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1. 发明申请

US20120226374A1 MACHINE TOOL CONTROL METHOD AND MACHINE TOOL CONTROL DEVICE 审中-公开
标题翻译：机械工具控制方法和机床工具控制装置
公开(公告)号：US20120226374A1
公开(公告)日：2012-09-06
申请号：US13505983
申请日：2009-11-13
申请人： Chiaki Yasuda , Ryuichi Umehara , Atsushi Inoue , Nobuo Shimizu , Hirokazu Matsushita
发明人： Chiaki Yasuda , Ryuichi Umehara , Atsushi Inoue , Nobuo Shimizu , Hirokazu Matsushita
IPC分类号： G06F19/00
CPC分类号： B23Q15/12 , B23Q17/0976 , G05B2219/37434 , G05B2219/37435 , G05B2219/45147
摘要： Natural vibrations of a workpiece to be obtained before and after machining of the workpiece are first input (Step S1). A region of the natural vibrations of the workpiece between before and after the machining is set on a Campbell diagram (Step S2). Vibration components of a machining tool to be generated during the machining are input (Step S3). The vibration components of the machining tool to be generated during the machining are set on the Campbell diagram (Step S4). Referring to the Campbell diagram, the number of revolutions of the machining tool out of a range where the vibration components of the machining tool resonate with the natural vibrations of the workpiece within the region of the natural vibrations between before and after the machining is determined (Step S5). Machining of the workpiece is then performed based on the number of revolutions of the machining tool (Step S6).
摘要翻译：首先输入在工件加工前后获得的工件的自然振动（步骤S1）。在加工之前和之后的工件的自然振动区域设置在Campbell图上（步骤S2）。输入加工时产生的加工工具的振动部件（步骤S3）。在加工过程中要生成的加工工具的振动分量设置在Campbell图上（步骤S4）。参照“坎贝尔图”，确定了在加工前后的自然振动区域内加工用工具的振动成分与工件的自然振动共振的范围内的加工刀具的转数（步骤S5）。然后基于加工工具的转数进行加工工件（步骤S6）。

2. 发明授权

US08288019B2 Surface coating film, method of manufacturing thereof, cutting tool and machine tool 有权
标题翻译：表面涂膜，其制造方法，切削工具和机床
公开(公告)号：US08288019B2
公开(公告)日：2012-10-16
申请号：US12445229
申请日：2008-02-05
申请人： Ichiro Nagano , Taiji Kikuchi , Masakatsu Fujita , Yukio Kodama , Toyoaki Yasui , Katsunori Akiyama , Toshiya Watanabe , Chiaki Yasuda
发明人： Ichiro Nagano , Taiji Kikuchi , Masakatsu Fujita , Yukio Kodama , Toyoaki Yasui , Katsunori Akiyama , Toshiya Watanabe , Chiaki Yasuda
IPC分类号： B32B9/00
CPC分类号： B23F21/16 , B23F17/003 , C23C14/08 , C23C14/3414 , Y02P70/175 , Y10T407/27 , Y10T428/2495 , Y10T428/24983
摘要： A surface coating film includes, a base material which is a hard material; and an oxidation-resistance coating layer containing, as a main component, a complex oxide of Li and at least Al and covering a surface of the base material. Further, a method of manufacturing a surface coated member, includes, supporting a base material which is a hard material in a hermetic container with the use of a holder arranged in the container; arranging a complex oxide forming target containing Li and at least Al, as main components, in the container; feeding oxygen into the container; and forming an oxidation-resistance coating layer that covers the base material to obtain the surface coated member by effecting electric discharge between the complex oxide forming target as an anode and the holder as a cathode.
摘要翻译：表面涂膜包括作为硬质材料的基材; 以及包含Li和至少Al的复合氧化物并覆盖基材的表面作为主要成分的抗氧化性涂层。此外，制造表面被覆构件的方法包括：通过使用设置在容器中的保持器来将密封材料的基材支撑在密封容器中; 将包含Li和至少Al作为主要成分的复合氧化物形成靶设置在容器中; 将氧气送入容器; 并且通过在作为阳极的复合氧化物形成靶和作为阴极的保持器之间进行放电来形成覆盖基材以获得表面被覆构件的抗氧化涂层。

3. 发明申请

US20100086370A1 SURFACE COATING FILM, METHOD OF MANUFACTURING THEREOF, CUTTING TOOL AND MACHINE TOOL 有权
标题翻译：表面涂膜，其制造方法，切割工具和机床
公开(公告)号：US20100086370A1
公开(公告)日：2010-04-08
申请号：US12445229
申请日：2008-02-05
申请人： Ichiro Nagano , Taiji Kikuchi , Masakatsu Fujita , Yukio Kodama , Toyoaki Yasui , Katsunori Akiyama , Toshiya Watanabe , Chiaki Yasuda
发明人： Ichiro Nagano , Taiji Kikuchi , Masakatsu Fujita , Yukio Kodama , Toyoaki Yasui , Katsunori Akiyama , Toshiya Watanabe , Chiaki Yasuda
IPC分类号： B23B27/14 , B32B15/04 , B32B7/02 , B05D1/00 , B05D5/12 , B23D43/00
CPC分类号： B23F21/16 , B23F17/003 , C23C14/08 , C23C14/3414 , Y02P70/175 , Y10T407/27 , Y10T428/2495 , Y10T428/24983
摘要： Provided is a surface coating film having a high degree of hardness and an excellent oxidation-resistance, and a method of manufacturing thereof, a cutting tool and a cutting machine. In the surface coating film, an oxidation-resistance layer containing, as a main component, a complex oxide of Li and at least Al, is coated on the outer surface of a base material, direct thereonto or through the intermediary of a highly hard coating layer. Further, in a method of manufacturing a surface coating film, the base material as it is or a highly hard coating layer coated substance in which a highly hard coating layer is coated on the outer surface of the base material is supported in a hermetic container with the use of a holder arranged in the container, then a complex oxide forming target formed from an Li and at least Al as main components, is arranged in the container into which oxygen is then fed, and en electric discharge is effected between the complex oxide forming target as an anode and the holder as a cathode so as to form an oxidation-resistance layer on the outer surface of the base material or the highly hard coating layer coated substance.
摘要翻译：本发明提供一种硬度高，耐氧化性优异的表面涂膜及其制造方法，切削工具和切割机。在表面被覆膜中，作为主要成分含有Li和至少Al的复合氧化物的耐氧化层被涂覆在基材的外表面上，直接在其上或通过高硬度涂层层。此外，在表面被覆膜的制造方法中，将基材原料或其中在基材的外表面上涂覆高硬度涂层的高硬度涂层物质负载在密封容器中，然后使用设置在容器中的保持器，然后将由Li和至少Al作为主要成分形成的复合氧化物形成靶设置在然后供给氧的容器中，并且在复合氧化物之间进行放电形成靶作为阳极，并且保持器作为阴极，以在基材或高硬度涂层物质的外表面上形成抗氧化层。

4. 发明申请

US20090274400A1 Rotating -Body Support Structure 审中-公开
标题翻译：旋转 - 支撑结构
公开(公告)号：US20090274400A1
公开(公告)日：2009-11-05
申请号：US12226187
申请日：2007-06-26
申请人： Katsuya Yamashita , Chiaki Yasuda , Kazuhiro Tamura , Hitoshi Kaguchi , Yoshitake Kasubata , Akio Kambe
发明人： Katsuya Yamashita , Chiaki Yasuda , Kazuhiro Tamura , Hitoshi Kaguchi , Yoshitake Kasubata , Akio Kambe
IPC分类号： F16C27/02 , F16C35/00
CPC分类号： F16F15/023 , F16C17/02 , F16C17/24 , F16C27/02 , F16C27/063
摘要： The present invention provides a rotating-body support structure that is capable of obtaining a damping effect of a rotating body with a simple configuration. To this end, the rotating-body support structure is configured to include a housing (21) and a bush portion (24) which is supported by the housing (21) and which rotatably supports a boring bar (11); and to have oil filled between the housing (21) and the bush portion (24).
摘要翻译：本发明提供能够以简单的结构获得旋转体的阻尼效果的旋转体支撑结构。为此，旋转体支撑结构被构造成包括由壳体（21）支撑并且可旋转地支撑镗杆（11）的壳体（21）和衬套部分（24）。并且在所述壳体（21）和所述衬套部（24）之间具有填充油。

5. 发明授权

US6041125A Active acoustic wall 失效
标题翻译：有源隔音墙
公开(公告)号：US6041125A
公开(公告)日：2000-03-21
申请号：US769381
申请日：1996-12-19
申请人： Masaharu Nishimura , Keizo Ohnishi , Chiaki Yasuda , Shinichiro Kajii , William P. Patrick , Anthony C. Zander
发明人： Masaharu Nishimura , Keizo Ohnishi , Chiaki Yasuda , Shinichiro Kajii , William P. Patrick , Anthony C. Zander
IPC分类号： E01F8/00 , E04B1/82 , G10K11/172 , G10K11/178 , A61F11/06
CPC分类号： G10K11/172
摘要： An active acoustic wall has sound-pressure detectors provided within respective cells so that a detected signal acts to oscillate an oscillation plate in the cell. A porous material on a surface is thereby provided with a high sound absorption coefficient over a wide frequency range. A space between a porous material or a perforated plate 1 on the surface and a back material fixed on a back side is divided into a plurality of sections so as to form cells 10 containing an air layer or a porous sound-absorbing material. Oscillation plates 6 are arranged within respective cells 10 so as to be driven for oscillation by oscillation-plate driving units 5. Sound-pressure detectors 7 are provided close to the porous material 1 in the cell 10 so that a detected signal is inputted to a signal-processing unit 8. The signal processing unit 8 outputs a signal to the driving unit 5 for oscillating the oscillation plate 6 such that an output of the sound-pressure detector is minimized. The sound pressure on the surface of the porous material 1 is minimized at all frequencies. The velocity of particles on the surface becomes large so that the particles are turned into thermal energy, thereby providing a high sound-absorption coefficient.
摘要翻译：主动声学墙具有设置在各个单元内的声压检测器，使得检测信号用于振荡单元中的振荡板。由此，在宽的频率范围内，表面上的多孔材料具有高吸声系数。表面上的多孔材料或多孔板1之间的空间和固定在背面的背面材料被分成多个部分，以形成包含空气层或多孔吸声材料的电池10。振荡板6布置在各个电池单元10内，以便被振荡板驱动单元5驱动以进行振荡。声压检测器7设置在电池单元10中靠近多孔材料1的位置，从而将检测信号输入到信号处理单元8.信号处理单元8向驱动单元5输出振荡振荡板6的信号，使得声压检测器的输出最小化。在多孔材料1的表面上的声压在所有频率下被最小化。表面上的颗粒的速度变大，使得颗粒变成热能，从而提供高的吸声系数。

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