Patent application number | Description | Published |
20080310893 | TRANSFER DEVICE AND IMAGE FORMING APPARATUS - An endless belt is supported by a plurality of rollers. A transfer roller comes in contact with an outer surface of the belt to form a transfer nip. An auxiliary member makes contact with a recording medium on an upstream side of the transfer nip in a movement direction of the belt, to cause the recording medium to be in close contact with the outer surface of the belt. A bias applying unit applies to the auxiliary member a bias for electrostatically transferring a toner adhered to the auxiliary member to the outer surface of the belt. | 12-18-2008 |
20090014288 | BELT DEVICE AND IMAGE FORMING APPARATUS - A belt including a first roller is supported by a plurality of rollers, and is driven to rotate in a predetermined direction. An abutting member makes contact with at least one edge of the belt in its width direction. A pressing member applies a pressure on an extended surface of the belt in its thickness direction at a position near a contact portion of the belt with the abutting member and on an upstream side of the contact portion in its moving direction. | 01-15-2009 |
20090016772 | BELT DEVICE AND IMAGE FORMING APPARATUS - A belt is supported by a plurality of rollers and is driven to move in a predetermined direction. A flange member is configured to make contact with a portion of an edge surface of the belt in its width direction. A pressing member presses on a surface of the belt in its thickness direction at a position near a contact portion of the belt with the flange member. | 01-15-2009 |
20090279909 | IMAGE FORMING APPARATUS AND CONTROL METHOD THEREFOR - An image forming apparatus includes an exposure mechanism to form a latent image by exposure, a latent-image carrier to hold the latent image, a charging mechanism to charge the latent-image carrier evenly, a development device to develop a latent image on the latent-image carrier into a toner image, a transfer mechanism to transfer the toner image formed on the latent-image carrier onto a transfer material, at least one asperity profile reading mechanism to read an asperity of an entire image area of the transfer material at least in a width direction thereof onto which a toner image is to be transferred, and a control mechanism to adjust a toner adhesion amount of the toner image transferred to the transfer material in accordance with a localized asperity of a surface of the transfer material read by the asperity profile reading mechanism. | 11-12-2009 |
20130058670 | IMAGE DEVELOPING DEVICE, PROCESS CARTRIDGE INCLUDING IMAGE DEVELOPING DEVICE, AND IMAGE FORMING DEVICE INCLUDING IMAGE DEVELOPING DEVICE - An image developing device includes a developer supporting body; a first conveyance path in which a first conveyance member is arranged; a second conveyance path in which a second conveyance member is arranged; and a partition member that partitions the first conveyance path and the second conveyance path and that has a first communication port and a second communication port. The first communication path and the second communication path communicates with each other through the first communication port and the second communication port. The image developing device includes a developer amount detection unit that includes an optical detection unit arranged in the second conveyance path and that optically detects an amount of the developer in the image forming device. The developer is caused to accumulate in the vicinity of the developer amount detection unit. | 03-07-2013 |
20130195487 | COLOR IMAGE FORMING APPARATUS - Provided is a color image forming apparatus that includes: image carriers that form toner image of black and other colors; an intermediate transfer body that makes contact with the image carriers; and transfer units that transfer the toner images on the image carriers to the intermediate transfer body. A line velocity difference is set between the image carriers and the intermediate transfer body. An accelerated cohesion degree of toner is equal to or larger than 54%. A linear velocity difference X | 08-01-2013 |
20130236217 | DEVELOPMENT DEVICE, AND IMAGE FORMING APPARATUS AND PROCESS UNIT INCORPORATING SAME - A development device to develop a latent image using developer having a degree of agglomeration of 54% or greater includes a developer bearer to carry developer thereon, and a developer supply member to contact the developer bearer to supply developer to a surface of the developer bearer. The developer supply member is disposed to satisfy at least one of two conditions: a biting amount of the developer supply member relative to the developer bearer is 0.7 mm or greater; and a contact pressure of the developer supply member against the developer bearer is 30 N/m or greater. | 09-12-2013 |
20130266332 | IMAGE FORMING APPARATUS AND IMAGE FORMING METHOD - An image forming apparatus including a latent image bearing member, a charger, a latent image forming device, a developing device, and a transfer device is provided. The transfer device is adapted to transfer a toner image formed on the latent image bearing member onto an intermediate transfer member or a recording medium by action of a transfer elected field in a transfer position where the latent image bearing member faces the transfer device. When a non-charged portion of the latent image bearing member that has not been charged to a predetermined potential by the charger passes through the transfer position, a strength of the transfer electric field is lowered than that in transferring the toner image. | 10-10-2013 |
20140153955 | IMAGE FORMING APPARATUS - An image forming apparatus includes an image bearing member to bear a latent image on a surface thereof, a developing device to develop the latent image with toner, an intermediate transfer member, a secondary transfer member, a cleaning device, and a main body. The cleaning device cleans the secondary transfer member for a predetermined time period T1 during a startup operation after printing is completed normally before subsequent printing. The main body houses the image bearing member, the developing device, the intermediate transfer member, the secondary transfer member, and the cleaning device. At least one of the image bearing member and the developing device constitutes a process cartridge detachably attachable relative to the main body, and in a case in which the process cartridge is installed in the main body, the cleaning device cleans the secondary transfer member for a time period T2 extended from the predetermined time period T1. | 06-05-2014 |
20140153982 | FIXING DEVICE AND IMAGE FORMING APPARATUS - A fixing device includes a nip formation pad disposed opposite an inner circumferential surface of an endless belt and a pressing rotary body pressed against the nip formation pad via the endless belt to form a fixing nip between the endless belt and the pressing rotary body, through which a recording medium is conveyed. The pressing rotary body has a diameter increasing from a center to each lateral end in an axial direction thereof. The nip formation pad includes a projection disposed downstream from a rotation axis of the pressing rotary body in a recording medium conveyance direction. The projection projects toward the pressing rotary body in an amount increasing from each lateral end to a center in a longitudinal direction of the nip formation pad parallel to the axial direction of the pressing rotary body. | 06-05-2014 |
Patent application number | Description | Published |
20120138176 | FLOW CHANNEL STRUCTURE - A flow channel structure that includes a first inlet path for a first fluid, a second inlet path for a second fluid, a merging portion that merges, in the thickness direction of a substrate, the first fluid and the second fluid, a first merged fluid channel in which both fluids merged in the merging portion flow along a top surface of the substrate, a flow direction altering portion that causes the flow direction of the fluid flowing through the first merged fluid channel to change from the top surface side of the substrate towards the back surface side thereof, and a second merged fluid channel for changing the flow direction of this fluid to flow to the downstream side so that the fluid flowing from the first merged fluid channel through the flow direction altering portion flows along the back surface of the substrate. | 06-07-2012 |
20120234755 | FLOW CHANNEL STRUCTURE, AND MIXING METHOD, EXTRACTION METHOD, AND REACTION METHOD FOR FLUIDS - To promote mixture of fluids on a plurality of stages, flow channels include a plurality of merging portions which penetrate from a top surface to a back surface of a substrate. An end of each of the sub channels is disposed so as to overlap the main channel at each of positions separated along the direction in which the main channel extends, and each of the merging portions communicates the main channels and the ends of the sub channels with each other, thereby changing a flow direction of the second fluid flowing through the sub channels to the thickness direction of the substrate, and merges the second fluid with the first fluid flowing through the main channels. | 09-20-2012 |
20130118588 | FLUID TREATMENT METHOD - Provided is a fluid treatment method for treating fluid by use of a flow passage structure, comprising the steps of: circulating a mixed fluid formed by mutually-mixed plural types of fluid into a mixed fluid flow passage (mixed fluid circulation step); separating, in a separation space leading to the downstream side of the mixed fluid flow passage, the mixed fluid entered from the mixed fluid flow passage into a light fluid with a small specific gravity and a heavy fluid with a larger specific gravity than that of the light fluid in accordance with the difference in specific gravity, in which the separation space has a cross-sectional shape such that the light fluid and the heavy fluid are mutually separated in accordance with the difference in specific gravity; causing the heavy fluid to flow from the separation space to a heavy flow passage leading to an area where the heavy fluid is collected in the separation space; and causing the light fluid to flow from the separation space to a light flow passage leading to an area where the light fluid is collected in the separation space. | 05-16-2013 |
20130153071 | FLOW PASSAGE STRUCTURE - A flow passage structure having a plurality of flow passageways therein includes a first junction portion for joining a first fluid introduced into a first inlet path and a second fluid introduced into a second inlet path, a first joined fluid flow passage through which a fluid made by joining both the fluids flows, a branch portion for dividing the fluid flowing in the first joined fluid flow passage into two fluids, a first branch path through which one of the two divided fluids flows, and a second branch path through which the other flows, wherein a corresponding diameter of the first branch path and a corresponding diameter of the second branch path in each of the passageways are smaller than a corresponding diameter of the first joined fluid flow passage in the passageway. | 06-20-2013 |
20140133262 | LIQUID MIXING METHOD AND DEVICE - Provided is a method of mixing first and second liquids having mutual solubility inside a mixing flow channel formed by a micro flow channel. This method includes: causing the first and second liquids to be joined to each other inside the mixing flow channel; and forming a slug flow, in which mixing subject cells ( | 05-15-2014 |
20140286845 | METHOD FOR REMOVING NITROGEN OXIDES - This method for removing nitrogen oxides brings exhaust gas containing oxygen and at least one nitrogen oxide selected from the group consisting of nitrogen monoxide and nitrogen dioxide into contact with ammonia without the presence of a catalyst, for at least 0.5 seconds under a temperature of no less than 900 DEG C., and breaks down the nitrogen oxide. According to this method, it is possible to remove nitrogen oxides in a highly efficient manner and significantly reduce the amount of unreacted ammonia. | 09-25-2014 |
Patent application number | Description | Published |
20130068299 | SPHERICAL PHOSPHOR, WAVELENGTH CONVERSION-TYPE PHOTOVOLTAIC CELL SEALING MATERIAL, PHOTOVOLTAIC CELL MODULE, AND PRODUCTION METHODS THEREFOR - A spherical phosphor is formed by including a fluorescent substance and a transparent material including the fluorescent substance. In addition, a wavelength conversion-type photovoltaic cell sealing material is formed by including a light transmissive resin composition layer including the spherical phosphor and a sealing resin. | 03-21-2013 |
20130074928 | WAVELENGTH CONVERSION TYPE PHOTOVOLTAIC CELL SEALING SHEET AND PHOTOVOLTAIC CELL MODULE - A wavelength conversion type photovoltaic cell sealing sheet of the present invention includes a dispersion medium resin, and a fluorescent material having an absorption wavelength peak at from 300 to 450 nm, wherein a content of an ultraviolet absorber other than the fluorescent substance is 0.15 parts by mass or less with respect to 100 parts by mass of the dispersion medium resin. Furthermore, a photovoltaic cell module of the present invention has a photovoltaic cell and the wavelength conversion type photovoltaic cell sealing sheet. | 03-28-2013 |
20130080116 | WAVELENGTH-CONVERTING RESIN COMPOSITION FOR PHOTOVOLTAIC CELL AND PHOTOVOLTAIC CELL MODULE - A wavelength-converting resin composition for a photovoltaic cell, comprising: a fluorescent substance having a maximum absorption wavelength in an absorbance spectrum of which being λ | 03-28-2013 |
20130090460 | RARE EARTH METAL COMPLEX - A rare earth metal complex including a rare earth element and a β-diketone compound represented by the following formula (1) as a ligand, and in formula (1), R | 04-11-2013 |
20130125985 | WAVELENGTH CONVERSION TYPE PHOTOVOLTAIC CELL SEALING MATERIAL AND PHOTOVOLTAIC CELL MODULE - A wavelength conversion type photovoltaic cell sealing material according to the present invention includes a first sealing layer that contains no fluorescent substance and a second sealing layer that contains a fluorescent substance. This wavelength conversion type photovoltaic cell sealing material is used as one of the light transmissive layers of a photovoltaic cell module and is disposed at a light receiving surface side of a solar cell. | 05-23-2013 |
20130231468 | RARE EARTH METAL COMPLEX - Provided is a rare earth metal complex including a rare earth metal atom and a β-diketone compound coordinated to the rare earth metal atom, the β-diketone compound being represented by the following Formula (1). In Formula (1), R | 09-05-2013 |
20130255778 | SPHERICAL PHOSPHOR, WAVELENGTH CONVERSION-TYPE PHOTOVOLTAIC CELL SEALING MATERIAL, PHOTOVOLTAIC CELL MODULE, AND PRODUCTION METHODS THEREOF - A spherical phosphor includes a fluorescent substance having a maximum excitation wavelength of 400 nm or longer; and a transparent material containing the fluorescent substance, in which, in an excitation spectrum, an excitation spectral intensity in a wavelength region of from 340 nm to 380 nm is 50% or higher of an excitation spectral intensity at a maximum excitation wavelength. A wavelength conversion-type photovoltaic cell sealing material includes a light-permeable resin composition layer that contains the spherical phosphor and a sealing resin. | 10-03-2013 |
20130310547 | RARE EARTH METAL COMPLEX - Provided is a rare earth metal complex including a rare earth metal atom and a β-diketone compound coordinated to the rare earth metal atom, the β-diketone compound being represented by the following Formula (1). In Formula (1), R represents a monovalent aromatic hydrocarbon group or a monovalent aromatic heterocyclic group. | 11-21-2013 |
20130328149 | WAVELENGTH CONVERSION-TYPE PHOTOVOLTAIC CELL SEALING MATERIAL AND PHOTOVOLTAIC CELL MODULE USING THE SAME - The present invention provides a wavelength conversion-type photovoltaic cell sealing material, the sealing material including at least one light emitting layer containing a group of spherical phosphors, the group of spherical phosphors having a ratio of a median value D | 12-12-2013 |
20150047703 | INORGANIC PHOSPHOR-CONTAINING POLYMER PARTICLES, METHOD FOR PRODUCING INORGANIC PHOSPHOR-CONTAINING POLYMER PARTICLES, AND PHOTOVOLTAIC CELL MODULE - Inorganic phosphor-containing polymer particles that include an inorganic phosphor and a transparent material. The transparent material is preferably a vinyl resin that is a polymer of a vinyl compound. It is preferable that the vinyl compound includes 10% by mass or more of a vinyl compound having a viscosity (at 25° C.) of from 5 mPa·s to 30 mPa·s, or includes at least one of a compound having a structure represented by the following Formula (I-1) or the following Formula (I-2). In Formulae (I-1) and (1-2), each of R | 02-19-2015 |