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    • 2. 发明申请
    • Fluid dynamic pressure bearing, motor, and recording medium driving device
    • 流体动压轴承,电机和记录介质驱动装置
    • US20070177832A1
    • 2007-08-02
    • US10589422
    • 2005-02-17
    • Hiromitsu GotohKazuaki OguchiShinji KinoshitaChihiro TazawaTomohiko Hayashi
    • Hiromitsu GotohKazuaki OguchiShinji KinoshitaChihiro TazawaTomohiko Hayashi
    • F16C32/06
    • F16C33/107F16C17/045F16C17/107F16C33/1085F16C2370/12G11B19/2009H02K7/085
    • The generation of bubbles can be suppressed by enabling a stable supply of working fluid to a dynamic pressure generating groove, and oscillation at the time of rotation and leakage of working fluid can be prevented effectively by efficiently releasing any bubbles generated. There is provided a fluid dynamic pressure bearing 1 provided with an annular dynamic pressure generating face 17 made by forming a dynamic pressure generating groove, which draws a working fluid 14 toward a midway position in the radial direction from the inside and outside of a thrust bearing plate 13 in the radial direction, when a shaft 10 and a housing 11 are rotated relative to each other about the axis, on thickness direction end faces 13a, 13b of the thrust bearing plate 13, or on an inner surface of the housing 11, and an inner groove section 16, which is located on an inner peripheral side thereof and that is depressed more than the dynamic pressure generating face 17 in the thickness direction, on the end faces 13a, 13b. Moreover there is provided a through hole 19 which passes through the thrust bearing plate 13 in the thickness direction so as to open to the dynamic pressure generating face 17, and there is provided a communicating cavity 20 which connects the opening portion of the through hole 19 and the inner groove section 16.
    • 可以通过使动态压力产生槽稳定地供给工作流体来抑制气泡的产生,并且通过有效地释放产生的气泡,可以有效地防止工作流体的旋转和泄漏时的振动。 提供了一种流体动压轴承1,其设置有环形动压产生面17,该环形动压产生面17通过形成动压产生槽而形成,动压产生槽从推力轴承的内侧和外侧向径向的中间位置拉动工作流体14 板13在径向方向上,当轴10和壳体11绕轴线相对于推力轴承板13的厚度方向端面13a,13b延伸,或者在壳体的内表面上 11以及位于其内周侧并在厚度方向上比动压产生面17压下的内槽部16在端面13a,13b上。 而且,在厚度方向上设置有贯通推力轴承板13的通孔19,以通向动压产生面17,并且设置有连通孔20,连通孔20连通通孔19的开口部 和内槽部16。
    • 3. 发明授权
    • Steel strip for three-piece can body, production process thereof and
resistance seam welded three-piece can body
    • 三片罐体钢带,其生产工艺及电阻缝焊三片罐体
    • US5820954A
    • 1998-10-13
    • US463465
    • 1995-06-05
    • Yashichi OoyagiTomohiko HayashiMitsutoshi InoueMichiyuki KakimotoRyuichi Eguchi
    • Yashichi OoyagiTomohiko HayashiMitsutoshi InoueMichiyuki KakimotoRyuichi Eguchi
    • B05D7/14B21D51/26B32B1/02B32B15/08B29D22/00
    • B21D51/26B32B15/08B65D7/04Y10T156/1067Y10T156/1077Y10T156/108Y10T428/1352
    • A coiled steel strip for the manufacture of a three-piece can body having, on one surface corresponding to the outer surface of the can body, a multiple-layer organic film including a thermoplastic resin layer and a layer of inks arranged on said thermoplastic resin layer to represent a label of a content to be filled in the can, and on the other surface corresponding to the inner surface of the can body, a film or films of a thermosetting coating and/or a thermoplastic resin, said multiple layer organic film extending continuously along the length direction of said strip in a plurality of stripes, each having a width slightly smaller than the circumferential length of the can body and being arranged such that said strip has spaces of a width of 1 to 10 mm at both sides of each such stripe, free from coverage by said organic film, and said film or films of a thermosetting coating and/or a thermoplastic resin extending continuously along the length direction of said strip in a plurality of stripes, each having a width slightly smaller than the circumferential length of the can body and being arranged in alignment with said stripe of said multiple layer organic film back to back on the respective surfaces of said strip, as well as the production of the steel strip sheet, and a resistance seam welded three-piece can body.
    • 一种用于制造三片罐体的卷取钢带,其在与壳体的外表面相对应的一个表面上具有包含热塑性树脂层的多层有机膜和布置在所述热塑性树脂上的油墨层 表示要填充在罐中的内容物的标签,以及对应于罐体的内表面的另一表面,热固性涂层和/或热塑性树脂的膜或膜,所述多层有机膜 沿着所述带的长度方向以多个条状连续延伸,每个条具有稍小于罐体的周长的宽度,并且被布置成使得所述带在两侧的宽度为1至10mm的空间 每个这样的条纹,不受所述有机膜的覆盖,以及所述薄膜或热固性涂层的膜或/或热塑性树脂,其沿着所述条带的长度方向以多个连续的方式延伸 的条带,其宽度略小于罐体的圆周长度,并且与所述多层有机膜的所述条带对准地布置在所述条的相应表面上以及钢的生产 带状片和电阻缝焊三体罐体。
    • 5. 发明授权
    • Dynamic pressure bearing device
    • 动压轴承装置
    • US6036368A
    • 2000-03-14
    • US987732
    • 1997-12-09
    • Isamu TakeharaTomohiko Hayashi
    • Isamu TakeharaTomohiko Hayashi
    • F16C17/10F16C33/10F16C33/74
    • F16C33/107F16C17/026F16C17/107F16C33/74
    • A dynamic pressure bearing device comprises a rotary member mounted for rotation, and a dynamic pressure bearing rotatably supporting the rotary member. The dynamic pressure bearing has a stationary portion and a disk integrally connected to the stationary portion. The disk has surface portions defining thrust dynamic pressure bearing portions for supporting the rotary member in an axial direction and a radial dynamic pressure bearing portion for supporting the rotary member in a radial direction. A gap is disposed between the dynamic pressure bearing and the rotary member for receiving oil. A space is provided in fluid communication with the gap. The space has a central portion slanted downwardly in the radial direction for preventing leakage of the oil and has a diameter increasing gradually from the central portion in the radial direction.
    • 一种动态压力承载装置,包括一个可转动的转动件和一个可旋转地支承转动件的动压轴承。 动压轴承具有固定部分和与固定部分一体连接的盘。 盘具有限定用于沿轴向支撑旋转构件的推力动压轴承部分和用于沿径向支撑旋转构件的径向动压承受部分的表面部分。 在动压轴承和用于接收油的旋转部件之间设置间隙。 提供与间隙流体连通的空间。 空间具有沿径向向下倾斜的中心部分,用于防止油的泄漏,并且具有从径向方向上的中心部分逐渐增加的直径。
    • 9. 发明申请
    • COMPONENT BALANCING ON A CNC MACHINING CENTER
    • CNC加工中心的组件平衡
    • US20110238335A1
    • 2011-09-29
    • US13062539
    • 2009-09-04
    • Jeffry D. SharpNitin ChaphalkarTomohiko HayashiGregory Aaron Hyatt
    • Jeffry D. SharpNitin ChaphalkarTomohiko HayashiGregory Aaron Hyatt
    • G01M1/22
    • G01M1/22Y10S82/903Y10T29/5109Y10T82/10
    • The present invention broadly comprises a method of establishing parameters of a balancer to predict part unbalance on a computer numerically controlled machine comprising the steps of varying unbalance of the balancer and measuring vibration to develop influence parameters of the balancer, varying unbalance of a test part and measuring vibration to develop influence parameters of the test part, comparing the influence parameters of the balancer and the test part, and, determining a range of test part unbalance over which the influence parameters of the balancer and the test part approximately match. The present invention also broadly comprises a system for machining and balancing a workpiece comprising a computer numerically controlled machine, and, a rotating balancer assembly arranged to determine a measurement of unbalance when a first initial vibration measured by a first vibration sensor exceeds a limited range of vibration sensed by the first vibration sensor.
    • 本发明广泛地包括一种建立平衡器的参数以预测计算机数控机器上的部分不平衡的方法,该方法包括以下步骤:改变平衡器的不平衡性并测量振动以产生平衡器的影响参数,改变测试部件的不平衡,以及 测量振动以产生测试部件的影响参数,比较平衡器和测试部件的影响参数,以及确定平衡器和测试部件的影响参数近似匹配的测试部件不平衡的范围。 本发明还广泛地包括一种用于加工和平衡包括计算机数控机床的工件的系统,以及旋转平衡器组件,其被布置成当由第一振动传感器测量的第一初始振动超过限定范围时确定不平衡的测量值 由第一振动传感器感测到的振动。