公开(公告)号：US08446924B2

公开(公告)日：2013-05-21

申请号：US13418653

申请日：2012-03-13

申请人： Norihito Kawaguchi ,  Ryusuke Kawakami ,  Kenichiro Nishida ,  Miyuki Masaki ,  Masaru Morita

发明人： Norihito Kawaguchi ,  Ryusuke Kawakami ,  Kenichiro Nishida ,  Miyuki Masaki ,  Masaru Morita

IPC分类号： H01S3/10

CPC分类号： B23K26/0608 ,  B23K26/0676 ,  B23K26/0738 ,  B23K26/082 ,  H01L21/02532 ,  H01L21/02678 ,  H01L21/02686 ,  H01L21/02691 ,  H01L21/268

摘要： In the case of a lens array type homogenizer optical system, the incident angle and intensity of a laser beam 1 entering a large-sized lens (long-axis condenser lens 22) of a long-axis condensing optical system, which is provided on the rear side, are changed for every shot by performing laser irradiation while long-axis lens arrays 20a and 20b are reciprocated in a direction corresponding to a long axial direction of a linear beam (X-direction). Therefore, vertical stripes are significantly reduced. Further, the incident angle and intensity of a laser beam 1 entering a large-sized lens (projection lens 30) of a short-axis condensing optical system, which is provided on the rear side, are changed for every shot by performing laser irradiation while short-axis lens arrays 26a and 26b are reciprocated in a direction corresponding to a short axial direction of a linear beam (Y-direction). Therefore, horizontal stripes are significantly reduced.

摘要翻译： 在透镜阵列式均化器光学系统的情况下，入射到入射角度和强度的激光束1进入长轴聚光光学系统的大尺寸透镜（长轴聚光透镜22） 通过在长轴透镜阵列20a和20b沿与线性光束（X方向）的长轴方向对应的方向往复运动的同时通过执行激光照射而改变每一次的后侧。 因此，垂直条纹显着减少。 此外，通过进行激光照射来改变进入设置在后侧的短轴聚光光学系统的大尺寸透镜（投影透镜30）的激光束1的入射角度和强度， 短轴透镜阵列26a和26b在与线性光束（Y方向）的短轴方向对应的方向上往复运动。 因此，水平条纹显着减少。

公开(公告)号：US20110097907A1

公开(公告)日：2011-04-28

申请号：US13001311

申请日：2009-06-19

申请人： Norihito Kawaguchi ,  Ryusuke Kawakami ,  Kenichiro Nishida ,  Miyuki Masaki ,  Masaru Morita

发明人： Norihito Kawaguchi ,  Ryusuke Kawakami ,  Kenichiro Nishida ,  Miyuki Masaki ,  Masaru Morita

IPC分类号： H01L21/268 ,  B23K26/06

CPC分类号： H01L21/02678 ,  B23K26/066 ,  B23K26/0738 ,  C30B1/023 ,  C30B29/06

摘要： Disclosed are a laser annealing method and apparatus capable of forming a crystalline semiconductor thin film on the entire surface of a substrate without sacrificing the uniformity of crystallinity in a seam portion in a long-axis direction of laser light, the crystalline semiconductor thin film having good properties and high uniformity to an extent that the seam portion is not visually recognizable.During the irradiation of a linear beam, portions corresponding to the edges of the linear beam are shielded by a mask 10 which is disposed on the optical path of a laser light 2, and the mask 10 is operated so that the amount of shielding is periodically increased and decreased.

摘要翻译： 公开了一种激光退火方法和装置，其能够在不牺牲激光长轴方向的接缝部分中的结晶度的均匀性的基板的整个表面上形成结晶半导体薄膜，该结晶半导体薄膜具有良好的 性能和高均匀性，使得接缝部分不能在视觉上识别。 在直线光束的照射期间，对应于直线光束的边缘的部分被设置在激光2的光路上的掩模10屏蔽，并且掩模10被操作以使屏蔽量周期性地 增加和减少。

公开(公告)号：US20100244485A1

公开(公告)日：2010-09-30

申请号：US12679650

申请日：2008-09-30

申请人： Yukio Tanaka ,  Masayuki Taguchi ,  Yasunari Sakai ,  Masaru Morita ,  Natsuki Kotera ,  Akikazu Hashizume

发明人： Yukio Tanaka ,  Masayuki Taguchi ,  Yasunari Sakai ,  Masaru Morita ,  Natsuki Kotera ,  Akikazu Hashizume

IPC分类号： B62D25/20

CPC分类号： B62D21/157 ,  B60J5/0437 ,  B60J5/0443 ,  B60J5/0462 ,  B62D25/2036

摘要： The present invention is directed to a vehicle body structure in which a collision load applied to one of vehicle doors from a lateral side thereof is received by a load receiving member of a body via an impact beam and a door box of the door and is transmitted from the load receiving member to a cross member. The load receiving member includes a load receiving pipe that is formed as a linear tubular body disposed between the right and left doors so as to extend in a vehicle widthwise direction and is capable of transmitting the collision load from the door box of one of the doors to a door box of the other of the doors, and connecting portions that are capable of supporting the load receiving pipe at positions adjacent to the right and left doors and connecting the load receiving pipe to the cross member.

摘要翻译： 本发明涉及一种车身结构，其中从其侧面施加到车门中的一个的碰撞载荷通过车身的承载构件经由撞击梁和门的门箱被接收，并且被传送 从负载接收构件到横梁。 负载接收部件包括负载接收管，该负载接收管形成为在左右门之间设置的线性管状体，以沿车宽方向延伸，并且能够从门的一个门的门箱传递碰撞负载 连接到另一个门的门盒，以及能够将负载接收管支撑在与左门和左门相邻的位置的连接部分，并将负载接收管连接到横梁。

公开(公告)号：US07284975B2

公开(公告)日：2007-10-23

申请号：US11183913

申请日：2005-07-19

申请人： Masaru Morita

发明人： Masaru Morita

IPC分类号： B29B13/00

CPC分类号： B29C59/007 ,  B26D3/085 ,  B26F1/3806 ,  B29L2031/3008 ,  B60R21/2165 ,  Y10T83/0348

摘要： A technique and apparatus for effectively constructing a cover for covering a vehicle airbag is provided. An ultrasonic machine is used that includes an ultrasonic machining blade for machining a tear line in the cover rear surface of the airbag cover. First and second transmitting displacement sensors are disposed on the opposite side of the cover rear surface of the airbag cover so as to be opposed to a cutting edge of the ultrasonic machining blade with the airbag cover interposed therebetween. The sensors directly sense the distance between the cutting edge of the machining blade and each of the first and second displacement sensors and through the airbag cover. A control section controls the relative position of the cutting edge with respect to the airbag cover, based on the sensed results by the first and second displacement sensors.

摘要翻译： 提供一种用于有效地构造用于覆盖车辆安全气囊的盖的技术和装置。 使用超声波机械，其包括用于在气囊盖的盖后表面中加工撕裂线的超声波加工刀片。 第一和第二传递位移传感器设置在安全气囊盖的盖后表面的相反侧上，以便与超声波加工刀片的切割边缘相对置，其中安放有气囊盖。 传感器直接感测加工刀片的切削刃与第一和第二位移传感器中的每一个之间的距离，并通过安全气囊盖。 基于由第一和第二位移传感器的感测结果，控制部分控制切割边缘相对于气囊盖的相对位置。