公开(公告)号：US07834160B2

公开(公告)日：2010-11-16

申请号：US11508261

申请日：2006-08-23

申请人： Mitsuhiro Okuda ,  Kazuaki Nishio ,  Ichiro Yamashita

发明人： Mitsuhiro Okuda ,  Kazuaki Nishio ,  Ichiro Yamashita

IPC分类号： C07K17/00 ,  H01L25/00

CPC分类号： C07K14/47 ,  C07K1/32 ,  C07K14/79

摘要： An object of the present invention is to obtain a zinc oxide-protein complex which can be a source of nanoparticles of zinc oxide utilizing a protein having a cavity inside thereof. The process for producing a zinc oxide-protein complex according to the present invention includes a hydrogen peroxide addition step for adding hydrogen peroxide so that the concentration would be 60 mM or greater and 150 mM or less to a buffer containing a protein having a cavity inside thereof such as ferritin, zinc ion, and ammonia.

摘要翻译： 本发明的目的是获得氧化锌 - 蛋白质复合物，其可以是利用其内部具有空腔的蛋白质的氧化锌纳米颗粒的来源。 根据本发明的制备氧化锌 - 蛋白质复合物的方法包括过氧化氢添加步骤，用于向含有内腔内的蛋白质的缓冲液中加入过氧化氢使其浓度为60mM以上且150mM以下 例如铁蛋白，锌离子和氨。

公开(公告)号：US20050055134A1

公开(公告)日：2005-03-10

申请号：US10933432

申请日：2004-09-03

申请人： Mitsuhiro Okuda ,  Hirokazu Fuchigami

发明人： Mitsuhiro Okuda ,  Hirokazu Fuchigami

IPC分类号： B25J19/06 ,  B25J9/16 ,  G05B19/4061 ,  G05B19/4068 ,  G06F19/00

CPC分类号： G05B19/4061 ,  B25J9/1666 ,  Y02P90/265

摘要： A device for determining an interference region of a robot, capable of determining an interference region/non-interference region and the like on an off-line layout space without difficulty. Geometric data of a robot and peripheral objects is read from a CAD system or the like to be displayed in the form of a layout display, to thereby form a cage region. An initial occupied region is found by calculating a three-dimensional position of each arm at an initial position. An operation simulation is run, and the tree-dimensional positions are repeatedly calculated, thereby finding the aggregate sum of the occupied region. After the robot is moved, a total occupied region G, an overlapping region H, a protruding region K, a non-occupied region M and the like are displayed in different colors, to thereby perform layout correction of a peripheral object, a change of the cage region, etc. It is also possible to judge the presence or absence of the overlapping region H/protruding region K and to search “a hidden non-occupied region” by way of a sectional display in which points A, B and C are designated.

摘要翻译： 一种用于确定机器人的干扰区域的装置，其能够在离线布局空间上难以确定干扰区域/非干扰区域等。 从CAD系统等读取机器人和周边物体的几何数据，以布局显示的形式显示，从而形成笼状区域。 通过计算每个臂在初始位置的三维位置来找到初始占用区域。 运行运算模拟，重复计算树维位置，从而求出占用区域的总和。 在移动机器人之后，以不同的颜色显示总占用区域G，重叠区域H，突出区域K，非占用区域M等，从而进行外围物体的布局校正， 笼状区域等。还可以判断重叠区域H /突出区域K的存在或不存在，并且通过分段显示来搜索“隐藏的非占用区域”，其中点A，B和C 被指定。

公开(公告)号：US06445979B1

公开(公告)日：2002-09-03

申请号：US09705885

申请日：2000-11-06

申请人： Toshihiko Inoue ,  Mitsuhiro Okuda ,  Akihiro Terada

发明人： Toshihiko Inoue ,  Mitsuhiro Okuda ,  Akihiro Terada

IPC分类号： G05B1500

CPC分类号： B25J9/1684 ,  G05B2219/37009 ,  G05B2219/4719

摘要： An operation line tracking device for a robot for performing an operation with a tool mounted on the robot while tracking an operation line using a sensor wherein a detection failure of the sensor is restored by automatically changing or resetting a detecting condition of the sensor when the sensor fails in detecting the operation line. If a detection failure occurs for a cause of excessive or too small quantity of light impinged on light receiving elements of a laser sensor, a laser output intensity is automatically changed. If a detection failure occurs for a cause of basing of the quantity of the impinged light, an orientation of the laser sensor is automatically adjusted. If a detection failure occurs for a cause of biasing of position of the operation line in the visual field of the laser sensor, the position of the laser sensor is automatically adjusted. If a detection failure occurs for a cause of detection of an unexpected line, an algorithm for detecting the operation line is replaced with another one. Thus, the detecting condition is automatically changed or reset in accordance with the cause of the detection failure, and the tracking operation of the robot is automatically restarted.

摘要翻译： 一种用于机器人的操作线跟踪装置，用于使用安装在机器人上的工具执行操作，同时使用传感器跟踪操作线，其中当传感器的传感器自动改变或重置传感器的检测条件时，传感器的检测故障恢复 未能检测到操作线。 如果因激光传感器的光接收元件入射过多或过少的光线而导致检测失败，则激光输出强度自动变化。 如果由于撞击光量的基础而发生检测故障，则激光传感器的方位自动调整。 如果在激光传感器的视野中对操作线的位置偏置的原因发生检测失败，则自动调整激光传感器的位置。 如果检测到意外行的检测失败，则用另一个检测操作线的算法进行替换。 因此，根据检测失败的原因自动地改变或复位检测条件，并且机器人的跟踪操作被自动重启。

公开(公告)号：US08770247B2

公开(公告)日：2014-07-08

申请号：US13293491

申请日：2011-11-10

申请人： Masaru Oda ,  Kazuhisa Otsuka ,  Mitsuhiro Okuda ,  Eiichirou Nagasue

发明人： Masaru Oda ,  Kazuhisa Otsuka ,  Mitsuhiro Okuda ,  Eiichirou Nagasue

IPC分类号： B32B41/00

CPC分类号： B32B37/30 ,  B05B12/20 ,  B05B13/0431 ,  B05C21/005 ,  B05D1/32 ,  B25J9/0084 ,  B25J11/0075 ,  B25J15/0066 ,  B32B37/0046 ,  B32B37/12

摘要： In a masking system a robot performs first conveyance work of making an object gripping unit grip an object and set the object at a predetermined position based on positional information of the object which was detected by a first detection unit, coating work of making a coating unit coat an adhesive on a masking location of the object which is set at the predetermined position, and second conveyance work of making a masking piece gripping unit adhere a masking piece to the masking location of the object based on positional information of the masking piece which was detected by a second detection unit.

摘要翻译： 在掩蔽系统中，机器人执行第一传送工作，使得对象夹持单元抓住物体，并且基于由第一检测单元检测到的物体的位置信息将物体设置在预定位置，并且将涂布单元 在设置在预定位置的物体的掩蔽位置上涂覆粘合剂，并且基于掩蔽片的位置信息，使掩蔽片夹持单元将掩模件粘附到物体的掩蔽位置的第二传送工作， 由第二检测单元检测。

公开(公告)号：US07204999B2

公开(公告)日：2007-04-17

申请号：US10702459

申请日：2003-11-07

申请人： Mitsuhiro Okuda ,  Hideyuki Yoshimura ,  Ichiro Yamashita

发明人： Mitsuhiro Okuda ,  Hideyuki Yoshimura ,  Ichiro Yamashita

IPC分类号： A61K9/50

CPC分类号： B82Y30/00 ,  B82Y10/00 ,  C01G3/02 ,  C01G37/02 ,  C01G53/04 ,  C01P2004/04 ,  C01P2004/64 ,  H01L21/28273

摘要： The method of the production of a nanoparticle of the present invention includes a step of forming a nanoparticle including a compound of ametal ion in a cavity part of aprotein, in a solution containing the protein having the cavity part therein, the metal ion, and a carbonate ion and/or a hydrogen carbonate ion. Examples of the aforementioned compound include e.g., a hydroxide. The aforementioned metal ion is preferably any one of a nickel ion (Ni2+), a chromium ion (Cr2+) or a copper ion (Cu2+). According to the aforementioned method, nanoparticles having a uniform particle diameter can be produced.

摘要翻译： 本发明的纳米粒子的制造方法包括在含有蛋白质的溶液中形成含有离子的化合物的纳米粒子的步骤，所述纳米粒子在空泡部分的蛋白质中，含有其中具有空腔部分的蛋白质，金属离子和 碳酸根离子和/或碳酸氢根离子。 上述化合物的实例包括例如氢氧化物。 上述金属离子优选为镍离子（Ni 2+ +），铬离子（Cr 2+ +）或铜离子（Cu 2 O 3）中的任一种 + ）。 根据上述方法，可以制造具有均匀粒径的纳米粒子。

公开(公告)号：US07149602B2

公开(公告)日：2006-12-12

申请号：US10954606

申请日：2004-10-01

申请人： Atsushi Watanabe ,  Mitsuhiro Okuda

发明人： Atsushi Watanabe ,  Mitsuhiro Okuda

IPC分类号： G06F19/00

CPC分类号： B25J9/1684 ,  G05B2219/4705

摘要： Provided is a correction data checking system, for robots, which makes it easy to reveal the cause of a machining defect. A laser machining head and a distance sensor or a sensor for detecting a work line are attached to the distal end of a robot arm. A robot is driven based on a teaching program, and a copying control technique is implemented based on information sent from the sensor so that the distance between the laser machining head and a workpiece will be equal to a set value. A path of taught positions of the laser machining head and a path of actual positions thereof are displayed in comparison with each other on a display of a teaching console or the like. Moreover, the difference between the taught position and actual position is calculated and displayed. As both the position commanded by the teaching program and the actual position derived from the copying control technique are displayed, if a machining defect occurs, the machining defect is checked to see if it is a problem attributable to the sensor or a problem attributable to the workpiece or a jig. The cause of the machining defect is then revealed. Consequently, the cause of a machining defect can be quickly revealed and dealt with at a working site.

摘要翻译： 提供了一种用于机器人的校正数据检查系统，其易于揭示加工缺陷的原因。 激光加工头和距离传感器或用于检测工作线的传感器安装在机器人手臂的远端。 基于教学程序驱动机器人，并且基于从传感器发送的信息实现复印控制技术，使得激光加工头与工件之间的距离将等于设定值。 激光加工头的教导位置的路径和实际位置的路径在教学控制台等的显示器上相互比较地显示。 此外，计算并显示教导位置和实际位置之间的差异。 由于显示了由教学程序命令的位置和从复制控制技术导出的实际位置，如果发生加工缺陷，则检查加工缺陷，看是否是由传感器引起的问题或归因于 工件或夹具。 然后揭示加工缺陷的原因。 因此，加工缺陷的原因可以在工作现场快速揭示和处理。

公开(公告)号：US06763284B2

公开(公告)日：2004-07-13

申请号：US10001991

申请日：2001-12-05

申请人： Atsushi Watanabe ,  Tetsuya Kosaka ,  Katsutoshi Takizawa ,  Fumikazu Warashina ,  Kazunori Ban ,  Makoto Yamada ,  Akihiro Terada ,  Mitsuhiro Okuda

发明人： Atsushi Watanabe ,  Tetsuya Kosaka ,  Katsutoshi Takizawa ,  Fumikazu Warashina ,  Kazunori Ban ,  Makoto Yamada ,  Akihiro Terada ,  Mitsuhiro Okuda

IPC分类号： G05B1900

CPC分类号： B25J9/1697 ,  G05B19/4202 ,  G05B2219/35506 ,  G05B2219/36415 ,  G05B2219/37288 ,  G05B2219/37571 ,  G05B2219/37572 ,  G05B2219/40005

摘要： An image of a reference object is captured using a camera and displayed. A measurement starting point is pointed by an image position pointing device. A corresponding view line is obtained using a position on the image and a position and a direction of the camera, a robot approaches to the reference object such that it does not deviate from a projecting direction to move to a position suitable for measurement. A light is projected on the reference object and measurement of an inclination of a face of the object in the vicinity of a measuring point is started. An image including a bright line image on the reference object is photographed and 3-dimensional positions of points sequentially measured along a working line. A movement path of a robot is created using these positions as teaching points for a working robot.

摘要翻译： 使用相机拍摄参考对象的图像并进行显示。 测量起点由图像位置指示装置指向。 使用图像上的位置和相机的位置和方向获得对应的视线，机器人接近参考对象，使得其不偏离投影方向移动到适合于测量的位置。 光照射在基准对象上，开始测量对象附近的测量点的面的倾斜度。 拍摄包括参考物体上的亮线图像的图像，并沿着工作线顺序地测量点的3维位置。 使用这些位置创建机器人的移动路径作为工作机器人的教导点。

公开(公告)号：US5887122A

公开(公告)日：1999-03-23

申请号：US572622

申请日：1995-12-14

申请人： Fumikazu Terawaki ,  Mitsuhiro Okuda

发明人： Fumikazu Terawaki ,  Mitsuhiro Okuda

IPC分类号： B25J9/10 ,  B23K9/095 ,  B23K9/12 ,  B23K9/127 ,  B25J13/08 ,  G05B19/4093 ,  G05D3/12 ,  G01N21/86

CPC分类号： B23K9/1274

摘要： A method of controlling a robot to perform a weaving action and a tracking action using a non-contact sensor. When a weaving start command with a condition of a cycle Tw is issued, a laser sensor starts scanning in a cycle Tw/2n in synchronism with the start of weaving action, and outputs sensor data for every scanning time to be stored in a memory. After starting the weaving action, the robot performs a weaving action with a welding line as a reference path, until the tool reaches the weaving extreme (Sm, Sn+m, S2n+m, . . . ) or the termination of the weaving according to the weaving condition. Since a timed relationship between the weaving action and the scanning action of the laser sensor is known, the robot position corresponding to detection data can be calculated, based on which it is possible to successively determine a target position of the robot movement by adding a weaving amount for each detection point. The weaving action is synchronized with the scanning of the laser sensor every time the robot reaches the position of the weaving extreme Sm, Sn+m, . . . to pause and the weaving action is continued tracing the welding line as a reference path.

摘要翻译： 一种使用非接触传感器控制机器人执行织造动作和跟踪动作的方法。 当发出具有循环Tw的条件的织造开始命令时，激光传感器以与编织动作开始同步的循环Tw / 2n开始扫描，并且将每个扫描时间的传感器数据输出以存储在存储器中。 在开始织造动作之后，机器人以焊接线作为基准路径进行编织动作，直到工具达到编织极限（Sm，Sn + m，S2n + m ...）或编织的终止为止 到织造条件。 由于织造动作与激光传感器的扫描动作之间的定时关系是已知的，因此可以计算与检测数据对应的机器人位置，由此可以通过添加编织来连续地确定机器人移动的目标位置 每个检测点的数量。 每当机器人到达编织极限Sm，Sn + m的位置时，编织动作与激光传感器的扫描同步。 。 。 暂停，织造动作继续追踪焊接线作为参考路径。

公开(公告)号：US5486679A

公开(公告)日：1996-01-23

申请号：US284474

申请日：1994-08-04

申请人： Masayuki Hamura ,  Mitsuhiro Okuda ,  Yuuki Makihata

发明人： Masayuki Hamura ,  Mitsuhiro Okuda ,  Yuuki Makihata

IPC分类号： B23K9/00 ,  B23K9/06 ,  B23K9/067 ,  B23K9/095 ,  B23K9/12

CPC分类号： B23K9/0672

摘要： An arc welding control method for a welding robot wherein a welding current and a welding voltage are controlled at the start of arc welding so as to prevent the formation of a molten metal pool. When arc start is instructed, a welding command voltage E and a welding command current I are set to initial values E0 and I0, respectively (S4). The welding command voltage E is gradually increased until an arc is generated (S6). When an arc is generated, the welding command voltage E and the welding command current I are set to the stopped-state voltage Es and the stopped-state current Is of the robot, respectively (S9). Thereafter, as robot acceleration processing progresses, the welding command voltage E and current I are gradually increased with increase in the robot moving speed (S11). When a robot acceleration time has passed, the welding command voltage E and the welding command current I are set to the normal welding voltage Ec and the normal welding current Ic, respectively.

摘要翻译： PCT No.PCT / JP93 / 01708 Sec。 371日期：1994年8月4日 102（e）日期1994年8月4日PCT提交1993年11月22日PCT公布。 公开号WO94 / 13423 日期1994年6月23日。一种焊接机器人的电弧焊接控制方法，其中在电弧焊接开始时控制焊接电流和焊接电压，以防止熔融金属池的形成。 当指示电弧启动时，焊接指令电压E和焊接指令电流I分别设定为初始值E0和I0（S4）。 焊接指令电压E逐渐增加，直到产生电弧（S6）。 当产生电弧时，焊接指令电压E和焊接指令电流I分别设定为机器人的停止状态电压Es和停止状态电流Is（S9）。 此后，当机器人加速处理进行时，随着机器人移动速度的增加，焊接指令电压E和电流I逐渐增加（S11）。 当机器人加速时间过去时，焊接指令电压E和焊接指令电流I分别设定为正常焊接电压Ec和正常焊接电流Ic。