Taschke
Heinz Henning Taschke, Bochum DE
Patent application number | Description | Published |
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20140055363 | TEMPORARY KEYBOARD HAVING SOME INDIVIDUAL KEYS THAT PROVIDE VARYING LEVELS OF CAPACITIVE COUPLING TO A TOUCH-SENSITIVE DISPLAY - A physical keyboard having a plurality of individual keys temporarily overlays a touch-sensitive display. Each individual key selectively provides either of a first level of capacitive coupling and a second, different level of capacitive coupling to the touch-sensitive display. By one approach the key provides that first level of capacitive coupling to the touch-sensitive display when a user asserts the key (for example, by pressing upon the key) to thereby communicate to the touch-sensitive display a selection of that individual key. The key can provide that second level of capacitive coupling when a user touches, but does not assert, the individual key. So configured, this second level of capacitive coupling serves to communicate to the touch-sensitive display an input instruction other than a selection of that individual key. | 02-27-2014 |
Henning Taschke, Bochum DE
Patent application number | Description | Published |
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20080259574 | SLIDE-SPRING MECHANISM FOR PORTABLE DEVICE - A portable device has a pair of parts shiftable relative to each other between two offset end positions and connected together by a spring mechanism having the invention respective pivots on the parts and a C-shaped spring having opposite ends. One of the ends is secured to one of the pivots, and the other of the spring ends is directly or indirectly connected to the other pivot such that the spring is pivoted about the one pivot on movement of the parts between the end positions and is more tensioned as the parts move through a metastable position between the end positions than when the parts are in the end positions. | 10-23-2008 |
20090069058 | SLIDING MECHANISM FOR PORTABLE APPLIANCES - The invention relates to a sliding mechanism for portable appliances, comprising a first appliance part, for example a lower shell, and a second appliance part, for example an upper shell, the lower shell and upper shell being mutually movably arranged such that they can occupy a first and a second end position in relation to each other under the guidance of a control mechanism defining the direction of movement. At least one spring element is also provided, said spring element having a first articulation point associated with the lower shell and a second articulation point associated with the upper shell, optionally by means of intermediate components. The relative movement of an appliance part from an end position to a force reversal point creates a spring tension of the spring element which drives the appliance part into the other end position thereof. The aim of the invention is to create a novel sliding mechanism for portable appliances with a compact structure. To this end, the inventive sliding mechanism according to claim | 03-12-2009 |
20090188079 | MECHANISM FOR OPENING AND CLOSING AN APPLIANCE - The invention relates to a mechanism ( | 07-30-2009 |
Ulrich Taschke, Nurnberg DE
Patent application number | Description | Published |
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20100280633 | Method and Controller for Controlling a Safety-Oriented Industrial Automation Component - A method for a safety-oriented industrial automation component, wherein the controller is connected to the automation component by a data link includes providing, by a user, an input to the controller at a first user interface. The controller transmits a result of the input to the automation component. The result of the input is used in the automation component to calculate a first test value. The input is converted into a status display in the controller and is output at a second user interface. Here, the user or another user acknowledges the status display by inputting a confirmation, after which a second test value is formed from the status display and the confirmation in the controller, and the second test value is transmitted to the automation component. Finally, the first and second test values are compared in the automation component and the result of the input is used if the comparison is positive. | 11-04-2010 |