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    • 1. 发明授权
    • Ink supply structure for inkjet printhead
    • 喷墨打印头供墨结构
    • US06682177B2
    • 2004-01-27
    • US10213076
    • 2002-08-07
    • Chi-Chung HsuChen-Hua LinMing-Hsun Yang
    • Chi-Chung HsuChen-Hua LinMing-Hsun Yang
    • B41J205
    • B41J2/05B41J2/1404B41J2002/14387
    • A printhead includes a silicon substrate, a first barrier layer, a second barrier layer, and a nozzle plate. The silicon substrate has a plurality of thermal elements and a main ink supply channel, each of the thermal elements being in a firing chamber of the first barrier layer and in fluid communications with the main ink supply channel through ink channels. The top of each ink firing elements is aligned with a nozzle on the nozzle plate. To satisfy the need for high frequency ink ejection, the second barrier layer is utilized to provide an auxiliary ink supply channel for increasing the ink supply speed. The ink channel between the main ink supply and the ink channel inlet is enlarged in the vertical direction so as to lower the pressure and thus increase the ink supply speed.
    • 打印头包括硅衬底,第一阻挡层,第二阻挡层和喷嘴板。 硅衬底具有多个热元件和主供墨通道,每个热元件位于第一阻挡层的焙烧室中,并且通过油墨通道与主供墨通道流体连通。 每个喷墨元件的顶部与喷嘴板上的喷嘴对准。 为了满足高频喷墨的需要,第二阻挡层用于提供用于提高墨水供应速度的辅助墨水供应通道。 主墨水供墨口和墨水通道入口之间的墨水通道在垂直方向上扩大,从而降低压力,从而提高墨水供应速度。
    • 2. 发明授权
    • Ink supply structure for inkjet printhead
    • 喷墨打印头供墨结构
    • US06966634B2
    • 2005-11-22
    • US10724890
    • 2003-12-02
    • Chi-Chung HsuChen-Hua LinMing-Hsun Yang
    • Chi-Chung HsuChen-Hua LinMing-Hsun Yang
    • B41J2/14B41J2/05
    • B41J2/05B41J2/1404B41J2002/14387
    • A printhead includes a silicon substrate, a first barrier layer, a second barrier layer, and a nozzle plate. The silicon substrate has a plurality of thermal elements and a main ink supply channel, each of the thermal elements being in a firing chamber of the first barrier layer and in fluid communications with the main ink supply channel through ink channels. The top of each ink firing elements is aligned with a nozzle on the nozzle plate. To satisfy the need for high-frequency ink ejection, the second barrier layer is utilized to provide an auxiliary ink supply channel for increasing the ink supply speed. The ink channel between the main ink supply and the ink channel inlet is enlarged in the vertical direction so as to lower the pressure and thus increase the ink supply speed.
    • 打印头包括硅衬底,第一阻挡层,第二阻挡层和喷嘴板。 硅衬底具有多个热元件和主供墨通道,每个热元件位于第一阻挡层的焙烧室中,并且通过油墨通道与主供墨通道流体连通。 每个喷墨元件的顶部与喷嘴板上的喷嘴对准。 为了满足对高频喷墨的需要,第二阻挡层用于提供用于增加墨水供应速度的辅助墨水供应通道。 主墨水供墨口和墨水通道入口之间的墨水通道在垂直方向上扩大,从而降低压力,从而提高墨水供应速度。
    • 7. 发明申请
    • METHOD OF USING GROUND PENETRATING RADAR TO DETECT CORROSION OF STEEL BARS IN FERROCONCRETE COMPONENTS
    • 使用地震探测雷达检测铁杆腐蚀的方法
    • US20120280849A1
    • 2012-11-08
    • US13182105
    • 2011-07-13
    • Che-Way CHANGChen-Hua Lin
    • Che-Way CHANGChen-Hua Lin
    • G01S13/89
    • G01V3/12G01S7/412G01S13/885
    • The present invention discloses a method of using ground penetrating radar to detect corrosion of steel bars in ferroconcrete components. The method comprises the following steps. Firstly, a ground penetrating radar is used to emit an electromagnetic wave toward a ferroconcrete component. Then, a reflected electromagnetic wave is received. The reflected electromagnetic wave is calculated to obtain characteristic parameters from the interface of the steel bar and the concrete, wherein the characteristic parameters includes reflection electric potential, specific resistance and corresponding specific electric current from the interface. Reference characteristic data which include reference thicknesses of the concrete versus reference reflected electric potential, specific resistance and corresponding specific electric current from the interface are provided. The obtained interface characteristic parameters and the thickness of the concrete are compared with the reference characteristic data to derive the corrosion condition of steel bars in the ferroconcrete component.
    • 本发明公开了一种利用地面穿透雷达检测钢筋混凝土构件钢筋腐蚀的方法。 该方法包括以下步骤。 首先,使用地面穿透雷达向钢筋混凝土部件发射电磁波。 然后,接收反射的电磁波。 计算反射电磁波,从钢筋和混凝土的界面获得特征参数,其特征参数包括反射电位,电阻率和对应的比表面电流。 提供了参考特性数据,其包括混凝土的参考厚度与参考反射电位,比电阻和来自界面的对应的比电流。 将获得的界面特征参数和混凝土的厚度与参考特征数据进行比较,以得出钢筋混凝土构件中钢筋的腐蚀状况。
    • 8. 发明授权
    • Ink chamber structure for an inkjet printhead
    • 用于喷墨打印头的墨水室结构
    • US06702429B2
    • 2004-03-09
    • US10227870
    • 2002-08-27
    • Chen-Hua Lin
    • Chen-Hua Lin
    • B41J205
    • B41J2/14201B41J2/1404B41J2/14145B41J2002/14387
    • An ink chamber structure for an inkjet printhead, comprising a plurality of ink channels and a plurality of ink chambers arrayed in columns, with each of such plurality of ink chambers corresponding to an ink channel; the plurality of ink channels respectively channels ink from two sides of such column into ink chambers. The openings for part of the ink chambers are located on one side of the column installation, whereas the openings for the rest of the ink chambers are located on the other side of the column installation. By utilizing the cavity between two adjacent ink chambers on the same side to install an ink chamber from the other side, higher density of ink chamber installment can be achieved in the same scope of space. Also, with the ink chambers on the left and right sides being indentedly arranged, the ink chambers are provided with larger ink-inlet angles, thus effectively avoiding disturbance that adversely affects the reception of ink by the chambers.
    • 一种用于喷墨打印头的墨水室结构,包括多个墨水通道和排列成列的多个墨水腔,其中每个墨水腔对应于墨水通道; 多个油墨通道分别将油墨从这种塔的两侧通向油墨室。 部分油墨室的开口位于柱装置的一侧,而其余油墨室的开口位于柱装置的另一侧。 通过利用同一侧的两个相邻油墨室之间的空腔从另一侧安装油墨室,可以在相同的空间范围内实现更高密度的油墨室装配。 此外,由于左右两侧的墨水腔是凹进排列的,所以墨水室具有较大的墨水入口角度,从而有效地避免了不利影响墨水容纳墨水的干扰。
    • 9. 发明授权
    • Method and apparatus of identifying ink stored in an ink-jet cartridge
    • 识别存储在喷墨盒中的墨水的方法和装置
    • US06322182B1
    • 2001-11-27
    • US09408072
    • 1999-09-29
    • Chen-Hua LinDong-Sang ChiangJi-Chen Wu
    • Chen-Hua LinDong-Sang ChiangJi-Chen Wu
    • B41J2195
    • B41J2/17546
    • Method and apparatus of identifying ink stored in an ink-jet cartridge are to change the electrical property such as resistance or capacitance of the ink and to cooperate with a detector to achieve the goal of identifying ink. The method comprises: adding special additive such as salt additive or acid additive into the ink or changing the ratio of the components in the ink, and further providing a detector for detecting the electrical property of the ink and doing logical judgment to identify whether the ink stored in the ink-jet cartridge is the original factory ink or not. The preferred embodiment of the apparatus of identifying ink in ink-jet cartridge is to form the detector on the IC of the print head directly to achieve the goal stating above of detecting the electrical property of the ink stored in the ink-jet cartridge.
    • 识别存储在喷墨盒中的墨水的方法和装置是改变诸如墨水的电阻或电容的电特性,并与检测器配合以达到识别墨水的目的。 该方法包括:向油墨中添加盐添加剂或酸添加剂等特殊添加剂,或者改变油墨中成分的比例,进一步提供检测油墨电性能的检测器,进行逻辑判断,以判断油墨 储存在喷墨墨盒中的是原厂墨水还是不存在。 在喷墨盒中识别墨水的装置的优选实施例是直接在打印头的IC上形成检测器,以实现上述目的,以检测存储在喷墨墨盒中的墨水的电特性。
    • 10. 发明授权
    • Method for manufacturing a printhead of ink jet printing apparatus
    • 喷墨打印设备的打印头的制造方法
    • US06406835B1
    • 2002-06-18
    • US09598841
    • 2000-06-21
    • Hung-Chou KangChen-Hua LinJi-Chen Wu
    • Hung-Chou KangChen-Hua LinJi-Chen Wu
    • B41J216
    • B41J2/1628B41J2/1404B41J2/1603B41J2/1623B41J2/1629B41J2/1631B41J2/164B41J2002/14403
    • A method according to the invention comprises the following steps. At first, a first layer of film is coated over a micro-control apparatus having a plurality of ejecting elements. Next, a plurality of ink chambers, a plurality of ink channels, and a plurality of supporting cylinders are simultaneously formed in the first layer of film by photolithography. More specifically, the plurality of supporting cylinders is located within the plurality of ink channels. Thereafter, a layer of liquid medium is coated over the first layer of film. A photosensitive film is provided over the first layer of film, and then a plurality of ink orifices is formed therein at positions respectively corresponding to the plurality of ink chambers by photolithography. Finally, the micro-control apparatus is connected to a signal input means. Accordingly, a precision alignment of application between ink orifices and ink chambers in manufacturing a conventional printhead is not necessary so that the throughput and yield rate can be increased.
    • 根据本发明的方法包括以下步骤。 首先,将第一层膜涂覆在具有多个喷射元件的微控制装置上。 接下来,通过光刻法在第一层膜中同时形成多个墨室,多个墨通道和多个支撑圆筒。 更具体地,多个支撑筒位于多个墨水通道内。 此后,在第一层膜上涂覆一层液体介质。 在第一层膜上提供感光膜,然后通过光刻法分别对应于多个墨室的位置处形成多个墨孔。 最后,微控制装置连接到信号输入装置。 因此,在制造常规打印头时,油墨孔和油墨室之间的应用精确对准是不必要的,从而可以提高生产量和产量。