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    • 22. 发明授权
    • Method for manufacturing printer device
    • 打印机设备制造方法
    • US06851187B2
    • 2005-02-08
    • US10142281
    • 2002-05-08
    • Koichiro Kishima
    • Koichiro Kishima
    • B41J2/045B41J2/055B41J2/16H04R17/00B21D53/76B23P17/00B41J2/015B41J2/14
    • H04R17/00Y10T29/42Y10T29/49Y10T29/49002Y10T29/49401
    • A method for splitting a piezoelectric device used in substitution for dicing for shortening the processing time as compared to a case of using the dicing to improve productivity to enable the shape of the piezoelectric device more suited to the emission shape of a solution to be achieved, and a method for manufacturing a printer device whereby a narrower nozzle pitch may be achieved. A resist 201 is formed at a pre-set position on a major surface of the piezoelectric device 43 bonded to a vibrating plate. Using this resist 201 as a mask, powders or particles are sprayed onto the piezoelectric device 43 for removing the portion of the piezoelectric device 43 not carrying the resist 201 to form the piezoelectric device 35 of a desired shape at a pre-set position.
    • 与使用切割来提高生产率的情况相比,用于代替切割使用的用于切割的压电装置的分割方法,以使压电装置的形状更适合于要实现的溶液的发射形状, 以及可以实现更窄的喷嘴间距的打印机装置的制造方法。 抗蚀剂201形成在键合到振动板的压电装置43的主表面上的预设位置。 使用该抗蚀剂201作为掩模,将粉末或颗粒喷涂到压电装置43上,以去除不携带抗蚀剂201的压电装置43的部分,以在预定位置形成所需形状的压电装置35。
    • 27. 发明授权
    • Printer
    • 打印机
    • US06179410B2
    • 2001-01-30
    • US08952911
    • 1997-11-17
    • Koichiro KishimaToshio Fukuda
    • Koichiro KishimaToshio Fukuda
    • B41J2135
    • B41J2/1634B41J2/14274B41J2/1612B41J2/1637B41J2002/14387
    • A printer comprising a printing head for discharging ink alone or ink and diluent according to the present invention employs a polyimide polymer at least around nozzle opening(s) on the nozzle opening side of the printing head so as to enable to form a recorded image of a high resolution as well as to enhance the productivity. It is preferable that the polyimide polymer have a coefficient of water absorption as 0.4 (%) or below when dipped in water of 23 (°C.) for 24 hours. Furthermore, it is preferable that the printing head excluding the portion made from the polyimide polymer be made from polysulfone, polyethersulfone, or a polyimide polymer having a coefficient of water absorption as 1.0 (%) or above when dipped in water of 23 (°C.) for 24 hours. Moreover, it is preferable that nozzles are formed by ablation processing using eximer laser.
    • 根据本发明的包括用于单独排出墨水的打印头或墨水和稀释剂的打印机至少在打印头的喷嘴开口侧上的喷嘴开口周围采用聚酰亚胺聚合物,以便能够形成记录图像 高分辨率以及提高生产力。 优选聚酰亚胺聚合物在23℃(℃)浸渍24小时时的吸水系数为0.4(%)以下。 此外,优选的是,除了聚酰亚胺聚合物制成的部分之外的打印头由浸渍在水中的吸水率为1.0(%)以上的聚砜,聚醚砜或聚酰亚胺聚合物制成为23(℃) 。)24小时。 此外,优选通过使用准分子激光的烧蚀加工形成喷嘴。
    • 28. 发明授权
    • Printer device and the manufacturing method
    • 打印机和制造方法
    • US6109737A
    • 2000-08-29
    • US973352
    • 1997-12-04
    • Koichiro Kishima
    • Koichiro Kishima
    • B41J2/14B41J2/16B41J2/21B41J2/045
    • B41J2/1623B41J2/14233B41J2/14274B41J2/161B41J2/1612B41J2/1629B41J2/1631B41J2/1632B41J2/1634B41J2/1643B41J2/211B41J2002/14387B41J2202/03B41J2202/11B41J2202/21
    • In a printer according to the present invention, a diaphragm provided with a thermoplastic layer and a pattern layer is set on the main surface of a pressure chamber forming part in which a liquid supply passage is formed, when the thermoplastic layer of the diaphragm is pressed, heated and bonded onto the pressure chamber forming part, pressure is applied only to the pattern layer of the diaphragm, no unnecessary pressure is applied to a part opposite to the liquid supply passage in which the pattern layer is not formed, the liquid supply passage is prevented from being blocked by the thermoplastic layer, and operation for bonding the diaphragm to the pressure chamber forming part in which the pressure chamber is formed is facilitated.Further, in the printer according to the present invention, an adhesive layer consisting of thermoplastic resin is formed between the pressure chamber forming part and the diaphragm and the bonding strength of the diaphragm to the pressure chamber forming part is sufficiently secured. Also, in the printer, each nozzle is formed in a nozzle forming member, if an adhesive layer consisting of thermosetting resin is formed between the pressure chamber forming part and the nozzle forming member, the pressure chamber forming part and the nozzle forming member are bonded under room temperature after the diaphragm and the pressure chamber forming part are bonded, at this time the adhesive layer consisting of thermoplastic resin is not influenced, no heat is also applied to a liquid repelling film if the liquid repelling film is formed on the nozzle forming member, and a range in which the liquid repelling film is selected is widened.
    • PCT No.PCT / JP97 / 01177 Sec。 371 1997年12月4日第 102(e)日期1997年12月4日PCT提交1997年4月4日PCT公布。 第WO97 / 37851号公报 日期1997年10月16日在根据本发明的打印机中,在形成有液体供给通道的压力室形成部分的主表面上设置具有热塑性层和图案层的隔膜,当热塑性层 的隔膜被压制,加热并结合到压力室形成部分上,仅对隔膜的图案层施加压力,对于没有形成图案层的液体供应通道的相对部分没有施加不必要的压力 能够防止液体供给通道被热塑性层阻挡,并且有助于将隔膜接合到形成有压力室的压力室形成部的操作。 此外,在根据本发明的打印机中,在压力室形成部分和隔膜之间形成由热塑性树脂组成的粘合剂层,并且充分确保了膜片与压力室形成部件的结合强度。 此外,在打印机中,每个喷嘴形成在喷嘴形成部件中,如果在压力室形成部分和喷嘴形成部件之间形成由热固性树脂组成的粘合层,则压力室形成部分和喷嘴形成部件被接合 在隔膜和压力室形成部分之后的室温下,不影响由热塑性树脂构成的粘合剂层,如果在喷嘴形成上形成液体排斥膜,则不会对排液膜施加热量 并且选择了液体排斥膜的范围变宽。
    • 29. 发明授权
    • Method of controlling the domain of a nonlinear ferroelectric optics
substrate
    • 控制非线性铁电光学基片领域的方法
    • US5193023A
    • 1993-03-09
    • US729897
    • 1991-07-15
    • Masahiro YamadaKoichiro Kishima
    • Masahiro YamadaKoichiro Kishima
    • G02F1/355G02F1/37G02F1/377
    • G02F1/3775G02F1/3558G02F2001/374G02F2202/20
    • A method of controlling the domain of a nonlinear ferroelectric optics substrate to form an inverted-domain structure in one major surface of a single-domain nonlinear ferroelectric optics substrate. A first electrode is formed in a first major surface of a nonlinear ferroelectric optics substrate in a pattern corresponding to a desired pattern of an inverted-domain structure to be formed, a second electrode is formed on a second major surface opposite the first major surface in a pattern corresponding to that of the first electrode or in a solid film, a dc voltage or a pulse voltage is applied across the first and second electrodes to form local, inverted domains in the desired pattern in the first major surface of the nonlinear ferroelectric optics substrate. An insulating film may be formed between the first electrode and the first major surface to avoid damaging crystals of the nonlinear ferroelectric optics substrate by the current that flow across the nonlinear ferroelectric optics substrate when the dc voltage or the pulse voltage is applied across the first and second electrodes.
    • 一种控制非线性铁电光学衬底的域以在单畴非线性铁电光学衬底的一个主表面上形成反向结构结构的方法。 第一电极形成在非线性铁电光学器件基板的第一主表面上,其形状对应于要形成的反向域结构的期望图案,第二电极形成在与第一主表面相对的第二主表面上 在第一和第二电极两端施加对应于第一电极或直流电压或直流电压或脉冲电压的图案,以在非线性铁电光学器件的第一主表面中形成所需图案中的局部反向域 基质。 可以在第一电极和第一主表面之间形成绝缘膜,以避免当直流电压或脉冲电压施加在第一和第二主表面上时,通过在非线性铁电光学基板上流动的电流来损坏非线性铁电光学基板的晶体,并且 第二电极。
    • 30. 发明授权
    • Image acquisition apparatus, image acquisition method, and computer program
    • 图像采集装置,图像采集方法和计算机程序
    • US09386233B2
    • 2016-07-05
    • US13617418
    • 2012-09-14
    • Koichiro KishimaRyu NarusawaFumiyasu Suzuki
    • Koichiro KishimaRyu NarusawaFumiyasu Suzuki
    • H04N5/235G02B21/36
    • H04N5/2356G02B21/367
    • An image acquisition apparatus includes an optical system, an imaging device, a movement controller, and a multiple exposure processing unit. The optical system includes an objective lens for magnifying a portion of an imaging target. The imaging device is capable of performing all-pixel simultaneous exposure and is configured to image the portion magnified by the optical system. The movement controller is configured to move a focal point of the objective lens in a thickness direction of the portion of the imaging target. The multiple exposure processing unit is configured to perform multiple exposure of the imaging device at a plurality of positions such that, for each of ranges sectioned by positions in a direction in which the focal point is movable, an average image that covers each of the ranges is obtained.
    • 图像采集装置包括光学系统,成像装置,移动控制器和多曝光处理单元。 光学系统包括用于放大成像目标的一部分的物镜。 成像装置能够执行全像素同时曝光,并且被配置为对由光学系统放大的部分进行成像。 移动控制器被配置为沿着成像目标的该部分的厚度方向移动物镜的焦点。 多重曝光处理单元被配置为在多个位置执行成像装置的多次曝光,使得对于通过焦点可移动的方向上的位置分割的每个范围,覆盖每个范围的平均图像 获得。