A gripper mechanism includes a pair of gripper jaws, a linear actuator, and a rocker bogey. The linear actuator drives a first gripper jaw to move relative to a second gripper jaw. Here, the linear actuator includes a screw shaft and a drive nut where the drive nut includes a protrusion having protrusion axis expending along a length of the protrusion. The protrusion axis is perpendicular to an actuation axis of the linear actuator along a length of the screw shaft. The rocker bogey is coupled to the drive nut at the protrusion to form a pivot point for the rocker bogey and to enable the rocker bogey to pivot about the protrusion axis when the linear actuator drives the first gripper jaw to move relative to the second gripper jaw.

A clamping device for holding a container in a container handling device, for example for holding a beverage container by a neck portion, includes a first clamping arm arranged on a support plate pivotably about a first pivot shaft and having a holding portion for contact against the container to be held, and a second clamping arm arranged on the support plate pivotably about a second pivot shaft and having a holding portion for contact against the container to be held. The first pivot shaft and the second pivot shaft respectively have a cylinder pin portion for forming a form closure, radially to the longitudinal direction of the pivot shaft, with a bore in a support of a container handling device.

A capture interface is provided. The capture interface is configured to be rigidly affixed to an external surface of a recovery object and captured by a capture device. The capture interface includes a matte ferromagnetic surface of flat disposition and geometric outline, configured to facilitate capture by the capture device. The ferromagnetic surface includes a capture interface identifier.

A robot hand includes a motor with a rotary shaft, an accommodating member accommodating a distal end of the rotary shaft, a plurality of swing members swinging with respect to the accommodating member due to rotation of the rotary shaft, and a plurality of claw members swinging with the plurality of swing members.

The present invention relates to a gripper device for gripping lids of laboratory vessels. The gripper device comprises a gripper unit with a main body, to which two gripper levers are each pivotably fastened by one end to a pivoting joint in each case. A gripper jaw is formed at the end of each gripper lever remote from the respective pivoting joint, such that the gripper jaws are arranged facing one another. A guiding element is provided which is movably mounted on the main body and two inner and outer guiding faces are formed on the guiding element or on the gripper levers respectively. The gripper levers or the guiding element each have a counter-guiding element which is arranged between one of the inner and one of the outer guiding faces, so that when the guiding element is moved, the gripper levers with their gripper jaws are pivoted apart or pressed together.

Systems and methods here may include a vehicle with automated robotic subcomponents for harvesting delicate agricultural items such as berries. In some examples, the vehicle includes a targeting subcomponent and a harvesting subcomponent. Which may utilize multiple cameras to create three dimensional maps of foliage and targets. In some examples, the targeting subcomponent includes automated or semi-automated harvesting targets to be mapped and passed to the harvesting subcomponent. In some examples, the harvesting subcomponent includes vacuum features and padded spoons to detach the target agriculture from the stem.

Systems and methods here may include a vehicle with automated subcomponents for harvesting delicate items such as berries. In some examples, the vehicle includes a targeting subcomponent and a harvesting subcomponent. In some examples, the targeting subcomponent utilizes multiple cameras to create three-dimensional maps of foliage and targets. In some examples, identifying targets may be done remotely from the harvesting machine, and target coordinates communicated to the harvesting machine for robotic harvesting.

A method of providing glass from a glass melting furnace to at least one mold, including providing an uninterrupted glass communication path from an outlet of the glass melting furnace to the at least one mold, and pressurizing the path at a location downstream of the outlet to move molten glass into the at least one mold. A related system, apparatus, and molding equipment are also disclosed.

A gripper mechanism includes a pair of gripper jaws, a linear actuator, and a rocker bogey. The linear actuator drives a first gripper jaw to move relative to a second gripper jaw. Here, the linear actuator includes a screw shaft and a drive nut where the drive nut includes a protrusion having protrusion axis expending along a length of the protrusion. The protrusion axis is perpendicular to an actuation axis of the linear actuator along a length of the screw shaft. The rocker bogey is coupled to the drive nut at the protrusion to form a pivot point for the rocker bogey and to enable the rocker bogey to pivot about the protrusion axis when the linear actuator drives the first gripper jaw to move relative to the second gripper jaw.

A gripping mechanism includes: two gripping pieces pivoted relative to each other about a pivot axis; a base supporting the gripping pieces in a pivotable manner; a pulling pulley rotatably supported about a rotation axis parallel to the pivot axis; and a wire wound around the pulley, and causing, with a pulling force, the pulley to move the rotation axis. The pulley is disposed so that a resultant force of tensile forces of the wire becomes greater than the pulling force and generates a moment causing the gripping pieces to be pivoted relative to each other in closing direction. The base includes a first hole. At least one of the gripping pieces includes a second hole inclined in one direction with respect to the longitudinal axis of the first hole. The rotation axis is provided so as to be movable along the longitudinal axes of the individual holes.