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    • 1. 发明申请
    • IGNITION APPARATUS FOR INTERNAL COMBUSTION ENGINE
    • 内燃机点火装置
    • US20100147274A1
    • 2010-06-17
    • US12571964
    • 2009-10-01
    • Takayoshi NAGAIHirohisa KuwanoIkuro SugaYusuke Naruse
    • Takayoshi NAGAIHirohisa KuwanoIkuro SugaYusuke Naruse
    • F02P3/06
    • F02P15/08F02P3/096
    • There is obtained an ignition apparatus, for an internal combustion engine, that can make a predetermined output current flow in a stable manner so that the combustion state of the internal combustion engine can always be maintained in a good condition, even in the case where the voltage of the power source connected with the energy storing coil fluctuates. There are provided an energy storing coil (3), a switching means (S1) for accumulating energy, an ignition coil (4), and a switching means (S2) that turns on/off an ignition current; the switching means (S1) and (S2) are alternately turned on/off so that a current with a alternating polarity is made to flow continuously in the ignition coil (6); a switching means (S3) is connected both terminals of the energy storing coil (3); and when a current flowing in the energy storing coil (3) reaches a target value, the switching means (S1) is turned off and the switching means (S3) is turned off so that the energy storing coil current circulates through the switching means (S3) so as to keep the current to be approximately the target value.
    • 获得了能够使预定的输出电流以稳定的方式流动的用于内燃机的点火装置,使得内燃机的燃烧状态总能保持在良好状态,即使在 与储能线圈连接的电源的电压波动。 提供储能线圈(3),蓄积能量的切换装置(S1),点火线圈(4)和开启/关闭点火电流的开关装置(S2) 切换装置(S1)和(S2)交替地开/关,使得具有交替极性的电流在点火线圈(6)中连续流动; 开关装置(S3)连接在储能线圈(3)的两端; 并且当在能量存储线圈(3)中流动的电流达到目标值时,切换装置(S1)关闭,并且切换装置(S3)关闭,使得储能线圈电流通过开关装置 S3),以使电流保持近似为目标值。
    • 2. 发明授权
    • Ignition apparatus for internal combustion engine
    • 内燃机点火装置
    • US07730880B1
    • 2010-06-08
    • US12571964
    • 2009-10-01
    • Takayoshi NagaiHirohisa KuwanoIkuro SugaYusuke Naruse
    • Takayoshi NagaiHirohisa KuwanoIkuro SugaYusuke Naruse
    • F02P3/04
    • F02P15/08F02P3/096
    • There is obtained an ignition apparatus, for an internal combustion engine, that can make a predetermined output current flow in a stable manner so that the combustion state of the internal combustion engine can always be maintained in a good condition, even in the case where the voltage of the power source connected with the energy storing coil fluctuates. There are provided an energy storing coil (3), a switching means (S1) for accumulating energy, an ignition coil (4), and a switching means (S2) that turns on/off an ignition current; the switching means (S1) and (S2) are alternately turned on/off so that a current with a alternating polarity is made to flow continuously in the ignition coil (6); a switching means (S3) is connected both terminals of the energy storing coil (3); and when a current flowing in the energy storing coil (3) reaches a target value, the switching means (S1) is turned off and the switching means (S3) is turned off so that the energy storing coil current circulates through the switching means (S3) so as to keep the current to be approximately the target value.
    • 获得了能够使预定的输出电流以稳定的方式流动的用于内燃机的点火装置,使得内燃机的燃烧状态总能保持在良好状态,即使在 与储能线圈连接的电源的电压波动。 提供储能线圈(3),蓄积能量的切换装置(S1),点火线圈(4)和开启/关闭点火电流的开关装置(S2) 切换装置(S1)和(S2)交替地开/关,使得具有交替极性的电流在点火线圈(6)中连续流动; 开关装置(S3)连接在储能线圈(3)的两端; 并且当在能量存储线圈(3)中流动的电流达到目标值时,切换装置(S1)关闭,并且切换装置(S3)关闭,使得储能线圈电流通过开关装置 S3),以使电流保持近似为目标值。
    • 5. 发明授权
    • Elevator power control for adjusting ratio of power supplied from each of dual power sources
    • 电梯功率控制,用于调节从双电源供电的功率比
    • US06474447B2
    • 2002-11-05
    • US09742894
    • 2000-12-21
    • Shinobu TajimaHiroshi ArakiIkuro SugaKazuyuki Kobayashi
    • Shinobu TajimaHiroshi ArakiIkuro SugaKazuyuki Kobayashi
    • B66B106
    • B66B1/30
    • To reduce a total power amount required to drive an elevator by a commercial power supply during a peak power-consumption time period, for instance, afternoon in summer time, a control apparatus for this elevator is arranged by employing: a converter for rectifying AC electric power to be converted into DC electric power; and inverter for inverting the DC electric power into AC electric power having a variable voltage and a variable frequency; a motor driven by said AC electric power having the variable voltage and the variable frequency so as to operate an elevator; a power storage apparatus for charging thereinto electric power; and a power controller for using both the power storage apparatus and the commercial power supply so as to supply the electric power to the inverter, and for controlling at least any one of the power storage apparatus and the commercial power supply in order to supply electric power which is required for the inverter.
    • 为了减少在峰值耗电时间段(例如夏季下午)期间由商用电源驱动电梯所需的总电力量,该电梯的控制装置通过以下方式配置:用于整流交流电的转换器 电力转换成直流电力; 以及逆变器,用于将直流电转换成具有可变电压和可变频率的交流电; 由具有可变电压和可变频率的所述交流电驱动的电动机,以便操作电梯; 用于对其进行充电的蓄电装置; 以及功率控制器,用于使用蓄电装置和商用电源,以便向逆变器提供电力,并且用于控制至少任一个蓄电装置和商用电源,以便提供电力 这是变频器所需要的。
    • 6. 发明授权
    • Elevator control apparatus
    • 电梯控制装置
    • US06460658B2
    • 2002-10-08
    • US09771930
    • 2001-01-30
    • Ikuro SugaHiroshi ArakiShinobu TajimaKazuyuki Kobayashi
    • Ikuro SugaHiroshi ArakiShinobu TajimaKazuyuki Kobayashi
    • B66B106
    • B66B1/30
    • An elevator control apparatus includes a power storage unit for storing the DC power; a charge/discharge control circuit that controls a state of charge of the power storage unit, outputs a drive signal to charge the power storage unit with the DC power during a halt of the elevator based on operational information regarding the elevator received from the controller, and outputs a stop signal to stop charging when a voltage of the power storage unit reaches a preset voltage; and a charge/discharge circuit for starting charging the power storage unit with the DC power in response to the drive signal, and stopping the charging in response to the stop signal. This arrangement ensures landing of the elevator in case of a power failure, eliminates a peak in power consumption, and permits energy saving by effectively using power produced in a regenerative mode of the elevator.
    • 电梯控制装置包括用于存储直流电力的蓄电单元; 控制蓄电单元的充电状态的充放电控制电路基于从控制器接收到的电梯的操作信息,输出驱动信号,对电力停止期间的直流电力进行蓄电单元的充电, 并且当所述蓄电单元的电压达到预定电压时,输出停止信号以停止充电; 以及充电/放电电路,用于响应于驱动信号以直流电力开始对蓄电单元充电,并响应于停止信号停止充电。 这种布置确保在电力故障的情况下电梯的着陆,消除了功率消耗的峰值,并且通过有效地使用在电梯的再生模式中产生的功率来允许节能。
    • 9. 发明申请
    • POWER SUPPLY APPARATUS
    • 电源设备
    • US20080246405A1
    • 2008-10-09
    • US11866062
    • 2007-10-02
    • Taichiro TamidaTakafumi NakagawaIkuro SugaHiroyuki OsugaToshiyuki Ozaki
    • Taichiro TamidaTakafumi NakagawaIkuro SugaHiroyuki OsugaToshiyuki Ozaki
    • H01J7/24
    • H05H1/54F03H1/0018F03H1/0075H05H7/00
    • A power supply apparatus for controlling an ion accelerator includes a controller configured to adjust magnitude of ion acceleration in the ion accelerator. The controller controls an anode voltage applied to an anode electrode of the ion accelerator, a gas flow rate of gas flowing through a gas flow rate regulator of the ion accelerator, and magnetic flux density at an ion exit of the ion accelerator to satisfy a formula given as follows: 500 × 10 9
    • 用于控制离子加速器的电源装置包括控制器,其被配置为调节离子加速器中的离子加速度的大小。 控制器控制施加到离子加速器的阳极的阳极电压,流过离子加速器的气体流量调节器的气体的气体流量和离子加速器的离子出口处的磁通密度,以满足公式 给出如下: 500 x 2 其中S是离子出口的截面面积[ ; d是离子加速区长度[m]; β是磁通偏压比; Va是阳极电压[V]; Q是气体流量[sccm]; B为离子出口处的磁通密度[T]。