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    • 1. 发明申请
    • Systems and methods for synchronized on-carrier printing and drying
    • 用于同步载波印刷和干燥的系统和方法
    • US20070153074A1
    • 2007-07-05
    • US11323879
    • 2005-12-30
    • Frank AndersonRichard CorleyKin KwanPaul SacotoJeanne Saldanha Singh
    • Frank AndersonRichard CorleyKin KwanPaul SacotoJeanne Saldanha Singh
    • B41J2/01
    • B41J11/002
    • Printing systems such as those comprising a printing device operable for depositing one or more inks upon a substrate and a drying device, such as one operable for emitting radiation having a pre-selected electromagnetic wavelength, for the purpose of drying the one or more inks in a predetermined time period subsequent to the deposition of the one or more inks upon the substrate, wherein the printing device and the drying device are operated at about the same moving speed. Methods of printing, such as those comprising depositing one or more inks onto a substrate using a printing device and drying the one or more deposited inks using a drying device, such as one operable for emitting pre-selected wavelengths of energy that are focused onto the one or more deposited inks in a predetermined time period subsequent to ink deposition, wherein the depositing and the drying are synchronized.
    • 印刷系统,例如包括可操作用于在基材上沉积一种或多种油墨的印刷装置和干燥装置,例如用于发射具有预先选择的电磁波长的辐射的干燥装置,用于干燥一种或多种油墨的目的 在一个或多个墨水沉积在基底上之后的预定时间段,其中打印装置和干燥装置以大约相同的移动速度运行。 打印方法,例如包括使用印刷装置将一种或多种油墨沉积到基材上并使用干燥装置干燥所述一种或多种沉积的油墨的方法,所述干燥装置可操作用于发射预先选定的能量波长聚焦到 在油墨沉积之后的预定时间段内的一种或多种沉积的油墨,其中沉积和干燥是同步的。
    • 2. 发明申请
    • Inkjet print cartridge having an adhesive with improved dimensional control
    • 具有改进的尺寸控制的粘合剂的喷墨打印盒
    • US20060001713A1
    • 2006-01-05
    • US11169905
    • 2005-06-29
    • Kin KwanJames MrvosJeanne Saldanha SinghMary Smoot
    • Kin KwanJames MrvosJeanne Saldanha SinghMary Smoot
    • B41J2/175
    • B41J2/17559
    • A method for manufacturing an inkjet print cartridge and an inkjet cartridge produced thereby are disclosed. An inkjet print cartridge in accordance with one aspect includes a component of the inkjet print cartridge and an applied adhesive on at least a portion of the component, wherein the applied adhesive is formed from an adhesive having a rheology viscosity ratio ηi/ηmin of from 1.0 to less than 2.1. The method in accordance with one aspect includes applying an adhesive onto at least a portion of a component of an inkjet print cartridge at an application temperature, Tα, and heating the adhesive from an initial temperature, Ti, to a cure temperature for the adhesive, Tc. The adhesive has a rheology cure profile characterized by at least one of the following parameters: a) a rheology viscosity ratio ηi/ηmin of from 1.0 to less than 2.1, b) a temperature of the adhesive is approximately equal to a minimum viscosity temperature for the adhesive, Tηmin, within less than about 10 minutes from the start of the cure cycle, and c) viscosity of the adhesive increases within less than about 5 minutes from the start of the cure cycle.
    • 公开了一种用于制造由此制造的喷墨打印墨盒和喷墨墨盒的方法。 根据一个方面的喷墨打印墨盒包括喷墨打印墨盒的组件和在组件的至少一部分上的涂布的粘合剂,其中涂布的粘合剂由具有流变粘度比η的粘合剂形成, / SUB> / etamin为1.0至小于2.1。 根据一个方面的方法包括在施加温度Tαα下将粘合剂施加到喷墨打印盒的部件的至少一部分上,并从初始温度T 1加热粘合剂, 将粘合剂的固化温度提高到粘合剂的固化温度。 粘合剂具有以下参数中的至少一个特征的流变学固化分布:a)1.0至小于2.1的流变粘度比ηa / etamin,b)粘合剂的温度为 大约等于从固化循环开始不到约10分钟内粘合剂T etamin N的最小粘度温度,以及c)粘合剂的粘度在小于约5分钟内增加 治愈周期的开始。
    • 7. 发明申请
    • Sealed fluidic interfaces for an ink source regulator for an inkjet printer
    • 用于喷墨打印机的墨源调节器的密封流体接口
    • US20060012643A1
    • 2006-01-19
    • US11232059
    • 2005-09-21
    • James AndersonJames DrummondTim FrasureJohn FowlerDavid GreerJames KerrSteven KomplinKin KwanMatthew RussellAnn TreboloJon Whitney
    • James AndersonJames DrummondTim FrasureJohn FowlerDavid GreerJames KerrSteven KomplinKin KwanMatthew RussellAnn TreboloJon Whitney
    • B41J2/05
    • B41J2/17596B41J2/17559Y10T29/49401
    • A method of assembling a print head that includes the steps of: (a) providing a print head base including a nozzle and at least one ink channel; (b) mounting in fluid communication with the at least one ink channel of the print head base an ink regulator that includes: (i) a pressurized chamber including an ink inlet in fluid communication with an ink source, an ink outlet in fluid communication with the at least one ink channel of the print head base, and an exterior flexible wall having an inner surface facing an interior of the pressurized chamber, (ii) a valve biased to restrict fluid communication between the ink source and the pressurized chamber, where the exterior flexible wall actuates the valve to overcome the bias in response to a predetermined pressure differential across the exterior flexible wall to provide fluid communication between the ink source and the pressurized chamber, where the fluid communication between the pressurized chamber and the ink source decreases the pressure differential across the exterior flexible wall and, where the valve restricts fluid communication between the ink source and the pressurized chamber when the pressure differential across the exterior flexible wall is less than the predetermined pressure differential; and, (c) positioning an ink filter in fluid communication with the ink regulator and the at least one ink channel of the print head base.
    • 一种组装打印头的方法,包括以下步骤:(a)提供包括喷嘴和至少一个墨水通道的打印头基座; (b)与所述打印头基座的所述至少一个墨水通道流体连通地安装墨水调节器,所述墨水调节器包括:(i)包括与墨水源流体连通的墨水入口的加压室,与墨水流体连通的墨水出口 打印头基座的至少一个墨水通道和具有面向加压腔室内部的内表面的外部柔性壁,(ii)偏置以限制墨源和加压室之间的流体连通的阀,其中 外部柔性壁致动阀门以克服跨越外部柔性壁的预定压力差的偏压,以提供墨源和加压室之间的流体连通,其中加压室和墨水源之间的流体连通减小压力 外部柔性壁上的差速器,以及阀门限制油墨源和压力之间的流体连通 当外部柔性壁上的压力差小于预定压差时, 和(c)将墨水过滤器定位成与墨水调节器和打印头基座的至少一个墨水通道流体连通。
    • 10. 发明申请
    • Die attach methods and apparatus for micro-fluid ejection device
    • 微流体喷射装置的贴片方法和装置
    • US20060114297A1
    • 2006-06-01
    • US11000763
    • 2004-12-01
    • Craig BertelsenKin KwanSean Weaver
    • Craig BertelsenKin KwanSean Weaver
    • B41J2/175
    • B41J2/1753B41J2/17513
    • A micro-fluid ejection device structure, a multi-fluid cartridge containing the ejection device structure, and methods for making the ejection device structure and cartridge. The micro-fluid ejection device structure includes a fluid supply body containing at least three fluid supply slots therein. An ejection head substrate having fluid feed slots therein is attached to the fluid supply body. Each of the fluid supply slots in the body is in flow communication with at least one of the fluid feed slots in the substrate. A plurality of adhesive bond lines adhesively attach the ejection head substrate and the fluid supply body to one another. Each of the adhesive bond lines have a width of less than about 600 microns and are located between adjacent ones of the fluid supply slots in the body.
    • 微流体喷射装置结构,包含喷射装置结构的多流体盒,以及用于制造喷射装置结构和盒的方法。 微流体喷射装置结构包括其中包含至少三个流体供应槽的流体供应主体。 其中具有流体供给槽的喷射头基板附接到流体供应体。 身体中的每个流体供应槽与衬底中的至少一个流体供给槽流动连通。 多个粘合剂粘合线将喷射头基板和流体供给体彼此粘合地附接。 每个粘合剂粘合线具有小于约600微米的宽度,并且位于身体中相邻的流体供应槽之间。