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    • 3. 发明授权
    • Non-impact electrothermic recording method
    • 非冲击电热记录方法
    • US4853707A
    • 1989-08-01
    • US231205
    • 1988-08-11
    • Toshiyuki KawanishiYukio Tabata
    • Toshiyuki KawanishiYukio Tabata
    • B41J2/36B41J2/325B41J2/35B41J2/42B41M5/24B41M5/382G01D15/10H04N1/46
    • B41M5/3825B41J2/325B41J2/35
    • A non-impact electrothermic recording method using an ink sheet comprising at least an electroconductive base layer, an electroconductive thin layer and an electroconductive image transfer ink layer, with the effective resistance of the ink sheet being in the range of from 50.OMEGA. to 20 K.OMEGA., is disclosed which is carried out by superimposing the ink sheet on a recording medium and applying between an recording electrode and a return electrode situated in contact with the ink sheet (i) image-delineating voltage signals with a fixed application time, with the voltage of the image-delineating signals changed in accordance with the image density of images to be reproduced on the recording medium, or (ii) image-delineating voltage signals with a fixed voltage, with the application time changed in accordance with the image density of images to be reproduced on the recording medium, so as to generate Joule's heat in the portions in the ink sheet immediately below the recording electrode; and transferring the electroconductive thermal-transferable ink material from the ink sheet to the recording medium.
    • 一种使用至少包含导电基底层,导电薄层和导电图像转印油墨层的油墨片的非冲击电热记录方法,油墨片的有效电阻在50欧姆到20K的范围内 公开了通过将油墨纸叠加在记录介质上并施加在与油墨纸接触的记录电极和返回电极之间进行的OMEGA(i)以固定的施加时间对图像描绘电压信号, 图像描绘信号的电压根据要在记录介质上再现的图像的图像密度而变化,或者(ii)图像描绘具有固定电压的电压信号,其中应用时间根据图像密度 要在记录介质上再现的图像,以便在记录电极正下方的墨片中的部分产生焦耳热 ; 并将导电性热转印墨水材料从油墨片转印到记录介质上。
    • 8. 发明授权
    • Non-impact recording method and apparatus
    • 非影响记录方法和装置
    • US4425569A
    • 1984-01-10
    • US379308
    • 1982-05-18
    • Toshiyuki KawanishiYukio Tabata
    • Toshiyuki KawanishiYukio Tabata
    • B41J2/325B41J2/35G01D15/10
    • B41J2/35
    • A non-impact recording method and apparatus capable of printing with electroconductive thermal-transferable ink on a receiving surface, with uniform image density and high resolution, and with minimum energy consumption, by embodying the steps of superimposing on a receiving surface of a recording sheet an ink ribbon comprising an electroconductive thermal-transferable ink material; placing a recording electrode having a plurality of recording styli in contact with the ink ribbon, and a return electrode in contact with the ink ribbon, the return electrode disposed at a predetermined distance from the recording electrode, substantially parallel to the recording electrode, with the contact areas with the ink ribbon of the recording electrode being smaller than the contact area with the ink ribbon of the return electrode, which predetermined distance is in the range of 2.times.d.ltoreq.Lm.ltoreq.200.times.d, where d represents the diameter of each stylus of the recording electrode, and Lm represents the minimum distance between each recording stylus and the return electrode, with the total contact area with ink ribbon of the styli being one-fifth or less of the contact area with the ink ribbon of the return electrode; applying between selected recording styli and the return electrode image-delineating electric current so as to generate Joule's heat in the portions in the ink ribbon immediately below the recording electrode; and transferring the electroconductive thermal-transferable ink material from the ink ribbon to the receiving surface of the recording sheet.
    • 一种非受影响的记录方法和装置,其能够通过在记录片材的接收表面上叠加的步骤,在接收表面上以导电的热转印墨水印刷,具有均匀的图像浓度和高分辨率,并且具有最小的能量消耗 墨带,其包含导电性热转印墨水材料; 放置具有与墨带接触的多个记录触针的记录电极和与墨带接触的返回电极,返回电极与记录电极大致平行地设置在与记录电极相距预定距离处,与 与记录电极的墨带的接触面积小于与返回电极的墨带的接触面积,该预定距离在2xd≤Lm≤200xd的范围内,其中d表示每个 记录电极的触针,Lm表示每个记录触针和返回电极之间的最小距离,其中触针的墨带的总接触面积与返回电极的墨带的接触面积的五分之一以下 ; 在所选择的记录测针与返回电极图像描绘电流之间施加,以便在记录电极正下方的墨带中的部分中产生焦耳热; 并将导电性热转印墨水材料从墨带传送到记录片材的接收表面。