A gripper device is configured to pick up a pliable food product having a tail-like part from a pick-up area and releasing it at a releasing area, where a support is provided. A pair of jaws is mounted to the support for movement of distal ends thereof towards each other defining a closing position of the pair of jaws and away from each other defining an open position of the pair of jaws. A tail bender device is attached to the support and adjacent to one end of the pair of jaws. The tail bender device is moveable in relation to the pair of jaws and is configured to bend the tail-like part while transferring the food product from the pick-up area until releasing it at the releasing area.

A programmable motion system is disclosed that includes a dynamic end effector system. The dynamic end effector system includes an end effector that is coupled via a dynamic coupling to the programmable motion system, wherein the dynamic coupling provides that at least a portion of the end effector may spin with respect to an other portion of the end effector.

A gripping apparatus includes a tray, a detector, a robot, and a controller. The tray has a placement surface on which multiple workpieces of plate shape are to be placed. The placement surface is provided with multiple recesses. The detector is configured to detect arrangement of the workpieces placed on the tray. The robot is attached with a hand. The controller is configured to move and insert the workpieces into the recesses by vibrating the tray, specify the workpieces in a standing state with the detector, and instruct the robot to grip one of the workpieces in the standing state with the hand in a predetermined direction.

A wafer transfer apparatus includes a holding plate having a holding surface adapted to be opposed to one side of a wafer, a suction holding portion provided so as to be exposed to the holding surface for holding the wafer under suction in a noncontact fashion, three or more restricting members for restricting the movement of the wafer in a direction parallel to the one side of the wafer, each restricting member having a roller portion rotatable about its axis, the roller portion being adapted to come into contacted with the peripheral edge of the wafer held under suction by the suction holding portion, and a moving unit connected to the holding plate for moving the holding plate to thereby transfer the wafer. At least one of the restricting members functions as a rotational drive portion for rotating the roller portion about its axis to thereby rotate the wafer.

A construction robot for a ceiling is provided. The construction robot includes: a robot base having an upper plate; a targeting unit on the upper plate, wherein the targeting unit moves a robotic arm assembly combined with the targeting unit, and wherein the robotic arm assembly includes: a first robotic arm where a drill is mounted, wherein a first elevating unit of the first robotic arm is elevated or lowered according to information on the ceiling, a second robotic arm where an anchor bolt inserting equipment is mounted, wherein a second elevating unit of the second robotic arm is elevated or lowered according to the information, and a third robotic arm where an impact wrench is mounted, wherein a third elevating unit of the third robotic arm is elevated or lowered likewise; and a loading unit on the upper plate or the targeting unit for providing anchor bolt assemblies.

A gripper for the automated wiring of electrical components of an electrical switchgear, the gripper having at least two gripper fingers, wherein the gripper fingers delimit between them a cable guide corridor, the passage cross-section of which is bounded at a distal end of the gripper fingers by opposing gripper jaws of the gripper fingers and, with respect to the distal end, is bounded further proximally by opposing cable drives of the gripper fingers, the two gripper fingers being adjustable with respect to one another in an adjustment direction which corresponds to a cross-sectional direction of the passage cross-section in order to vary the passage cross-section via a linear adjustment unit. A corresponding robot and a corresponding method are further described.

Disclosed is a gripper (1) for beverage cans (20). The gripper (1) comprises at least one gripping device (6) used to grip a particular beverage can (20) from underneath the top seam (5) in a form-fitting manner in the region of a top seam (5), which top seam (5) is formed by a particular beverage can (20). The gripper (1) comprises at least one centering device (30), by which at least one centering device (30) aligns the particular beverage can (20) into a defined alignment, where the at least one gripping device (6) is able to grip a particular beverage can (20) from underneath in a form-fitting manner in the region of its top seam (5).

An end effector system is disclosed for a robotic system that includes a primary acquisition system that includes a primary end effector, and a secondary retention system that substantially surrounds at least a portion of the primary acquisition system, wherein at least a portion of the primary acquisition system may be drawn up within at least a portion of the secondary retention system such that the primary end effector system may be used to select an object from a plurality of objects, and the secondary retention system may be used to secure the object for rapid transport to an output destination.

The invention relates to an arrangement for connecting a charging plug to a charging interface of a vehicle, with a moving apparatus with a plurality of controllable movement axes; a tool which can be positioned by means of the moving apparatus relative to the vehicle and is configured to hold the charging plug, the tool having a centering device for centering the charging plug within the tool and a controllable tool movement axis for moving the charging plug independently of the movement axes of the moving apparatus; wherein the tool with the charging plug centered therein can be positioned in a predetermined relative position with regard to the charging interface by means of the moving apparatus and the charging plug can subsequently be connected with the charging interface by using the tool movement axis.

A controller of a robot turns over a workpiece into a second state by causing a first end effector to execute a holding operation of holding a first portion in a first state, causing the first robot arm to execute, after the holding operation, a lifting operation of lifting the first end effector such that a second sheet surface separates from a turnover station, causing the first robot arm to execute, after the lifting operation, a lowering operation of lowering the first end effector with a first sheet surface facing downward, and causing the first end effector to execute, before completion of the lowering operation and after the holding operation, a rotary operation of rotating about a first rotation axis in a direction of raising a first end portion.