Class / Patent application number | Description | Number of patent applications / Date published |
396505000 | Diaphragm | 50 |
20080199176 | DIAPHRAGM DRIVING DEVICE OF A DIGITAL CAMERA SYSTEM USING AN INTERCHANGEABLE LENS - A diaphragm driving device is provided in a camera body of a digital camera to which an interchangeable lens is detachably attached, the interchangeable lens including a diaphragm mechanism having a diaphragm control bar for changing an aperture size by a rotation of the diaphragm control bar about an optical axis. The camera body includes a diaphragm-driving slide plate which engages with the diaphragm control bar when the interchangeable lens is attached to the camera body; a diaphragm drive motor which rotates in both forward and reverse directions for moving the diaphragm-driving slide plate step wise in accordance with object brightness information of an object image formed through the interchangeable lens; and a converting mechanism for converting the rotation of the diaphragm drive motor in the both directions into a force for moving the diaphragm-driving slide plate. | 08-21-2008 |
20080260376 | APERTURE MECHANISM, OPTICAL APPARATUS AND MANUFACTURING METHOD THEREOF - To provide an aperture mechanism and an optical apparatus which are reduced in size. The aperture mechanism comprising: a driving member to be driven in accordance with an aperture operation; an aperture member having an aperture to be driven by the driving member; a first engagement section connected to one of the driving member and the aperture member; a second engagement section connected to another one of the driving member and the aperture member and engaged with the first engagement section; and a biasing member connected to at least one of the driving member and the aperture member to provide a bias in a direction in which the first engagement section and the second engagement section are facing to each other. | 10-23-2008 |
20090028546 | CAMERA MODULE - A camera module including a lens system with at least one lens is capable of capturing a still image and a moving picture. The camera module includes a housing containing the lens system with an opening on a surface thereof facing an object of the lens system. An aperture diaphragm can be selectively positioned between the object and the lens system for a still image and/or a moving picture. | 01-29-2009 |
20110019993 | CAMERA WITH ELECTROACTIVE TELESCOPIC SHUTTER MODULE - A camera includes a lens module, an image sensor, and a shutter module. The centers of the image sensor and the shutter module are on an optical axis of the lens module. The shutter module includes a frame and an electroactive telescopic unit having a first electroactive polymer layer, two compliant electrode layers, and two second electroactive polymer layers. The center of the electroactive telescopic unit has a through hole through the first electroactive polymer layer, the two compliant electrode layers, and the two second electroactive polymer layers. A central axis of the through hole and the optic axis of the lens module are coaxial. The electroactive telescopic unit is contractible or expandable along a direction perpendicularly to the optic axis of the lens module in response to a change in a voltage applied between the two compliant electrode layers. | 01-27-2011 |
20110091198 | APERTURE UNIT AND LENS BARREL INCLUDING THE SAME - An aperture unit includes three or more diaphragm blades, a base plate that supports the diaphragm blades, a drive lever connected to the diaphragm blades, and an aperture motor that rotates the drive lever, wherein, in a range from a reference aperture value to a specific aperture value, a polygonal aperture is formed by aperture edges of two or more of the three or more diaphragm blades that linearly move in a first direction and an aperture edge of at least one of the three or more diaphragm blades that linearly moves in a second direction opposite to the first direction, and wherein, in a range from the specific aperture value to a closed aperture state, an aperture is formed by aperture edges of two diaphragm blades that move in opposite directions. | 04-21-2011 |
20110170852 | BLADE DRIVE DEVICE AND OPTICAL DEVICE - A blade drive device includes: a board including an optical path opening; a blade including a plurality of openings; a first drive source that swings the blade to move toward and away from the optical path opening; and a second drive source that changes a position of a swinging fulcrum of the blade relative to the board. The first drive source includes a first rotor and a first transmitting portion transmitting a rotation of the first rotor to the blade. The second drive source includes a second rotor and a second transmitting portion transmitting a rotation of the second rotor to the blade. The blade includes a cam slot engaging the first transmitting portion and a fitting hole into which the second transmitting portion slidably fits. | 07-14-2011 |
20120183288 | Image Capture Lens, Wafer Lens, Wafer Lens Laminate, Method of Manufacturing Image Capture Lens, Image Capture Lens Intermediate Product, Method of Manufacturing Image Capture Lens Intermediate Product - An image capture lens is equipped with: a diaphragm which is formed on a substrate, adjusts a light quantity, and has a predetermined aperture; an inorganic or organic adhesion layer formed on the substrate such that the diaphragm is exposed; and a resin part which has a lens part made from a curable resin. The resin part is directly joined to the inorganic or organic adhesion layer and diaphragm. The surface of the substrate on which the diaphragm is formed is subjected to a modification treatment so that a water contact angle is within a range of 3° to 30°. | 07-19-2012 |
20120201530 | LIGHT QUANTITY ADJUSTMENT DEVICE AND IMAGE PICKUP APPARATUS INCLUDING SAME - A light quantity adjustment device includes: an aperture mechanism that varies an aperture opening through drive of aperture blades to restrict a quantity of light that passes through the aperture opening; and an ND filter inserted in and removed from an optical path on a light incident side or a light exit side of the aperture opening. The ND filter has a distribution of transmittance in which the transmittance differs in a direction of interposition of the ND filter in the optical path of the aperture opening, and includes a recessed portion formed by recessing a center portion of a distal-end region of the ND filter on a side of interposition in the optical path of the aperture opening in a direction opposite the direction of interposition. | 08-09-2012 |
20120251095 | BLACK HEAT RESISTANT LIGHT SHADING FILM AND PRODUCTION METHOD THEREOF, AND, DIAPHRAGM, LIGHT INTENSITY ADJUSTING MODULE AND HEAT RESISTANT LIGHT SHADING TAPE USING THE SAME - A black heat resistant light shading film usable as a shutter blade or a fixed diaphragm, a diaphragm blade for a diaphragm device for a light intensity adjusting module. The black heat resistant light shading film is formed with fine unevennesses at the both surfaces of a resin film having a heat resistance of 155° C. or higher. The resin film is a black film containing a black pigment and an inorganic filler and thickness of the black heat resistant light shading film is 25 μm or less. Surface roughness (arithmetic average height Ra) of the both surfaces is 0.2 to 2.2 μm and an average optical density, which is an index of light shading performance of light in a wavelength region of 380 to 780 nm, is 3.5 or higher. | 10-04-2012 |
20120288271 | APERTURE STOP MECHANISM WHICH DRIVES TWO APERTURE BLADES AND ADJUSTS AN APERTURE AREA OF LIGHT PASSAGE OPENING INTO WHICH LIGHT FOR IMAGING IS INTRODUCED - In an aperture stop mechanism, two aperture blades are arranged so as to overlap each other and form a single light passage opening into which light utilized in imaging is introduced with the respective edge portions of the two aperture blades. A drive mechanism drives the two aperture blades in directions different from each other, whereby the aperture area of the light passage opening is changed within a predetermined range. When the two aperture blades are located at a minimum aperture position where the aperture area of the light passage opening is minimum within the predetermined range, the two aperture blades are provided so that the single light passage opening surrounded by boundaries including eight straight lines is constituted of the respective edge portions of the two aperture blades. | 11-15-2012 |
20120328281 | LIGHT SCREENING APPARATUS AND FABRICATING METHOD THEREOF - A light screening apparatus and a method of fabricating the same are provided. The light screening apparatus includes: a base plate including a first electrode; at least one material layer on the base plate; a rollup blade including a second electrode and configured to be disposed corresponding to a light transmitting portion of the base plate; a driving unit configured to be electrically connected to the first electrode and the second electrode; and a sticking prevention structure which prevents sticking between the rollup blade and the material layer. The sticking prevention structure may refer to a surface structure of at least one of the rollup blade and the material layer or a sticking prevention layer or a sticking prevention pattern which is additionally formed on at least one of an outer circumference surface of the rollup blade and a surface of the material layer. | 12-27-2012 |
20130163979 | DIAPHRAGM DEVICE OF LENS - Diaphragm device of a lens includes a click mechanism with a locking portion disposed in one of a stationary tube and a diaphragm setting ring, the locking portion having an elastically supported locking element, and an entrapment body disposed on the other of the stationary tube and the diaphragm setting ring. The entrapment body having an entrapment surface wherein a plurality of entrapment portions are formed for catching the locking element pressed against the entrapment surface at one of a plurality of aperture numbers when the diaphragm setting ring is turned. A mode select mechanism for switching between a click mode wherein the locking element is pressed against the entrapment surface and a non-click mode wherein a click function is deactivated with the locking element and the entrapment surface separated from each other by altering the position of at least one of the locking portion and the entrapment body. | 06-27-2013 |
20130188945 | Optical System for Improved FTM Imaging - The invention relates to an optical imaging system comprising: an external lens structure ( | 07-25-2013 |
20140255019 | LIGHT QUANTITY ADJUSTING DEVICE AND IMAGING APPARATUS - Provided is a light quantity adjusting device that adjusts size of a diaphragm opening centering on an optical axis of an optical system that includes: a first pair of a first and a second rectilinear diaphragm blades slidably arranged at positions opposing across the diaphragm opening in a direction moving to and from the optical axis on a plane orthogonal to the optical axis; a second pair of a third and a fourth rectilinear diaphragm blades slidably arranged at positions opposing across the diaphragm opening, in a direction orthogonal the first pair of blades move, and in a direction to and from the optical axis; and a driving unit that adjusts a size of the diaphragm opening by sliding the blades. The driving unit drives the blades so as to adjustably form and maintain a shape of an opening perimeter of the diaphragm opening in nearly similar shapes. | 09-11-2014 |
20150071629 | LIGHT CONTROL APPARATUS - Incident light that passes through the optical aperture is controlled by pivoting the light control unit ( | 03-12-2015 |
20160139490 | DIAPHRAGM DEVICE AND OPTICAL INSTRUMENT - A diaphragm device of the present invention includes: a base plate having an aperture portion; a blade being supported by the base plate to be able to open and close the aperture portion; a drive ring being formed so as to surround the perimeter of the aperture portion, the drive ring being configured to drive the blade to open and close; a supporting pin pivotably supporting the blade being provided on the drive ring; and an engaging pin engaging with the blade and causing the blade to open or close in conjunction with the drive ring and the supporting pin, the engaging pin being provided on the base plate on an inner side of the supporting pin in the radial direction of the drive ring. | 05-19-2016 |
396508000 | Dynamo-electric actuator | 15 |
20080212959 | Image Photographing Device Including Diaphragm - An image photographing device including a lens holder including a lens group and a coil unit that generates an electromagnetic force, a housing into which the lens holder is movably inserted, including a magnet that faces the coil unit, an image sensor, and a diaphragm formed of nonmetal and attached to the housing and elastically supporting the lens holder. Accordingly, the diaphragm has a predetermined elasticity although not reducing the thickness, the lens holder can properly follow the signal of the coil unit, the image photographing device is highly producible, and the possibility that the diaphragm is plastically deformed is small. Also, the terminal of the coil unit is connected to a separate terminal unit installed outside the diaphragm, such that the material used to form the diaphragm can be selected regardless of the conductivity, and foreign materials, such as, flux, can be prevented from contaminating the inside of the device and degrading the quality of an image. | 09-04-2008 |
20080279546 | Imaging Device and Mobile Radio Communication Terminal - It is possible to realize a small-size imaging device having light quantity control means such as a shutter unit at a low cost. In the imaging device, an imaging element is mounted on a main part ( | 11-13-2008 |
20090003824 | LIGHT CONTROLLING APPARATUS AND OPTICAL APPARATUS - A small-size light controlling apparatus in which, it is not necessary to draw a wire for a diaphragm control, from a diaphragm mechanism, and an optical apparatus in which the light controlling apparatus is used, are provided. The light controlling apparatus includes a substrate having an optical aperture which is fixed, a diaphragm blade which is displaceable, a first magnet which is fixed to the diaphragm blade, and a coil which is disposed around the substrate. An external magnetic field which acts on the first magnet is changed according to an electric power supply to the coil, and the diaphragm blade is displaced by displacing the first magnet according to the change in the external magnetic field. | 01-01-2009 |
20090263120 | DIAPHRAGM DRIVING DEVICE OF A CAMERA SYSTEM USING AN INTERCHANGEABLE LENS - A diaphragm driving device for a camera including a camera body and an interchangeable lens which is detachably attached to the camera body, wherein the interchangeable lens includes a diaphragm mechanism having an in-lens spring device for performing a stop-down operation, the in-lens-spring device having a spring constant. The camera body includes a diaphragm drive mechanism having a diaphragm drive motor and an in-body spring device, both of which are for making the diaphragm mechanism of the interchangeable lens perform the stop-down operation, and
| 10-22-2009 |
20090304378 | LIGHT CONTROLLING APPARATUS - For providing a small-size light controlling apparatus in which a desirable opening and closing operation of a diaphragm blade is possible by driving an ion-conducting actuator by a small voltage, a light controlling apparatus is made to include a substrate in which an optical aperture is formed, a light controlling mechanism which is provided with another optical aperture and a shielding section, an actuator which generates a power which rotates the light controlling mechanism, a controlling mechanism which displaces the actuator, and a transmission member of which, one end is coupled with the light controlling mechanism, and the other end is coupled with the actuator via a coupling member, and which transmits the power of the actuator to the light controlling mechanism. The transmission member, at the time of transmitting the power, widens the displacement of the actuator. | 12-10-2009 |
20100158505 | Diaphragm unit, lens barrel, and imaging apparatus - A diaphragm unit includes: a plate-like base member having an optical path hole formed therein; diaphragm blades overlapping with each other in an optical axis direction of an optical system, being supported by the base member so as to be movable in directions in which the diaphragm blades approach and depart from the optical axis along a plan perpendicular to the optical axis, and forming a diaphragm opening centered on the optical axis inside the optical path hole; and a driving mechanism adjusting the size of the diaphragm opening by moving the diaphragm blades. | 06-24-2010 |
20100158506 | Imaging apparatus - A light quantity adjuster includes: a blade member forming an aperture; a stepping motor that moves the blade member to open/close the aperture; and a control section that controls driving of the stepping motor, and increases a rotational speed of the stepping motor after a resistance acting on the stepping motor changes from static friction to dynamical friction in case of closing the aperture. | 06-24-2010 |
20100329665 | DIAPHRAGM CONTROL APPARATUS OF INTERCHANGEABLE LENS CAMERA - A diaphragm control apparatus in a camera body includes a stepping motor; a lead screw thereof, wherein a slider is driven by the lead screw; a position detector; and a controller. When driving the stepping motor by a predetermined number of steps in a direction to move the slider away from an origin position, the controller detects the slider position before driving the stepping motor stepwise as the origin position via the position detector, and thereafter detects a stepping position of the slider to compare the stepping position with the origin position each time the stepping motor is driven by one step, and counts the number of steps based from the moment at which the stepping position of the slider exceeds a predetermined position in the direction to move the slider away from the origin position against the biasing force of the resilient biaser. | 12-30-2010 |
20110076006 | IMAGING APPARATUS AND METHOD FOR CONTROLLING SAME - In an imaging apparatus including a stepping motor that drives a diaphragm, a favorable moving image exposure control is carried out while reducing electrical power required for holding the diaphragm position. For moving image exposure control, a determination unit determines the presence or absence of the diaphragm driving. When a rotor and the magnetic poles of the stator do not face to each other in the first operation mode, the control unit of a stepping motor drives the rotor to a facing position, and shuts off the current in a coil. When the diaphragm driving does not occur in the second operation mode, the control unit of a stepping motor shuts off the current in the coil at the state where the rotor of the motor and the magnetic poles of the stator face to each other. A holding current to be supplied to the motor is shut off in the first and second operation modes, whereby the lower power consumption can be realized. The program profile of a diaphragm drive method and an exposure control is switched depending on the type of an imaging lens unit, whereby a favorable moving image exposure control can be realized. | 03-31-2011 |
20110150458 | DRIVE MECHANISM, BLADE DRIVE MECHANISM AND OPTICAL DEVICE - A drive mechanism includes: an actuator including a rotor magnetized; a magnetic body, a magnetically attractive force being generated between the magnetic body and the rotor; and a sandwiched member sandwiched between the rotor and the magnetic body. At least one of the magnetic body and the sandwiched member is coupled to the rotor, and the magnetic body and the sandwiched member slidably contact each other. | 06-23-2011 |
20120155851 | LENS BARREL AND IMAGE PICKUP APPARATUS - A lens barrel that is capable of reducing a size and cost by omitting an actuator only for diaphragm blades, and of preventing a change of a diaphragm aperture due to a variation in a part accuracy of a mechanism that drives diaphragm blades. Diaphragm blades have cam engagement parts, respectively. A holding member holds the diaphragm blades so as to be rotatable in directions to open and close an aperture. An energizing member energizes the diaphragm blades in a direction to open or close the aperture. A moving member has cam surfaces that engage with the cam engagement parts, and moves in an optical axis direction to operate the diaphragm blades by cam actions between the cam engagement parts and the cam surfaces against energizing force of the energizing member. Regulation parts regulate the operations of the diaphragm blades by the energizing force of the energizing member. | 06-21-2012 |
20120301133 | LIGHT AMOUNT ADJUSTMENT DEVICE CAPABLE OF ADJUSTING AMOUNT OF LIGHT AT HIGH SPEED AND WITH ACCURACY - A light amount adjustment device capable of adjusting the amount of light at high speed and with accuracy. When a rotary plate is rotatively driven by a motor, diaphragm blades disposed between the rotary plate and a cam plate are rotatively driven by the rotary plate in a plane perpendicular to an optical axis. When a coil disposed on the cam plate through aback yoke is energized and a magnetic field is generated around the coil, a magnetic attracting force is applied to the rotary plate rotating under the magnetic field, whereby the rotary plate is displaced toward the back yoke and frictions between the diaphragm blades and the rotary plate, etc. increase, so that rotations of the diaphragm blades are decelerated. | 11-29-2012 |
20130039641 | APERTURE DEVICE AND OPTICAL INSTRUMENT - An aperture device includes: a board including an opening; a step motor capable of stopping every predetermined rotational angle; an output member including first and second pins and rotating a predetermined range by the step motor; and first and second blades driven by the output member with first and second blades respectively engaging with the first and second pins, linearly moving in opposite directions, and covering the opening to adjust an aperture area of the opening; wherein an X-axis indicates a phantom line passing through a rotational center of the output member and extending in the moving directions of the blades, and when the aperture area is a minimum, an angle between a directional line, which connects the rotational center with the first pin, and the X-axis is from minus 20 degrees to plus 30 degrees. | 02-14-2013 |
20130121681 | CAMERA MODULE - There is provided a camera module including: a first diaphragm opened and closed according to a first electrical signal and including a first light quantity adjustment hole having a first size when being closed; a second diaphragm opened and closed according to a second electrical signal and including a second light quantity adjustment hole having a second size different from the first size when being closed; and a control unit electrically connected to the first and second diaphragms and controlling the first and second electrical signals transmitted to the first and second diaphragms, respectively. | 05-16-2013 |
20140169780 | LIGHT CONTROL APPARATUS - The apparatus includes an upper substrate and a lower substrate, each of which has an optical aperture, at least one light control unit, a spacer arranged between the upper substrate and the lower substrate to provide a space in which the light control unit can move, and a drive unit arranged on the upper substrate to drive the light control unit. The drive unit includes a magnet arranged at a center of rotation of the light control unit and an electromagnetic drive source including a coil core and a winding coil, the coil core being arranged in such a way as to be opposed to the magnet. A positioning member is provided on the upper substrate. The distance between the coil core and the magnet is kept constant by the positioning member. | 06-19-2014 |
396510000 | Plural pivoted blades | 19 |
20080199177 | IRIS DIAPHRAGM MECHANISM - A fixed aperture and a fixed shaft are formed in a fixed member. A drive shaft is formed in a driving member. A fixed shaft hole and a drive shaft hole are formed in a plurality of diaphragm blades, and the plurality of blades is connected to the fixed shaft and the drive shaft. An aperture diameter of a variable aperture AP which is an aperture zone formed by the plurality of diaphragm blades is controlled by rotating relatively the driving member with respect to the fixed member. Here, the diaphragm blades are disposed in a plurality of layers, and a part of) the diaphragm blades belonging to an adjacent layer are disposed to be overlapping with respect to an optical axis direction. | 08-21-2008 |
20080205880 | DIAPHRAGM BLADE, METHOD OF MANUFACTURING THE SAME, AND LIGHT QUANTITY CONTROLLER HAVING THE SAME - A diaphragm blade includes a light-shielding, thin-plate blade base made of laser absorptive resin to regulate an aperture, and a first shaft portion made of laser transmissive resin and provided on one surface of the blade base. The first shaft portion includes a cylindrical member which is welded to the protruding weld portion, a protruding weld portion integrally formed with the blade base, and a recess formed at the back side of the protruding weld portion. The cylindrical member has a first recess defined at one end thereof near the blade base and coming into contact with the protruding weld portion, and a second recess defined at the other end. A contact surface of the protruding weld portion is melted with laser beam transmitted through the cylindrical member, whereby the protruding weld portion is welded to the cylindrical member. | 08-28-2008 |
20090116832 | Light amount adjuster, lens barrel, and image pickup device - A light amount adjuster for adjusting a size of a diaphragm aperture on an optical axis of an optical system, includes: a pair of straight moving diaphragm blades so provided at a portion to which the diaphragm aperture is opposed as to slide along a plane orthogonal to the optical axis in a direction of getting close to or separated from the optical axis; a pair of swing diaphragm blades so provided at a portion to which the diaphragm aperture is opposed as to swing about a center axis in parallel to the optical axis in a direction of getting close to or separated from the optical axis; and a drive mechanism for adjusting the size of the diaphragm aperture by sliding the pair of straight moving diaphragm blades and by allowing the pair of swing diaphragm blades to swing. | 05-07-2009 |
20090232491 | LIGHT QUANTITY ADJUSTING APPARATUS, IMAGE PICKUP APPARATUS AND OPTICAL APPARATUS - At least one exemplary embodiment is directed to a light quantity adjusting apparatus that can include a first blade member configured to be driven by a drive source, such as a motor, and a second blade member whose movement is configured to be related to the movement of the first blade member. | 09-17-2009 |
20090269048 | BLADE DRIVE DEVICE AND OPTICAL DEVICE - A blade drive device includes: a board having an opening; a blade for adjusting an amount of the opening; and first and second drive rings having a support structure for commonly supporting the blade for swinging, rotating in an identical direction with a given speed difference, and being arranged in a same plane. | 10-29-2009 |
20100021157 | VANE DRIVING DEVICE - A vane driving device includes: a board having an opening; a blade changing an area of the opening, having a cam slot, and being elastically deformable; and a drive member transmitting a drive force from a drive source to the blade, and having a drive pin engaging the cam slot. The drive member is stopped by contacting the drive pin with at least one of end portions of the cam slot, when the blade is located in a fully opened state or in a small aperture state. | 01-28-2010 |
20100158507 | Diaphragm unit, light intensity adjusting device, lens barrel, and imaging apparatus - A diaphragm unit includes: a pair of straight-moving diaphragm blades and a pair of swing diaphragm blades overlapping with each other in an optical axis direction of an optical system and forming a diaphragm opening centered on the optical axis by moving in directions in which the diaphragm blades get close to and apart from the optical axis along a plane perpendicular to the optical axis; a receiving member receiving the pair of straight-moving diaphragm blades and the pair of swing diaphragm blades; and a diaphragm driving mechanism adjusting the size of the diaphragm opening by moving the diaphragm blades. The receiving member has a pair of side surfaces facing each other in the optical axis direction. One and the other of the straight-moving diaphragm blades and one and the other of the swing diaphragm blades are disposed on one and the other of the side surfaces, respectively. | 06-24-2010 |
20100220993 | Camera diaphragm device - A camera diaphragm device in which two diaphragm blades, that is, first and second diaphragm blades having respective first and second diaphragm aperture portions whose diameters differ from each other is provided. The diaphragm blades are mounted to blade mounting shafts provided close to each other and in a standing manner, and are separately reciprocatingly rotated by driving pins of respective rotors. When the diaphragm device is set in a minimum diaphragm aperture control state, not only is the first diaphragm blade having the first aperture portion for restricting the minimum diaphragm aperture moved to an aperture portion, but also the second diaphragm blade having the second aperture portion for restricting an intermediate diaphragm aperture is moved to the aperture portion from the same direction. An area of the aperture portion that cannot be covered by only the first diaphragm blade is covered by the second diaphragm blade. | 09-02-2010 |
20110222845 | LIGHT AMOUNT ADJUSTING DEVICE AND IMAGE CAPTURE APPARATUS - A light amount adjusting device includes: a cover plate having a light-passing hole; a first separator being sheet-shaped and having a hole; a second separator being elastically deformable and sheet-shaped, positioned on a side opposite to the cover plate with the first separator therebetween, and having a hole; a first light amount adjusting blade movable between the cover plate and the first separator; a second light amount adjusting blade being movable between the first separator and the second separator; a base body to which the cover plate, the first separator, and the second separator are mounted, having a throughhole and mounting grooves, the throughhole being formed to have a diameter larger than a diameter of the hole of the second separator, the mounting grooves allowing the second separator to be mounted therein and being opened toward the throughhole. | 09-15-2011 |
20120057859 | LIGHT QUANTITY ADJUSTMENT APPARATUS AND PHOTOGRAPHING APPARATUS INCLUDING THE SAME - A light quantity adjustment apparatus includes a support plate with a first through hole, a rotation plate with a second through hole corresponding to the first through hole and rotatable with respect to the support plate, 2D iris plates rotatably connected to the support plate so as to move between a location in which the first through hole is completely opened and another location in which the first through hole is completely closed, two 3D iris plates each having one end rotatably connected to the support plate and another end engaged with the rotation plate, a shading plate, and a shading plate driving unit. The 2D iris plates adjust an open area of the first through hole. The two 3D iris plates move between a retreat location away from the first through hole and a photographing location where a first photographing hole and a second photographing hole are formed. | 03-08-2012 |
20120321293 | CAMERA LENS - A compact camera lens composed of the following five lenses in this sequence proceeding from the object side: a first positive meniscus lens, wherein the concave surface of the first positive meniscus lens faces away from the object side; a second negative lens, wherein the object-side surface of the second negative lens is concave; a third positive lens, wherein the image-side surface of the third positive lens is convex; a fourth biconvex lens; and a fifth negative lens. | 12-20-2012 |
20130279897 | RESTRICTING BLADE, LIGHT QUANTITY ADJUSTING DEVICE, OPTICAL APPARATUS, AND METHOD FOR MANUFACTURING RESTRICTING BLADE - Provided is a restricting blade | 10-24-2013 |
20140212123 | LIGHT AMOUNT ADJUSTING APPARATUS, LENS BARREL, AND IMAGING APPARATUS - Provided is a light amount adjusting apparatus wherein a base member has a plurality of supporting parts for supporting the plurality of light amount adjusting blades and a second contact part is located outside a circle extending through the plurality of supporting parts, wherein a contact part between the second contact part and a first contact part is constituted at the other surface of the base member with respect to a surface having a jointing part between a blade driving member and the base member, and wherein, when the blade driving member is pivoted in the circumferential direction of an opening, a part of the blade driving member overlaps at least one of the supporting parts for supporting the light amount adjusting blades at a position offset in a direction parallel to the center axis of the opening. | 07-31-2014 |
20150037024 | MEMS IRIS DIAPHRAGM-BASED FOR AN OPTICAL SYSTEM AND METHOD FOR ADJUSTING A SIZE OF AN APERTURE THEREOF - A MEMS iris diaphragm ( | 02-05-2015 |
20150043903 | STOP APPARATUS, AND LENS APPARATUS AND IMAGE PICKUP APPARATUS HAVING THE SAME - A stop apparatus includes a stop operation member, a plurality of stop blades, each of which is provided with a pivot and a driving pin, a blade supporter that supports the stop blades in such a way that the stop blades are rotatable about the pivots of the respective stop blades, a first cam member provided with a first cam groove with which the driving pins of the respective stop blades engage, a second cam member provided with a second cam groove having a shape different from the first cam groove, and a driving force transmission member that transmits rotational driving force of the stop operation member to the second cam member. At least one of the driving pins engages with both the first cam groove and the second cam groove. | 02-12-2015 |
20160139491 | DIAPHRAGM DEVICE AND OPTICAL INSTRUMENT - A diaphragm device of the present invention includes: a base plate having an aperture portion; a first blade being placed on a plane of the base plate and supported by the base plate to be able to open and close the aperture portion; a second blade being placed on the same plane of the base plate as the first blade, and supported by the base plate to be able to open and close the aperture portion; and a drive ring being formed so as to surround the perimeter of the aperture portion, the driving ring being configured to drive the first blade and the second blade to open and close, wherein the first blade and the second blade perform mutually different actions based on an operation of the drive ring. | 05-19-2016 |
20160161829 | STOP MECHANISM, LENS APPARATUS USING THE SAME, AND IMAGE PICKUP APPARATUS - A stop mechanism, including: diaphragms; a reception receiving the diaphragms; a cam rotating the diaphragms to change an aperture diameter; and an interlocking arm interlocking with rotation of the cam and arranged on a radially outer side of the cam to rotate the cam from an outside of the stop mechanism. The diaphragms each include: an arc portion defining the aperture diameter and being received in the reception at maximum aperture; and a light-blocking projection formed on the arc portion to block light outside the aperture diameter. The reception includes cutouts for allowing the light-blocking projection to project outside at the maximum aperture. The interlocking arm is located at a position where the light-blocking projection does not overlap in a circumferential direction, and the light-blocking projection moves into the reception while the interlocking arm moves in the circumferential direction in which the aperture diameter is reduced. | 06-09-2016 |
20160178989 | LENS BARREL AND OPTICAL APPARATUS | 06-23-2016 |
20190146125 | DIAPHRAGM APPARATUS, LENS APPARATUS, AND IMAGING APPARATUS | 05-16-2019 |