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    • 1. 发明专利
    • Purification method for sewage
    • 净化方法
    • JPS5745385A
    • 1982-03-15
    • JP12007680
    • 1980-08-30
    • Sakurai ArataShinobu SatoUeki Eisaku
    • SATOU SHINOBU
    • C02F1/46C25C1/00
    • PURPOSE: To purify various kinds of waste water easily and efficiently by applying electric shock to waste sewage to allow the heavy metal ions contained therein to crystallize and to remove them, thence allowing other impurities to crystallize.
      CONSTITUTION: Static electricity of about 500,000W1,000,000V is intermittently irradiated to waste water of plating plants or the like to allow the ionized heavy metals in the sewage to crystallize. Thence, metallic bars for recovering heavy metals are charged to stuck with the heavy metals, after which the heavy metal recovery bar are removed. Then, the 1st crystallizing chemical liquid consisting of deolite, pearlite, ferrous iron, ferric iron, aluminum sulfate, the 2nd crystallizing chemical liquid consisting of caustic soda, sodium nitrite, sodium phoshate, and the 3rd crystallizing chemical liquid of calcium carbonate are successively charged, to allow the impurities other than heavy metals to crystallize, thereby removing thses impurities. By this method, various kinds of sewage waste water are purified with good efficiency.
      COPYRIGHT: (C)1982,JPO&Japio
    • 目的:通过对废污水进行电击,使其中所含的重金属离子结晶并除去,可以容易而有效地净化各种废水,从而使其他杂质结晶。 构成:约500,000-1,000,000V的静电被间歇地照射到电镀废水等,以使污水中的电离重金属结晶。 然后,将用于回收重金属的金属棒装入重金属中,然后除去重金属回收棒。 然后,将由脱铝石,珠光体,亚铁,三价铁,硫酸铝构成的第一结晶化学液体,由苛性钠,亚硝酸钠,磷酸钠组成的第二结晶化学液体和碳酸钙的第三结晶化学液体依次充电 ,使重金属以外的杂质结晶化,除去杂质。 通过这种方法,各种污水废水的净化效率很高。
    • 2. 发明专利
    • Receiving stand for cutting building material
    • 切割建筑材料接收台
    • JP2013031899A
    • 2013-02-14
    • JP2011168966
    • 2011-08-02
    • Shinobu Sato佐藤 忍
    • SATO SHINOBU
    • B25H1/16B27B5/29
    • PROBLEM TO BE SOLVED: To provide a receiving stand for cutting a building material which is extremely marketable and innovative.SOLUTION: The receiving stand for cutting a building material is used for cutting a building material 1 such as a gypsum board, a ceramic-based siding board, a flat plate and a square timber. The receiving stand for cutting a building material includes: a receiving portion 2 for receiving the slid part of the building material when a piece of building material 1 that is positioned at the top of the stacked building materials 1 is slid laterally by a predetermined amount to cut the building material by a cutting tool K; and a lifting portion 4 for lifting the receiving portion 2. The lifting portion 4 includes a stepwise descent mechanism 7 for allowing the receiving portion 2 to descend in a stepwise manner by a distance equivalent to a thickness of the building material 1.
    • 要解决的问题:提供一种用于切割非常市场和创新的建筑材料的接收台。 解决方案:用于切割建筑材料的接收台用于切割建筑材料1,例如石膏板,陶瓷基壁板,平板和方形木材。 用于切割建筑材料的接收台包括:当位于堆叠的建筑材料1的顶部的一件建筑材料1横向滑动预定量时,用于接收建筑材料的滑动部分的容纳部分2 用切割工具K切割建筑材料; 以及用于提升接收部分2的提升部分4.提升部分4包括逐步下降机构7,用于允许接收部分2以逐步的方式下降距离等于建筑材料1的厚度。 版权所有(C)2013,JPO&INPIT
    • 3. 发明专利
    • Purifying device for sewage
    • 净化装置
    • JPS5750593A
    • 1982-03-25
    • JP12648280
    • 1980-09-11
    • Sakurai ArataShinobu SatoUeki Eisaku
    • SATOU SHINOBU
    • C02F1/62C25C1/00
    • Y02P10/234
    • PURPOSE: To remove heavy metals and impurities thoroghly by continuously providing a crystalline heavy metal recovering bar tank by electric shock, a crystallize chemicals charging tank and a settling and storage tank in series in a purifying device for the plating waste liquid.
      CONSTITUTION: The plating waste water is crystallized of heavy metals by an electric shock device 8 of a charging tank 1, and the crystals are stuck on the heavy metal recovering bars 9 of the nexg charging tank 2 and is fed to further charging tank 3. In this tank 3, three kinds of crystallizing chemical liquids are charged by three chargers 10 and the soln. is fed to a settling tank 6. Partition plates 11, 12 are provided on the trailing flow side of the tank 3 and in the tank 6 and the velocity of flow is controlled settleably by flow velocity control pipes 13, 14. Further, the bottom parts of both tanks 3, 6 form slopes, to facilitate the discharging of deposited crystalline impurities.
      COPYRIGHT: (C)1982,JPO&Japio
    • 目的:通过电击连续提供结晶重金属回收棒槽来清除重金属和杂质,在电镀废液净化装置中串联结晶化学品充填罐和沉淀池。 构成:电镀废水通过充电槽1的电击装置8使重金属结晶,并将晶体粘贴在nexg充电槽2的重金属回收棒9上,并供给到另外的充电槽3。 在该罐3中,三种结晶化学液体由三个充电器10和溶胶充电。 被供给到沉淀槽6.分隔板11,12设置在罐3的后流侧和罐6中,并且流速由流速控制管13,14稳定地控制。此外,底部 两个罐3,6的部分形成斜面,以便于沉积的结晶杂质的排出。
    • 7. 发明授权
    • Method for adjusting data insertion degree and data insertion circuit
    • 调整数据插入度和数据插入电路的方法
    • US07151841B2
    • 2006-12-19
    • US09871372
    • 2001-05-31
    • Shinobu Sato
    • Shinobu Sato
    • G06K9/00
    • G06T9/007
    • A VLD decodes MPEG2 data so as to generate RUN and Level therefrom. A multiplication unit multiplies target data to be added to the Level, and sends a multiplied result to an adder. The adder adds the target data to the Level. The VLC codes the MPEG2 data, using the RUN and the Level to which the target data is added. The selector compares the data length of the MPEG2 data which has been decoded by the VLC with the data length of the original MPEG2 data. If those data lengths coincide with each other, the selector selects the MPEG2 data output by the VLC. On the contrary, if those data lengths do not coincide with each other, the selector selects and outputs the original MPEG2 data. A counter counts the number of times the selector has done the selection, while another counts the number of times the selector has selected the data output by the VLC. The comparator compares the counted values of both of the counters, and adjusts the insertion degree based on a result of the comparison.
    • VLD解码MPEG2数据,从而产生RUN和Level。 乘法单元将要添加到Level的目标数据相乘,并将相乘结果发送给加法器。 加法器将目标数据添加到电平。 VLC使用RUN和要添加目标数据的级别对MPEG2数据进行编码。 选择器将由VLC解码的MPEG2数据的数据长度与原始MPEG2数据的数据长度进行比较。 如果这些数据长度彼此一致,则选择器选择由VLC输出的MPEG2数据。 相反,如果这些数据长度不一致,则选择器选择并输出原始MPEG2数据。 计数器对选择器进行选择的次数进行计数,而另一个则计数选择器选择VLC输出的数据的次数。 比较器比较两个计数器的计数值,并根据比较结果调整插入度。
    • 8. 发明授权
    • Welding robot controlling method
    • 焊接机器人控制方法
    • US4590577A
    • 1986-05-20
    • US432785
    • 1982-12-01
    • Satoru NioToyoji HamashimaShinobu Sato
    • Satoru NioToyoji HamashimaShinobu Sato
    • B23K9/127G05B19/42
    • B23K9/1272G05B19/42G05B2219/36417
    • A welding robot controlling method for controlling a welding robot having a welding torch which has a tip thereof directed toward a teaching direction and sensor which intermittently generates a locus correction signal for the tip of the welding torch, comprising, (1) giving the locus correction signal as a resultant vector of an arbitrary number of two-dimensional vectors on a plane which intersects a welding line direction, (2) correcting a locus by controlling the three basic axes of the robot in a direction of a resultant vector which is composed of a predetermined length vector of which direction is parallel to a line connecting two teaching points and which passes through a tip of the welding torch and the locus correction vector, when the locus correction signal is generated, (3) controlling the three basic axes of the robot such that the tip of welding torch moves on a line which is parallel to the line connecting the two teaching points, until a subsequent locus correction signal is again given after completion of the locus correction.
    • 一种焊接机器人控制方法,用于控制焊接机器人,其具有指向教导方向的尖端的焊枪和间歇地产生焊炬尖端的轨迹校正信号的传感器,包括:(1)给出轨迹校正 信号作为在与焊接线方向相交的平面上的任意数量的二维矢量的合成矢量,(2)通过在由合成矢量构成的合成矢量的方向上控制机器人的三个基本轴来校正轨迹, 当生成轨迹校正信号时,其方向平行于连接两个示教点并穿过焊炬的尖端和轨迹校正矢量的预定长度向量,(3)控制三个基本轴 机器人,使得焊炬的尖端在与连接两个教学点的线平行的线上移动,直到随后的轨迹校正信号 完成轨迹校正后,再次给出nal。