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    • 1. 发明申请
    • System for evaluating skills of to-be-examined person
    • 评估人员技能评估系统
    • US20060085224A1
    • 2006-04-20
    • US11227709
    • 2005-09-14
    • Takasi KumagaiHideki Kumagai
    • Takasi KumagaiHideki Kumagai
    • G06Q10/00
    • G06Q10/00G06Q50/22G09B19/0069
    • According to a question displayed on a computer screen, a to-be-examined person selects, out of constituent elements (components) displayed on the screen, constituent elements that he considers optimum for the question and then makes a design by constructing them on the screen, and the content of the design on the screen is evaluated by using predetermined evaluation data. Further, there is provided a system which enables assembling an actual apparatus (an apparatus to be evaluated) according to the content of design, measures the performance of the assembled actual apparatus and evaluates the ability of the to-be-examined person to assemble the actual apparatus from the measured data by using a computer.
    • 根据计算机屏幕上显示的问题,被检查人员从显示在屏幕上的组成元件(组件)中选择他认为对于该问题最佳的组成元素,然后通过在 屏幕,并且通过使用预定的评估数据来评估屏幕上的设计的内容。 此外,提供了一种能够根据设计内容组装实际装置(待评估装置)的系统,测量组装的实际装置的性能并评估被检查人员组装的能力 通过使用计算机从测量数据的实际装置。
    • 4. 发明授权
    • System for evaluating skills of to-be-examined person
    • 评估人员技能评估系统
    • US08057237B2
    • 2011-11-15
    • US11227709
    • 2005-09-14
    • Takasi KumagaiHideki Kumagai
    • Takasi KumagaiHideki Kumagai
    • G09B25/00
    • G06Q10/00G06Q50/22G09B19/0069
    • According to a question displayed on a computer screen, a to-be-examined person selects, out of constituent elements (components) displayed on the screen, constituent elements that he considers optimum for the question and then makes a design by constructing them on the screen, and the content of the design on the screen is evaluated by using predetermined evaluation data. Further, there is provided a system which enables assembling an actual apparatus (an apparatus to be evaluated) according to the content of design, measures the performance of the assembled actual apparatus and evaluates the ability of the to-be-examined person to assemble the actual apparatus from the measured data by using a computer.
    • 根据计算机屏幕上显示的问题,被检查人员从显示在屏幕上的组成元件(组件)中选择他认为对于该问题最佳的组成元素,然后通过在 屏幕,并且通过使用预定的评估数据来评估屏幕上的设计的内容。 此外,提供了一种能够根据设计内容组装实际装置(待评估装置)的系统,测量组装的实际装置的性能并评估被检查人员组装的能力 通过使用计算机从测量数据的实际装置。
    • 5. 发明授权
    • Apparatus for automatically separating and detecting noise radio waves
    • 用于自动分离和检测噪声无线电波的装置
    • US08249516B2
    • 2012-08-21
    • US12681222
    • 2008-08-29
    • Hideki KumagaiTakashi Kumagai
    • Hideki KumagaiTakashi Kumagai
    • H04B17/00
    • H04B1/12G01V3/12
    • An output signal SHS is secondarily amplified by a high-frequency amplifier AMP3 and an output signal SHR is secondarily amplified by an AMP4 for which high-frequency side amplitude reducing means is taken. In this case, the AMP4 has small gain of a high-frequency region and its output SHR-2 is reduced in amplitude. However, a high-frequency noise has a frequency higher than that of a carrier wave SH and the amplitude of a noise NzB becomes smaller. The other output signal SHS is directly amplified by the wideband amplifier AMP3. The width of an SHS-2 and the width of the SHR-2 are adjusted by amplitude adjusting means throughout the whole region and then mutually added by both signals addition amplifying means again so that the amplitude of the output signal SHS is adjusted to the SHR-2, and a predetermined threshold value is set to extract the noises.
    • 输出信号SHS被高频放大器AMP3二次放大,并且输出信号SHR由被采用高频侧振幅降低装置的AMP4二次放大。 在这种情况下,AMP4具有高频区域的小增益,并且其输出SHR-2的振幅减小。 然而,高频噪声的频率高于载波SH的频率,并且噪声的振幅NzB变小。 另一个输出信号SHS由宽带放大器AMP3直接放大。 SHS-2的宽度和SHR-2的宽度通过振幅调整装置在整个区域中进行调整,然后由两个信号加法放大装置再次相加,使得输出信号SHS的振幅被调整到SHR -2,并且设置预定阈值以提取噪声。
    • 6. 发明申请
    • MEASUREMENT DEVICE
    • 测量装置
    • US20120055037A1
    • 2012-03-08
    • US13218824
    • 2011-08-26
    • Hideki KUMAGAIKazumi MIZUKAMI
    • Hideki KUMAGAIKazumi MIZUKAMI
    • G01B5/008
    • G01B5/12G01B21/047
    • A three-dimensional measuring machine (measurement device) which supplies a probe having a measurement head able to make contact with a measured object and a contact detection sensor which detects the contact of a measurement head with a measured object and outputs a touch signal; a displacement structure which displaces a probe along three axial directions orthogonal to one another; scale sensors which detect the position coordinates of a probe and output a coordinate detection signal; a control circuit board having an integrated circuit on which are installed a touch counter which counts touch signals and a scale counter which counts coordinate detection signals; and a latch controller which latches a touch counter value and a scale counter value at the same time.
    • 一种三维测量机(测量装置),其提供具有能够与测量对象接触的测量头的探头和检测测量头与测量对象的接触的接触检测传感器,并输出触摸信号; 位移结构,其沿着彼此正交的三个轴向移位探针; 检测探头的位置坐标并输出坐标检测信号; 具有集成电路的控制电路板,在其上安装有用于对触摸信号进行计数的触摸计数器和对坐标检测信号进行计数的刻度计数器; 以及同时锁存触摸计数器值和比例计数器值的锁存器控制器。
    • 7. 发明授权
    • Measurement device
    • 测量装置
    • US08516712B2
    • 2013-08-27
    • US13218824
    • 2011-08-26
    • Hideki KumagaiKazumi Mizukami
    • Hideki KumagaiKazumi Mizukami
    • G01B5/008
    • G01B5/12G01B21/047
    • A three-dimensional measuring machine (measurement device) which supplies a probe having a measurement head able to make contact with a measured object and a contact detection sensor which detects the contact of a measurement head with a measured object and outputs a touch signal; a displacement structure which displaces a probe along three axial directions orthogonal to one another; scale sensors which detect the position coordinates of a probe and output a coordinate detection signal; a control circuit board having an integrated circuit on which are installed a touch counter which counts touch signals and a scale counter which counts coordinate detection signals; and a latch controller which latches a touch counter value and a scale counter value at the same time.
    • 一种三维测量机(测量装置),其提供具有能够与测量对象接触的测量头的探头和检测测量头与测量对象的接触的接触检测传感器,并输出触摸信号; 位移结构,其沿着彼此正交的三个轴向移位探针; 检测探头的位置坐标并输出坐标检测信号; 具有集成电路的控制电路板,在其上安装有用于对触摸信号进行计数的触摸计数器和对坐标检测信号进行计数的刻度计数器; 以及同时锁存触摸计数器值和比例计数器值的锁存器控制器。
    • 8. 发明申请
    • APPARATUS FOR AUTOMATICALLY SEPARATING AND DETECTING NOISE RADIO WAVES
    • 用于自动分离和检测噪声无线电波的装置
    • US20120007671A1
    • 2012-01-12
    • US12681222
    • 2008-08-29
    • Hideki KumagaiTakashi Kumagai
    • Hideki KumagaiTakashi Kumagai
    • H03F3/68
    • H04B1/12G01V3/12
    • An output signal SHS is secondarily amplified by a high-frequency amplifier AMP3 and an output signal SHR is secondarily amplified by an AMP4 for which high-frequency side amplitude reducing means is taken. In this case, the AMP4 has small gain of a high-frequency region and its output SHR-2 is reduced in amplitude. However, a high-frequency noise has a frequency higher than that of a carrier wave SH and the amplitude of a noise NzB becomes smaller. The other output signal SHS is directly amplified by the wideband amplifier AMP3. The width of an SHS-2 and the width of the SHR-2 are adjusted by amplitude adjusting means throughout the whole region and then mutually added by both signals addition amplifying means again so that the amplitude of the output signal SHS is adjusted to the SHR-2, and a predetermined threshold value is set to extract the noises.
    • 输出信号SHS被高频放大器AMP3二次放大,并且输出信号SHR由被采用高频侧振幅降低装置的AMP4二次放大。 在这种情况下,AMP4具有高频区域的小增益,并且其输出SHR-2的振幅减小。 然而,高频噪声的频率高于载波SH的频率,并且噪声的振幅NzB变小。 另一个输出信号SHS由宽带放大器AMP3直接放大。 SHS-2的宽度和SHR-2的宽度通过振幅调整装置在整个区域中进行调整,然后由两个信号加法放大装置再次相加,使得输出信号SHS的振幅被调整到SHR -2,并且设置预定阈值以提取噪声。
    • 9. 发明授权
    • Experiment and education system employing a plurality of units
    • 实验教育体系采用多个单位
    • US07963771B2
    • 2011-06-21
    • US11906806
    • 2007-10-04
    • Takasi KumagaiHideki Kumagai
    • Takasi KumagaiHideki Kumagai
    • G09B23/06
    • G09B23/18Y10T24/32
    • When a mechanism constituent unit having a base is secured to a magnetic base at a predetermined position, a fixture having a detachable mechanism inside itself is employed, and the fixture is disposed on a notch of the base of the mechanism constituent unit in a non-adsorption state in which magnetic force lines of a permanent magnet of the detachable mechanism permeate the fixture. In this state, a rotation casing is rotated 90 degrees to be in a lock state, and a fixing casing is firmly adsorbed to the magnetic base such that magnetic force of the permanent magnet inside it permeate to the magnetic base side. Thus, the mechanism constituent unit base is firmly sandwiched by a pressing portion of the fixing casing and the magnetic base, and the base of the mechanism constituent unit is firmly secured to the magnetic base at a predetermined position.
    • 当具有基座的机构结构单元在预定位置处固定到磁性基座时,采用其内部具有可拆卸机构的固定装置,并且该固定装置以非限制性方式设置在机构结构单元的基座的凹口上, 吸附状态,其中可拆卸机构的永久磁铁的磁力线穿透固定装置。 在这种状态下,旋转壳体旋转90度以处于锁定状态,并且固定壳体牢固​​地吸附到磁性基座,使得其内部的永磁体的磁力渗透到磁性基座侧。 因此,机构结构单元基座被固定壳体的按压部和磁性基座牢固地夹持,并且机构构成单元的基部牢固地固定在磁性基座上的预定位置。
    • 10. 发明申请
    • Experiment and education system employing a plurality of units
    • 实验教育体系采用多个单位
    • US20090092956A1
    • 2009-04-09
    • US11906806
    • 2007-10-04
    • Takasi KumagaiHideki Kumagai
    • Takasi KumagaiHideki Kumagai
    • G09B23/18
    • G09B23/18Y10T24/32
    • When a mechanism constituent unit having a base is secured to a magnetic base at a predetermined position, a fixture having a detachable mechanism inside itself is employed, and the fixture is disposed on a notch of the base of the mechanism constituent unit in a non-adsorption state in which magnetic force lines of a permanent magnet of the detachable mechanism permeate the fixture. In this state, a rotation casing is rotated 90 degrees to be in a lock state, and a fixing casing is firmly adsorbed to the magnetic base such that magnetic force of the permanent magnet inside it permeate to the magnetic base side. Thus, the mechanism constituent unit base is firmly sandwiched by a pressing portion of the fixing casing and the magnetic base, and the base of the mechanism constituent unit is firmly secured to the magnetic base at a predetermined position.
    • 当具有基座的机构结构单元在预定位置处固定到磁性基座时,采用其内部具有可拆卸机构的固定装置,并且该固定装置以非限制性方式设置在机构结构单元的基座的凹口上, 吸附状态,其中可拆卸机构的永久磁铁的磁力线穿透固定装置。 在这种状态下,旋转壳体旋转90度以处于锁定状态,并且固定壳体牢固​​地吸附到磁性基座,使得其内部的永磁体的磁力渗透到磁性基座侧。 因此,机构结构单元基座被固定壳体的按压部和磁性基座牢固地夹持,并且机构构成单元的基部牢固地固定在磁性基座上的预定位置。