Class / Patent application number | Description | Number of patent applications / Date published |
396085000 | Power zoom | 22 |
20100195996 | VIBRATION-PROOF LENS UNIT AND IMAGE CAPTURING APPARATUS - Goal: Providing a vibration-proof lens that can restrict an increase in thickness in the direction of the optical axis. | 08-05-2010 |
20100310244 | Exchangeable lens and imaging device - An exchangeable lens includes: a cam member; a plurality of lenses; a lens holding frame; a drive motor; a worm screw; a worm wheel; a planetary roller; a first rotating member; a first bearing seat; a second rotating member; and a second bearing seat. | 12-09-2010 |
20100310245 | LENS DRIVING APPARATUS, IMAGING APPARATUS, AND LENS BARREL AND CAMERA MAIN BODY USED FOR THIS - A lens position calculator is provided that determines a phase of a driving signal as a reference position of an imaging lens when an output value of a position detection sensor reaches a threshold value. The lens position calculator determines a position obtained by performing addition or subtraction on the reference position read out from a reference position storage as a judgment position, detects an output value of the position detection sensor at a timing in synchronization with the driving signal that drives a driver and at the judgment position, and judges whether the output value of the position detection sensor at the judgment position reaches the threshold value or not, so as to determine the reference position again. | 12-09-2010 |
20110097065 | IMAGING APPARATUS AND INTERCHANGEABLE LENS - An imaging apparatus includes a plurality of lenses movable along an optical axis, a plurality of drivers configured to drive the plurality of lenses, respectively, and a synchronizm loss detector configured to detect a loss of synchronizm of one of the plurality of drivers. The one of the plurality of drivers is a driver that drives a lens which is heaviest in the plurality of lenses. | 04-28-2011 |
20110142434 | Camera module having a low-friction movable lens - Systems and methods to achieve an auto-focus camera module having a precise bearing with low friction have been disclosed. Ball bearings are guiding a lens barrel. The balls of the ball bearings are running in guide slots and are held together by ball cages. Creeping of the balls is prevented by a positioning pin being deployed between a fixed part of a carrier of the camera module and a movable part of the lens barrel. | 06-16-2011 |
20120093495 | LENS BARREL - A lens barrel that reinforces a connecting part between a movable lens barrel and a fixed barrel, without requiring a new drive source, is disclosed. The lens barrel includes: a rotary barrel fitted in a fixed barrel; a cam mechanism for connecting the rotary barrel and the fixed barrel; and a ring member. The fixed barrel includes an engagement section and a rotary drive mechanism for revolving the ring member. The rotary drive mechanism locates the ring member to an engagement-enabling position when a connection by the cam mechanism reaches a predetermined position, directing the connection from a first end to a second end of an idle revolving area, the first end continuing to an advancement/retreat movement area; and to a release position, when the connection by the cam mechanism is located at the first end of the idle revolving area. | 04-19-2012 |
20120328276 | LENS BARREL AND CAMERA SYSTEM - A lens barrel includes an operation member adapted to be movable to a first position and a second position and turnable at each of the positions, a turning member adapted to turnably engage with the operation member at the second position, and disengage from the operation member at the first position, a first detection unit adapted to detect a turning position of the turning member configured to turn in engagement with the operation member, a second detection unit adapted to detect a turning amount and a rotational direction of the operation member when the operation member is disengaged from the turning member, and a moving unit adapted to move the focusing lens along the optical axis based on an output from the first detection unit or the second detection unit. | 12-27-2012 |
20130045000 | ACTUATOR AND CAMERA MODULE HAVING SAME - An exemplary actuator includes a base, a stationary frame mounted on the base, a moveable frame received in the stationary frame and supported on the base when the moveable frame is in a lowest position, and a driving unit received in the stationary frame and supported on the base. The moveable frame includes a frame body and a protrusion outwardly protruding from an outer wall of a corner of the frame body. The driving unit includes two parallel piezoelectric plates and two parallel resilient plates. The piezoelectric plates and the resilient plates are connected to each other end-to-end and cooperatively form a receiving hole therebetween. The protrusion is received in the receiving hole. The two resilient plates apply a preload to opposite side surfaces of the protrusion and retain the protrusion in position in the receiving hole. | 02-21-2013 |
20130051780 | INTERCHANGEABLE LENS AND CAMERA BODY - An interchangeable lens mountable to a camera body includes a zoom lens configured to adjust an angle of view of a subject image, a driver configured to move the zoom lens in an optical axis direction, a plurality of operating members configured to generate an operation signal for driving the driver according to operation performed by a user, a communication unit configured to receive, from the camera body, setting information for setting valid/invalid of at least one of the plurality of operating members, and a controller configured to control the driver. The controller drives and does not drive the driver based on the operation signal from the operating member having been set to valid and invalid, respectively, by the setting information received through the communication unit. | 02-28-2013 |
20140161432 | CAMERA MODULE AND LIGHT BLOCKING LAYER FORMING METHOD THEREOF - A camera module according to exemplary embodiments of the present disclosure includes a lens holder configured to support a plurality of sheets of lenses, an actuator configured to be arranged at an upper surface of the lens holder, an outermost lens configured to move along an optical axis by the actuator, and a light blocking layer configured to be positioned on a surface of the outermost lens. | 06-12-2014 |
20140169779 | LENS BARREL - At an inner circumferential surface of a cam frame, second cam grooves and an inner gear are formed. A second lens group frame includes a base, extensions each extending from the base in an optical axis direction, and cam pins each outwardly protruding from a tip end part of a corresponding one of the extensions in a radial direction. In the extension, a stepped part is formed. The stepped part overlaps, when each cam pin moves according to a corresponding one of the second cam grooves, with the inner gear as viewed in the radial direction, and is recessed toward the inside in the radial direction as compared to a tooth tip of the inner gear so as not to overlap with the tooth tip of the inner gear as viewed in a circumferential direction. | 06-19-2014 |
20140328582 | Camera Module And Light Blocking Layer Forming Method Thereof - A camera module according to exemplary embodiments of the present disclosure includes a lens holder configured to support a plurality of sheets of lenses, an actuator configured to be arranged at an upper surface of the lens holder, an outermost lens configured to move along an optical axis by the actuator, and a light blocking layer configured to be positioned on a surface of the outermost lens. | 11-06-2014 |
20150309388 | LENS DRIVING APPARATUS, LENS BARREL AND OPTICAL APPARATUS - The lens driving apparatus includes a lens holding member that holds lens; a rack provided in the lens holding member transmits a motor driving force to the lens holding member; a first guide part that supports the lens holding member to be movable back and forth in an optical axis direction of the optical lens; a second guide part that supports the lens holding part to be movable as a first guide part, farther separated from the rack than the first guide part in a direction orthogonal to the optical axis direction; both contact parts in the lens holding part, with which both guide parts respectively are in contact; and an energizing part that energizes the second contact part at a position separated in the longitudinal direction of the second guide part so as to be in contact with the second guide part. | 10-29-2015 |
20160070153 | EXCHANGEABLE LENS AND CAMERA BODY - An exchangeable lens includes: a mount unit at which a camera body is detachably engaged; a plurality of drive target members, conditions of which change as a drive force is applied thereto; an initialization unit that executes initialization processing for each of the plurality of drive target members; an initialization status transmission unit that transmits initialization statuses, each indicating a status of the initialization processing executed for one of the drive target members, to the camera body via a first transmission path over predetermined first cycles; and a drive condition transmission unit that transmits a drive condition of at least one drive target member among the plurality of drive target members to the camera body via a second transmission path different from the first transmission path over predetermined second cycles different from the predetermined first cycles. | 03-10-2016 |
396086000 | Speed control or step driving | 3 |
20110116778 | ZOOM SWITCH ASSEMBLY, IMAGE PHOTOGRAPHING APPARATUS HAVING THE SAME, AND METHOD OF CONTROLLING ZOOM LENS - A zoom switch assembly for an image photographing apparatus includes a fixing member which includes a flat unit, a rotating member which is mounted rotatably with respect to the fixing member, an electric conductivity unit which is mounted on the rotating member to rotate opposite the flat member, and a position detection pattern which is formed along a rotation trace of the electric conductivity unit on the flat unit of the fixing member, and through which electricity flows selectively according to a rotation angle of the electric conductivity unit. | 05-19-2011 |
20130170822 | IMAGE CAPTURING DEVICE AND AUTOMATIC BACKLASH CORRECTION METHOD THEREOF - The present invention discloses an image capturing device and an automatic backlash correction method, comprising: a group of zoom lenses, a storage module and a processing module. The processing module drives the group of zoom lenses moving to a datum point to get the moving step value. The current backlash value is then calculated according to the moving step value and the predetermined step value. Then, the difference value between the current backlash value and the predetermined step value are stored in the storage module. The processing module determines whether the difference value is within an allowable error range. When the difference value is within the allowable error range, the processing module writes the current backlash value into the storage module to replace the backlash compensation value. Therefore, the backlash compensation value of the image capturing device can be corrected automatically to enhance image quality. | 07-04-2013 |
20220137487 | LENS CONTROL DEVICE AND LENS CONTROL METHOD - A lens control device, comprising a first stepping motor that drives a zoom lens contained in the photographing lens, a second stepping motor that drives a focus lens contained in the photographing lens, and a processor that controls the first stepping motor and the second stepping motor, whereby, within a given section in which the zoom lens and the focus lens are driven, there is a period in which at least one of the first stepping motor and the second stepping motor is driven at a constant rate, and the processor makes a time, required to move the specified section with a specified number of pulses, a specified time. | 05-05-2022 |
396087000 | Having position sensor | 5 |
20100226635 | IMAGE CAPTURE DEVICE WITH ZOOM LENS - An image capture device of the present invention includes: a zoom lens being caused by the operation of the zoom mechanism to move along the optical axis; an information acquisition part which acquires information about the amount of movement determined by the amount of movement of the zoom lens; a power supply part which supplies power to the information acquisition part; a controller which controls power supply; and a state detection part which detects a specific halt state in which the zoom mechanism stops the movement of the zoom lens when the zoom mechanism is in a predetermined operating position, the predetermined operating position being such that the zoom lens hardly changes its position despite the action of external force. The controller stops power supply from the power supply part to the information acquisition part when the state detection part detects the specific halt state. | 09-09-2010 |
20120027392 | THREE-DIMENSIONAL IMAGE PICKUP APPARATUS AND THREE-DIMENSIONAL IMAGE PICKUP METHOD - A three-dimensional image pickup apparatus for capturing a three-dimensional image which includes a left-eye image and a right-eye image includes: a first imaging unit having a first optical system and operable to take the left-eye image; a second imaging unit having a second optical system and operable to take the right-eye image; and a controller operable to control the first imaging unit and the second imaging unit. The first optical system and the second optical system individually include a convergence angle changing unit capable of optically changing a convergence angle and a focal length changing unit capable of optically changing a focal length. The controller, when controlling the focal length changing unit to change the focal length, controls the convergence angle changing unit based on a predetermined constant convergence angle tracking curve to keep the convergence angle constant before and after the change of the focal length. | 02-02-2012 |
20120155845 | IMAGING APPARATUS AND INTERCHANGEABLE LENS - An imaging apparatus includes a plurality of lenses movable along an optical axis, a plurality of drivers configured to drive the plurality of lenses, respectively, and a synchronism loss detector configured to detect a loss of synchronism of one of the plurality of drivers. The one of the plurality of drivers is a driver that drives a lens which is heaviest in the plurality of lenses. | 06-21-2012 |
20140023355 | LENS CONTROL DEVICE AND LENS CONTROL METHOD - A first lens device ( | 01-23-2014 |
20140178058 | DRIVING APPARATUS, AND LENS APPARATUS AND IMAGE PICKUP APPARATUS INCLUDING THE SAME - Provided is a driving apparatus for driving a movable optical member, the driving apparatus being removably attached to a lens barrel, the driving apparatus including: a rotary absolute position detector detecting a position of which the movable optical member, the rotary absolute position detector outputting an output value having a unique value with respect to a rotation angle within a range of a single rotation, and the output value having a point of discontinuity at which the output value is discontinuous every single rotation; and a controller performing boundary processing that handles the output value, corresponding to a driving range of the movable optical member, of the rotary absolute position detector having the point of discontinuity as a continuous value. | 06-26-2014 |