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    • 1. 发明申请
    • Device and method for lighting high-voltage discharge lamp
    • 高压放电灯照明装置及方法
    • US20070018591A1
    • 2007-01-25
    • US10556382
    • 2004-05-12
    • Toshiyuki NoguchiYasuhiro Kakimoto
    • Toshiyuki NoguchiYasuhiro Kakimoto
    • H05B41/36
    • H05B41/382H05B41/2882H05B41/2883H05B41/2885H05B41/386H05B41/388Y02B20/202Y02B20/204Y10S315/02Y10S315/05Y10S315/07
    • An operating device control section (4) controls an output current of a DC-DC converter (1), and also controls a commutation frequency of a commutator (2) that converts a direct current output from the DC-DC converter into an alternating current. The operating device control section operates a discharge lamp, at the start of lamp operation, with a predetermined voltage value lower than a rated voltage and a first target current value higher than a rated current, then, at an end of a predetermined high frequency start period (T1) elapsed from the start of lamp operation, controls the commutator to switch from a commutation frequency higher than that during a steady lamp operation to a commutation frequency during the steady lamp operation, and then, after a voltage applied to the discharge lamp increases and reaches a voltage not lower than a predetermined threshold voltage (Vth) which is not higher than the rated voltage, controls the DC-DC converter to switch from the first target current value to a second target current value which is not higher than the rated current to operate the discharge lamp. A temperature of a lamp electrode can be increased quickly and sufficiently to reduce a time required to increase the lamp illuminance, thereby reducing a time required to cause video to be viewable.
    • 操作装置控制部分(4)控制DC-DC转换器(1)的输出电流,并且还控制将从DC-DC转换器输出的直流电转换成交流电的换向器(2)的换向频率 。 操作装置控制部分在灯操作开始时以比额定电压低的额定电压和第一目标电流值的预定电压值操作放电灯,然后在预定的高频启动结束时 从灯操作开始经过的时间段(T 1),在稳定的灯操作期间,控制换向器从稳定的灯操作期间的换流频率切换到换向频率,然后在施加到放电的电压 灯增加并达到不低于额定电压的预定阈值电压(Vth)的电压,控制DC-DC转换器从第一目标电流值切换到不高于 额定电流来操作放电灯。 可以快速且充分地增加灯电极的温度,以减少增加灯照度所需的时间,从而减少使视频可见的时间。
    • 2. 发明授权
    • Ballast for high-pressure discharge lamp and method of operating the same
    • 用于高压放电灯的镇流器及其操作方法
    • US07385361B2
    • 2008-06-10
    • US10556382
    • 2004-05-12
    • Toshiyuki NoguchiYasuhiro Kakimoto
    • Toshiyuki NoguchiYasuhiro Kakimoto
    • G05F1/00
    • H05B41/382H05B41/2882H05B41/2883H05B41/2885H05B41/386H05B41/388Y02B20/202Y02B20/204Y10S315/02Y10S315/05Y10S315/07
    • An operating device control section (4) controls an output current of a DC-DC converter (1), and also controls a commutation frequency of a commutator (2) that converts a direct current output from the DC-DC converter into an alternating current. The operating device control section operates a discharge lamp, at the start of lamp operation, with a predetermined voltage value lower than a rated voltage and a first target current value higher than a rated current, then, at an end of a predetermined high frequency start period (T1) elapsed from the start of lamp operation, controls the commutator to switch from a commutation frequency higher than that during a steady lamp operation to a commutation frequency during the steady lamp operation, and then, after a voltage applied to the discharge lamp increases and reaches a voltage not lower than a predetermined threshold voltage (Vth) which is not higher than the rated voltage, controls the DC-DC converter to switch from the first target current value to a second target current value which is not higher than the rated current to operate the discharge lamp. A temperature of a lamp electrode can be increased quickly and sufficiently to reduce a time required to increase the lamp illuminance, thereby reducing a time required to cause video to be viewable.
    • 操作装置控制部分(4)控制DC-DC转换器(1)的输出电流,并且还控制将从DC-DC转换器输出的直流电转换成交流电的换向器(2)的换向频率 。 操作装置控制部分在灯操作开始时以比额定电压低的额定电压和第一目标电流值的预定电压值操作放电灯,然后在预定的高频启动结束时 从灯操作开始经过的时间段(T 1),在稳定的灯操作期间,控制换向器从稳定的灯操作期间的换流频率切换到换向频率,然后在施加到放电的电压 灯增加并达到不低于额定电压的预定阈值电压(Vth)的电压,控制DC-DC转换器从第一目标电流值切换到不高于 额定电流来操作放电灯。 可以快速且充分地增加灯电极的温度,以减少增加灯照度所需的时间,从而减少使视频可见的时间。
    • 3. 发明授权
    • Discharge lamp lighting device and system comprising it
    • 放电灯照明装置及其组成的系统
    • US06717375B2
    • 2004-04-06
    • US10343347
    • 2003-04-29
    • Toshiyuki NoguchiYasuhiro Kakimoto
    • Toshiyuki NoguchiYasuhiro Kakimoto
    • H05B3702
    • H05B41/2928Y02B20/208Y10S315/07
    • A discharge-lamp lighting device is provided which decreases arc jumps, suppresses the fluctuation in brightness of the lamp, and prolongs a life of the lamp, by positively accelerating growth of spots even when an inexpensive, small and highly efficient lamp is used. A discharge-lamp controlling portion (101) sets frequencies of drive-controlling signals (A and B) for drive-controlling a commutator (109) within a predetermined frequency range so that spots formed by arc discharge on electrodes composing a high-pressure discharge lamp grow through a cycle of oxidation-reduction of a metal composing the electrodes, and superimposes a triangular wave signal generated on the basis of the drive-controlling signals onto a current-controlling signal (F) over an entire period of the drive-controlling signals so as to make a peak value of the triangular wave constant, thereby adjusting the waveform of current flowing in the high-pressure discharge lamp.
    • 提供一种放电灯点亮装置,即使使用便宜,小型和高效率的灯时,也可以通过积极加速点的生长来减少电弧跳跃,抑制灯的亮度波动,延长灯的寿命。 放电灯控制部分(101)设定用于在预定频率范围内驱动控制换向器(109)的驱动控制信号(A和B)的频率,使得通过电弧放电形成的点构成高压放电 灯通过构成电极的金属的氧化还原循环而生长,并且在驱动控制的整个周期中将基于驱动控制信号生成的三角波信号叠加到电流控制信号(F)上 信号以使三角波常数的峰值,从而调节在高压放电灯中流动的电流的波形。
    • 4. 发明授权
    • LCD projector
    • 液晶投影仪
    • US06409350B1
    • 2002-06-25
    • US09623412
    • 2000-10-26
    • Yasuhiro KakimotoToshiyuki NoguchiMitsuru Kotaka
    • Yasuhiro KakimotoToshiyuki NoguchiMitsuru Kotaka
    • G03B2114
    • H04N9/3155H04N5/74H04N5/7441H04N9/3102H04N9/3164H04N9/3182H04N9/73H04N2005/745
    • An LCD projector (K1) comprising: a power source (20); an image data source (90) for producing an image data; a light source (30) which is able to provide different levels of power; an LCD panel (50) for modifying a light ray from the light source (30) in accordance with said image data to produce light rays of an image; a projecting lens (60) for projecting the light rays from the LCD panel (50) onto a screen (70) through enlargement; a control circuit (81) for controlling an output of the power source (20) so as to selectively set an output power: and a correcting circuit (100) for correcting an image data before being supplied to the LCD panel (50) so as to compensate the disturbance of the white balance caused by the change of the power of the light source (30).
    • 一种LCD投影仪(K1),包括:电源(20); 用于产生图像数据的图像数据源(90); 能够提供不同功率的光源(30); 根据所述图像数据修改来自光源(30)的光线的LCD面板(50),以产生图像的光线; 用于通过放大将来自LCD面板(50)的光线投影到屏幕(70)上的投影透镜(60) 控制电路(81),用于控制电源(20)的输出以选择性地设置输出功率;以及校正电路(100),用于在被提供给LCD面板(50)之前校正图像数据,以便 以补偿由光源(30)的功率的变化引起的白平衡的干扰。
    • 5. 发明授权
    • Automatic bread producing machine
    • US5887512A
    • 1999-03-30
    • US918803
    • 1997-08-26
    • Yasuhiro KakimotoTakahiro OhshitaNoriyuki Yamamoto
    • Yasuhiro KakimotoTakahiro OhshitaNoriyuki Yamamoto
    • A21B7/00A47J27/00
    • A21B7/005
    • An automatic bread producing machine includes, in a baking chamber, a vessel unit having a bread vessel where a mixing vane for mixing bread ingredients is rotatably provided and a cylindrical bread vessel support fixed to an underside of the bread vessel. The bread vessel support has stoppers formed on the lower circumference thereof. The machine further includes a vessel mounting support mounted at the bottom of the baking chamber for receiving therein the bread vessel support. The vessel mounting support has cutouts formed at its circumferential wall for receiving and firmly holding the stoppers, respectively. Recessed portions are further formed at the circumferential wall of the vessel mounting support for guiding the stoppers to positions adjacent to the corresponding cutouts, respectively. Each cutout is provided adjacent to a lower end of the recessed portion and at one side of the recessed portion located in a rotation direction of the mixing vane. Each stopper is automatically received and locked in position in the corresponding cutout due to a rotation force of the mixing vane so that the vessel unit is automatically fixed relative to the vessel mounting support. While the stoppers are locked in position, an upper surface of each stopper engages with an upper wall surface of the corresponding cutout. The upper surfaces of each stopper and cutout are so shaped as to urge the vessel unit downward during rotation of the mixing vane.
    • 6. 发明授权
    • Automatic bread producing machine
    • US6053096A
    • 2000-04-25
    • US219922
    • 1998-12-23
    • Yasuhiro KakimotoTakahiro OhshitaNoriyuki Yamamoto
    • Yasuhiro KakimotoTakahiro OhshitaNoriyuki Yamamoto
    • A21B7/00A47J27/00A21D2/00A47J37/00
    • A21B7/005
    • An automatic bread producing machine includes, in a baking chamber, a vessel unit having a bread vessel where a mixing vane for mixing bread ingredients is rotatably provided and a cylindrical bread vessel support fixed to an underside of the bread vessel. The bread vessel support has stoppers formed on the lower circumference thereof. The machine further includes a vessel mounting support mounted at the bottom of the baking chamber for receiving therein the bread vessel support. The vessel mounting support has cutouts formed at its circumferential wall for receiving and firmly holding the stoppers, respectively. Recessed portions are further formed at the circumferential wall of the vessel mounting support for guiding the stoppers to positions adjacent to the corresponding cutouts, respectively. Each cutout is provided adjacent to a lower end of the recessed portion and at one side of the recessed portion located in a rotation direction of the mixing vane. Each stopper is automatically received and locked in position in the corresponding cutout due to a rotation force of the mixing vane so that the vessel unit is automatically fixed relative to the vessel mounting support. While the stoppers are locked in position, an upper surface of each stopper engages with an upper wall surface of the corresponding cutout. The upper surfaces of each stopper and cutout are so shaped as to urge the vessel unit downward during rotation of the mixing vane.
    • 7. 发明申请
    • Method for manufacturing float glass and device therefor
    • 浮法玻璃的制造方法及其装置
    • US20070209395A1
    • 2007-09-13
    • US11518226
    • 2006-09-11
    • Motoichi IgaAtsushi InoueYasuhiro KakimotoToru KamihoriTetsushi Takiguchi
    • Motoichi IgaAtsushi InoueYasuhiro KakimotoToru KamihoriTetsushi Takiguchi
    • C03B13/00C03B18/00C03B18/02
    • C03B18/04
    • It is an object of the present invention to provide a method for manufacturing float glass and a device therefor, which are capable of stably holding both edges of a molten glass ribbon. In accordance with gutter-like bodies 12 of a device for manufacturing float glass 10, a portion of molten tin 16 that flows out of outlets 32 of lateral ducts 34 of the gutter-like bodies 12 into vessel edge areas 14A can be directed to a vessel central area 14B through vertical ducts 30 and through holes 36. Since the flow rate q1 of the molten tin 16 that flows from each of the vessel edge areas 14A into each of the inlets 28, and the flow rate q2 of the molten tin 16 that flows from the vessel central area 14B into each of the inlets 28 are substantially equalized along the forward direction of the molten glass ribbon 20. Accordingly, recessed portions 26 are substantially uniformly formed on a bath surface 24 in such an appropriate shape to hold the edges along the forward direction of the molten glass ribbon 20, with the result that the edges 22 can be stably held in the recessed portions 26, making it possible to obtain a stable glass quality.
    • 本发明的目的是提供一种能够稳定地保持熔融玻璃带的两边缘的浮法玻璃的制造方法及其装置。 根据用于制造浮法玻璃10的装置的沟槽状物体12,从沟槽状体12的侧向管道34的出口32流出到熔池边缘区域14A的部分熔融锡16可以被引导到 通过垂直管道30和通孔36的容器中心区域14B。 由于从容器边缘区域14A中的每一个流入每个入口28的熔融锡16的流量q1和从容器中心区域14B流入每个入口28的熔融锡16的流量q 2 的入口28沿着熔融玻璃带20的向前方向基本相等。 因此,凹部26以适当的形状基本均匀地形成在熔池表面24上,以沿着熔融玻璃带20的向前方向保持边缘,结果可以将边缘22稳定地保持在凹部26中 ,可以获得稳定的玻璃质量。
    • 10. 发明授权
    • Automatic bread producing machine
    • 自动面包机
    • US6101928A
    • 2000-08-15
    • US371197
    • 1999-08-10
    • Yasuhiro KakimotoTakahiro OhshitaNoriyuki Yamamoto
    • Yasuhiro KakimotoTakahiro OhshitaNoriyuki Yamamoto
    • A21B7/00A47J27/00
    • A21B7/005
    • An automatic bread producing machine includes, in a baking chamber, a vessel unit having a bread vessel where a mixing vane for mixing bread ingredients is rotatably provided and a cylindrical bread vessel support fixed to an underside of the bread vessel. The bread vessel support has stoppers formed on the lower circumference thereof. The machine further includes a vessel mounting support mounted at the bottom of the baking chamber for receiving therein the bread vessel support. The vessel mounting support has cutouts formed at its circumferential wall for receiving and firmly holding the stoppers, respectively. Recessed portions are further formed at the circumferential wall of the vessel mounting support for guiding the stoppers to positions adjacent to the corresponding cutouts, respectively. Each cutout is provided adjacent to a lower end of the recessed portion and at one side of the recessed portion located in a rotation direction of the mixing vane. Each stopper is automatically received and locked in position in the corresponding cutout due to a rotation force of the mixing vane so that the vessel unit is automatically fixed relative to the vessel mounting support. While the stoppers are locked in position, an upper surface of each stopper engages with an upper wall surface of the corresponding cutout. The upper surfaces of each stopper and cutout are so shaped as to urge the vessel unit downward during rotation of the mixing vane.
    • 一种自动面包生产机在烘烤室中包括具有面包容器的容器单元,其中可旋转地设置用于混合面包成分的混合叶片,以及固定到面包容器底面的圆筒形面包容器支架。 面包容器支架具有形成在其下圆周上的止动件。 该机器还包括安装在烘烤室底部的容器安装支架,用于在其中容纳面包容器支架。 容器安装支架具有形成在其周向壁上的切口,用于分别接收和牢固地固定止动件。 凹陷部分还形成在容器安装支撑件的周壁处,用于将塞子分别引导到与相应切口相邻的位置。 每个切口邻近凹部的下端并且位于沿着混合叶片的旋转方向的凹部的一侧。 由于混合叶片的旋转力,每个止动器被自动地接收并锁定在相应的切口中的位置,使得容器单元相对于容器安装支架自动固定。 当止动器被锁定就位时,每个止动器的上表面与相应的切口的上壁表面接合。 每个止动器和切口的上表面被成形为在混合叶片旋转期间向下推动容器单元。