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    • 51. 发明授权
    • Position measuring device
    • 位置测量装置
    • US07408267B2
    • 2008-08-05
    • US11055438
    • 2005-02-09
    • Mamoru YamashitaHiroshi HagaTakeshi YamamotoAndre Schramm
    • Mamoru YamashitaHiroshi HagaTakeshi YamamotoAndre Schramm
    • B60L1/00
    • G01D3/08H02J1/108Y10T307/625
    • In a position measuring device in which data, which requires buffering, may be held without accommodating a high-capacitance capacitor in the inside of the encoder, a backup current source may be exchanged while the circuits required for the operating capability state remain operable. In addition, current usage during the buffering time may be held low, and the service life of the backup current source may be extended, so that the demand for maintenance may be reduced. The position measuring device may include an encoder main part, arranged to measure the extent of the shift in position of an object to be measured, and a backup current source arranged to supply backup current when main current source, that supplies encoder main part with current, is interrupted. Outside of the encoder main part, an auxiliary current source is provided which, during the exchange of a main battery of the backup current source, undertakes supplying backup current in place of this main battery. The backup current source supplies backup current only to those circuits of the encoder main part which require buffering.
    • 在可以在不在编码器内部容纳高容量电容器的情况下保持需要缓冲的数据的位置测量装置中,可以在操作能力状态所需的电路保持可操作的同时更换备用电流源。 此外,可以将缓冲时间期间的当前使用保持为低,并且可以延长备用电流源的使用寿命,从而可以减少对维护的需求。 位置测量装置可以包括:编码器主要部分,被布置成测量被测量物体的位置偏移的程度;以及备用电流源,被布置成当主电流源向主电流源提供备用电流时,所述主电流源向编码器主要部分提供电流 ,中断了。 在编码器主要部分之外,提供辅助电流源,在备用电流源的主电池交换期间,承担备用电流代替该主电池。 备用电流源仅为需要缓冲的编码器主要部分的电路提供备用电流。
    • 52. 发明授权
    • Probe and contour measuring instrument
    • 探头和轮廓测量仪
    • US07352271B2
    • 2008-04-01
    • US11798457
    • 2007-05-14
    • Kentaro NemotoTakeshi Yamamoto
    • Kentaro NemotoTakeshi Yamamoto
    • H01L31/08
    • G01B7/012
    • A probe body (200) includes a middle closing portion (250) formed upright on a connector front portion (261A) and a female thread (261D) into which a male screw (110) is screwed. A sensor module (300) includes a slidable-contact portion (322) that slidably contacts with the connector front portion (261A), a pressing member (321) that is pressed against the middle closing portion (250) and an insertion hole (325). The insertion hole (325) has a widened portion (325B) that is inclined in such a manner that a distance between an opening on the pressing portion (321) side, the opening positioned on a screw-hole-forming-portion end surface (324), and the pressing portion (321) gradually becomes larger toward the slidable-contact portion (322) side. The insertion hole (325) has a diameter larger than that of the male screw (110).
    • 探针体(200)包括在连接器前部(261A)上竖直形成的中间封闭部(250)和内螺纹(261D),内螺纹(110)被螺纹连接。 传感器模块(300)包括可滑动地与连接器前部(261A)接触的滑动接触部分(322),压靠中间闭合部分(250)的按压部件(321)和插入孔 325)。 插入孔325具有加宽部(325B),该加宽部(325B)以使按压部(321)侧的开口部与位于螺纹孔形成部端面的开口 (324),并且按压部(321)朝向滑动接触部(322)侧逐渐变大。 插入孔(325)的直径大于外螺纹(110)的直径。
    • 53. 发明申请
    • DRIVING DEVICE
    • 驱动装置
    • US20070296308A1
    • 2007-12-27
    • US11759668
    • 2007-06-07
    • Takeshi Yamamoto
    • Takeshi Yamamoto
    • H02N2/02
    • H02N2/025H02N2/101
    • A driving device includes a drive source, a driving unit, and a driven member. The drive source is configured and arranged to generate a driving force. The driving unit is coupled to the drive source to move with a reciprocating motion between first and second directions by the driving force. The driven member is arranged to frictionally engage with the driving unit to move in the first direction in response to the reciprocating motion of the driving unit. The driving unit is further arranged to convert a portion of the driving force into a pressing force that acts on the driven member in a direction substantially perpendicular to the first and second directions with a first conversion ratio when the driving unit moves in the first direction and with a second conversion ratio smaller than the first conversion ratio when the driving unit moves in the second direction.
    • 驱动装置包括驱动源,驱动单元和从动构件。 驱动源被配置和布置成产生驱动力。 驱动单元联接到驱动源以通过驱动力以第一和第二方向之间的往复运动而移动。 被驱动构件布置成与驱动单元摩擦接合,以响应于驱动单元的往复运动而在第一方向上移动。 驱动单元进一步布置成当驱动单元沿第一方向移动时,将驱动力的一部分转换成沿着基本上垂直于第一和第二方向的方向作用在从动构件上的第一转换比的按压力,以及 当所述驱动单元沿所述第二方向移动时,所述第二转换比小于所述第一转换比。
    • 55. 发明申请
    • MULTI-IMAGE DISPLAY APPARATUS
    • 多图像显示设备
    • US20070216805A1
    • 2007-09-20
    • US11576520
    • 2005-09-30
    • Takeshi YamamotoAkira ImaiToshiya Takahashi
    • Takeshi YamamotoAkira ImaiToshiya Takahashi
    • H04N5/45
    • H04N13/359
    • A multi-image display apparatus of the present invention displays a sub-screen which displays information indicative of a current display mode in each of (i) a screen image (left screen image) when viewed from the left side of a display section and (ii) a screen image (right screen image) when viewed from the right side of the display section. For example, in a case where a screen image A is displayed in the left screen image and a screen image B is displayed in the right screen image, the sub-screen displays an icon indicating a dual view mode. On the other hand, in a case where the screen image A is displayed in each of the left screen image and the right screen image, the sub-screen displays an icon indicating a single view mode.
    • 本发明的多图像显示装置在从显示部的左侧观察时(i)屏幕图像(左画面图像)和/或显示部分的左侧显示表示当前显示模式的信息的子屏幕, ii)从显示部分的右侧观看时的屏幕图像(右侧屏幕图像)。 例如,在左屏幕图像中显示屏幕图像A并且在右侧屏幕图像中显示屏幕图像B的情况下,子屏幕显示指示双重视图模式的图标。 另一方面,在屏幕图像A显示在左屏幕图像和右屏幕图像中的每一个中的情况下,子屏幕显示指示单视图模式的图标。
    • 60. 发明授权
    • Spectroscope and measuring apparatus using the same
    • 光谱仪及使用其的测量仪器
    • US07167239B2
    • 2007-01-23
    • US11042447
    • 2005-01-25
    • Takeshi Yamamoto
    • Takeshi Yamamoto
    • G01J3/28
    • G01J3/04G01J3/28
    • Disclosed is a spectroscope and a measuring apparatus using the same. The spectroscope according to an aspect of the present invention includes a light source, a spectroscopic member for dispersing light from the light source in accordance with wavelength, a slit member arranged so that a portion of the dispersed light from the spectroscopic member can pass therethrough and a remaining portion of the light is blocked thereby, and a sensor having a spatial resolution capable of discriminating the wavelength of light passing through the slit member on the basis of a spectral distribution being projected in a spectral direction of light by the spectroscopic member. With this arrangement, the wavelength of light passing through the slit member can be discriminate real time.
    • 公开了一种分光镜和使用其的测量装置。 根据本发明的一个方面的分光器包括光源,用于根据波长分散来自光源的光的分光部件,布置成使得来自分光部件的分散光的一部分能够穿过的狭缝部件, 因此光的剩余部分被阻挡,并且具有空间分辨率的传感器,其能够基于通过光谱构件在光的光谱方向上投影的光谱分布来识别通过狭缝部件的光的波长。 通过这种布置,可以实时地辨别通过狭缝部件的光的波长。