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| 20080239007 | PRINT HEAD - The present invention provides a print head that allows the characteristics of ejected ink to be adjusted for each ejection port in spite of a variation in the distance from an ink supply port to the heating element. In the print head according to the present invention, the area of the heating element decreases with increasing distance from the ink supply port and increases with decreasing distance from the ink supply port. The heating element is shaped like a rectangle that is longer in a direction orthogonal to a direction in which the plurality of ejection ports are arranged than in the direction in which the plurality of ejection ports are arranged. The aspect ratio of the heating element depends on the length of an ink channel through which ink is introduced into the bubbling chamber. | 10-02-2008 |
| 20080239011 | INK JET RECORDING HEAD AND LIQUID JETTING METHOD - A liquid recording head includes thermal energy generating means, having a flat plate configuration, for generating a bubble by thermal energy; a pressure chamber in which said thermal energy generating means is provided; a flow path for introducing liquid into said pressure chamber; a supply port in fluid communication with said flow path; and an ejection outlet provided at a position opposing said thermal energy generating means in fluid communication with said pressure chamber, wherein said thermal energy generating means includes a first major surface facing said ejection outlet and a second major surface opposite said first major surface, and wherein a distance between said first major surface and ceiling surface of said pressure chamber in which said ejection outlet is formed is shorter than a distance between said second major surface and a bottom surface of said pressure chamber. | 10-02-2008 |
| 20090015635 | INK JET RECORDING METHOD - A method for discharging liquid from a recording head including a first discharge port configured to discharge a liquid, a second discharge port configured to discharge a liquid, an amount of which is smaller than an amount of the liquid discharged from the first discharge port, and a substrate including a first heating element corresponding to the first discharge port, a second heating element corresponding to the second discharge port and the liquid supply port, wherein a distance between the liquid supply port and the second heating element is longer than a distance between the liquid supply port and the first heating element, and wherein discharge of the liquid from the first discharge port is performed by a discharge method in which a bubble formed by the first heating element communicates with atmosphere and an amount of the liquid discharged from the second discharge port is less than 2 pico liters. | 01-15-2009 |
| 20090058933 | INK JET PRINT HEAD - An object of the present invention is to provide an ink jet print head having plural types of nozzles arranged on the same substrate and through which ink droplets of different sizes are ejected, the ink jet print head exhibiting acceptable ejection performance regardless of the type of the nozzle. Thus, according to the present invention, each of the plural types of nozzles includes a bubbling chamber having an ejection energy generating element allowing an ink droplet to be ejected to a position located opposite an ejection port and an ejection port portion allowing the ejection port and the bubbling chamber to communicate with each other. Ratio of opening area of the ejection port portion at a position where the ejection port portion and the bubbling chamber communicate with each other, to the opening area of the ejection port is higher for the nozzle with a smaller ejection amount. | 03-05-2009 |
| 20090058948 | LIQUID EJECTION HEAD AND RECORDING APPARATUS - A liquid ejection head includes a plurality of ejection outlets for ejecting a liquid droplet; a plurality of flow paths communicating with the ejection outlets; an ink supply port for supplying liquid to the flow paths; and a plurality of heat generating elements provided correspondingly to the ejection outlets, for generating thermal energy for ejecting liquid present inside the flow paths. The plurality of heat generating elements is arranged in a staggered fashion with predetermined intervals with respect to a direction of a long side of the ink supply port. Adjacent staggered ones of the heat generating elements are connected to a common wiring line and are connected to individual wiring lines. | 03-05-2009 |
| 20090066752 | LIQUID JET HEAD - A liquid ejecting head includes a plurality of nozzles each including an ejection outlet for ejecting a droplet, an ejection energy generating element, disposed at a position opposing the ejection outlet, for generating energy for ejecting a droplet, a pressure chamber provided with the ejection energy generating element and fluidly communicating with the ejection outlet, and a supply passage for supplying the liquid to the pressure chamber, wherein the nozzles include a first nozzle and a second nozzle which are connected with respective ones of the supply passages having lengths different from each other, wherein the first nozzle and the second nozzle are, disposed at one end portion with respect to a widthwise direction of an elongated supply chamber for supplying the liquid to the first nozzle, wherein the supply passage for the first nozzle extends in a direction perpendicular to a direction of liquid ejection from the ejection outlet and fluidly communicates with the supply chamber, and wherein the supply passage for the first nozzle extends in a direction parallel with the direction of liquid ejection. | 03-12-2009 |
| 20100188465 | INK JET PRINT HEAD - An object of the present invention is to provide an ink jet print head having plural types of nozzles arranged on the same substrate and through which ink droplets of different sizes are ejected, the ink jet print head exhibiting acceptable ejection performance regardless of the type of the nozzle. Thus, according to the present invention, each of the plural types of nozzles includes a bubbling chamber having an ejection energy generating element allowing an ink droplet to be ejected to a position located opposite an ejection port and an ejection port portion allowing the ejection port and the bubbling chamber to communicate with each other. Ratio of opening area of the ejection port portion at a position where the ejection port portion and the bubbling chamber communicate with each other, to the opening area of the ejection port is higher for the nozzle with a smaller ejection amount. | 07-29-2010 |
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| 20110207840 | POLYOLEFIN RESIN COMPOSITION AND USES THEREOF - The present invention provides a polyolefin resin composition which is excellent in mechanical properties and dimensional stability and is particularly excellent in heat resistance, a film which is excellent in mechanical properties, dimensional stability and heat resistance because it is obtained from the polyolefin resin composition and which is particularly excellent in meltdown properties, a macroporous membrane which is excellent in permeability and shutdown properties in addition to the above properties, and uses thereof. The polyolefin resin composition of the present invention (C) comprises 85 to 50% by mass of ultrahigh-molecular weight polyethylene (A) having a specific intrinsic viscosity and 15 to 50% by mass of a polymer (B) containing a repeating unit derived from 4-methyl-1-pentene, in 100% by mass of the polyolefin resin composition (C). | 08-25-2011 |
| 20110256402 | ETHYLENE POLYMER COMPOSITION, METHOD FOR PRODUCING THE SAME, AND MOLDED ARTICLE OBTAINED USING THE SAME - Provided is an ethylene polymer composition which can be obtained with a solid phase method such as solid phase drawing molding, is suitable for producing a molded article having high strength, and has the following properties. This ethylene polymer composition comprises an ethylene polymer (a) with an intrinsic viscosity [η] of not less than 2 dL/g and not more than 20 dL/g and an ethylene polymer (b) with an intrinsic viscosity [η] of more than 35 dL/g and not more than 50 dL/g, with the mass ratio (a)/(b) being from 0/100 to 50/50 and the [η] for the entire composition being more than 30 dL/g and not more than 50 dL/g. The method for producing the ethylene polymer composition includes, for example, the polymerization of an ethylene-containing olefin under specific conditions using a catalyst for olefin polymerization which comprises a solid titanium catalyst component comprising magnesium, a halogen and titanium. | 10-20-2011 |
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| 20090011532 | PHOTOELECTRIC-CONVERSION APPARATUS AND IMAGE-PICKUP SYSTEM - A photoelectric-conversion apparatus includes a photoelectric-conversion area where a plurality of photoelectric-conversion elements configured to convert incident light into electrical charges, a plurality of floating-diffusion areas, a plurality of transfer-MOS transistors configured to transfer electrical charges of the photoelectric-conversion element to the floating-diffusion area, and a plurality of amplification-MOS transistors configured to read and transmit a signal generated based on the transferred electrical charges to an output line are provided. An antireflection film is provided on a light-receiving surface of the photoelectric-conversion element. The gate of the amplification-MOS transistor is electrically connected to one floating-diffusion area by providing one conductor in a single contact hole, and the anti-reflection film covers the photoelectric-conversion area except a base part of the contact hole. | 01-08-2009 |
| 20090250778 | PHOTOELECTRIC CONVERSION DEVICE, IMAGING SYSTEM, PHOTOELECTRIC CONVERSION DEVICE DESIGNING METHOD, AND PHOTOELECTRIC CONVERSION DEVICE MANUFACTURING METHOD - A photoelectric conversion device comprises a plurality of photoelectric conversion units, a first antireflection portion including a first insulation film which has a first refractive index and a second insulation film which has a second refractive index, and a second antireflection portion including an element isolation portion which includes an insulator having a third refractive index and a third insulation film which has the second refractive index, wherein the first antireflection portion reduces reflection of light entering the photoelectric conversion unit in the photoelectric conversion unit, and the second antireflection portion reduces reflection of light entering the element isolation portion in the element isolation portion. | 10-08-2009 |
| 20100173444 | MANUFACTURING METHOD OF A PHOTOELECTRIC CONVERSION DEVICE - A manufacturing method of a photoelectric conversion device comprises a first step of forming a gate electrode, a second step of forming a semiconductor region of a first conductivity type, a third step of forming an insulation film, and a fourth step of forming a protection region of a second conductivity type, which is the opposite conductivity type to the first conductivity type, by implanting ions in the semiconductor region using the gate electrode of the transfer transistor and a portion covering a side face of the gate electrode of the transfer transistor of the insulation film as a mask in a state in which the semiconductor substrate and the gate electrode of the transfer transistor are covered by the insulation film, and causing a portion of the semiconductor region of the first conductivity type from which the protection region is removed to be the charge accumulation region. | 07-08-2010 |
| 20110171770 | MANUFACTURING METHOD OF A PHOTOELECTRIC CONVERSION DEVICE - A manufacturing method of a photoelectric conversion device included a first step of forming a gate electrode, a second step of forming a semiconductor region of a first conductivity type, a third step of forming an insulation film, and a fourth step of forming a protection region of a second conductivity type, which is the opposite conductivity type to the first conductivity type, by implanting ions in the semiconductor region using the gate electrode of the transfer transistor and a portion covering a side face of the gate electrode of the transfer transistor of the insulation film as a mask in a state in which the semiconductor substrate and the gate electrode of the transfer transistor are covered by the insulation film, and causing a portion of the semiconductor region of the first conductivity type from which the protection region is removed to be the charge accumulation region. | 07-14-2011 |
| 20110234868 | PHOTOELECTRIC CONVERSION APPARATUS AND IMAGING SYSTEM - A photoelectric conversion apparatus comprises multiple photoelectric conversion portions ( | 09-29-2011 |
| 20110242388 | IMAGE SENSING DEVICE AND CAMERA - An image sensing device comprises a pixel array, and a peripheral circuit, a column selecting circuit, and a readout, wherein each pixel includes a photodiode, a floating diffusion, a transfer PMOS transistor to the floating diffusion, an amplifier PMOS transistor, and a reset PMOS transistor, the amplifier PMOS transistor has a gate which is formed by an n-type conductive pattern, and is isolated by a first element isolation region and an n-type impurity region which covers at least a lower portion of the first element isolation region, and each PMOS transistor included in the column selecting circuit has a gate which is formed by a p-type conductive pattern and is isolated by a second element isolation region, and an n-type impurity concentration in a region adjacent to a lower portion of the second element isolation region is lower than that in the n-type impurity region. | 10-06-2011 |
| 20110249163 | PHOTOELECTRIC CONVERSION DEVICE AND CAMERA - A photoelectric conversion device comprises a p-type region, an n-type buried layer formed under the p-type region, an element isolation region, and a channel stop region which covers at least a lower portion of the element isolation region, wherein the p-type region and the buried layer form a photodiode, and a diffusion coefficient of a dominant impurity of the channel stop region is smaller than a diffusion coefficient of a dominant impurity of the buried layer. | 10-13-2011 |
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| 20100148596 | MOTOR, PUMP, AND METHOD OF MANUFACTURING THE MOTOR - An electric motor in which the cost of parts and the cost of processing are reduced by installing a fan cover, a capacitor installation box, and a foot plate on a molded stator without addition of installation parts. In the electric motor ( | 06-17-2010 |
| 20100264757 | MOTOR STATOR, MOTOR, PUMP, AND METHOD OF MANUFACTURING THE MOTOR - An objective is to provide a motor stator that may achieve: a reduction in parts costs by shaping coil ends so that length thereof is reduced, thereby reducing the amount of use of copper, and minimizing the amount of use of binding strings for securing the coil ends in place; a reduction in manufacturing process costs by a structure which allows a protector and a wire lead outlet part to be easily assembled; and then an improvement in quality of a stator by firmly holding the coil ends and the protector. The motor stator may include a stator core | 10-21-2010 |
| 20100320848 | MOTOR, PUMP, AND METHOD OF MANUFACTURING THE MOTOR - An object is to provide a motor that is designed to reduce the parts costs and the processing costs, without additional parts for fixing, by incorporating a fan cover, a condenser assembly box, and a foot plate into a molded stator. A motor | 12-23-2010 |
| 20110083828 | WATER CIRCULATING PUMP, MANUFACTURING METHOD THEREOF, AND HEAT PUMP APPARATUS - A highly efficient, long-life water circulating pump with reduced whirling of a rotor part of the pump is provided. At least one of a gap between an end portion of a shaft | 04-14-2011 |
| 20120025746 | MOTOR, ELECTRIC EQUIPMENT, AND METHOD OF MANUFACTURING MOTOR - In a motor driven by a drive circuit such as an inverter, there is a problem that electric current flowing through a bearing causes electric corrosion, which impairs the durability of the bearing. A motor of the invention includes: a stator in which a winding is applied through an insulating part to a stator core formed by laminating a predetermined number of electromagnetic steel plates which have been punched into a predetermined shape; a rotor assembly in which a rotor and bearings and formed by rolling bearings are fitted to a shaft; a printed wiring board which is arranged at an end part of the stator in an axial direction and to which a drive circuit is mounted; a bracket imposed to at least the end part of the stator in the axial direction to which the printed wiring board is arranged; and a conductive sheet provided between the printed wiring board and the bracket. | 02-02-2012 |
