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    • 1. 发明授权
    • Film feeding device
    • 胶片送料装置
    • US5701531A
    • 1997-12-23
    • US591707
    • 1996-01-25
    • Yoshiharu TanakaJunichi TaniiKatsuhiro Ono
    • Yoshiharu TanakaJunichi TaniiKatsuhiro Ono
    • G03B17/00G03B17/24G03B17/42G03B1/00G03B17/02
    • G03B17/24G03B17/425G03B2217/244
    • A mechanism, for feeding a film with a photographing information magnetic recording area, of a camera. The camera including the mechanism has a cartridge holder inside which a film cartridge housing the film in is set; an aperture for defining an exposure field on the film; a magnetic head for writing/reading the photographing information; a take-up spool around which the film fed from the film cartridge is wound; and a drive motor for feeding the film between the film cartridge and the take-up spool. Both the take-up spool and the magnetic head are installed on one side of the aperture, and both the cartridge holder and the drive motor are installed on the other side, opposite to the one side in view of the film feeding direction, of the aperture. The drive motor is mounted opposite to the aperture relative to the cartridge holder; therefore, a greater distance is secured between the magnetic head and the motor so that an electromagnetic noise generated from the motor during the writing/reading operation by the magnetic head is effectively reduced on a side of the magnetic head.
    • 一种摄像机用于馈送具有拍摄信息磁记录区域的胶片的机构。 包括该机构的照相机具有其中设置有容纳胶片的胶卷暗盒的盒保持器; 用于限定胶片上的曝光场的光圈; 用于写入/读取拍摄信息的磁头; 缠绕从胶卷暗盒送出的胶片的卷取卷轴; 以及用于在胶片暗盒和卷取卷筒之间进给胶片的驱动电机。 卷取卷轴和磁头均安装在孔的一侧,并且盒保持器和驱动马达都安装在与送膜方向相反的一侧的另一侧上 光圈。 驱动马达相对于墨盒保持器安装在孔的相对面上; 因此,在磁头和电动机之间确保更大的距离,使得在磁头的一侧有效地减少在磁头的写入/读取操作期间由电动机产生的电磁噪声。
    • 4. 发明授权
    • Multi-beam image forming apparatus configured to perform droop correction
    • 多光束图像形成装置,被配置为执行下垂校正
    • US07839427B2
    • 2010-11-23
    • US12369970
    • 2009-02-12
    • Katsuhiro Ono
    • Katsuhiro Ono
    • B41J2/435
    • G03G15/043G03G15/04072G03G15/0435G03G2215/0404
    • A multi-beam image forming apparatus is disclosed in which a semiconductor laser array including plural semiconductor laser elements serves as an optical beam generation unit. The apparatus includes a printing ratio counting unit that counts printing ratios of the semiconductor laser elements in plural printing areas divided in a scanning direction based on image data transmitted from a host unit; and a light amount control unit that controls emission light amounts of the semiconductor laser elements based on a result from the printing ratio counting unit. The light amount control unit calculates droop correction values corresponding to the printing areas from the printing ratios of the semiconductor laser elements based on the printing ratios in the printing areas counted by the printing ratio counting unit so as to correct the light amounts of the semiconductor laser elements.
    • 公开了一种多光束图像形成装置,其中包括多个半导体激光元件的半导体激光器阵列用作光束产生单元。 该装置包括打印比率计数单元,其基于从主机单元发送的图像数据,对扫描方向上划分的多个打印区域中的半导体激光元件的打印率进行计数; 以及光量控制单元,其基于来自打印比率计数单元的结果来控制半导体激光元件的发光量。 光量控制单元基于由打印比率计数单元计数的打印区域中的打印率,根据半导体激光元件的打印率来计算与打印区域相对应的下垂校正值,以校正半导体激光器的光量 元素。
    • 5. 发明授权
    • X-ray apparatus
    • X光装置
    • US6088425A
    • 2000-07-11
    • US53130
    • 1998-04-01
    • Katsuhiro Ono
    • Katsuhiro Ono
    • H05G1/30A61B6/03G21K5/02G21K5/08H01J35/10H05G1/26H05G1/36H05G1/66
    • H05G1/36H05G1/26
    • A rotary anode type X-ray tube is controlled by an X-ray emission control device. In the X-ray emission control device, the maximum permissible storage heat quantity which can be applied to the rotary anode of the X-ray tube is set, the anode storage heat quantity which is lowered based on the cooling characteristic of the rotary anode is calculated, the present anode storage heat quantity is calculated, and the imaginary anode storage heat quantity for the next X-ray emitting condition which is derived by calculation using the correction functions based on the anode input power, emission continuation time, anode rotation speed and focal point size, the anode input power of the next predicted X-ray emission, and X-ray emission continuation time is calculated. The maximum permissible storage heat quantity, the present anode storage heat quantity and the imaginary anode storage heat quantity in the next X-ray emitting condition are compared and calculated to determine permission or inhibition of the next X-ray emission. The performance of the mounted X-ray tube is fully utilized by use of the X-ray emission control device, the wait time to the next X-ray emission can always be suppressed to minimum, and the X-ray tube apparatus can be controlled with high speed and high reliability.
    • 旋转阳极型X射线管由X射线发射控制装置控制。 在X射线发射控制装置中,设定能够施加到X射线管的旋转阳极的最大容许积存热量,基于旋转阳极的冷却特性而降低的阳极储存热量为 计算出当前的阳极储存热量,并且通过使用基于阳极输入功率,发射持续时间,阳极转速和基于阳极的输入功率的校正功能计算导出的下一个X射线发射条件的虚拟阳极储存热量 计算焦点尺寸,下一预测X射线发射的阳极输入功率和X射线发射持续时间。 比较并计算下一个X射线发射条件下的最大允许存储热量,当前阳极储存热量和虚拟阳极储存热量,以确定下一个X射线发射的允许或抑制。 通过使用X射线发射控制装置可充分利用安装的X射线管的性能,可以总是将下一个X射线发射的等待时间抑制到最小,并且可以控制X射线管装置 具有高速度和高可靠性。
    • 6. 发明授权
    • Film feeding control device
    • 胶片送料控制装置
    • US5819128A
    • 1998-10-06
    • US607788
    • 1996-02-27
    • Yushi NobumotoKatsuhiro Ono
    • Yushi NobumotoKatsuhiro Ono
    • H01L31/12G03B1/60G03B17/42G03B1/00
    • G03B1/60G03B17/425
    • A control device for feeding and positioning a film precisely, in a camera, a printing apparatus, etc., includes a photo interrupter with a light emitter, a light detector for detecting a light emitted from the light emitter, and a holding member for keeping both the light emitter and the light detector in position; a frame with a guiding member for guiding a film having a longitudinal edge with a plurality of perforations which travels between the light emitter and the light detector of the photo interrupter; a perforation detector for detecting a perforation based upon a signal outputted from the light detector, which outputs the signal each time a perforation of the film edge passes a location corresponding to an optical axis existing between the light emitter and the light detector; and a controller for controlling a film feeding operation in accordance with the detection of a perforation by the perforation detector.
    • 一种用于在照相机,打印装置等中精确地进给和定位胶片的控制装置包括具有发光体的光断续器,用于检测从发光体发射的光的光检测器,以及用于保持 光发射器和光检测器都位于; 具有引导构件的框架,用于引导具有纵向边缘的膜,所述纵向边缘具有在光断续器的光发射器和光检测器之间行进的多个穿孔; 穿孔检测器,用于基于从光检测器输出的信号检测穿孔,每当透镜穿过与光发射器和光检测器之间的光轴相对应的位置时,该检测器输出信号; 以及控制器,用于根据穿孔检测器的穿孔检测来控制送膜操作。
    • 9. 发明授权
    • Rotating anode x-ray tube device
    • 旋转阳极x射线管装置
    • US4674109A
    • 1987-06-16
    • US780176
    • 1985-09-26
    • Katsuhiro Ono
    • Katsuhiro Ono
    • H01J35/10H05G1/10
    • H05G1/10H01J35/10H01J35/101H01J35/105H01J2235/1266
    • An x-ray tube device with an anode target capable of rotation and a cathode which generates electrons causing them to collide with the target set in a vacuum envelope, and with a shaft which supports and rotates the anode projecting outside the envelope. This x-ray tube device has a structure such that the target is cooled by coolant flowing through coolant channels in the shaft. A vacuum seal is maintained by seal means such as magnetic fluid seal between the envelope and the rotating shaft. The envelope and coolant channels are best maintained at ground potential, and thus have an intermediate potential, with high positive and negative voltages supplied to the anode target and cathode.
    • 具有能够旋转的阳极靶的X射线管装置和产生电子的阴极,使其与设置在真空外壳中的目标物体碰撞,并且将支撑并旋转阳极的轴突出到壳体的外侧。 该X射线管装置具有这样的结构,使得目标物被流过轴中的冷却剂通道的冷却剂冷却。 真空密封通过密封装置保持,例如在外壳和旋转轴之间的磁性流体密封。 信封和冷却剂通道最好保持在接地电位,因此具有中间电位,具有提供给阳极靶和阴极的高正电压和负电压。
    • 10. 发明申请
    • Multi-beam image forming apparatus
    • 多光束成像装置
    • US20060139441A1
    • 2006-06-29
    • US11293108
    • 2005-12-05
    • Katsuhiro OnoJunshin SakamotoTakeshi Mochizuki
    • Katsuhiro OnoJunshin SakamotoTakeshi Mochizuki
    • B41J2/455
    • B41J2/473
    • A multi-beam image forming apparatus includes: first and second semiconductor laser arrays each having n laser elements; a multi-beam generation unit that generates 2n laser beams by synthesizing laser beams generated by the first and second semiconductor laser arrays; a beam detection unit that generates synchronous detection signals to obtain synchronous scanning of the respective laser beams; and a control unit. The beam detection unit includes first and second beam detection units disposed substantially at a same position in a main scanning direction and adjacently disposed in a sub-scanning direction. The n laser beams of the first and second semiconductor laser arrays are detected by the first and second beam detection unit, respectively. The control unit controls image formation start positions of the 2n laser beams on the basis of the synchronous detection signals output from the first and the second beam detection units.
    • 多光束图像形成装置包括:具有n个激光元件的第一和第二半导体激光器阵列; 多光束产生单元,通过合成由第一和第二半导体激光器阵列产生的激光束产生2n个激光束; 光束检测单元,其产生同步检测信号以获得各激光束的同步扫描; 和控制单元。 光束检测单元包括基本上设置在主扫描方向上的相同位置并相邻地设置在副扫描方向上的第一和第二光束检测单元。 第一和第二半导体激光器阵列的n个激光束分别由第一和第二光束检测单元检测。 控制单元基于从第一和第二光束检测单元输出的同步检测信号来控制2n个激光束的图像形成开始位置。