| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 347256000 | Specific optical structure | 64 |
| 20090303308 | SURFACE-EMITTING LASER ELEMENT, SURFACE-EMITTING LASER ARRAY, OPTICAL SCANNING DEVICE, AND IMAGE FORMING APPARATUS - A surface-emitting laser element for emitting light in a direction perpendicular to a substrate, including a substrate with a normal direction of a principal plane inclining toward one direction of <111> with respect to one direction of <100> and a mesa structure formed on the substrate and having a narrowed structure with an oxide produced by oxidizing a part of a layer to be oxidized selectively, containing aluminum and surrounding an electric current passage area, wherein a cross-section of mesa structure being parallel to the substrate is parallel to a substrate surface and orthogonal to both one direction of <100> and one direction of <111> and a length in a first direction passing through a center of the electric current passage area is more than a length in a second direction parallel to a substrate surface and orthogonal to the first direction. | 12-10-2009 |
| 20090322852 | Composite semiconductor device, print head and image forming apparatus - A composite semiconductor device is formed of a semiconductor wafer having a plurality of device-forming areas in which semiconductor elements are formed and dicing areas defined between the device-forming areas, and is formed by dicing the semiconductor wafer at the dicing areas. The composite semiconductor device includes a semiconductor substrate, and a plurality of wiring layers layered on the semiconductor substrate. The wiring layers include at least conductive films. Connecting portions are formed to connect the wiring layers with each other in a layering direction of the wiring layers. Each of the connecting portions is disposed on the device-forming area side with respect to a dicing position defined in the dicing area. | 12-31-2009 |
| 20100194844 | SYSTEM FOR PRINTING UNIQUE INTERACTIVE DOCUMENT IN RESPONSE TO PRINT REQUEST - A system for printing and interacting with documents comprising: (a) a computer system configured for: receiving a print request; allocating a unique document identifier to the document in response to receiving the print request; and associating the document identifier with a description of the document; (b) a printer for printing the document containing human-readable content together with a coding pattern on a surface; and (c) an optically imaging pen for sensing a portion of the coding pattern during handwritten input on the document and for generating a signal indicative of the unique document identifier and a position of the pen relative to the document. The computer system is further configured for: receiving the signal from the pen; determining the document identifier and the position of the pen; retrieving the description associated with the document identifier; interpreting the positions as a path of handwritten input; and updating the description with information corresponding to the handwritten input. | 08-05-2010 |
| 20100220171 | PRINTER WITH AN EXPOSURE HEAD - A printer having an exposure head including an exposure head housing have side walls. The printer also includes a plurality of reflectors disposed in the exposure head housing, the plurality of reflectors including a plurality of elliptical reflectors and a plurality of planar reflectors. A lamp is disposed in the exposure head housing so as to be at least partially surrounded by the plurality of reflectors so that radiation emitted by the lamp during an operation of the printer is directed by the reflectors onto a printed image plane printable with photocurable ink. | 09-02-2010 |
| 20110069137 | OPTICAL SCANNER AND IMAGING APPARATUS USING THE SAME - An optical scanner includes a light source modulated based on image data, an optical deflection and scanning part deflecting a light beam emitted from the light source, and a scanning and imaging optical system condensing the deflected light beam toward a scanning surface so as to form a light spot optically scanning the scanning surface. The effective scanning region of the scanning surface is divided into a plurality of regions according to a scanning line curving characteristic. Suitable image data for optically scanning the divided regions are selected from image data of a plurality of image lines every time the light spot optically scans the effective scanning region, so that the image data of each of the image lines is written with scanning line curving being corrected. | 03-24-2011 |
| 20110242262 | EXPOSURE HEAD AND IMAGE FORMING APPARATUS - An exposure head includes a light emitting element and a imaging optical system having a first region and a second region and contrived such that a slope of a long dimension of a spot diagram formed by light emitted from the light emitting element that passes through the first region is different from a slope of a long dimension of a spot diagram formed by light emitted from the light emitting element that passes through the second region. | 10-06-2011 |
| 20110261139 | OPTICAL DEVICE, OPTICAL SCANNING APPARATUS AND IMAGE FORMING APPARATUS - An optical device includes at least one surface emitting laser device having a dielectric film for causing a central portion of a light emitting region to have a comparatively higher reflectivity than a peripheral portion; a light receiving element disposed, with respect to a first direction, on one side to the surface emitting laser device; and a transparent member disposed in a path of light emitted from the surface emitting laser device and configured to reflect a portion of the light toward the light receiving element as monitoring light. The central portion has shape anisotropy in which a width measured on a line extending in the first direction and passing through the center of the light emitting region is smaller than a width measured on a line extending in a second direction, which is perpendicular to the first direction, and passing through the center of the light emitting region. | 10-27-2011 |
| 20120293596 | MULTIPLE BEAM ROS WITH ADJUSTABLE SWATH WIDTH AND SPACING USING ADJUSTABLE OPTICAL DEVICE - Multiple beam raster output scanners (ROSs) and printing systems are presented in which an adjustable mirror or lens is provided in the optical beam path upstream of the ROS polygon mirror to allow automated electronic adjustment of line-to-line and swath-to-swath spacing at runtime. | 11-22-2012 |
| 20130002793 | LASER INDUCED THERMAL IMAGING APPARATUS AND METHOD FOR MANUFACTURING ORGANIC LIGHT EMITTING DIODE (OLED) DISPLAY DEVICE USING THE SAME - A laser induced thermal imaging (LITI) apparatus and a method of manufacturing an organic light emitting diode (OLED) display device using the LITI apparatus. The method of manufacturing the OLED display device using the LITI apparatus includes arranging an acceptor substrate on a substrate stage; forming a donor film on the acceptor substrate; disposing a patterned mask above the acceptor substrate; irradiating the donor film with a laser beam generated by a laser beam generator through an opening of the mask; and transferring a pattern of the donor film onto the acceptor substrate. The LITI apparatus and the manufacturing method allow a transfer layer of a donor film to be easily transferred onto a substrate by scanning a laser beam without regard to a size of the substrate. | 01-03-2013 |
| 20130070042 | Image Forming Apparatus And Optical Scanning Unit - An optical scanning unit may include a light source unit configured to emit a light beam, an optical housing configured to receive and support the light source unit, an optical device configured to deflect the light beam and to focus the light beam on a light receiving member, and a fixing member configured to fix the light source unit to the optical housing by applying pressure to the light source unit, wherein the pressure is applied in a direction, which is substantially perpendicular to an optical axis direction of the light source unit. | 03-21-2013 |
| 20150116446 | OPTICAL SCANNING APPARATUS, IMAGE FORMING APPARATUS INCLUDING THE OPTICAL SCANNING APPARATUS, AND METHOD OF ADJUSTING RESONANCE FREQUENCY AT OSCILLATING MIRROR UNIT IN THE OPTICAL SCANNING APPARATUS - A groove in which a curable resin is filled, is formed on the opposite side face of a face for reflecting light of an oscillating mirror unit. The groove extends so as to cross the swing axis of the oscillating mirror unit, seen from the opposite side of the reflection face of the oscillating mirror unit. | 04-30-2015 |
| 347257000 | Having mounting or supporting means | 7 |
| 20090027478 | Spring Clip - A method and apparatus for attaching a mirror to a housing with a spring clip such that the spring clip applies a substantially constant force to the mirror when a fastener for attaching the spring clip to a mounting structure of the housing has an axis defining an angle with a surface of the mounting structure that is within a predetermined range of angles. An arched contact surface with an aperture for receiving the fastener is provided on the spring clip such that the fastener contacts the contact surface tangentially. | 01-29-2009 |
| 20100309281 | LIGHT SCANNER INCLUDING LENS ASSEMBLING DATUMS - Disclosed is a light scanner with improved assembling datums of optical components. In the light scanner, an assembling datum with respect to a support body of an optical component is positioned between two ends of the optical component, for example, adjacent the central portion of the optical component. Accordingly, even when the lens is displaced, the change in an optical path may be reduced to mitigate the degradation in the image quality. | 12-09-2010 |
| 20110025815 | Mounting Assembly for Reflection Mirror in Laser Scanning Unit - A mounting assembly, for mounting a reflection mirror within a laser scanning unit, includes a mounting structure, and a pair of urging members. The mounting structure includes a base member, and a first pair of support protrusions and a second pair of support protrusions configured on the base member. Each of the first pair of support protrusions and the second pair of support protrusions includes a first support protrusion having a first top surface, and a second support protrusion having a second top surface. The first support protrusion is capable of supporting an end portion of the reflection mirror on the first top surface. Each urging member of the pair of urging members is adapted to be secured over the second top surface of the second support protrusion for urging the end portion of the reflection mirror on the first support protrusion. | 02-03-2011 |
| 20110037826 | Optical Printer Head and Image Forming Apparatus - An optical printer head comprises a base, a light-emitting device array mounted on the base, a lens array placed above the light-emitting device array; and a support member including a base bonding surface to which the base is bonded and a through hole, an opening of the through hole being positioned at the base bonding surface, wherein the base is bonded to the base bonding surface through an adhesive member and a part of the adhesive member is attached to an inner surface of the through hole. | 02-17-2011 |
| 20110292158 | Image Forming Apparatus with Optical Scanner - In a scanner housing of an optical scanner fixed to a main body housing of an image forming apparatus, an opposite wall is disposed between a support wall on which an optical element is supported and a wall of the main body housing. A space at an extreme end of an inner projection has a distance smaller than distances at all other spaces between the support wall and the opposite wall. A space at an extreme end of an outer projection has a distance smaller than distances at all other spaces between the wall of the main body housing and the opposite wall. The space at the extreme end of the inner projection overlaps with the space at the extreme end of the outer projection as viewed from a direction in which the inner projection and the outer projection project. | 12-01-2011 |
| 20140285611 | Image Forming Apparatus - An image forming apparatus includes an image forming unit configured to form an image on a sheet, a sensor unit assembly including a sensor unit and a holder attached to the sensor unit, and a cover member attached to the sensor unit assembly. The sensor unit includes a light emitting element and a light receiving element. The cover member includes a light transmission portion covering a light emitting side of the light emitting element and a light receiving side of the light receiving element and an engaging portion sandwiched between the sensor unit and the holder. | 09-25-2014 |
| 20150097914 | LIGHTING APPARATUS FOR PROVIDING LIGHT FOR PROCESSING AN OBJECT - The invention relates to a lighting apparatus ( | 04-09-2015 |
| 347258000 | Having lens | 25 |
| 20110216151 | SCANNING OPTICAL APPARATUS - A scanning optical apparatus includes a light source, a deflecting element for deflecting a beam of light emitted from the light source, an optical device for causing the beam of light emitted from the light source to be imaged into a linear shape long in the main scanning direction on the deflecting surface of the deflecting element. The optical device is comprised of a first optical element and a second optical element, and a third optical element for causing the beam of light deflected by the deflecting element to be imaged into a spot-like shape on a surface to be scanned. The third optical element includes a single lens, the opposite lens surfaces of which both include a toric surface of an aspherical surface shape in the main scanning plane, the curvatures of the opposite lens surfaces in the sub scanning plane being continuously varied from the on-axis toward the off-axis in the effective portion of the lens. | 09-08-2011 |
| 20110242263 | OPTICAL HEAD AND IMAGE FORMING APPARATUS - An optical head includes a light-emitting board that emits light, an attachment base that has a surface to which the light-emitting board is attached by an adhesive and a groove which is provided in the surface and extends to a portion below the light-emitting board, and a lens to condense the light emitted from the light-emitting board. | 10-06-2011 |
| 20110242264 | OPTICAL HEAD AND ELECTRONIC DEVICE - A light emitting substrate has a plurality of first light emitting portions arranged in a main scanning direction and a second light emitting portion disposed in a direction intersecting the main scanning direction with respect to the array of the plurality of first light emitting portions. A lens array has a plurality of first lenses, each of which is disposed to face each of the plurality of first light emitting portions, and a second lens for the second light emitting portion. A direction of the emitted light from the second light emitting portion has a slope with respect to a straight line which extends perpendicularly from a light emitting face of the corresponding second light emitting portion. | 10-06-2011 |
| 20120056969 | LIGHT SOURCE DEVICE AND MANUFACTURING METHOD THEREOF - A light source device includes: a semiconductor laser; a coupling lens; a holder; a sheet-metal member and a photopolymerizable resin. The coupling lens converts laser light from the semiconductor laser to a light flux. The coupling lens has an optical axis. The sheet-metal member holds the semiconductor laser and the coupling lens. The photopolymerizable rein is cured to fix the coupling lens on the sheet-metal member. | 03-08-2012 |
| 20120212566 | LIGHT EMITTING COMPONENT, PRINT HEAD, AND IMAGE FORMING APPARATUS - A light emitting component includes plural of light emitting elements arranged in rows on a substrate, plural lenses provided to face light emitting faces to which light beams of the plural light emitting elements are emitted, and condensing the light beams emitted from the light emitting elements, and one or plural pedestals holding the lenses such that the light emitting faces of the respective light emitting elements of the plural light emitting elements and the lenses that face the light emitting elements face the light emitting faces via gaps. | 08-23-2012 |
| 20130162748 | INTEGRATED IMAGING SYSTEM FOR PRINTING SYSTEMS - An integrated imaging system for a printing system that prints content on a moving print media includes a housing, an opening in the housing for receiving light reflected from the print media, a folded optical assembly in the housing that receives the reflected light and transmits the light a predetermined distance, and an image sensor within the housing that receives the light and captures one or more images of the printed content. | 06-27-2013 |
| 20140176657 | LENS ARRAY UNIT, ERECTING EQUAL-MAGNIFICATION LENS ARRAY, OPTICAL SCANNING UNIT, IMAGE READING DEVICE, AND IMAGE WRITING DEVICE - A first lens array unit includes a first lens array plate and a second lens array plate in which a plurality of lenses are provided in the main scanning direction, and a first light shielding member piece and a second light shielding member piece provided with a plurality of through holes corresponding to the lenses. The first lens array plate, the second lens array plate, the first light shielding member piece, and the second light shielding member piece are formed as one piece. The lens array is built by bending joints joining the lens array plates and the light shielding member pieces such that the lens is located to directly face the corresponding through hole. | 06-26-2014 |
| 20140232811 | OPTICAL RECORDING HEAD AND IMAGE FORMING APPARATUS - Image forming apparatus | 08-21-2014 |
| 20140340464 | LASER LABEL-PRINTER - A laser label printer for use with a laser markable medium includes a laser-diode fiber-coupled to an optical train, which includes a focusing lens for focusing the radiation on the medium. The focusing lens is traversed across the medium, with incremental motion of the medium between traverses, for line by line printing of the label. The printer includes a feature for protecting the focusing lens from contamination, and self-diagnostic and adjustment features. | 11-20-2014 |
| 20150346021 | SEMICONDUCTOR DEVICE, AND IMAGE FORMING APPARATUS AND IMAGE READING APPARATUS USING THE SAME - A semiconductor device includes: a printed wiring board; plural semiconductor array elements mounted on the printed wiring board in a row with an adhesive, each of the semiconductor array elements including plural semiconductor elements arranged in a row, the semiconductor array elements including a first semiconductor array element and a second semiconductor array element adjacent to the first semiconductor array element, the first semiconductor array element having a first facing surface, the second semiconductor array element having a second facing surface facing the first facing surface; a first contact prevention member that is made of organic material and disposed to project from the first facing surface; and a second contact prevention member that is made of organic material and disposed to project from the second facing surface. The first and second contact prevention members are disposed to abut each other or face each other with a gap therebetween. | 12-03-2015 |
| 20160091647 | Light Guide Based Optical System For Laser Line Generator - A laser line generator system that utilizes a light guide element to convert high energy coherent light generated by a high fill-factor laser diode bar into homogenous light, and utilizes one or more slow-axis relay lenses to image the homogenous light such that it forms a homogenous line illumination pattern on an illumination plane. The light guide utilizes parallel or down-tapered side walls to mix received coherent light in the slow-axis direction by way of total internal reflection. A Keplerian telescope including two cylinder lenses is optionally used in place of the slow-axis relay lens. Optional fast-axis lenses are used to assist in focusing the homogenous light at the illumination plane. The laser light generator forms, e.g., a single-pass imaging system for a scanning/printing apparatus in which the homogenous line illumination pattern is directed onto a linearly arranged series of spatial light modulators, such as Digital Micromirror Devices (DMDs). | 03-31-2016 |
| 20160152039 | ROD LENS ARRAY, LED PRINT HEAD, CONTACT IMAGE SENSOR HEAD, IMAGE FORMING APPARATUS, AND IMAGE READING APPARATUS | 06-02-2016 |
| 20160156802 | LASER SCANNING UNIT AND IMAGE FORMING APPARATUS INCLUDING THE SAME | 06-02-2016 |
| 20160375699 | EXPOSURE DEVICE AND IMAGE FORMING APPARATUS - An exposure device includes an optical system member that forms an image of light from a light emitting element array having multiple light emitting elements arranged, an optical system support part that supports the optical system member, and a restraining member that restrains the optical system member to the optical system support part. The optical system support part has sliding parts, which are able to slide relative to the restraining member, formed on a light emitting element side face and an image forming side face in positions opposing the both end parts or the vicinity of both end parts in a longitudinal direction of the optical system support part, and in the both end parts or in the vicinity of the both end parts in the longitudinal direction, the restraining member is formed between the sliding parts and the optical system member, fixed to the optical system member, and slidable in the longitudinal direction relative to the optical system support part. | 12-29-2016 |
| 347259000 | Including deflector | 11 |
| 20080239060 | IMAGE FORMING APPARATUS AND LASER SCANNING UNIT AND POLYGON MIRROR THEREOF - An image forming apparatus includes a photoconductor, a laser scanning unit to scan a beam across the photoconductor to form an electrostatic latent image on the photoconductor, a developing unit to apply a developer to the photoconductor having the electrostatic latent image formed thereon to form a visible image on the photoconductor, and a transferring unit to transfer the visible image, formed on the photoconductor, to a print medium. The laser scanning unit includes a light source to generate a beam according to an image signal, a polygon mirror including a plurality of reflection surfaces to deflect the beam, generated by the light source, in the main scanning direction, the reflection surfaces being aspherical to correct an aberration of the beam to converge the beam, deflected in the main scanning direction, on the photoconductor, and a motor to rotate the polygon mirror. | 10-02-2008 |
| 20090015650 | OPTICAL SCANNING APPARATUS AND IMAGE-FORMING APPARATUS USING THE SAME - At least one exemplary embodiment is directed to an optical scanning apparatus which includes a Vertical Cavity Surface Emitting Laser including a plurality of light-emitting portions that are spaced from each other in at least a sub-scanning direction, a first optical system including a light-condensing element that converts each of light beams from the laser into a light beam in another state; a deflector that reflects and deflects the light beams from the first optical system, and a second optical system that focuses the light beams deflected by the deflecting member on a surface to be scanned, where the second optical system includes at least an imaging optical element having an optical surface with a non-arc shape in a sub-scanning cross section. | 01-15-2009 |
| 20090160928 | MULTIPLE-BEAM RASTER OUTPUT SCANNER WITH A COMPENSATING FILTER - A printing system includes a multiple-beam generator array configured to generate multiple beams. A collimator lens is positioned to receive the multiple beams, and an aperture stop is located where the multiple beams are spatially coincident with each other. A scanning optical system is positioned to receive the beams from the aperture stop, and a recording medium receives the beams from the scanning optical system. A filter is located where the multiple beams are spatially coincident with each other, whereby each of the multiple beams may be filtered by the supplied filter. | 06-25-2009 |
| 20090207231 | DUAL MIRROR ILLUMINATION SYSTEM FOR BOOK COPIER - A scanner comprising a platen positioned along a first plane and configured to support an article to be scanned; one or more illuminators positioned below the platen along a second plane parallel to the first plane, and configured to emit light beams; one or more mirrors positioned between the platen and the one or more illuminators, each of the mirrors being configured to direct a light beam having a directional component parallel to the first and second planes emitted by the illuminators onto the article on the platen at the imaging point; one or more sensors configured to detect the light reflecting off the article at the imaging point along a sensor optical path; and a carriage mechanism constructed to affect relative movement parallel to the first and second planes between platen, and the one or more illuminators and the one or more mirrors in a scanning direction. | 08-20-2009 |
| 20090231410 | OPTICAL SCANNING DEVICE, OPTICAL SCANNING METHOD, AND IMAGE FORMING APPARATUS, USING THE OPTICAL SCANNING DEVICE - An optical scanning device for guiding a light beam to a member to scan the member with the light beam, including a light source emitting the light beam; a light deflector deflecting the light beam; a focusing optical system including a plastic optical element molded using a die. The optical element has least two transfer surfaces formed by contacting with transfer surfaces of the die and including a light entrance surface and a light exit surface; and a third surface including a non-transfer surface formed without contacting a transfer surface of the die. The light beam passes through the optical element in such a manner that the optical axis center of the light beam extends in a direction parallel to the shorter side of the optical element while being shifted from the dimensional center of the optical element toward the third surface of the optical element. | 09-17-2009 |
| 20100085413 | Laser Packet Marking Unit - A laser marking unit for marking packets, having: a marking conveyor for feeding the packets successively along a marking path; and a marking station located along the marking conveyor, and having a laser marking device for marking a code on the outer surface of each packet conveyed on the marking conveyor. The laser marking device has a laser beam generator which emits a laser beam by means of an emitter; and a deflection box which deflects the laser beam onto the packet at the marking station by directing the laser beam along a focusing path that starts at the emitter and terminates on the outer surface of the packet. | 04-08-2010 |
| 20100182393 | LIGHT SCANNING UNIT AND IMAGE FORMING APPARATUS INCLUDING THE SAME - A light scanning unit and an image forming apparatus having the same. The light scanning unit to form an electrostatic latent image corresponding to image information on a photosensitive body may include a light source, a deflector to deflect light generated from the light source in a main scanning direction, an imaging lens to focus deflected light to the photosensitive body, and at least a reflection mirror to change a traveling direction of light. A deviation of light quantity generated in a main scanning direction by a light quantity ratio generated by internal absorption of the imaging lens and a light quantity ratio generated by a polarization state of light may be compensated for by the reflection mirror. | 07-22-2010 |
| 20110216152 | SCANNING OPTICAL APPARATUS - A scanning optical apparatus includes a light source, a deflecting element for deflecting a beam of light emitted from the light source, an optical device for causing the beam of light emitted from the light source to be imaged into a linear shape long in the main scanning direction on the deflecting surface of the deflecting element. The optical device is comprised of a first optical element and a second optical element, and a third optical element for causing the beam of light deflected by the deflecting element to be imaged into a spot-like shape on a surface to be scanned. The third optical element includes a single lens, the opposite lens surfaces of which both include a toric surface of an aspherical surface shape in the main scanning plane, the curvatures of the opposite lens surfaces in the sub scanning plane being continuously varied from the on-axis toward the off-axis in the effective portion of the lens. | 09-08-2011 |
| 20110221857 | OPTICAL SCANNER AND IMAGE FORMING APPARATUS - An optical scanner includes a light source, a deflector and a scanning optical system. The scanning optical system includes a first optical system including at least one resin scanning lens, and a second optical system between the target surface and one resin scanning lens. The second optical system includes at least one of a folding mirror(s) and a glass sheet(s), wherein m1+g2=m2+g1 is satisfied wherein m1 and g1 are respectively number of the folding mirror(s) and number of the glass sheet(s) to which the first ray has a shorter optical path than the second ray does, m2 and g2 are respectively number of the folding mirror(s) and number of the glass sheet(s) to which the first ray has a longer optical path than the second ray does. | 09-15-2011 |
| 20120075404 | OPTICAL SCANNING DEVICE AND IMAGE FORMING APPARATUS PROVIDED WITH THE SAME - An optical scanning device includes a housing, the interior of which is partitioned into a first compartment and a second compartment by a base; a light source arranged in the first compartment and adapted to emit a beam; a first optical component arranged on an optical path of the beam in the first compartment; a second optical component arranged on the optical path of the beam in the second compartment; an aperture formed in the base to allow the beam to pass from the first compartment to the second compartment or from the second compartment to the first compartment; and a reinforcing member for reinforcing the rigidity of the base near the aperture. | 03-29-2012 |
| 20130050391 | Single-Pass Imaging System With Spatial Light Modulator and Catadioptric Anamorphic Optical System - A single-pass imaging system utilizes a light source and a spatial light modulator to generate a two-dimensional modulated light field, and uses a catadiotropic anamorphic optical system to anamorphically image and concentrate the modulated light in order to generate a high-intensity, substantially one-dimensional line image on an imaging surface (e.g., the surface of a drum cylinder). The catadiotropic anamorphic optical system utilizes one or more cylindrical/acylindrical lens elements to image the modulated light field in the cross-process direction, and one or more cylindrical/acylindrical mirror elements to image and concentrate the modulated light field in the process direction. The line image is generated with sufficient energy to evaporate fountain solution from the imaging surface. The imaging system simultaneously generates all component pixel images of the line image, thus facilitating a printing apparatus capable of 1200 dpi or greater. | 02-28-2013 |
| 347260000 | Having deflector | 21 |
| 20080252714 | MEMS device for producing a lemniscate pattern to counter zigzag effect - A MEMS device, a printer and a method of printing is presented including providing a light source producing a modulated beam of light, positioning a mirror with a reflective surface to intercept the modulated beam of light. Allowing the mirror to rotate on a single-axis hinge structure such that the resultant reflected beam is swept in a scan plane and creating an image at an intersection of the scan plane and an image plane. Causing the mirror to rotate about the single-axis hinge structure and to oscillate at a tilt about the single-axis hinge structure, wherein the resultant reflected beam of light forms a lemniscate pattern along the image plane, and wherein the lemniscate pattern has an inner angle between a left sweep segment and a right sweep segment of the image. Synchronizing the inner angle of the lemniscate pattern formed on the image plane to a motion of a photosensitive medium such that an image is formed on the photosensitive medium along lines substantially parallel to each other and orthogonal to the movement of the photosensitive medium. | 10-16-2008 |
| 20090201358 | OPTICAL SCANNING DEVICE AND IMAGE FORMING APPARATUS - An optical scanning device includes a light source; a light source driving unit configured to modulate/drive the light source; a pulse width information holding unit configured to hold pulse width information items of predetermined pixels corresponding to scanning positions on a scan target surface; a deflecting unit including a reflection surface configured to deflect/scan a light beam from the light source; and a scan-imaging optical system configured to image the light beam deflected by the deflecting unit on the scan target surface. The pulse width information holding unit holds the pulse width information items which cancel out deviations of main scanning beam spot diameters among the scanning positions on the scan target surface; and the light source driving unit drives the light source based on the pulse width information items held by the pulse width information holding unit. | 08-13-2009 |
| 20100079572 | DIODE-LASER MARKER WITH ONE-AXIS SCANNING MIRROR MOUNTED ON A TRANSLATABLE CARRIAGE - Apparatus for marking a bitmap image on tape includes a source of a modulatable laser-beam. The beam is directed to an oscillating mirror on a carriage translatable across the width direction of the tape. The oscillating mirror directs the beam to a focusing lens mounted on the carriage. The focusing lens is arranged to focus the beam to a focal-spot on the tape. As the carriage is translated, the focal-spot is swept reciprocally in a wave-like path across the tape. Modulation of the beam is arranged such that pixels of a plurality of rows of the bitmap image are printed in one traverse of the carriage. The tape is advanced incrementally and repeated traverses of the carriage are made to complete printing of the bitmap image. | 04-01-2010 |
| 20110128345 | APPARATUS AND METHOD FOR WRITING A FLIP IMAGE STRUCTURE - The invention relates to an apparatus for writing a flip image structure on a base. Said apparatus comprises a laser light source that has a control device for specifically modifying an angle at which the laser light emerges from the laser light source, and a holder for the base. According to the invention, two deflection elements for the laser light are provided in the beam range of the laser light source. Said deflection elements are arranged such that laser light of the laser light source that is deflected, especially reflected by the deflection elements is incident on the flip image structure of the base accommodated on the holder at a different angle of incidence. The invention further relates to a method that can be carried out especially by means of a disclosed apparatus. | 06-02-2011 |
| 20150049155 | ACTUATOR, OPTICAL REFLECTING ELEMENT, AND IMAGE FORMING DEVICE USING OPTICAL REFLECTING ELEMENT - An actuator includes a frame, a driver portion having one end connected to an inside of the frame, a movable portion connected to another end of the driver portion, and an electrode provided at the movable portion. The driver portion vibrates the movable portion by being driven by a driving signal. The electrode receives a high-frequency signal higher than that of the driving signal. This actuator is driven at a high speed by a large deflection angle, and can prevent dust from adhering to the movable portion. | 02-19-2015 |
| 20150375524 | LIGHT SCANNING APPARATUS AND IMAGE FORMING APPARATUS USING THE SAME - A light scanning apparatus includes a light source, a deflector configured to deflect a light flux from the light source, and an imaging optical system configured to guide the light flux deflected at the deflector onto a scanned surface. The imaging optical system consists of a single imaging optical element, wherein, on the optical axis of the imaging optical system, the conditions 0.15≦T2/Sk≦0.3 and 0.03≦d/K≦0.08 are satisfied. A condition 0.3≦B≦0.6 is satisfied at a condensing position Y where a scanning angle θ is greatest, when the condensing position Y in the main scanning direction on the scanned surface of the light flux deflected at the scanning angle θ by the deflector is expressed by Y=(K/B)×tan(B×θ). | 12-31-2015 |
| 20160152041 | IMAGE FORMING APPARATUS | 06-02-2016 |
| 347261000 | Polygon | 14 |
| 20100045770 | METHOD AND APPARATUS FOR PRINTING - Aspects of the disclosure provide a method for improving performance of a raster output scanner (ROS) system with a reduced cost. The method can include identifying a current mirror facet of a motor polygon assembly (MPA) including multiple mirror facets that each mirror facet has a reflectivity characteristic, determining a driving signal based on the reflectivity characteristic of the current mirror facet and a performance characteristic of a light source, and driving the light source based on the driving signal to emit light that is reflected by the MPA onto a photoreceptor. | 02-25-2010 |
| 20100091083 | OPTICAL SCANNING DEVICE AND IMAGE FORMING APPARATUS - An optical scanning device includes an optical housing in which a polygon mirror that is rotated by a motor is accommodated and an air inlet that includes a filter. An airflow guiding member is arranged at a position opposite to a surface of the polygon mirror on the air inlet side. An air inducing path is provided, which includes a first flowing path and a second flowing path. The first flowing path includes a first end linked to the air inlet and a second end arranged close to a mirror surface of the polygon mirror. The second flowing path is formed with a surface of the airflow guiding member on an opposite side of the air inlet and a top surface of the polygon mirror. | 04-15-2010 |
| 20100302341 | TWO-DIMENSIONAL ROS EMITTER GEOMETRY WITH LOW BANDING SENSITIVITY - An optical scanning device projects an image onto a photoreceptor within a print system. A laser light source generates a plurality of light beam outputs, wherein the light beam outputs are arranged in a two-dimensional parallelogram array within a substantially horizontal axis and a substantially vertical axis that is perpendicular to the horizontal axis. The two-dimensional parallelogram array has an odd number of rows of light beam outputs, wherein each row has an equal even number of light beam outputs. A rotating polygon mirror includes a plurality of deflecting surfaces, each of the deflecting surfaces deflects the light beams emitted from the laser light source. The light beam output array projects a first swath N onto the photoreceptor via the rotating mirror and swaths [N+1, N+2, . . . ] are subsequently placed at a level one-half down the number of light beam outputs of the previous swath. Each swath has the identical number of light emitting outputs as the two-dimensional array. | 12-02-2010 |
| 20120033025 | LIGHT SCANNING APPARATUS AND IMAGE FORMING APPARATUS - A light scanning apparatus including: a light source to emit a laser beam; a light source driving unit to turn on and off the light source according to image data and a pixel clock; a rotary polygon mirror to deflect the light beam; a motor to rotationally drive the rotary polygon mirror; and a control unit to control a rotary speed of the motor to generate an acceleration control signal for accelerating the rotary speed and a deceleration control signal for decelerating the rotary speed, wherein for the acceleration control signal, the driving unit corrects the frequency of the pixel clock to be higher than the frequency, which is before the acceleration control, and for the deceleration control signal, the driving unit corrects the frequency of the pixel clock to be lower than the frequency, which is before the deceleration control. | 02-09-2012 |
| 20120194630 | IMAGE FORMING APPARATUS AND IMAGE FORMING METHOD - An image forming apparatus includes: a plurality of optical systems, each of which includes a light-beam generating unit that generates a light beam, a rotary polygon mirror that deflects the light beam so as to scan a image carrier, and a light-beam detecting unit that detects the light beam deflected for scanning at a predetermined position on a scanning path by rotationally driving the rotary polygon mirror; a time-difference measuring unit that measures a time difference between light-beam detecting signals; a generation-timing determining unit that determines time of generation timing for generating a start signal that designates a start of an image writing operation so that the generation timing does not overlap another timing when each of the light-beam detecting signals is output from the corresponding time-difference measuring unit; and a start-signal generating unit that generates the start signal based on the time for the generation timing. | 08-02-2012 |
| 20120306989 | SCANNING OPTICAL DEVICE THAT SCANS PHOTORECEPTOR WITH LASER LIGHT AND IMAGE FORMING APPARATUS - A scanning optical device that scans a photoreceptor with laser light includes a light source, a light outputting section, and a projection. The laser light from the light source is output through the light outputting section so that the photoreceptor is irradiated with the laser light. The projection projects through a partition wall toward the photoreceptor. The light outputting section is disposed in a position separated from the photoreceptor by the partition wall. The projection contains a polygon motor that rotates a polygon mirror to reflect the laser light. | 12-06-2012 |
| 20130076852 | 2-D STRAIGHT-SCAN ON IMAGING SURFACE WITH A RASTER POLYGON - A 2-D scanning system uses a fast-rotating raster-polygon as a single scanning component to produce straight scan lines over a 2-D image surface. An approach angle of incident light beams to the raster-polygon is selected to minimize pin-cushion distortion of scan lines introduced by polygon scanning on the image surface, and a tilt angle of the rotational axis of the raster-polygon is selected to position said polygon-scanning distortion symmetrically on the image surface. In addition, scan optics are configured to generate a predetermined amount of barrel distortion of scan lines on the image surface to compensate for pin-cushion distortion introduced by polygon scanning. | 03-28-2013 |
| 20140198171 | WEIGHT-BALANCED POLYGONAL MIRROR, LIGHT SCANNING UNIT USING THE POLYGONAL MIRROR, AND IMAGE FORMING APPARATUS - A light scanning unit includes a light source to emit a light beam; a polygonal mirror to deflect the light beam in a main scanning direction; and an imaging optical system to image the light beam onto a scanning surface. The polygonal mirror includes a plurality of reflection surfaces that are formed in an outer portion of the polygonal mirror and rotate around a rotational axis and an internal mirror surface that defines a hole. A ratio of an internal diameter d to an outer diameter D satisfies 0.1≦d/D≦0.3. The polygonal mirror is adhered to a motor unit that supports and rotates the polygonal mirror, using an adhesive. The internal mirror surface of the polygonal mirror defining the hole is point-bonded to the motor unit using the adhesive, and the point-bonding is conducted in a direction toward a corner of the reflection surfaces. | 07-17-2014 |
| 20140292995 | OPTICAL SCANNING DEVICE AND IMAGE FORMING APPARATUS INCLUDING THE SAME - An optical scanning device includes a rotating polygon mirror, a motor, a substrate, a heat releasing member and a heat transfer member. The rotating polygon mirror deflection scans light emitting by a light source. The motor rotatively drives the rotating polygon mirror. The substrate has a drive circuit part for controlling the motor. The heat releasing member releases heat generated from the substrate. The heat transfer member is sandwiched between the substrate and the heat releasing member to be compressively deformed. A receiving portion that part of the heat transfer member compressively deformed enters is formed in a first part of the heat releasing member in which the heat transfer member is provided. | 10-02-2014 |
| 20140292996 | IMAGE FORMING APPARATUS FOR DETERMINING A TIME TO START FORMING AN IMAGE - The image forming apparatus includes a determination unit configured to determine whether or not a polygon mirror has converged to the number of rotations that allows image formation to be performed, and the determination unit is capable of detecting a first timing and a second timing and determines that the polygon mirror has converged to a number of rotations that allows the image formation to be performed based on an earlier one of the first timing and the second timing. | 10-02-2014 |
| 20140354757 | OPTICAL WRITING DEVICE AND IMAGE FORMING APPARATUS - An optical writing device includes a light source, an optical deflector that deflects and scans light from the light source, a pre-deflector optical system that guides the light from the light source to the deflector, a post-deflector optical system that guides the scanned light to a target surface, a cover covering the deflector and including a first opening and a second opening provided at different positions, and a housing housing these optical elements. Light traveling from the light source to the deflector and the light scanned by the deflector are transmitted through the first opening but not through the second opening. During the rotation of the deflector, a forced inflow of air flowing from outside to inside the cover is generated in the first opening, and a discharged airflow flowing from inside to outside the cover is generated in the second opening. | 12-04-2014 |
| 20150062281 | Optical Scanning Device, Image Forming Apparatus Having the Same, and Method Therefor - An optical scanning device including a controller configured to control a light emitter to emit a first light beam in accordance with a first pattern, control the light emitter to emit a second light beam in accordance with a second pattern, discriminate between a first signal output from a sensor in accordance with the first pattern and a second signal output from the sensor in accordance with the second pattern, identify a first moment at which the discriminated first signal has been output and a second moment at which the discriminated second signal has been output, and determine a moment to start forming on a scanned object a first scanning line by the first light beam, based on the identified first moment, and determine a moment to start forming on the scanned object a second scanning line by the second light beam, based on the identified second moment. | 03-05-2015 |
| 20150352859 | 2-D STRAIGHT-SCAN ON IMAGING SURFACE WITH A RASTER POLYGON - A 2-D scanning system uses a fast-rotating raster-polygon as a single scanning component to produce straight scan lines over a 2-D image surface. An approach angle of incident light beams to the raster-polygon is selected to minimize pin-cushion distortion of scan lines introduced by polygon scanning on the image surface, and a tilt angle of the rotational axis of the raster-polygon is selected to position said polygon-scanning distortion symmetrically on the image surface. In addition, scan optics are configured to generate a predetermined amount of barrel distortion of scan lines on the image surface to compensate for pin-cushion distortion introduced by polygon scanning. | 12-10-2015 |
| 20150369971 | IMAGING OPTICAL ELEMENT AND OPTICAL SCANNING APPARATUS INCLUDING THE SAME - The imaging optical element includes an optical surface whose shape within a sub-scanning section has a non-circular shape. Assuming that a coordinate along a main scanning direction is Y and a coordinate along a sub-scanning direction is Z and that, within the sub-scanning section, a curvature radius on an optical axis of the optical surface is r, an eccentricity is k, a coefficient of variation in the curvature radius of the optical surface is D | 12-24-2015 |
