Ushiodenki Kabushiki Kaisha Patent applications |
Patent application number | Title | Published |
20100176707 | High pressure discharge lamp - A high pressure discharge lamp having a hermetically sealed portion on opposite sides of an arc tube made of quartz glass and in which a pair of opposed electrodes is located is improved so that electrode rod warping is prevented even when the lamp is repeatedly lit and unlit. Electrode rods extending from the electrodes pass through a center hole in a respective quartz glass body which is positioned and fastened onto each the electrode rods with an infrared reflection membrane composed of a heat-resistant metal being provided on the inner surface of the center hole of the quartz glass body separating the electrode rod from the quartz glass body. The quartz glass body is integrated with the quartz glass forming the hermetically sealed portion and is positioned against a step formed at the boundary between large and small diameter portions of the electrode rod. | 07-15-2010 |
20100123086 | EXTREME ULTRAVIOLET LIGHT SOURCE DEVICE - An extreme ultraviolet (EUV) light source to detect fluctuations in the angular distribution of its output radiation wherein a solid raw material is irradiated with a laser beam to generate a vapor. The vapor is subjected to an electrical arc generated between a pair of discharge electrodes to generate a high temperature plasma that emits EUV radiation. The EUV radiation is collected along an optical axis toward a focal point by a plurality of concentrically arranged reflectors. A plurality of EUV radiation detectors are arranged around a circular ring centering on the optical axis of the concentrically arranged reflectors. Each EUV radiation detector includes two spaced apart diaphragms with a pinhole. The pinholes are aligned with a virtual line connecting with the focal point. EUV radiation passing through the pinholes strikes a light detecting element in the detectors. The angular distribution fluctuation of the EUV radiation collected at the focal point is obtained based upon irradiance data provided by the light detectors. | 05-20-2010 |
20100085549 | EXPOSURE DEVICE - An exposure device for producing semiconductors and liquid crystals has an optical system capable of effectively using light generated without making a hole in a lamp discharge vessel when high energy laser light is supplied to it for emitting light, such as ultraviolet light. The exposure device has a light source for emitting ultraviolet light, a laser device for emitting laser light, an elliptical reflector for reflecting ultraviolet light emitted from the light source, and an optical system for directing light reflected by the elliptical reflector to an article to be treated via optical elements including a collimator lens and an integrator lens, and a beam splitter having a wavelength selecting ability provided in the optical path for light reflected by the elliptical reflector to allow laser light to be incident on the light source from and opening side of the elliptical reflector. | 04-08-2010 |
20100080680 | SUBSTRATE CONVEYING ARM - A conveying arm for conveying a substrate while holding it with suction pads has, on the side of the conveying arm from which the suction pads extend, elastic members, such as flat springs, which are shorter than the suction pads. The flat springs are located above the tip ends of the suction pads when they hold the substrate and when the substrate is lowered to the work stage, the flat springs press any bent portions of the substrate down toward the work stage, which leads to flattening of surface of the substrate against the work stage so as to eliminate leakage of vacuum, used for suctioning the substrate against the work stage, from peripheral portions of the substrate. As a result, the substrate can be securely held on the work stage. | 04-01-2010 |
20100079052 | FILAMENT LAMP - To provide the structure of a filament lamp having a plurality of independent power supply pathways, the structure being capable of preventing the power supply pathways from electrically shorting to each other, a filament lamp formed of a straight-tube shaped luminous part having multiple filaments (F | 04-01-2010 |
20100072876 | FILAMENT LAMP - A filament lamp having a filament and an internal lead in which the filament is insulated from contact with the internal lead and prevent from moving during operation to maintain a uniform distribution of light. To this end, the filament lamp includes a luminous tube having an inner wall, and opposing ends on which sealing parts are formed. Multiple filaments are sequentially disposed inside the tube in an axial direction, and internal leads are connected to each filament. An insulating wall is provided along the inner wall of the luminous tube in the axial direction and is disposed around at least one of the multiple filaments. Internal leads running partly parallel to the filaments are positioned between the luminous tube and insulating wall and do not engage the ring supporters of the multiple filaments, which could cause the filaments to move and distribute light in a nonuniform pattern. | 03-25-2010 |
20100060159 | DISCHARGE LAMP - To provide a flickerless discharge lamp which can remove hydrogen by a simple and safe means even if the lamp is a large discharge lamp with high pressure when lit, the discharge lamp has a pair of electrodes and a hydrogen getter ( | 03-11-2010 |
20100054719 | FILAMENT LAMP AND LIGHT IRRADIATION HEAT TREATMENT DEVICE - A filament lamp has a bulb comprised of a straight light emitting tube from which a pair of flat hermetically sealed portions extend, a plurality of coiled filaments arranged within the light emitting tube, in the tube axis direction a pair of internal leads are connected to ends of the filament by a respective one of a plurality of metal foils that are embedded in the hermetically sealed portions, and external leads are connected to the metal foils. The width of metal foils embedded in the hermetically sealed portions is increased so as not to cause them to melt even when an electric current to be supplied to the filament lamp is increased, the hermetically sealed portions being made wider than the external diameter of the light emitting tube and the width between outer margins of the metal foils in a direction at right angles of the tube axis is greater than the internal diameter of the light emitting tube. | 03-04-2010 |
20100007267 | LIGHT EMITTING DEVICE AND METHOD FOR PRODUCING THE LIGHT EMITTING DEVICE - To provide a light emitting device that does not experience a decline in radiant efficiency in use, enables luminous flux from LED elements to be increased, and white light of good color rendering to be produced, and heat generated by the LED elements to be smoothly transmitted to an SiC fluorescent substrate. The light emitting device is provided with first LED elements for emitting UV radiation, second LED elements for emitting visible light, an SiC fluorescent substrate that is mounted with the first LED elements and the second LED elements and is made of SiC doped with at least one of B and Al as well as N and emits visible light when excited by radiation emitted from the first LED elements, and has a body made of inorganic material. | 01-14-2010 |
20100006871 | LIGHT EMITTING DEVICE AND METHOD FOR PRODUCING THE LIGHT EMITTING DEVICE - A light emitting device that has a radiant efficiency that does not decline in use, enables luminous flux to be increased by a high electric current, and produces white light with good color rendering and a method for producing a light emitting device capable of smoothly transmitting heat generated by LED elements to a carrier substrate. The radiation emitting device has first LED elements for emitting UV radiation, second LED elements for emitting visible light, a substrate made of an inorganic material and which carries the first LED elements and the second LED elements, a body made of inorganic material containing the first LED elements, the second LED elements and the substrate, and an SiC fluorescent screen that is doped with at least one of B and Al as well as N and emits visible light when excited by radiation emitted from the first LED elements. | 01-14-2010 |
20090295289 | XENON LAMP - A xenon lamp having a lamp tube made of silica glass containing titanium oxide and having a discharge chamber with a light emitting part containing xenon and in which a cathode and an anode are arranged in opposition to each other, the cathode and anode being mounted on an end of a respective lead rod, the lamp tube also having side tube parts extending from each of opposite sides of the light emitting part, each lead rod being sealed by a gradient binding part which is arranged in a respective side tube part, and the side tube parts having a narrowed shrink part in a region facing the light emitting part, wherein a conductive film is provided on an outer surface area of the shrink part and an adjoining area of an outer surface of the light emitting part at the cathode side of the lamp tube; and wherein the conductive film is electrically connected to the cathode. | 12-03-2009 |
20090251897 | LED LIGHT SOURCE DEVICE - An LED light source device using light from luminescent elements at a high level of uniformity and efficiency, and to conduct irradiation with a high level of design freedom an LED light source device is equipped with luminescent elements and a translucent light-guiding member. The translucent light-guiding member has a central convex lens with a first cylindrical light-guiding part formed on the outer periphery of the central convex lens and a second cylindrical light-guiding part formed on the outer periphery of the first cylindrical light-guiding part, such that an air layer is formed between the outer peripheral surface of the first cylindrical light-guiding part and the inner peripheral surface of the second cylindrical light-guiding part, the outer peripheral surface of the first cylindrical light-guiding part and the outer peripheral surface of the second cylindrical light-guiding part being rotated quadratic surfaces with the same focal point. | 10-08-2009 |
20090244539 | MICROCHIP TESTING DEVICE - A testing device equipped with: a microchip having a receiver for a test fluid, a discharge lamp which emits light into the microchip test fluid receiver, a light source housing in which the discharge lamp is located, and an arithmetic calculation mechanism, which calculates the concentration of the component to be detected, based on the intensity of the light emitted from the test fluid container unit. To reduce the size of the device and to shield the arithmetic calculation mechanism from electromagnetic waves generated around the light source, the light source housing is equipped with shielding connected to the ground on the outside of the light source housing made of insulating material. The light source housing is positioned within an enclosure of the testing device holding the microchip and containing the arithmetic calculation mechanism, analysis output device(s), etc. | 10-01-2009 |
20090243461 | FILAMENT LAMP - To provide a filament lamp having a plurality of filaments disposed together in sequence in the tube axis direction of a light-emitting tube, with miniaturized hermetically sealed parts, by certain sheets of metal foil ( | 10-01-2009 |
20090243456 | FILAMENT LAMP - To provide a filament lamp having a plurality of filaments disposed in sequence in the axial direction of a light-emitting lamp tube which is configured so as not to shield emitted light from a center filament, internal leads for two filaments disposed proximate hermetically sealed parts at both ends are connected to metal foils in the same hermetically sealed part. | 10-01-2009 |
20090166351 | SUBSTRATE HEATING DEVICE AND SUBSTRATE HEATING METHOD - A device for heating a substrate with light from a flash lamp having a semiconductor switch connected in series to the flash lamp. After triggering of a trigger electrode of the flash lamp, a first drive signal and a second drive signal are output from a gate circuit. The time period when the semiconductor switch is on due to the second drive signal is longer than the time period that the semiconductor switch is on by the first drive signal. Then, the semiconductor switch is switched on and off by the first drive signal and the substrate temperature is increased to a temperature, which is lower than the desired temperature to be achieved, and is maintained a that temperature for a short time, after which the surface temperature of the substrate is increased to the desired target temperature. | 07-02-2009 |
20090146540 | DISCHARGE LAMP OF THE SHORT ARC TYPE AND A LIGHT SOURCE DEVICE HAVING THE DISCHARGE LAMP OF THE SHORT ARC TYPE - A discharge lamp of the short arc type has a bulb with an arc tube and sealing tubes extending at opposite sides of the arc tube and which contains a discharge gas and a pair of opposed electrodes supported on lead pins which protrude from the outer end of the sealing tubes, the lead pins being affixed to graded glass in the sealing tube. A cooling fin surrounds the outer surface of one of the sealing tubes; and is formed of a pair of plate-shaped bodies each of which has a curved portion that contacts an outer surface of the sealing tube a strip-shaped portion extending radially from each of opposite edges of the curved portion. The strip-shaped portions of the plate-shaped bodies positionally overlap, and cooling openings are formed in the strip-shaped portions of only one of the plate-shaped bodies. Preferably, a gap is formed between the plate-shaped bodies. | 06-11-2009 |
20090121607 | FILAMENT LAMP AND LIGHT IRRADIATION TYPE HEAT TREATMENT DEVICE - A filament lamp and light irradiation type heat treatment device capable of uniformly thermally processing the entirety of an article to be treated has a filament lamp ( | 05-14-2009 |
20090116824 | LIGHT IRRADIATION TYPE HEAT TREATMENT DEVICE - Light irradiation type heat treatment device composed of a plurality of lamps, including multi-filament lamps, the filaments of which can be independently supplied with power. The filaments are divided into a plurality of filament groups composed of filaments of one lamp put together with filaments of other lamps. Power control units are provided for each group, and drive units are provided corresponding to the power control units. The drive units adjust the electric power supplied from the power supply according to a command from the power control units to supply power to each filament belonging to the group. In a preferred arrangement, the plurality of lamps are arranged in parallel with at least one filament within each lamp having a length so as to form a concentric circle with filaments of other lamps arranged in parallel and the filaments forming the concentric circle are divided into a plurality of filament groups. | 05-07-2009 |
20090103905 | FILAMENT LAMP AND HEAT TREATMENT DEVICE OF THE LIGHT IRRADIATION TYPE - Filament lamps whose individual filament coils can be set to specific temperatures in filament lamps that are supplied with electric power independently and to provide a heat treatment device of the light irradiation type that uses said lamps. Inside of a light emitting tube of each lamp, which has the hermetically sealed portions at each end, are multiple filament modules which have been made by linking pairs of leads which supply electrical power to both ends of coiled filaments and individual filaments that are placed so that they extend along the axis of the light emitting tube. In the electrically connected filament lamps, whose individual leads are connected to the respective electrically conductive material placed in the hermetically sealed portions, at least one of the individual filaments is made up of a single wire and at least two are made up of bundled wires with the single wire being located between the bundled wires. | 04-23-2009 |
20090096377 | EXCIMER LAMP - An excimer lamp which can emit UV radiation with a high degree of efficiency and high degree of uniformity, has a UV-reflecting film that does not peel. The excimer lamp is fitted with a silica glass discharge vessel that encloses a discharge gas which forms excimer molecules by dielectric barrier discharge in an internal space enclosed by a top wall panel, a bottom wall panel, side wall panels and end panels and with an electrode on both the outer surface of the top wall panel and another electrode on the outer surface of the bottom wall panel. On the inner surface of the discharge vessel, a UV-reflecting film comprised of silica and alumina particles is formed, at least, on the inner surface area of the side wall panels with the silica particles composing at least 30 weight % of the UV-reflecting film. | 04-16-2009 |
20090096376 | EXCIMER LAMPS - An excimer lamp, including a discharge vessel made of silica glass and having a discharge space; a pair of electrodes disposed on the discharge vessel, wherein the discharge space is filled with xenon gas; and an ultraviolet reflection film made from ultraviolet scattering particles, including silica particles and alumina particles, formed on a surface of the discharge vessel exposed to the discharge space. A thickness Y of the ultraviolet reflection film satisfies the expression Y>4X+5, given that a mean particle diameter of the ultraviolet scattering particles making up the ultraviolet reflection film is X (μm). | 04-16-2009 |
20090096343 | EXCIMER LAMPS - To avoid a decline in the reflectivity of an ultraviolet reflection film caused by lighting for an extended period of time and providing a uniform illuminance an excimer lamp has a silica glass discharge vessel with electrodes on opposite sides of the discharge vessel, wherein excimer discharge is generated in the discharge space of the discharge vessel, wherein an ultraviolet reflection film made of silica particles and alumina particles is formed on a surface exposed to the discharge space and wherein the mean particle diameter of silica particles is at least 0.67 times as large as the mean particle diameter of the alumina particles. The alumina particles in the ultraviolet reflection film preferably constitute at least 5 wt % and more preferably at least 10 wt % of the sum of silica particles and alumina particles. | 04-16-2009 |
20090078693 | PHOTOIRRADIATION TYPE HEAT TREATMENT APPARATUS - To provide a photo-irradiation type heat treatment apparatus that eliminates the adverse influence of a light transmitting window on the temperature distribution of an article to be treated without losing the original function of a reflecting mirror a photo-irradiation type heat treatment apparatus in which heat treating of an article is performed by irradiating the article with light emitted from multiple filament lamps through a light transmitting window, by providing the apparatus with a reflecting mirror having an opening at its central area so that cooling air can pass therethrough and by providing an air permeable reflector so as to cover the opening in the reflecting mirror. | 03-26-2009 |
20090073232 | LIGHT IRRADIATOR AND A PRINTER USING THE LIGHT IRRADIATOR - To prevent clogging of a nozzle of a printing head, a light irradiator for an ink jet printer is composed of a short arc type discharge lamp ( | 03-19-2009 |
20090066209 | LIGHT SOURCE DEVICE - Light source device, including an alternating current high-pressure mercury lamp having a pair of opposed electrodes within a spherical light-emitting part containing at least 0.15 mg/mm | 03-12-2009 |
20090021941 | LIGHT SOURCE DEVICE - A light source device, including an alternating current high-pressure mercury lamp having a pair of electrodes opposite each other with a spherical light-emitting part having at least 0.15 mg/mm | 01-22-2009 |
20080310472 | LASER DIODE CHIP AND ITS PRODUCTION METHOD - A laser diode chip that yields high irradiance and radiant efficiency, and that emits light having a broad wavelength width and can be used as an element in a light source for an illumination device, and its production method. The laser diode chip has at least a first clad layer, an active layer, and a second clad layer stacked in that order on a substrate, is constructed of a specified combination of constituent materials for the first clad layer, active layer, and second clad layer, and has multiple, parallel, slot-shaped concavities formed in the upper surface of the second clad layer, in each of which a liquid oxide film is baked to form a current arctation layer. Light emitting points are formed in the active layer in each of the light emitting unit areas demarcated by the current arctation layers, the maximum depth of which is 5.0 μm or less. | 12-18-2008 |
20080305570 | LED CHIP PRODUCTION METHOD - An LED chip production method in which the sapphire substrate used in the process for formation of a nitride semiconductor can be easily and efficiently removed. The LED chip production method is a method for LED chips that has at least one nitride semiconductor layer. An LED chip structure assembly with a construction in which a nitride buffer layer is formed on the sapphire substrate and the at least one nitride semiconductor layer is formed on the nitride buffer layer which is then subjected to a chemical etching process to remove the nitride buffer layer, thereby facilitating removal of the sapphire substrate. | 12-11-2008 |
20080298787 | FILAMENT LAMP AND LIGHT-IRRADIATION-TYPE HEAT TREATMENT DEVICE - A filament lamp includes multiple filament assemblies having filaments connected to paired leads, arrayed in order within a light emitting tube and following a tube axis thereof. Each lead is electrically connected in a seal area. Each filament is powered independently. The light emitting tube includes insulating walls or inner tubes between the filaments and leads that have openings through which the leads pass, and located along the tube axis in proximity to the inner wall of the light emitting tube. Multiple lead accommodation spaces corresponding to the number of leads are provided in the light emitting tube by the insulating walls with each lead passing through an opening in the insulating wall and placed without short circuits in its lead accommodation space. | 12-04-2008 |
20080298786 | FILAMENT LAMP AND LIGHT IRRADIATION TYPE HEAT TREATMENT DEVICE - To provide a filament lamp and light irradiation type heat treatment device that eliminates device-by-device variation of the irradiation-intensity distribution on the article to be treated, a filament lamp ( | 12-04-2008 |
20080283849 | LED DEVICE AND METHOD BY WHICH IT IS PRODUCED - A LED device formed of LED chips bonded to an exoergic member by the LED chips being bonded to an Au—Sn alloy layer formed on an upper surface of the exoergic member with columnar crystals being formed within the Au—Sn alloy layer extending in a direction perpendicular to the upper surface of the exoergic member. The method of producing the LED device forms an Sn film directly on the upper surface of the exoergic member, an Au film on a lower surface of the LED chips, mounts the LED chips with the Au film thereon onto the Sn film formed on the upper surface of the exoergic member, and the exoergic member with LED chips mounted thereon is heated in an atmosphere in which a forming gas flows, so that the LED chips are bonded to the exoergic member. | 11-20-2008 |
20080230726 | FOIL TRAP AND EXTREME ULTRAVIOLET LIGHT SOURCE DEVICE USING THE FOIL TRAP - An extreme ultraviolet (EUV) light source device and foil trap, the device including a vessel; an EUV radiating species supply means that feeds an extreme ultraviolet radiating species into the vessel; a discharge part with discharge electrodes that heat and excite the EUV radiating species and generate a high-temperature plasma; a collector mirror collecting EUV radiation emitted from the plasma; the foil trap installed between the discharge part and the mirror; an extractor part extracting the collected radiation; and an evacuation means exhausting and regulating pressure within the vessel. The foil trap includes foils extending radially from a main axis thereof to capture debris from the light source, while allowing the emitted radiation to pass through a region thereof to the mirror. A length of at least part of the foils in directions parallel to the main axis is shorter in positions close to the main axis than distant therefrom. | 09-25-2008 |
20080219650 | HEATING DEVICE OF THE LIGHT IRRADIATION TYPE - A heating device of the light irradiation type having an article to be heated, a guard ring located on the periphery of that article, multiple lamps located above the article to be heated and the guard ring, and a reflecting mirror located above the lamps, in which a light diffusion part is located in the upper region corresponding to the article to be heated so that the diffused light projects onto the entire surface of the article to be heated. The light diffusion part can be formed, for example, on a reflecting mirror, an optically transparent window part located between the article to be heated and the lamps or a light diffusion area formed on the light-emitting bulbs of the lamps. The size of the region occupied by the light diffusion part is such that diffused light is not projected to the guard ring. | 09-11-2008 |
20080205063 | OPTICAL APPARATUS - To provide an optical apparatus that can use a lamp's radiant energy efficiently and that is suited to demands for smaller size. | 08-28-2008 |
20080203924 | FILAMENT LAMP AND LIGHT IRRADIATION TYPE HEAT TREATMENT APPARATUS - A filament lamp comprising a bulb which has a hermetically sealed portion on at least one end and multiple filament assemblies, each filament assembly comprising a coiled filament and connected leads to supply power to that filament, the filament assemblies being sequentially arranged in the axial direction of the bulb, the leads of each filament assembly being electrically connected to respective multiple conductive parts set in the sealed portions, and power being independently suppliable to each of the filaments. A respective one of the coiled filaments is located in a respective first quadrant formed by intersecting planes that are perpendicular to each other and that are tangent to an outer coil diameter of the respective coiled filament. The leads are positioned in quadrants other than the quadrant in which the coiled filament is located. A light irradiation type heat treatment apparatus uses a plurality of such filament lamps. | 08-28-2008 |