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
    • 2. 发明授权
    • System and method for chromatography and electrophoresis using circular optical scanning
    • 使用圆形光学扫描进行色谱和电泳的系统和方法
    • US06296749B1
    • 2001-10-02
    • US09290445
    • 1999-04-13
    • Joseph W. BalchLaurence R. BrewerJames C. DavidsonJoseph R. Kimbrough
    • Joseph W. BalchLaurence R. BrewerJames C. DavidsonJoseph R. Kimbrough
    • G01N2726
    • G01N30/74G01N27/44721G01N27/44791G01N30/6082G01N30/6095G01N2030/386
    • A system and method is disclosed for chromatography and electrophoresis using circular optical scanning. One or more rectangular microchannel plates or radial microchannel plates has a set of analysis channels for insertion of molecular samples. One or more scanning devices repeatedly pass over the analysis channels in one direction at a predetermined rotational velocity and with a predetermined rotational radius. The rotational radius may be dynamically varied so as to monitor the molecular sample at various positions along a analysis channel. Sample loading robots may also be used to input molecular samples into the analysis channels. Radial microchannel plates are built from a substrate whose analysis channels are disposed at a non-parallel angle with respect to each other. A first step in the method accesses either a rectangular or radial microchannel plate, having a set of analysis channels, and second step passes a scanning device repeatedly in one direction over the analysis channels. As a third step, the scanning device is passed over the analysis channels at dynamically varying distances from a centerpoint of the scanning device. As a fourth step, molecular samples are loaded into the analysis channels with a robot.
    • 公开了使用圆形光学扫描的色谱和电泳的系统和方法。 一个或多个矩形微通道板或径向微通道板具有用于插入分子样品的一组分析通道。 一个或多个扫描装置以预定的旋转速度和预定的旋转半径在一个方向上重复地越过分析通道。 旋转半径可以是动态变化的,以便在分析通道的各个位置处监测分子样品。 样品加载机器人也可用于将分子样品输入分析通道。 径向微通道板由基板构成,其分析通道相对于彼此以非平行的角度设置。 该方法的第一步是访问具有一组分析通道的矩形或径向微通道板,并且第二步通过分析通道在一个方向上重复地扫描扫描装置。 作为第三步,扫描装置以与扫描装置的中心点动态变化的距离通过分析通道。 作为第四步,用机器人将分子样品加载到分析通道中。
    • 3. 发明授权
    • Vacuum pull down method for an enhanced bonding process
    • 真空下拉法用于增强粘合工艺
    • US6000243A
    • 1999-12-14
    • US67022
    • 1998-04-27
    • James C. DavidsonJoseph W. Balch
    • James C. DavidsonJoseph W. Balch
    • C03B23/203C03B23/20C03B11/08C03B23/00C03C27/02B29C1/26
    • C03B23/203Y10S228/903Y10T29/49826Y10T428/24562Y10T428/2457Y10T428/24612Y10T428/24744
    • A process for effectively bonding arbitrary size or shape substrates. The process incorporates vacuum pull down techniques to ensure uniform surface contact during the bonding process. The essence of the process for bonding substrates, such as glass, plastic, or alloys, etc., which have a moderate melting point with a gradual softening point curve, involves the application of an active vacuum source to evacuate interstices between the substrates while at the same time providing a positive force to hold the parts to be bonded in contact. This enables increasing the temperature of the bonding process to ensure that the softening point has been reached and small void areas are filled and come in contact with the opposing substrate. The process is most effective where at least one of the two plates or substrates contain channels or grooves that can be used to apply vacuum between the plates or substrates during the thermal bonding cycle. Also, it is beneficial to provide a vacuum groove or channel near the perimeter of the plates or substrates to ensure bonding of the perimeter of the plates or substrates and reduce the unbonded regions inside the interior region of the plates or substrates.
    • 用于有效地粘合任意尺寸或形状的基底的方法。 该工艺采用真空拉拔技术,以确保在接合过程中均匀的表面接触。 用于粘合具有适度熔点的逐渐软化点曲线的基材(例如玻璃,塑料或合金等)的工艺的本质涉及施加主动真空源以排出基板之间的间隙,同时在 同时提供正的力来保持要接合的部件接触。 这使得能够提高接合过程的温度以确保达到软化点,并且填充小的空隙区域并与相对的基板接触。 该方法在两个板或基板中的至少一个包含可用于在热粘合循环期间在板或基板之间施加真空的通道或凹槽时是最有效的。 此外,有利的是在板或基板的周边附近提供真空槽或通道,以确保板或基板的周边的粘合,并且减少板或基板的内部区域内的未结合区域。
    • 4. 发明授权
    • Vacuum fusion bonding of glass plates
    • 玻璃板的真空熔接
    • US06289695B1
    • 2001-09-18
    • US09441916
    • 1999-11-17
    • Steve P. SwierkowskiJames C. DavidsonJoseph W. Balch
    • Steve P. SwierkowskiJames C. DavidsonJoseph W. Balch
    • C03B2320
    • C03B23/203Y02P40/57Y10T428/10
    • An improved apparatus and method for vacuum fusion bonding of large, patterned glass plates. One or both glass plates are patterned with etched features such as microstructure capillaries and a vacuum pumpout moat, with one plate having at least one hole therethrough for communication with a vacuum pumpout fixture. High accuracy alignment of the plates is accomplished by a temporary clamping fixture until the start of the fusion bonding heat cycle. A complete, void-free fusion bond of seamless, full-strength quality is obtained through the plates; because the glass is heated well into its softening point and because of a large, distributed force that is developed that presses the two plates together from the difference in pressure between the furnace ambient (high pressure) and the channeling and microstructures in the plates (low pressure) due to the vacuum drawn. The apparatus and method may be used to fabricate microcapillary arrays for chemical electrophoresis; for example, any apparatus using a network of microfluidic channels embedded between plates of glass or similar moderate melting point substrates with a gradual softening point curve, or for assembly of glass-based substrates onto larger substrates, such as in flat panel display systems.
    • 一种用于大型图案化玻璃板的真空熔接的改进的装置和方法。 一个或两个玻璃板被图案化,具有蚀刻特征,例如微结构毛细管和真空泵出护城河,其中一个板具有穿过其中的至少一个孔,用于与真空抽出固定装置连通。 板的高精度对准是通过临时夹紧装置实现的,直到熔合结合热循环开始。 通过板获得完整,无空隙的无缝,全强度质量的熔合键; 因为玻璃被加热到其软化点,并且由于大的分布力,其被开发出来,其将两个板压在炉环境(高压)和板之间的沟槽和微结构之间的压力差中(低 压力)由于抽真空。 该装置和方法可用于制造用于化学电泳的微毛细管阵列; 例如,使用嵌入玻璃板或具有逐渐软化点曲线的类似中等熔点基材之间的微流体通道网络的任何装置,或用于将玻璃基底料装配到诸如平板显示系统的较大基板上。
    • 5. 发明授权
    • Plates for vacuum thermal fusion
    • 真空热熔板
    • US06372328B1
    • 2002-04-16
    • US09426413
    • 1999-10-25
    • James C. DavidsonJoseph W. Balch
    • James C. DavidsonJoseph W. Balch
    • B32B300
    • C03B23/203Y10S228/903Y10T29/49826Y10T428/24562Y10T428/2457Y10T428/24612Y10T428/24744
    • A process for effectively bonding arbitrary size or shape substrates. The process incorporates vacuum pull down techniques to ensure uniform surface contact during the bonding process. The essence of the process for bonding substrates, such as glass, plastic, or alloys, etc., which have a moderate melting point with a gradual softening point curve, involves the application of an active vacuum source to evacuate interstices between the substrates while at the same time providing a positive force to hold the parts to be bonded in contact. This enables increasing the temperature of the bonding process to ensure that the softening point has been reached and small void areas are filled and come in contact with the opposing substrate. The process is most effective where at least one of the two plates or substrates contain channels or grooves that can be used to apply vacuum between the plates or substrates during the thermal bonding cycle. Also, it is beneficial to provide a vacuum groove or channel near the perimeter of the plates or substrates to ensure bonding of the perimeter of the plates or substrates and reduce the unbonded regions inside the interior region of the plates or substrates.
    • 用于有效地粘合任意尺寸或形状的基底的方法。 该工艺采用真空拉拔技术,以确保在接合过程中均匀的表面接触。 用于粘合具有适度熔点的逐渐软化点曲线的基材(例如玻璃,塑料或合金等)的工艺的本质涉及施加主动真空源以排空基板之间的间隙,同时在 同时提供正的力来保持要接合的部件接触。 这使得能够提高接合过程的温度以确保达到软化点,并且填充小的空隙区域并与相对的基板接触。 该方法在两个板或基板中的至少一个包含可用于在热粘合循环期间在板或基板之间施加真空的通道或凹槽时是最有效的。 此外,有利的是在板或基板的周边附近提供真空槽或通道,以确保板或基板的周边的粘合,并且减少板或基板的内部区域内的未结合区域。
    • 6. 发明授权
    • Vacuum fusion bonding of glass plates
    • 玻璃板的真空熔接
    • US6131410A
    • 2000-10-17
    • US39522
    • 1998-03-16
    • Steve P. SwierkowskiJames C. DavidsonJoseph W. Balch
    • Steve P. SwierkowskiJames C. DavidsonJoseph W. Balch
    • C03B23/203C03B23/20B32B31/04
    • C03B23/203Y02P40/57Y10T428/10
    • An improved apparatus and method for vacuum fusion bonding of large, patterned glass plates. One or both glass plates are patterned with etched features such as microstructure capillaries and a vacuum pumpout moat, with one plate having at least one hole therethrough for communication with a vacuum pumpout fixture. High accuracy alignment of the plates is accomplished by a temporary clamping fixture until the start of the fusion bonding heat cycle. A complete, void-free fusion bond of seamless, full-strength quality is obtained through the plates; because the glass is heated well into its softening point and because of a large, distributed force that is developed that presses the two plates together from the difference in pressure between the furnace ambient (high pressure) and the channeling and microstructures in the plates (low pressure) due to the vacuum drawn. The apparatus and method may be used to fabricate microcapillary arrays for chemical electrophoresis; for example, any apparatus using a network of microfluidic channels embedded between plates of glass or similar moderate melting point substrates with a gradual softening point curve, or for assembly of glass-based substrates onto larger substrates, such as in flat panel display systems.
    • 一种用于大型图案化玻璃板的真空熔接的改进的装置和方法。 一个或两个玻璃板被图案化,具有蚀刻特征,例如微结构毛细管和真空泵出护城河,其中一个板具有穿过其中的至少一个孔,用于与真空抽出固定装置连通。 板的高精度对准是通过临时夹紧装置实现的,直到熔合结合热循环开始。 通过板获得完整,无空隙的无缝,全强度质量的熔合键; 因为玻璃被加热到其软化点,并且由于大的分布力,其被开发出来,其将两个板压在炉环境(高压)和板之间的沟槽和微结构之间的压力差中(低 压力)由于抽真空。 该装置和方法可用于制造用于化学电泳的微毛细管阵列; 例如,使用嵌入玻璃板或具有逐渐软化点曲线的类似中等熔点基材之间的微流体通道网络的任何装置,或用于将玻璃基底料装配到诸如平板显示系统的较大基板上。
    • 7. 发明授权
    • Vacuum fusion bonded glass plates having microstructures thereon
    • 具有微结构的真空熔合玻璃板
    • US06301931B1
    • 2001-10-16
    • US09448308
    • 1999-11-24
    • Steve P. SwierkowskiJames C. DavidsonJoseph W. Balch
    • Steve P. SwierkowskiJames C. DavidsonJoseph W. Balch
    • C03B2320
    • C03B23/203Y02P40/57Y10T428/10
    • An improved apparatus and method for vacuum fusion bonding of large, patterned glass plates. One or both glass plates are patterned with etched features such as microstructure capillaries and a vacuum pumpout moat, with one plate having at least one hole therethrough for communication with a vacuum pumpout fixture. High accuracy alignment of the plates is accomplished by a temporary clamping fixture until the start of the fusion bonding heat cycle. A complete, void-free fusion bond of seamless, full-strength quality is obtained through the plates; because the glass is heated well into its softening point and because of a large, distributed force that is developed that presses the two plates together from the difference in pressure between the furnace ambient (high pressure) and the channeling and microstructures in the plates (low pressure) due to the vacuum drawn. The apparatus and method may be used to fabricate microcapillary arrays for chemical electrophoresis; for example, any apparatus using a network of microfluidic channels embedded between plates of glass or similar moderate melting point substrates with a gradual softening point curve, or for assembly of glass-based substrates onto larger substrates, such as in flat panel display systems.
    • 一种用于大型图案化玻璃板的真空熔接的改进的装置和方法。 一个或两个玻璃板被图案化,具有蚀刻特征,例如微结构毛细管和真空泵出护城河,其中一个板具有穿过其中的至少一个孔,用于与真空抽出固定装置连通。 板的高精度对准是通过临时夹紧装置实现的,直到熔合结合热循环开始。 通过板获得完整,无空隙的无缝,全强度质量的熔合键; 因为玻璃被加热到其软化点,并且由于大的分布力,其被开发出来,其将两个板压在炉环境(高压)和板之间的沟槽和微结构之间的压力差中(低 压力)由于抽真空。 该装置和方法可用于制造用于化学电泳的微毛细管阵列; 例如,使用嵌入玻璃板或具有逐渐软化点曲线的类似中等熔点基材之间的微流体通道网络的任何装置,或用于将玻璃基底料装配到诸如平板显示系统的较大基板上。
    • 9. 发明授权
    • Micro injector sample delivery system for charged molecules
    • 用于带电分子的微注射器样品传送系统
    • US5980713A
    • 1999-11-09
    • US705447
    • 1996-08-29
    • James C. DavidsonJoseph W. Balch
    • James C. DavidsonJoseph W. Balch
    • G01N1/00C12M1/00C12N15/09G01N1/10G01N27/447G01N27/416
    • G01N27/44743
    • A micro injector sample delivery system for charged molecules. The injector is used for collecting and delivering controlled amounts of charged molecule samples for subsequent analysis. The injector delivery system can be scaled to large numbers (>96) for sample delivery to massively parallel high throughput analysis systems. The essence of the injector system is an electric field controllable loading tip including a section of porous material. By applying the appropriate polarity bias potential to the injector tip, charged molecules will migrate into porous material, and by reversing the polarity bias potential the molecules are ejected or forced away from the tip. The invention has application for uptake of charged biological molecules (e.g. proteins, nucleic acids, polymers, etc.) for delivery to analytical systems, and can be used in automated sample delivery systems.
    • 用于带电分子的微注射器样品递送系统。 注射器用于收集和输送受控量的带电分子样品用于后续分析。 注射器输送系统可以缩放到大量(> 96),用于样品输送到大规模并行的高通量分析系统。 注射器系统的本质是电场可控加载尖端,其包括多孔材料的一部分。 通过将适当的极性偏置电位施加到注射器尖端,带电分子将迁移到多孔材料中,并且通过反转极性偏置电位,分子被喷射或强制离开尖端。 本发明具有用于摄取带电生物分子(例如蛋白质,核酸,聚合物等)以用于递送至分析系统的应用,并且可用于自动化样品递送系统中。