Toshio Yamashita
Toshio Yamashita, Kanazawa-Shi JP
Patent application number | Description | Published |
---|---|---|
20090071354 | Quick Stop Controlling Mechanism in Surface Treatment Device of Printing Press - There is provided a surface treatment device of a printing press that does not cause adverse affect on a transfer film in the surface treatment device at a quick stop of the printing press. The transfer film is wound around a plurality of rollers in the surface treatment device, and rollers disposed close to an impression cylinder out of the plurality of rollers are adapted to be capable of being individually driven through motors, respectively. At an emergency stop of the printing press, a controlling section fine-adjusts the running speed of the transfer film into synchronization with the speed of the impression cylinder, by driving the rollers individually while acquiring information from an impression cylinder encoder. | 03-19-2009 |
20100236699 | Speed Control Method and Speed Control Apparatus for Transfer Device - An object is to simplify a drive control structure of a transfer device that is designed to stop running of a film when hologram forming or surface treatment is not performed, during which the film is not required to run, and restart the film running from the running stopped state. A speed control method for controlling film running speed of a transfer device includes starting the drive of the transfer device based on a pulse signal different from a pulse signal outputted according to the rotational number of the cylinder, when the transfer film held in running stopped state is moved from the first film running path to the second film running path to run in a docking or interlocking engagement with the cylinder held in rotating state, and performing speed matching control to match the film running speed of the transfer device to the rotational speed of the cylinder; and switching a control mode from the speed matching control into synchronization control that synchronizes the rotational speed of the cylinder with the film running speed of the transfer device based on the pulse signal from the cylinder, after the matching of the speeds. | 09-23-2010 |
Toshio Yamashita, Kanazawa JP
Patent application number | Description | Published |
---|---|---|
20090078137 | Method of Winding Up Transfer Film and Device for Performing Transfer Printing on Printed Sheets of Paper - There is provided a method of winding up a transfer film and a device for performing transfer printing on printed sheets of paper, capable of eliminating the need to frequently replace the transfer film, thereby allowing the transfer film to be used over a prolonged time. According to the method of winding up a transfer film, the transfer film fed from a feed roll through a feed path is pressed onto a fed printed sheet to transfer patterns of the transfer film, and then the transfer film is wound up onto a windup roll through a windup path. During the rewind of the transfer film from the windup roll to the feed roll, a lateral position of the transfer film running along the feed path is detected, and the feed roll is moved in its axial direction to follow a lateral positional change of the transfer film. | 03-26-2009 |
20090078141 | Method of Performing Transfer Printing on Sheets of Paper - There is provided a method of performing transfer printing on sheets of papers capable of stopping a film from running while the film is kept apart from a cylinder and patterns of the film are not transferred onto the sheets, and of joining the film to the cylinder with the film and the cylinder matched in speed and phase at the resumption of running. While the cylinder is rotated at a specific speed, the film is on a first travel path and stopped from running. Before the film is moved from the first travel path to a second travel path to be joined to the cylinder, four steps are performed so that the running speed of the film is matched to the rotation speed of the cylinder, and the phase of marks provided on the film at equal intervals is matched to the phase of a gripper of the cylinder. | 03-26-2009 |
20090078364 | Method and Device for Performing Transfer Printing on Printed Sheets of Paper - There is provided a method and a device for performing transfer printing on printed sheets of paper, capable of reliably transferring patterns at predetermined positions on the printed sheets. The device includes a transfer section that conveys a transfer film while conveying the printed sheets and repeatedly transfers patterns of the transfer film onto the printed sheets. A tension adjusting part that adjusts tension on the transfer film is provided to transfer the patterns of the transfer film at the predetermined positions on the printed sheets. | 03-26-2009 |
Toshio Yamashita, Shiga JP
Patent application number | Description | Published |
---|---|---|
20110233063 | ELECTROFORMING METHOD - A mold is fabricated with a cavity formed in an insulating layer formed so as to be placed on an upper surface of a conductive base material. This mold is disposed in an electrolyte bath to be applied with a voltage, and a metal is electrodeposited on the bottom surface of the cavity to electroform a metal-formed product in the cavity. In this electrodepositing process, when the width of the cavity is taken as W and a vertical height of a head space between an upper opening of the cavity and an upper surface of a metal layer is taken as H, the growth of the metal layer is stopped so that the height H of the head space left above the metal layer satisfies: H≧W/2.85 where 300 μm≦W; H≧W/3.75 where 200 μm≦W<300 μm; H≧W/4 where 100 μm≦W<200 μm; and H≧W/10 where W<100 μm. | 09-29-2011 |
20120238158 | CONTACT AND METHOD FOR MANUFACTURING THE CONTACT - A contact includes a plate with a width that ranges from 0.1 mm or more to 1 mm or less, and a stress concentrated place, where a surface roughness (Ra) on the stress concentrated place is 0.2 μm or less. When samples whose surface roughness Ra is 0.040 μm, 0.080 μm, 0.120 μm, and 0.180 μm were used to study a number of repetitive fracture times, as the surface roughness Ra was smaller, the number of repetitive fracture times became larger. Particularly, it is found that the surface roughness Ra may be 0.200 μm or less in order to satisfy 3000 times as a number of operating times of the battery connector. Further, the surface roughness Ra may be 0.080 μm or less in order to satisfy 6000 times as the number of operating times when a safety factor is 2. | 09-20-2012 |
Toshio Yamashita, Tokyo JP
Patent application number | Description | Published |
---|---|---|
20150278377 | METHOD OF PROVIDING INFORMATION, SERVER DEVICE AND INFORMATION TERMINAL - A method of providing information based on posted information having location information from a server in which the posted information is accumulated in advance includes: deciding a driver of a vehicle and one or more fellow passengers who are aboard on the vehicle; identifying a destination candidate of the vehicle based upon access histories of the posted information by the driver and the fellow passenger or passengers; acquiring pieces of posted information concerning a destination set based upon the destination candidate from among the posted information; and performing provision of information based upon the acquired pieces of the posted information to the driver and the fellow passenger or passengers from the server device. | 10-01-2015 |