Patents by Inventor Bernhard Bischof

Bernhard Bischof 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).

  • Patent number: 12630999
    Abstract: The disclosure relates to an work implement, in particular a cable excavator, comprising a mechanical diaphragm wall gripper with two gripper buckets, which is suspended on the work implement by means of a hoisting cable and a closing cable, a hoisting cable winch on which the hoisting cable can be wound up and unwound for adjusting the diaphragm wall gripper, in particular substantially vertically, a closing cable winch on which the closing cable for actuating the gripper buckets is mounted so that it can be wound up and unwound, a measuring device with at least one sensor for detecting a current position, speed and/or acceleration, a control unit connected to the measuring device, via which the hoisting and closing cable winches can be actuated, and an input means connected to the control unit for controlling the diaphragm wall gripper.
    Type: Grant
    Filed: September 12, 2023
    Date of Patent: May 19, 2026
    Assignee: LIEBHERR-WERK NENZING GMBH
    Inventors: Lukas Flatz, Mathias Blank, Tobias Glück, Bernhard Bischof, Andreas Kugi
  • Publication number: 20240102262
    Abstract: The disclosure relates to an work implement, in particular a cable excavator, comprising a mechanical diaphragm wall gripper with two gripper buckets, which is suspended on the work implement by means of a hoisting cable and a closing cable, a hoisting cable winch on which the hoisting cable can be wound up and unwound for adjusting the diaphragm wall gripper, in particular substantially vertically, a closing cable winch on which the closing cable for actuating the gripper buckets is mounted so that it can be wound up and unwound, a measuring device with at least one sensor for detecting a current position, speed and/or acceleration, a control unit connected to the measuring device, via which the hoisting and closing cable winches can be actuated, and an input means connected to the control unit for controlling the diaphragm wall gripper.
    Type: Application
    Filed: September 12, 2023
    Publication date: March 28, 2024
    Inventors: Lukas FLATZ, Mathias BLANK, Tobias GLÜCK, Bernhard BISCHOF, Andreas KUGI
  • Patent number: 9022323
    Abstract: For capturing satellites and other orbital objects, one or more independent capturing units are releasably arranged on a spacecraft serving as a steerable carrier vehicle. Each capturing unit has a propellant charge and at least one braking thrust nozzle of its own, and a closeable capture net releasably connected to the capturing unit via a tether line. The net is deployed from the capturing unit to capture the orbital object. Position or attitude control engines of the carrier vehicle are operated for orienting the combination including the capturing unit and the orbital object captured in the net. The capturing unit is then released from the carrier vehicle, and applies a braking thrust to the captured object so as to deorbit the captured object together with the capturing unit.
    Type: Grant
    Filed: February 29, 2012
    Date of Patent: May 5, 2015
    Assignee: Astrium GmbH
    Inventors: Juergen Starke, Bernhard Bischof, Josef Sommer, Michael Dumke, Uwe Bruege
  • Patent number: 8728171
    Abstract: The invention relates to an orthopedic foot device with a connection part for the lower leg, a swivel joint (5) acting as an ankle joint (7) by means of which a foot part (10) is rotatably connected in the direction of dorsiflexion and the direction of plantar flexion to the connection part, with a damping arrangement (17) influencing the rotational movement about the swivel joint (5), with a sensor arrangement for detecting action states of the orthopedic foot part, and with a control unit connected to the sensor arrangement which controls the damping arrangement (17). The object is achieved by the fact that the sensor arrangement has an ankle-angle sensor which measures the angle between the connection part and the foot part (10), an absolute-angle sensor (20) relating to the plumb line and a moments sensor (21) for determining the torque on the ankle joint (7) or a force effecting a torque on the ankle joint (7).
    Type: Grant
    Filed: September 25, 2012
    Date of Patent: May 20, 2014
    Assignee: Otto Bock HealthCare GmbH
    Inventors: Sven Kaltenborn, Felix Reuss, Sven Zarling, Bernhard Bischof, Thomas Kraus
  • Publication number: 20130175401
    Abstract: In a recovery and braking device for objects flying freely in space, particularly for capturing satellites and other orbital objects, (at least one,) preferably a larger number of capturing units (2) are arranged on a spacecraft serving as a steerable carrier vehicle (1), wherein the capturing units are separable from the spacecraft, are equipped with a propellant charge of their own, and comprise a closeable capture net (4) releasably connected via a line (5). The carrier vehicle is equipped with position or attitude controlling engines (6), in order to achieve an orienting of the coupled mass configuration in preparation for the separation. In that regard, several capturing units can be combined into a series or parallel connection.
    Type: Application
    Filed: February 29, 2012
    Publication date: July 11, 2013
    Applicant: ASTRIUM GMBH
    Inventors: Juergen Starke, Bernhard Bischof, Josef Sommer, Michael Dumke, Uwe Bruege
  • Patent number: 8298294
    Abstract: The invention relates to an orthopedic foot device with a connection part for the lower leg, a swivel joint (5) acting as an ankle joint (7) by means of which a foot part (10) is rotatably connected in the direction of dorsiflexion and the direction of plantar flexion to the connection part, with a damping arrangement (17) influencing the rotational movement about the swivel joint (5), with a sensor arrangement for detecting action states of the orthopedic foot part, and with a control unit connected to the sensor arrangement which controls the damping arrangement (17). The object is achieved by the fact that the sensor arrangement has an ankle-angle sensor which measures the angle between the connection part and the foot part (10), an absolute-angle sensor (20) relating to the plumb line and a moments sensor (21) for determining the torque on the ankle joint (7) or a force effecting a torque on the ankle joint (7).
    Type: Grant
    Filed: February 5, 2009
    Date of Patent: October 30, 2012
    Assignee: Otto Bock HealthCare GmbH
    Inventors: Sven Kaltenborn, Felix Ruess, Sven Zarling, Bernhard Bischof, Thomas Kraus
  • Publication number: 20090204230
    Abstract: The invention relates to an orthopedic foot device with a connection part for the lower leg, a swivel joint (5) acting as an ankle joint (7) by means of which a foot part (10) is rotatably connected in the direction of dorsiflexion and the direction of plantar flexion to the connection part, with a damping arrangement (17) influencing the rotational movement about the swivel joint (5), with a sensor arrangement for detecting action states of the orthopedic foot part, and with a control unit connected to the sensor arrangement which controls the damping arrangement (17). The object is achieved by the fact that the sensor arrangement has an ankle-angle sensor which measures the angle between the connection part and the foot part (10), an absolute-angle sensor (20) relating to the plumb line and a moments sensor (21) for determining the torque on the ankle joint (7) or a force effecting a torque on the ankle joint (7).
    Type: Application
    Filed: February 5, 2009
    Publication date: August 13, 2009
    Inventors: Sven Kaltenborn, Felix Ruess, Sven Zarling, Bernhard Bischof, Thomas Kraus