Patents by Inventor Patrick Jussel
Patrick Jussel has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20250346462Abstract: The disclosure relates to a device for monitoring the winding behaviour of a cable, comprising a cable winch with a rotatable cable drum on which the cable is mounted so that it can be wound and unwound, at least one sensor unit configured to capture a recording of two-dimensional images of cable coils on the cable drum, and an analysis unit configured to receive the recording from the at least one sensor unit, define at least two different analysis regions in the recording, each representing at least one cable coil in whole or in part, and analyse these independently of one another for the presence of a faulty cable winding. The disclosure also relates to a working machine, such as a crane, civil engineering machine, or cable excavator, having the device, a method for monitoring the winding behaviour of the cable, and a corresponding computer program product.Type: ApplicationFiled: April 11, 2025Publication date: November 13, 2025Inventors: Patrick JUSSEL, Falk NÜBEL
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Patent number: 12007311Abstract: The disclosure relates to a system for monitoring wind influences on a working machine, such as a mobile crane or crawler crane, comprising at least one detection unit that is arranged on the working machine and by means of which a current wind speed can be detected, a recording unit that is configured to receive, to store, and to transmit data of the detection unit during and outside the operation of the working machine, a controller of the working machine that is configured to determine a current working machine state, an external processing unit that is configured to directly or indirectly receive and process data from the detection unit relating to an current wind speed and data from the controller, and an output device that is configured to receive data from the external processing unit.Type: GrantFiled: July 28, 2021Date of Patent: June 11, 2024Assignee: LIEBHERR-WERK NENZING GMBHInventors: Walter Mietschnig, Patrick Jussel
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Publication number: 20220034757Abstract: The invention relates to a system for monitoring wind influences on a working machine, in particular a mobile crane or crawler crane, comprising at least one detection unit that is arranged on the working machine and by means of which a current wind speed can be detected, a recording unit that is configured to receive, to store, and to transmit data of the detection unit during and outside the operation of the working machine, a controller of the working machine that is configured to determine a current working machine state, an external processing unit that is configured to directly or indirectly receive and process data from the detection unit relating to an current wind speed and data from the controller, and an output device that is configured to receive data from the external processing unit. The controller and/or the external processing unit is/are configured here to determine a limit value for a wind speed in dependence on the current working machine state.Type: ApplicationFiled: July 28, 2021Publication date: February 3, 2022Inventors: Walter MIETSCHNIG, Patrick JUSSEL
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Patent number: 10889954Abstract: The present invention relates to a method for controlling a vibrating pile driver when driving a pile element (4) into a ground (6), wherein the vibrating pile driver includes a vibration unit (2) connected with the same and is attached to a carrier machine (5, 1), the method comprising the following steps: detecting at least one first status parameter of the carrier machine (5, 1) and detecting at least one second status parameter of the vibration unit (2). The method is characterized in that with reference to the at least one first status parameter and the at least one second status parameter a statistical ground model is generated, and individual operating parameters of the carrier machine (5, 1) and the vibration unit (2) are adapted to the statistical ground model, in order to optimize the energy consumption and/or an advance rate when driving in the pile element (4).Type: GrantFiled: June 21, 2016Date of Patent: January 12, 2021Assignee: Liebherr-Werk Nenzing GmbHInventors: Patrick Jussel, Gerhard Kaufmann, Andreas Schwarzhans
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Patent number: 10858797Abstract: A method of recognizing obstacles on operation of a vibratory pile driver of a work machine includes monitoring an acceleration signal of the vibratory pile driver during operation of the vibratory pile operator and analyzing the acceleration signal to determine the presence of an obstacle. The acceleration signal may be monitored over a time period which is determined based on an excitation frequency of the vibratory pile driver. The analysis may include comparing negative and positive half-waves of the acceleration signal. Responsive to the analysis indicating an obstacle, a system operator may be alerted, and/or operation of the vibratory pile driver may be adjusted via controller intervention.Type: GrantFiled: February 26, 2018Date of Patent: December 8, 2020Assignee: LIEBHERR-WERK NENZING GMBHInventors: Patrick Jussel, Peter Loster
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Patent number: 10704219Abstract: The present invention relates to a method of power management during pile foundation having a base machine for excavating a borehole and an attachment installed at the base machine for a simultaneous introduction of a casing into the ground, wherein the energy supply for the attachment is at least partially provided by the base machine and a control of the base machine dynamically regulates the energy flow from the base machine to the attachment.Type: GrantFiled: February 26, 2019Date of Patent: July 7, 2020Assignee: LIEBHERR-WERK NENZING GMBHInventors: Nicola Schlatter, Patrick Jussel
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Publication number: 20190264413Abstract: The present invention relates to a method of power management during pile foundation having a base machine for excavating a borehole and an attachment installed at the base machine for a simultaneous introduction of a casing into the ground, wherein the energy supply for the attachment is at least partially provided by the base machine and a control of the base machine dynamically regulates the energy flow from the base machine to the attachment.Type: ApplicationFiled: February 26, 2019Publication date: August 29, 2019Inventors: Nicola SCHLATTER, Patrick JUSSEL
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Patent number: 10232578Abstract: A method of compacting soil via a base machine, the base machine having ram material provided at at least one cable and having a regulation/control apparatus, includes raising the ram material from the land area to be compacted, with a zero point being stored at which no slackline is present. The method further includes raising the ram material to a lift height, carrying out a compaction procedure by dropping the ram material from a drop height onto the land area to be compacted, again raising the ram material from the land area to be compacted, with a further zero point being stored at which no slackline is present, determining and storing a compaction progress, and repeating the previous steps until the compaction progresses of each of a predefined number of consecutive compaction procedures are smaller than or equal to a predefined minimum progress.Type: GrantFiled: July 18, 2017Date of Patent: March 19, 2019Assignee: Liebherr-Werk Nenzing GmbHInventors: Patrick Jussel, Lukas Fink
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Publication number: 20180245303Abstract: A method of recognizing obstacles on operation of a vibratory pile driver of a work machine includes monitoring an acceleration signal of the vibratory pile driver during operation of the vibratory pile operator and analyzing the acceleration signal to determine the presence of an obstacle. The acceleration signal may be monitored over a time period which is determined based on an excitation frequency of the vibratory pile driver. The analysis may include comparing negative and positive half-waves of the acceleration signal. Responsive to the analysis indicating an obstacle, a system operator may be alerted, and/or operation of the vibratory pile driver may be adjusted via controller intervention.Type: ApplicationFiled: February 26, 2018Publication date: August 30, 2018Inventors: Patrick Jussel, Peter Loster
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Publication number: 20180022051Abstract: A method of compacting soil via a base machine, the base machine having ram material provided at at least one cable and having a regulation/control apparatus, includes raising the ram material from the land area to be compacted, with a zero point being stored at which no slackline is present. The method further includes raising the ram material to a lift height, carrying out a compaction procedure by dropping the ram material from a drop height onto the land area to be compacted, again raising the ram material from the land area to be compacted, with a further zero point being stored at which no slackline is present, determining and storing a compaction progress, and repeating the previous steps until the compaction progresses of each of a predefined number of consecutive compaction procedures are smaller than or equal to a predefined minimum progress.Type: ApplicationFiled: July 18, 2017Publication date: January 25, 2018Inventors: Patrick JUSSEL, Lukas FINK
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Publication number: 20180018641Abstract: A method of estimating an expected service life of a component of a machine includes recording process data of the machine that are detected by the machine on the carrying out of a cyclic workstep. The detected data are transmitted to a database that analyzes the data stored in the database for failure patterns in accordance with a failure pattern catalog to estimate the expected service life of the component, and a communication is output on a location of a recognized failure pattern in the analyzed data.Type: ApplicationFiled: June 29, 2017Publication date: January 18, 2018Inventors: Patrick JUSSEL, Michael KOCHER
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Publication number: 20160369471Abstract: The present invention relates to a method for controlling a vibrating pile driver when driving a pile element (4) into a ground (6), wherein the vibrating pile driver includes a vibration unit (2) connected with the same and is attached to a carrier machine (5, 1), the method comprising the following steps: detecting at least one first status parameter of the carrier machine (5, 1) and detecting at least one second status parameter of the vibration unit (2). The method is characterized in that with reference to the at least one first status parameter and the at least one second status parameter a statistical ground model is generated, and individual operating parameters of the carrier machine (5, 1) and the vibration unit (2) are adapted to the statistical ground model, in order to optimize the energy consumption and/or an advance rate when driving in the pile element (4).Type: ApplicationFiled: June 21, 2016Publication date: December 22, 2016Inventors: Patrick Jussel, Gerhard Kaufmann, Andreas Schwarzhans