会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Ink-jet head and control method thereof
    • 喷墨头及其控制方法
    • US06454397B1
    • 2002-09-24
    • US09678331
    • 2000-10-03
    • Susumu Hirata
    • Susumu Hirata
    • B41J205
    • B41J2/14153B41J2/04533B41J2/0458B41J2/04593B41J2/1412B41J2002/14177B41J2002/14354
    • An ink-jet head for ejecting ink droplets from a nozzle by the pressure caused by bubbles, includes: a pressure chamber; a multiple number of heating areas for generating bubbles inside the pressure chamber. Heater films arranged in the heating areas are electrically connected in parallel. The thermal conductivity of the insulating film in each heating area is made different from that of the other heating areas so as to produce difference in thermal efficiency between the surfaces facing the pressure chamber so that the heating area closest to the nozzle has the highest thermal efficiency. As a result, heating areas where bubbles should be generated can be selected by varying the applied energy level, whereby it is possible to perform multilevel control of the ejected amount of ink droplets.
    • 用于通过由气泡引起的压力从喷嘴喷射墨滴的喷墨头包括:压力室; 多个用于在压力室内产生气泡的加热区域。 布置在加热区域中的加热器膜并联电连接。 每个加热区域中的绝缘膜的热导率与其他加热区域的热导率不同,从而在面对压力室的表面之间产生热效率的差异,使得最靠近喷嘴的加热区域具有最高的热效率 。 结果,可以通过改变施加的能量水平来选择产生气泡的加热区域,由此可以对喷射量的墨滴进行多级控制。
    • 3. 发明授权
    • Recording device
    • 录音设备
    • US5949464A
    • 1999-09-07
    • US895912
    • 1997-07-17
    • Susumu HirataHirotsugu MatobaYorishige IshiiShingo AbeTetsuya Inui
    • Susumu HirataHirotsugu MatobaYorishige IshiiShingo AbeTetsuya Inui
    • B41J2/445B41J2/45B41J2/46B41J2/475
    • B41J2/451B41J2/46B41J2/475
    • A recording device having a highly integrated recording head, which can perform high-quality high-speed printing of halftone image and which is compact and inexpensive to manufacture and can work at reduced running cost (with no need of replacing its recording head due to contamination with ink) and at saved power consumption. The recording device comprises an ink feeding unit for applying ultraviolet curing ink to an image transfer intermediate, an ultraviolet ink-curing head for selectively ultraviolet curing ink applied to the image transfer intermediate according to an image pattern, a platen for pressing a recording medium against the image transfer intermediate to transfer not-cured ink from the image transfer intermediate onto the recording medium, ultraviolet thermal ink-curing unit for fixing the ink on the recording medium and an ink removing unit for removing residual ink from the image transfer intermediate.
    • 具有高度集成的记录头的记录装置,其能够进行半色调图像的高质量高速打印,并且其制造紧凑且便宜,并且可以以降低的运行成本工作(不需要由于污染而替换其记录头 与墨水)和节省的功耗。 记录装置包括用于向图像转印中间体施加紫外线固化油墨的供墨单元,用于根据图像图案施加到图像转印中间体的选择性紫外线固化油墨的紫外线油墨固化头,用于压制记录介质的压板 用于将未固化油墨从图像转印中间转印到记录介质上的图像转印中间体,用于将油墨固定在记录介质上的紫外线热油墨固化单元和用于从图像转印中间体去除残留油墨的除墨单元。
    • 4. 发明授权
    • Thermal head with buckling exothermic resistor and manufacturing method
thereof
    • 具有屈曲放热电阻的热敏头及其制造方法
    • US5926199A
    • 1999-07-20
    • US733824
    • 1996-10-18
    • Hirotsugu MatobaSusumu HirataYorishige IshiiShingo AbeHiroshi OndaTetsuya Inui
    • Hirotsugu MatobaSusumu HirataYorishige IshiiShingo AbeHiroshi OndaTetsuya Inui
    • B41J2/335
    • B41J2/3357
    • A pair of opposite end portions of a buckling exothermic body as an exothermic resistor are fixed onto a substrate via insulating members. The buckling exothermic body heats with resistance thereof by applying a voltage from a power source to the buckling exothermic body via a switch. As inner temperature of the exothermic resistor reaches a predetermined temperature or higher required for the exothermic resistor to buckle, and a compressive force exceeds a buckling load, the exothermic resistor buckles and distorts towards thermosensible paper from a non-shifted state in which there is virtually no thermal stress. As the buckled and distorted exothermic resistor comes into contact with the thermosensible paper, recording, such as printing, is performed only at the contact portion. This reduces thermal mutual interference between neighboring buckling exothermic bodies. As a result, recording of high resolution and high print quality is performed. Moreover, since, unlike the prior art, there is no need to provide an abrasion protection layer, production costs can be cut down and a smaller and lighter head can be made.
    • 作为放热电阻的翘曲放热体的一对相对端部通过绝缘部件固定在基板上。 弯曲放热体通过将来自电源的电压经由开关施加到屈曲放热体而受到其电阻的加热。 由于放热电阻器的内部温度达到放热电阻器所需的预定温度或更高的压力,并且压缩力超过屈​​曲负载,放热电阻器将从非移动状态向热敏纸片弯曲并变形,其中实际上 无热应力。 当弯曲和变形的放热电阻与热敏纸接触时,仅在接触部分进行记录,例如印刷。 这减少了相邻屈曲放热体之间的热相互干扰。 结果,执行高分辨率和高打印质量的记录。 此外,由于与现有技术不同,不需要设置磨损保护层,可以削减生产成本,并且可以制造更小和更轻的头部。