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Isozumi
Atsunori Isozumi, Tokyo JP
| Patent application number | Description | Published |
|---|---|---|
| 20090259730 | CONTENT ACCUMULATING SYSTEM, USER TERMINAL APPARATUS, CONTENT ACCUMULATING METHOD,CONTENT ACCUMULATING PROGRAM AND STORAGE MEDIUM - A content storing system for allowing a storing apparatus, which has a limited size of storage capacity, to be effectively used to record content data. The content storing system includes a user terminal apparatus that records content data received from an external apparatus; and a server that is connected to the user terminal apparatus and that records the content data received from the external apparatus. The user terminal apparatus notifies the server that the content data has been recorded, and further issues, to the server, a delivery request for the content data that was recorded in a user storage apparatus. In response to the delivery request, the server determines, from the notification, that the content data has been recorded, and then the server transmits the requested content data to the user terminal apparatus. | 10-15-2009 |
George Isozumi, Aichi JP
| Patent application number | Description | Published |
|---|---|---|
| 20110201484 | AUTOMATIC TOOL CHANGER - Disclosed in an automatic tool changer in which the tool changing time can be shortened by increasing overlapping operations of the turning operation and the axial advancing/retracting operation of a replacement arm. An arm driver ( | 08-18-2011 |
Hiroshi Isozumi, Tokyo JP
| Patent application number | Description | Published |
|---|---|---|
| 20100148131 | CONDUCTIVE INK FOR LETTERPRESS REVERSE PRINTING - The present invention provides a conductive ink for forming a fine conductive pattern on a substrate by letterpress reverse printing. In particular, the conductive ink enables the pattern to be formed stably without the occurrence of transfer failures and is able to impart superior conductivity by low-temperature baking. The conductive ink, which contains substantially no binder component, comprises as essential components thereof conductive particles having a volume average particle diameter (Mv) of 10 to 700 nm, a release agent, a surface energy regulator and a solvent component, the solvent component being a mixture of a solvent having a surface energy at 25° C. of 27 mN/m or more (high surface energy solvent) and a volatile solvent having a boiling point at atmospheric pressure of 120° C. or lower (low boiling point solvent), and the surface energy of the ink at 25° C. is 10 to 21 mN/m. | 06-17-2010 |
| 20110086946 | INK COMPOSITION FOR FORMING INSULATING FILM AND INSULATING FILM FORMED FROM THE INK COMPOSITION - An insulating ink composition for forming an insulating film, which sufficiently achieves a low calcination temperature, solvent resistance and an insulating property, is provided. Furthermore, an ink composition for forming an insulating film which can form, by the printing method, fine insulating film patterns necessary for formation of highly integrated organic transistors is provided. The present invention provides an ink composition which forms an insulating film, and includes an organic solvent, a polyvinylphenol-based resin, an epoxy resin and a cross-linking aid. Particularly, the ink composition is a composition wherein the organic solvent includes an organic solvent which has a vapor pressure of 11.3×10 | 04-14-2011 |
| 20110129730 | SECONDARY BATTERY AND CARBON INK FOR CONDUCTIVE AUXILIARY LAYER OF THE SAME - A secondary battery using a polymer radical material and a conducting additive in which the performance of a conductive auxiliary layer is further improved and the internal resistance is reduced, thereby achieving a higher output. Specifically disclosed is a secondary battery in which at least one of a positive electrode and a negative electrode uses, as an electrode active material, a polymer radical material and a conducting additive having electrical conductivity. By providing a conductive auxiliary layer between a current collector and the polymer radical material/conducting additive electrode which is mainly composed of graphite, fibrous carbon or a granular carbon having a DBP absorption of not more than 110 cm | 06-02-2011 |
Joji Isozumi, Aichi-Gun JP
| Patent application number | Description | Published |
|---|---|---|
| 20110115172 | HIGH PRECISION CHUCK WITH CENTERING FUNCTION - A chuck including: (a) a main body; (b) three slot-defining members each constituted by a member independent of the main body and defining therein a guide slot, and detachably attached to the main body; (c) three jaws each including (c-1) a fitted portion slidably fitted in the guide slot defined in the corresponding slot-defining member and (c-2) an engaging portion which projects from the fitted portion in an axial direction and which is configured to engage with a circumferential surface of an object that is to be held by the chuck; and (d) three pairs of pressing members detachably fixed to the three slot-defining members. Each pair of the three pairs of pressing members engage with the fitted portion of the corresponding jaw, for thereby preventing separation of the fitted portion of the corresponding jaw from the guide slot defined in the slot-defining member. | 05-19-2011 |
Masatsugu Isozumi, Kyoto JP
| Patent application number | Description | Published |
|---|---|---|
| 20080262645 | Control unit for powder material compression molding machine - The present invention provides a control unit for a powder material compression molding machine including powder material compressing means which compresses a powder material filled between compressing members in an adjusted filled amount by making the compressing members approach to each other at a predetermined interval, so as to mold a molded product, and pressure detecting means which detects a powder material compressing pressure by the powder material compressing means, in electric connection to the powder material compression molding machine, the control unit comprising: weight determining means which determines that the weight of filled powder material is normal; thickness determining means which determines that the thickness of the molded product is abnormal in the case where the pressure detected by the pressure detecting means falls out of a first predetermined range when the weight determining means determines normality; and compression controlling means which controls the powder material compressing means when the thickness determining means determines abnormality. | 10-23-2008 |
| 20110001253 | Rotary powder compression molding machine - A rotary powder compression molding machine according to the invention includes: a flame; a rotary shaft; a turret; a plurality of die; an upper and a lower punches; an upper and a lower rolls; a designator for designating a molding portion constituted of a set of the die and the upper and lower punches corresponding to the die; a position detector for detecting that the molding portion designated by the designator has reached a predetermined position; a separator for separating a designated molded article ejected from the molding portion designated by the designator from collection of molded articles other than the designated molded article based on a position detection signal output from the position detector; and an actuation verifier for verifying actuation of the separator based on movement of the designated molded article. | 01-06-2011 |
Shuzo Isozumi, Chiyoda-Ku JP
| Patent application number | Description | Published |
|---|---|---|
| 20090205611 | ELECTRONICALLY-CONTROLLED THROTTLE BODY - An electronically-controlled throttle body includes a throttle valve having a valve disc, fixed on a valve shaft rotatably supported in a body inside which an air-intake passage is formed, for varying an opening area of the air-intake passage; a reduction gear mechanism connected to the valve shaft of the throttle valve; and a motor connected to the reduction gear mechanism; rotational drive power from the motor is transmitted to the valve shaft via the reduction gear mechanism, and the opening area of the air-intake passage is varied by rotatably moving the valve disc. The reduction gear mechanism includes a planetary gear mechanism and a spur gear reduction gear mechanism, rotational drive power from the motor is decelerated by the planetary mechanism, and the decelerated rotational drive power is further decelerated by the spur gear reduction gear mechanism, and then transmitted to the valve shaft. | 08-20-2009 |