Oonk
Friso Antonius Maria Oonk, Vragender NL
Patent application number | Description | Published |
---|---|---|
20150210475 | SNAP-ON POSITION LIMITER FOR A CONVEYOR BELT - A conveyor employs a low-tension, direct drive conveyor belt, and a snap-on position limiter for ensuring proper engagement of the belt and a drive sprocket. The position limiter includes a body, a limiting surface and a snap clap opposite the limiting surface for snapping the position limiter to a mounting shaft. The limiting surface may comprise rotatable rollers mounted to the body, or a continuous arcuate surface. The position limiter may include a mounting arm for mounting a conveyor belt scraper at the front of the position limiter. | 07-30-2015 |
20150210478 | CLEANABLE CONVEYOR FRAME ASSEMBLY INCLUDING SNAP-ON COMPONENTS - A cleanable belt conveyor and a method for making a cleanable belt conveyor having a simplified frame design. The conveyor includes at least one toolbar and one or more auxiliary components mounted to the toolbar using a snap clamp having a protrusion that mates with a channel on the toolbar. | 07-30-2015 |
Herman Johan Oonk, Enschede NL
Patent application number | Description | Published |
---|---|---|
20110100212 | Panel and Use of Such a Panel in a Device for Cleaning Gases by Removing Impurities Therefrom - The invention relates to a panel, comprising: two plates of substantially equal dimensions positioned on each other; which plates are connected medium-tightly to each other along their peripheral zones; which plates enclose a cavity; a feed for feeding a liquid, in particular water, into the cavity; and openings close to and along a peripheral edge of the panel for flow of the liquid out of the cavity during operation such that during operation the openings are situated close to the upper peripheral edge of the panel, wherein the liquid flows downward over at least one outer surface of the panel. | 05-05-2011 |
Johannes Oonk, Enschede NL
Patent application number | Description | Published |
---|---|---|
20100236926 | TEST CHIP WITH PLUG FOR MEASURING THE CONCENTRATION OF AN ANALYTE IN A LIQUID, HOUSING FOR TEST CHIP AND SOCKET FOR PLUG - Measurement device ( | 09-23-2010 |
20100288729 | Methods for Manufacturing a Microstructure - Methods for manufacturing a microstructure, wherein use is made of a powder blasting and/or etching and a single mask layer with openings and structures of varying dimensions, wherein the mask layer at least at one given point in time has been wholly worn away within at least one region by mask erosion while the microstructure is not yet wholly realized. Use can be made of a combination of ‘vertical’ erosion, i.e. parallel to the thickness direction and ‘horizontal’ erosion, i.e. perpendicularly of the thickness direction, of the mask layer. The horizontal mask erosion occurs at the edges of the mask structure. | 11-18-2010 |
20120164679 | BIOLOGICAL MICROFLUIDICS CHIP AND RELATED METHODS - A biological microfluidics chip ( | 06-28-2012 |
20140335301 | Method of Bonding Two Substrates and Device Manufactured Thereby - The invention relates to method for bonding at least two substrates, for example made from glass, silicon, ceramic, aluminum, or boron, by using an intermediate thin film metal layer for providing the bonding, said method comprising the following steps of: a) providing said two substrates; b) depositing said thin film metal layer on at least a part of a surface of a first substrate of the two substrates; c) bringing a surface of the second substrate into contact with said thin film metal layer on said surface of the first substrate such that a bonding between the second substrate and the thin film metal layer on the first substrate is provided; and d) at least locally strengthening the bonding between the second substrate and the thin film metal layer on the first substrate. The invention also relates to a device comprising two substrates, for example made from glass, silicon, ceramic, aluminum, or boron, and an intermediate thin film metal layer. | 11-13-2014 |
Stephen Oonk, Simi Valley, CA US
Patent application number | Description | Published |
---|---|---|
20130012821 | Robotic module for natural orifice transluminal endoscopic surgery (NOTES) - A miniature in-vivo robotic module to be used for conducting dexterous manipulations on organs and other target entities in a patient's abdominal or peritoneal cavity as part of Natural Orifice Transluminal Endoscopic Surgery (NOTES) is disclosed in this invention. The robotic module is a serial manipulator consisting of seven cylindrical links and six actively controllable rotational degrees of freedom, thereby enabling an end effector equipped with a laparoscopic type instrument to assume a commanded position and orientation within the robot's workspace. After overtube navigation starting from a natural orifice or preexisting wound, the module must be anchored and guided to a designated location along the inner abdominal cavity wall. This is accomplished via magnetic coupling forces between internal embedded magnets and magnets fixed to the end of a different robotic manipulator located external to the patient. | 01-10-2013 |
20140200855 | Coremicro Reconfigurable Embedded Smart Sensor Node - A Coremicro Reconfigurable Embedded Smart Sensor Node has the capability of hosting intelligent algorithms to support health monitoring applications and has optional standardized software communications stack. The purpose of this present invention is to provide a flexible low power distributed computational platform to deploy intelligent software elements (based on Artificial Intelligence techniques) among the system architecture to result in a reconfigurable scheme for distributed intelligence granularity. This invention is able to be applied to a wide variety of monitoring applications either as a Standalone Smart Sensor (SSS, i.e. single Smart Sensor Node) or as a modular and scalable Smart Sensor Network configuration. Therefore, the CRE-SSN is ultra-low in power consumption, has optional pattern recognition through Artificial Neural Network, physical communication layer reconfigurable capability, has scalable communications capability, and low in weight, and optimized in size. An optional IEEE 1451 software stack is provided to manage sensors via set of standardized commands. | 07-17-2014 |