公开(公告)号：US06982064B1

公开(公告)日：2006-01-03

申请号：US10018198

申请日：2000-06-10

申请人： Wolfgang Ehrfeld ,  Frank Michel ,  Astrid Lohf ,  Volker Graeff

发明人： Wolfgang Ehrfeld ,  Frank Michel ,  Astrid Lohf ,  Volker Graeff

IPC分类号： G01N33/48 ,  B01F15/00 ,  B01F5/06

CPC分类号： H04W28/22 ,  H04B7/26 ,  H04W28/24

摘要： Known static micromixers that work according to the principle of multilamination allow for a rapid mixing by diffusion. The invention provides a means for substantially increasing the throughput of known micromixers. To this end, the inventive micromixer for mixing two or more reactants comprises microstructures that define mixer cells. Each of said mixer cells is provided with a feeding chamber which adjoins at least two groups of digital channels. Said channels intermesh with the digital channels of the groups adjoining the feeding channels in a comb-like manner, thereby producing mixing zones]. Outlet ports are located above said mixing zones, said outlet ports extending perpendicularly to the digital channels and discharging the product. The inventive micromixer is especially useful for the large-scale production of mixtures, dispersions and emulsions.

摘要翻译： 根据多层结构原理工作的已知的静态微混合器允许通过扩散快速混合。 本发明提供了用于显着提高已知微混合器的通过量的方法。 为此，用于混合两种或多种反应物的本发明的微混合器包括限定混合器电池的微结构。 每个所述混合器单元设置有与至少两组数字通道相邻的进料室。 所述通道以梳状方式与邻接进料通道的组的数字通道相互啮合，从而产生混合区。 出口端口位于所述混合区上方，所述出口端口垂直于数字通道延伸并排出产品。 本发明的微混合器特别适用于大规模生产混合物，分散体和乳液。

公开(公告)号：US06484582B2

公开(公告)日：2002-11-26

申请号：US09829808

申请日：2001-04-10

申请人： Wolfgang Ehrfeld ,  Volker Graeff ,  Frank Michel ,  Sven Gempper ,  Jens Heim ,  Joachim Hering ,  Horst Masuch ,  Edgar Streit ,  Vasilis Hassiotis ,  Henri Van Der Knokke

发明人： Wolfgang Ehrfeld ,  Volker Graeff ,  Frank Michel ,  Sven Gempper ,  Jens Heim ,  Joachim Hering ,  Horst Masuch ,  Edgar Streit ,  Vasilis Hassiotis ,  Henri Van Der Knokke

IPC分类号： G01M1302

CPC分类号： F16C33/58 ,  F16C19/06 ,  F16C19/522 ,  F16C19/525 ,  F16C41/008 ,  F16C2300/02 ,  G01L1/165 ,  G01L5/0009

摘要： A rolling bearing which has as rolling bearing components one bearing race with a first running surface, a second bearing race with a second running surface opposed to the first surface, and rolling elements arranged between the running surfaces. At least one sensing unit is integrated into the rolling bearing components. The sensing unit can be interrogated by radio via antennas or can be connected to an interrogator by a cable. The sensing unit uses at least one component operating on the SAW or BAW principle to sense changes in length and/or changes in temperature in the material of the rolling bearing component and sends the result of the measurement after the arrival of a radio signal via the antenna or via a cable.