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    • 2. 发明授权
    • Asymmetric tapered air bearing slider
    • 不对称锥形空气轴承滑块
    • US06608735B1
    • 2003-08-19
    • US09892173
    • 2001-06-26
    • Catalin Ioan SerpeWeimin QianMary Cynthia Hipwell
    • Catalin Ioan SerpeWeimin QianMary Cynthia Hipwell
    • G11B1732
    • G11B5/6005
    • An air bearing slider includes an asymmetric taper for control of pressurization and suction force formation. The asymmetric taper is disposed on an edge of a slider to accommodate for the speed differential across the disc radial direction, thereby improving take-off performance, reducing sensitivity to skew angle and altitude variation, and reducing the severity of impacts during ramp loading and unloading. A leading taper intersecting a leading surface and air bearing surface of the slider is asymmetric about a longitudinal, bisecting plane of the slider. In another embodiment, side taper intersecting a side surface and air bearing surface of the slider is asymmetric about a latitudinal, bisecting plane of the slider. In another embodiment, rail taper intersecting a rail recess surface and air bearing surface of the slider is asymmetric about a longitudinal, rail-bisecting plane.
    • 空气轴承滑块包括用于控制加压和吸力形成的不对称锥形。 非对称锥形设置在滑块的边缘上,以适应盘径向的速度差,从而提高起飞性能,降低对倾斜角度和高度变化的敏感性,并减少斜坡加载和卸载期间的冲击严重性 。 与滑块的前表面和空气轴承表面相交的前导锥体围绕滑块的纵向平分平面是不对称的。 在另一个实施例中,与滑块的侧表面和空气支承表面相交的侧锥体关于滑块的横向平分平面是不对称的。 在另一个实施例中,与轨道凹槽表面和滑块的空气支承表面相交的轨道锥形体围绕纵向,轨道平分平面是不对称的。
    • 6. 发明申请
    • Reaction Bottle with Pressure Release
    • US20090065465A1
    • 2009-03-12
    • US11853915
    • 2007-09-12
    • Weimin Qian
    • Weimin Qian
    • B65D51/16B65B3/18B65D41/20B65D51/24B65D51/00
    • B01L3/50825B01L2200/085B01L2300/049B01L2300/0672B01L2300/14Y10T436/2575
    • A reaction bottle comprising: a container, with a container top and a container interior; a bottle cap removeably attachable to the container top, the bottle cap having a cap top and a cap cavity; a septa attached to the bottle cap and configured to releasably seal the container when the bottle cap is attached to the container top; a needle holder attached to the cap top; a hollow needle attached to the needle holder and located in the cap cavity; a needle conduit in fluid communication with the hollow needle; wherein the septa is configured to deform from an at rest state into a punctured state when pressure within the container interior reaches a first threshold value and the septa deforms into the cavity and is punctured by the hollow needle, and the septa is further configured to return to the at rest state when the pressure within the container reaches a second threshold value and the septa reseals upon being no longer punctured by the hollow needle. A reaction bottle comprising: a container, with a container top and a container interior; a bottle cap removeably attachable to the container top, the bottle cap having a cap top and a cap cavity; a septa attached to the bottle cap and configured to releasably seal the container when the bottle cap is attached to the container top; a needle holder attached to the cap top; a hollow needle attached to the needle holder and located in the cap cavity; a needle conduit in fluid communication with the hollow needle; a pivot member located in the cavity, and attached to the cap top; at least one linearly moveable member located in the cavity and in operational communication with the septa; a pivoting member located in the cavity, the pivoting member having a first end and a second end, the first end in operable communication with the linearly moveable member, and wherein the pivoting member is configured to pivot about the pivot member; an extended member attached to the needle holder, and in operable communication with the second end of the pivoting member; wherein the septa is configured to deform from an at rest state into a second state when pressure within the container interior reaches a first threshold value and the septa deforms and moves the linearly moveable member up towards the cap top, whereupon the pivoting member pivots about the pivot member, and the pivoting member pushes down on the extended member, such that the needle holder and hollow needle are moved down towards the septa, whereupon the septa is punctured by the hollow needle, and the septa is further configured to return to the at rest state when the pressure within the container reaches a second threshold value thus allowing the linearly moveable member to move to its original position thus causing the pivoting member to pivot about the pivot member, and thus move the extended member up towards the cap top, and the needle holder and hollow needle moves up toward the cap top along with the extended member, thus moving the hollow needle away form the septa whereupon the septa reseals upon being no longer punctured by the hollow needle.
    • 8. 发明授权
    • Disc head slider having deeply recessed corners
    • 盘头滑块具有深度凹陷的角落
    • US06525909B1
    • 2003-02-25
    • US09717677
    • 2000-11-21
    • Weimin QianLowell J. BergLanshi ZhengMoshe Olim
    • Weimin QianLowell J. BergLanshi ZhengMoshe Olim
    • G11B560
    • G11B5/6005
    • A disc head slider supports a transducer relative to a data storage disc. The slider includes a slider body having a disc-facing surface with a leading slider edge, a trailing slider edge, and first and second slider corners at opposing ends of the trailing slider edge. First and second rails are disposed on the disc facing surface about a central recess and form first and second bearing surfaces, respectively. The central recess has a depth measured from the first and second bearing surfaces. First and second recessed surfaces are positioned between a trailing edge of the first and second rails and the first and second slider corners, respectively, and are generally coplanar with the central recess. Third and fourth recessed corner surfaces are positioned at the first and second slider corners, respectively, and are recessed from the first and second recessed surfaces.
    • 盘头滑块相对于数据存储盘支持换能器。 滑块包括滑块主体,其具有带有前滑块边缘的盘对面表面,后滑块边缘,以及在后滑块边缘的相对端处的第一和第二滑块拐角。 第一和第二轨道分别围绕中心凹槽设置在面向盘的表面上并分别形成第一和第二支承表面。 中心凹部具有从第一和第二支承表面测量的深度。 第一和第二凹陷表面分别位于第一和第二轨道的后缘和第一和第二滑块拐角之间,并且通常与中心凹部共面。 第三和第四凹入的角表面分别位于第一和第二滑块拐角处,并且从第一和第二凹入表面凹进。
    • 9. 发明授权
    • Reaction bottle with pressure release
    • 反应瓶有压力释放
    • US08142736B2
    • 2012-03-27
    • US11853915
    • 2007-09-12
    • Weimin Qian
    • Weimin Qian
    • B01L3/00
    • B01L3/50825B01L2200/085B01L2300/049B01L2300/0672B01L2300/14Y10T436/2575
    • A reaction bottle which includes a container, container top, container interior a bottle cap removeably attachable to the container top, the bottle cap having a cap top and a cap cavity; a septa attached to the bottle cap and configured to releasably seal the container when the bottle cap is attached to the container top; a needle holder attached to the cap top; a hollow needle attached to the needle holder and located in the cap cavity; a needle conduit in fluid communication with the hollow needle; wherein the septa is configured to deform from an at rest state into a punctured state when pressure within the container interior reaches a first threshold value and the septa deforms into the cavity and is punctured by the hollow needle.
    • 一种反应瓶,其包括容器,容器顶部,容器内部,可移除地附接到容器顶部的瓶盖,所述瓶盖具有帽顶和帽腔; 附接到所述瓶盖并且构造成当所述瓶盖附接到所述容器顶部时可释放地密封所述容器的隔垫; 连接到帽顶的针头保持架; 一个中空的针头,固定在针座上并位于帽腔中; 与中空针流体连通的针导管; 其中所述隔片构造成当所述容器内部的压力达到第一阈值并且所述隔片变形为所述空腔并被所述空心针刺穿时,从静止状态变形为穿刺状态。