公开(公告)号：US5820819A

公开(公告)日：1998-10-13

申请号：US697187

申请日：1996-08-20

申请人： Koji Tanabe ,  Hidesato Mabuchi ,  Yukio Tomita ,  Akira Usami ,  Katsutoshi Hashima ,  Hiroshi Kondo ,  Ryuichiro Ebara ,  Yoshikazu Yamada ,  Kazuhide Yamauchi ,  Masuo Matsumoto

发明人： Koji Tanabe ,  Hidesato Mabuchi ,  Yukio Tomita ,  Akira Usami ,  Katsutoshi Hashima ,  Hiroshi Kondo ,  Ryuichiro Ebara ,  Yoshikazu Yamada ,  Kazuhide Yamauchi ,  Masuo Matsumoto

IPC分类号： E04H12/28 ,  C22C38/00 ,  C22C38/28 ,  C22C38/50 ,  C22C38/54 ,  C22C38/14

CPC分类号： C22C38/50

摘要： The present invention has an object to provide a steel for a chimney or a gas duct, which is excellent in pitting resistance and rust adhesion in a corrosive environment caused by combustion waste gas in a plant in which the combustion of natural gas occurs. Pitting resistance and rust adhesion are remarkably improved in the steel of the present invention which steel is prepared by using a 5% Cr steel as the base, while reducing an impurity sulfur to not more than 0.010 wt. %, adding titanium within a range of 0.005 to 0.05 wt. %, and further adding nickel alone within a range of 1.0 to 2.5 wt. %, or adding molybdenum alone within a range of 0.10 to 1.0 wt. %, or adding in combination therewith trace amount of copper or molybdenum within a range of 0.10 to 1.0 wt. %.

摘要翻译： 本发明的目的是提供一种用于烟囱或气体管道的钢，其在由天然气燃烧发生的工厂中的燃烧废气引起的腐蚀环境中具有优异的耐点蚀性和防锈性。 通过使用5％Cr钢作为基底制备钢，本发明的钢中的耐点蚀性和防锈性显着提高，同时将杂质硫还原为不大于0.010重量％。 ％，在0.005〜0.05重量％的范围内添加钛。 ％，进一步在1.0〜2.5重量％的范围内添加镍。 或者在0.10〜1.0重量％的范围内单独添加钼。 ％，或加入其中痕量的铜或钼在0.10〜1.0重量％的范围内。 ％。

公开(公告)号：US07724456B2

公开(公告)日：2010-05-25

申请号：US10590093

申请日：2004-12-27

申请人： Kazuhide Yamauchi ,  Kiyoshi Toyamori ,  Takayoshi Shino ,  Toru Kato

发明人： Kazuhide Yamauchi ,  Kiyoshi Toyamori ,  Takayoshi Shino ,  Toru Kato

IPC分类号： G02B5/04

CPC分类号： G01N21/8806 ,  G01N21/951 ,  G01N21/952 ,  G01N2021/8887

摘要： A multidirectional simultaneous observation optical system is composed of, as shown in FIG. 2, side image acquiring prism systems (145A, 145B) and so forth for acquiring side images of an object (11) and bottom image acquiring prism system (185F) for acquiring a bottom image. The prism system (145A) and so forth include optical path direction changing prisms (14A, 14B, 18F) and so forth respectively. An open space for acquiring the top image is defined directly above the object (11). The optical paths of the light beams emerging from the prism system (145A) and so forth extend upward from the object (11), and are so disposed as not to be blocked by the other prism systems. As a result, the object can be accurately observed from various directions simultaneously.

摘要翻译： 多方向同时观察光学系统由如下构成： 2，用于获取用于获取底部图像的物体（11）和底部图像获取棱镜系统（185F）的侧面图像的侧面图像获取棱镜系统（145A，145B）等。 棱镜系统（145A）等分别包括光路方向改变棱镜（14A，14B，18F）等。 用于获取顶部图像的开放空间被直接定义在对象（11）的正上方。 从棱镜系统（145A）出射的光束的光路等从物体（11）向上延伸，并且被设置成不被其它棱镜系统阻挡。 结果，可以从各个方向同时精确地观察物体。

公开(公告)号：US07723703B2

公开(公告)日：2010-05-25

申请号：US11885174

申请日：2005-02-28

申请人： Kazuhide Yamauchi ,  Kiyoshi Toyamori ,  Takayoshi Shino ,  Toru Kato

发明人： Kazuhide Yamauchi ,  Kiyoshi Toyamori ,  Takayoshi Shino ,  Toru Kato

IPC分类号： A61N5/00

CPC分类号： B23K26/10 ,  B23K26/037 ,  B23K26/0652 ,  B23K26/067 ,  B23K26/0876 ,  B29C71/04 ,  B29C2035/0827 ,  B29C2035/0838

摘要： A system for multidirectional electromagnetic wave irradiation of an object to be processed has at least one of a side face irradiation prism system capable of irradiating a top face and one, two or more side faces of the object, and a bottom face irradiation prism system capable of irradiating a bottom face of the object. The side face irradiation prism system has an optical path direction changing prism placed so that each of the optical paths through which electromagnetic waves entering the optical path from above travel extends via the optical path direction changing prism to reach the side face of the object, without being obstructed. In this way, a laser machining apparatus or the like can be implemented which can simultaneously irradiate the faces of the object to be processed with electromagnetic waves with accuracy without moving the object to be processed.

摘要翻译： 用于被处理物体的多向电磁波照射的系统具有能够照射物体的顶面和一个或两个以上侧面的侧面照射棱镜系统中的至少一个，以及能够 照射物体的底面。 侧面照射棱镜系统具有光路方向改变棱镜，其被设置为使得从上方行进入光路的电磁波经由光路方向改变棱镜延伸到通过物体的侧面的每个光路不具有 被阻塞 以这种方式，可以实现激光加工设备等，其可以同时以精确的方式以电磁波照射被处理物体的面，而不移动要处理的物体。

公开(公告)号：US20080191150A1

公开(公告)日：2008-08-14

申请号：US11885174

申请日：2005-02-28

申请人： Kazuhide Yamauchi ,  Kiyoshi Toyamori ,  Takayoshi Shino ,  Toru Kato

发明人： Kazuhide Yamauchi ,  Kiyoshi Toyamori ,  Takayoshi Shino ,  Toru Kato

IPC分类号： G21G5/00

CPC分类号： B23K26/10 ,  B23K26/037 ,  B23K26/0652 ,  B23K26/067 ,  B23K26/0876 ,  B29C71/04 ,  B29C2035/0827 ,  B29C2035/0838

摘要： A system 100 for multidirectional electromagnetic wave irradiation of an object to be processed in accordance with the present invention has at least one of a side face irradiation prism system 145A and soon capable of irradiating a top face and one, two or more side faces of an object 11 to be processed with electromagnetic waves from an electromagnetic wave generation source 200, and a bottom face irradiation prism system 185F capable of irradiating a bottom face of the object 11 to be processed with electromagnetic waves. The side face irradiation prism system 145A and so on have an optical path direction changing prism 14A and so on, and are placed so that each of the optical paths through which electromagnetic waves entering the optical path from above travel extends via the optical path direction changing prism 14A or the like to reach sideways the side face of the object 11 to be processed, without being obstructed. The electromagnetic wave generation source is arranged so as to be able to generate electromagnetic waves from right above each of the prism system 145A and so on toward the prism system. In this way, a laser machining apparatus or the like can be implemented which can simultaneously irradiate the faces of the object to be processed with electromagnetic waves with accuracy without moving the object to be processed.

摘要翻译： 用于根据本发明的待处理物体的多向电磁波照射的系统100具有侧面照射棱镜系统145A中的至少一个，并且很快能够照射第一面照射棱镜系统的顶面和一个或两个或更多个侧面 用来自电磁波发生源200的电磁波进行处理的物体11以及能够用电磁波照射被处理物体11的底面的底面照射棱镜系统185F。 侧面照射棱镜系统145A等具有光路方向改变棱镜14A等，并且被配置为使得从上方行进入光路的电磁波经由光路延伸的每个光路 方向改变棱镜14A或类似物，以不被阻碍地到达要处理的物体11的侧面的侧面。 电磁波发生源被布置成能够从棱镜系统145A的右侧上方朝向棱镜系统产生电磁波。 以这种方式，可以实现激光加工设备等，其可以同时以精确的方式以电磁波照射被处理物体的面，而不移动要处理的物体。

公开(公告)号：US20070279622A1

公开(公告)日：2007-12-06

申请号：US10590093

申请日：2004-12-27

申请人： Kazuhide Yamauchi ,  Kiyoshi Toyamori ,  Takayoshi Shino ,  Toru Kato

发明人： Kazuhide Yamauchi ,  Kiyoshi Toyamori ,  Takayoshi Shino ,  Toru Kato

IPC分类号： G01N21/00

CPC分类号： G01N21/8806 ,  G01N21/951 ,  G01N21/952 ,  G01N2021/8887

摘要： A multidirectional simultaneous observation optical system is composed of, as shown in FIG. 2, side image acquiring prism systems (145A, 145B) and so forth for acquiring side images of an object (11) and bottom image acquiring prism system (185F) for acquiring a bottom image. The prism system (145A) and so forth include optical path direction changing prisms (14A, 14B, 18F) and so forth respectively. An open space for acquiring the top image is defined directly above the object (11). The optical paths of the light beams emerging from the prism system (145A) and so forth extend upward from the object (11), and are so disposed as not to be blocked by the other prism systems. As a result, the object can be accurately observed from various directions simultaneously.

摘要翻译： 多方向同时观察光学系统由如下构成： 2，用于获取用于获取底部图像的物体（11）和底部图像获取棱镜系统（185F）的侧面图像的侧面图像获取棱镜系统（145A，145B）等。 棱镜系统（145A）等分别包括光路方向改变棱镜（14A，14B，18F）等。 用于获取顶部图像的开放空间被直接定义在对象（11）的正上方。 从棱镜系统（145A）出射的光束的光路等从物体（11）向上延伸，并被设置成不被其它棱镜系统阻挡。 结果，可以从各个方向同时精确地观察物体。

公开(公告)号：US20070241815A1

公开(公告)日：2007-10-18

申请号：US11660136

申请日：2004-10-28

申请人： Hifumi Noto ,  Kazuhide Yamauchi ,  Yoshihiro Hamamatsu ,  Tomokazu Hamada ,  Masatoshi Nakayama

发明人： Hifumi Noto ,  Kazuhide Yamauchi ,  Yoshihiro Hamamatsu ,  Tomokazu Hamada ,  Masatoshi Nakayama

IPC分类号： H03F1/30

CPC分类号： H03F1/3276 ,  H03F1/3223 ,  H03F2200/468

摘要： A linearizer changes a gain characteristic to a valley characteristic in which a gain reduces and then increases. The linearizer includes: a signal path in which an RF signal input terminal (1), an input side bias blocking capacitor (4), a diode pair (8, 12) including diodes having opposite polarities to each other, an output side bias blocking capacitor (5), and an RF signal output terminal (2) in series in the stated order; a bias circuit in which a resistor is provided between and a signal path formed between the input side bias blocking capacitor (4) and the diode pair (8, 12) and a bias terminal (3); an RF short-circuiting capacitor (6) whose one end is connected with the bias circuit between the bias terminal (3) and the resistor (7) and whose other end is grounded; and a DC feed inductor (11) whose one end is connected with the signal path between the diode pair (8, 12) and the output side bias blocking capacitor (5) and whose other end is grounded.

摘要翻译： 线性化器将增益特性改变为增益减小然后增加的谷特性。 线性化装置包括：信号路径，其中RF信号输入端（1），输入侧偏置阻塞电容（4），二极管对（8,12）包括彼此极性相反的二极管，输出侧偏压 电容器（5）和RF信号输出端子（2）按照所述顺序串联; 偏置电路，其中设置电阻器和形成在输入侧偏置阻断电容器（4）和二极管对（8,12）之间的信号路径和偏置端子（3）; RF短路电容器（6），其一端与偏置端子（3）和电阻器（7）之间的偏置电路连接，另一端接地; 和一个直流馈电电感（11），其一端与二极管对（8,12）和输出侧偏压电容（5）之间的信号通路连接，另一端接地。