An autonomous construction robotic system is disclosed which includes a processing unit, a robotic arm, the robotic arm is adapted to be coupled to a central attachment arm and thereby position the central attachment arm according to a plurality of degrees of freedom, a panel handling and fastening system, including a panel handling assembly coupled to the central attachment arm and adapted to pick and place a construction panel onto a framed structure within a construction zone, and a vision system adapted to provide visual information to the processing unit associated with the framed structure, wherein the processing unit processes the visual information to automatically determine placement position of the construction panel on the framed structure.

A gripper head is for a robotic gripping system. The gripper head body has an attachment section and a tool section defining an attachment region for a tool. The attachment section is configured to attach the gripper head body to a mount of a robot. The gripper head body has a first port at the attachment section and a second port at the tool section. The gripper head body defines an internal channel mutually connecting the first port and the second port. The internal channel is configured to pass air between the first port at the attachment section and the second port at the tool section.

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.

Robotic systems with griping mechanisms, and related systems and methods are disclosed herein. In some embodiments, the robotic system includes a robotic arm and an end-of-arm tool coupled to the robotic arm. The end-of-arm tool can include a housing, a vacuum-gripping component, and a clamping component. The vacuum-gripping component can be operably coupled to a lower surface of the housing to apply a suction force to an upper surface of a target object. The clamping component can include first and second clamping elements. The first clamping element projects at least partially beneath the lower surface of the housing and is movable along a lateral axis to engage a first side surface of the target object. Similarly, the second clamping element projects at least partially beneath the lower surface of the frame and is movable along the lateral axis to engage with a second side surface of the target object.

An automated transforming tooling system apparatus and method for shuttling a workpiece to and from an industrial operation. The system includes a workstation for complementarily engaging and securing the workpiece, and at least one holder removably secures at least on end effector tool to the workstation. At least one transfer bar is movably positioned with respect to the workstation. At least one automated transforming tooling assembly is connected to the transfer bar and has a plurality of links adjustably connected by motorized joints to automatically position the automated transforming tooling assembly. An automated tool changer is connected to the automated transforming tooling assembly and releasably engages the end effector tool between a disengaged position, wherein the end effector tool is disengaged from the automated tool changer, and an engaged position, wherein the end effector tool is engaged by the automated tool changer.

According to one embodiment, a transfer apparatus includes a suction hand, a moving device, a first detector, and a controller. The suction hand includes a first and second suction units. The first and second suction units are configured to contact with an article in a first direction and a second direction, respectively. the first suction unit and the second suction unit each are provided multiply in a third direction. The controller performs at least a first operation and a second operation. In the first operation, the first suction units respectively suction first surfaces of the articles, the second suction units respectively suction second surfaces of the articles, and the articles are moved. In the second operation, one of the first suction units suctions the first surface of one of the articles, the second suction units do not suction the articles, and the one of the articles is moved.

A storage system configured to house a plurality of containers housing inventory items includes support members, a first set of parallel rails to support a mobile, manipulator robot, and a fluid supply line having a plurality of valves disposed within the fluid supply line. Each of the valves having a closed condition in which the supply line is in fluid isolation from an outside environment and an open condition in which the supply line is in fluid communication with the environment such that the supply line is configured to supply fluid to a mobile, manipulator robot. Mobile, manipulator robots for retrieving inventory items stored within the containers and retrieval methods are also disclosed herein.

A holding device includes: a first suction structure that sucks a main member; and a first grasping structure that is arranged adjacent to the first suction structure in a direction intersecting with a first direction and grasps a first auxiliary member. The first suction structure is directed so as to suck the main member located in the first direction, and the first grasping structure is directed so as to grasp the first auxiliary member located in the first direction.

A holding device that holds a plate-shaped member having flexibility includes: a first suction structure that sucks the plate-shaped member; a second suction structure that sucks the plate-shaped member and is turnable and movable; a turning device that turns the second suction structure and a moving device that moves the second suction structure. When the first suction structure and the second suction structure suck and hold the plate-shaped member, the turning device twists the plate-shaped member by turning the second suction structure such that the second suction structure is directed in a direction different from the first suction structure, and the moving device bends the plate-shaped member by moving the second suction structure such that the second suction structure retreats relative to a direction along which the first suction structure and the second suction structure are located.

A robot for order fulfillment includes a mobility assembly, an arm, a pneumatically actuatable tool, and a coupler having a mating end in selective communication with the pneumatically actuatable tool. The mating end of the coupler being configured to access a pneumatic supply from an external pneumatic source such that the robot need not include a large compressor.