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Hans Rudolf
Hans Rudolf Baartmans, Essen BE
| Patent application number | Description | Published |
|---|---|---|
| 20100175605 | DEVICE AND METHOD FOR MOORING A VESSEL - The present invention relates to a device for the attachment of a rope to a securing point by a person for mooring a vessel, comprising a support which is configured to releasably attach the rope to the securing point, and an elongate arm which is configured to be grasped at or near an end by the person and is configured such that the support can be attached at or near an opposite end so that attachment to the securing point can be carried out by the person at a distance. The elongate arm and the support attached thereto make it possible to displace a part of the rope at a distance and thus facilitate mooring. | 07-15-2010 |
Hans Rudolf Kriek, Bussum NL
| Patent application number | Description | Published |
|---|---|---|
| 20080255671 | Joint Devices - A joint device is disclosed for use as a prosthesis in a human or animal body. The joint device comprises a T-shaped member having a transverse pin fixedly connected to a column member and a pair of transverse sleeves configured to receive the pin and allow the pin to rotate about its longitudinal axis within the sleeves. The sleeves engage a bore in a first bone and the column member is coupled to a second bone so that the first and second bones are pivotably interconnected by the joint device. The sleeves are compressible so as to allow multi-directional movement of the bones in the joint. | 10-16-2008 |
Hans Rudolf Pfaendler, Stockdorf DE
| Patent application number | Description | Published |
|---|---|---|
| 20100173887 | BACTERICIDAL ANTI-MRSA ACTIVE PHARMACEUTICAL COMPOSITION CONTAINING CARBAPENEMS - Pharmaceutical compositions containing a carbapenem of the structural formula I | 07-08-2010 |
Hans-Rudolf Himmen, Haimhausen DE
| Patent application number | Description | Published |
|---|---|---|
| 20080202160 | Method and device for fractionated cryocondensation - The invention relates to a method and device for the fractionated cryocondensation of a process gas in at least one cooler and a freezer, wherein a specific process temperature is set inside the cooler. | 08-28-2008 |
| 20090020296 | Method for extinguishing a fire in a silo - The invention relates to a method for extinguishing burning deposited goods situated in a silo, inert gas being introduced into the silo above the burning deposited goods and off gas being extracted above the burning deposited goods from the silo. | 01-22-2009 |
| 20090188580 | INERT GAS LOCK FOR FILLING A CONTAINER WITH BULK MATERIAL - The invention pertains to a gas lock with a cylindrical base body fixed in the opening of a container that can be filled with bulk material, wherein the cross section of said base body essentially corresponds to the cross section of the opening in the container, with a gas supply and with at least one gas outlet that is fluidically connected to the gas supply. The gas lock features means suitable for sealing the container opening in a nearly gas-tight fashion on the lower end of the cylindrical base body, wherein said means control the quantities of bulk material and gas being introduced into the container and are realized in such a way that a gas flow is formed in the direction of the bulk material flowing into the container. These means may consist, for example, of a sealing cone. | 07-30-2009 |
| 20100319397 | CRYOGENIC PRE-CONDENSING METHOD AND APPARATUS - A method and apparatus for removing components from a gas stream by feeding the gas stream into a pre-condensation unit to produce a gas stream at a lower intermediate temperature and feeding this intermediate temperature gas stream into a cryogenic condensation unit where a lower predetermined final temperature is achieved. This final temperature gas stream is directed back to the pre-condensation unit to assist in cooling the gas stream entering this unit. | 12-23-2010 |
Hans-Rudolf Nageli, Neuhausen CH
| Patent application number | Description | Published |
|---|---|---|
| 20090317708 | PLASTIC LAMINATE FILM - Plastics composite foil for the sheathing of lithium-ion-polymer batteries and lithium-polymer batteries, comprising, arranged in mutual superposition, the following layers: a) a base foil composed of plastic b) a metal foil and c) a functional plastics layer, where at least one metal protective layer applied via a physical deposition process, such as vapour deposition processes or sputtering, an example being a chromium layer, has been arranged with thickness of from 0.1 to 1000 nm (nanometres) on the layer b), the metal foil, at least in the direction of the layer c), and/or on the layer c), the functional plastics layer, in the direction of the layer b), the metal foil, and/or in the functional plastics layer. | 12-24-2009 |
| 20100189894 | Packaging container with a laminate and process for manufacturing the laminate - A packaging container is such that a laminate features a film-shaped substrate bonded to a hot-sealing layer via a contact adhesive layer for easy opening and reclosing the container—arranged between an adhesive layer of permanent adhesive and a hot-sealing layer and is bonded to itself via a sealing seam or to another film to form a pouch or, as lid, bonded to the edge of a pouch. For the production of the laminate, the film-type substrate is coated—via liquid-film coating using the curtain coating or slide-coating method—with a multi-layer liquid film comprising at least an adhesive layer, the contact adhesive layer and the cohesively rupturing hot-sealing layer. | 07-29-2010 |
Hans-Rudolf Nägeli, Neuhausen CH
| Patent application number | Description | Published |
|---|---|---|
| 20090317708 | PLASTIC LAMINATE FILM - Plastics composite foil for the sheathing of lithium-ion-polymer batteries and lithium-polymer batteries, comprising, arranged in mutual superposition, the following layers: a) a base foil composed of plastic b) a metal foil and c) a functional plastics layer, where at least one metal protective layer applied via a physical deposition process, such as vapour deposition processes or sputtering, an example being a chromium layer, has been arranged with thickness of from 0.1 to 1000 nm (nanometres) on the layer b), the metal foil, at least in the direction of the layer c), and/or on the layer c), the functional plastics layer, in the direction of the layer b), the metal foil, and/or in the functional plastics layer. | 12-24-2009 |