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    • 32. 发明申请
    • Ultrasonic Trimming Appratus
    • 超声波修剪设计
    • US20120247295A1
    • 2012-10-04
    • US13481535
    • 2012-05-25
    • Norio Tanaka
    • Norio Tanaka
    • B26D7/12B26D1/45
    • B26D7/086B26D3/10B26D7/12B26D7/2614B26D2007/2678B26F1/3806Y10T83/04Y10T83/0443Y10T83/263Y10T83/303Y10T83/313Y10T83/7493Y10T83/8798
    • An ultrasonic trimming apparatus is composed of an articulated robot, a cutting apparatus, and a grindstone. The cutting apparatus is composed of an ultrasonic oscillator supported by the end portion of the robot, a cutter blade which is supported by the ultrasonic oscillator, and a workpiece securing portion which secures a workpiece. The grindstone is disposed within the movable range of the cutter blade driven by the robot and is placed in a position at which the cutter blade can pressure contact the cutter blade. The cutter blade is ultrasonically vibrated by the ultrasonic oscillator and is ground while being pressed against the grindstone by means of the articulated robot. The ultrasonic trimming apparatus efficiently cuts a sheet material composed of soft material such as plastic, fabric, or rubber, a composite material, or a material containing glass fiber even when the material has a three-dimensional shape.
    • 超声波修整装置由铰接机器人,切割装置和磨石构成。 切割装置由机器人的端部支撑的超声波振荡器,由超声波振荡器支撑的切割刀片和固定工件的工件固定部分构成。 砂轮被设置在由机器人驱动的切割刀片的可移动范围内,并且被放置在切割刀片能够与切割刀片压力接触的位置。 刀片由超声波振荡器超声震动,并通过铰接机器人被压在磨石上进行研磨。 超声波修整装置即使当材料具有三维形状时,也可有效地切割由诸如塑料,织物或橡胶的软材料,复合材料或含玻璃纤维的材料构成的片材。
    • 33. 发明授权
    • Ultrasonic trimming apparatus and ultrasonic trimming method
    • 超声波修整装置和超声波修整方法
    • US08277282B2
    • 2012-10-02
    • US11664554
    • 2006-07-26
    • Norio Tanaka
    • Norio Tanaka
    • B24B49/00
    • B26D7/086B26D3/10B26D7/12B26D7/2614B26D2007/2678B26F1/3806Y10T83/04Y10T83/0443Y10T83/263Y10T83/303Y10T83/313Y10T83/7493Y10T83/8798
    • An ultrasonic trimming apparatus is composed of an articulated robot, a cutting apparatus, and a grindstone. The cutting apparatus is composed of an ultrasonic oscillator which is supported by the end portion of the articulated robot, a cutter blade which is supported by the ultrasonic oscillator, and a workpiece securing portion which secures a workpiece. The grindstone serving as a grinding member is disposed within the movable range of the cutter blade driven by the robot and is placed in a position at which the cutter blade can pressure contact the cutter blade. The cutter blade is ultrasonically vibrated by the ultrasonic oscillator and is ground while being pressed against the grindstone by means of the articulated robot. The ultrasonic trimming apparatus efficiently cuts a sheet material composed of soft material such as plastic, fabric, or rubber, a composite material, or a material containing glass fiber by means of an environmentally conscious method even when the material has a three-dimensional shape.
    • 超声波修整装置由铰接机器人,切割装置和磨石构成。 切割装置由被铰接的机器人的端部支撑的超声波振荡器,由超声波振荡器支撑的切割刀片和固定工件的工件固定部分组成。 作为研磨部件的磨石配置在由机器人驱动的切割刀片的可动范围内,并且被放置在切割刀片能够与切割刀片压力接触的位置。 刀片由超声波振荡器超声震动,并通过铰接机器人被压在磨石上进行研磨。 超声波修整装置即使当材料具有三维形状时,也可以通过环保意识的方法有效地切割由诸如塑料,织物或橡胶的软质材料,复合材料或含玻璃纤维的材料构成的片材。
    • 34. 发明申请
    • OPTICAL PATH SWITCHING SIGNAL TRANSMISSION/RECEPTION APPARATUS AND CORRESPONDING METHOD
    • 光路切换信号传输/接收装置及对应方法
    • US20120063777A1
    • 2012-03-15
    • US13264654
    • 2010-04-14
    • Norio TanakaShigeru TakaradaHirofumi WatanabeShiro FutakiIchiro UenoTakashi HiragaNoritaka Yamamoto
    • Norio TanakaShigeru TakaradaHirofumi WatanabeShiro FutakiIchiro UenoTakashi HiragaNoritaka Yamamoto
    • H04J14/02H04B10/08H04J14/00
    • H04Q11/0067H04Q2011/0041
    • An optical path switching type optical signal transmission/reception apparatus includes a one-to-seven compatible optically controlled optical path switching apparatus 100 that is connected to a host optical signal transmission/reception apparatus 1 via an optical fiber, a total of seven subordinate optical communication adapters 110 connected via optical fibers, user side devices 160 connected to respective subordinate optical communication adapters via an electric circuit, an optical transmission/reception control circuit provided in each of the total of seven subordinate user side optical communication adapters 110, and including an uplink optical signal transmission mechanism, a downlink optical signal reception mechanism, a control light source that can generate control light to drive the optical path switching apparatus 100, in which a wavelength of the generated control light is different from a wavelength of signal light, and an optical communication oriented transmission/reception mechanism using the wavelength of the control light source, optical paths 1211 to 1216 dedicated to the control light to connect the optical path switching apparatus 100 to the seven user side optical communication adapters 110, and a reflection-type star coupler.
    • 光路交换型光信号发送/接收装置包括经由光纤连接到主机光信号发送/接收装置1的一对七兼容的光控光路交换装置100,总共七个从属光 经由光纤连接的通信适配器110,经由电路连接到相应的从属光通信适配器的用户侧设备160,设置在总共七个从属用户侧光通信适配器110中的每一个中的光发送/接收控制电路, 上行光信号传输机构,下行光信号接收机构,可产生控制光以驱动光路切换装置100的控制光源,其中生成的控制光的波长与信号光的波长不同,以及 面向光通信的传输/接收 使用专用于控制光的光路1211至1216将光路切换装置100连接到七个用户侧光通信适配器110,以及反射型星形耦合器。
    • 37. 发明授权
    • On-board antenna device
    • 车载天线装置
    • US07576700B2
    • 2009-08-18
    • US11805370
    • 2007-05-23
    • Hideaki OshimaHiroshi IijimaTomoki IkedaNorio Tanaka
    • Hideaki OshimaHiroshi IijimaTomoki IkedaNorio Tanaka
    • H01Q1/32
    • H01Q1/526H01Q1/1271H01Q1/3275H01Q1/3291
    • An on-board antenna device, comprises a radiation element (22) formed on an inner-surface of a window glass (51) for a vehicle (50), a base plate (405) having an opening, the base plate (405) being fixed on the inner-surface of the window glass (51) so as to surround the radiation element (22), and a housing (27) assembled onto the base plate (405), the housing (27) having an opening surrounding the radiation element, wherein the base plate has four leakage prevention walls (405b, 405c, 405d and 405e) and each of four leakage prevention walls (405b, 405c, 405d and 405e) has a surface substantially parallel to each of four sidewalls (430b, 430c, 430d and 430e) of the housing (27).
    • 一种车载天线装置,包括形成在用于车辆(50)的窗玻璃(51)的内表面上的辐射元件(22),具有开口的基板(405),所述基板(405) 被固定在所述窗玻璃(51)的内表面上以围绕所述辐射元件(22),以及壳体(27)组装到所述基板(405)上,所述壳体(27)具有围绕所述辐射元件 辐射元件,其中基板具有四个防漏壁(405b,405c,405d和405e),并且四个防漏壁(405b,405c,405d和405e)中的每一个具有基本上平行于四个侧壁(430b, 430c,430d和430e)。