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    • 2. 发明授权
    • Perpendicular magnetic recording medium
    • 垂直磁记录介质
    • US07402348B2
    • 2008-07-22
    • US11088241
    • 2005-03-23
    • Hiroto TakeshitaMaki MaedaTakuya Uzumaki
    • Hiroto TakeshitaMaki MaedaTakuya Uzumaki
    • G11B5/66
    • G11B5/66G11B5/012G11B5/656G11B2005/0029Y10T428/24975
    • A magnetic recording layer is formed on an auxiliary magnetic layer in a perpendicular magnetic recording medium. The auxiliary magnetic layer has the axis of easy magnetization in the vertical direction perpendicular to the surface of a substrate. The perpendicular magnetic recording medium reliably allows establishment of the magnetization in the auxiliary magnetic layer in the vertical direction. When a magnetic flux flows along the vertical direction perpendicular to the surface of the magnetic recording layer, the magnetic flux flows across the magnetic recording layer in the vertical direction. The magnetization is thus reliably established in the magnetic recording layer in the vertical direction. The magnetic field of a stronger intensity is thus leaked out of the magnetic recording layer in the vertical direction.
    • 在垂直磁记录介质中的辅助磁性层上形成磁记录层。 辅助磁性层在垂直于衬底表面的垂直方向具有容易磁化的轴。 垂直磁记录介质可靠地允许在垂直方向上建立辅助磁性层中的磁化。 当磁通量沿垂直于磁记录层表面的垂直方向流动时,磁通量在垂直方向上流过磁记录层。 因此磁化在磁记录层中沿垂直方向可靠地建立。 因此,较强的强度的磁场在垂直方向从磁记录层泄漏出来。
    • 6. 发明授权
    • Single pole magnetic head having intermediate magnetic layer and tip magnetic layer
    • 具有中间磁性层和尖端磁性层的单极磁头
    • US07359147B2
    • 2008-04-15
    • US10825049
    • 2004-04-15
    • Kiyoshi NishikawaMaki Maeda
    • Kiyoshi NishikawaMaki Maeda
    • G11B5/31G11B5/23G11B5/39
    • G11B5/31
    • A thin film magnetic head has a magnetic pole major layer terminated at a position receding from a medium-opposed surface. An intermediate magnetic layer extends forward toward the medium-opposed surface from the surface of the magnetic pole major layer. The intermediate magnetic layer is terminated at a position receding from the medium-opposed surface. A tip magnetic layer extends to the medium-opposed surface from the surface of the intermediate magnetic layer so as to expose the front end at the medium-opposed surface. The layered structure serves to diminish variation in the sectional area of the path of the magnetic flux. Saturation of magnetic flux is sufficiently suppressed irrespective of the reduction in the sectional area. Even if the tip magnetic layer is reduced in lateral width, the tip magnetic layer allows a sufficient leakage of magnetic flux from the front end.
    • 薄膜磁头具有终止于从介质相对表面退出的位置处的磁极主要层。 中间磁性层从磁极主层的表面向中间相对表面向前延伸。 中间磁性层终止于从介质相对表面退出的位置。 尖端磁性层从中间磁性层的表面延伸到介质相对表面,以使中间相对表面的前端露出。 层状结构用于减小磁通的路径的截面积的变化。 充分抑制磁通的饱和,而与截面积的减小无关。 即使尖端磁性层横向宽度减小,尖端磁性层允许从前端充分泄漏磁通量。
    • 9. 发明申请
    • Thin film magnetic head and method of making the same
    • 薄膜磁头及其制作方法
    • US20050135007A1
    • 2005-06-23
    • US10825049
    • 2004-04-15
    • Kiyoshi NishikawaMaki Maeda
    • Kiyoshi NishikawaMaki Maeda
    • G11B5/31G11B5/127G11B5/147G11B5/33
    • G11B5/31
    • A thin film magnetic head has a magnetic pole major layer terminated at a position receding from a medium-opposed surface. An intermediate magnetic layer extends forward toward the medium-opposed surface from the surface of the magnetic pole major layer. The intermediate magnetic layer is terminated at a position receding from the medium-opposed surface. A tip magnetic layer extends to the medium-opposed surface from the surface of the intermediate magnetic layer so as to expose the front end at the medium-opposed surface. The layered structure serves to diminish variation in the sectional area of the path of the magnetic flux. Saturation of magnetic flux is sufficiently suppressed irrespective of the reduction in the sectional area. Even if the tip magnetic layer is reduced in lateral width, the tip magnetic layer allows a sufficient leakage of magnetic flux from the front end.
    • 薄膜磁头具有终止于从介质相对表面退出的位置处的磁极主要层。 中间磁性层从磁极主层的表面向中间相对表面向前延伸。 中间磁性层终止于从介质相对表面退出的位置。 尖端磁性层从中间磁性层的表面延伸到介质相对表面,以使中间相对表面的前端露出。 层状结构用于减小磁通的路径的截面积的变化。 充分抑制磁通的饱和,而与截面积的减小无关。 即使尖端磁性层横向宽度减小,尖端磁性层允许从前端充分泄漏磁通量。
    • 10. 发明授权
    • Electronic device
    • 电子设备
    • US08577072B2
    • 2013-11-05
    • US13299525
    • 2011-11-18
    • Kiyoshi WatanabeMaki Maeda
    • Kiyoshi WatanabeMaki Maeda
    • H04R1/02
    • H04R1/2896H04R2499/15
    • In an electronic device, a speaker attaching section 17 which is vertically open with respect to a circuit board 10 and into which a speaker 16 is press-fitted is integrally formed on a contact sheet 13 arranged on the circuit board 10 provided inside an upper case 8. Therefore, the speaker 16 can be easily attached in a manner that sound therefrom does not leak, simply by the speaker 16 being press-fitted into the speaker attaching section 17 of the contact sheet 13. Accordingly, in the present invention, the structure of the speaker section 6 is simple and the number of its components is small, whereby the thickness of the speaker section 6 can be reduced. In addition, sound generated by the speaker can be favorably and reliably emitted from the speaker attaching section 17 to the outside of the upper case 8, without chattering noise being generated.
    • 在电子设备中,相对于电路板10垂直打开且扬声器16被压配的扬声器安装部17一体形成在布置在设置在上壳体内的电路板10上的接触片13上 因此,简单地将扬声器16压配合到接触片13的扬声器安装部17中,扬声器16可以容易地以其声音不泄漏的方式安装。因此,在本发明中, 扬声器部分6的结构简单,并且其部件的数量小,从而可以减小扬声器部分6的厚度。 此外,扬声器产生的声音可以从扬声器安装部分17被有利地可靠地发射到上壳体8的外部,而不产生振动噪声。