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    • 5. 发明授权
    • Method for fine pattern formation
    • 精细图案形成的方法
    • US06767473B2
    • 2004-07-27
    • US10088685
    • 2002-03-21
    • Hiroyuki FujitaYoshio MitaRyoichi OhigashiKatsunori Tsuchiya
    • Hiroyuki FujitaYoshio MitaRyoichi OhigashiKatsunori Tsuchiya
    • G01D1500
    • B05C5/027B05C11/1034B41J2/02H01L51/0005Y10T29/49401
    • There are provided an apparatus for fine pattern formation, which can form a fine pattern with high accuracy by direct writing with ink, a production process of fine nozzles provided in the apparatus for fine pattern formation, and a method for fine pattern formation. Fine pattern formation with high accuracy could have been realized by the apparatus for fine pattern formation, comprising: a silicon substrate; a plurality of fine holes which extend through the silicon substrate from the surface of the silicon substrate to the back surface of the silicon substrate and have a silicon oxide layer on the wall surface thereof; fine nozzles which are protruded, integrally with the silicon oxide layer, on the back surface side of the silicon substrate from each opening of the fine holes; a silicon nitride layer provided on the surface and side of the silicon substrate; a support member provided on the surface side of the silicon substrate; an ink passage for supplying ink to the opening of each fine hole on the surface side of the silicon substrate; and an ink supplying device connected to the ink passage.
    • 提供了一种用于精细图案形成的装置,其可以通过直接书写油墨,高精度地形成精细图案,在精细图案形成装置中提供精细喷嘴的制造工艺,以及精细图案形成方法。 用于精细图案形成的装置可以实现高精度的精细图案形成,包括:硅衬底; 多个细孔,从硅衬底的表面延伸穿过硅衬底到硅衬底的背面,并在其表面上具有氧化硅层; 与所述硅氧化物层一体地突出于所述硅衬底的所述背面侧的细小喷嘴从所述细孔的每个开口排出; 设置在硅衬底的表面和侧面上的氮化硅层; 设置在所述硅衬底的表面侧的支撑构件; 用于向硅衬底的表面侧的每个细孔的开口供墨的墨通道; 以及连接到墨通道的供墨装置。
    • 7. 发明授权
    • Fabrication of liquid emission device with asymmetrical electrostatic mandrel
    • 具有不对称静电心轴的液体发射装置的制造
    • US06770211B2
    • 2004-08-03
    • US10232077
    • 2002-08-30
    • Michael J. DeBarGilbert A. HawkinsJames M. Chwalek
    • Michael J. DeBarGilbert A. HawkinsJames M. Chwalek
    • G01D1500
    • B41J2/16B41J2/14314B41J2/1623B41J2/1626B41J2/1631B41J2/1642Y10T29/49401
    • A liquid emission device includes a chamber having a nozzle orifice. Separately addressable dual electrodes are positioned on opposite sides of a central electrode. The three electrodes are aligned with the nozzle orifice. A rigid electrically insulating coupler connects the two addressable electrodes. To eject a drop, an electrostatic charge is applied to the addressable electrode nearest to the nozzle orifice, which pulls that electrode away from the orifice, drawing liquid into the expanding chamber. The other addressable electrode moves in conjunction, storing potential energy in the system. Subsequently the addressable electrode nearest to the nozzle is de-energized and the other addressable electrode is energized, causing the other electrode to be pulled toward the central electrode in conjunction with the release of the stored elastic potential energy. This action pressurizes the liquid in the chamber behind the nozzle orifice, causing a drop to be ejected from the nozzle orifice.
    • 液体排放装置包括具有喷嘴孔的室。 单独寻址的双电极位于中心电极的相对侧上。 三个电极与喷嘴孔对齐。 刚性电绝缘耦合器连接两个可寻址电极。 为了喷射液滴,静电电荷施加到最接近喷嘴孔的可寻址电极,该电极将该电极拉离孔口,将液体引入扩张室。 其他可寻址电极一起移动,将势能存储在系统中。 随后,最接近喷嘴的可寻址电极被断电,另一个可寻址电极通电,使另一个电极与存储的弹性势能的释放一起被拉向中心电极。 这种作用使喷嘴孔后面的腔中的液体加压,导致从喷嘴口喷出的液滴。
    • 8. 发明授权
    • Span lock with centering guide
    • 跨度锁定与定心导向
    • US06701562B2
    • 2004-03-09
    • US10222408
    • 2002-08-16
    • Daniel BurkeEmilie Becq-Giraudon
    • Daniel BurkeEmilie Becq-Giraudon
    • G01D1500
    • E01D15/08
    • A span lock system for a double-leaf drawbridge. A guide housing mounted at the tip of one leaf includes an opening with vertically opposed cushioned shoes slidably supporting an elongate lock bar reciprocative lengthwise in a direction along the length of the drawbridge. A receiver housing mounted at the tip of the other leaf is positioned to interlock with the guide housing and includes a like opening slidably receiving the lock bar between vertically opposed cushioned shoes. A pair of vertical guide columns project from both side of the guide housing opening with the upper and lower edges of the distal sides beveled inwardly, and another pair of vertical guide columns project from both side of the receiver housing opening with the upper and lower edges of the proximal sides beveled outwardly. Within a specified maximum limit of misalignment, the guide and receiver columns interengage causing their openings to closely align and facilitate insertion of the lock bar into the opening of the receiver housing with limited horizontal bending and shear. The distance between the proximal sides of the receiver housing exceeds the distance between the distal sides of the guide housing by an amount corresponding to the specified maximum misalignment for a particular bridge design. The housings are secured to the bridge trusses by vertical columns of bolts and the cushioned shoes are biased by disc springs mounted on guide pins.
    • 双叶吊桥的跨度锁系统。 安装在一个叶片的尖端处的引导壳体包括具有垂直相对的缓冲鞋的开口,其可滑动地支撑在沿着吊桥长度的方向上纵向往复运动的细长锁杆。 安装在另一叶片的尖端处的接收器壳体被定位成与引导壳体互锁,并且包括在垂直相对的缓冲鞋之间可滑动地接收锁定杆的类似的开口。 一对垂直引导柱从引导壳体开口的两侧突出,远侧的上边缘和下边缘向内倾斜,另一对垂直引导柱从接收器壳体开口的两侧突出,上边缘和下边缘 的近侧向外倾斜。 在指定的最大不对中极限范围内,引导柱和接收器柱互相联系,使其开口紧密对准,并有助于将锁定杆以有限的水平弯曲和剪切方式插入接收器壳体的开口中。 接收器壳体的近侧之间的距离超过了导向壳体的远侧之间的距离,其量对应于针对特定桥设计的规定的最大不对准。 外壳通过垂直的螺栓柱固定到桥桁架上,并且缓冲的鞋被安装在引导销上的盘形弹簧偏置。
    • 9. 发明授权
    • Ejection head for aggressive liquids manufactured by anodic bonding
    • US06780340B2
    • 2004-08-24
    • US10296629
    • 2002-11-26
    • Renato Conta
    • Renato Conta
    • G01D1500
    • B41J2/16B41J2/1623B41J2/1628B41J2/1629B41J2/1631B41J2/1635B41J2/1646F02M51/06F02M51/0603F02M53/06F02M61/1853Y10T29/49401
    • A method for manufacturing an ejection head (10) or ejector suitable for ejecting in the form of droplets (16) a liquid (14) conveyed inside the ejection head (10), comprising a step of producing, from a silicon wafer, a nozzle plate (12) having at least one ejection nozzle (13); a step of producing, from another silicon wafer, a substrate (11) having at least one actuator (15) for activating the ejection of the droplets of liquid through the nozzle (13); and a step of joining the nozzle plate (12) and the substrate (11) together to form the ejection head, wherein this joining step comprises the production of a junction (25), made by means of the anodic bonding technology, between the substrate (11) and the nozzle plate (12), in such a way that, in the area of this junction (25), the ejection head (10) does not present structural discontinuities, and also possesses a resistance to chemical corrosion by the liquid (14) contained in the ejection head (10) at least equal to that of the silicon constituting both the substrate (11) and the nozzle plate (12). The method of the invention may be applied for manufacturing an ink jet printhead (110), having one or more nozzles (113a, 113b, etc.), which has the advantage, with respect to the known printheads, of also being suitable for working with special inks characterized by high level chemical aggressiveness. In general, the ejection head of the invention, thanks to its structure which is globally highly robust and also chemically inert in the area of the junction (25), can be used advantageously with various types of liquids, even with marked chemical aggressiveness, in different sectors of the art, for example for ejecting paints on various types of media, generally not paper, in the industrial marking sector; or for ejecting in a controlled way droplets of fuel, such as petrol, in an internal combustion engine.