| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 操作泵系统的方法 | CN200680009250.5 | 2006-01-23 | CN101184921A | 2008-05-21 | S·H·布鲁斯 |
| 一种将容器抽真空的泵系统包括泵机构(30)、驱动该泵机构的电机(32)、和控制该电机的控制器(36)。该控制器设定电机旋转频率的最大值和电机中电流的最大值,以便优化泵系统的性能,在将容器抽真空的过程中独立地调节该最大值。 | ||||||
| 2 | 泵系统和操作泵系统的方法 | CN200680009250.5 | 2006-01-23 | CN101184921B | 2010-05-26 | S·H·布鲁斯 |
| 一种将容器抽真空的泵系统包括泵机构(30)、驱动该泵机构的电机(32)、和控制该电机的控制器(36)。该控制器设定电机旋转频率的最大值和电机中电流的最大值,以便优化泵系统的性能,在将容器抽真空的过程中独立地调节该最大值。 | ||||||
| 3 | 电动油泵 | CN201010282813.6 | 2010-09-13 | CN102086863A | 2011-06-08 | 小林喜幸; 筏尚武 |
| 本发明涉及一种能够在怠速熄火时得到良好的变速器操作性能的电动油泵。在步骤1中判断为发动机熄火时电动油泵(4)的预备动作未正常进行的情况下,使发动机的驱动继续。在步骤1中判断为预备动作正常,并在步骤2中判断为供给通路的管路压力比规定的压力Ps低。在步骤3中判断为电动油泵(4)未工作的情况下,在步骤4中使电动机通电而使电动油泵(4)开始工作。在步骤5中判断为制动操作被解除并且发动机启动、并在步骤6中判断为管路压力比规定的油压Pt高的情况下,在步骤7中使电动油泵(4)停止工作。 | ||||||
| 4 | 泵抽系统及运行方法 | CN200680014635.0 | 2006-04-13 | CN101166902B | 2010-08-04 | S·H·布鲁斯 |
| 一种泵抽系统,包括泵抽机构(30);用于驱动该泵抽机构的马达(32);用于给该马达供应变频电源的装置(40);用于在该马达内为电流设定最大值的控制装置(42;52);以及用于给该控制装置供应数据的装置(44,46),该数据代表从该泵抽机构排出的气体的温度以及该泵抽机构的该定子的温度。其中该控制装置(42;52)配置为使用该接收到的数据,以便在该泵抽系统运行过程中调节该最大值。这可以防止在该泵抽系统运行过程中该泵抽机构的转子与定子之间的碰撞。 | ||||||
| 5 | 泵抽系统及运行方法 | CN200680014635.0 | 2006-04-13 | CN101166902A | 2008-04-23 | S·H·布鲁斯 |
| 一种泵抽系统,包括泵抽机构(30);用于驱动该泵抽机构的马达(32);用于给该马达供应变频电源的装置(40);用于在该马达内为电流设定最大值的控制装置(42;52);以及用于给该控制装置供应数据的装置(44,46),该数据代表从该泵抽机构排出的气体的温度以及该泵抽机构的该定子的温度。其中该控制装置(42;52)配置为使用该接收到的数据,以便在该泵抽系统运行过程中调节该最大值。这可以防止在该泵抽系统运行过程中该泵抽机构的转子与定子之间的碰撞。 | ||||||
| 6 | Method of operating a pumping system | US11883616 | 2006-01-23 | US09062684B2 | 2015-06-23 | Simon Harold Bruce |
| A pumping system for evacuating an enclosure comprises a pumping mechanism (30), a motor (32) for driving the pumping mechanism, and a controller (36) for controlling the motor. The controller sets a maximum value for a rotational frequency of the motor and a maximum value for a current in the motor, and, to optimize the performance of the pumping system, independently adjusts the maximum values during evacuation of the enclosure. | ||||||
| 7 | METHOD OF OPERATING A PUMPING SYSTEM | US11883616 | 2006-01-23 | US20100047080A1 | 2010-02-25 | Simon Harold Bruce |
| A pumping system for evacuating an enclosure comprises a pumping mechanism (30), a motor (32) for driving the pumping mechanism, and a controller (36) for controlling the motor. The controller sets a maximum value for a rotational frequency of the motor and a maximum value for a current in the motor, and, to optimise the performance of the pumping system, independently adjusts the maximum values during evacuation of the enclosure. | ||||||
| 8 | Method of operating a pumping system | US14569170 | 2014-12-12 | US09903378B2 | 2018-02-27 | Simon Harold Bruce |
| A pumping system for evacuating an enclosure comprises a pumping mechanism (30), a motor (32) for driving the pumping mechanism, and a controller (36) for controlling the motor. The controller sets a maximum value for a rotational frequency of the motor and a maximum value for a current in the motor, and, to optimise the performance of the pumping system, independently adjusts the maximum values during evacuation of the enclosure. | ||||||
| 9 | Pumping system and method of operation | US11919535 | 2006-04-13 | US08753095B2 | 2014-06-17 | Simon Harold Bruce |
| A pumping system includes a pumping mechanism, a motor for driving the pumping mechanism, a device for supplying power of a variable frequency to the motor, a control device for setting a maximum value for a current in the motor, and a device for supplying to the control device data indicative of the temperature of gas exhaust from the pumping mechanism and a temperature of the stator of the pumping mechanism, wherein the control device is configured to use the received data to adjust the maximum value during operation of the pumping system. | ||||||
| 10 | METHOD OF OPERATING A PUMPING SYSTEM | US14569170 | 2014-12-12 | US20150125312A1 | 2015-05-07 | Simon Harold Bruce |
| A pumping system for evacuating an enclosure comprises a pumping mechanism (30), a motor (32) for driving the pumping mechanism, and a controller (36) for controlling the motor. The controller sets a maximum value for a rotational frequency of the motor and a maximum value for a current in the motor, and, to optimise the performance of the pumping system, independently adjusts the maximum values during evacuation of the enclosure. | ||||||
| 11 | Electric-motor-driven oil pump control system | US12884536 | 2010-09-17 | US08475137B2 | 2013-07-02 | Yoshiyuki Kobayashi; Hisatake Ikada |
| In an electric-motor-driven oil pump unit with automatic engine-stop system interaction, in which an electric-motor-driven oil pump is driven by an electric motor for hydraulic pressure supply to a transmission of an automotive vehicle employing an automatic engine-stop system, at least in a stopped state of a mechanical oil pump driven by the engine, a motor current/speed detector is provided for detecting a motor current and/or a motor speed of the electric motor. Also provided is a controller configured to output an inhibiting signal to the automatic engine-stop system for inhibiting a mode shift to an automatic engine-stop mode, when a change in the motor current and/or the motor speed during a preliminary operation of the electric-motor-driven oil pump executed from a point of time when an automatic engine-stop condition of the vehicle becomes satisfied, is out of a specified characteristic. | ||||||
| 12 | ELECTRIC-MOTOR-DRIVEN OIL PUMP CONTROL SYSTEM | US12884536 | 2010-09-17 | US20110129356A1 | 2011-06-02 | Yoshiyuki Kobayashi; Hisatake Ikada |
| In an electric-motor-driven oil pump unit with automatic engine-stop system interaction, in which an electric-motor-driven oil pump is driven by an electric motor for hydraulic pressure supply to a transmission of an automotive vehicle employing an automatic engine-stop system, at least in a stopped state of a mechanical oil pump driven by the engine, a motor current/speed detector is provided for detecting a motor current and/or a motor speed of the electric motor. Also provided is a controller configured to output an inhibiting signal to the automatic engine-stop system for inhibiting a mode shift to an automatic engine-stop mode, when a change in the motor current and/or the motor speed during a preliminary operation of the electric-motor-driven oil pump executed from a point of time when an automatic engine-stop condition of the vehicle becomes satisfied, is out of a specified characteristic. | ||||||
| 13 | Pumping system and method of operation | US11919535 | 2006-04-13 | US20090317261A1 | 2009-12-24 | Simon Harold Bruce |
| A pumping system comprises a pumping mechanism, a motor for driving the pumping mechanism, means for supplying power of a variable frequency to the motor, control means for setting a maximum value for a current in the motor, and means for supplying to the control means data indicative of the temperature of gas exhaust from the pumping mechanism and a temperature of the stator of the pumping mechanism, wherein the control means is configured to use the received data to adjust the maximum value during operation of the pumping system. | ||||||
| 14 | Method of operating a pump system | JP2007553680 | 2006-01-23 | JP2008529472A | 2008-07-31 | サイモン ハロルド ブルース |
| 本発明は、包囲体を排気するためのポンプシステムに関する。 本発明によるポンプシステムは、ポンプ機構(30)と、ポンプ機構(30)を駆動するモータ(32)と、モータ(32)を制御するコントローラ(36)を有する。 コントローラ(36)は、モータ(32)の回転周波数の最大値及びモータ(32)内の電流の最大値を設定すると共に、包囲体の排気中、ポンプシステムの性能を最適化するために、回転周波数の最大値及びモータ(32)内の電流の最大値を独立に調整する。 | ||||||
| 15 | The electric oil pump | JP2009274023 | 2009-12-02 | JP5306974B2 | 2013-10-02 | 喜幸 小林; 尚武 筏 |
| In an electric-motor-driven oil pump unit with automatic engine-stop system interaction, in which an electric-motor-driven oil pump is driven by an electric motor for hydraulic pressure supply to a transmission of an automotive vehicle employing an automatic engine-stop system, at least in a stopped state of a mechanical oil pump driven by the engine, a motor current/speed detector is provided for detecting a motor current and/or a motor speed of the electric motor. Also provided is a controller configured to output an inhibiting signal to the automatic engine-stop system for inhibiting a mode shift to an automatic engine-stop mode, when a change in the motor current and/or the motor speed during a preliminary operation of the electric-motor-driven oil pump executed from a point of time when an automatic engine-stop condition of the vehicle becomes satisfied, is out of a specified characteristic. | ||||||
| 16 | PUMPING SYSTEM AND METHOD OF OPERATION | EP06726746.8 | 2006-04-13 | EP1875075A1 | 2008-01-09 | BRUCE, Simon Harold |
| A pumping system comprises a pumping mechanism (30); a motor (32) for driving the pumping mechanism; means (40) for supplying power of a variable frequency to the motor; control means (42; 52) for setting a maximum value for a current in the motor; and means (44, 46) for supplying to the control means data indicative of the temperature of gas exhaust from the pumping mechanism and a temperature of the stator of the pumping mechanism, wherein the control means (42; 52) is configured to use the received data to adjust said maximum value during operation of the pumping system. This can prevent clashing between a rotor and the stator of the pumping mechanism during operation of the pumping system. | ||||||
| 17 | Method of operating a pump system | JP2007553680 | 2006-01-23 | JP5189842B2 | 2013-04-24 | サイモン ハロルド ブルース |
| A pumping system for evacuating an enclosure comprises a pumping mechanism (30), a motor (32) for driving the pumping mechanism, and a controller (36) for controlling the motor. The controller sets a maximum value for a rotational frequency of the motor and a maximum value for a current in the motor, and, to optimize the performance of the pumping system, independently adjusts the maximum values during evacuation of the enclosure. | ||||||
| 18 | Electric oil pump | JP2009274023 | 2009-12-02 | JP2011117333A | 2011-06-16 | KOBAYASHI YOSHIYUKI; IKADA NAOTAKE |
| <P>PROBLEM TO BE SOLVED: To provide an electric oil pump that can obtain favorable operability of a transmission at the time of an idling stop mode. <P>SOLUTION: When, at Step 1, a preliminary operation of an electric oil pump 4 at the time of stopping the engine is determined as not being normally actuated, the engine is continuously operated. At Step 1, the preliminary operation is determined as being normally actuated, and a line pressure in a supply passage is determined as being below a predetermined pressure Ps at Step 2. When the electric oil pump 4 is determined as not being operated at Step 3, the electric oil pump is actuated by supplying operating current to an electric motor at Step 4. When, at Step 5, a brake operation is determined as being released and the engine is determined as being started and, at Step 6, the line pressure is determined as being below a predetermined oil pressure Pt, the electric oil pump 4 is stopped at Step 7. <P>COPYRIGHT: (C)2011,JPO&INPIT | ||||||
| 19 | VACUUM PUMPING SYSTEM AND METHOD OF OPERATION | EP06701044.7 | 2006-01-23 | EP1844237B1 | 2015-11-18 | BRUCE, Simon Harold |
| A pumping system for evacuating an enclosure comprises a pumping mechanism (30), a motor (32) for driving the pumping mechanism, and a controller (36) for controlling the motor. The controller sets a maximum value for a rotational frequency of the motor and a maximum value for a current in the motor, and, to optimize the performance of the pumping system, independently adjusts the maximum values during evacuation of the enclosure. | ||||||
| 20 | PUMPING SYSTEM AND METHOD OF OPERATION | EP06726746.8 | 2006-04-13 | EP1875075B1 | 2015-09-30 | BRUCE, Simon Harold |
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