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. 发明申请
    • Servo Accelerometer
    • 伺服加速度计
    • US20110209545A1
    • 2011-09-01
    • US13013614
    • 2011-01-25
    • Kenji KuramotoYoshiyuki AndoHiroyuki MotokiShuichi YamamotoTakazumi Yamada
    • Kenji KuramotoYoshiyuki AndoHiroyuki MotokiShuichi YamamotoTakazumi Yamada
    • G01P15/13
    • G01P15/132G01P15/125
    • Canister-shaped magnetic reinforcing elements 31, 32 made of a ferromagnetic material having a Curie temperature higher than magnetic yokes 11, 12 are provided inside the magnetic yokes 11, 12. The inner periphery 31a, 32a of an opening in each of the magnetic reinforcing elements 31, 32 is opposed to the outer periphery 51a, 52a of each of pole piece tops 51, 52. A torquer coil 61, 62 is located between the inner periphery 31a, 32a of the opening in each of the magnetic reinforcing elements 31, 32 and the outer periphery 51a, 52a of each pole piece top 51, 52. The magnetic reinforcing elements 31, 32 provided inside the magnetic yokes 11, 12 form independent magnetic circuits. Since the magnetic reinforcing elements 31, 32 have a Curie temperature higher than the magnetic yokes 11, 12, a high accuracy of acceleration measurement in a high-temperature range can be achieved.
    • 在磁轭11,12的内侧设置有居里温度高于磁轭11,12的铁磁性材料构成的罐状磁性加强件31,32。每个磁性增强件中的开口的内周31a,32a 元件31,32与极靴顶部51,52的外周51a,52a相对。在每个磁性增强元件31的开口部的内周31a,32a之间设置有绞线线圈61,62, 32和每个极靴顶部51,52的外周51a,52a。设置在磁轭11,12内的磁性加强元件31,32形成独立的磁路。 由于磁性增强元件31,32具有高于磁轭11,12的居里温度,所以可以实现高温范围内的高精度的加速度测量。
    • 4. 发明授权
    • Accelerometer
    • 加速度计
    • US4854169A
    • 1989-08-08
    • US201080
    • 1988-06-01
    • Kazuhiro SakumaHirohito ItohMitsuaki KazouKenji Kuramoto
    • Kazuhiro SakumaHirohito ItohMitsuaki KazouKenji Kuramoto
    • G01P1/00G01P15/13
    • G01P1/006G01P15/132Y10S248/901
    • An accelerometer is composed of a pair of housings each of which forms a magnetic structure together with a permanent magnet and a flapper flexurally supported by hinge portions between the magnetic structures. The permanent magnet is secured to the housing of the magnetic structure by means of a spacer so as to prevent a harmful thermal stress which will be caused by the difference of thermal expansion between the magnet and the housing. A bobbin with a torquer coil is secured to the flapper by means of a base member to take no effect of thermal stress which will be caused by the difference between the materials of the bobbin and the flapper. The above elements are housed in a case which is installed in an instrument board so as to be unaffected by changes in temperature in surroundings of the accelerometer.
    • 加速度计由一对壳体组成,每个壳体与永磁体一起形成磁性结构,以及由磁性结构之间的铰链部分弯曲地支撑的挡板。 永磁体通过间隔件固定到磁性结构的壳体,以防止由磁体和壳体之间的热膨胀差引起的有害的热应力。 具有绞盘线圈的线轴通过基座部件固定在挡板上,不会受到筒管和挡板的材料之间的差异引起的热应力的影响。 上述元件容纳在安装在仪表板中的情况下,不受加速度计周围环境温度的变化的影响。
    • 5. 发明授权
    • Apparatus for monitoring inside of treating column
    • 用于监测处理塔内部的装置
    • US4500793A
    • 1985-02-19
    • US348084
    • 1982-02-11
    • Kenji Kuramoto
    • Kenji Kuramoto
    • G01N21/78G01N21/84G01N15/06
    • G01N21/78G01N2021/4742G01N2021/8444
    • An apparatus for remotely monitoring the color distribution of two materials charged in a treating column by moving a color sensor along a viewing window of the column. The color sensor moving along the viewing window projects a light onto the materials in the treating column and receives the reflected light for conversion into a reception signal. A comparator compares the reception signal with a reference signal representing a standard color of the materials in the column to produce a digital color difference signal. The digital color difference signal is sampled and distributed to indicator lamps in accordance with position signals from the of positions sensing means which senses the passage of the color sensor by each of a plurality position. Thus, the indicator lamps provide a remote display of the color distribution of the materials along the viewing window. Further, operation processing means is provided which checks the inversion frequency of samples of the color difference signal and the inversion position or positions thereof and selectively produces one of a plurality of control signals each indicating how far the separation process has progressed.
    • 一种用于通过沿着色谱柱的观察窗口移动颜色传感器来远程监测装在处理塔中的两种材料的颜色分布的装置。 沿着观察窗移动的颜色传感器将光投射到处理塔中的材料上,并接收用于转换成接收信号的反射光。 比较器将接收信号与表示列中的材料的标准颜色的参考信号进行比较,以产生数字色差信号。 数字色差信号根据位置感测装置的位置信号被采样并分配到指示灯,位置感测装置通过多个位置中的每一个检测颜色传感器的通过。 因此,指示灯提供沿着观察窗口的材料的颜色分布的远程显示。 此外,提供了检查色差信号和反转位置或其位置的样本的反转频率的操作处理装置,并且选择性地产生多个控制信号中的一个,每个控制信号指示分离过程已经进行多远。
    • 6. 发明授权
    • Magnetically reinforced servo accelerometer
    • 磁加强伺服加速度计
    • US08459113B2
    • 2013-06-11
    • US13013614
    • 2011-01-25
    • Kenji KuramotoYoshiyuki AndoHiroyuki MotokiShuichi YamamotoTakazumi Yamada
    • Kenji KuramotoYoshiyuki AndoHiroyuki MotokiShuichi YamamotoTakazumi Yamada
    • G01P15/13G01P15/08
    • G01P15/132G01P15/125
    • Canister-shaped magnetic reinforcing elements 31, 32 made of a ferromagnetic material having a Curie temperature higher than magnetic yokes 11, 12 are provided inside the magnetic yokes 11, 12. The inner periphery 31a, 32a of an opening in each of the magnetic reinforcing elements 31, 32 is opposed to the outer periphery 51a, 52a of each of pole piece tops 51, 52. A torquer coil 61, 62 is located between the inner periphery 31a, 32a of the opening in each of the magnetic reinforcing elements 31, 32 and the outer periphery 51a, 52a of each pole piece top 51, 52. The magnetic reinforcing elements 31, 32 provided inside the magnetic yokes 11, 12 form independent magnetic circuits. Since the magnetic reinforcing elements 31, 32 have a Curie temperature higher than the magnetic yokes 11, 12, a high accuracy of acceleration measurement in a high-temperature range can be achieved.
    • 在磁轭11,12的内侧设置有居里温度高于磁轭11,12的铁磁性材料构成的罐状磁性加强件31,32。每个磁性增强件中的开口的内周31a,32a 元件31,32与极靴顶部51,52的外周51a,52a相对。在每个磁性增强元件31的开口部的内周31a,32a之间设置有绞线线圈61,62, 32和每个极靴顶部51,52的外周51a,52a。设置在磁轭11,12内的磁性加强元件31,32形成独立的磁路。 由于磁性增强元件31,32具有高于磁轭11,12的居里温度,所以可以实现高温范围内的高精度的加速度测量。
    • 7. 发明授权
    • Vibratory gyroscope
    • 振动陀螺仪
    • US07528533B2
    • 2009-05-05
    • US11795188
    • 2006-01-11
    • Atsushi OchiTakeshi InoueMitsuru YamamotoKenji KuramotoMitsuhiro NakajimaTakeshi HosokawaHiroyuki TakahashiTakashi Nakahara
    • Atsushi OchiTakeshi InoueMitsuru YamamotoKenji KuramotoMitsuhiro NakajimaTakeshi HosokawaHiroyuki TakahashiTakashi Nakahara
    • H03H9/21
    • G01C19/5607
    • A vibratory gyroscope including a vibrator (10) integrally having a plate-like body portion (11) spreading along a reference plane, three drive arms (12, 13, 14) extending in a first direction from the body portion along the reference plane, and two detection arms (15, 16) extending in a second direction opposite to the first direction from the body portion along the reference plane. The three drive arms are composed of two exciting drive arms (12, 13) that are excited in mutually opposite phases in the reference plane and a non-exciting drive arm (14) located between the two exciting drive arms. Each of the three drive arms has an arm width in a width direction along the reference plane and perpendicular to the first direction. Each of the two detection arms has an arm width greater than that of the drive arm in the width direction, thereby suppressing generation of vibrations along the reference plane.
    • 一种振动陀螺仪,包括整体地具有沿基准平面扩展的板状主体部分(11)的振动器(10),沿着基准平面从主体部分沿第一方向延伸的三个驱动臂(12,13,14) 以及两个检测臂(15,16),沿着参考平面从主体部沿与第一方向相反的第二方向延伸。 三个驱动臂由在参考平面中以相互相反的相位激励的两个激励驱动臂(12,13)和位于两个激励驱动臂之间的非励磁驱动臂(14)组成。 三个驱动臂中的每一个在沿着参考平面并且垂直于第一方向的宽度方向上具有臂宽度。 两个检测臂中的每一个具有大于驱动臂在宽度方向上的臂宽度的臂宽度,从而抑制沿着参考平面的振动的产生。
    • 9. 发明授权
    • Non-reciprocal circuit device and resin casing used therefor
    • 不可逆电路装置和树脂外壳
    • US06906597B2
    • 2005-06-14
    • US10282055
    • 2002-10-29
    • Minoru NozuKenji Kuramoto
    • Minoru NozuKenji Kuramoto
    • H01P1/387H01P1/32
    • H01P1/387
    • A resin casing for use in a non-reciprocal circuit device comprising an assembly of a ferrimagnetic body and a plurality of central conductors enclosing it, and a plurality of elongated flat capacitors connected to ends of the central conductors; the resin casing being constituted by a thin conductor plate having a substantially flat bottom portion and a resin frame injection-molded integrally with the thin conductor plate; the resin frame comprising sidewalls, and partition walls provided inside the sidewalls for defining a plurality of recesses for receiving the flat capacitors, a pair of opposing sidewalls being provided with external terminals constituted by the thin conductor plate; any bottoms of a plurality of the recesses being integrally constituted by a substantially flat bottom portion of the thin conductor plate; the recesses being formed such that all flat capacitors received in the recesses are aligned substantially in parallel with sidewalls having external terminals; and the assembly being disposed on the flat capacitors received in the recesses.
    • 一种用于不可逆电路装置的树脂外壳,包括一个铁磁体和封闭它的多个中心导体的组件,以及连接到中心导体端部的多个细长扁平电容器。 树脂壳体由具有基本平坦的底部的薄导体板和与薄导体板一体地注塑成型的树脂框架构成; 所述树脂框架包括侧壁,以及设置在所述侧壁内的隔壁,用于限定用于容纳所述扁平电容器的多个凹部;一对相对侧壁,其设置有由所述薄导体板构成的外部端子; 多个凹部的任何底部由薄导体板的基本平坦的底部一体地构成; 凹部被形成为使得容纳在凹部中的所有扁平电容器基本上与具有外部端子的侧壁平行排列; 并且组件设置在容纳在凹部中的扁平电容器上。