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    • 2. 发明授权
    • Turbomolecular pump
    • 涡轮分子泵
    • US06220831B1
    • 2001-04-24
    • US09133331
    • 1998-08-13
    • Atsushi ShiokawaMatsutaro MiyamotoHiroshi SobukawaToshiharu Nakazawa
    • Atsushi ShiokawaMatsutaro MiyamotoHiroshi SobukawaToshiharu Nakazawa
    • F04B1704
    • F04D17/168F04D19/04
    • A turbomolecular pump comprising a rotor and a stator housed in a casing and forming an exhaust channel therebetween, and a suction port and a discharge port formed in the casing; wherein the turbomolecular pump has a valve body for opening and closing the suction port, the valve body is movable in an axial direction of the turbomolecular pump, a valve driving mechanism for driving the valve body via a valve body supporting member which extends through a throughhole formed in the rotor and/or the stator and magnetic bearing units for non-contactingly supporting the valve body supporting member within the throughhole, whereby a turbomolecular pump having a compact overall construction including valve units can be provided.
    • 一种涡轮分子泵,包括转子和定子,其容纳在壳体中并在其间形成排气通道,以及形成在所述壳体中的吸入口和排出口。 其中所述涡轮分子泵具有用于打开和关闭所述吸入口的阀体,所述阀体可在所述涡轮分子泵的轴向方向上移动;阀驱动机构,其经由阀体支撑构件驱动所述阀体,所述阀体支撑构件延伸穿过通孔 形成在转子和/或定子和磁轴承单元中,用于在通孔内非接触地支撑阀体支撑构件,由此可以提供具有包括阀单元的紧凑整体结构的涡轮分子泵。
    • 3. 发明授权
    • Magnetic bearing control device and turbo-molecular pump device
    • 磁轴承控制装置和涡轮分子泵装置
    • US06398524B1
    • 2002-06-04
    • US09555648
    • 2000-06-02
    • Akiko TairaHiroyuki ChinoToshiharu NakazawaMatsutaro Miyamoto
    • Akiko TairaHiroyuki ChinoToshiharu NakazawaMatsutaro Miyamoto
    • F04B1700
    • F16C32/0446F04D19/048F16C2360/45
    • The present invention is to provide a magnetic bearing controller capable of reliably controlling the position of a floating member at a target position, even when the length of the cable connecting the magnetic bearing and the controller is changed. The magnetic bearing controller comprises: an electromagnet for supporting a floating member in a floating state; sensors (Z1, Z2) for sensing the floating position of the floating member; and a controller for supplying sensor signals and an exciting currents via cables to the sensors and electromagnets, respectively, in order to support the floating member at a predetermined floating position based on signals received from the sensors, wherein the controller comprises. a signal source (11) for supplying an AC signal to the sensors (Z1, Z2); a pair of sensor drive circuits (12) for supplying differential signals via cables (C) connected to both ends of the serially connected sensor elements (Z1, Z2); whereby the cables are disposed with balanced condition and capacitance generated by the length of the cable is canceled. The main pump section and controller of a turbo-molecular pump apparatus can be integrally formed.
    • 本发明是提供一种能够可靠地控制浮动构件在目标位置的位置的磁轴承控制器,即使当连接磁轴承和控制器的电缆的长度改变时,磁轴承控制器包括:电磁体 用于支持浮动状态的浮动元件; 传感器(Z1,Z2),用于感测浮动部件的浮动位置; 以及控制器,用于分别通过电缆将传感器信号和激励电流提供给传感器和电磁体,以便基于从传感器接收的信号将浮动构件支撑在预定的浮动位置,其中控制器包括。 用于向传感器(Z1,Z2)提供AC信号的信号源(11); 一对传感器驱动电路,用于通过连接到串联的传感器元件(Z1,Z2)两端的电缆(C)提供差分信号; 由此电缆以平衡的状态设置,并且由电缆的长度产生的电容被取消。 涡轮分子泵装置的主泵部分和控制器可以一体形成。
    • 5. 发明授权
    • Bearing unit
    • 轴承单元
    • US5679992A
    • 1997-10-21
    • US729031
    • 1996-10-09
    • Matsutaro MiyamotoShun-ichi AiyoshizawaToshiharu Nakazawa
    • Matsutaro MiyamotoShun-ichi AiyoshizawaToshiharu Nakazawa
    • F16F15/08F04D19/04F16C32/04F16C39/06F16F15/03F16F15/04H02K7/08H02K7/09
    • F16C27/00F04D19/048F16C32/0425F16C32/0478F16C39/063F16C2360/45
    • A magnetic bearing unit is disclosed which comprises a rotor supported in a radial direction by magnetic effects generated by permanent magnets arranged within a passive radial magnetic bearing and supported in an axial direction by an actively-controlled axial magnetic bearing. The unit also comprises a movable member arranged between the stator and rotor, and the passive magnetic member is arranged between the movable member and the rotor. At least first and second pairs of axially opposing faces are provided on the stator and the movable member respectively. A biasing means is in functional association with the movable member for forcing the movable member to shorten a spacing between the first pair of opposing faces. The first pair of opposing faces is formed with a recess having a curved cross sectional shape on each of the opposing faces, and a plurality of balls having a radius not more than a radius of the recess are disposed in the recess. The second pair of opposing faces are bridged with a damping member made of an elastic material. The resulting bearing unit in such a compressive state can be used in any orientation without causing any operational problems such as those encountered when the conventional magnetic bearing is used in a horizontal orientation. The unit is easy to control and produces stable smooth operation in radial and axial directions at all times.
    • 公开了一种磁轴承单元,其包括通过由被动径向磁轴承中布置的永磁体产生的并且通过主动控制的轴向磁轴承沿轴向支撑的磁力作用沿径向方向支撑的转子。 该单元还包括设置在定子和转子之间的可动构件,并且被动磁构件设置在可动构件和转子之间。 至少第一和第二对轴向相对的面分别设置在定子和可动件上。 偏压装置与可动件功能相关联,用于迫使可动件缩短第一对相对面之间的间距。 第一对相对面形成有在每个相对面上具有弯曲横截面形状的凹部,并且具有半径不大于凹部半径的多个球设置在凹部中。 第二对相对面与由弹性材料制成的阻尼构件桥接。 所得到的轴承单元处于这种压缩状态,可以以任何方向使用,而不会引起任何操作问题,例如当常规磁性轴承以水平方向使用时所遇到的问题。 该单元易于控制,始终在径向和轴向方向均匀平稳运行。
    • 7. 发明授权
    • Magnetic suspending device controlled by temperature of controlled object
    • 受控对象温度控制的磁悬浮装置
    • US06307294B1
    • 2001-10-23
    • US09522471
    • 2000-03-09
    • Atsusi OoyamaHiroyuki ChinoToshiharu NakazawaAtsushi Shiokawa
    • Atsusi OoyamaHiroyuki ChinoToshiharu NakazawaAtsushi Shiokawa
    • H02K709
    • F16C32/0451F16C32/0446
    • A magnetic suspending device which can detect the temperature of a controlled object and assure a safe operation thereof without any need for any special construction or work to the device and any special maintenance is disclosed. In the magnetic suspending device comprising a pair of electromagnets (11, 13) disposed opposite to each other, a magnetizable controlled object (15) disposed between the pair of electromagnets (11, 13) and position displacement detection sensors (12, 14) disposed opposite to each other for detecting a position displacement of the controlled object (15), wherein detection signals from the position displacement detection sensors (12, 14) are inputted to a control circuit unit (20) for performing phase compensation and gain adjustment, wherein control outputs from the control circuit unit (20) control magnetic attractive or repulsive forces of the pair of electromagnets (11, 13), and wherein the controlled object is magnetically suspended by the pair of electromagnets without contact at an arbitrary position, a temperature operational circuit unit (30) is provided for detecting the size and temperature of the controlled object (15) using the detection signals from the position displacement detection sensors (12, 14).
    • 公开了一种能够检测受控对象的温度并确保其安全操作而不需要对设备进行任何特殊构造或工作以及任何特殊维护的磁悬浮装置。 在包括彼此相对设置的一对电磁体(11,13)的磁悬浮装置中,设置在所述一对电磁体(11,13)之间的可磁化受控对象(15)和位置偏移检测传感器(12,14) 彼此相对地检测受控物体的位置偏移,其中来自位置检测传感器(12,14)的检测信号被输入到用于执行相位补偿和增益调整的控制电路单元(20),其中 来自控制电路单元(20)的控制输出控制该对电磁体(11,13)的吸引力或排斥力,并且其中受控对象由一对电磁铁磁性地悬挂在任意位置处没有接触, 提供电路单元(30),用于使用来自位置位移的检测信号来检测受控对象(15)的尺寸和温度 nt检测传感器(12,14)。
    • 9. 发明授权
    • Discharge-pumped excimer laser device
    • 放电泵浦准分子激光装置
    • US06539043B1
    • 2003-03-25
    • US09856138
    • 2001-05-29
    • Hiroyuki ShinozakiShinichi SekiguchiToshimitsu BaradaToshiharu Nakazawa
    • Hiroyuki ShinozakiShinichi SekiguchiToshimitsu BaradaToshiharu Nakazawa
    • H01S322
    • F16C32/047H01S3/036H01S3/225
    • The present invention provides a discharge-pumped excimer laser device which includes a laser chamber filled with a laser gas that is deteriorated to a small extent, magnetic bearings and a motor that are resistant to the entry of dust particles, and parts that are held in contact with the laser gas and suffer little damage, and has a long service life. The discharge-pumped excimer laser device according to the present invention has a laser chamber (1) filled with a laserigas and housing at least a pair of main discharge electrodes (2, 2) for producing an electric discharge to be able to oscillate a laser beam, housings (6, 7) joined to opposite sides of the laser chamber (1), a cross flow fan (3) having opposite ends rotatably supported by magnetic bearings (8, 9, 10, 11) accommodated in the housings (6, 7), for producing a high-speed laser gas flow between the main discharge electrodes (2, 2), a motor (12) accommodated in the housing (7) for rotating the cross flow fan (3), laser gas flow passages (61, 62) extending through gaps between rotor side and stator side of the magnetic bearings (8, 9, 10, 11) and the motor (12) over an axial entire length of the housings (6, 7), and communicating with an interior of the laser chamber (1), a laser gas introduction passage (60) extending from the interior of the laser chamber (1) and communicating with the laser gas flow passages (61, 62), and filters (20, 20) disposed in the laser gas introduction passage (60).
    • 本发明提供了一种排出泵浦的准分子激光装置,其包括填充有少量劣化的激光气体的激光室,磁性轴承和抵抗灰尘颗粒进入的电动机以及保持在 与激光气体接触,损伤小,使用寿命长。本发明的排出泵浦准分子激光装置具有填充有激光的激光室(1),并容纳至少一对主放电电极 (2,2),用于产生能够振荡激光束的放电,与激光室(1)的相对侧接合的壳体(6,7),具有相对端部的交叉流动风扇(3),其可旋转地支撑在 容纳在壳体(6,7)中的磁性轴承(8,9,10,11),用于在主放电电极(2,2)之间产生高速激光气流,容纳在壳体 (7),用于旋转横流风扇(3),激光气体 在所述壳体(6,7)的轴向整个长度上延伸穿过所述磁性轴承(8,9,10,11)和所述电动机(12)的转子侧和定子侧之间的间隙的流动通道(61,62),以及 与所述激光室(1)的内部连通,从所述激光室(1)的内部延伸并与所述激光气体流路(61,62)连通的激光气体导入通路(60) 20)设置在激光气体导入通路(60)中。
    • 10. 发明授权
    • Magnetic bearing device
    • 磁轴承装置
    • US06404088B1
    • 2002-06-11
    • US09657067
    • 2000-09-07
    • Toshimitsu BaradaAtsushi OoyamaToshiharu Nakazawa
    • Toshimitsu BaradaAtsushi OoyamaToshiharu Nakazawa
    • H02K709
    • F16C32/0446F16C32/0442F16C2231/00
    • A magnetic bearing device has an object levitated in an arbitrary position between confronting electromagnets. Positional displacement sensors detect a positional displacement of the object. When the electromagnets are successively energized, the object is moved in a mechanically movable maximum range between the electromagnets, and maximum and minimum values of a detected positional displacement signal from the positional displacement sensors are detected. A middle value between the maximum and minimum values is calculated and compared with a threshold level. An adjustment signal is applied to an offset corrector which produces an offset-corrected signal from the detected positional displacement signal, so as to substantially eliminate the difference between the middle value and the threshold level so that the middle value represents a position in which the object is to be levitated between the electromagnets.
    • 磁性轴承装置具有悬浮在面对的电磁体之间的任意位置的物体。 位置位移传感器检测物体的位置位移。 当电磁体依次通电时,物体在电磁铁之间以机械方式移动的最大范围内移动,并且检测来自位置位移传感器的检测到的位置位移信号的最大值和最小值。 计算最大值和最小值之间的中间值,并将其与阈值级别进行比较。 调整信号被应用于从检测到的位置位移信号产生偏移校正信号的偏移校正器,以便基本上消除中间值和阈值水平之间的差异,使得中间值表示对象 将在电磁铁之间悬浮。