A positioning device for positioning a limp flat workpiece has a provisioning area for providing the flat workpiece to be positioned and a camera for generating a camera image of the flat workpiece to be positioned. Furthermore, the positioning device comprises a first manipulator having a first gripper, a second gripper and a third gripper. The second gripper and the third gripper are configured to take over at least a portion of the limp flat workpiece from the first gripper. In addition, a method of positioning a limp flat workpiece is presented.

The present disclosure provides an adhesive application system for an automated brick laying machine, the adhesive application system comprising an adhesive reservoir, an adhesive supply line extending from the reservoir to one or more nozzles configured to dispense adhesive, a first pump (a primary pump) positioned near to the reservoir, at least one further pump (secondary pump) positioned near to the or each of the nozzles, a supply line load cell positioned near to the or each secondary pump, and a control system, wherein in use, the control system controls operation of the primary pump in response to a supply pressure sensed at the supply line load cell. An adhesive applicator and method for controlling an adhesive application system are also disclosed.

A robot gripper for moving wafer carriers and packing materials and a method of operating the same are provided. The robot gripper includes two opposing clamp assemblies. The two clamp assemblies are configured to move close to or away from each other. Each of the clamp assemblies includes a movable support pin at a bottom of the clamp assembly.

A separation positioning mechanism and a robot positioning system are disclosed. An embodiment of the separation positioning mechanism includes a fixed part, at least one guide rod, a movable part, a power part, and a positioning member. One end of the guide rod is fixed to the fixed part; the movable part is provided on the guide rod; the movable part is slidable along the guide rod to push a first assembly member placed on a transmission mechanism to be separated from the transmission mechanism. The robot positioning system includes the separation positioning mechanism.

A gripper for an articulable arm of an automated processing tool is described that is suitable for picking and placing objects on a wire harness peg board. The gripper includes at least two spaced apart opposing grips. Each grip further includes spaced apart protrusions. The opposing grips and protrusions actuate between open and closed positions. When in the closed position the opposing grips are capable of enclosing a perimeter of an object and may further support an underside of the object. The gripper may further grip a wire so that the automated processing tool may orient the wire and apply a constant upward, downward or lateral tension on the wire.

A system for opening and/or closing a lid of a container containing medical equipment in a sterile processing department, the system comprises: a gripper for opening and/or closing the lid of the container, one or more motorized conveyor elements configured to receive said container at a first container position and convey said container along a longitudinal axis towards the gripper. The system is configured to align the container with the gripper by conveying the container from the first container position to a second container position using the one or more motorized conveyor elements, move a first gripper element and a second gripper element from a first gripper position to a second gripper position, whereby the first gripper element or the second gripper element contacts the container at a side surface of the container and moves the container to a third container position.

A plate, a plate-holding apparatus, and a holding method for the plate for facilitating work to attach the plate to a plate-receiving metal frame of a sliding nozzle device. A gap is ensured between a to-be-held portion of the plate and an inner wall surface of an engagement groove such that, when the plate is held by engaging the to-be-held portion of the plate with the engagement groove of a holding portion of the plate-holding apparatus, the plate is movable in the longitudinal direction, the width direction, and the thickness direction of the plate.

A tote handling system and method of handling items includes a tote and a grip hand. The tote includes a tote frame including walls extending above a bottom to define a chamber shaped to receive items. The bottom and/or walls include tool reliefs secured to a wall. The tool reliefs are in an aligned positioned parallel to each other with a tool receptacle defined between the tool reliefs. The tool receptacles are shaped to receive the fingers of the grip hand therethrough for engagement with the items in the chamber. The grip hand includes a bearing movably supported by a robot, a base slidably movable along the bearing, and finger assemblies supported by the base. The finger assemblies are movable by actuators towards a closed position with fingers of the finger assemblies together and an open position with the fingers apart.

A nuclear dismantling system for dismantling equipment contaminated with radioactive contamination, including a dismantling apparatus to be operated remotely while in a nuclear facility and a control system communicatively coupled to the dismantling apparatus to control the dismantling apparatus remotely.

A robot gripper includes a first gripper finger and at least one second gripper finger, a gripper main body, a base element mounted for rotation about a first rotational axis relative to the gripper main body by a first rotary joint, and an intermediate element mounted for rotation relative to the base element by a second rotary joint. The gripper further includes a finger carrier carrying the first gripper finger and mounted for rotation relative to the intermediate element by a third rotary joint, namely about a third rotational axis, and a drive device that is separate from the first, second, and third rotary joints. The drive device is supported against the gripper main body and is configured to adjust the finger carrier relative to the second gripper finger with a drive force that is introduced into the finger carrier by the drive device.