| KITAGAWA INDUSTRIES CO., LTD. Patent applications |
| Patent application number | Title | Published |
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| 20110284263 | CONDUCTIVE COMPONENT - A conductive component includes a tubular body having at least one of at least one through-hole which penetrates the tubular body from outside to inside thereof; and at least one notch which is cut in from an edge of the tubular body, which are formed at least one predetermined portion on the tubular body. The tubular body includes a first portion, which includes a solder joint portion, and a second portion, which includes a contact portion. The first portion and the second portion are located on the opposite sides from one another with the at least one predetermined portion sandwiched therebetween. The tubular body further includes at least one spring portion which includes the at least one predetermined portion. | 11-24-2011 |
| 20110086976 | SLIDING PARTS, PRECISION PARTS AND TIMEPIECES AND ELECTRONIC EQUIPMENT USING THE SAME - The present invention relates to sliding parts, precision parts and timepieces and electronic equipment using those parts. Sliding parts are composed by a resin in which the degree of orientation of a fibrous filler is higher at the portion serving as the sliding surface than inside the sliding part, and the fibrous filler is oriented along the sliding surface on the sliding surface. Alternatively, precision parts are composed by a resin to which has been added carbon fibers for which a carbon compound is thermally decomposed to carbon in the vapor phase and simultaneously grown directly into fibers simultaneous to this thermal decomposition. Moreover, timepieces and electronic equipment are composed by these sliding parts or these precision parts. | 04-14-2011 |
| 20100068901 | SURFACE MOUNT CONTACT - A surface mount contact interposes between a mounted conductor and a pressing conductive member to make the mounted conductor conductive to the pressing conductive member when the mounted conductor and the pressing conductive member are proximate to each other. The surface mount contact includes: a base portion solderable to the mounted conductor; a movable portion elastically deformable according to a distance between the mounted conductor and the pressing conductive member, at least a part of the movable portion being closer to the base portion when the movable portion elastically deforms; and an insulating coating film provided in a region where the movable portion is closer to the base portion and inhibiting electric contact between the movable portion and the base portion. | 03-18-2010 |
| 20090286064 | SLIDING PARTS, PRECISION PARTS AND TIMEPIECES AND ELECTRONIC EQUIPMENT USING THE SAME - The present invention relates to sliding parts, precision parts and timepieces and electronic equipment using those parts. Sliding parts are composed by a resin in which the degree of orientation of a fibrous filler is higher at the portion serving as the sliding surface than inside the sliding part, and the fibrous filler is oriented along the sliding surface on the sliding surface. Alternatively, precision parts are composed by a resin to which has been added carbon fibers for which a carbon compound is thermally decomposed to carbon in the vapor phase and simultaneously grown directly into fibers simultaneous to this thermal decomposition. Moreover, timepieces and electronic equipment are composed by these sliding parts or these precision parts. | 11-19-2009 |
| 20090117328 | CERAMIC SHEET AND PRODUCING METHOD THEREOF - A ceramic sheet has at least one ceramic layer. The at least one ceramic layer includes a plurality of ceramic pieces, at least a part of the plurality of ceramic pieces is formed by cracking a sintered ceramic plate, which at least partially has a flat part, at the flat part of the sintered ceramic plate. | 05-07-2009 |
| 20090038824 | WIRE HOLDER - A wire holder includes a synthetic resin component that includes a clamp portion for holding at least one wire and a metal component that includes at least one lead portion mounted on a circuit board. The synthetic resin component includes a groove-shaped fitting groove portion. The metal component includes at least one fitting portion that fits the fitting groove portion and is connected to the lead portion. The fitting groove portion includes at least one first opening portion which allows the at least one lead portion to project in a predetermined direction when the at least one fitting portion fits the fitting groove portion. At least one of end portions in an extension direction of a groove of the fitting groove portion is opened as a second opening portion which allows one of the at least one lead portion to project along the extension direction of the groove of the fitting groove portion. | 02-12-2009 |
| 20090026926 | TRANSPARENT CONDUCTIVE FILM AND DISPERSION-TYPE ELECTROLUMINESCENCE DEVICE USING SAID FILM - To provide a low-resistance transparent conductive film with high light transmittance, which is a transparent conductive film including a transparent polymer film having on one surface thereof a transparent thin film layer with conductivity and a blocking layer containing at least one material selected from the group consisting of a thermoplastic resin, a thermosetting resin and a UV-curable resin on the thin film, which is characterized in: that a surface resistivity of the transparent thin film layer with conductivity is 0.1Ω/□ or more and not more than 100Ω/□; and that a refractive index of the material constituting the blocking layer is 1.6 or more and less than 1.9, and a dispersion-type EL device with high luminance and long life using the same. | 01-29-2009 |
| 20090011662 | SURFACE MOUNT CONTACT MEMBER - A surface mount contact member includes a metal base and a conductive coil spring. The metal base is provided with a nozzle suction surface to be sucked by a suction nozzle and a soldering surface that can be soldered. The soldering surface is faced downward when the nozzle suction surface is faced upward. The conductive coil spring is attached to the metal base in an electrically conductive manner with the nozzle suction surface being exposed to an inner peripheral side of the coil spring. | 01-08-2009 |
