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    • 1. 发明申请
    • Vibration isolator and attachment method thereof
    • 隔振器及其安装方法
    • US20060125165A1
    • 2006-06-15
    • US10541921
    • 2004-12-13
    • Satoshi NiwaKazushi NishiyamaHiroyuki MasudaYasuhiro Teranishi
    • Satoshi NiwaKazushi NishiyamaHiroyuki MasudaYasuhiro Teranishi
    • F16F1/44
    • B60G21/0551B29C65/48B29C65/4835B29C65/4865B29C66/1122B29C66/1142B29C66/532B29C66/71B29C66/742B29C66/83221B29C66/92655B29L2031/04B29L2031/3055B29L2031/721B60G2202/135B60G2204/1222B60G2204/41F16F1/3732F16F1/38B29K2021/00
    • The invention is to permit a bushing main body of rubber elastomer to be adhered to a bar member while retaining a necessary contact pressure for adhering and after adhering, to permit a further compressive force to be imparted. The bushing main body (10) having a bore (11), through which the bar member (B) passes, and a bracket (20) holding the former are longitudinally split into two, respectively, the resulting split rubber bodies (10a)(10b) are vulcanization bonded to inner peripheral surfaces of the resulting half bracket members (20a)(20b). The inside diameter (D1) of both split rubber bodies as molded is made smaller than the outside diameter (D2) of the bar member, and inner peripheral surfaces (11a)(11b) at the bore are formed to be eccentric on mutually opposite sides. While pinching the bar member by both split rubber bodies, both half bracket members interposing a spacer (30) are locked together to compress the split rubber bodies thereby to adhere the peripheral surfaces at the bore to the outer peripheral surface of the bar member, and after the spacer is removed, both half members are locked so as to butt contact with each other thereby further compressing both split rubber bodies in mutually opposing directions.
    • 本发明是为了允许橡胶弹性体的衬套主体粘合到杆构件上,同时保持用于粘附和粘附后的必要接触压力,以允许施加进一步的压缩力。 具有孔(11)的衬套主体(10),杆构件(B)通过该衬套主体(10)和保持前者的托架(20)分别纵向分成两部分,即所形成的裂口橡胶体(10a) (10b)硫化成所得半支架构件(20a)(20b)的内周面。 两个成型橡胶体的内径(D 1)小于杆件的外径(D 2),并且孔内的内周面(11a)(11b)形成为偏心 在相对的两侧。 在通过两个裂片橡胶体夹持杆构件的同时,插入间隔件(30)的两个半托架构件被锁定在一起以压缩裂口橡胶体,从而将孔附近的周面粘附到杆构件的外周表面,并且 在隔离物被移除之后,两个半部件被锁定以便彼此对接接合,从而进一步在相互相反的方向压缩两个裂口橡胶体。
    • 3. 发明申请
    • Perpendicular magnetic recording head
    • 垂直磁记录头
    • US20100315741A1
    • 2010-12-16
    • US12457521
    • 2009-06-12
    • Tetsuya MinoNaoto MatonoIkuhito OnoderaKazushi NishiyamaMichitoshi TsuchiyaKenji Sasaki
    • Tetsuya MinoNaoto MatonoIkuhito OnoderaKazushi NishiyamaMichitoshi TsuchiyaKenji Sasaki
    • G11B5/187G11B5/127
    • G11B5/3106G11B5/1278G11B5/255G11B5/3133G11B5/40
    • A perpendicular magnetic write head capable of suppressing damage and corrosion of a magnetic pole to secure a stable writing performance is provided.A non-magnetic protruding layer protruding from a main magnetic pole layer (tip portion) toward an air bearing surface side is formed on both sides of the tip portion in a writing track width direction. The non-magnetic protruding layer is located closer to a recording medium than the tip portion during writing operation, and more likely to be in contact with the writing medium instead of the tip portion. Since the portion of the protective film covering the tip portion hardly peels off while the portion of the protective film covering the non-magnetic protruding layer is easy to peel off, the tip portion is hardly damaged or corroded. Since the tip portion is protected physically and chemically by the non-magnetic protruding layer, the deterioration of the soft magnetic characteristics of the tip portion is suppressed.
    • 提供了能够抑制磁极的损坏和腐蚀以确保稳定的写入性能的垂直磁性写入头。 从主磁极层(前端部)向空气轴承面侧突出的非磁性突出层形成在磁头部的书写轨道宽度方向的两侧。 在写入操作期间,非磁性突出层位于比尖端部分更靠近记录介质的位置,更可能与书写介质接触而不是尖端部分。 由于覆盖尖端部分的保护膜的部分几乎不剥离,而覆盖非磁性突出层的保护膜的部分容易剥离,所以尖端部分几乎不被损坏或腐蚀。 由于尖端部分被非磁性突出层物理和化学地保护,所以抑制了尖端部分的软磁特性的劣化。
    • 8. 发明申请
    • Perpendicular magnetic write head
    • 垂直写磁头
    • US20110063754A1
    • 2011-03-17
    • US12585456
    • 2009-09-15
    • Tetsuya MinoNaoto MatonoIkuhito OnoderaKazushi NishiyamaMichitoshi TsuchiyaKenji Sasaki
    • Tetsuya MinoNaoto MatonoIkuhito OnoderaKazushi NishiyamaMichitoshi TsuchiyaKenji Sasaki
    • G11B5/187
    • G11B5/3116G11B5/1278G11B5/3163
    • A perpendicular magnetic write head in which unintended erasure of information at the time of non-writing can be suppressed while keeping the capability of writing is provided. The perpendicular magnetic write head includes a magnetic pole tip portion, a first yoke portion connected to the magnetic pole tip portion, having a width larger than that of the magnetic pole tip portion, and having a recess portion in a center region thereof, and a second yoke portion embedded in the recess portion. The magnetic pole tip portion and the first yoke portion are integrally formed with a vapor deposition method, and the second yoke portion is formed with a plating method. Since the saturation flux density of the magnetic pole tip portion formed with the vapor deposition method becomes higher than that of the yoke portion, a magnetic flux intake capacity of the magnetic pole tip portion is ensured. In a magnetic domain structure of the yoke portion most of which is formed with the plating method, since an easy magnetization axis becomes likely to be directed in a direction perpendicular to an emitting direction of a magnetic flux, residual flux becomes less likely to leak out of the main magnetic pole layer at the time of non-writing.
    • 提供了在保持写入能力的同时抑制在非写入时的意外擦除信息的垂直磁性写入头。 垂直磁性写入头包括磁极尖端部分,连接到磁极尖端部分的第一磁轭部分,其宽度大于磁极尖端部分的宽度,并且在其中心区域具有凹部, 第二轭部嵌入凹部。 磁极端部和第一磁轭部用气相沉积法一体形成,第二磁轭部形成电镀法。 由于利用气相沉积法形成的磁极尖端部分的饱和磁通密度变得高于磁轭部分的饱和磁通密度,所以确保了磁极尖端部分的磁通量进入容量。 在磁轭部分的磁畴结构中,其大部分由电镀法形成,由于容易的磁化轴变得可能沿垂直于磁通的发射方向的方向被引导,所以残余磁通不太可能泄漏 在非写入时的主磁极层。
    • 9. 发明授权
    • Vibration isolator and attachment method thereof
    • 隔振器及其安装方法
    • US07380775B2
    • 2008-06-03
    • US10541921
    • 2004-12-13
    • Satoshi NiwaKazushi NishiyamaHiroyuki MasudaYasuhiro Teranishi
    • Satoshi NiwaKazushi NishiyamaHiroyuki MasudaYasuhiro Teranishi
    • B60G11/22
    • B60G21/0551B29C65/48B29C65/4835B29C65/4865B29C66/1122B29C66/1142B29C66/532B29C66/71B29C66/742B29C66/83221B29C66/92655B29L2031/04B29L2031/3055B29L2031/721B60G2202/135B60G2204/1222B60G2204/41F16F1/3732F16F1/38B29K2021/00
    • The invention is to permit a bushing main body of rubber elastomer to be adhered to a bar member while retaining a necessary contact pressure for adhering and after adhering, to permit a further compressive force to be imparted. The bushing main body (10) having a bore (11), through which the bar member (B) passes, and a bracket (20) holding the former are longitudinally split into two, respectively, the resulting split rubber bodies (10a)(10b) are vulcanization bonded to inner peripheral surfaces of the resulting half bracket members (20a)(20b). The inside diameter (D1) of both split rubber bodies as molded is made smaller than the outside diameter (D2) of the bar member, and inner peripheral surfaces (11a)(11b) at the bore are formed to be eccentric on mutually opposite sides. While pinching the bar member by both split rubber bodies, both half bracket members interposing a spacer (30) are locked together to compress the split rubber bodies thereby to adhere the peripheral surfaces at the bore to the outer peripheral surface of the bar member, and after the spacer is removed, both half members are locked so as to butt contact with each other thereby further compressing both split rubber bodies in mutually opposing directions.
    • 本发明是为了允许橡胶弹性体的衬套主体粘合到杆构件上,同时保持用于粘附和粘附后的必要接触压力,以允许施加进一步的压缩力。 具有孔(11)的衬套主体(10),杆构件(B)通过该衬套主体(10)和保持前者的托架(20)分别纵向分成两部分,即所形成的裂口橡胶体(10a) (10b)硫化成所得半支架构件(20a)(20b)的内周面。 两个成型橡胶体的内径(D 1)小于杆件的外径(D 2),并且孔内的内周面(11a)(11b)形成为偏心 在相对的两侧。 在通过两个裂片橡胶体夹持杆构件的同时,插入间隔件(30)的两个半托架构件被锁定在一起以压缩裂口橡胶体,从而将孔附近的周面粘附到杆构件的外周表面,并且 在隔离物被移除之后,两个半部件被锁定以便彼此对接接合,从而进一步在相互相反的方向压缩两个裂口橡胶体。