Patent application number | Description | Published |
20090061111 | APPARATUS FOR MANUFACTURING GAS BARRIER PLASTIC CONTAINER, METHOD FOR MANUFACTURING THE CONTAINER, AND THE CONTAINER - The object of the present invention is to provide an apparatus for manufacturing a gas barrier plastic container which simultaneously satisfies the condition that the same vacuum chamber can be used even when the container shapes are different, the condition that a high-frequency power source is unnecessary, and the condition that film formation can be carried out for a plurality of containers inside one vacuum chamber in order to make the apparatus low cost. In an apparatus for forming a film on the inner surface of a container, a thermal catalyst is supported on a source gas supply pipe, and the source gas supply pipe is inserted into the port of the container, followed by film formation. In an apparatus for forming a film on the outer surface of a container, a thermal catalyst is arranged on the periphery of the plastic, and a source gas is blown out through the source gas supply pipe while bringing the source gas into contact with the thermal catalyst for film formation. Cooling is carried out to avoid the thermal deformation of the container by heat radiated from the thermal catalyst. For example, a container on which a hydrogen-containing SiN | 03-05-2009 |
20090120556 | Method For Producing Hermetically Sealed Container For Beverage Or Food - An object of the present invention is to provide a method for producing a hermetically sealed container, which method comprises conducting hermetic sealing of a container for beverage or food using a laser welding method, whereby the process speed of the sealing process can be made fast, strict control of the scanning position of laser spots is unnecessary, partial oversupply of energy does not occur easily, and there is no reduction in the welding area or welding strength per area due to the gathering of water drops. | 05-14-2009 |
20100096393 | BARRIER-FILM FORMING APPARATUS, BARRIER-FILM FORMING METHOD, AND BARRIER-FILM COATED CONTAINER - A barrier-film forming apparatus that forms a barrier film on an inner face of a container ( | 04-22-2010 |
20120205279 | APPARATUS FOR MANUFACTURING GAS BARRIER PLASTIC CONTAINER, METHOD FOR MANUFACTURING THE CONTAINER, AND THE CONTAINER - In an apparatus for forming a film on the inner surface of a container, a thermal catalyst is supported on a source gas supply pipe, and the source gas supply pipe is inserted into the port of the container, followed by film formation. In an apparatus for forming a film on the outer surface of a container, a thermal catalyst is arranged on the periphery of the plastic, and a source gas is blown out through the source gas supply pipe while bringing the source gas into contact with the thermal catalyst for film formation. Cooling is carried out to avoid the thermal deformation of the container by heat radiated from the thermal catalyst. | 08-16-2012 |
20150108031 | BARRIER-FILM FORMING APPARATUS, BARRIER-FILM FORMING METHOD, AND BARRIER-FILM COATED CONTAINER - A barrier-film forming apparatus that forms a barrier film on an inner face of a container having a concave or convex portion as a processing target, including: a dielectric member having a cavity sized to enclose the container, an external electrode covering an outer circumference of the dielectric member, an exhaust unit installed on an end face of the external electrode on a side where a mouth of the container is located, with an insulating member interposed therebetween, and depressurizing inside of the container through an exhaust pipe, an internal electrode inserted from a side of the exhaust pipe and also serving as a gas blowout unit that blows out medium gas for generating a barrier film into the container, and an electric-field applying unit that applies an electric field for generating exhaust between the external electrode and a ground electrode. | 04-23-2015 |
Patent application number | Description | Published |
20090031113 | Processor Array, Processor Element Complex, Microinstruction Control Appraratus, and Microinstruction Control Method - A processor array including area-saving microprogram memories is provided. In the processor array, microprogram memories of a plurality of adjacent processor arrays are shared. Effective data and position information | 01-29-2009 |
20090138770 | TEST SYSTEM OF RECONFIGURABLE DEVICE AND ITS METHOD AND RECONFIGURABLE DEVICE FOR USE THEREIN - A reconfigurable device test scheme is provided for making a test of a reconfigurable device with configuration data which is loaded a smaller number of times. A reconfigurable device used herein holds a plurality of configuration data and is capable of instantaneously switching which configuration is implemented thereby. Specifically, one transfer configuration data and one or more test configuration data are previously loaded in a configuration memory of the reconfigurable device, and a test is made while sequentially switching the transfer configuration data and the test configuration data. In this way, the same configuration data need not be reloaded over and over, so that the test can be made with a smaller number of times of loading as compared with before. | 05-28-2009 |
20100246240 | SEMICONDUCTOR DEVICE CONFIGURATION METHOD - A plurality of three-terminal variable resistance switching elements each having a source electrode, a drain electrode, and a gate electrode are connected to each other in series. The source electrode of each of the three-terminal variable resistance switching elements and the drain electrode of its adjacent three-terminal variable resistance switching element are connected to each other through a wiring segment to form a lane. A potential holding section for holding a predetermined potential level is connected to the wiring segment. A column group is configured by selecting one of the three-terminal variable resistance elements in each lane. A common gate line is connected to each of the gate electrodes of the three-terminal variable resistance elements belonging to the column group. | 09-30-2010 |
20100321062 | CONFIGURABLE CIRCUIT AND CONFIGURATION METHOD - A configurable circuit of the present invention includes a plurality of logic blocks ( | 12-23-2010 |
20110078645 | CIRCUIT DESIGN SYSTEM AND CIRCUIT DESIGN METHOD - A circuit design system | 03-31-2011 |
20110225558 | RECONFIGURABLE CIRCUIT GENERATION DEVICE, METHOD, AND PROGRAM - A reconfigurable circuit generation device comprises: a netlist generation unit that generates as a shared netlist a netlist that can be shared among a plurality of netlists having a common portion, and a resource reduction unit that reduces resources of the reconfigurable circuit where the plurality of netlists are to be implemented, in a range in which the shared netlist can be implemented. | 09-15-2011 |
20120007633 | RECONFIGURABLE LOGICAL CIRCUIT - Provided is a reconfigurable logic circuit that can effectively use a preposition logic that composes a logic block. The reconfigurable logic block according to the present invention includes a plurality of logic blocks ( | 01-12-2012 |
20120247534 | SOLAR POWER GENERATION APPARATUS - A solar power generation apparatus in which a solar cell unit is disposed at focal position in an optical system, which includes a single optical system and formulated so as to collect and spectrally separate incident light that falls in parallel to an optical axis, and focus each of the spectrally separated wavelength band lights at a different focal position on the optical axis. The solar cell unit includes a plurality of solar cells, each including, a junction unit disposed on a circumference of a substrate portion disposed along the optical axis, a surface of the junction portion forming a light receiving surface with a different sensitive wavelength band. The plurality of solar cells are arrayed along the optical axis, and each of the solar cells is disposed at one of the focal positions at which the wavelength band light corresponding to each the different sensitive wavelength band is focused. | 10-04-2012 |
20130009753 | Radio tag sensor system and method for calibrating same - A radio tag sensor system includes a plurality of radio tag sensor chips, which incorporate respective sensors, store unique identification numbers, a plurality of micro base stations, and a central processing unit which perform communications with the micro base stations via a connection network. Each of the micro base stations performs wireless communications with and wirelessly supplies electric power to only those of the radio tag sensor chips which are disposed in an assigned region thereof. Each of the assigned regions includes at least one radio tag sensor chip which is not included in the other assigned regions. The central processing unit controls the communications via the connection network. The central processing unit collects the sensed values from sensors of the radio tag sensor chips through the micro base stations, generates a spatial distribution map of the sensed values, and updates the spatial distribution map with time. | 01-10-2013 |
20130176051 | RECONFIGURABLE CIRCUIT - A reconfigurable circuit of the present invention is characterized in being provided with: a first programmable wiring group, which is disposed in the first direction; a second programmable wiring group, which is disposed in the second direction that intersects the first direction; a first switch element array, which connects the programmable wiring groups to each other at the intersecting points of the first programmable wiring group and the branch line group of a functional block input wiring group or at the intersecting points of the branch line group of the first programmable wiring group and the functional block input wiring group; a second switch element array, which connects the programmable wiring groups to each other at the intersecting points of the first programmable wiring group and functional block output wiring; and a third switch element array, which connects the programmable wiring groups to each other at the intersecting points of the second programmable wiring group and the first programmable wiring group. The reconfigurable circuit is also characterized in being provided with a fourth switch element array, which connects the programmable wiring groups to each other at the intersecting points of the second programmable wiring group and the functional block input wiring group, and/or a fifth switch element array, which connects the programmable wiring groups to each other at the intersecting points of the second programmable wiring group and the branch lines of the functional block output wiring. | 07-11-2013 |
20130335116 | RECONFIGURABLE CIRCUIT AND METHOD FOR REFRESHING RECONFIGURABLE CIRCUIT - A reconfigurable circuit ( | 12-19-2013 |
20140347095 | Bidirectional Buffer and Control Method Thereof - Bidirectional buffer | 11-27-2014 |
Patent application number | Description | Published |
20110235349 | VEHICLE LIGHT AND METHOD FOR CONTROLLING LIGHT DISTRIBUTION - A vehicle light can form a synthetic light distribution pattern with an area where a surrounding vehicle exists being made darker than an area(s) surrounding that area. The synthetic light distribution pattern can allow a sufficient illumination range and a center light intensity required for a running beam to be compatible. The vehicle light can also form a light distribution pattern with only an area where a farther surrounding vehicle exists is made dark. The vehicle light can form the light distribution pattern by overlaying a plurality of first nearby illumination areas, a plurality of first farther illumination areas, a plurality of second nearby illumination areas, and a plurality of second farther illumination areas with the respective illumination areas being divided in a horizontal direction and individually controlled in terms of light intensity so that respective vertical division lines of the illumination areas appear in predetermined order in the horizontal direction. | 09-29-2011 |
20120063157 | LIGHTING FIXTURE - A vehicular lighting fixture unit according to one aspect of the subject matter can include a projector lens placed on an optical axis extending in a vehicle front-rear direction. A light-emitting element can be placed between the projector lens and a rear-side focal point of the projector lens at a position lower than the optical axis so as to emit light substantially vertically upward. A phosphor can be placed so as to be closer to a vehicle rear side than the rear-side focal point. A first reflecting surface can be configured to reflect the light from the phosphor so as to condense the light toward the optical axis. A second reflecting surface can be placed substantially vertically above the light-emitting element at a position at which the second reflecting surface does not block the reflected light from the first reflecting surface. The second reflecting surface can be configured to reflect the light from the light-emitting element toward the phosphor. | 03-15-2012 |
20120140501 | VEHICLE LIGHT - A vehicle light can prevent color variations in a projected image. The vehicle light can include a light source, a wavelength conversion member including a phosphor configured to receive blue light having been emitted from the light source and then emitting white light, and a reflector having a reflection surface that reflects the white light having been emitted from the wavelength conversion member. The reflection surface of the reflector can have an optical structure that can diffuse the blue light incident on the reflection surface from the phosphor, reflect the blue light back to the phosphor, or allow the blue light to pass through the reflection surface to the area rearward thereof. | 06-07-2012 |
20120163009 | VEHICLE LIGHT - A vehicle light can prevent color variations of the projected image. The vehicle light can include a laser diode, a wavelength conversion member including a phosphor configured to receive blue light emitted from the laser diode and then emitting white light, a projection lens configured to project the white light emitted from the wavelength conversion member to provide forward illumination for a vehicle, and a diffusing portion provided to the projection lens, configured to diffuse the excitation light which is incident on the projection lens from the wavelength conversion member. | 06-28-2012 |
20120236561 | LIGHTING UNIT - A projector type lighting unit can include a projection lens having an optical axis, a rear-side focal point positioned on the optical axis, an incident surface, and an exiting surface. A light source can be disposed on or near the focal position of the projection lens, and an image of the light source can be projected through the projection lens. A light path adjusting unit can be configured to diffuse part of the image of the light source in an upward direction when the lighting unit is installed in a vehicle light. The light path adjusting unit can be disposed in between the projection lens and the rear-side focal point of the projection lens, and can be a reflector having a planar mirror inclined with respect to a plane perpendicular to the optical axis of the projection lens toward the projection lens by about 45 degrees. | 09-20-2012 |
20140029287 | PROJECTOR TYPE HEADLIGHT - A projector type headlight can include a projection lens arranged on an optical axis extending in a longitudinal direction of a vehicle, and a light source unit arranged on a more rear side than a back side focal plane of the projection lens, the projection lens including resin lenses which are arranged on the optical axis. A resin lens out of the resin lenses arranged closer to the light source unit includes a diffraction grating provided on a lens face in a side opposite to a light source, the resin lens out of the resin lenses arranged closer to the light source unit has a lens face having a positive power, which is arranged in a light source side, and the diffraction grating is designed so as to cancel chromatic aberration of light emitted from the light source unit and emitted forward through the resin lenses. | 01-30-2014 |
20140112012 | VEHICLE HEADLAMP - There is provided a vehicle headlamp that can be miniaturized and that can form a synthetic light distribution pattern (for example, a low-beam light distribution pattern) in which a hot zone is brighter. The vehicle headlamp that forms the synthetic light distribution pattern including the hot zone and a diffusion region diffused from the hot zone, includes at least one first lighting fixture unit including a laser light source and a first optical system that forms a first light distribution pattern to irradiate light forward from the laser light source and irradiate the hot zone, and at least one second lighting fixture unit including an LED light source and a second optical system that forms a second light distribution pattern to irradiate light forward from the LED light source and irradiate the diffusion region. | 04-24-2014 |
20140313758 | LIGHTING UNIT FOR VEHICLE LAMP - A lighting unit for a vehicle lamp, can include a lens body including an incident surface, a light exit surface, and a reflecting surface configured to internally reflect light having entered the lens body through the incident surface, toward the light exit surface; and a horizontally long light-emitting section disposed at or substantially near a rear focus of the lens body to emit light that enters an inside of the lens body through the incident surface and is internally reflected by the reflecting surface before exiting through the light exit surface. The reflecting surface has at least two V-grooves formed so as to extend along a plane including an optical axis of the horizontally long light-emitting section, the V-grooves being disposed adjacent to each other in a circumferential direction of the reflecting surface. The lighting unit can form horizontally long projected light source images regardless of light exit positions. | 10-23-2014 |
20140347874 | LIGHT EMITTING DEVICE, VEHICLE LIGHT AND VEHICLE - Provided is a light emitting device used in a vehicle light, the light emitting device can include: an excitation light source that generates excitation light; a wavelength conversion member that absorbs the excitation light and that converts a wavelength of the excitation light to emit light in a predetermined wavelength region that can be different from the wavelength of the excitation light; and a first optical system that directs the excitation light from the excitation light source to the wavelength conversion member, wherein the wavelength conversion member includes at least a first surface, a second surface facing the first surface, and a peripheral end surface arranged between the first surface and the second surface. The first optical system is configured to direct the excitation light from the excitation light source to the first surface. At least part of the second surface is covered by a first light blocking structure. | 11-27-2014 |
20140362596 | VEHICLE LIGHTING UNIT - A vehicle lighting unit can use a light guiding body, and prevent light loss due to the internal reflection of light at the light exiting surface as a result of being guided through the light guiding body. The vehicle lighting unit can include: a light source; a projection lens; and a light guiding body to collect light from the light source near a rear side focal point of the projection lens so as to guide the light to the projection lens. The light guiding body can include a first optical surface that can serve as a light exiting surface through which the light from the light source guided through the light guiding body can exit. The projection lens can include the first optical surface, a second optical surface, and a third optical surface, and be configured to have the rear side focal point located behind the first optical surface. | 12-11-2014 |