子分类:
| 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 | 多头泵 | CN201380062388.1 | 2013-12-17 | CN104822942A | 2015-08-05 | H·韦伯 |
| 本发明涉及一种适配式偏心螺杆泵(2),该偏心螺杆泵能够根据需要提高输送功率、压力和/或同时输送多于一种输送介质,其中偏心螺杆泵(2)具有相对小的能量消耗并且将其制造费用和维修费用保持得很低。对此,根据本发明偏心螺杆泵(2)配置有模块化的输送系统,该偏心螺杆泵包括至少两个分别包括转子(10)和定子(8)的输送模块(4、6、38、40),其中这些输送模块(4、6、38、40)相互联接并且为输送系统仅配置一个驱动机构(14),并且其中所述输送系统针对输送介质而具有多于一个的入口和/或出口(18、24)或者至少一个模块化的穿流壳体(12)。 | ||||||
| 2 | Pump for Torque Transfer Device | US15597659 | 2017-05-17 | US20180335127A1 | 2018-11-22 | Travis J. Wentz; Blake R. Hedges |
| A torque transfer device for a powertrain of a vehicle includes a shaft, a pump, and an actuator. The shaft transfers torque from a drive source to a wheel of the vehicle. The pump includes a rotary component and a housing that surround the shaft. The rotary component is selectively coupleable to the shaft to be rotated thereby to operate the pump. The actuator includes a cam mechanism that selectively couples the rotary component to the shaft. | ||||||
| 3 | Multiple Pump Arrangement | US14742230 | 2015-06-17 | US20150285245A1 | 2015-10-08 | Helmuth Weber |
| An adaptive eccentric screw pump, which enables, if necessary, an increase of the output, the pressure and/or the simultaneous output of more than one output medium, and wherein the eccentric screw pump has comparably low energy consumption and the production and maintenance expenditure thereof is kept low. For this purpose, the eccentric screw pump is equipped with a modular output system, including at least two output modules having in each case one rotor and one stator, wherein the output modules are coupled to one another and merely one actuation unit is associated with the output system, and wherein the output system for an output medium has more than one inlet and/or outlet or at least one modular perfusion housing. | ||||||
| 4 | AXIAL FAN COMPACT BEARING VISCOUS PUMP | US12568098 | 2009-09-28 | US20110073412A1 | 2011-03-31 | Philip Hoyle; Glenn Huebscher |
| Axial fan compact bearing viscous pump having two spaced apart bearing housings and a bearing supported within each bearing housing. A shaft is supported within each bearing housing. The shaft has two oil disks, each bearing having an oil disk proximate thereto. The portion of each bearing housing fitting about a respective one of the oil disks forms a viscous pump housing. The viscous pump housing has an oil inlet and an oil outlet. The oil outlet is spaced from the oil inlet. On an inner periphery of the viscous pump housing, an oil channel in an inner periphery facing an outer periphery of the one of the oil disks extends only partway around the viscous pump housing inner periphery. The oil channel extends from the oil inlet in the direction of rotation of the shaft to a point beyond the oil outlet. | ||||||
| 5 | 多連ポンプ | JP2015548198 | 2013-12-17 | JP6101363B2 | 2017-03-22 | ヘルムート ヴェーバー |
| 6 | 多連ポンプ | JP2015548198 | 2013-12-17 | JP2016505756A | 2016-02-25 | ヴェーバー ヘルムート |
| 本発明は、適応性を有する偏心スクリューポンプ(2)に関する。本発明の偏心スクリューポンプ(2)は、必要に応じて、出力の増加を可能にし、圧力の増加を可能にし、及び/又は、2つ以上の搬送媒体の搬送を同時に可能にすると共に、エネルギー消費量が比較的小さく、しかも製造及びメンテナンスコストが安価である。本発明によれば、この目的を達成するために、出力システムを備える偏心スクリューポンプ(2)は、ロータ(10)及びステータ(8)を1個ずつ含む少なくとも2個のモジュール式の出力モジュール(4,6,38,40)を備える。該出力モジュール(4,6,38,40)は互いに結合され、また出力システムには単一の作動ユニット(14)だけが割り当てられ、更に出力媒体のための出力システムは、2つ以上の入口及び/若しくは出口(18,24)を含むか、又は少なくとも1個のモジュール式の貫流ハウジング(12)を含む。【選択図】図2 | ||||||
| 7 | Rotary injection pump | JP2013501348 | 2011-03-21 | JP2013521990A | 2013-06-13 | ジョージ エー. デルカスティリョ,; ロンシェン リン,; ホン ズー,; トーマス イー. ドューダー, |
| 注入ポンプ(110)は、筐体(112)と、筐体内に挿入されるロータ(230)であって、ロータは、筐体とともにチャネルを形成する表面(236a)の第1のリング(38a)、および筐体とともにチャネルを形成する表面(236b)の第2のリング(38b)を含み、第2のチャネル形成表面は、第1のチャネル形成表面から半径方向にオフセットされている、ロータと、ロータを回転させ、第1および第2のチャネル形成表面が流体の流動を圧送するようにさせるように動作可能に係合されるモータ(40)とを含み、第1のチャネル形成表面からの第2のチャネル形成表面の半径方向オフセットは、流体の流動の拍動性を抑制する。 | ||||||
| 8 | VAKUUMPUMPEN-SYSTEM | EP14718365.1 | 2014-04-10 | EP2989295A1 | 2016-03-02 | BOUHADID, Hakim; PRIEUR-BLANC, Serge |
| A vacuum-pump system has a first vacuum pump (10), which is not sensitive to particles. A second vacuum pump (12), which is connected to the first vacuum pump (10), is sensitive to particles. The connecting element (14) between the two vacuum pumps (10, 12) is designed in such a way that the connecting element establishes a rigid connection and supports the first vacuum pump (10). Furthermore, the connecting element (14) is connected to filter elements (18, 20). The provision of a steel frame that supports the vacuum pumps is not required. | ||||||
| 9 | MEHRFACHPUMPE | EP13836227.2 | 2013-12-17 | EP2935890A2 | 2015-10-28 | WEBER, Helmuth |
| The invention relates to an adaptive eccentric screw pump (2), which enables, if necessary, an increase of the output, the pressure and/or the simultaneous output of more than one output medium, and wherein the eccentric screw pump (2) has comparably low energy consumption and the production and maintenance expenditure thereof is kept low. For this purpose, according to the invention, the eccentric screw pump (2) is equipped with a modular output system, comprising at least two output modules (4, 6, 38, 40) comprising in each case one rotor (10) and one stator (8), wherein the output modules (4, 6, 38, 40) are coupled to one another and merely one actuation unit (14) is associated with the output system, and wherein the output system for an output medium has more than one inlet and/or outlet (18, 24) or at least one modular perfusion housing (12). | ||||||
| 10 | ROTARY INFUSION PUMPS | EP11710650.0 | 2011-03-21 | EP2550039B1 | 2014-06-04 | DELCASTILLO, Jorge A.; LIN, Rongsheng; ZHU, Hong; DUDAR, Thomas E. |
| 11 | ROTARY INFUSION PUMPS | EP11710650.0 | 2011-03-21 | EP2550039A2 | 2013-01-30 | DELCASTILLO, Jorge A.; LIN, Rongsheng; ZHU, Hong; DUDAR, Thomas E. |
| An infusion pump (110) includes a housing (112); a rotor (230) inserted into the housing, the rotor including a first ring (38a) of surfaces (236a) that form channels with the housing, and a second ring (38b) of surfaces (236b) that form channels with the housing, the second channel forming surfaces radially offset from the first channel forming surfaces; and a motor (40) operably engaged to rotate the rotor to cause the first and second channel forming surfaces to pump a flow of fluid, the radial offsetting of the second channel forming surfaces from the first channel forming surfaces dampening a pulsatility of the flow of fluid. | ||||||
| 12 | 다중 펌프 장치 | KR1020157019332 | 2013-12-17 | KR101728260B1 | 2017-04-18 | 베버헬무트 |
| 본발명은적응형편심스크루펌프에관한것으로서, 이펌프는필요에따라이송용량및 압력의증가및/또는하나이상의이송매체의동시이송을가능하게하며, 이경우편심스크루펌프(2)의에너지소비는비교적적고, 그제조비용및 관리비용도낮게유지된다. 이를위해, 본발명에따라편심스크루펌프(2)에모듈식이송시스템이장착되고, 이모듈식이송시스템은각각하나의회전자(10) 및하나의고정자(8)를포함하는 2개이상의이송모듈들(4, 6, 38, 40)을구비하며, 이경우상기이송모듈들(4, 6, 38, 40)은서로연결되고, 이송시스템에는단 하나의구동장치(14)가할당되며, 이송매체용이송시스템은하나이상의입구및/또는출구(18, 24) 또는하나이상의모듈식관류하우징(12)을구비한다. | ||||||
| 13 | 다중 펌프 장치 | KR1020157019332 | 2013-12-17 | KR1020150094772A | 2015-08-19 | 베버헬무트 |
| 본 발명은 적응형 편심 스크루 펌프에 관한 것으로서, 이 펌프는 필요에 따라 이송 용량 및 압력의 증가 및/또는 하나 이상의 이송 매체의 동시 이송을 가능하게 하며, 이 경우 편심 스크루 펌프(2)의 에너지 소비는 비교적 적고, 그 제조 비용 및 관리 비용도 낮게 유지된다. 이를 위해, 본 발명에 따라 편심 스크루 펌프(2)에 모듈식 이송 시스템이 장착되고, 이 모듈식 이송 시스템은 각각 하나의 회전자(10) 및 하나의 고정자(8)를 포함하는 2개 이상의 이송 모듈들(4, 6, 38, 40)을 구비하며, 이 경우 상기 이송 모듈들(4, 6, 38, 40)은 서로 연결되고, 이송 시스템에는 단 하나의 구동 장치(14)가 할당되며, 이송 매체용 이송 시스템은 하나 이상의 입구 및/또는 출구(18, 24) 또는 하나 이상의 모듈식 관류 하우징(12)을 구비한다. | ||||||
| 14 | MULTIPLE PUMP ARRANGEMENT | PCT/DE2013000802 | 2013-12-17 | WO2014094715A3 | 2014-12-04 | WEBER HELMUTH |
| The invention relates to an adaptive eccentric screw pump (2), which enables, if necessary, an increase of the output, the pressure and/or the simultaneous output of more than one output medium, and wherein the eccentric screw pump (2) has comparably low energy consumption and the production and maintenance expenditure thereof is kept low. For this purpose, according to the invention, the eccentric screw pump (2) is equipped with a modular output system, comprising at least two output modules (4, 6, 38, 40) comprising in each case one rotor (10) and one stator (8), wherein the output modules (4, 6, 38, 40) are coupled to one another and merely one actuation unit (14) is associated with the output system, and wherein the output system for an output medium has more than one inlet and/or outlet (18, 24) or at least one modular perfusion housing (12). | ||||||
| 15 | MULTIPLE PUMP ARRANGEMENT | PCT/DE2013000802 | 2013-12-17 | WO2014094715A4 | 2015-01-22 | WEBER HELMUTH |
| The invention relates to an adaptive eccentric screw pump (2), which enables, if necessary, an increase of the output, the pressure and/or the simultaneous output of more than one output medium, and wherein the eccentric screw pump (2) has comparably low energy consumption and the production and maintenance expenditure thereof is kept low. For this purpose, according to the invention, the eccentric screw pump (2) is equipped with a modular output system, comprising at least two output modules (4, 6, 38, 40) comprising in each case one rotor (10) and one stator (8), wherein the output modules (4, 6, 38, 40) are coupled to one another and merely one actuation unit (14) is associated with the output system, and wherein the output system for an output medium has more than one inlet and/or outlet (18, 24) or at least one modular perfusion housing (12). | ||||||
| 16 | ROTARY INFUSION PUMPS | PCT/US2011029145 | 2011-03-21 | WO2011119464A4 | 2012-01-19 | DELCASTILLO JORGE A; LIN RONGSHENG; ZHU HONG; DUDAR THOMAS E |
| An infusion pump (110) includes a housing (112); a rotor (230) inserted into the housing, the rotor including a first ring (38a) of surfaces (236a) that form channels with the housing, and a second ring (38b) of surfaces (236b) that form channels with the housing, the second channel forming surfaces radially offset from the first channel forming surfaces; and a motor (40) operably engaged to rotate the rotor to cause the first and second channel forming surfaces to pump a flow of fluid, the radial offsetting of the second channel forming surfaces from the first channel forming surfaces dampening a pulsatility of the flow of fluid. | ||||||
| 17 | ROTARY INFUSION PUMPS | PCT/US2011029145 | 2011-03-21 | WO2011119464A3 | 2011-11-17 | DELCASTILLO JORGE A; LIN RONGSHENG; ZHU HONG; DUDAR THOMAS E |
| An infusion pump (110) includes a housing (112); a rotor (230) inserted into the housing, the rotor including a first ring (38a) of surfaces (236a) that form channels with the housing, and a second ring (38b) of surfaces (236b) that form channels with the housing, the second channel forming surfaces radially offset from the first channel forming surfaces; and a motor (40) operably engaged to rotate the rotor to cause the first and second channel forming surfaces to pump a flow of fluid, the radial offsetting of the second channel forming surfaces from the first channel forming surfaces dampening a pulsatility of the flow of fluid. | ||||||
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