Patent application number | Description | Published |
20100000493 | SPARK IGNITED INTERNAL COMBUSTION ENGINE AND MANUFACTURING THE SAME - There is provided a spark ignited internal combustion engine having a geometric compression ratio of 13.0 or greater. The engine comprises combustion chambers having a cylinder stroke volume of 0.3 liter or greater, with the spark plug in the chamber ceiling having its spark point in the combustion chamber, and a cavity being formed on the top surface of the piston. At least part of the cavity defines a spherical surface that a hypothetical sphere having its center at the spark point contacts when the piston is at top dead center. The cavity is formed so that V | 01-07-2010 |
20120216774 | CONTROL DEVICE OF SPARK-IGNITION GASOLINE ENGINE - The disclosure provides a control device of a spark-ignition gasoline engine. When an operating state of an engine body is within a low engine speed range, a controller controls a fuel pressure variable mechanism so that a fuel pressure is higher within a high engine load range compared to a low engine load range, the controller operates, within the high engine load range, a fuel injection valve to perform a fuel injection at least at a timing that is more retarded than an injection timing of a fuel within the low engine load range and is within a retard period from a late stage of a compression stroke to an early stage of an expansion stroke, and the controller operates, within the high engine load range, an ignition plug to ignite at a timing within the retard period and further after the fuel injection. | 08-30-2012 |
20120216775 | CONTROL DEVICE OF SPARK-IGNITION GASOLINE ENGINE - The disclosure provides a control device of a spark-ignition gasoline engine. When an operating state of an engine body is within a low engine speed range, a controller operates a fuel pressure variable mechanism so that a fuel pressure is higher within a high engine load range compared to a low engine load range, the controller operates, within the high engine load range, a fuel injection mechanism to perform at least a fuel injection into the cylinder by a cylinder internal injection valve at a timing during a retard period from a late stage of a compression stroke to an early stage of an expansion stroke, and the controller operates, within the high engine load range, an ignition plug to ignite at a timing during the retard period and after the fuel injection. | 08-30-2012 |
20120216776 | CONTROL DEVICE OF SPARK-IGNITION GASOLINE ENGINE - A control device of a spark-ignition gasoline engine is provided. The control device includes a controller for operating the engine body by controlling at least a fuel injection valve, an ignition plug, and a fuel pressure variable mechanism. Depending on the engine load range, the controller sets the combustion mode to a compression-ignition mode or a spark-ignition mode. In each mode, the controller also controls the fuel pressure, and the timing of fuel injection and ignition. The controller may also performs external EGR control in each mode. | 08-30-2012 |
20130008416 | CONTROL SYSTEM FOR GASOLINE ENGINE - When a specific condition requiring a rise in exhaust gas temperature is satisfied, a required fuel amount to be injected from an injector ( | 01-10-2013 |
20130019828 | ENGINE CONTROL SYSTEM - Disclosed is an engine control system which is designed to allow homogeneous-charge compression ignition combustion to be performed in an HCCI region (R) defined as an engine operating region including at least a partial-load range of an engine. In a low load zone (R | 01-24-2013 |
20140060489 | SPARK-IGNITION DIRECT INJECTION ENGINE - A spark-ignition direct injection engine is provided. The engine includes an engine body, a fuel injection valve, a fuel pressure setting mechanism, an ignition plug, and a controller. The controller operates the engine to perform compression-ignition combustion within a first operating range, and controls the ignition plug to operate the engine to perform spark-ignition combustion within a second operating range. Within a specific part of the first range, the controller sets the fuel pressure to 30 MPa or above, and retards the compression ignition to after a compression top dead center by controlling the injection valve to inject fuel into a cylinder in a period from a late stage of compression stroke to an early stage of expansion stroke. Below the specific part, the controller controls the fuel injection valve to inject the fuel into the cylinder in a period from intake stroke to a mid-stage of the compression stroke. | 03-06-2014 |
20140060490 | SPARK-IGNITION DIRECT INJECTION ENGINE - A spark-ignition direct injection engine is provided. The engine includes an engine body, a fuel injection valve, a fuel pressure setting mechanism, an ignition plug, and a controller. Within a low engine speed operating range of a predetermined high engine load range, the fuel pressure setting mechanism sets a fuel pressure to 30 MPa or above, the fuel injection valve injects fuel between late stage of compression stroke and early stage of expansion stroke, and the ignition plug performs spark-ignition after the fuel injection completes. Within a high engine speed operating range of the high engine load range, the fuel injection valve injects fuel between intake stroke to mid-stage of compression stroke, and the ignition plug performs the spark-ignition. The ignition timing is changed according to an octane number, the changing width of the ignition timing is shorter within the low engine speed range than the high engine speed range. | 03-06-2014 |
20140060493 | SPARK-IGNITION DIRECT INJECTION ENGINE - A spark-ignition engine is provided. The engine includes an engine body, a fuel injection valve, an ignition plug, an EGR introduction system, and a controller for operating the engine body by controlling the fuel injection valve, the ignition plug, and the EGR introduction system. The controller controls to combust mixture gas by compressing to self-ignite within a compression self-ignition combustion applying range, and to combust the mixture gas by a spark-ignition using the ignition plug within a spark-ignition combustion applying range. Substantially throughout the spark-ignition combustion applying range, the controller controls the EGR introduction system to introduce cooled EGR gas, and within the compression self-ignition applying range, the controller controls the EGR introduction system to introduce hot EGR gas. The controller controls the EGR introduction system to introduce the hot EGR gas and the cooled EGR gas within a low engine load part of the spark-ignition combustion applying range. | 03-06-2014 |
20150083072 | CONTROL DEVICE OF COMPRESSION-IGNITION ENGINE - A control device of a compression-ignition engine is provided. The control device includes the engine having a cylinder, an exhaust gas recirculation system for introducing exhaust gas into the cylinder, and a controller for operating the engine by compression-ignition combustion of mixture gas inside the cylinder within a predetermined compression-ignitable range on a low engine load side. Within the compression-ignitable range, the controller sets an EGR ratio higher as the engine load becomes lower, and the controller sets the EGR ratio to a predetermined highest EGR ratio when the engine load is at a specific load that is on the low engine load side within the compression-ignitable range. When the engine load is lower than the specific load, the controller sets the EGR ratio to be lower than the highest EGR ratio. | 03-26-2015 |
20150083073 | CONTROL DEVICE OF COMPRESSION-IGNITION ENGINE - A control device of a compression-ignition engine is provided. The device includes an engine having a cylinder, a fuel injection valve for injecting a fuel, an exhaust valve mechanism for switching an operation mode of an exhaust valve between a normal mode and an open-twice mode, a throttle valve disposed on an intake passage, and a controller for operating the engine by compression-ignition combustion of mixture gas inside the cylinder at least within a low engine load range. The controller suspends the fuel injection by the fuel injection valve when a predetermined fuel cut condition is met while the engine decelerates, and the controller fully closes the throttle valve and controls the exhaust valve mechanism to operate in the open-twice mode during the fuel cut. When a predetermined fuel resuming condition is met, the controller restarts the fuel injection, opens the throttle valve, and causes the compression-ignition combustion. | 03-26-2015 |
20150114342 | SPARK-IGNITION DIRECT-INJECTION ENGINE - A controller injects fuel into a cylinder at a high fuel pressure of 30 MPa or higher, at least in a period between a terminal stage of a compression stroke and an initial stage of an expansion stroke when an operating mode of an engine body is at least in a first specified sub-range of a low load range, and at least in a second specified sub-range of a high load range. The controller sets an EGR ratio in the first specified sub-range to be higher than an EGR ratio in the second specified sub-range, and advances start of fuel injection in the first specified sub-range to start of fuel injection in the second specified sub-range. | 04-30-2015 |
Patent application number | Description | Published |
20140242401 | Tantalum Sputtering Target and Method for Manufacturing Same - Provided is a tantalum sputtering target having a (200)-plane orientation ratio of 70% or less and a (222)-plane orientation ratio of 10% or more at the sputtering surface of the tantalum sputtering target. The sputter rate can be increased by controlling the crystalline orientation of the target, and thereby a film having an intended thickness can be formed in a short time to improve the throughput. | 08-28-2014 |
20150064056 | TANTALUM SPUTTERING TARGET, METHOD FOR MANUFACTURING SAME, AND BARRIER FILM FOR SEMICONDUCTOR WIRING FORMED BY USING TARGET - Provided is a tantalum sputtering target, which is characterized that an average crystal grain size of the target is 50 μm or more and 200 μm or less, and variation of a crystal grain size in the target plane is 40% or higher and 60% or less. This invention aims to provide a tantalum sputtering target capable of improving the uniformity of the film thickness and reducing the variation of the resistance value (sheet resistance). | 03-05-2015 |
20150279637 | TANTALUM SPUTTERING TARGET AND METHOD FOR PRODUCING SAME - A tantalum sputtering target, wherein, on a sputtering surface of the tantalum sputtering target, an orientation rate of a (200) plane exceeds 70%, an orientation rate of a (222) plane is 30% or less. By controlling the crystal orientation of the target, effects are yielded in that the discharge voltage of the tantalum sputtering target can be reduced so that plasma can be more easily generated, and the voltage drift during deposition can be suppressed. | 10-01-2015 |
20150329959 | TANTALUM SPUTTERING TARGET AND METHOD FOR PRODUCING SAME - A tantalum sputtering target, wherein, on a sputtering surface of the tantalum sputtering target, an average crystal grain size is 50 μm or more and 150 μm or less, and a variation in a crystal grain size is 30 μm or less. A tantalum sputtering target, wherein, on a sputtering surface of the tantalum sputtering target, an orientation rate of a (200) plane exceeds 70%, an orientation rate of a (222) plane is 30% or less, an average crystal grain size is 50 μm or more and 150 μm or less, and a variation in a crystal grain size is 30 μm or less. By controlling the crystal grain size of the target, or the crystal grain size and the crystal orientation of the target, effects are yielded in that the discharge voltage of the tantalum sputtering target can be reduced so that plasma can be more easily generated, and the voltage drift during deposition can be suppressed. | 11-19-2015 |
20150348765 | TANTALUM SPUTTERING TARGET AND PRODUCTION METHOD THEREFOR - A tantalum sputtering target, wherein on a sputtering surface of the tantalum sputtering target, an orientation rate of a (200) plane is 70% or less, an orientation rate of a (222) plane is 10% or more, an average crystal grain size is 50 μm or more and 150 μm or less, and a variation in a crystal grain size is 30 μm or less. By controlling the crystal orientation of the target, it is possible to increase the sputter rate, consequently deposit the required film thickness in a short period of time, and improve the throughput. In addition, by controlling the crystal grain size on the sputtering surface of the target, an effect is yielded in that the abnormal discharge during sputtering can be suppressed. | 12-03-2015 |
20160086777 | SPUTTERING TARGET-BACKING PLATE ASSEMBLY - The present invention is a sputtering target-backing plate assembly in which the sputtering target is made from Ta having a 02% proof stress of 150 to 200 MPa, and the backing plate is made from a Cu alloy having a 0.2% proof stress of 60 to 200 MPa. The present invention aims to increase the uniformity of the film thickness as well as increase the deposition rate and improve the productivity by reducing, as much as possible, the plastic deformation of the sputtering target caused by the repeated thermal expansion and contraction of the sputtering target-backing plate assembly as a bimetal. | 03-24-2016 |
Patent application number | Description | Published |
20100165220 | LIQUID CRYSTAL DISPLAY DEVICE AND PROJECTOR - A liquid crystal display device includes: a liquid crystal panel having a liquid crystal device and a dust-proof plate disposed on at least one of a light entrance side and a light exit side of the liquid crystal device; and a first polarization filter disposed so as to be opposed to the liquid crystal panel across the dust-proof plate, wherein a direction of an absorption axis of the first polarization filter and a direction of an optical axis of the dust-proof plate are perpendicular to each other, and the dust-proof plate is made of a positive uniaxial crystalline material, and satisfies a following relational expression denoting a refractive index difference with respect to two directions perpendicular to a system optical axis as Δn, a thickness in a system optical axis direction as d, and a wavelength to be used as λ, and using an integer N: | 07-01-2010 |
20100182519 | LIQUID CRYSTAL DISPLAY APPARATUS AND PROJECTOR - A liquid crystal display device includes: a liquid crystal device; a first dust-proof plate made of a birefringent material, and disposed on one of a light entrance side and a light exit side of the liquid crystal device; and a second dust-proof plate made of an isotropic refractive material, and is disposed on the other of the light entrance side and the light exit side of the liquid crystal device. | 07-22-2010 |
20120320289 | Liquid Crystal Display Device and Projector - A liquid crystal display device includes: a liquid crystal panel having a liquid crystal device and a dust-proof plate disposed on at least one of a light entrance side and a light exit side of the liquid crystal device; and a first polarization filter disposed so as to be opposed to the liquid crystal panel across the dust-proof plate, wherein a direction of an absorption axis of the first polarization filter and a direction of an optical axis of the dust-proof plate are perpendicular to each other, and the dust-proof plate is made of a positive uniaxial crystalline material, and satisfies a following relational expression denoting a refractive index difference with respect to two directions perpendicular to a system optical axis as Δn, a thickness in a system optical axis direction as d, and a wavelength to be used as λ, and using an integer N: | 12-20-2012 |
Patent application number | Description | Published |
20150059305 | HONEYCOMB FILTER AND METHOD FOR PRODUCING HONEYCOMB FILTER - An object of the present invention is to provide a honeycomb filter capable of achieving a combination of high collection efficiency and low pressure loss. The honeycomb filter comprises a ceramic honeycomb substrate in which a multitude of cells through which a fluid flows are disposed in parallel in a longitudinal direction and are separated by cell walls, each cell being sealed at an end section at either the fluid inlet side or the fluid outlet side, and a filter layer which, among the surfaces of the cell walls, is formed on the surface of the cell walls of those cells in which the end section at the fluid inlet side is open and the end section at the fluid outlet side is sealed by a sealing material, wherein the thickness of the filter layer increases gradually from the fluid inlet side toward the fluid outlet side. | 03-05-2015 |
20150121824 | HONEYCOMB FILTER AND PRODUCTION METHOD FOR HONEYCOMB FILTER - An object of the present invention is to provide a honeycomb filter capable of preventing depth filtration and achieving a combination of high collection efficiency and low pressure loss. The honeycomb filter of the present invention comprises a ceramic honeycomb substrate in which a multitude of cells through which a fluid flows are disposed in parallel in a longitudinal direction and are separated by cell walls, each cell being sealed at an end section at either the fluid inlet side or the fluid outlet side, and a filter layer which, among the surfaces of the cell walls, is formed on the surface of the cell walls of those cells in which the end section at the fluid inlet side is open and the end section at the fluid outlet side is sealed, wherein the filter layer is composed of a plurality of spherical ceramic particles, and crosslinking bodies which bind the spherical ceramic particles to each other by crosslinking the spherical ceramic particles, and the spherical ceramic particles and the crosslinking bodies form a three-dimensional network structure. | 05-07-2015 |
20150121826 | HONEYCOMB FILTER - An object of the present invention is to provide a honeycomb filter having low pressure loss and high collection efficiency. The honeycomb filter of the present invention comprises a ceramic honeycomb substrate in which a multitude of cells through which a fluid flows are disposed in parallel in a longitudinal direction and are separated by cell walls, each cell being sealed at an end section at either the fluid inlet side or the fluid outlet side, and a filter layer which, among the surfaces of the cell walls, is formed on the surface of the cell walls of those cells in which the end section at the fluid inlet side is open and the end section at the fluid outlet side is sealed by a sealing material, wherein the filter layer comprises spherical ceramic particles, and the average particle size of the spherical ceramic particles increases gradually from the fluid inlet side toward the fluid outlet side. | 05-07-2015 |