Reuteler
Andreas Reuteler, Biel/bienne CH
Patent application number | Description | Published |
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20080265657 | METHOD AND APPARATUS FOR PRODUCING A RIM - A method of producing a bicycle rim including, positioning a first quantity of woven fiber strips having a first width and a first length and a second quantity of strips of said woven fibers having a shape different from the first shape to form a first laminated band from the first quantity and the second quantity of strips. A second narrower laminated band is produced. The first band is re-shaped to a V-shaped band before the first band is inserted along the periphery of a mold interior. A core is positioned on the first band and the second band is positioned on the first band. Rim well rings are positioned from outside on the second band, to abut the sides of the second band. A spreader ring is inserted between the rings to join the material near the upper rim flanks and the rim flanges. | 10-30-2008 |
Andreas Reuteler, Biel CH
Patent application number | Description | Published |
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20080265658 | RIM AND METHOD FOR PRODUCING A RIM - A rim and a method of producing a rim for bicycles and the like includes a rim body and a rim base provided thereon and lateral rim flanks provided with rim flanges. The rim flanges include a fibrous composite material having at least one fiber layer. The rim flanges include inwardly overhanging bulges of squashed fiber layers between which a tire can be accommodated at the rim body. | 10-30-2008 |
Beat Reuteler, Butzberg CH
Patent application number | Description | Published |
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20120272500 | STORAGE STACKS - A storage stack for storing sample containers in a low temperature sample store. The low temperature sample store is equipped with a robot that acts according to Cartesian X, Y, and Z coordinates for horizontally positioning sample containers in X/Y planes inside of individual storage stacks and for vertically moving individual storage stacks within the low temperature sample store in Z direction. The sample store defines a storage area for accommodating an array of m×n storage stacks that are accomplished to be oriented adjacent to each other and parallel to the vertical Z direction. Each individual storage stack includes first and second rigid lateral support flanges extending in the Z direction and including a multitude of storage webs for supporting sample containers inserted into the storage stack; a rigid back panel, rigidly linking the lateral support flanges to each other; a rigid bottom plate, fixed to lower ends of at least one lateral support flange and/or of the back panel; and a rigid insulation cover, fixed to upper ends of at least one lateral support flange and/or of the back panel. The insulation cover includes a handling plate and an insulation block. A number of m×n insulation covers of all storage stacks of a storage stack array form an essentially continuous insulation layer on a storage area of the low temperature sample store. For all storage stacks, carrying elements are provided. These carrying elements statically connect the bottom plate of each individual storage stack with a bottom structure of the storage area of the low temperature sample store. These carrying elements are accomplished to carry the entire weight of the individual storage stack and all sample containers inserted in this storage stack and to confer this entire weight to a bottom structure of the storage area of the low temperature sample store. | 11-01-2012 |
20130011226 | MODULAR SAMPLE STORE - A modular sample storeincluding a storage area; a service area; a transfer area; a motorized robot with a lifting device and at least one platform; and a controller. The sample store service area includes one integrally formed cubic vat module and the sample store storage area includes at least one integrally formed cubic vat module. Each one of the aforementioned vat modules includes an essentially horizontal vat floor and four joining vat walls that are connected to the vat floor and that are leaving an open vat space. The modular sample store also includes upper side walls and a cover plate to close the sample store. Each vat floor and vat wall includes an outside liner and an inside liner, which outside and inside liners in each case are separated by a clearance. This clearance is essentially filled with a polymer foam material that provides fixation of the outside and inside liners to each other as well as thermal insulation of and reinforcement to the thus integrally formed cubic vat module sandwich construction. | 01-10-2013 |
Urs Reuteler, Atlanta, GA US
Patent application number | Description | Published |
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20100107559 | Packaging Machine - A packaging apparatus for real-time alignment of packaging surfaces can include two or more sensors for detecting the positioning of carton surfaces and a servo system. The servo system can include a servo motor and a controller. The servo system records the positioning of the carton surfaces and calculates a difference in position. The controller compares the calculated value with a predetermined value and if necessary, the servo motor turns a correction wheel to align the carton surfaces. | 05-06-2010 |
20100200371 | CONVEYOR WITH SELECTIVELY ACTUATED LUGS AND RELATED METHODS - A machine for intended use in feeding and completing partially formed cartons is disclosed. In one embodiment, the machine includes a conveyor with selectively actuated lugs that engage and convey the carton. The lugs on each conveyor may be closely spaced or overlapping to allow for selective actuation at a desired instant in time. A diverter located at a transition between the forward and return runs of the lug conveyor may actuates the lugs in a controlled fashion. Related methods of feeding and forming cartons are also disclosed. | 08-12-2010 |
20110083404 | Packaging Machine - A packaging apparatus for real-time alignment of packaging surfaces can include two or more sensors for detecting the positioning of carton surfaces and a servo system. The servo system can include a servo motor and a controller. The servo system records the positioning of the carton surfaces and calculates a difference in position. The controller compares the calculated value with a predetermined value and if necessary, the servo motor turns a correction wheel to align the carton surfaces. | 04-14-2011 |