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    • 4. 发明公开
    • PLUG-IN CONNECTION SYSTEM, PLUG-IN CONNECTION ELEMENT AND PLUG-IN CONNECTION
    • US20240283181A1
    • 2024-08-22
    • US18582930
    • 2024-02-21
    • Lisa Dräxlmaier GmbH
    • Dalibor KRIVOHLAVEK
    • H01R13/193H01R13/629
    • H01R13/193H01R13/62955
    • The invention relates to a plug-in connection system (1), to a plug-in connection element (2, 3) and to a plug-in connection (4). The plug-in connection system (1) comprises a locking mechanism (5), the actuating lever (6) of which is pivotably mounted on a cover (7) of the first plug-in connection element (2) and is pivotable between two lever end positions. The locking mechanism (5) is arranged, in the second lever end position, in a locking position in which a form-fitting element (9) of the first plug-in connection element (2) and a form-fitting element (11) of the second plug-in connection element (3) form a locking form-fitting engagement which tensions the plug-in connection elements (2, 3) against one another. In the first lever end position, the locking mechanism (5) is arranged in an unlocking position in which the locking form-fitting engagement is released. A securing slide (12) is mounted so as to be movable in translation in the actuating lever (6) of the locking mechanism (5) and is adjustable between a securing position, in which a securing pin (13) of the securing slide (12) engages in a securing pin receptacle (14) of the cover (7), as a result of which a securing form-fitting engagement is formed between the cover (7) and the actuating lever (6), and a securing-release position, in which the securing form-fitting engagement is released.
    • 8. 发明授权
    • Method and testing device
    • US11415618B2
    • 2022-08-16
    • US17429036
    • 2019-02-06
    • Lisa Dräxlmaier GmbH
    • Michael FrankeAndreas Kappl
    • G01R31/08G01R31/52B60R16/02G01R31/00
    • A method for testing a network is disclosed, the network having a number of network sections, in particular in a cable harness having a number of such networks, having the following steps of: recording training measured values for a number of reference networks, wherein the reference networks correspond to the network to be tested, preprocessing the recorded training measured values in order to eliminate data errors in the training measured values, training a first classification system using the training measured values, wherein the first classification system is based on at least one algorithm from the field of machine learning and is designed to classify a network either as fault-free or faulty, training a second classification system using the training measured values, wherein the second classification system is based on at least one algorithm from the field of machine learning and is designed to classify a faulty network section of a network, recording test measured values for the network to be tested, preprocessing the recorded test measured values in order to eliminate data errors in the training measured values, classifying the network to be tested as fault-free or faulty on the basis of the recorded test measured values using the trained first classification system, and classifying the faulty network section of the network to be tested using the trained second classification system if the network (to be tested was classified as faulty by the trained first classification system. The present invention also discloses a corresponding testing device.