Class / Patent application number | Description | Number of patent applications / Date published |
347129000 | Photo scanning | 54 |
20080225102 | Optical scanning unit and image forming apparatus using same - An optical scanning unit used in an image forming apparatus having a latent image carrier includes a light emitter, a rotary deflector, an inclination adjustment unit, and a controller. The light emitter emits a light beam. The rotary deflector deflects and scans the light beam onto a surface of the latent image carrier. The inclination adjustment unit adjusts an inclination of a scan line corresponding to the light beam relative to a reference scan line on the latent image carrier. The controller changes at least one of a linear velocity of the latent image carrier and a rotation speed of the rotary deflector so as to change a ratio between the linear velocity of the latent image carrier and a scan speed of the light beam, and controls the inclination adjustment unit based on the ratio to keep the scan line from inclining relative to the reference scan line. | 09-18-2008 |
20090021570 | SCANNING OPTICAL APPARATUS AND IMAGE FORMING APPARATUS - A scanning optical apparatus uses a light source pair that includes at least two light sources to scan a same scan line. The scanning optical apparatus includes: a first group of light sources which include a first light source of a light source pair and are lined up on a first line; and a second group of light sources which include a second light source of the light source pair and are lined up on a second line. The first line and the second line are inclined with respect to reference lines corresponding to scan lines so that the first light source and the second light source of the light source pair scan the same scan line. Moreover, a distance between the first light source and the second light source of the light source pair is at least twice a distance between two adjacent light sources in the first line. | 01-22-2009 |
20090237484 | ROS Deskew Mechanism with Linear Actuator - In a color marking assembly, a series of ROS units are aligned above a photoconductive surface. These units have side mounts and a side positioned outboard linear actuator connecting them to this assembly. The inboard mounts are attached to a first inboard side of the ROS, and the outboard mounted linear actuators are attached to a second outboard side of the KROS unit. | 09-24-2009 |
20090278907 | OPTICAL SCANNING APPARATUS AND IMAGE FORMING APPARATUS USING THE SAME - An optical scanning apparatus effectively blocks undesirable-light generated in opposed scanning units, and forms high-quality image with simple configuration. The apparatus includes two scanning units disposed with a polygon mirror therebetween, each scanning unit including: an incident optical system guiding a beam from a light source to the polygon mirror; and an imaging optical system including an imaging optical element to cause the deflected beam form an image on a scanning surface. One of the scanning units includes a member to block an undesirable light reflected on optical surfaces of the imaging optical element of the other scanning unit and traveling toward the scanning surface of said one scanning unit. rp11-12-2009 | |
20090290009 | IMAGE FORMING APPARATUS, IMAGE FORMING METHOD, AND IMAGE FORMING PROGRAM PRODUCT - An image is formed by dividing rasterized original image data into regions in accordance with N recording heads, and scanning a recording body by simultaneously irradiating recording beams from the N recording heads. Corrected image data divided into regions in accordance with the recording heads are generated by changing the rasterized original image data based on information including positional displacements of the recording beams, so that the positional displacements are corrected. Scanning information is generated based on the positional displacement information. The scanning information includes positions and orders for the recording beams to scan the recording body to record the corrected image data. | 11-26-2009 |
20090295899 | Optical scanner and image forming apparatus incorporating same - An optical scanner includes at least one light source, an optical element, a deflective scanner, an optical housing, a pressing member, and a mounting member. The light source emits a light beam to an object. The optical element forms the light beam emitted from the light source into a desired shape. The deflective scanner deflects the light beam. The optical housing stores the optical element and the deflective scanner, and includes at least one positioning member. The positioning member positions the light source in an axial direction of the light source. The pressing member presses the light source toward the positioning member to sandwich the light source between the pressing member and the positioning member and mount the light source on the optical housing. The mounting member fastens the pressing member to the optical housing. | 12-03-2009 |
20090295900 | OPTICAL SCANNING DEVICE AND IMAGE FORMING APPARATUS - In an optical scanning device employing a multi-beam scanning method, a surface emitting laser light source includes laser emission sources; a parallel-plate-like quarter wavelength plate is arranged between the surface emitting laser light source and a first optical system; a light-intensity detecting unit separates light intensity of the laser beams of which form is converted by the first optical system and detects separated laser beams; and a light-intensity adjusting unit adjusts emission intensity of the laser emission sources individually based on a detection result by the light-intensity detecting unit. The quarter wavelength plate is arranged so that an optical axis thereof is tilted ±45 degrees with respect to the main-scanning direction around an optical axis of the first optical system. | 12-03-2009 |
20090322846 | OPTICAL SCANNING APPARATUS AND IMAGE FORMING APPARATUS - An optical scanning apparatus includes: a light source that emits multiple light beams; a deflecting unit that accepts the multiple light beams emitted from the light source on an identical reflecting surface of the deflecting unit, and movies the reflecting surface to deflect the multiple light beams; and an optical system that is interposed between the reflecting surface of the deflecting unit and a surface to be scanned and converges the multiple light beams reflected by the reflecting surface respectively. And the optical system includes an optical element that converges lights at least in a sub scanning direction. The optical scanning apparatus includes an adjust unit that adjusts incident angles of the multiple light beams radiated onto the optical element, in a direction corresponding to the sub scanning direction on the surface to be scanned. | 12-31-2009 |
20110249069 | LIGHT SOURCE DRIVING DEVICE, AND IMAGE PROCESSING DEVICE, IMAGE READING DEVICE AND IMAGE FORMING APPARATUS USING THE LIGHT SOURCE DRIVING DEVICE - A light source driving device for driving plural light sources is provided. The light source driving device includes a voltage booster to boost a voltage from a power source to supply the boosted voltage to each of the plural light sources; a constant current driver to regularly hold driving current of each of the plural light sources constant; a load to consume substantially the same power as the plural light sources; and a switch to selectively connect either the load or the plural light sources with the voltage booster and the constant current driver so that the load or the plural light sources are interposed between the voltage booster and the constant current driver. | 10-13-2011 |
347130000 | Light emitting diodes | 15 |
20090141113 | Line Head and Image Forming Device Using the Same - A line head, includes a light-emitting element row, having a plurality of light-emitting elements arranged in a first direction; a plurality of feeding portions; a first power supply line for power supply, connected to a first feeding portion for a power supply of the feeding portions; and a second power supply line for ground, connected to a second feeding portion for a ground of the feeding portions. The light-emitting elements are respectively connected between the first power supply line and the second power supply line. | 06-04-2009 |
20090295901 | LIGHT-EMITTING ELEMENT ARRAY, DRIVE CONTROLLING DEVICE, RECORDING HEAD, AND IMAGE FORMING DEVICE - A light-emitting element array comprises: a resistor connected at a first end to a driving unit; and a plurality of light-emitting elements, each of the plurality of light-emitting elements comprising a three-terminal switching element having a first terminal, a second terminal, and a third terminal, the first terminal in each of the plurality of light-emitting elements being connected to a second end of the resistor, the second terminal in each of the plurality of light-emitting elements being connected to ground, and the third terminal in each of the plurality of light-emitting elements being connected to a control circuit. | 12-03-2009 |
20090315965 | LED ARRAY MANUFACTURING METHOD, LED ARRAY AND LED PRINTER - An LED array having no insulating film between the LED structure and the reflector thereof is manufactured by forming a luminescent layer | 12-24-2009 |
20090322847 | Exposure device, LED head, image forming apparatus, and reading apparatus - An exposure device includes a light emitting portion array formed of a plurality of light emitting portions and a lens array including lens assembly members formed of lenses and a light blocking member. The light emitting portions are arranged linearly with a specific interval PD. The light emitting portion array and the lens array are arranged so that when light in parallel to the optical axis of one of the lenses is incident to the lens from a direction of the light blocking member, the lens forms a spot having a radius RS satisfying the following relationship: | 12-31-2009 |
20100045763 | EXPOSURE DEVICE, LIGHT-EMITTING DEVICE, IMAGE FORMING APPARATUS AND FAILURE DIAGNOSING METHOD - The exposure device includes: a light output device outputting light for exposing a charged image carrier, and including light-emitting elements caused to emit light or not through a control using a light-emission signal, switch elements provided corresponding to the light-emitting elements, and sequentially turned on to set the light-emitting elements ready to emit light, a transfer-signal generating unit generating a transfer signal for sequentially turning on the switch elements, a light-emission signal supply unit supplying the light-emission signal to the light-emitting elements, and a detection unit causing the transfer-signal generating unit to generate a transfer signal having cycles whose number is larger than that of the light-emitting elements, and detecting a potential of an output region of the light-emission signal supply unit while making an output from the light-emission signal supply unit high impedance; and an optical member focusing light outputted by the light output device onto the image carrier. | 02-25-2010 |
20100060704 | LIGHT-EMITTING DEVICE, EXPOSURE DEVICE, IMAGE FORMING APPARATUS AND LIGHT-EMISSION CONTROL METHOD - The light-emitting device includes: a light-emitting element array that has plural light-emitting elements arrayed in a line at intervals corresponding to a first resolution; a supply unit that supplies a light-emission signal corresponding to a second resolution, the second resolution being 1/m of the first resolution, where m is an integer not less than 2; a setting unit that divides the plural light-emitting elements into plural sets each including m continuous light-emitting elements in the light-emitting element array, and that sets whether to cause the m continuous light-emitting elements, which are included in each of the plural sets, to emit light on a single set basis by using the light-emission signal supplied from the supply unit; and a correcting unit that corrects the division of the plural light-emitting elements in the light-emitting element array performed by the setting unit, on a single light-emitting element basis. | 03-11-2010 |
20100110157 | TRANSFER METHOD OF FUNCTIONAL REGION, LED ARRAY, LED PRINTER HEAD, AND LED PRINTER - A method includes arranging a first bonding layer on a first functional region on a first substrate, or a region on a second substrate, bonding the first functional region to the second substrate through the first bonding layer, subjecting a first release layer to a first process to separate the first substrate from the first functional region at the first release layer, arranging a second bonding layer on a second functional region on the first substrate, or a region on a third substrate, bonding the second functional region to the second or third substrate through the second bonding layer, and subjecting a second release layer to a second process to separate the first substrate from the second functional region at the second release layer. | 05-06-2010 |
20100118100 | LIGHT-EMITTING ELEMENT HEAD, IMAGE FORMING APPARATUS AND SIGNAL SUPPLY METHOD - The light-emitting element head includes: a first signal supply unit supplying a first signal for sequentially specifying a plurality of light-emitting elements one by one as a control target for control in common to light-emitting element chips; a second signal supply unit supplying second signals for giving an instruction to emit or not to emit light to one of the elements specified as the control target to a set of light-emitting element chips so that each of the signals is supplied in common to plural light-emitting element chips belonging to each of N groups into which the set of chips are divided; and an enable signal supply unit that supplies enable signals for allowing the set of chips to receive the second signals which are different from one another so that the enable signals are supplied respectively to the chips belonging to each of the N groups. | 05-13-2010 |
20140232805 | OPTICAL WRITING DEVICE AND IMAGE FORMING APPARATUS - An optical writing device having; a plurality of light-emitting points; a plurality of drive circuits for supplying drive currents to the plurality of light-emitting points respectively; a photodetector for outputting signals indicating quantities of light entering thereto from the respective light-emitting points; a gain switch circuit for outputting photodetection signals obtained by amplifying the signals output from the photodetector in regard to the respective light-emitting points with gains preset for the respective light-emitting points; and a control circuit for controlling the drive circuits such that the photodetection signals output from the gain switch circuit in regard to the respective light-emitting points coincide with a value substantially equal to a predetermined reference value. The gains for the respective light-emitting points are preset based on the distances between the photodetector and the respective light-emitting points. | 08-21-2014 |
20140253657 | EXPOSURE DEVICE AND IMAGE FORMING APPARATUS - An exposure device, which emits light according to a gray level of image data, includes plural light emitting element lines arranged at different positions in a sub scanning direction, a number of the light emitting element lines being a number of bits representing a number of gray levels. Each of the light emitting element lines includes plural light emitting elements arranged in a line in a direction parallel to a main scanning direction, the light emitting elements numbers of layers of organic electro-luminescence light emitting elements being the same. The numbers of layers of the organic electro-luminescence light emitting elements laminated in the light emitting element lines, which are arranged at different positions in the sub scanning direction, are different from each other. | 09-11-2014 |
20140320577 | LIGHT-EMITTING COMPONENT, PRINT HEAD AND IMAGE FORMING APPARATUS - A light-emitting component includes: plural transfer thyristors each configured with a semiconductor layer stack laminating first to fourth semiconductor layers, and shifting to an ON state in order; plural coupling transistors each configured with the first to third semiconductor layers, provided to couple adjacent transfer thyristors, the first and the second semiconductor layers of the coupling transistor being continued to the first and the second semiconductor layers of the former transfer thyristor; plural first resistances, each provided between the third semiconductor layer of each transfer thyristor and a wiring for power supply; a second resistance having a resistance value smaller than a product of a resistance value of the first resistance and a ratio of a collector current of the coupling transistor to a cathode current of the transfer thyristor in the ON state; and plural light-emitting thyristors each configured with the semiconductor layer stack. | 10-30-2014 |
20140320578 | NOVEL CONDENSED POLYCYCLIC COMPOUND AND ORGANIC LIGHT EMITTING ELEMENT CONTAINING THE SAME - To provide a condensed polycyclic compound shown in the following General Formula [1], in which | 10-30-2014 |
20150077497 | SEMICONDUCTOR LIGHT-EMITTING ELEMENT, LIGHT SOURCE HEAD, AND IMAGE FORMING APPARATUS - A semiconductor light-emitting element formed of a semiconductor layer includes a multilayer reflecting mirror, a light-emitting layer, a resonator, and a phase shift layer. The multilayer reflecting mirror is formed on a substrate. The light-emitting layer is formed on the multilayer reflecting mirror. The resonator uses the multilayer reflecting mirror as a lower reflecting mirror and resonates light emitted from the light-emitting layer. The phase shift layer shifts a phase of a resonance spectrum of the resonator to generate a standing wave having plural principal modes. | 03-19-2015 |
20150097911 | LIGHT EMITTING PART, PRINT HEAD, AND IMAGE FORMING APPARATUS - A light emitting part includes plural light emitting thyristors that each have an anode and a cathode and that are lit in the on state; a light-on signal line that is connected with the cathodes or the anodes of the plural light emitting thyristors and that supplies current, the current which causes the plural light emitting thyristors to be lit; and a diversion thyristor that has an anode and a cathode, the anode or the cathode which is connected with the light-on signal line, and that diverts current, the current which flows to a light emitting thyristor to be lit among the plural light emitting thyristors in the on state. A potential of the light-on signal line may be set so that the diversion thyristor and at least one light emitting thyristor among the plural light emitting thyristors become the on state in parallel. | 04-09-2015 |
20160018754 | LIGHT EMISSION ELEMENT ARRAY CHIP, CHIP MOUNTING SUBSTRATE, AND IMAGE FORMING APPARATUS - A light emission element array chip includes light emission light groups each of which includes N light emission elements arranged in a sub-scanning direction. The light emission light groups include a first block of the light emission element groups arranged at intervals of a first predetermined distance in a main-scanning direction. The light emission light groups further include a second block of one or more of the light emission element groups at either end side of the light emission element array chip shifted from a position of each light emission element group included in the first block of the light emission element groups by a second predetermined distance in the sub-scanning direction. | 01-21-2016 |
347131000 | Dot density or dot size control (e.g., halftone) | 1 |
20140253658 | ELECTROSTATIC LATENT IMAGE FORMING METHOD, ELECTROSTATIC LATENT IMAGE FORMING APPARATUS, AND IMAGE FORMING APPARATUS - An electrostatic latent image forming method for forming, on an image carrier, an electrostatic latent image that has a pattern where there are an irradiated area and a not-irradiated area in a mixed manner, the electrostatic latent image forming method comprises; adjusting an exposure condition of an irradiated area that is included in the irradiated area and is adjacent to the not-irradiated area so that an electric field intensity of an electrostatic latent image that corresponds to the not-irradiated area is increased so as to prevent adhesion of a developer, and irradiating the image carrier with light under the adjusted exposure condition. | 09-11-2014 |
347132000 | Beam generator driving means | 10 |
20080231683 | IMAGE FORMING APPARATUS AND CONTROL METHOD FOR SAME - An image forming apparatus includes a light beam generation unit, a light deflector having a resonance frequency and deflecting a light beam, a photosensitive member to which the deflected light beam is irradiated, and a driving control unit driving and controlling the light deflector. The driving control unit can measure a difference between a frequency of a light-deflector driving signal and the light-deflector resonance frequency and a non-drawing time during which an image is not formed by the light deflector. When the difference between the frequency of the driving signal and the light-deflector resonance frequency is equal to or larger than a predetermined value and the non-drawing time is equal to or longer than a predetermined time, the driving control unit produces the driving signal having a frequency corresponding to the resonance frequency of the light deflector and supplies the produced driving signal to the light deflector. | 09-25-2008 |
20080303886 | Line Head and Image Forming Apparatus Incorporating the Same - In a line head, a plurality of element arrays arranged in a first direction. Each array includes a plurality of light emission elements arrayed in a second direction which is perpendicularly to the first direction. The light emission elements emit light for forming an electrostatic talent image on a photosensitive surface of an image carrier. A switcher activates the light emission elements in at least one of the element arrays while deactivating the others. A developer develops the latent image as a visible image with toner. | 12-11-2008 |
20100245520 | IMAGE FORMING APPARATUS - An image forming apparatus includes: a light source that emits a light beam; a photosensitive member; a driving motor; a rotary polygon mirror, which is rotated by the driving motor, and which periodically deflects the light beam emitted from the light source to sequentially form scanning lines on the photosensitive member; a position detecting unit, which detects a rotational position of the driving motor, and which outputs a detection signal; a sensor, which receives the light beam deflected by the rotary polygon mirror, and which outputs a light receiving signal; a detecting unit, which receives the detection signal and the light receiving signal, and which detects a rotation direction of the driving motor based on a timing pattern of a detection of the rotational position of the driving motor and a reception of the light beam by the sensor. | 09-30-2010 |
20110234734 | DRIVING DEVICE, OPTICAL PRINT HEAD AND IMAGE FORMING DEVICE - When the cathode of a light emitting thyristor is at the low (L) level, voltage is applied between the anode and cathode of the light emitting thyristor. In addition, because the gate of each thyristor and the gate of each light emitting thyristor are connected to each other in a self scanning circuit | 09-29-2011 |
20120262528 | SYSTEM AND METHOD TO IMPROVE SIDE 1 TO SIDE 2 IMAGE ON PAPER MAGNIFICATION DIFFERENCE AND IQ PERFORMANCE - Document processing systems and duplex printing methods are presented in which side | 10-18-2012 |
20150054902 | OPTICAL SCANNING DEVICE, IMAGE FORMING APPARATUS, AND OPTICAL SCANNING METHOD - An optical scanning device includes a light source emitting light to form an image by optical scanning; and a control section generating a control signal, which is for turning on and off the light source, based on an image signal. Further, the control section generates a pulse signal having a redetermined time width when the image signal indicates that the light source is to be turned off. | 02-26-2015 |
20150338763 | SIGNAL PROCESSING DEVICE, SIGNAL PROCESSING METHOD, AND IMAGE FORMING APPARATUS - A signal processing device that generates an output signal from image data by using a clock corresponding to the pixels of the image data, the signal processing device includes: a delayed signal group generating unit that generates a group of delayed signals with a delay element group formed with stages of delay elements; a clock adjusting unit that generates a modulation/synchronization clock from the group of delayed signals by referring to phase data matching the clock with a predetermined phase and frequency modulation coefficient data converting the clock to a predetermined frequency; and a PWM processing unit that generates a PWM signal from the group of delayed signals by referring to the phase data, the frequency modulation coefficient data, the modulation/synchronization clock, and the image data, the PWM signal having a pulse width corresponding to the value of the image data. | 11-26-2015 |
347133000 | Having feedback or environmental control | 3 |
20140267527 | OPTICAL WRITING DEVICE AND IMAGE FORMING APPARATUS - An optical writing device for forming an electrostatic latent image on a photoreceptor by exposing the photoreceptor to light modulated in accordance with image data. The optical writing device has: a substrate; a light-emitting-element array including a plurality of light-emitting elements supported by the substrate to be arranged in a main-scanning direction; and a light-receiving-element array substantially in parallel to the light-emitting-element array, the light-receiving-element array including a plurality of light-receiving elements supported by the substrate to be arranged in the main-scanning direction. For light-quantity measurement of one of the light-emitting elements, at least an output value output from one of the light-receiving elements of which center is located in a different position, with respect to the main-scanning direction, from a center of the one of the light-emitting elements is used. | 09-18-2014 |
20140300677 | SCANNING OPTICAL APPARATUS AND IMAGE FORMING APPARATUS - A scanning optical apparatus includes a light beam detection unit, a reference signal generation unit, and a returned light detection unit. The light beam detection unit decides whether the light beam reflected by the reflecting surface of a polygon mirror has entered the BD sensor, through comparison between an output value of the BD sensor and a predetermined first threshold. The reference signal generation unit generates a scan start reference signal in response to the decision that the light beam has entered the BD sensor. The returned light detection unit decides whether the light beam reflected by the reflecting surface has entered the internal light sensor, through comparison between an output value of the internal light sensor and a second threshold corresponding to light beam intensity higher than the intensity of the light beam reflected by the reflecting surface and corresponding to the first threshold. | 10-09-2014 |
20150116438 | METHOD OF CONTROLLING OPTICAL POWER OF LASER SCANNING UNIT AND IMAGE FORMING APPARATUS FOR PERFORMING THE METHOD - An image forming apparatus may include a laser scanning unit which irradiates light to a photosensitive body to form an image; a feedback information provision unit which provides feedback information used to control optical power of the laser scanning unit; and a main controller which controls the optical power of the laser scanning unit by adjusting a voltage that is applied to the laser scanning unit by using the feedback information. The main controller performs primary optical power control by comparing a density of a sample patch formed on the photosensitive body by the laser scanning unit, the density received from the feedback information provision unit, with a target density that is previously stored and performs secondary optical power control by comparing a feedback voltage received from the feedback information provision unit with the target voltage obtained during the primary optical power control. | 04-30-2015 |
347134000 | Optical elements interposed between record receiver and beam generator | 15 |
20080204539 | Rotary drive apparatus, optical scan apparatus, and image formation apparatus - A rotary drive apparatus includes a rotary body with a support portion, a rotor magnet supported by the support portion of the rotary body, a fixation section facing the rotor magnet and rotatably supporting the rotary body, and a winding coil provided in the fixation section, in which an expression E | 08-28-2008 |
20100245521 | IMAGE FORMING APPARATUS - An image forming apparatus includes: a light source that emits a light beam; a photosensitive member; a brushless motor including a stator where a plurality of coils are placed and a rotor where a plurality of magnets are placed; a rotary polygon mirror, which is rotated by the brushless motor, and which periodically deflects the light beam emitted from the light source to sequentially form scanning lines on the photosensitive member; an energization switching unit that turns on and off energizations of the coils; a voltage detecting unit that outputs a detection signal based on induced voltages that are generated in the coils by rotation of the rotor; and a control unit that controls turning on/off of the energizations by the energization switching unit based on the detection signal. | 09-30-2010 |
20140218456 | OPTICAL DEFLECTOR, OPTICAL SCANNING APPARATUS, AND IMAGE FORMING APPARATUS - An optical deflector including a rotary member supported by a bearing shaft and rotatively driven by a motor for deflecting a plurality of laser beams separated from each other in a rotational axis direction of the rotary member is disclosed. The optical deflector includes a polygon mirror having four sides arranged about the rotational axis direction. Each of the four sides is a continuous plane having a plurality of effective reflection areas separated from each other in the rotational axis direction. | 08-07-2014 |
20140267528 | IMAGING SYSTEM, WRITING HEAD, AND IMAGE FORMING APPARATUS - An imaging system includes incidence faces composed of optical faces having an image focusing function; prisms; and exit faces. The incidence faces are arranged with a first pitch along a first axial direction. The prisms are arranged with a second pitch along the first axial direction. The exit faces are arranged with a third pitch along the first axial direction. The first axial direction is set as a Y direction. A normal line direction of a face top of an optical face of the incidence face in a plane perpendicular to the first axial direction is set as a X direction. A direction perpendicular to the Y direction and the X direction is set as a Z direction. In a XZ cross-section plane, a width of the prism in the Z direction is smaller than a width of optical face of the incidence face in the Z direction. | 09-18-2014 |
20140267529 | OPTICAL SCANNING APPARATUS AND IMAGE FORMING APPARATUS - An optical scanning apparatus capable of fixing an optical member using a plate spring without forming a die cut hole and thus having high dust-proof performance includes a mirror supporting portion supporting a reflection mirror, and a projecting portion configured to form a gap between the reflection mirror supported on the mirror supporting portion and itself, and to deform the plate spring with the reflection mirror, and the projecting portion is provided with a cut hole for engaging the plate spring. | 09-18-2014 |
20140267530 | Scan Unit for an Imaging Device and Methods of Using Same - An imaging device scan unit, including an oscillator oscillating in a predetermined oscillation pattern; a light source generating a light beam for deflection by the oscillator and including a forward sweep portion when the oscillator moves in a first direction of the oscillation pattern and a reverse sweep portion when the oscillator moves in a second direction different from the first direction thereof; and components defining at least two optical paths for the light beam, the forward sweep portion of the light beam passes through a first optical path and the reverse sweep portion of the light beam passes through a second optical path, the second optical path reverses a sweep direction of the reverse sweep portion of the light beam such that the forward sweep portion and the reverse sweep portion of the light beam are in the substantially same direction when exiting the scan unit. | 09-18-2014 |
20140307037 | OPTICAL SCANNING APPARATUS AND IMAGE FORMING APPARATUS EQUIPPED WITH SCANNING APPARATUS - An optical scanning apparatus includes, a deflection unit configured to deflect first and second light fluxes in a main scanning direction by a same deflection surface, an incident optical system configured to cause the first and second light fluxes to enter the deflection surface, and an imaging optical system configured to converge the first and second light fluxes deflected by the deflection unit to first and second surfaces to be scanned, respectively. The imaging optical system includes first imaging optical element having an output surface including first and second curves that the first and second light fluxes respectively enter, and among light rays included in the first and second light fluxes, the light rays that are reflected by the first and second curves, intersect each other in a sub-scanning cross section perpendicular to the main scanning direction. | 10-16-2014 |
20150029284 | LIGHT SCANNING APPARATUS - A light scanning apparatus, including: a light source; a deflector having a rotary polygon mirror configured to deflect the light beam emitted from the light source, and a motor configured to rotate the polygon mirror; a plurality of reflecting mirrors configured to reflect the light beam to the photosensitive member; and an optical box on which the light source is mounted, wherein the optical box has an installation wall on which the deflector is installed and a support wall positioned on a side of the photosensitive member with respect to the polygon mirror, the support wall being provided with a support portion configured to support at least one reflecting mirror, a stepped portion having a plurality of steps is formed between the installation wall and the support wall, and a back surface of the stepped portion has a shape following an inside surface of the stepped portion. | 01-29-2015 |
20150085052 | Optical Scanning Device - In an optical scanning device, a first deflector rotates about a first axis in a first direction and deflects light to scan the deflected light, and a second deflector rotates about a second axis parallel to the first axis in a second direction opposite to the first direction and deflects light to scan the deflected light. The light detecting unit detects the light deflected by the first deflector and the light deflected by the second deflector. As viewed in an axial direction along the first and second axes, the light detecting unit is disposed on one side relative to a first line and between second and third lines, the first line passing through the first and second axes, the second line passing through the first axis and being perpendicular to the first line, and the third line passing through the second axis and being perpendicular to the first line. | 03-26-2015 |
20150309438 | EXPOSURE DEVICE AND IMAGE FORMING APPARATUS WITH EXPOSURE DEVICE - According to an embodiment, an exposure device has first and second eccentric cams. The first eccentric cam has an eccentric shape that supports a first mirror support point located near the center on one end side in a longitudinal direction of a mirror and varies a distance between a first rotary shaft and the first mirror support point in correspondence to rotation around the first rotary shaft. The second eccentric cam has an eccentric shape that supports a second mirror support point of two support points located on the other end side in the longitudinal direction of the mirror and varies a distance between a rotary shaft and the second mirror support point in correspondence to rotation around the rotary shaft. | 10-29-2015 |
347135000 | Light intensity modulation means | 1 |
20090160926 | Exposure Head and an Image Forming Apparatus - An image forming apparatus, includes: a latent image carrier that moves in a first direction; an exposure head that includes a first imaging optical system, a second imaging optical system that is distanced from the first imaging optical system in the first direction, a light emitting element that emits a light to be imaged on the latent image carrier by the first imaging optical system and a light emitting element that emits a light to be imaged on the latent image carrier by the second imaging optical system; and a controller that is adapted to control a light quantity of the light emitting element that emits a light to be imaged on the latent image carrier by the first imaging optical system in accordance with an imaging characteristic of the first imaging optical system. | 06-25-2009 |
347137000 | Lens | 4 |
20140267531 | LIGHT SCANNING APPARATUS AND IMAGE FORMING APPARATUS - A light scanning apparatus, including: a first holding member configured to hold a first light emitting element configured to emit a first light beam; a second holding member configured to hold a second light emitting element configured to emit a second light beam; a rotary polygon mirror; a first mounting portion on which the first holding member is mounted; and a second mounting portion on which the second holding member is mounted, the second mounting portion being provided adjacent to the first mounting portion, wherein the first mounting portion has a V-shape including two limbs in a cross section, and wherein one limb of the two limbs on the side of the second mounting portion is shorter than other limb of the two limbs on a side opposite to the side of the second mounting portion. | 09-18-2014 |
20150035931 | OPTICAL SCANNING DEVICE AND IMAGE FORMING APPARATUS USING SAME - Provided is an optical scanning device including a light source, a deflector, a scanning lens, a synchronizing sensor, a sensor lens and a control unit. The deflector causes a scanning line to be written within an effective scanning width of a surface to be scanned. The synchronizing sensor detects a light beam that is outside the range of the effective scanning width on a scanning start side of the scanning line. The control unit controls an emission operation of the light source, and starts the writing of the scanning line at a timing in which a fixed time is added to a timing that the synchronizing sensor has detected the light beam. The sensor lens includes a diffraction grating that bends the light beam in a downstream-side direction of the scanning line, and a bending degree of the light beam by the diffraction grating changes with temperature. | 02-05-2015 |
20150109398 | LIGHT SCANNING UNIT AND IMAGE FORMING APPARATUS EMPLOYING THE SAME - A light scanning unit includes a light source unit emitting a light beam according to an image signal, a light deflector scanning the light beam that is deflectively emitted by the light source unit, a housing having a side portion where the light source unit is provided and a base surface on which the light deflector is provided, and a deformation prevention member connecting opposite sides of the housing across an upper side of the base surface. The light scanning unit is employed by an image forming apparatus. | 04-23-2015 |
20150370192 | LENS, LIGHT SCANNING UNIT, AND ELECTROPHOTOGRAPHY TYPE IMAGE FORMING APPARATUS - A lens, a light scanning unit, and an electrophotography type image forming apparatus includes effective optical surfaces, wherein reference indicating portions to measure a decenter of the lens are arranged on the effective optical surfaces. | 12-24-2015 |
347138000 | Housing or mounting | 3 |
20140198169 | Image Forming Device with Exposure Unit and Pressing Member - An image forming device includes a photoconductive body, an exposure unit configured with a plurality of light emitting elements aligned in a predetermined direction, the exposure unit being adopted to expose the photoconductive body to light emitted by the light emitting elements, a frame configured to support both sides of the exposure unit in the predetermined direction, the frame having a reference portion configured to position the exposure unit in the predetermined direction in contact with an end of the exposure unit in the predetermined direction, and a pressing member provided to one of the frame and the exposure unit, the pressing member being configured to press the end of the exposure unit against the reference portion. | 07-17-2014 |
20140204167 | Image Forming Apparatus Having Exposing Unit Positioning Member - An image forming apparatus is provided. The image forming apparatus includes: plural photosensitive members; plural exposing units opposed to the photosensitive members, respectively, each of the exposing units including a plurality of light emitting elements arranged in a first direction; and a body frame which is provided at both sides of the exposing units in the first direction. Each of the exposing units includes: a gap maintaining member which abuts a respective one of the photosensitive members to define a distance between the exposing unit and the photosensitive member; a first-direction positioning portion which abuts the body frame in the first direction to position the exposing unit in the first direction; and a second-direction positioning portion which abuts the body frame in a second direction perpendicular to the first direction and an exposing direction of the light emitting elements, to position the exposing unit in the second direction. | 07-24-2014 |
20140210929 | ELECTROPHOTOGRAPHIC IMAGE FORMING APPARATUS - An electrophotographic image forming apparatus ( | 07-31-2014 |
347139000 | Record receiver or conveyor means therefor | 1 |
20150124040 | ELECTROSTATIC ADSORPTIVE BELT AND METHOD OF MANUFACTURING THEREOF, ASSEMBLY, AND CONVEYANCE SYSTEM - There is provided with a method of manufacturing an electrostatic adsorptive belt. A portion for forming an electrode pattern on a first resin layer is irradiated with an ultraviolet laser beam. A region including the portion for forming the electrode pattern on the first resin layer is oxidated. The electrode pattern if formed on the first region layer by plating. A second resin layer is formed on a surface of the first resin layer on which the electrode pattern is formed. | 05-07-2015 |