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    • 1. 发明授权
    • Reverse flow disk drive and head suspension for same
    • 逆流磁盘驱动器和磁头悬挂相同
    • US07149054B1
    • 2006-12-12
    • US10655522
    • 2003-09-04
    • Michael W. DavisWade A. LinnertzRaymond R. WolterRobert B. EvansTodd A. KrinkeYiduo Zhang
    • Michael W. DavisWade A. LinnertzRaymond R. WolterRobert B. EvansTodd A. KrinkeYiduo Zhang
    • G11B17/02G11B5/48
    • G11B5/6005G11B5/4833G11B5/4873
    • A head suspension for a reverse flow disk drive. The head suspension includes a load beam having a mounting region at a proximal end, a rigid region at a distal end and a spring region between the mounting region and the rigid region. A flexure is mounted on the distal end of the rigid region. A slider is mounted on the flexure. The slider has a proximal end closest to the proximal end of the load beam, wherein the spring region, the rigid region, the flexure and the slider comprise an active portion. One or more read/write heads are located on the proximal end of the slider. A plurality of electrical traces extend along the head suspension to the proximal end of the slider. At least one airflow attenuator is provided that creates a region of reduced airflow velocity proximate at least a portion of the active portion. An actuator assembly and to a reverse flow disk drive are also disclosed.
    • 用于逆流磁盘驱动器的磁头悬架。 磁头悬架包括负载梁,其具有在近端处的安装区域,远端处的刚性区域和安装区域与刚性区域之间的弹簧区域。 挠性件安装在刚性区域的远端。 滑块安装在挠曲件上。 滑块具有最靠近负载梁的近端的近端,其中弹簧区域,刚性区域,挠曲件和滑块包括有效部分。 一个或多个读/写头位于滑块的近端。 多个电迹线沿着磁头悬架延伸到滑块的近端。 提供至少一个气流衰减器,其产生靠近有效部分的至少一部分的减小的气流速度的区域。 还公开了致动器组件和逆流盘驱动器。
    • 2. 发明授权
    • Head suspension with chip as structural element
    • 头悬挂与芯片作为结构元件
    • US06967819B1
    • 2005-11-22
    • US10068814
    • 2002-02-05
    • Raymond R. WolterRory G. Schmidt
    • Raymond R. WolterRory G. Schmidt
    • G11B5/48G11B5/596
    • G11B5/4833G11B5/486
    • A head suspension or head suspension component for use in supporting a read/write head in a storage device, the head suspension or head suspension component including an integrated circuit chip as a structural element of the head suspension or head suspension component. The chip is included as part of a load beam or as a stiffener for a load beam. A flexure or other gimballing device is mounted to the chip or to a portion of the load beam that is mounted to the chip. The chip may be configured for improved heat dissipation or resonant characteristics. The chip is mounted to head suspension components in various ways, including the use of attachment features formed in the chip. A method of making a head suspension or head suspension component that includes mounting a chip as a structural element of the head suspension or head suspension component is also included.
    • 头部悬挂或头部悬挂部件,用于将读/写头支撑在存储装置中,头部悬挂或头部悬挂部件包括集成电路芯片作为头部悬挂或头部悬挂部件的结构元件。 该芯片作为负载梁的一部分或作为负载梁的加强件包括在内。 挠曲件或其他槌球装置安装到芯片或安装到芯片的负载梁的一部分。 芯片可以被配置为改善散热或谐振特性。 芯片以各种方式安装到头部悬挂部件,包括使用在芯片中形成的附件特征。 还包括制造头悬挂或头部悬挂部件的方法,其包括将芯片安装为头部悬架或头部悬挂部件的结构元件。
    • 3. 发明授权
    • Head suspension with compliant feature for component location
    • 头部悬挂,具有适用于部件位置的功能
    • US06710978B2
    • 2004-03-23
    • US10096704
    • 2002-03-12
    • Brett T. HolawayMark A. MillerEric O. NaatzJohn A. RickemanRichard A. SchnitzlerRaymond R. WolterDavid J. Zachmeyer
    • Brett T. HolawayMark A. MillerEric O. NaatzJohn A. RickemanRichard A. SchnitzlerRaymond R. WolterDavid J. Zachmeyer
    • G11B5596
    • G11B5/4826Y10T29/49025
    • A head suspension for supporting a head slider over a rigid disk in a dynamic storage device having a component that includes a compliant feature adapted to engage a first pin and a datum engaging surface spaced from the compliant feature. The component being locatable relative to a datum by manipulation of the component with respect to the datum and a first pin to cause the first pin to engage and deflect the compliant feature when the datum engaging surface of the component is engaged and positioned with respect to the datum. The head suspension also including a second component having a pin engaging feature and possibly a datum engaging surface alignable with the compliant feature and datum engaging surface of the first component, respectively. The pin engaging feature of the second component being compliant or non-compliant. The compliant and non-compliant features being usable for locating head suspension components, such as load beams, flexures, and base plates, relative to each other or to tooling for head suspension fabrication purposes. The compliant and non-compliant features also being usable for locating other types of small precision components relative to a datum or to each other. A method for locating a component relative to a datum using a compliant feature formed within the component is also provided.
    • 一种用于在动态存储装置中将磁头滑块支撑在刚性盘上的磁头悬架,其具有包括柔性特征的部件,所述部件适于接合与柔性特征部分间隔开的第一销和基准接合表面。 所述部件通过相对于所述基准部件的操纵而相对于原点定位,以及当所述部件的基准接合表面相对于所述第一销定位时,使所述第一销接合并偏转所述柔性特征 基准。 磁头悬架还包括分别具有销接合特征和可能的与第一部件的柔性特征和基准接合表面对准的基准接合表面的第二部件。 第二组件的引脚接合特征是顺应性或非顺应性。 柔性和不兼容特征可用于相对于彼此定位头部悬挂部件,例如负载梁,挠曲件和底板,或用于头部悬挂制造目的的工具。 兼容性和不兼容特征也可用于相对于基准或彼此定位其他类型的小精度部件。 还提供了使用组件内形成的兼容特征来定位组件相对于基准的方法。
    • 4. 发明授权
    • Flexure and load point alignment structure in a head suspension
    • 磁头悬挂中的弯曲和载荷点对齐结构
    • US5920444A
    • 1999-07-06
    • US3605
    • 1998-01-07
    • Thomas F. HeerenKirk J. Van DreelRaymond R. Wolter
    • Thomas F. HeerenKirk J. Van DreelRaymond R. Wolter
    • G11B5/48G11B5/53
    • G11B5/486G11B5/4826G11B5/4833Y10T29/49025Y10T29/49027Y10T29/53261Y10T29/53974
    • A head suspension having an alignment structure for minimizing misalignments between a flexure and a load beam of the head suspension. The load beam and the flexure of the head suspension include a first aperture formed near a load point dimple of the head suspension to provide a reference datum. An elongated alignment aperture is formed in the rigid region of the load beam, and a proximal alignment aperture and a distal alignment aperture are formed in the flexure. The elongated the aperture overlaps at least a portion of the proximal and distal alignment apertures in such a manner that the proximal perimeter edge of the elongated aperture encroaches on the proximal alignment aperture and the proximal perimeter edge of the distal alignment aperture encroaches upon the elongated alignment aperture. This configuration of apertures allows the flexure and load beam to be independently aligned relative to each other by pins of an alignment tool that engage the proximal perimeter edge of the distal alignment aperture and the proximal perimeter edge of the elongated alignment aperture.
    • 一种头部悬架,具有用于最小化头部悬架的弯曲部和负载梁之间的不对准的对准结构。 负载梁和磁头悬架的弯曲包括形成在磁头悬架的负载点凹部附近的第一孔,以提供参考数据。 在负载梁的刚性区域中形成细长的对准孔,并且在弯曲部中形成近端对准孔和远端对准孔。 细长的孔径以近端和远端对准孔的至少一部分重叠,使得细长孔的近端周边边缘侵入近端对准孔,并且远端对准孔的近端周边边缘侵蚀在细长对准 光圈。 孔的这种配置允许弯曲和负载梁通过对准工具的销钉彼此独立地对准,所述对准工具的接合远端对准孔的近端周边边缘和细长对准孔的近端周边边缘。
    • 8. 发明授权
    • Method for aligning head suspension structures
    • 头部悬挂结构对准的方法
    • US06625870B1
    • 2003-09-30
    • US09546880
    • 2000-04-10
    • Thomas F. HeerenKirk J. Van DreelRaymond R. Wolter
    • Thomas F. HeerenKirk J. Van DreelRaymond R. Wolter
    • G11B542
    • G11B5/486G11B5/4826G11B5/4833Y10T29/49025Y10T29/49027Y10T29/53261Y10T29/53974
    • A method for aligning head suspension structures minimize to misalignments between a flexure and a load beam of the head suspension. The load beam and the flexure of the head suspension include a first aperture formed near a load point dimple of the head suspension to provide a reference datum. An elongated alignment aperture is formed in the rigid region of the load beam, and a proximal alignment aperture and a distal alignment aperture are formed in the flexure. The elongated the aperture overlaps at least a portion of the proximal and distal alignment apertures in such a manner that the proximal perimeter edge of the elongated aperture encroaches on the proximal alignment aperture and the proximal perimeter edge of the distal alignment aperture encroaches upon the elongated alignment aperture. This configuration of apertures allows the flexure and load beam to be independently aligned relative to each other by pins of an alignment tool that engage the proximal perimeter edge of the distal alignment aperture and the proximal perimeter edge of the elongated alignment aperture.
    • 用于对准头部悬挂结构的方法使得头部悬架的挠曲件和负载梁之间的未对准最小化。 负载梁和磁头悬架的弯曲包括形成在磁头悬架的负载点凹部附近的第一孔,以提供参考数据。 在负载梁的刚性区域中形成细长的对准孔,并且在弯曲部中形成近端对准孔和远端对准孔。 细长的孔径以近端和远端对准孔的至少一部分重叠,使得细长孔的近端周边边缘侵入近端对准孔,并且远端对准孔的近端周边边缘侵蚀在细长对准 光圈。 孔的这种配置允许弯曲和负载梁通过对准工具的销钉彼此独立地对准,该对准工具与远端对准孔的近端周边边缘和细长对准孔的近端周边边缘接合。
    • 9. 发明授权
    • Head suspension with alignment measurement pattern
    • 头部悬挂与对准测量模式
    • US5886857A
    • 1999-03-23
    • US933642
    • 1997-09-19
    • John B. SymonsRaymond R. Wolter
    • John B. SymonsRaymond R. Wolter
    • G11B5/48
    • G11B5/4806
    • The present invention is a magnetic disk drive head suspension of the type having a load beam and a flexure, including an alignment measurement pattern on either the load beam or the flexure. The flexure is mounted to a distal end of the load beam, and the alignment measurement pattern is used to evaluate and quantify the position of the flexure relative to the load beam. The alignment measurement pattern includes a plurality of openings adjacent a tooling reference hole that are sized and positioned to expose the outer perimeter of a corresponding tooling reference hole. In this manner, the alignment measurement pattern provides an accurate assessment of the alignment between the load beam and the flexure by indicating the offset of the flexure tooling hole relative to the load beam tooling hole.
    • 本发明是具有负载梁和挠曲件的类型的磁盘驱动器头悬架,其包括在负载梁或挠曲件上的对准测量图案。 挠曲件安装到负载梁的远端,并且对准测量图案用于评估和量化挠曲件相对于负载梁的位置。 对准测量图案包括与工具参考孔相邻的多个开口,其大小和定位以暴露相应的加工基准孔的外周。 以这种方式,对准测量图案通过指示挠曲工具孔相对于负载梁加工孔的偏移来提供负载梁和挠曲件之间的对准的准确评估。