Exemplary embodiments relate to unique structures for robotic end-of-arm-tools (EOATs). According to some embodiments, two or more fingers or actuators may be present on an EOAT, and the actuators may be connected to a hub through one or more sets of pivots attached to linkages that allow the distances between the pivots to be varied. Compared to conventional EOATs, exemplary embodiments increase the range of motion of the actuators, improve grip posture, boost gripping force, and balance the loads on the actuators.

A gripper for a picking device for small piece goods is provided. The gripper includes a delivery table extending in a first horizontal direction and a second horizontal direction orthogonal to the first horizontal direction, a gripping jaw guide assembly having two gripping jaws extending in the first horizontal direction over the delivery table, wherein at least one of the gripping jaws is movable in the second horizontal direction, and a drive unit which is coupled to the gripping jaw guide assembly and configured to move the gripping jaw guide assembly in the first horizontal direction. At least one of the gripping jaws is configured as a suction jaw and has a suction device having a suction surface for suctioning a small piece good, wherein a vacuum can be applied on the suction device using a suction line.

A cutting device includes a base plate, a motor attached to the base plate, a driving cord including a first end and a second end, the first end being attached to the motor, and a cutting assembly. The cutting assembly includes a fixed blade that is fixed to the base plate, and a driven blade that moves with respect to the fixed blade. The second end of the driving cord is attached to the driven blade to move the driven blade with respect to the fixed blade when the motor rotates.

The present invention relates to a gripper system comprising fingers. The gripper fingers are connectable to a gripper arm. The gripper fingers comprise a roller configured to spin around its central axis or a ball element rotatable in any direction; a stopper configured to stop and/or prevent the spinning of the roller or ball. The present invention also relates to a method for grasping and displacing an object.

A gripper apparatus including a gripper frame and a gripper beak; an actuation mechanism for actuating the gripper beak; a clamping force generator biased to exert a clamping force on the gripper beak; a transmission mechanism including an input member that is vertically displaceable with respect to the gripper frame, wherein the transmission mechanism engages the actuation mechanism such that a high position of the input member corresponds to a closed position of the gripper beak while a downward displacement of the input member corresponds to a transition of the gripper beak to an open position; a vertically displaceable carrier coupling device that in a lower rest position presses down on the input member; and a latch mechanism, preferably of alternate push-push type, for holding the gripper beak in its open position.

The invention discloses a handling robot control system, comprising a base, an air balance cavity set in the base, an air pump fixedly arranged at the middle of the air balance cavity, air valves symmetrically disposed in two sides of the end walls of the air balance cavity, The handling robot may confirm the position of the cargoes and the the position where the cargoes will be placed through the infrared detector, and control the inner motor to drive the movement, rotation, lifting and handling of the device; during the movement, the balance and stability of the device may be maintained through the adjustment of the air pressure when it moves on the rugged road surface, and through the transmission of the coupling and the connecting shaft, the device may continue to move when it maintains balance, so that the stability may be maintained when the cargoes are carried.

A beverage carton packing system includes an End of Arm Tool (EoAT). The EoAT is configured to lift one end and pull a beverage carton, package, or other container from a stack of cartons. Once pulled, the EoAT is configured to grab an opposite side of the carton and remove the carton from the stack. The EoAT is mounted to an Automated Guided Vehicle (AGV) via a robot arm. Through the EoAT, the robot arm is able to stack mixed pallets of the cartons on the AGV. The AGV has a funnel-shaped packing chamber where the mixed pallet is stacked and a stretch wrapper for stretch wrapping the mixed pallet.

An apparatus for autonomous or driverless vehicles to perform pick-up and delivery of packages, parcels, or other cargo with minimal or no human intervention is disclosed. The apparatus at a minimum consists of an opening/closing mechanism for a cargo compartment (trunk, lockbox attached to the vehicle, vehicle cab, etc.), which can be accessed when an encoded electronic signal is received, and then an arm-like device that extends from the compartment to retrieve or drop off cargo activates as instructed by an appropriate signal.

A gripping device with linear actuation for a robotic arm for seizing and gripping Petri dishes and other light items. The gripping device has a support and first and second gripping arms slidably retained relative to the support by guide rods. A motorized drive mechanism actuates the gripping arms through an operating member that acts only on the first gripping arm. Through an interconnection mechanism, movement of the first gripping arm actuates a simultaneous and dependent opposite movement of the second gripping arm so that the gripping arms are movable between a slack position and a clamping position. The operating member acts on the first gripping arm through a resiliently compressible member, the distortion of which is measured to provide a clamping limitation mechanism.

A controller for a commissioning device for storing piece goods such as medicinal packages is provided. The controller includes a delivery table that extends in a first direction, two elongated clamping jaws disposed above the delivery table, the jaws having clamping surfaces that face one another, and a clamping jaw guide apparatus with a frame structure, at least one first and one second guide which are separated from one another in the first direction and extend in a second direction, and at least four clamping jaw carriages which are coupled to the guides and driven in the second direction. Two clamping jaw carriages each are associated with a guide and at least two clamping jaw carriages separated from one another in the first direction are coupled to one clamping jaw, respectively.