Patent application number | Description | Published |
20110008090 | TAPE CASSETTE - A tape cassette includes a tape ejecting port for ejecting outside the tape with a separator being adhered to one of surfaces thereof, a tape conveying roller arranged at an upstream side of a tape conveying direction at the tape ejecting port, the tape conveying roller conveying roller pulling out and conveying the tape while getting in contact with the separator being adhered to one surface of the tape, a separator guiding portion for guiding the separator peeled off from the tape inwardly at the tape ejecting port along a peripheral surface of the tape conveying roller and a separator-take-up spool arranged so as to fix thereto a front end of the separator that has been guided inwardly along the peripheral surface of the tape conveying roller from the separator guiding portion and to take up the separator. | 01-13-2011 |
20130105617 | PRINTER | 05-02-2013 |
20140294539 | Bookbinding Apparatus - A conveyance portion is configured to hold a bundle of paper sheets, the bundle of paper sheets being a plurality of paper sheets stacked in a first direction, and also configured to convey the bundle of paper sheets in a second direction. An adhesive portion forming portion is configured to form an adhesive portion on an end face, in the second direction, of the bundle of paper sheets. A cover sheet holding portion is configured to hold a cover sheet in a state in which the cover sheet and the adhesive portion face each other in the second direction. The bundle of paper sheets is conveyed by the conveyance portion toward a contact position where the adhesive portion comes into contact with the cover sheet. | 10-02-2014 |
20140375738 | Printer - The disclosure discloses a printer comprising a roll supporting part, a feeder, a printing head, and an urging device. The roll supporting part rotatably supports a print-receiving tape roll that winds a print-receiving tape in a rolled form. The feeder pulls out and feed the print-receiving tape of the print-receiving tape roll supported by the roll supporting part. The printing head performs desired print on the print-receiving tape that is fed out and fed from the print-receiving tape roll by the pull-out of the feeder. The urging device elastically presses the print-receiving tape roll supported by the roll supporting part inward in a radial direction of the print-receiving tape roll while the print-receiving tape being fed out. | 12-25-2014 |
20150054904 | SUBSTRATE MOUNTING STRUCTURE AND TAPE PRINTER - A substrate mounting structure includes a substrate, a substrate support portion, a protruding portion, and a screw. The substrate has a first surface and a second surface that is a surface on an opposite side to the first surface. The substrate support portion includes a screw hole and is a section of an outer peripheral portion of the screw hole. The section comes into contact with the first surface of the substrate. The protruding portion is provided on at least a part of a section of the outer peripheral portion apart from the substrate support portion, and protrudes further in a direction from the first surface toward the second surface than the substrate support portion. The screw is screwed into the screw hole and clamps the substrate together with the substrate support portion. | 02-26-2015 |
Patent application number | Description | Published |
20080210906 | Photoluminescent Pigment Aqueous-Medium Dispersion and Photoluminescent Coating Material - To obtain a photoluminescent pigment and a photoluminescent coating material which have no particle feeling and exhibit a highly excellent silky feeling. | 09-04-2008 |
20080234412 | Flame Retardant and Flame-Retardant Resin Composition - A flame-retardant, characterized in that it comprises a layered titanic acid in the form of a nano sheet which is formed by a method comprising treating a layered titanic acid salt with an acid or warm water and then reacting the resultant mixture with an organic basic compound, or carrying out the step of treating a layered titanic acid salt with an acid or warm water and the step of reacting with an organic basic compound, in one pot, to thereby swell or separate the layers; and a flame-retardant resin composition, characterized in that it comprises 100 parts by weight of a resin and 0.5 to 50 parts by weight of the above layered titanic acid in the form of a nano sheet. | 09-25-2008 |
20090035605 | Composite titanic acid coating film and composite titanic acid-coated resin substrate - Disclosed are a composite titanic acid coating film excellent in coating film hardness and adhesion, and a composite titanic acid-coated resin substrate. Specifically disclosed is a composite titanic acid coating film which is obtained as follows: an aqueous medium suspension, which contains a metal alkoxide and a flaky titanic acid obtained by treating a layered titanate with an acid and then having an organic basic compound act thereon for causing interlayer swelling or separation, is applied onto a base, and then the resulting is subjected to a heat treatment for crosslinking and curing the metal alkoxide. Preferably, the layered titanate is represented by the following formula: A | 02-05-2009 |
20090061257 | Flaky titanic acid having polymerizable functional groups, suspension of the same, and coating films made therefrom - The invention provides flaky titanic acid having polymerizable functional groups, a suspension of the same, titanic acid coating films excellent in tight adhesion, and resin bases with titanic acid coating films, namely, flaky titanic acid obtained by treating a layered titanate with an acid and then making an organic basic compound act on the obtained product to conduct interlaminar swelling or delamination, characterized in that at least part of the organic basic compound is one having a polymerizable functional group such as acryl or methacryl and, preferably, in that the layered titanate is one represented by the general formula: A | 03-05-2009 |
20090246555 | Light-resistant titanic acid coating film and resin bases with the coating film - A titanic acid coating film a light-resistant titanic acid coating film obtained by applying a suspension of flaky titanic acid to a substrate and drying the coating, characterized in that the suspension of flaky titanic acid is an aqueous suspension of flaky titanic acid which is prepared by treating a layered titanate with an acid, making an organic basic compound act on the obtained product to conduct interlaminar swelling or delamination, and then replacing the organic basic compound by cesium ions and, preferably, in that the layered titanate is one represented by the general formula: A | 10-01-2009 |
20090264571 | Granulated Flaky Titanic Acid Salts, Process for Production Thereof, Resin Compositions Containing the Salts - There are obtained granular platy titanate capable of improving production environment by reducing bridge and plugging during kneading, a producing method therefor and a resin composition containing the granular platy titanate. The granular platy titanate is characterized in that platy titanate is formed with a binder, and examples of platy titanate to be used include laminar titanate compounds, platy potassium octatitanates and platy composite metal titanates. | 10-22-2009 |
20090326153 | COMPATIBILIZING AGENT FOR POLYMER ALLOY, POLYMER ALLOY, AND MASTER BATCH FOR PREPARATION OF POLYMER ALLOY - Disclosed are: a compatibilizing agent for a polymer alloy, which can increase the compatibility with a variety of polymers; a polymer alloy using the compatibilizing agent; and master batch for a polymer alloy. Specifically disclosed is a compatibilizing agent which is used for the preparation of a polymer alloy by blending at least one polymer (A) selected from the group consisting of a polyphenylene sulfide, a polyphenylene ether and a polyamide with a polymer (B) of a different type from the polymer (A) at such a ratio that the amount of the polymer (A) blended is the same as or more than that of the polymer (B). The compatibilizing agent comprises a nanosheet-shaped layered titanic acid which is produced by intercalate an organic basic compound between the layers of a layered titanic acid. | 12-31-2009 |
Patent application number | Description | Published |
20090114175 | VARIABLE VALVE SYSTEM, AND ENGINE DEVICE AND VEHICLE INCLUDING THE SAME - During a low revolution period, centrifugal force applied to a weight is small and therefore the rotating operation of the weight is restricted. This prevents a lock pin from being fitted to the lock pin fitting hole of a floating cam portion, and the floating cam portion idles around a cam fixing shaft. During a high revolution period, centrifugal force applied to the weight increases, and therefore the weight rotates around the rotation shaft. In this way, the tip end of the lock pin is fitted to the lock pin fitting portion of the floating cam portion. Therefore, during the high revolution period, the floating cam portion is fixed with respect to the rotating direction of the variable valve system by the lock pin. | 05-07-2009 |
20090250024 | VALVE TIMING CONTROL DEVICE AND ENGINE DEVICE AND VEHICLE INCLUDING THE SAME - When an engine operates at low engine speed, the tip end of a cam nose of an intake cam is at a second position. As the engine speed increases and exceeds a first engine speed, the tip end of the cam nose of the intake cam moves to a first position. When the engine operates at high engine speed, the tip end of the cam nose of the intake cam is at the first position. As the engine speed decreases and becomes lower than a second engine speed smaller than the first engine speed, the tip end of the cam nose of the intake cam moves to the second position different from the first position. | 10-08-2009 |
20090272348 | VALVE TIMING CONTROL DEVICE AND ENGINE DEVICE AND VEHICLE INCLUDING THE SAME - When an engine speed of an engine is low, a force by a spring to bias a low speed lock pin in the direction in which the pin is to be inserted into a low speed pin introduction hole is greater than a centrifugal force acting on a weight. This causes the low speed lock pin to be inserted into the low speed pin introduction hole, so that the phase of an intake camshaft relative to an exhaust camshaft is fixed. When the engine speed of the engine is high, a force to bias a high speed lock pin in the direction in which the pin is to be inserted in a high speed pin introduction hole by a centrifugal force acting on a weight is greater than a force by a spring to bias the high speed lock pin in the direction in which the pin is pulled out from the high speed lock pin introduction hole. This causes the high speed lock pin to be inserted into the high speed pin introduction hole, so that the phase of the intake camshaft relative to the exhaust camshaft is fixed. | 11-05-2009 |