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    • 1. 发明授权
    • Stator coil assembly for superconducting rotating machines
    • 用于超导旋转机的定子线圈组件
    • US06879081B1
    • 2005-04-12
    • US09632601
    • 2000-08-04
    • Raymond T. HowardBruce B. GamblePeter M. WinnWilliam T. SandSwarn S. Kalsi
    • Raymond T. HowardBruce B. GamblePeter M. WinnWilliam T. SandSwarn S. Kalsi
    • H02K3/24H02K3/47H02K9/22H02K55/02H02K1/12
    • H02K55/04H02K3/24H02K3/47H02K9/22Y02E40/625
    • A stator support system for supporting a stator coil assembly includes a inner support tube having an outer surface; spaced windings supported on the inner support tube with spaces between adjacent windings defining gaps; support members, each disposed within one of the gaps and having a first and second edge configured to mechanically engage the outer surface of the inner support tube; and a cross support positioned over the spaced winding and extending perpendicular to a longitudinal axis of the stator coil assembly. The cross support having a first edge configured to mechanically engage the second edge of the support members. The stator coil assembly can include a stator coil having at least one conductive winding; an electrically insulating material disposed around the stator coil; at least one cooling conduit for receiving a coolant from an outside source, the at least one cooling conduit disposed adjacent a first portion of an outer surface of the stator coil; and a thermally conductive member including graphite and disposed around the at least one cooling conduit and a second portion of the outer surface of the stator coil to transfer heat from the second portion to the at least one cooling conduit, thereby reducing the temperature gradient in the electrically insulating material.
    • 用于支撑定子线圈组件的定子支撑系统包括具有外表面的内支撑管; 支撑在内部支撑管上的间隔的绕组,在相邻的绕组之间限定间隙; 支撑构件,每个支撑构件设置在一个间隙内,并且具有构造成机械地接合内部支撑管的外表面的第一和第二边缘; 以及位于所述间隔开的绕组上并且垂直于所述定子线圈组件的纵向轴线延伸的十字支架。 交叉支撑件具有被配置为机械地接合支撑构件的第二边缘的第一边缘。 定子线圈组件可以包括具有至少一个导电绕组的定子线圈; 设置在定子线圈周围的电绝缘材料; 至少一个用于从外部源接收冷却剂的冷却管道,所述至少一个冷却管道邻近所述定子线圈的外表面的第一部分设置; 以及包括石墨并且设置在所述至少一个冷却导管周围的导热构件和所述定子线圈的外表面的第二部分,以将热量从所述第二部分传递到所述至少一个冷却导管,从而降低所述定子线圈中的温度梯度 电绝缘材料。
    • 3. 发明授权
    • Stator coil assembly for superconducting rotating machines
    • 用于超导旋转机的定子线圈组件
    • US06888286B2
    • 2005-05-03
    • US10061103
    • 2002-02-01
    • Raymond T. HowardBruce B. GamblePeter M. WinnWilliam T. SandSwarn S. Kalsi
    • Raymond T. HowardBruce B. GamblePeter M. WinnWilliam T. SandSwarn S. Kalsi
    • H02K3/24H02K3/47H02K9/22H02K55/02H02K1/12H02K3/14H02K55/04
    • H02K55/04H02K3/24H02K3/47H02K9/22Y02E40/625
    • A stator support system for supporting a stator coil assembly includes an inner support tube having an outer surface; spaced windings supported on the inner support tube with spaces between adjacent windings defining gaps; support members, each disposed within one of the gaps and having a first and second edge configured to mechanically engage the outer surface of the inner support tube; and a cross support positioned over the spaced winding and extending perpendicular to a longitudinal axis of the stator coil assembly. The cross support having a first edge configured to mechanically engage the second edge of the support members. The stator coil assembly can include a stator coil having at least one conductive winding; an electrically insulating material disposed around the stator coil; at least one cooling conduit for receiving a coolant from an outside source, the at least one cooling conduit disposed adjacent a first portion of an outer surface of the stator coil; and a thermally conductive member including graphite and disposed around the at least one cooling conduit and a second portion of the outer surface of the stator coil to transfer heat from the second portion to the at least one cooling conduit, thereby reducing the temperature gradient in the electrically insulating material.
    • 用于支撑定子线圈组件的定子支撑系统包括具有外表面的内支撑管; 支撑在内部支撑管上的间隔的绕组,在相邻的绕组之间限定间隙; 支撑构件,每个支撑构件设置在一个间隙内,并且具有构造成机械地接合内部支撑管的外表面的第一和第二边缘; 以及位于所述间隔开的绕组上并且垂直于所述定子线圈组件的纵向轴线延伸的十字支架。 交叉支撑件具有被配置为机械地接合支撑构件的第二边缘的第一边缘。 定子线圈组件可以包括具有至少一个导电绕组的定子线圈; 设置在定子线圈周围的电绝缘材料; 至少一个用于从外部源接收冷却剂的冷却管道,所述至少一个冷却管道邻近所述定子线圈的外表面的第一部分设置; 以及包括石墨并且设置在所述至少一个冷却导管周围的导热构件和所述定子线圈的外表面的第二部分,以将热量从所述第二部分传递到所述至少一个冷却导管,从而降低所述定子线圈中的温度梯度 电绝缘材料。
    • 6. 发明申请
    • TUBE PICKING MECHANISM FOR AN AUTOMATED, ULTRA-LOW TEMPERATURE STORAGE AND RETRIEVAL SYSTEM
    • 用于自动超低温储存和检索系统的管道拾取机构
    • US20100028214A1
    • 2010-02-04
    • US12184025
    • 2008-07-31
    • Raymond T. HowardJulian WarhurstBehrouz ZandiMichael A. CarmanJames O'Toole
    • Raymond T. HowardJulian WarhurstBehrouz ZandiMichael A. CarmanJames O'Toole
    • B01L3/00F25D25/00B65G1/00
    • F25D13/06A01N1/0252B01L7/50G01N1/42G01N2035/00445
    • A tube picking mechanism is designed for use in an automated, ultra-low temperature (e.g., −80° C.) storage and retrieval systems which stores biological or chemical samples. The samples are contained in storage tubes held in SBS footprint storage racks that are loaded into trays located within an ultra-low temperature freezer compartment (−80° C.). A tube picking mechanism resides in a tube picking chamber that is located adjacent the freezer compartment. The tube picking chamber is maintained at about −20° C. when the tube picking mechanism is in operation. The tube picking mechanism includes a cache within the tube picking chamber to facilitate fast paced shuttling of the tube racks from the freezer compartment into the tube picking chamber. The shuttle has a clamping mechanism to secure a tube rack in place when a gripper head picks a tube from the rack. The system also includes a push pin that pushes on the bottom of the respective tube as it is being picked from the tube rack. A one-dimensional bar code reader is included within the tube picking chamber. The gripper head is able to move vertically and rotate within the field of view of the one-dimensional bar code reader in order to facilitate identification and reading of one-dimensional bar codes located on the sidewall of picked storage tubes. The system also uses fans to facilitate efficient cooling of the tube picking chamber.
    • 管拾取机构被设计用于存储生物或化学样品的自动化,超低温(例如-80℃)的储存和检索系统。 样品包含在保存在SBS足迹存储架中的储存管中,其装载到位于超低温冷冻室(-80℃)内的托盘中。 管拾取机构位于邻近冷冻室的管采摘室中。 当管采摘机构运行时,管采摘室保持在-20℃左右。 管拾取机构包括管采摘室内的高速缓存器,以便将管架从冷冻室快速往复运动到管采集室中。 梭子具有夹紧机构,用于在夹头从机架拾取管时将管架固定到位。 该系统还包括一个推销,当它从管架上被拾取时,其推动相应管子的底部。 管采摘室中包括一维条形码阅读器。 夹持头能够在一维条形码读取器的视野内垂直移动并旋转,以便于识别和读取位于拾取的存储管的侧壁上的一维条形码。 该系统还使用风扇来促进管采摘室的有效冷却。
    • 8. 发明授权
    • Tube picking mechanism for an automated, ultra-low temperature storage and retrieval system
    • 用于自动化,超低温存储和检索系统的管拾取机构
    • US08176747B2
    • 2012-05-15
    • US12184025
    • 2008-07-31
    • Raymond T. HowardJulian WarhurstBehrouz ZandiMichael A. CarmanJames O'Toole
    • Raymond T. HowardJulian WarhurstBehrouz ZandiMichael A. CarmanJames O'Toole
    • F25D25/00
    • F25D13/06A01N1/0252B01L7/50G01N1/42G01N2035/00445
    • A tube picking mechanism is designed for use in an automated, ultra-low temperature (e.g., −80° C.) storage and retrieval systems which stores biological or chemical samples. The samples are contained in storage tubes held in SBS footprint storage racks that are loaded into trays located within an ultra-low temperature freezer compartment (−80° C.). A tube picking mechanism resides in a tube picking chamber that is located adjacent the freezer compartment. The tube picking chamber is maintained at about −20° C. when the tube picking mechanism is in operation. The tube picking mechanism includes a cache within the tube picking chamber to facilitate fast paced shuttling of the tube racks from the freezer compartment into the tube picking chamber. The shuttle has a clamping mechanism to secure a tube rack in place when a gripper head picks a tube from the rack. The system also includes a push pin that pushes on the bottom of the respective tube as it is being picked from the tube rack. A one-dimensional bar code reader is included within the tube picking chamber. The gripper head is able to move vertically and rotate within the field of view of the one-dimensional bar code reader in order to facilitate identification and reading of one-dimensional bar codes located on the sidewall of picked storage tubes. The system also uses fans to facilitate efficient cooling of the tube picking chamber.
    • 管拾取机构被设计用于存储生物或化学样品的自动化,超低温(例如-80℃)的储存和检索系统。 样品包含在保存在SBS足迹存储架中的储存管中,其装载到位于超低温冷冻室(-80℃)内的托盘中。 管拾取机构位于邻近冷冻室的管采摘室中。 当管采摘机构运行时,管采摘室保持在-20℃左右。 管拾取机构包括管采摘室内的高速缓存器,以便将管架从冷冻室快速往复运动到管采集室中。 梭子具有夹紧机构,用于在夹头从机架拾取管时将管架固定到位。 该系统还包括一个推销,当它从管架上被拾取时,其推动相应管子的底部。 管采摘室中包括一维条形码阅读器。 夹持头能够在一维条形码读取器的视野内垂直移动并旋转,以便于识别和读取位于拾取的存储管的侧壁上的一维条形码。 该系统还使用风扇来促进管采摘室的有效冷却。
    • 9. 发明授权
    • Axially-expandable EM shield
    • 轴向膨胀EM屏蔽
    • US07282832B2
    • 2007-10-16
    • US09956328
    • 2001-09-19
    • Raymond T. Howard
    • Raymond T. Howard
    • H02K1/22H02K9/00
    • H02K55/04H02K11/01Y02E40/625Y10S505/878
    • A superconducting rotating machine includes a stator assembly having at least one stator coil assembly. A rotor assembly, which includes an axial shaft, is configured to rotate within the stator assembly. The rotor assembly includes at least one superconducting winding assembly. A first and second end plate are rigidly attached to the axial shaft at distal ends of the at least one superconducting winding assembly. An asynchronous field filtering shield surrounds the at least one superconducting winding assembly. A first interconnection assembly connects the shield to the first end plate. The first interconnection assembly allows for axial movement between the shield and the first end plate but restricts tangential movement between the same.
    • 超导旋转机器包括具有至少一个定子线圈组件的定子组件。 包括轴向的转子组件构造成在定子组件内旋转。 转子组件包括至少一个超导绕组组件。 第一和第二端板在至少一个超导绕组组件的远端处刚性地附接到轴向轴。 异步场滤波屏蔽围绕至少一个超导绕组组件。 第一互连组件将屏蔽件连接到第一端板。 第一互连组件允许屏蔽件和第一端板之间的轴向运动,但限制其间的切向运动。