| Premium AEROTEC GmbH Patent applications |
| Patent application number | Title | Published |
|---|
| 20120107596 | Partially Fixated Semi-Finished Textile - A semi-finished textile for producing a fiber composite component part has a textile structure and a fixation structure so as to provide a semi-finished textile that can be easily handled and that is suitable for use in complex component part shapes. The textile structure includes a first multitude of reinforcement-fiber bundles of high-performance fibers. Displacement sections are formed between adjacent reinforcement-fiber bundles and adjacent reinforcement-fiber bundles can be displaced against each other. The fixation structure fixates the reinforcement-fiber bundles, depending on the textile structure, with a fixation pattern in such a way that the reinforcement-fiber bundles are fixated at least partially and the displacement sections remain at least partially free. | 05-03-2012 |
| 20120080142 | Method for Creating a Vacuum Setup for Producing a Fiber Composite Part, and Plunger Used in the Method - A method for creating a vacuum setup for processing a semi-finished fiber composite into a cured fiber composite component is provided. The semi-finished fiber composite is positioned on a molding surface of a tool so that a non-planar surface of the semi-finished fiber composite faces away from the molding surface, covering the non-planar surface of the semi-finished fiber composite by applying an air-tight film and sealing the film with respect to the molding surface of the tool. Application of the film is performed using a plunger formed from a flexible material and having a plunger surface on which the film is retained. | 04-05-2012 |
| 20120061871 | Vacuum Set-Up to Pressurize a Component Part During its Production, and Method for Producing a Component Part - A vacuum set-up to pressurize a component part during its production is provided. The set-up includes a base with a contact surface for component part, and a casing that is airtight to contact surface that can be sealed to cover component part to effect pressurization of component part by evacuating an internal space of casing. To also effect a defined pressurization of component part on at least one component part edge in lateral direction, on at least this component part edge together with component part, a pressure strip system that can be mounted in the interior space is provided that is formed by at least two pressure strips extending along the component part edge and over inclined planes, that work together in such a way that pressure exerted on pressure strip system by the evacuation of the interior space, generates pressure acting laterally on component part edge. | 03-15-2012 |
| 20110056624 | Process and a Hollow Body for Producing a Component Having at least One Hollow Profile - A process for producing a hollow profiled component formed by joining at least two laminated component elements, includes the steps of laminating a first of the component elements with at least one indentation, arranging a preformed hollow body in the indentation, applying an adhesive agent to a surface area of the first component element next to the indentation, placing the first component element together with the hollow body on the second component element with the indentation facing the second component element and the surface area provided with the adhesive agent contacting the second component element, covering the two component elements with a non-rigid fluid-tight covering, the interior of the hollow body being sealed off from the interior of the covering and being fluidically connected with the ambient exterior environment, placing the covered component elements in a pressure chamber, and applying a vacuum to the interior of the covering. | 03-10-2011 |
| 20110011530 | Method to Heat a Thermoplastic Boards by Means of Heat Conduction - A method of heating a thermoplastic board by heat conduction in a heating system which has at least a first surface contacting tool and a second surface containing tool spaced from the first tool, at least one of which is heatable. The thermoplastic board is placed into the heating system between the two surface contacting tools, with an auxiliary sheet being placed between the contact surface of the respective heatable surface contacting tool and the surface of the thermoplastic board facing it. The space between the two surface contacting tools is then reduced to a predefined gap measurement, and the heatable surface contacting tool or tools is heated. | 01-20-2011 |
