| 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 | 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。 | ||||||
| 2 | 螺杆机 | CN200910052584.6 | 2009-06-05 | CN101907094A | 2010-12-08 | 孙志行 |
| 本发明揭示了一种螺杆式压缩机及其电控系统及方法,该系统包括:电源模块、高低压变压器、压缩机接线控制电路。高低压变压器与所述电源模块连接,用以提供至少两组不同电压:低压、高压;压缩机接线控制电路与所述高低压变压器连接,用以控制压缩机接线端子的各端子的通断、及连接方式;所述压缩机接线控制电路通过一连接单元控制所述接线端子的通断、及连接方式;当接入压缩机的电压为第一电压时,连接单元控制接线端子形成的接线电路呈第一状态;当接入压缩机的电压为第二电压时,连接单元控制接线端子形成的接线电路呈第二状态。本发明揭示的压缩机的电控系统,只需改变接线盘端子上短接片即可方便地实现高低压之间的互换,电机的接线方式不需改变。 | ||||||
| 3 | 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。 | ||||||
| 4 | 流体泵 | CN03125516.7 | 2003-09-09 | CN1270092C | 2006-08-16 | 藏本觉; 川口真广; 山本真也; 星野伸明; 桑原卫 |
| 一种流体泵包括壳体,驱动源,转动单元和泵装置。该驱动源容纳于壳体内并且包括一用以旋转的转动部件。该转动单元包括转动部件和转轴,该转动单元可操作地连接到转动部件上用以旋转。该转动单元形成接合部分用以与壳体外制备的维护工具接合。该泵装置位于壳体内,并根据转轴的旋转进行操作。允许装置形成于壳体内,用以允许维护工具与接合部分接合,从而使得维护工具面对该接合部分。在维护工具和接合部分接合的状态下通过旋转维护工具从而使转轴进行旋转。 | ||||||
| 5 | 流体泵 | CN03125516.7 | 2003-09-09 | CN1495362A | 2004-05-12 | 藏本觉; 川口真广; 山本真也; 星野伸明; 桑原卫 |
| 一种流体泵包括壳体,驱动源,转动单元和泵装置。该驱动源容纳于壳体内并且包括一用以旋转的转动部件。该转动单元包括转动部件和转轴,该转动单元可操作地连接到转动部件上用以旋转。该转动单元形成接合部分用以与壳体外制备的维护工具接合。该泵装置位于壳体内,并根据转轴的旋转进行操作。允许装置形成于壳体内,用以允许维护工具与接合部分接合,从而使得维护工具面对该接合部分。在维护工具和接合部分接合的状态下通过旋转维护工具从而使转轴进行旋转。 | ||||||
| 6 | 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. | ||||||
| 7 | 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. | ||||||
| 8 | SCREW COMPRESSOR | US12788635 | 2010-05-27 | US20100310402A1 | 2010-12-09 | CHIH-HSING SUN |
| The invention revealed a screw compressor and its electrical control system and related control methods. The system comprises a power module, a high-low (tension) transformer and a compressor wiring control circuit. The high-low (tension) transformer connects the power module to provide at least two different voltages: low voltage and high voltage; the compressor wiring control circuit connects said high-low (tension) transformer to control the switching and connection mode of said wiring terminals of the compressor; When the first voltage is connected to the screw compressor, the connecting circuit formed by the wiring terminals which are controlled by a connecting unit will be in the first status. When the second voltage is connected to the screw compressor, the connecting circuit formed by the wiring terminals which are controlled by a connecting unit will be in the second status. The electrical control system of the compressor revealed by the invention can easily realize the switching of low and high voltage by changing the jumpers on the wiring terminals of the patch board with no need to change the connection mode of the motor. | ||||||
| 9 | 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. | ||||||
| 10 | 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. | ||||||
| 11 | Dialysis machine for the removal of toxic substances from the blood with agents for the decalcification of a dialysis liquid circulation as well as process for determining the degree of calcification of a dialysis machine | US923245 | 1997-09-04 | US6080321A | 2000-06-27 | Reiner Spickermann |
| A dialysis machine for the removal of toxic substances from biological fluids with agents for the decalcification of a dialysis liquid circulation is disclosed. The dialysis machine allows measurement of the degree of calcification of the dialysis liquid through the use of a blood leak detector or by measuring the dialysis machine pump flow or pump voltage. The invention also includes a process for automatically decalcifying the dialysis liquid circulation when a predetermined degree of calcification of the dialysis machine is measured. | ||||||
| 12 | 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。 | ||||||
| 13 | Fluid pump device | JP2002264328 | 2002-09-10 | JP2004100595A | 2004-04-02 | KURAMOTO SATORU; KAWAGUCHI MASAHIRO; YAMAMOTO SHINYA; HOSHINO NOBUAKI; KUWABARA MAMORU |
| PROBLEM TO BE SOLVED: To provide a fluid pump device easy in maintenance. SOLUTION: A pump mechanism P operated by rotation of rotary shafts 19 and 20 and an electric motor M for rotatably driving the rotary shafts 19 and 20 of the pump mechanism P, are housed in housings H1 to H3. A hexagonal hole 41a engageable with a hexagonal wrench is arranged in an output shaft 41 of the electric motor M. A tool inserting hole 43 for permitting to insert the hexagonal wrench prepared outside the housings H1 to H3 into the motor housing H3, is formed in a position opposed to the hexagonal hole 41a of the output shaft 41 in the motor housing H3. The rotary shafts 19 and 20 of the pump mechanism P are rotated by rotating the hexagonal wrench in a state of engaging with the hexagonal hole 41a of the output shaft 41 in maintenance. COPYRIGHT: (C)2004,JPO | ||||||
| 14 | 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. | ||||||
| 15 | Dialysis system and method for determing calcification degree | JP24265397 | 1997-09-08 | JPH1085327A | 1998-04-07 | SPICKERMANN REINER |
| PROBLEM TO BE SOLVED: To simplify the decalcification of a dialysis system to enhance the operability, by providing the system with a means to start the automatic decalcification cycle of the dialysis fluid in the dialysis system upon detecting a specified calcification degree of the dialysis system, in those systems to remove poisonous substances out of the bicarbonate fluid with a decalcification agent in the dialysis fluid. SOLUTION: A blood leakage detector is made up by being equipped with a two-color LED 1 alternatively emitting, for instance, orange-red and green lights. After about 50% of these lights is decomposed by an optical prism 3, they arrive at a reference receiver 5. The light intensity of two colors is then adjusted by a reference channel so that they become a constant ratio with each other. On the other hand, the rest of the lights is made to be radiated via the cell 7 and a medium (dialysis fluid) in the cell to measure a decrement in the light intensity arriving at the cell receiver 9. Evaluating a ratio of changes in light intensity, the decalcification cycle is stared, when the output power decreases as the calcification increase upon operating the bicarbonate dialysis to reach a given threshold value. | ||||||
| 16 | Method for determining the calcification of the dialysis machine and dialyzer | JP24265397 | 1997-09-08 | JP3954166B2 | 2007-08-08 | シュピッカーマン ライナー |
| The dialysis unit removes toxic substances from biological fluids, and has a device for removing limescale from a dialysis fluid circuit. A device is provided by which, on observation of a predetermined degree of scale accumulation, the removal process proceeds automatically. Also claimed is the process for determining the degree of scaling. | ||||||
| 17 | Fluid pumping device | JP2002264328 | 2002-09-10 | JP3896930B2 | 2007-03-22 | 真也 山本; 真広 川口; 伸明 星野; 衛 桑原; 覚 藏本 |
| 18 | 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. | ||||||
| 19 | Hermetic multistage vacuum pump | EP03019688.5 | 2003-09-09 | EP1398506B1 | 2011-08-24 | Kuramoto, Satoru, K.K. Toyota Jidoshokki; Kawaguchi, Masahiro, K.K. Toyota Jidoshokki; Yamamoto, Shinya, K.K. Toyota Jidoshokki; Hoshino, Nobuaki, K.K. Toyota Jidoshokki; Kuwahara, Mamoru, K.K. Toyota Jidoshokki |
| 20 | METHOD OF OPERATING A PUMPING SYSTEM | EP06701044.7 | 2006-01-23 | EP1844237A1 | 2007-10-17 | 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. | ||||||
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