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    • 61. 发明授权
    • Ink-storing member for writing instrument
    • 用于书写工具的储墨件
    • US07037019B2
    • 2006-05-02
    • US10719022
    • 2003-11-24
    • Masaru MiyamotoKenji Sato
    • Masaru MiyamotoKenji Sato
    • B43K5/02
    • B43K7/02B43K7/03B43K7/08B43K8/03
    • An ink-storing member for a writing instrument which can inhibit deterioration in the ink caused by permeation of oxygen and nitrogen contained in air, inhibit leaking of the ink and generation of bubbles, enhance discharge stability of the ink, improve fragrance retention of a perfume-containing ink, prevent inferior writing brought about by reduction in an internal pressure of an ink-storing vessel in a pressure type writing instrument and prevent deterioration in the ink due to vaporization of moisture of a water-based ink and deterioration in the ink caused y moisture absorption in an oil-based ink. Such ink-storing member includes, for example, an ink-storing member for a writing instrument which is constituted of a multilayer structure having an organic high molecular compound layer constituted of an organic high molecular compound an inorganic compound layer constituted of an inorganic compound.
    • 一种用于书写工具的储墨构件,其能够抑制由空气中所含的氧气和氮气渗透引起的墨水的劣化,抑制墨水的泄漏和气泡的产生,提高墨水的排出稳定性,提高香料的香味保持性 防止在压力式书写工具中降低储墨容器的内部压力而导致的劣质书写,并防止由于水性墨水的水分蒸发引起的墨水的劣化和墨水的劣化 在油性油墨中吸湿。 这种储墨构件包括例如由具有由有机高分子化合物构成的有机高分子化合物和由无机化合物构成的无机化合物层的多层结构的书写用具的储墨构件。
    • 62. 发明授权
    • Radiation detector
    • 辐射检测器
    • US07034312B2
    • 2006-04-25
    • US11241931
    • 2005-10-04
    • Kenji SatoToshiyuki Sato
    • Kenji SatoToshiyuki Sato
    • H01L27/146
    • G01T1/24
    • A radiation detector for detecting a spatial distribution of incident radiation includes a radiation-sensitive semiconductor, a common electrode formed on one surface of the semiconductor for receiving a bias voltage, a plurality of split electrodes formed on the other surface of the semiconductor for outputting, as electric signals, charges generated within the semiconductor by the incident radiation, and a light irradiating mechanism for emitting light at least during a detection of the radiation.
    • 用于检测入射辐射的空间分布的辐射检测器包括辐射敏感半导体,形成在半导体的用于接收偏置电压的一个表面上的公共电极,形成在半导体的另一个表面上用于输出的多个分裂电极, 作为电信号,通过入射辐射在半导体内产生的电荷,以及用于至少在检测辐射期间发光的光照射机构。
    • 63. 发明申请
    • Ink following element
    • 墨水追随元素
    • US20060047017A1
    • 2006-03-02
    • US10532091
    • 2003-10-27
    • Masaru MiyamotoYoji TakeuchiKenji Sato
    • Masaru MiyamotoYoji TakeuchiKenji Sato
    • C09D11/00
    • B43K7/02B43K7/08C09D11/18
    • Provided is an ink follower which has stable followability regardless of a pen body specification, a flow rate for writing and a writing speed and does not cause back leaking of the ink originating in shortage in the ink follower in the middle of writing and scattering of the ink follower by impact applied to the pen body and which does not flow out from the ink reservoir in storing the pen body at a high temperature and provides a stable flow rate for writing. Further, provided is an ink follower which prevents the ink from volatilizing by shutting off the ink from the outside air (volatilization preventing property) and which prevents the ink from leaking in writing with the pen turned upward. The above ink follower includes, for example, an ink follower characterized by containing a non-volatile or slightly volatile organic solvent and a non-styrene base thermoplastic elastomer which is soluble or swollen in the organic solvent and showing viscoelasticity which is predominant in elastic response.
    • 提供了一种墨水随动体,不论笔体规格如何,书写流动速度和书写速度都是稳定的随动性,并且在书写和散射的中间不会引起油墨随动体中不足的油墨的反向泄漏 通过冲击施加到笔体上并且在将笔体储存在高温下时不会从墨水容器中流出并提供稳定的写入流量的墨汁随动体。 此外,提供一种墨水随动体,其通过从外部空气中关闭墨水(防止挥发性)防止墨水挥发,并且防止墨水以书写方式向上翻转而泄漏墨水。 上述墨汁随动体包括例如墨汁随动体,其特征在于含有在有机溶剂中溶解或溶胀的非挥发性或轻微挥发性有机溶剂和非苯乙烯基热塑性弹性体,并显示弹性响应中主要的粘弹性 。
    • 68. 发明授权
    • Double-ended tuning fork vibratory gyro-sensor
    • 双端音叉振动陀螺传感器
    • US06915694B2
    • 2005-07-12
    • US10664821
    • 2003-09-17
    • Yoshiro TomikawaKenji SatoAtsushi Ono
    • Yoshiro TomikawaKenji SatoAtsushi Ono
    • G01C19/56G01C19/574H01L41/08H01L41/18G01P9/04
    • H03H9/2473G01C19/5607
    • The object of the present invention is to provide an angular velocity sensor that uses Coriolis force with a flatly supported double tuning fork structure that uses an in-plane asymmetrical flexural secondary mode. A large support area is used to provide a high-precision angular velocity sensor with superior resistance to vibration and impact. A double tuning fork gyro-sensor is formed integrally from: two arms; a driver electrode formed on the arms; and a double tuning fork supporting the ends of the arms. Also included are: a detection module connected to the double tuning fork support section; a detection electrode formed on the detection module; and a support securing section for the detection module. When there is rotation, the Coriolis force acting on the arms is transferred to the detection module by way of the double tuning fork support section so that an in-plane asymmetrical flexural secondary vibration takes place.
    • 本发明的目的是提供一种角速度传感器,该角速度传感器使用具有平面支撑的双音叉结构的科里奥利力,其使用平面内不对称的弯曲次级模式。 大的支撑区域用于提供高精度的角速度传感器,具有优异的抗振动和冲击能力。 双音叉陀螺仪传感器由两个臂组成: 形成在臂上的驱动电极; 以及支撑臂的端部的双音叉。 还包括:连接到双音叉支撑部分的检测模块; 形成在检测模块上的检测电极; 以及用于检测模块的支撑固定部。 当旋转时,通过双音叉支撑部将作用在臂上的科里奥利力转移到检测模块,从而发生面内不对称的弯曲二次振动。
    • 70. 发明申请
    • Steering device
    • 转向装置
    • US20050104353A1
    • 2005-05-19
    • US10501542
    • 2002-10-15
    • Shuhei IkedaKenji Sato
    • Shuhei IkedaKenji Sato
    • B62D1/18B62D1/184B62D1/187
    • B62D1/187B62D1/184
    • An outer column (21) is held between a tension member (13) and brackets (12) by operating a lever (L), thereby making it possible to block displacements of fixing members (16, 17) along tilt grooves (12a). An inner column (11) is held to the brackets (12) through the outer column (21), whereby the displacements of the fixing members (16, 17) along telescopic grooves (11a) can be blocked. A steering shaft (S) can be thereby fixed in a tilting direction and a telescoping direction. The brackets (12) apply a pressing force to the inner column (11) through flange portions (21c, 21d) of the outer column (21) by operating the lever (L), and the inner column (11) receives the pressing force in a direction opposite to a direction in which the tension member (13) approaches. As rigidities of the pair of brackets (12) are approximately equal, a central position of the inner column (11) can be therefore kept substantially fixed. Hence, an axis deviation of the steering shaft (S) can be effectively restrained.
    • 通过操作杆(L),外柱(21)通过操作杆(L)而保持在张紧构件(13)和托架(12)之间,从而可以阻止固定构件(16,17)沿倾斜槽(12a)的位移, 。 内柱(11)通过外柱(21)固定到托架(12)上,从而固定构件(16,17)沿伸缩槽(11a)的位移可被阻挡。 转向轴(S)能够在倾斜方向和伸缩方向上固定。 支架(12)通过操作杆(L)而通过外柱(21)的凸缘部(21c,21d)向内柱(11)施加按压力,并且内柱(11)接收 在与张紧构件(13)接近的方向相反的方向上的按压力。 由于一对支架(12)的刚性近似相等,因此可以将内柱(11)的中心位置保持基本上固定。 因此,能够有效地抑制转向轴(S)的轴偏差。