Patent application number | Description | Published |
20090169236 | LUBRICANT APPLYING DEVICE AND IMAGE FORMING APPARATUS - In a lubricant applying device, a position adjusting member adjusts relative positions of a lubricant and a rotating member. The rotating member rotates while in contact with the lubricant, receives the lubricant, and applies the lubricant to an image carrier in an image forming apparatus. | 07-02-2009 |
20110150540 | TRANSFER DEVICE AND IMAGE FORMING APPARATUS - An image forming apparatus includes an intermediate transfer belt, a photosensitive belt, a primary transfer roller, a secondary-transfer opposing roller, and a secondary transfer roller. The photosensitive belt comes into contact with a surface of the intermediate transfer belt to form a primary transfer nip. The secondary-transfer opposing roller comes into contact with the surface of the intermediate transfer roller to form a secondary transfer nip. The closest distance between a surface of the photosensitive belt and that of the primary transfer roller is greater than the thickness of the intermediate transfer belt. A toner image on the intermediate transfer belt is transferred onto a recording sheet at the secondary transfer nip while a transfer bias is applied to the secondary transfer roller. | 06-23-2011 |
20130306440 | BELT POSITIONING SYSTEM, MULTI-ROLLER ASSEMBLY AND IMAGE FORMING APPARATUS EMPLOYING SAME - A belt positioning system for positioning a movable belt entrained about a plurality of generally parallel rollers for moving in a trans-axial direction perpendicular to an axial direction in which the rollers extend parallel to each other includes a flange. The flange is operatively connected to an axial end of a specific one of the plurality of generally parallel rollers to define a contact surface therealong which extends generally perpendicular to the axial direction to contact an adjoining edge of the belt. The contact surface of the flange is spaced apart from the axial end of the roller in the axial direction. | 11-21-2013 |
20130306441 | BELT POSITIONING SYSTEM, MULTI-ROLLER ASSEMBLY AND IMAGE FORMING APPARATUS EMPLOYING SAME - A belt positioning system for positioning a movable belt entrained about a plurality of generally parallel rollers for moving in a trans-axial direction perpendicular to an axial direction in which the rollers extend parallel to each other includes a tapered flange. The tapered flange is operatively connected to an axial end of a specific one of the plurality of generally parallel rollers, and includes a generally planar contact surface and an angled guide surface. The generally planar contact surface extends generally perpendicular to the axial direction to contact an adjoining edge of the belt. The angled guide surface extends radially outward from the contact surface and has a diameter increasing outward in the axial direction. | 11-21-2013 |
20140008184 | BELT TRACKING SYSTEM, MULTI-ROLLER ASSEMBLY AND IMAGE FORMING APPARATUS EMPLOYING SAME - A belt tracking system for controlling the lateral position of a movable belt entrained about a plurality of generally parallel rollers for moving in a trans-axial direction perpendicular to an axial direction in which the rollers extend parallel to each other includes a roller shaft, a stationary member, a slidable member, and a biasing mechanism. The roller shaft extends outward in the axial direction from an axial end of a specific one of the plurality of generally parallel rollers. The stationary member is fixed in position adjacent to the roller shaft to define a first interfacial surface therealong. The slidable member is co-movably coupled with the roller shaft to define a second interfacial surface therealong inclined relative to the axial direction. The biasing mechanism is connected to the roller shaft to press the slidable member against the stationary member. | 01-09-2014 |
20140083821 | BELT TRACKING SYSTEM, MULTI-ROLLER ASSEMBLY AND IMAGE FORMING APPARATUS EMPLOYING SAME - A belt tracking system for controlling the lateral position of a movable belt entrained about a plurality of generally parallel rollers for moving in a trans-axial direction perpendicular to an axial direction in which the rollers extend parallel to each other includes a roller shaft, a slidable member, and a rotation restrictor. The roller shaft extends outward in the axial direction from an axial end of a specific one of the plurality of generally parallel rollers. The slidable member is slidably disposed around the roller shaft to move along the roller shaft as the belt moves laterally outward in the axial direction. The rotation restrictor is disposed adjacent to the slidable member to restrict rotation of the slidable member around the roller shaft. | 03-27-2014 |
20140183007 | BELT TRACKING SYSTEM, ROLLER ASSEMBLY, AND IMAGE FORMING APPARATUS INCLUDING SAME - A belt tracking system for adjusting misalignment of a movable belt in an axial direction of a plurality of rollers about which the movable belt is entrained includes a slope member and a stationary shaft guide. The slope member is disposed at both ends of at least one of the plurality of rollers in the axial direction, to tilt the roller as the belt moves in the axial direction. The stationary shaft guide contacts the slope member. A distance between a contact point of the slope member that contacts the stationary shaft guide and an end portion of the slope member in the axial direction is longer than a maximum traveling distance that the slope member travels in the axial direction. | 07-03-2014 |
20140209437 | BELT TRACKING SYSTEM, ROLLER ASSEMBLY, AND IMAGE FORMING APPARATUS INCLUDING SAME - A belt tracking system for adjusting displacement of a movable belt in an axial direction of a plurality of rollers about which the movable belt is entrained includes a slope member and a roller shaft support. The slope member is disposed at least at one end of at least one of the plurality of rollers in the axial direction, to tilt the roller due to movement of the belt. The roller shaft support rotates about a predetermined shaft and includes a shaft recovery member to recover a tilt of the slope member. The shaft recovery member is disposed within a shortest circumference of a closed curve among closed curves within which the slope member and the roller shaft support are disposed in a state in which the roller shaft support is rotated. | 07-31-2014 |
20150117914 | CONVEYOR SYSTEM AND IMAGE FORMING APPARATUS INCLUDING SAME - A conveyor system includes a first conveyor belt entrained about a separation roller and a support roller disposed upstream from the separation roller, a second conveyor belt entrained about a first roller disposed at an uppermost stream in a transport direction of a sheet-type medium and a second roller disposed downstream therefrom, a belt alignment device to tilt a rotary shaft of the separation roller to restrict a range of belt mistracking of the first conveyor belt in a width direction thereof within a predetermined range, and a restriction member to restrict an amount of inclination of the rotary shaft such that a hypothetical extended plane, which is a hypothetical extension of the outer circumferential surface of the first conveyor belt between the separation roller and the support roller to a downstream side in the transport direction, does not contact a rotational center axis of the first roller. | 04-30-2015 |
20150125189 | BELT ASSEMBLY AND IMAGE FORMING APPARATUS INCLUDING SAME - A belt assembly includes a belt, a plurality of support rollers, and a shaft-end retainer. The belt is formed into an endless loop, entrained about and stretched taut between the plurality of support rollers with a rotary shaft. The plurality of support rollers includes a first support roller and a second support roller. The shaft-end retainer including a first retainer and a second retainer is disposed at each end of the rotary shaft of the plurality of support rollers. The first retainer detachably holds an end of the rotary shaft of the first support roller. The second retainer detachably holds an end of the rotary shaft of the second support roller and includes a second-retainer opening from which the end of the rotary shaft of the second roller is detachable from and attachable to the second retainer in a direction perpendicular to the rotary shaft of the second support roller. | 05-07-2015 |
20150227089 | BELT ASSEMBLY AND IMAGE FORMING APPARATUS INCLUDING SAME - A belt assembly includes a belt formed into an endless loop, a plurality of support rollers with a rotary shaft, a shaft-end retainer, a movable supporting member, and a drive transmission device. The plurality of support rollers includes a first support roller and a second support roller. The shaft-end retainer is disposed at each end of the rotary shaft of the plurality of support rollers. The movable supporting member supports the first support roller and is movably disposed relative to the shaft-end retainer. The drive transmission device transmits a driving force to one of the plurality of support rollers. The drive transmission device and the movable supporting member are disposed on a same side as the shaft-end retainer in an axial direction of the plurality of support rollers. The drive transmission device is disposed between the shaft-end retainer and the movable supporting member in the axial direction. | 08-13-2015 |
Patent application number | Description | Published |
20090102532 | Latch circuit - A latch circuit includes: a first terminal; a second terminal; a first data-gating circuit coupled to the first terminal and the second terminal, the first data-gating circuit non-reversely gating the second signal in response to the first signal to reveal a third signal; a second data-gating circuit coupled to the first terminal and the second terminal, the second data-gating circuit reversely gating the second signal in response to the first signal to reveal a fourth signal; a third terminal receiving a fifth signal; a selector circuit coupled to the first data-gating circuit and the second data-gating circuit, the selector circuit outputting one of the third signal and the fourth signal in response to the fifth signal to latch one of the third signal and the fourth signal, respectively; and a bistable circuit coupled to the selector circuit, the bistable circuit holding one of the third signal and the fourth signal. | 04-23-2009 |
20110260784 | DECOUPLING CIRCUIT AND SEMICONDUCTOR INTEGRATED CIRCUIT - A decoupling circuit includes an inverter. The inverter includes i (i is an integer of 1 or more) PMOS transistors each having a first gate electrode, and j (j is an integer of 0 or more) PMOS transistors each having a second gate electrode. The inverter includes m (m is an integer of 1 or more) NMOS transistors each having a third gate electrode, and n (n is an integer of 0 or more) NMOS transistors each having a fourth gate electrode. The first to fourth gate electrodes are coupled to an input end of the inverter. A total area of the first and second gate electrodes is different from a total area of the third and fourth gate electrodes. | 10-27-2011 |
20130181765 | DECOUPLING CIRCUIT AND SEMICONDUCTOR INTEGRATED CIRCUIT - A decoupling circuit includes an inverter. The inverter includes i (i is an integer of 1 or more) PMOS transistors each having a first gate electrode, and j (j is an integer of 0 or more) PMOS transistors each having a second gate electrode. The inverter includes m (m is an integer of 1 or more) NMOS transistors each having a third gate electrode, and n (n is an integer of 0 or more) NMOS transistors each having a fourth gate electrode. The first to fourth gate electrodes are coupled to an input end of the inverter. A total area of the first and second gate electrodes is different from a total area of the third and fourth gate electrodes. | 07-18-2013 |
20150102850 | DECOUPLING CIRCUIT AND SEMICONDUCTOR INTEGRATED CIRCUIT - A decoupling circuit includes an inverter. The inverter includes i (i is an integer of 1 or more) PMOS transistors each having a first gate electrode, and j (j is an integer of 0 or more) PMOS transistors each having a second gate electrode. The inverter includes m (m is an integer of 1 or more) NMOS transistors each having a third gate electrode, and n (n is an integer of 0 or more) NMOS transistors each having a fourth gate electrode. The first to fourth gate electrodes are coupled to an input end of the inverter. A total area of the first and second gate electrodes is different from a total area of the third and fourth gate electrodes. | 04-16-2015 |
Patent application number | Description | Published |
20090200923 | ORGANIC ELECTROLUMINESCENT DEVICE AND ORGANIC ELECTROLUMINESCENT DISPLAY DEVICE - An organic EL device having excellent light-emitting properties, particularly a long lifetime, by controlling a balance between a hole and an electron, which is required for light-emitting in the organic EL device, includes a structure in which an anode, an organic layer including a light-emitting layer, and a cathode are stacked on a substrate in this order, wherein the light-emitting layer includes two or more different light-emitting materials, and a difference in photoluminescence peak wavelength between the two or more different light-emitting materials is about 50 nm or less. | 08-13-2009 |
20150207104 | LAMINATE, METHOD FOR PRODUCING LAMINATE, ELECTRODE, EL ELEMENT, SURFACE LIGHT EMITTER, AND SOLAR CELL - A laminate is described, including a substrate, an undercoat layer on the substrate, and an inorganic film on the undercoat layer. The material of the inorganic film is at least one material of a conductive metal oxide and a metal nitride. In an image obtained by Fourier transforming an image obtained by using an atomic force microscope to take a picture of a surface of the inorganic film, the azimuth angle of the image obtained from the Fourier transformation from the center of the image toward the direction of 12 o'clock is set to 0°. In approximate curves of 36 brightness value plots obtained by radially plotting the brightness values every 10° from 0°, a maximum value is observed in 18 or more of the approximate curves. | 07-23-2015 |
Patent application number | Description | Published |
20090009184 | Test circuit and test method - In a test circuit, a first N-channel transistor with an open drain is connected to a receiver in a test target integrated circuit and is configured to generate a first amplitude voltage signal in response to a first voltage drive signal. A second N-channel transistor with an open drain is connected to the receiver in the test target integrated circuit and is configured to generate a second amplitude voltage signal in response to a second voltage drive signal complimentary to the first voltage drive signal. | 01-08-2009 |
20100013526 | Current driving circuit - In current driving circuit a desired value of a driving current is promptly written in a load of each pixel despite load variations that may occur in each pixel. A constant current source circuit delivers a driving current Idata to a load. An output voltage difference amplifier circuit detects a voltage change produced at a load driving end within a preset time period, and delivers a current or a voltage corresponding to the voltage change during a time period different from the preset time period. The output voltage difference amplifier circuit temporally repeats detection of the voltage change and delivery of the current or the voltage to the load. | 01-21-2010 |
20110001516 | CIRCUIT, APPARATUS, AND METHOD FOR SIGNAL TRANSFER - A signal transfer circuit according to the present invention includes a differential signal generation unit that generates a differential signal according to a voltage difference between two input signals, a voltage difference detection unit that detects a voltage difference between the two input signals input to the differential signal generation unit, and a signal output unit that outputs a signal including a predetermined value if the voltage difference is not detected by the voltage difference detection unit, and outputs the differential signal generated by the differential signal generation unit if the voltage difference is detected by the voltage detection unit. | 01-06-2011 |
20120212261 | CURRENT DRIVING CIRCUIT - A current driving circuit includes a constant current source circuit delivering a driving current to a load, and an output voltage difference amplifier circuit detecting a voltage change produced at a load driving end during a preset time period and delivering a current or a voltage corresponding to the voltage change to the load during a time period different from the preset time period. During first time period, capacitance circuit compares potential during a preceding time period to that during the current time period, and causes a potential at the load driving end during the current time period to store in any of capacitance elements depending on result of comparison. The amplifier circuit buffering an average value of the potential values stored in the capacitance elements during the second time period following the first time period, to deliver the average value to the load. | 08-23-2012 |