Systems are provided for gripping one or more workpieces. A tooling system includes a plurality of grippers configured to engage and grip the workpieces. An arm is connected with each gripper. A lock releasably locks each arm in a number of positions, including a home position. A pneumatic circuit is coupled with the grippers. A valve is disposed in the pneumatic power supply circuit and is positionable in an open state and in a closed state. When the arm is moved to the home position, in response the valve is mechanically moved to the closed state, idling the gripper.

A labeling device includes: a robot having articulated arms with arm sections that are articulated: together, to a robot base, and to a platform of a label pickup device. The pickup device has a base plate and a plunger. The plunger has a fixed portion mounted to the base plate and is not displaceable relative to the base plate in a longitudinal direction, has a portion that is movable in the fixed portion in the longitudinal direction toward the base plate to a retracted position, and has an end configured to pick up a label. A pressure regulator of the plunger breaks a negative pressure in the plunger. The plunger's fixed portion covers an opening of its movable portion in a gas-tight manner by of the when the movable portion in an extended position and which is not covered when in the retracted position.

A labeling device includes: a robot having articulated arms with arm sections that are articulated: together, to a robot base, and to a platform of a label pickup device. The pickup device has a base plate and a plunger. The plunger has a fixed portion mounted to the base plate and is not displaceable relative to the base plate in a longitudinal direction, has a portion that is movable in the fixed portion in the longitudinal direction toward the base plate to a retracted position, and has an end configured to pick up a label. A pressure regulator of the plunger breaks a negative pressure in the plunger. The plunger's fixed portion covers an opening of its movable portion in a gas-tight manner by of the when the movable portion in an extended position and which is not covered when in the retracted position.

A labeling device includes: a robot having articulated arms with arm sections that are articulated: together, to a robot base, and to a platform of a label pickup device. The pickup device has a base plate and a plunger. The plunger has a fixed portion mounted to the base plate and is not displaceable relative to the base plate in a longitudinal direction, has a portion that is movable in the fixed portion in the longitudinal direction toward the base plate to a retracted position, and has an end configured to pick up a label. A pressure regulator of the plunger breaks a negative pressure in the plunger. The plunger's fixed portion covers an opening of its movable portion in a gas-tight manner by of the when the movable portion in an extended position and which is not covered when in the retracted position.

A labeling device includes: a robot having articulated arms with arm sections that are articulated: together, to a robot base, and to a platform of a label pickup device. The pickup device has a base plate and a plunger. The plunger has a fixed portion mounted to the base plate and is not displaceable relative to the base plate in a longitudinal direction, has a portion that is movable in the fixed portion in the longitudinal direction toward the base plate to a retracted position, and has an end configured to pick up a label. A pressure regulator of the plunger breaks a negative pressure in the plunger. The plunger's fixed portion covers an opening of its movable portion in a gas-tight manner by of the when the movable portion in an extended position and which is not covered when in the retracted position.

Systems are provided for gripping one or more workpieces. A tooling system includes a plurality of grippers configured to engage and grip the workpieces. An arm is connected with each gripper. A lock releasably locks each arm in a number of positions, including a home position. A pneumatic circuit is coupled with the grippers. A valve is disposed in the pneumatic power supply circuit and is positionable in an open state and in a closed state. When the arm is moved to the home position, in response the valve is mechanically moved to the closed state, idling the gripper.

A movable harvesting apparatus includes an end effector including a suction port to suction a harvest object, a vacuum generator, vacuum spaces in which a vacuum is generated by the vacuum generator, a switching valve disposed in a path from the vacuum spaces to the suction port, and a controller to control opening and closing of the switching valve. The harvesting apparatus reduces wasteful energy consumption required for harvesting.

A mechanically intelligent end-of-arm tool includes a valve that is actuated by the action of the arm, such that a force applied to the object to be grasped opens the valve to expose a suction cup to the vacuum pressure. A spool valve, poppet valve, and butterfly valve, et al., can perform the valve function. The tool may include a button that has a rigid contact surface or may be deformable to provide a smoothing force to the object.

There is provided a component mounter for mounting a component on a mounting target object, including: a mounting head comprising a base section having, in the interior thereof, a first gas passage and a second gas passage that does not communicate with the first gas passage; a lifting and lowering mechanism for lifting and lowering the base section; a suction nozzle having a nozzle section disposed below the base section and configured to be lifted up and lowered, as the base section is lifted up and lowered, to pick up the component through a negative pressure supplied to the first gas passage; a biasing section for biasing the nozzle section downwards while permitting the nozzle section to be pushed in towards the base section; and a valve for switching between presence and absence of communication between the second gas passage and the outside depending on whether a push-in amount of the nozzle section has not yet reached or reached a predetermined value; and a detecting device for detecting at least one of a flow rate or a pressure of gas flowing through the second gas passage.

A gripper head assembly is for a robotic gripping system and includes an actuator. The actuator includes: an actuator body having an attachment region configured to attach the actuator body to the gripper head; a drive element having a mounting section for a tool; a drive having a connector configured to receive an input; the drive being configured to move the drive element upon receiving the input; the drive element defining a through passage; the through passage having a first port for receiving at least one of negative pressure and positive pressure; and, the through passage having an outlet at the mounting section configured to supply the tool with the at least one of negative and positive pressure.