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    • 1. 发明授权
    • Magnetic head slider and magnetic disk drive
    • 磁头滑块和磁盘驱动器
    • US07859794B2
    • 2010-12-28
    • US11904689
    • 2007-09-27
    • Hiroshi TaniSunao Yonekawa
    • Hiroshi TaniSunao Yonekawa
    • G11B5/60
    • G11B17/32
    • Embodiments of the present invention help to prevent, in a magnetic head slider adapted to be able to control flying height of a head element, the occurrence of excessive frictional force, even in case of contact with a magnetic disk, and suppress vibration of the slider. According to one embodiment, an air bearing surface of a magnetic head slider includes a deep groove, a shallow-trench rail about 100 nm higher than the deep groove, a rear end shoulder, two leading end pads about 1 μm higher than the deep groove, a trailing end pad about 970-995 nm higher than the deep groove, and an element pad about 5-30 nm higher than the trailing end pad and flush with the leading end pads. A head element includes a magnetic head element and a heater. The element pad has an area of 50-500 μm2, and the magnetic head element is disposed near a central section of the element pad.
    • 本发明的实施例有助于在适于能够控制头元件的飞行高度的磁头滑动器中,即使在与磁盘接触的情况下也会发生过大的摩擦力,并且抑制滑块的振动 。 根据一个实施例,磁头滑块的空气轴承表面包括深沟槽,比深槽高约100nm的浅沟槽轨道,后端肩部,比深槽高约1微米的两个前端焊盘 ,比深沟槽高约970-995nm的尾端垫,以及比后端垫高约5-30nm并与前端焊盘齐平的元件垫。 头元件包括磁头元件和加热器。 元件焊盘的面积为50〜500μm2,磁头元件设置在元件焊盘的中央部附近。
    • 2. 发明申请
    • Magnetic head slider and magnetic disk drive
    • 磁头滑块和磁盘驱动器
    • US20080080094A1
    • 2008-04-03
    • US11904689
    • 2007-09-27
    • Hiroshi TaniSunao Yonekawa
    • Hiroshi TaniSunao Yonekawa
    • G11B5/60G11B15/64G11B21/20
    • G11B17/32
    • Embodiments of the present invention help to prevent, in a magnetic head slider adapted to be able to control flying height of a head element, the occurrence of excessive frictional force, even in case of contact with a magnetic disk, and suppress vibration of the slider. According to one embodiment, an air bearing surface of a magnetic head slider includes a deep groove, a shallow-trench rail about 100 nm higher than the deep groove, a rear end shoulder, two leading end pads about 1 μm higher than the deep groove, a trailing end pad about 970-995 nm higher than the deep groove, and an element pad about 5-30 nm higher than the trailing end pad and flush with the leading end pads. A head element includes a magnetic head element and a heater. The element pad has an area of 50-500 μm2, and the magnetic head element is disposed near a central section of the element pad.
    • 本发明的实施例有助于在适于能够控制头元件的飞行高度的磁头滑动器中,即使在与磁盘接触的情况下也会发生过大的摩擦力,并且抑制滑块的振动 。 根据一个实施例,磁头滑动器的空气轴承表面包括深沟槽,比深槽高约100nm的浅沟槽轨道,后端肩部,比深槽高约1米的两个前端焊盘 ,比深沟槽高约970-995nm的尾端垫,以及比后端垫高约5-30nm并与前端焊盘齐平的元件垫。 头元件包括磁头元件和加热器。 元件焊盘的面积为50-500μm2,磁头元件设置在元件焊盘的中央部分附近。
    • 3. 发明授权
    • Magnetic head slider having aperture to prevent fall forward and magnetic disk drive for using said slider
    • 磁头滑块具有用于防止向前倾斜的孔径和用于使用所述滑块的磁盘驱动器
    • US07701669B2
    • 2010-04-20
    • US11501583
    • 2006-08-08
    • Kouichi WatanabeSunao Yonekawa
    • Kouichi WatanabeSunao Yonekawa
    • G11B5/60
    • G11B5/60
    • When the flying height of a magnetic head slider lowers, there arises the problem that the magnetic head slider assumes a forwardly falling attitude and a front edge portion of a leading end of the magnetic head slider comes into contact with a magnetic disk surface, causing damage to the disk surface. To address the problem, one aspect of the invention is directed to a magnetic head slider which includes an air bearing surface, a leading end and a trailing end. Three flying pads are formed on the air bearing surface and a step bearing surface is formed around the first and second flying pads near the leading end and a negative pressure groove for producing a negative pressure is formed in such a manner that the leading side is surrounded by the step bearing surface. The third flying pad is formed near the trailing end and is provided with a magnetic head. A step bearing is formed on the leading side of the third flying pad. Further, the magnetic head slider is formed with an aperture in a front edge portion of the leading end.
    • 当磁头滑块的飞行高度降低时,出现磁头滑块呈向前倾斜的姿势,磁头滑块的前端的前缘部分与磁盘表面接触的问题,造成损坏 到磁盘表面。 为了解决该问题,本发明的一个方面涉及一种磁头滑动器,其包括空气轴承表面,前端和后端。 在空气轴承表面上形成三个飞垫,并且在前端附近形成围绕第一和第二飞垫的台阶承载面,并且以这样的方式形成用于产生负压的负压槽,使得前侧被包围 通过台阶承载面。 第三飞垫在后端附近形成并设置有磁头。 在第三飞垫的前侧形成有台阶轴承。 此外,磁头滑块在前端的前缘部形成有孔。
    • 6. 发明授权
    • Structure to prevent deformation of magnetic disk device housing
    • 防止磁盘装置外壳变形的结构
    • US07733599B2
    • 2010-06-08
    • US11499482
    • 2006-08-03
    • Hiroaki ShigenagaSunao YonekawaMasao IwakuraMasami Miyatake
    • Hiroaki ShigenagaSunao YonekawaMasao IwakuraMasami Miyatake
    • G11B5/012G11B17/00G11B33/14
    • G11B33/1433
    • Embodiments of the invention provide a magnetic disk unit in which there has been adopted a structure fixing a base and a top plate and preventing a deformation by a bimetal effect. In one embodiment, the magnetic disk unit includes a magnetic disk; a head drive mechanism in which is mounted a head accessing the magnetic disk; a base accommodating the magnetic disk and the head drive mechanism, and possessing a flat part, in which a threaded hole has been formed, in a circumference of an opening edge; and a top cover which is formed by a material whose thermal expansion coefficient differs from that of the base, in which there is provided an escape hole, for a screw, position-aligned to the threaded hole of the flat part, and which is attached to the base by the screw penetrating through the threaded hole and the escape hole for the screw. A slip mechanism for reducing a slip friction resistance is provided respectively in a contact portion between the flat part and the top cover, and a contact portion between a head part of the screw and the top cover.
    • 本发明的实施例提供一种磁盘单元,其中采用固定基座和顶板的结构,并且防止双金属效应的变形。 在一个实施例中,磁盘单元包括磁盘; 头驱动机构,其安装有磁头访问磁盘; 容纳磁盘和磁头驱动机构的基座,并且在开口边缘的圆周上具有形成有螺纹孔的平坦部分; 以及顶盖,其由与热膨胀系数不同的材料形成,所述材料具有与所述基座相对应的材料,所述基部设有用于与所述平坦部的所述螺纹孔对准的螺钉的排出孔, 通过螺钉穿过螺纹孔和螺钉的排出孔到基座。 分别在平坦部和顶盖之间的接触部以及螺钉的头部与顶盖之间的接触部分分别设置用于降低滑动摩擦阻力的滑动机构。
    • 7. 发明申请
    • Magnetic head slider to prevent fall forward and magnetic disk drive
    • 磁头滑块可防止向前和磁盘驱动
    • US20070030597A1
    • 2007-02-08
    • US11501583
    • 2006-08-08
    • Kouichi WatanabeSunao Yonekawa
    • Kouichi WatanabeSunao Yonekawa
    • G11B5/60
    • G11B5/60
    • When the flying height of a magnetic head slider lowers, there arises the problem that the magnetic head slider assumes a forwardly falling attitude and a front edge portion of a leading end of the magnetic head slider comes into contact with a magnetic disk surface, causing damage to the disk surface. To address the problem, one aspect of the invention is directed to a magnetic head slider which includes an air bearing surface, a leading end and a trailing end. Three flying pads are formed on the air bearing surface and a step bearing surface is formed around the first and second flying pads near the leading end and a negative pressure groove for producing a negative pressure is formed in such a manner that the leading side is surrounded by the step bearing surface. The third flying pad is formed near the trailing end and is provided with a magnetic head. A step bearing is formed on the leading side of the third flying pad. Further, the magnetic head slider is formed with an aperture in a front edge portion of the leading end. The aperture is 0.5 to 2 μm deep from the first and second flying pads.
    • 当磁头滑块的飞行高度降低时,出现磁头滑块呈向前倾斜的姿势,磁头滑块的前端的前缘部分与磁盘表面接触的问题,造成损坏 到磁盘表面。 为了解决该问题,本发明的一个方面涉及一种磁头滑动器,其包括空气轴承表面,前端和后端。 在空气轴承表面上形成三个飞垫,并且在前端附近形成围绕第一和第二飞垫的台阶承载面,并且以这样的方式形成用于产生负压的负压槽,使得前侧被包围 通过台阶承载面。 第三飞垫在后端附近形成并设置有磁头。 在第三飞垫的前侧形成有台阶轴承。 此外,磁头滑块在前端的前缘部形成有孔。 孔距离第一和第二飞垫的深度为0.5至2μm。
    • 8. 发明申请
    • Structure to prevent deformation of magnetic disk device housing
    • 防止磁盘装置外壳变形的结构
    • US20070047130A1
    • 2007-03-01
    • US11499482
    • 2006-08-03
    • Hiroaki ShigenagaSunao YonekawaMasao IwakuraMasami Miyatake
    • Hiroaki ShigenagaSunao YonekawaMasao IwakuraMasami Miyatake
    • G11B15/48
    • G11B33/1433
    • Embodiments of the invention provide a magnetic disk unit in which there has been adopted a structure fixing a base and a top plate and preventing a deformation by a bimetal effect. In one embodiment, the magnetic disk unit includes a magnetic disk; a head drive mechanism in which is mounted a head accessing the magnetic disk; a base accommodating the magnetic disk and the head drive mechanism, and possessing a flat part, in which a threaded hole has been formed, in a circumference of an opening edge; and a top cover which is formed by a material whose thermal expansion coefficient differs from that of the base, in which there is provided an escape hole, for a screw, position-aligned to the threaded hole of the flat part, and which is attached to the base by the screw penetrating through the threaded hole and the escape hole for the screw. A slip mechanism for reducing a slip friction resistance is provided respectively in a contact portion between the flat part and the top cover, and a contact portion between a head part of the screw and the top cover.
    • 本发明的实施例提供一种磁盘单元,其中采用固定基座和顶板的结构,并且防止双金属效应的变形。 在一个实施例中,磁盘单元包括磁盘; 头驱动机构,其安装有磁头访问磁盘; 容纳磁盘和磁头驱动机构的基座,并且在开口边缘的圆周上具有形成有螺纹孔的平坦部分; 以及顶盖,其由与热膨胀系数不同的材料形成,所述材料具有与所述基座相对应的材料,所述基部设有用于与所述平坦部的所述螺纹孔对准的螺钉的排出孔, 通过螺钉穿过螺纹孔和螺钉的排出孔到基座。 分别在平坦部和顶盖之间的接触部以及螺钉的头部与顶盖之间的接触部分分别设置用于降低滑动摩擦阻力的滑动机构。