会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明授权
    • Car on-board radar axis adjusting method
    • 车载雷达轴调整方法
    • US6020844A
    • 2000-02-01
    • US225475
    • 1999-01-06
    • Jie BaiMitsuru NakamuraKazuhiko HanawaTatsuhiko MonjiKazuaki TakanoNoriharu Sato
    • Jie BaiMitsuru NakamuraKazuhiko HanawaTatsuhiko MonjiKazuaki TakanoNoriharu Sato
    • B60R21/00B60R11/02B60W30/00G01S7/03G01S7/40G01S13/93H01Q3/02
    • G01S7/4026H01Q3/02G01S2007/403G01S2007/4034G01S2007/4086G01S7/4972
    • In a method of adjusting the axis of a car on-board radar, especially, a car on-board mono-pulse radar having the function of transmitting radio waves, light or ultrasonic waves, a car axis and an offset axis are set and the mount angle of an antenna offset-mounted on the offset axis can be adjusted with high precision and with ease through a reduced number of process steps. In the method, at least two points are set on the car, at least two isosceles triangles having a common base defined by a line connecting the setting points and sides of different lengths are drawn, a line connecting vertexes on the same plane of the obtained isosceles triangles and an extension of that line are determined as the car axis, the radar antenna is mounted on the car at an offset position which is apart from the car axis by a constant distance in the horizontal direction, a straight line parallel to the car axis and passing through the offset position is determined as the offset axis, a reflector is disposed in a direction at a constant azimuth angle as viewed from the offset position of the antenna, and the reflector is used as a detection target of the radar to adjust the mount angle of the radar antenna such that an azimuth angle detection value of the reflector detected by the radar equals a setting value of the azimuth angle.
    • 在调整车载雷达的轴线的方法中,特别地,设置具有发射无线电波,光或超声波,汽车轴和偏移轴的功能的车载单脉冲雷达, 偏移安装在偏移轴上的天线的安装角度可以通过减少数量的工艺步骤以高精度和容易地调节。 在该方法中,在轿厢上设置至少两个点,至少两个具有由连接不同长度的设定点和侧面的线限定的公共基座的等腰三角形,连接顶点在所获得的相同平面上的线 将等腰三角形和该线的延伸线确定为轿厢轴线,雷达天线以与水平方向一定距离的偏离位置安装在轿厢上,平行于轿厢的直线 被确定为偏移位置时,从天线的偏移位置观察,将反射器设置在恒定方位角的方向上,并且将反射器用作雷达的检测对象以进行调整 雷达天线的安装角度使得由雷达检测的反射器的方位角检测值等于方位角的设定值。
    • 4. 发明授权
    • RFID tag information communicating apparatus
    • RFID标签信息通信装置
    • US08169301B2
    • 2012-05-01
    • US12221248
    • 2008-07-31
    • Takaaki KatoMitsuru Nakamura
    • Takaaki KatoMitsuru Nakamura
    • H04Q5/22G08B13/14G06F7/00
    • G06K7/10336G06K17/0025
    • This disclosure discloses an RFID tag information communicating apparatus, comprising an apparatus antenna device; a command transmission portion that generates and transmits a command signal for reading information from an RFID circuit element; an information acquisition portion that attempts a reception of a reply signal transmitted from said RFID circuit element in response to said command signal; and an electrostatic-safe communication control portion that controls at least said command transmission portion and repeatedly transmit a plurality of times said command signal to said RFID circuit element so that information substantially unaffected by static electricity is acquired by said information acquisition portion.
    • 本公开公开了一种RFID标签信息通信装置,包括装置天线装置; 命令发送部,其生成并发送用于从RFID电路元件读取信息的命令信号; 信息获取部分,响应于所述命令信号尝试接收从所述RFID电路元件发送的应答信号; 以及静电安全通信控制部分,其至少控制所述命令传输部分并且将所述命令信号重复地多次发送到所述RFID电路元件,使得由所述信息获取部分获取基本上不受静电影响的信息。
    • 5. 发明授权
    • Device for measuring a position of a mobile station
    • 用于测量移动台的位置的装置
    • US08035554B2
    • 2011-10-11
    • US12515540
    • 2007-11-13
    • Yasuhiro TajimaNaoto HasegawaAkihiro UedaKiyomi NagamiyaMitsuru NakamuraNaoto Shibata
    • Yasuhiro TajimaNaoto HasegawaAkihiro UedaKiyomi NagamiyaMitsuru NakamuraNaoto Shibata
    • G01S19/48H04B17/00
    • G01S19/49G01S19/44G01S19/48
    • A device for measuring a position of a mobile station according to the present invention comprises: first measuring means for measuring the position of the mobile station based on observed data of signals from satellites using a one-epoch measuring method; second measuring means for measuring the position of the mobile station using previous determination result of the position of the mobile station and speed information representative of a speed of the mobile station; third measuring means for measuring the position of the mobile station using solutions of variables derived from previous determination results of the first or second measuring means; and controlling means 60 for selecting one of the respective measuring means which is to execute its measuring process; wherein if reliability of the determination result of the selected measuring means is lower than a predetermined reference value, the controlling means selects another measuring means to make it execute its measuring process.
    • 根据本发明的用于测量移动台的位置的装置包括:第一测量装置,用于使用一时刻测量方法基于来自卫星的信号的观测数据来测量移动台的位置; 第二测量装置,用于使用移动台的位置的先前确定结果和表示移动台的速度的速度信息来测量移动台的位置; 第三测量装置,用于使用从第一或第二测量装置的先前确定结果导出的变量的解决方案来测量移动台的位置; 以及控制装置60,用于选择要执行其测量处理的相应测量装置中的一个; 其中如果所选择的测量装置的确定结果的可靠性低于预定的参考值,则控制装置选择另一个测量装置来执行其测量过程。
    • 6. 发明申请
    • CONTROL DEVICE FOR ELECTRIC MOTOR DRIVE APPARATUS
    • 电动机驱动装置的控制装置
    • US20110080125A1
    • 2011-04-07
    • US12872348
    • 2010-08-31
    • Arinori SHIMADAMitsuru NakamuraSubrata SahaKen Iwatsuki
    • Arinori SHIMADAMitsuru NakamuraSubrata SahaKen Iwatsuki
    • H02P6/14
    • H02P21/0003H02P5/74
    • A electric motor drive apparatus comprising a voltage control unit performing voltage control processing that determines alternating-current voltage command values serving as command values of the alternating-current voltages to be supplied to the alternating-current electric motor and generates switching control signals for the inverter; and a control mode selection unit selecting a synchronous control mode in which a cycle of electric angle of the alternating-current electric motor is synchronized with a switching cycle of the inverter, or an asynchronous control mode in which the cycles are not synchronized with each other. Current detection processing is performed to detect currents flowing in coils of the alternating-current electric motor in every standard calculation cycle that is set to a half of a cycle of the carrier.
    • 一种电动机驱动装置,包括:电压控制单元,执行电压控制处理,所述电压控制处理确定作为要提供给所述交流电动机的交流电压的指令值的交流电压指令值,并且生成用于所述逆变器的开关控制信号 ; 以及控制模式选择单元,其选择同步控制模式,其中交流电动机的电角度的周期与逆变器的开关周期同步,或者其中循环不彼此同步的异步控制模式 。 执行电流检测处理以在设置为载波的周期的一半的每个标准计算周期中检测在交流电动机的线圈中流动的电流。
    • 9. 发明授权
    • Engine ignition system
    • US06550462B2
    • 2003-04-22
    • US10000798
    • 2001-12-04
    • Mitsuru NakamuraKazumi Miyashita
    • Mitsuru NakamuraKazumi Miyashita
    • F02P102
    • F02P3/0435F02P1/083
    • In an engine ignition system that includes a rotor that rotates in synchronism with rotation of an engine, an iron core fixedly disposed opposite the outer periphery of the rotor, and a primary coil and a secondary coil that are wound concentrically around the iron core, to reduce the weight of the rotor while allowing the rotational balance of the rotor to be easily adjusted, simplify the arrangement of the rotor itself, and secure an effectively usable space in the region on the inside of the rotor in the radial direction. Permanent magnets are fitted to the iron core having a plurality of legs opposite the outer periphery of the rotor at positions that are spaced in the peripheral direction of the rotor, and an inductor is fixed to the outer periphery of the rotor. The inductor forms a magnetic path for the magnetic flux that is formed by the permanent magnets between pairs of legs. The legs in a pair are adjacent to each other in the peripheral direction of the rotor, and the winding of the primary coil and the secondary coil around the iron core allows a spark plug to be energized every time the inductor passes the pairs of legs.
    • 10. 发明授权
    • Engine starting apparatus
    • 发动机起动装置
    • US06240889B1
    • 2001-06-05
    • US09566116
    • 2000-05-05
    • Shigeaki KuwabaraMitsuru NakamuraKazuhiro SatoKeizo ShimizuTaro Kihara
    • Shigeaki KuwabaraMitsuru NakamuraKazuhiro SatoKeizo ShimizuTaro Kihara
    • F02N1700
    • F02N15/006F02B63/02F02B75/16F02B2075/027F02N3/02F02N11/00Y10T74/134Y10T74/137
    • An engine starting apparatus has a first one-way clutch provided at one part of a series of gears for transmitting rotation of a starter motor to a crankshaft, and a second one-way clutch provided in a transmission mechanism for transmitting rotation of a recoil starter to the crankshaft. The first one-way clutch includes a small gear, a decelerating gear and a large gear. The small gear is connected to the crankshaft and has step portions on an inner peripheral surface thereof. The decelerating gear is connected to an output shaft of the starter motor. The large gear is connected in meshing engagement with the decelerating gear and has ratchets urged to mesh with the step portions of the small gear to engage the first one-way clutch only when the large gear is rotated via the decelerating gear upon rotation of the starter motor in such a direction as to start an engine.
    • 发动机起动装置具有设置在用于将起动电动机的旋转传递到曲轴的一系列齿轮的一部分处的第一单向离合器,以及设置在变速机构中用于传递反冲起动器的旋转的第二单向离合器 到曲轴。 第一单向离合器包括小齿轮,减速齿轮和大齿轮。 小齿轮与曲轴连接,在其内周面具有台阶部。 减速齿轮连接到起动电动机的输出轴。 大齿轮与减速齿轮相啮合地连接,并且只有当大齿轮在启动器旋转时通过减速齿轮旋转,则棘轮被推动以与小齿轮的台阶部分啮合才能接合第一单向离合器 电机在启动发动机的方向上。