Peter Franz
Peter Franz Beck, Karkstadt DE
Patent application number | Description | Published |
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20100224088 | Device and a Method for Feeding a Material Web to a printing Unit of a Web-Fed Rotary Press - A device is usable for feeding a material web to a press unit of a web-fed rotary press having a reel carrier which carries a material reel and which is mounted next to the machine line. At least one deflection rod is arranged in the web transport path between the reel carrier and the press unit. The deflection rod is angled at 45° with respect to the transport direction of the web which wraps onto it. In at least a wraparound angular region of the material web, the deflection rod has outlet openings which are configured as micro-openings for the passage of a pressurized fluid. The mean diameter of these micro openings is, at most 500 μm. When the material web is moving about the deflection rod, the micro openings are provided with pressurized fluid on a length which is greater than the width of the region which is covered by the material web which wraps around it. | 09-09-2010 |
Peter Franz Beck, Karlstadt DE
Patent application number | Description | Published |
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20090108043 | Device and Method for Feeding at Least One Material Web or Web Strand into a Folding Device - A device is usable to feed at least one material web and/or at least one strand that is comprised of several material webs into a folding device. A superstructure is part of the device, as is a former that can be displaced in relation to the material web, and a transverse cutter which is usable to separate the material web or webs into individual products. At least one guide rail is provided in the superstructure and carries a retaining device that can be displaceably guided on the path of travel of the material web through the superstructure. A leading edge of at least one of the material webs can be attached to the retaining device. The guide rail passes the former and includes at least one flexible guide rail section whose form can be altered. In particular, the length of the flexible guide rail section can be adjusted in the region adjoining the former. | 04-30-2009 |
Peter Franz Braunisch, Rochester Hills, MI US
Patent application number | Description | Published |
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20100129551 | PREVENTING CARBON AO MIGRATION BY LIMITING SURFACE POROSITY - In the manufacture of carbon-carbon composite brake discs, migration of anti-oxidant substances into the friction surfaces is prevented by limiting or eliminating surface porosity in the carbon-carbon composite brake materials. The method includes infusing a suitable resin into pores in surface layers of the carbon-carbon composite disc and then charring the resin-infused disc to convert the resin in the pores to pyrolytic carbon. The resin may be infused into the carbon disc by submerging the disc in a molten resin. Prior to submerging the disc in the molten resin, the disc may subjected to a vacuum to remove air from the pores. While the disc is submerged in the molten resin, the pressure in the pressurizable vessel may increased to force the molten resin into the open porosity of the disc. | 05-27-2010 |
Peter Franz Braunisch, Hamburg DE
Patent application number | Description | Published |
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20150034432 | PREVENTING CARBON AO MIGRATION BY LIMITING SURFACE POROSITY - In the manufacture of carbon-carbon composite brake discs, migration of anti-oxidant substances into the friction surfaces is prevented by limiting or eliminating surface porosity in the carbon-carbon composite brake materials. The method includes infusing a suitable resin into pores in surface layers of the carbon-carbon composite disc and then charring the resin-infused disc to convert the resin in the pores to pyrolytic carbon. The resin may be infused into the carbon disc by submerging the disc in a molten resin. Prior to submerging the disc in the molten resin, the disc may subjected to a vacuum to remove air from the pores. While the disc is submerged in the molten resin, the pressure in the pressurizable vessel may increased to force the molten resin into the open porosity of the disc. | 02-05-2015 |