.
- 1 fixed ring (lens barrel), 2: touch sensor, 3: focus ring, 4: zoom ring, 6: iris ring, 32: zoom lens, 36: focus lens, 40: iris, 100: lens device, 115 : AF unit, 118: CPU of the lens apparatus, 200: photographing unit
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Abstract
Description
Claims (17)
- フォーカスレンズを光軸方向に移動可能に保持した鏡胴本体と、
前記鏡胴本体の外周部に回動範囲が規制されて設けられたフォーカスリングと、
前記フォーカスリングの前記回動範囲内での回動位置を検出する回動位置検出部と、
前記鏡胴本体の外周部に設けられたタッチセンサと、
前記回動位置検出部によって検出された回動位置に対応する絶対位置に前記フォーカスレンズを移動させる絶対位置制御、及び前記タッチセンサの外周面上における周回り方向の摺動量に対応する相対位置に前記フォーカスレンズを移動させる相対位置制御を行う制御手段と、
を備えたレンズ装置。 - 光軸方向における前記フォーカスリングと前記タッチセンサとの間に環状の凸部を設けた請求項1に記載のレンズ装置。
- 前記制御手段は、前記フォーカスレンズを自動的に被写体に合焦した位置に移動させるオートフォーカス制御機能を有し、前記タッチセンサでタッチが検出されたとき、前記フォーカスレンズのオートフォーカス動作を開始する請求項1または2に記載のレンズ装置。
- 前記制御手段は、前記オートフォーカスの終了後、前記タッチセンサで摺動が検出されたとき、前記オートフォーカスで決定される絶対位置を基準にして前記タッチセンサでの摺動量に対応する相対位置に前記フォーカスレンズを移動させる請求項3に記載のレンズ装置。
- 前記制御手段は、前記オートフォーカスの実行中に、前記フォーカスリングの回動が検出されたとき、前記オートフォーカスの動作を停止して、前記フォーカスリングの回動位置に対応する絶対位置に前記フォーカスレンズを移動させる請求項3または4に記載のレンズ装置。
- 前記制御手段は、前記タッチセンサから指が離れて一定時間が経過するまで、前記タッチセンサで再びタッチを検出してもオートフォーカスの実行を保留する請求項4に記載のレンズ装置。
- 前記制御手段は、前記フォーカスリングの回動に応じて前記フォーカスレンズの位置の粗調整を行い、前記タッチセンサでの摺動量に応じて前記フォーカスレンズの位置の微調整を行う請求項1から6のうちいずれか1項に記載のレンズ装置。
- 前記制御手段は、前記フォーカスリングの回動と前記タッチセンサでの摺動とが同時に行なわれたとき、前記タッチセンサでの摺動よりも前記フォーカスリングの回動を優先し、前記フォーカスリングによって指示された絶対位置に前記フォーカスレンズを移動させる請求項1から7のうちいずれか1項に記載のレンズ装置。
- 前記制御手段は、前記フォーカスリングの回動と前記タッチセンサでの摺動とが同時に行なわれたとき、前記フォーカスリングの回動よりも前記タッチセンサでの摺動を優先し、前記タッチセンサによって指示された相対位置に前記フォーカスレンズを移動させる請求項1から7のうちいずれか1項に記載のレンズ装置。
- 前記制御手段は、前記タッチセンサから指が離れて一定時間が経過するまで、前記フォーカスリングの回動が検出されても前記フォーカスリングの絶対位置への移動を保留する請求項1から9のうちいずれか1項に記載のレンズ装置。
- 前記制御手段は、前記タッチセンサの複数箇所で同時にタッチ及び摺動を検出したとき、その摺動量に応じた相対位置に前記フォーカスレンズを移動させる請求項1から10のうちいずれか1項に記載のレンズ装置。
- 前記タッチセンサは、前記鏡筒本体の外周部に環状かつエンドレスに設けられている請求項1から11のうちいずれか1項に記載のレンズ装置。
- フォーカスレンズを光軸方向に移動可能に保持した鏡胴本体と、前記鏡胴本体の外周部に回動範囲が規制されて設けられたフォーカスリングと、前記フォーカスリングの前記回動範囲内での回動位置を検出する回動位置検出部と、前記鏡胴本体の外周部に設けられたタッチセンサとを用い、
前記回動位置検出部によって検出された回動位置に対応する絶対位置に前記フォーカスレンズを移動させる絶対位置制御、及び前記タッチセンサの外周面上における周回り方向の摺動量に対応した相対位置に前記フォーカスレンズを移動させる相対位置制御を行うフォーカス制御方法。 - 前記タッチセンサでタッチが検出されたとき、前記フォーカスレンズのオートフォーカス動作を開始する請求項13に記載のフォーカス制御方法。
- 前記フォーカスリングの回動に応じて前記フォーカスレンズの位置の粗調整を行い、前記タッチセンサでの摺動量に応じて前記フォーカスレンズの位置の微調整を行う請求項13または14に記載のフォーカス制御方法。
- 前記フォーカスリングの回動と前記タッチセンサでの摺動とが同時に行なわれたとき、前記タッチセンサでの摺動よりも前記フォーカスリングの回動を優先し、前記フォーカスリングによって指示された絶対位置に前記フォーカスレンズを移動させる請求項13から15のうちいずれか1項に記載のフォーカス制御方法。
- 前記制御手段は、前記フォーカスリングの回動と前記タッチセンサでの摺動とが同時に行なわれたとき、前記フォーカスリングの回動よりも前記タッチセンサでの摺動を優先し、前記タッチセンサによって指示された相対位置に前記フォーカスレンズを移動させる請求項14から16のうちいずれか1項に記載のフォーカス制御方法。
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EP12763595.1A EP2693248B1 (en) | 2011-03-28 | 2012-03-13 | Lens device and method of controlling focus |
CN201280015399.XA CN103460102B (zh) | 2011-03-28 | 2012-03-13 | 镜头装置和控制聚焦的方法 |
US14/040,794 US9360654B2 (en) | 2011-03-28 | 2013-09-30 | Lens device and method of controlling focus |
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JP6446597B2 (ja) | 2016-03-31 | 2019-01-09 | 富士フイルム株式会社 | レンズ装置、可動レンズ操作装置、レンズ駆動方法、レンズ駆動プログラム |
CN108375820A (zh) * | 2018-03-15 | 2018-08-07 | 深圳市激埃特光电有限公司 | 一种用于相机镜头双色镀金焦环 |
JP7130412B2 (ja) * | 2018-04-04 | 2022-09-05 | キヤノン株式会社 | 制御装置、光学機器、撮像装置および制御方法 |
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JPWO2012132868A1 (ja) | 2014-07-28 |
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