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    • 3. 发明授权
    • Pressure-balanced floating seal housing assembly and method
    • 压力平衡浮动密封外壳组件及方法
    • US09316319B2
    • 2016-04-19
    • US12957160
    • 2010-11-30
    • Lannie Laroy Dietle
    • Lannie Laroy Dietle
    • F16J9/00F16J15/44
    • F16J15/441
    • A dynamic sealing mechanism for a machine assembly that includes a seal housing of generally cylindrical form having opposed ends, the seal housing axially positioned between a pressure housing and a retaining member and laterally translatable relative to the pressure housing. The dynamic sealing mechanism includes a shaft located at least partially within the seal housing, the shaft having a sealing surface of generally cylindrical form, relatively movable with respect to the seal housing, and having at least one radial bearing positioned radially by the shaft and locating the radial position of the seal housing. At least three fluid pressure-generated forces act axially on the seal housing to produce a net fluid pressure-generated axial force that is negligible.
    • 一种用于机器组件的动态密封机构,其包括具有相对端的大致圆柱形形式的密封壳体,所述密封壳体轴向地定位在压力壳体和保持构件之间并且相对于压力壳体可横向平移。 所述动态密封机构包括至少部分地位于所述密封壳体内的轴,所述轴具有大致圆柱形的密封表面,所述密封表面相对于所述密封壳体可相对移动,并且具有至少一个径向轴承, 密封外壳的径向位置。 至少三个流体压力产生的力轴向地作用在密封壳体上以产生可忽略的净流体压力产生的轴向力。
    • 6. 发明申请
    • ROTARY SEAL WITH IMPROVED FILM DISTRIBUTION
    • 旋转密封与改进的胶片分配
    • US20140008875A1
    • 2014-01-09
    • US14028066
    • 2013-09-16
    • Kalsi Engineering, Inc.
    • Lannie Laroy DietleJohn Erick Schroeder
    • F16J15/32
    • F16J15/3244F16J15/164F16J15/3208F16J15/3236F16J15/324
    • The present invention is a generally circular rotary seal that establishes sealing between relatively rotatable machine components for lubricant retention and environmental exclusion, and incorporates seal geometry that interacts with the lubricant during relative rotation to distribute a lubricant film within the dynamic sealing interface. The features of a variable inlet size, a variable dynamic lip flank slope, and a reduction in the magnitude and circumferentially oriented portion of the lubricant side interfacial contact pressure zone at the narrowest part of the lip, individually or in combination thereof, serve to maximize interfacial lubrication in severe operating conditions, and also serve to minimize lubricant shear area, seal torque, seal volume, and wear, while ensuring retrofitability into the seal grooves of existing equipment.
    • 本发明是一种通常为圆形的旋转密封件,其在相对可旋转的机器部件之间建立密封,用于润滑剂保持和环境排除,并且包括在相对旋转期间与润滑剂相互作用的密封几何形状以在动态密封界面内分布润滑剂膜。 可变入口尺寸,可变动态唇缘边坡的特征以及在唇部的最窄部分处的润滑剂侧界面接触压力区的大小和周向取向部分的减小,其单独或组合用于最大化 在严苛的运行条件下进行界面润滑,并且还可以确保润滑剂剪切面积,密封扭矩,密封体积和磨损最小化,同时确保对现有设备的密封槽进行改造。
    • 7. 发明申请
    • Filled hydrodynamic seal with contact pressure control, anti-rotation means and filler retention means
    • 带有接触压力控制,防旋转装置和填料固定装置的填充流体动力密封
    • US20070013143A1
    • 2007-01-18
    • US11488746
    • 2006-07-18
    • John SchroederJeffrey GobeliLannie Dietle
    • John SchroederJeffrey GobeliLannie Dietle
    • F16J15/32
    • F16J15/3208F16J15/061F16J15/3212F16J15/3236
    • A preferred embodiment of a sealing assembly for partitioning a first fluid from a second fluid includes a first machine component defining a seal groove adjoined to a pocket recess and a second machine component having a relatively rotatable surface. A rotary seal is in sealing engagement with the first and second machine components. The rotary seal includes a seal body of generally ring-like construction. The seal body has a predetermined modulus of elasticity and defines a dynamic sealing lip having a dynamic sealing surface. The seal body has an annular recess defining a plurality of retaining ridges and retaining depressions. The annular recess has a first volume in an uninstalled condition and a compressed volume when the rotary seal is in sealing engagement with the first and second machine components. An energizer element is positioned in the annular recess and engages the plurality of retaining ridges and depressions in the annular recess. The energizer element has a modulus of elasticity that is different than the predetermined modulus of elasticity of the seal body. The energizer element has a volume in the compressed condition that is no greater than the compressed volume of the annular recess. An anti-rotation projection engages the seal body and extends from the seal body into the pocket recess of the first machine component.
    • 用于从第二流体分隔第一流体的密封组件的优选实施例包括限定与凹穴相邻的密封槽的第一机器部件和具有相对可旋转表面的第二机器部件。 旋转密封件与第一和第二机器部件密封接合。 旋转密封件包括大致环形结构的密封体。 密封体具有预定的弹性模量并限定具有动态密封表面的动态密封唇。 密封体具有限定多个保持脊和保持凹陷的环形凹部。 当旋转密封件与第一和第二机器部件密封接合时,环形凹部具有处于卸载状态的第一容积和压缩体积。 激励元件定位在环形凹部中并与环形凹部中的多个保持脊和凹​​陷接合。 增能元件的弹性模量与密封体的预定的弹性模量不同。 激发元件具有不大于环形凹部的压缩体积的压缩状态的体积。 防旋转突起接合密封体并从密封体延伸到第一机器部件的凹槽中。
    • 8. 发明授权
    • Hydrodynamic rotary seal
    • 流体动力旋转密封
    • US07052020B2
    • 2006-05-30
    • US10722043
    • 2003-11-24
    • Jeffrey D. GobeliLannie DietleManmohan S. Kalsi
    • Jeffrey D. GobeliLannie DietleManmohan S. Kalsi
    • F16J15/32
    • F16J15/3244F16J15/3236
    • A hydrodynamically lubricating rotary seal for partitioning a lubricant from an environment has a generally circular seal body, a sloping dynamic sealing lip, and an energizer. The dynamic sealing lip is provided for establishing compressed sealing relation with a relatively rotatable surface, and has a sloping dynamic sealing surface that varies in width, and also has a hydrodynamic inlet curvature that varies in position around the circumference of the seal. When the seal is installed against a relatively rotatable surface, the dynamic sealing lip deforms to define a variable width interfacial contact footprint against the relatively rotatable surface that is wavy on the lubricant side, and wedges a film of lubricating fluid into the interface in response to relative rotation. The environment edge of the interfacial contact footprint is substantially circular, and therefore does not produce a hydrodynamic wedging action in response to relative rotation.
    • 用于将润滑剂从环境分配的流体动力学润滑的旋转密封件具有大致圆形的密封体,倾斜的动态密封唇和激发器。 提供动态密封唇用于与相对可旋转的表面建立压缩密封关系,并且具有在宽度上变化的倾斜动态密封表面,并且还具有围绕密封件圆周的位置变化的流体动力入口曲率。 当密封件相对于可旋转的表面安装时,动态密封唇变形以限定相对于在润滑剂侧上波浪的相对可旋转表面的可变宽度的界面接触面积,并且响应于 相对旋转。 界面接触足迹的环境边缘基本上是圆形的,因此不会响应于相对旋转而产生流体动力楔形动作。
    • 9. 发明申请
    • Hydrodynamic rotary coupling seal
    • 流体动力学旋转联轴器密封
    • US20010045704A1
    • 2001-11-29
    • US09776026
    • 2001-02-02
    • KALSI ENGINEERING, INC.
    • Manmohan S. KalsiLannie DietleWilliam ConroyJohn E. Schroeder
    • F16J015/32
    • F16J15/3244
    • A rotary seal is provided that operates hydrodynamically in response to relative rotation even when subjected to exposure to a high fluid pressure from either side, and provides low breakout and running torque. A dynamic sealing lip having a wavy geometry provides hydrodynamic lubrication in response to relative rotation when little or no differential pressure is acting across the seal. When differential pressure exists, controlled fluid pressure-induced distortion results in a distorted dynamic sealing lip configuration that is suitable for hydrodynamic lubrication, regardless of which direction the differential pressure acts from.
    • 提供旋转密封件,即使在从任一侧暴露于高流体压力时也能响应于相对旋转进行流体动力学操作,并且提供低的分离和运行扭矩。 具有波浪形几何形状的动态密封唇响应相对旋转而提供流体动力学润滑,因为当密封件上几乎没有或没有压差作用时。 当压差存在时,受压流体压力引起的变形会导致扭曲的动态密封唇缘结构,适用于流体动力学润滑,无论压差作用于哪个方向。