Class / Patent application number | Description | Number of patent applications / Date published |
396176000 | Having flash built into camera | 31 |
20080260372 | Flash Apparatus and Portable Terminal Having the Same - Provided are a flash apparatus and a portable terminal having the same. The flash apparatus includes a main body, a light emitting diode, a lens, a lens housing, and a lens transfer part. The main body has an opening part, and the light emitting diode is disposed in the opening part. The lens is disposed on a light emitting path of the light emitting diode. The lens housing is disposed in the inside of the opening part to fix the lens, and the lens transfer part moves the lens housing in one of an upper direction and a lower direction. | 10-23-2008 |
20090103912 | CAMERA WITH EXTERNAL FLASH UNIT - A camera includes a frame and a flash unit. The frame is provided with a first retainer and a second retainer at two different places thereof. The flash unit is alternatively attached to the two places via one of the first retainer and the second retainer. | 04-23-2009 |
20100129069 | CAMERA DEVICE - An exemplary camera device includes an optical lens module, an image sensor and a light emitting module. The optical lens module is for forming an image of an object on an image plane associated therewith. The image sensor is disposed on the image plane of the optical lens module and for capturing the image formed by the optical lens module. The light emitting module includes a transflective optical element and a light emitting element. The transflective optical element is located between the optical lens module and the image sensor. The light emitting element faces towards the transflective optical element. | 05-27-2010 |
20100166407 | LIGHTING DEVICE, IMAGE PICKUP APPARATUS AND PORTABLE TERMINAL UNIT - A lighting device including a substrate ( | 07-01-2010 |
20100172640 | HANDHELD ELECTRONIC DEVICE AND CAMERA PROVIDING FLASH COMPENSATION OF IMAGES, AND ASSOCIATED METHOD - An improved handheld electronic device and camera apparatus upon which can be executed an improved method enable a modular camera to be used in conjunction with a flash. In one implementation, compensation parameters that are intended for use in a non-flash situation are overwritten with compensation parameters that are configured to compensate for the combined effects of the camera and the flash and are used by an embedded compensation routine executed on the camera. In another implementation, an image signal is processed by the embedded compensation routine using the original compensation parameters, but if it is determined that the image signal is a flash image signal, the image signal is further processed by the embedded compensation routine employing an additional set of parameters which compensate the image signal for the effect of the flash. | 07-08-2010 |
20110052171 | FLASH UNIT AND IMAGING APPARATUS - A flash unit includes a flash device operable to emit flash, a storage member operable to store the flash device, a cover with which the storage member is covered from above, and to which the flash device is attached, a first link member that is turnably connected to the storage member at one end and turnably connected to the cover at another end, and a retaining member. The first link member is stored in the storage member in a lying state when the flash device is not used, and the first link member is adapted to turn about a connection portion of the first link member and the storage member to take a raised up state in which a connection portion of the first link member and the cover is located above the connection portion of the first link member with the storage member when the flash device is used, the cover can turn about the connection portion with the first link member to take the raised up state in which the flash device is raised higher than the connection portion with the first link member, and the retaining member retains the first link member in the raised up state. | 03-03-2011 |
20110064398 | IMAGING APPARATUS - An imaging apparatus includes an image sensor, a display unit configured to display an image acquired from the image sensor, and a control unit configured to perform a live view display of an image of an object on the display unit for a user to observe the object and to perform photographing after a self-timer setting time elapses from when a photographing start operation is performed, wherein the control unit compares, when performing the live view display, time required for charging a flash and the self-timer setting time, and if the self-timer setting time is longer than the time required for charging the flash, the control unit does not cause a charging operation of the flash to be performed before starting to count the self-timer setting time and causes the charging operation of the flash to be performed after starting to count the self-timer setting time. | 03-17-2011 |
20110123184 | CAMERA FLASH, A CAMERA, AND A METHOD OF GENERATING A FLASH - A camera flash comprises a light guide arranged to extract light at least through one surface; and one or more light sources arranged, in use, to emit light into the lightguide. Each light source is an LED or a laser diode. The camera flash is connectable, in use, to drive circuitry, the drive circuitry being for driving the light source(s) to emit a pulse of light. The waveguide spreads out the light from the light source(s), so that a flash of light from the camera flash does not present a safety risk, while minimising loss of the light from the light source(s). The camera flash can thus provide a high overall optical output, spread over an extended area (as defined by the waveguide). The lightguide may for example be disposed around a camera module of a mobile telephone camera. | 05-26-2011 |
20110255850 | ELECTRONIC SUBASSEMBLIES FOR ELECTRONIC DEVICES - Electronic devices may be provided that include mechanical and electronic components. Connectors may be used to interconnect printed circuits and devices mounted to printed circuits. Printed circuits may include rigid printed circuit boards and flexible printed circuit boards. Heat sinks and other thermally conductive structures may be used to remove excess component heat. Structures may also be provided in an electronic device to detect moisture. Integrated circuits and other circuitry may be mounted on a printed circuit board under a radio-frequency shielding can. | 10-20-2011 |
20120070140 | LIGHT ISOLATING PROTECTIVE COVER FOR SMALL FORM FACTOR ELECTRONIC DEVICE - A portable device has a rear facing camera assembly and a front facing display assembly that includes at least a protective cover layer, a display stack that includes a plurality of display components arranged in a plurality of interconnected layers, the display stack providing an imaging service, and a flat support chassis arranged to provide support for the display stack. In the described embodiment, a protective cover can wrap around and protect at least the rear portion of the portable device without adversely affecting an image capture process carried out by the rear facing camera assembly. | 03-22-2012 |
20120114323 | FLASH LENS AND FLASH MODULE EMPLOYING THE SAME - A flash lens and a flash module employing the same. The flash lens includes a lens unit including an incident surface, a reflecting surface, and a light-emitting surface; and a lens seating portion disposed at a lower portion of an edge of the light-emitting surface, extending and protruding from the reflecting surface, and including a pattern formed in a lower surface thereof. In addition, the flash module according to an embodiment of the present invention may include the flash lens and a light emitting diode (LED) chip integrally formed with the flash lens. | 05-10-2012 |
20120148225 | LIGHT ISOLATING PROTECTIVE COVER FOR SMALL FORM FACTOR ELECTRONIC DEVICE - A portable device has a rear facing camera assembly and a front facing display assembly that includes at least a protective cover layer, a display stack that includes a plurality of display components arranged in a plurality of interconnected layers, the display stack providing an imaging service, and a flat support chassis arranged to provide support for the display stack. In the described embodiment, a protective cover can wrap around and protect at least the rear portion of the portable device without adversely affecting an image capture process carried out by the rear facing camera assembly. | 06-14-2012 |
20130121677 | Flash Structure for the Camera Function of a Handheld Electronic Device - A flash structure for the camera function of a handheld electronic device having at least a camera module as well as an image sensor and a camera lens contained in the camera module, comprising an outer cover, an annular reflector, at least a light diffuser, and one or a plurality of fixed light-emitting elements which are light emitting diodes or electronic flashes to provide continuous or intermittent supplemental light source. The center of the annular reflector passes through the camera lens and is formed on the motherboard of the handheld electronic device, and is arranged with a through-slot. The one or the plurality of light-emitting elements are embedded in the through-slot of the annular reflector, arranged around the camera lens, and electrically connected to the motherboard. The light diffuser is disposed outside the annular reflector, outside the light-emitting element and positioned around the camera lens. | 05-16-2013 |
20140044427 | PHOTOGRAPHIC DEVICE - A photographic device includes a base, a camera lens module, a circuit component and multiple light-emitting components. The base has an installation surface. The camera lens module is movably installed on the installation surface of the base. The circuit component is installed on the installation surface of the base. The light-emitting components are electronically disposed on the circuit component. At least two of the light emitting components have different optical axis directions. | 02-13-2014 |
20140079381 | LIGHT FOCUSING DEVICE - A light focusing device for detachably coupling to a camera with a built-in flash. The device comprises a mount for detachably coupling to the camera; a housing coupled with the mount, the housing configured to enclose the built-in flash when the built-in flash is an enabled position; and a lens coupled with the housing such that light generated by the built-in flash is focused by the lens such that intensity of the light is increased farther away than what the built-in flash is able to do on its own. | 03-20-2014 |
20140079382 | LIGHT FOCUSING DEVICE - A light focusing device for detachably coupling to a camera with a built-in flash. The device comprises a mount for detachably coupling to the camera; a housing coupled with the mount, the housing configured to enclose the built-in flash when the built-hi flash is an enabled position and comprising an alignment verification window; and a lens coupled with the housing such that light generated by the built-in flash is focused by the lens such that intensity of the light is increased farther away than what the built-in flash is able to do on its own. One or more spacers are included to adjust the height of the housing with respect to the flash for proper alignment. | 03-20-2014 |
20140219646 | Electronic Device With Camera Flash Structures - An electronic device may contain a camera, a camera flash, and a display in a housing. The camera flash or the display may provide illumination while capturing images with camera. The camera flash may be formed from light guiding structures that receive camera flash light from a light source. The camera flash may be located under a speaker port mesh. A speaker port may contain a camera and a camera flash. Light guiding structures may have a ring shape with an opening. A speaker port, camera, or button may be located within the opening. A button may have an opaque portion in which a transparent light guiding structure for a camera flash is embedded. Camera flash structures may produce camera flash light to capture images and can serve as a status indicator to indicate when a message is received or other state change is detected during operation. | 08-07-2014 |
396177000 | Pop-up flash | 11 |
20080310832 | IMAGE CAPTURING APPARATUS WITH POP-UP FLASH STRUCTURE - An image capturing apparatus includes a pop-up flash. Pop-up flash includes a flash housing configured for receiving a flash therein, a drive lever and a locking lever. Flash housing is pivoted on image capturing apparatus, and moves between a first position and a second position relative to image capturing apparatus. Flash housing includes at least one positioning hole. Drive lever moves between a third position and a fourth position relative to image capturing apparatus. Locking lever abuts against drive lever. At least one locking protrusion perpendicularly extends upward from a longitudinal side thereof. When drive lever is at third position, at least one locking protrusion engages with at least one positioning hole to lock flash housing at first position; while when drive lever moves from third position to fourth position, flash housing is released to second position after at least one positioning hole separated from at least one locking protrusion. | 12-18-2008 |
20090034957 | Pop-up module for electronic device - A pop-up module for an electronic device. The pop-up module includes a pop-up member, a base where the pop-up member is rotatably installed, a first elastic member, a projection unit disposed in the pop-up member, a moving member, a second elastic member, a first rotating lever unit, a operating unit including a movement portion and a driving portion, a second rotating lever unit including a contacting portion and a hanging portion, and a third elastic member. | 02-05-2009 |
20110044681 | IMAGING APPARATUS - An imaging apparatus includes a mount to which a lens unit is mountable, an imager operable to generate an image signal from light incident through the lens unit, a light-emitter operable to emit light, and an electric storage device operable to supply electric power to the light-emitter. The electric storage device is disposed behind the mount and below the imager. | 02-24-2011 |
20110052172 | IMAGE PICKUP APPARATUS WITH BUILT-IN FLASH - An image pickup apparatus includes a motor, a shutter charge mechanism which rotates the motor in a first direction to perform a charge operation of a shutter, a flash pop-up mechanism which rotates the motor in a second direction to move a flash to an up state, a state detector which detects the up state of the flash, a clutch mechanism which cuts off a transmission between the motor and the flash pop-up mechanism when the motor rotates in the first direction, and cuts off a transmission between the motor and the shutter charge mechanism when the motor rotates in the second direction, and a controller which controls the motor to rotate in the first direction to drive the shutter charge mechanism when the state detector detects the up state of the flash after the motor rotates in the second direction to drive the flash pop-up mechanism. | 03-03-2011 |
20110182567 | STROBE DEVICE - A strobe device according to the present invention includes a support portion connected to an apparatus body, and a movable portion having a strobe light emitter and rotatably supported on the support portion, wherein the movable portion includes a rotating member rotatably supported on the support portion, and a frame member fixed to the rotating member, and a shaft portion is provided in the support portion at a position apart from a center of rotation of the rotating member, one end of a spring being engaged with the shaft portion and the other end of the spring being engaged with the frame member, and a stopper wall is integrally formed in the frame member to receive and thereby engage the other end of the spring, and to prevent the spring from coming off. | 07-28-2011 |
20120106940 | IMAGING DEVICE - An imaging device includes an optical system, a camera housing defining an opening with an interior storage space, and a flash mechanism connected to the housing. The flash mechanism is movable between an exposed state and an unexposed state. The flash mechanism has a first arm, a second arm, and a light emitting component attached to the second arm. The first arm is located at a first rotational position in the exposed state and is configured to rotate around a first axis located within the interior space. The second arm is located at a third rotational position in the exposed state and is configured to rotate with respect to the first arm around a second axis located closer to the subject than the first axis in the exposed state. | 05-03-2012 |
20120148226 | IMAGING APPARATUS - When an automatic pop-up is selected in an imaging apparatus, during startup, a light emission unit is moveed to a pop-up position by a spring force in operably conjugate with a lens barrel together with the retraction of a cam follower. When a manual pop-up is selected, during startup, a lock lever is engaged with the light emission unit, and the light emission unit remains in a storage position. When a user places the operation unit of the lock lever to a first position and places the camera power source in the ON position, a strobe can be automatically subjected to a pop-up operation. Furthermore, when a user places the operation unit to a second position and places the camera power source in the ON position, the strobe can be automatically subjected to a pop-up operation as required. | 06-14-2012 |
20120195581 | COMPACT POP-UP CAMERA FLASHES - Example pop-up camera flashes are disclosed. A disclosed example pop-up flash of a camera includes a supporting unit; a rotating unit, which is rotatably connected to the supporting unit and is able to rotate between a first position, at which the rotating unit is adjacent to the supporting unit, and a second poison, at which the rotating unit is apart from the supporting unit; a sliding unit, which is slidably combined with the rotating unit; a light emitting unit, which is arranged at the sliding unit; a connecting unit, of which a first end is rotatably connected to the sliding unit and a second end is rotatably connected to the supporting unit; and a driving unit, which is connected to the connecting unit and provides a driving force for rotation of the connecting unit. | 08-02-2012 |
20120294601 | BUILT-IN FLASH POP-OUT MECHANISM - A built-in flash pop-out mechanism comprises a shaft member movable along a first axis; an arm member where one end is pivotally fixed at an end of the shaft member about a second axis; a flash-support member pivotally fixed at the other end of the arm member about a third axis; a first biasing member biasing the shaft member along the first axis; a second biasing member biasing the arm member about the second axis; a third biasing member biasing the flash-support member about the third axis. The built-in flash is extended from a camera body with coplanar motions that pop out the built-in flash to increase its distance from an optical axis. The motions include a translation of the shaft member along the first axis and rotations of the arm member and flash-support member about the second and third axes. | 11-22-2012 |
20140294372 | IMAGING APPARATUS - An imaging apparatus includes a camera body; and a flash device provided in the camera body and configured to be popped up from the camera body. The flash device includes a light emitter configured to emit light, a capacitor configured to store charge, an electric circuit configured to control the light emitter and the capacitor, a first electric wire configured to electrically connect the light emitter and the capacitor, and a second electric wire configured to electrically connect the capacitor and the electric circuit. The light emitter, the capacitor, the electric circuit, the first electric wire, and the second electric wire move integrally when the flash device is popped up. | 10-02-2014 |
20150104163 | STROBE MECHANISM - The present disclosure provides a strobe mechanism which has a compact constitution thus avoiding vignetting of strobe light rays by a lens barrel. According to one aspect of the present disclosure, there is provided a strobe mechanism which brings a strobe into a use state by making the strobe pop up from a stored state. The strobe mechanism includes: a base member; a slide member held in a movable manner in one direction with respect to the base member; a strobe part which is mounted on the slide member; and a capacitor which supplies electricity to the strobe part; and the capacitor is arranged in a region defined by walls of the slide member. | 04-16-2015 |
396178000 | Folding flash | 3 |
20100158497 | PHOTOGRAPHING APPARATUS - Provided is a photographing apparatus. The photographing apparatus may illuminate auto focus (AF) auxiliary light onto a subject without regard to an opening/closing of a flash because the flash may illuminate the light out of a main body even when the flash is received in the main body in a retracted position. | 06-24-2010 |
20110182568 | IMAGING APPARATUS - In an imaging apparatus, a first slope is formed that inclines toward a second flash-unit cam at an end face of a first flash-unit cam on the second flash-unit cam side at a first position where a flash-unit follower is located on the first cam when the flash-unit follower is engaged with the first flash-unit cam and the lens barrel unit is changed into wide angle state, and a second slope is formed that inclines toward the first flash-unit cam at an end face of the second cam on the first flash-unit cam side at a second position where the flash-unit follower is located on the second flash-unit cam when the flash-unit follower is engaged with the second flash-unit cam and the lens barrel unit is changed into a wide angle state. | 07-28-2011 |
20110182569 | IMAGING APPARATUS - An imaging apparatus includes a light-emitting unit from which a lead wire and a flexible wiring board extend, a shaft member passing through the light-emitting unit, and a base member having formed therein two bearing portions pivotally supporting the shaft member. The light-emitting unit is caused to shift between an in-use state and a stored state according to the light-emitting unit being rotated around the shaft member. The flexible wiring board extending from the light-emitting unit extends into the imaging apparatus through a space between the two bearing portions in which the shaft member is located. The lead wire extending from the light-emitting unit extends into the imaging apparatus through an outside of one of the two bearing portions in which the shaft member is not located. | 07-28-2011 |