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    • 1. 发明申请
    • LASER DEVICE THAT STABLY CONTROLS VERY LOW LASER POWER
    • 稳定的控制非常低的激光功率的激光器件
    • US20110243165A1
    • 2011-10-06
    • US13039715
    • 2011-03-03
    • Masahiro HONDAKoji HayanoAtsushi Mori
    • Masahiro HONDAKoji HayanoAtsushi Mori
    • H01S3/13
    • H01S3/134H01S3/036H01S3/073H01S3/0971
    • A laser device comprises: first and second laser excitation regions that are disposed in series each other; a first power supply unit (PSU1) that injects a first energy into the first laser excitation region; and a second power supply unit (PSU2) that injects a second energy into the second laser excitation region, wherein the first power supply unit injects a predetermined excitation energy equal to or higher than a critical injection energy at which laser oscillation starts into the first laser excitation region as the first energy and the second power supply unit injects energy between a preliminary excitation energy needed for preliminary discharge and the critical injection energy into the second laser excitation region as the second energy, so as to control laser power. Consequently, the laser device can stably output very low laser even though it is a high power laser.
    • 激光装置包括:彼此串联布置的第一和第二激光激发区域; 第一电源单元(PSU1),其向第一激光激发区域注入第一能量; 以及将第二能量注入到所述第二激光激发区域的第二电源单元(PSU2),其中,所述第一电源单元注入等于或高于激光振荡开始到所述第一激光器的临界注入能量的预定激发能量 作为第一能量的激发区域和第二电力供给单元将预备放电所需要的预备激励能量与进入第二激光激励区域的临界注入能量之间的能量注入第二能量,以控制激光功率。 因此,尽管激光装置是高功率激光器,但激光装置可以稳定地输出非常低的激光。
    • 2. 发明授权
    • Laser device that stably controls very low laser power
    • 稳定地控制非常低的激光功率的激光装置
    • US08279902B2
    • 2012-10-02
    • US13039715
    • 2011-03-03
    • Masahiro HondaKoji HayanoAtsushi Mori
    • Masahiro HondaKoji HayanoAtsushi Mori
    • H01S3/00H01S3/13
    • H01S3/134H01S3/036H01S3/073H01S3/0971
    • A laser device comprises: first and second laser excitation regions that are disposed in series each other; a first power supply unit (PSU1) that injects a first energy into the first laser excitation region; and a second power supply unit (PSU2) that injects a second energy into the second laser excitation region, wherein the first power supply unit injects a predetermined excitation energy equal to or higher than a critical injection energy at which laser oscillation starts into the first laser excitation region as the first energy and the second power supply unit injects energy between a preliminary excitation energy needed for preliminary discharge and the critical injection energy into the second laser excitation region as the second energy, so as to control laser power. Consequently, the laser device can stably output very low laser even though it is a high power laser.
    • 激光装置包括:彼此串联布置的第一和第二激光激发区域; 第一电源单元(PSU1),其向第一激光激发区域注入第一能量; 以及将第二能量注入到所述第二激光激发区域的第二电源单元(PSU2),其中,所述第一电源单元注入等于或高于激光振荡开始到所述第一激光器的临界注入能量的预定激发能量 作为第一能量的激发区域和第二电力供给单元将预备放电所需要的预备激励能量与进入第二激光激励区域的临界注入能量之间的能量注入第二能量,以控制激光功率。 因此,尽管激光装置是高功率激光器,但激光装置可以稳定地输出非常低的激光。
    • 3. 发明授权
    • High-power laser unit wherein laser output can be accurately corrected
    • 其中激光输出可被精确校正的大功率激光单元
    • US08428092B2
    • 2013-04-23
    • US13308753
    • 2011-12-01
    • Koji HayanoAtsushi MoriYuji Nishikawa
    • Koji HayanoAtsushi MoriYuji Nishikawa
    • H01S3/00
    • H01S3/131H01S3/1317
    • A high-power laser unit capable of accurately correcting laser output from low to rated outputs, even when the laser unit has a laser power monitor which may be affected by environmental factors inside or outside the laser unit, by effectively reducing environmental factors. The laser unit has a laser power monitor for measuring laser output, and a laser controller for correcting the laser output by correcting an amount of excitation energy to a laser power supply so that a measurement value coincides with a laser output command value. The laser unit has a laser output commanding part for generating a laser output command. When it is not necessary to correct the laser output command, the laser output command is converted into an excitation energy command value and sent to the power supply. Otherwise, an output correcting part of the laser controller corrects the laser output command.
    • 即使激光单元具有可能受激光单元内部或外部的环境因素影响的激光功率监视器,也能够有效降低环境因素,从而能够精确地校正从低电平到额定输出的激光输出的高功率激光单元。 激光单元具有用于测量激光输出的激光功率监视器,以及激光控制器,用于通过向激光电源校正激发能量的量来校正激光输出,使得测量值与激光输出命令值一致。 激光单元具有用于产生激光输出命令的激光输出指令部。 当不需要校正激光输出命令时,将激光输出命令转换为激发能量指令值并发送到电源。 否则,激光控制器的输出校正部分校正激光输出命令。
    • 5. 发明授权
    • Image forming apparatus having a density sensor movable in a main scanning direction
    • 图像形成装置具有可在主扫描方向上移动的密度传感器
    • US09451116B2
    • 2016-09-20
    • US14499733
    • 2014-09-29
    • Atsushi MoriShinji KatoMasaru Kumagai
    • Atsushi MoriShinji KatoMasaru Kumagai
    • G03G15/00H04N1/047H04N1/028
    • G03G15/5041G03G15/5058H04N1/02885H04N1/047
    • An image forming apparatus includes a photoconductor, an optical scanner, a development device, a movable density sensor, a density sensor driver, and a processor. The optical scanner includes a light source to emit light, and irradiates a surface of the photoconductor in a main scanning direction with the light to form a latent image on the surface of the photoconductor. The development device develops the latent image into a toner image. The density sensor detects unevenness in density of the toner image in the main scanning direction. The density sensor driver moves the density sensor in the main scanning direction. The processor corrects a driving signal for the light source according to image data to reduce the unevenness in density in the main scanning direction, according to positional data of the density sensor in the main scanning direction and an output value of the density sensor.
    • 图像形成装置包括光电导体,光学扫描器,显影装置,可移动密度传感器,密度传感器驱动器和处理器。 光学扫描器包括发光的光源,并且用光在主扫描方向上照射感光体的表面,以在感光体的表面上形成潜像。 显影装置将潜像显影成调色剂图像。 密度传感器检测调色剂图像在主扫描方向上的浓度不均匀。 密度传感器驱动器将密度传感器沿主扫描方向移动。 处理器根据图像数据校正光源的驱动信号,以根据密度传感器在主扫描方向上的位置数据和密度传感器的输出值来减小主扫描方向上的浓度不均匀性。
    • 9. 发明授权
    • Network management method, program and system for constructing a parallel computer system
    • 网络管理方法,构建并行计算机系统的程序和系统
    • US07602799B2
    • 2009-10-13
    • US11476630
    • 2006-06-29
    • Yoshiro IkedaAkihiro YasuoAtsushi MoriAkira AsatoKatsuhiko Nishikawa
    • Yoshiro IkedaAkihiro YasuoAtsushi MoriAkira AsatoKatsuhiko Nishikawa
    • H04L12/54
    • H04L41/0896H04L12/12Y02D50/30Y02D50/40
    • A network management apparatus interconnects a plurality of computers through physical lines having a predetermined line speed to manage a switch apparatus constructing a parallel computer system. The switch apparatus comprises a plurality of physical port units to enable or disable the same through individual power supply ON/OFF control for the physical port units, thereby changing and controlling the line transmission speed according to the enable number. A logical port constructing unit in the network management apparatus bundles the physical lines by a plurality of physical port units in the switch apparatus to construct logical lines. A port control unit changes the number of operations of a plurality of physical port units assigned to the logical port units through the power supply ON/OFF control according to a necessary data transmission speed for the logical port units, thereby dynamically changing the line transmission speed.
    • 网络管理装置通过具有预定线路速度的物理线路互连多台计算机,以管理构建并行计算机系统的交换装置。 开关装置包括多个物理端口单元,以通过用于物理端口单元的单独电源ON / OFF控制来实现或禁用相同的,从而根据启用号码来改变和控制线路传输速度。 网络管理装置中的逻辑端口构成单元通过开关装置中的多个物理端口单元对物理线路进行捆绑,构成逻辑线路。 端口控制单元根据逻辑端口单元的必要数据传输速度,通过电源ON / OFF控制来改变分配给逻辑端口单元的多个物理端口单元的操作次数,从而动态地改变线路传输速度 。
    • 10. 发明申请
    • Crime Prevention Structure for Guide Rail of Shutter for Building
    • 建筑快门导轨防犯结构
    • US20080099166A1
    • 2008-05-01
    • US11661587
    • 2004-09-09
    • Hiroaki IchiyanagiAtsushi Mori
    • Hiroaki IchiyanagiAtsushi Mori
    • E06B9/17E06B9/15E06B9/58
    • E06B9/15E06B9/581E06B2009/1538
    • The present invention relates to a guide rail structure with which it is difficult to remove a slat from a guide rail using a bar or the like. In a guide rail having an outdoor sidewall, an opening side front wall, and a guide groove formed in said opening side front wall, a pocket space is formed in an indoor side of a slat end portion received in the guide rail and the pocket space permits deformation of said slat end portion towards an indoor side, a dimension of the pocket space is made larger than a width dimension of the guide groove, and said outdoor sidewall of the guide rail is set to a larger bending strength than the slat end portion, wherein when a force enlarging a gap between the outdoor sidewall and the slat end portion acts upon the outdoor sidewall and the slat end portion, the slat end portion is caused to deform in the pocket space before the outdoor sidewall deforms such that removal of the slat end portion from the guide groove is prevented by engaging the opening side front wall with the slat end portion that has been deformed in the pocket space.
    • 导轨结构技术领域本发明涉及使用杆等难以从导轨上移除板条的导轨结构。 在具有室外侧壁的导轨中,形成在所述开口侧前壁中的开口侧前壁和引导槽中,在容纳在所述导轨和所述凹部空间中的狭缝端部的室内侧形成有袋状空间 允许所述板条端部朝向室内侧变形,使得所述袋空间的尺寸大于所述导向槽的宽度尺寸,并且所述导轨的所述室外侧壁被设定为比所述板条端部大的弯曲强度 其特征在于,当使所述室外侧壁与所述板条端部之间的间隙增加的力作用于所述室外侧壁和所述板条端部时,使所述板条端部在所述室外侧壁变形之前在所述袋状空间内变形, 通过使开口侧前壁与在袋状空间中变形的板条端部接合来防止来自引导槽的板条端部。