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    • 13. 发明申请
    • LID MEMBER WITH WATERPROOFING FUNCTION
    • 带防水功能的会员
    • US20140331562A1
    • 2014-11-13
    • US14362829
    • 2012-06-19
    • Naoya ShinmuraTsukasa WatanabeHiroki Matsumoto
    • Naoya ShinmuraTsukasa WatanabeHiroki Matsumoto
    • H05K5/02H05K5/03H01R13/52H05K5/06
    • H05K5/0239H01R13/5202H01R13/5213H01R2201/16H04M1/0249H04M1/18H05K5/03H05K5/061
    • In a lid member with a waterproofing function, the lid member including a projection portion integrally formed in one surface of a resin main body of the lid member opening and closing an opening portion formed in a housing, and accommodated in the opening portion, and a seal portion integrally formed in an outer peripheral surface of the projection portion, provided with an annular projection coming into close contact with a peripheral surface of the opening portion, and made of a rubber-like elastic material, the annular projection is formed as a shape which is expanded toward an inner portion side of the opening portion, forms in its outer peripheral surface a taper surface which converges toward the inner portion side, and is provided with a seal surface having a circular arc shaped cross section so as to be connected to a maximum diameter portion of the taper surface.
    • 在具有防水功能的盖构件中,所述盖构件包括突出部,所述突出部一体地形成在所述盖构件的树脂主体的一个表面中,所述盖构件的开闭部分形成在壳体中并容纳在所述开口部中, 所述密封部一体地形成在所述突起部的外周面上,设置有与所述开口部的周面紧密接触的环状突起,并且由橡胶状弹性材料形成,所述环状突起形成为 其朝向开口部的内侧侧扩展,在其外周面形成有朝向内侧侧会聚的锥面,并且设置有具有圆弧状截面的密封面,以与 锥形表面的最大直径部分。
    • 14. 发明申请
    • AXIS RUN-OUT MEASURING METHOD AND ANGLE DETECTING DEVICE WITH SELF-CALIBRATION FUNCTION HAVING AXIS RUN-OUT MEASURING FUNCTION
    • 具有轴向运行测量功能的自校准功能的轴运行测量方法和角度检测装置
    • US20120283978A1
    • 2012-11-08
    • US13508686
    • 2010-10-27
    • Tsukasa Watanabe
    • Tsukasa Watanabe
    • G01C25/00G06F19/00
    • G01D5/24476G01D5/24452G01D5/2448G01D5/2449G01D5/3473
    • An angle detecting device with self-calibration function, in which sensor heads are provided with an equiangular interval on a scale disc fixed to a rotating shaft, one sensor head is selected as reference, a sum of measurement differences between the reference and another sensor head is divided by the number of sensor heads, to determine an average, whereby a self-calibration value is obtained, in which a sensor head of the reference is changed to another in order, and the respective self-calibration value is obtained, which value is deviated by an angle of arrangement with respect to a particular sensor head, and a phase is aligned to a self-calibration value of the particular one as the reference, to determine an average for calculations of this phase conversion, which average is subtracted from the respective calculation subjected to the phase conversion, to obtain only asynchronous angular errors.
    • 一种具有自校准功能的角度检测装置,其中传感器头在固定在旋转轴上的刻度盘上设置有等角度间隔,选择一个传感器头作为参考,参考和另一个传感器头之间的测量差之和 被传感器头的数量除以确定平均值,从而获得其中参考的传感器头按顺序改变为另一个的自校准值,并且获得相应的自校准值,该值 偏离相对于特定传感器头的布置角度,并且将相位与特定一个的自校准值对准作为参考,以确定该相位转换的计算的平均值,该平均值从 进行相位转换的相应计算,仅获得异步角度误差。
    • 17. 发明授权
    • Substrate cleaning method and substrate cleaning apparatus
    • 基板清洗方法和基板清洗装置
    • US08083857B2
    • 2011-12-27
    • US12213011
    • 2008-06-12
    • Tsukasa WatanabeNaoki ShindoKazuyoshi Eshima
    • Tsukasa WatanabeNaoki ShindoKazuyoshi Eshima
    • B08B3/12
    • H01L21/67057
    • The present invention provides a substrate cleaning method capable of reducing non-uniformity of a removal efficiency of particles between lots with a simple procedure. The substrate cleaning method comprises: a step of supplying a gas into a cleaning tank, while an irradiation of ultrasonic waves to the cleaning liquid in the cleaning tank is being stopped, so as to increase a dissolved gas concentration of the gas dissolved in the cleaning liquid in the cleaning tank to a saturated concentration; and a step of irradiating ultrasonic waves to the cleaning liquid in the cleaning tank so as to clean a substrate immersed in the cleaning liquid in the cleaning tank. In the step of increasing the dissolved gas concentration to the saturated concentration, the gas is supplied to the cleaning tank so as to increase the dissolved gas concentration of the cleaning liquid in the cleaning tank to the saturated concentration. In addition, in the step of increasing the dissolved gas concentration to the saturated concentration, the irradiation of the ultrasonic waves to the cleaning liquid in the cleaning tank is stopped.
    • 本发明提供一种能够以简单的方法降低批次之间的颗粒去除效率的不均匀性的基板清洗方法。 基板清洗方法包括:在停止向清洗槽中的清洗液体照射超声波的同时向清洗槽供给气体的步骤,以增加溶解在清洗液中的气体的溶解气体浓度 清洗液中的液体达到饱和浓度; 以及向清洗槽内的清洗液照射超声波以清洗浸在清洗槽内的清洗液中的基板的工序。 在将溶解气体浓度提高到饱和浓度的步骤中,将气体供给至清洗槽,以将清洗槽内的清洗液的溶解气体浓度提高至饱和浓度。 此外,在将溶解气体浓度提高到饱和浓度的步骤中,超声波向清洗槽内的清洗液的照射停止。
    • 18. 发明授权
    • Process for treating waste water of flue gas desulfurization
    • 烟气脱硫废水处理工艺
    • US5853598A
    • 1998-12-29
    • US808397
    • 1997-02-28
    • Tsutomu OgoshiYohka TsurumaruHisao TsuboyaTsukasa WatanabeMasao Enami
    • Tsutomu OgoshiYohka TsurumaruHisao TsuboyaTsukasa WatanabeMasao Enami
    • C02F1/58B01D53/50C02F1/52C02F1/62C02F1/70
    • B01D53/501C02F1/5245
    • A process for treating waste water of flue gas desulfurization comprising successively adjusting the pH of the waste water to 5 or less, bringing the waste water into contact with a column packed with fine particles of iron, flocculating the waste water, removing formed flocs from the waste water by solid-liquid separation, and optionally, bringing the remaining waste water into contact with a resin for COD adsorption, successively. Hazardous substances, such as oxidative substances, peroxosulfuric acid, iodic acid, heavy metals such as copper and lead, and non-metallic substances such as selenium compounds and fluorites, can be removed simultaneously and efficiently from the waste water of flue gas desulfurization containing these hazardous substances by using the process which is a simplified waste water disposal system. Water having an excellent quality for a long time can be obtained by the process because deterioration of a resin for COD adsorption by oxidative substances such as peroxosulfuric acid and iodic acid can be prevented. Thus, an easy and efficient process for treating waste water of flue gas desulfurization can be provided.
    • 一种处理烟气脱硫废水的方法,包括将废水的pH值依次调整到5以下,使废水与填充有铁细小颗粒的柱接触,使废水絮凝,将形成的絮凝物从 依次通过固液分离的废水,以及任选地使残留的废水与用于COD吸附的树脂接触。 有害物质如氧化物质,过氧硫酸,碘酸,重金属如铜和铅,以及非金属物质如硒化合物和萤石,可以从含有这些物质的烟道气脱硫废水中同时有效地除去 通过使用简化的废水处理系统的方法来处理有害物质。 通过该过程可以获得长时间优质的水,因为可以防止由氧化物质如过氧硫酸和碘酸对用于COD吸附的树脂的劣化。 因此,可以提供一种用于处理烟道气脱硫废水的简单有效的方法。