The objective of the present invention is to provide: a robot arm extension device capable of adjusting an operating radius according to the operation environment and requirements of a robot in industrial sites; and a robot including the robot arm extension device. The robot arm extension device according to the present invention comprises: a housing; an adapter formed on one side of the housing and connected to the robot; a length extending part embedded in the housing and withdrawn from or inserted into the housing; and a driving part for providing the driving power of the length extending part.

A linear expansion mechanism includes: a plurality of linear-motion mechanisms assembled in series; a block train including a plurality of blocks coupled to each other in a row, a block at a leading end being connected to a linear-motion mechanism at a leading end; and a housing part that houses the block train. The housing part has a pair of arc-shaped rails and that being separately arranged on opposite sides of the block train, and a pair of projection bodies to be engaged with the pair of arc-shaped rails are provided on opposite side faces of each of the blocks.

A robot apparatus includes a base, a strut unit, and a linear expansion mechanism 1 rotatably supported on the strut unit. The linear expansion mechanism includes: a plurality of cylindrical bodies assembled in series to each other; a block train including a plurality of blocks coupled to each other in a row, the block at the leading end being connected to the cylindrical body at the leading end; and a housing part that houses the block train along an arc-shaped trajectory, the housing part being arranged below the cylindrical body at the trailing end and above the strut unit.

A device for guiding and directing a metal sheet in a bending machine to form continuously a conical structure, in particular a frustoconical structure, comprises: resting and contrasting arrangement extending along a closed path, and suitable for restingly receiving a longitudinal edge of the metal sheet and contrasting a movement of the edge in a direction that is transverse to a preset advancement trajectory of the metal sheet; a supporting body for the resting and contrasting arrangement, having at least one oblong lateral portion that is suitable for facing the edge and configured for conforming the resting and contrasting arrangement to the longitudinal profile of the edge so as to obtain an extended zone of contact with said edge and impose resting and contrasting pressure distributed along the edge; the resting and contrasting arrangement is movable around the supporting body along the closed path to accompany the edge of the metal sheet by a distributed contact devoid of relative sliding and rolling, so as to impose on the metal sheet the advancement along the desired advancement trajectory to and through the bending machine. The corresponding method is also provided.

A storage system (1) comprises a plurality of vertical stacks (2) of storage containers (3), wherein the stacks (2) are arranged in a horizontal first direction (X) and a horizontal second direction (Y) which is perpendicular to the first direction (X), a transport unit (8) for transporting at least one container (3) to or from a selected stack (2) in the first and/or second direction (X, Y), and a container handling device (9, 10) for transferring at least an upper container (3) from a selected stack (2) to the transport unit (8) before the transport unit (8) including the container (3) is transported from the selected stack (2) and for transferring at least a container (3) from the transport unit (8) to the top of a selected stack (2) after the transport unit (8) including the container (3) is transported to the selected stack (2). The transport unit (8) is movable above the stacks (2). The container handling device comprises a lifting member (9) for displacing a selected stack (2) in vertical direction with respect to adjacent stacks (2), wherein the lifting member (9) is movable below the stacks (2) in a non-lifting condition thereof, and the container handling device comprises an engaging member (10) that is provided at the transport unit (8) and suitable for engaging at least an upper container (3) of a lifted stack so as to retrieve the container or for releasing an engaged container so as to place the container on top of a selected stack.

A storage system (1) comprises a plurality of vertical stacks (2) of storage containers (3), wherein the stacks (2) are arranged in a horizontal first direction (X) and a horizontal second direction (Y) which is perpendicular to the first direction (X), a transport unit (8) for transporting at least one container (3) to or from a selected stack (2) in the first and/or second direction (X, Y), and a container handling device (9, 10) for transferring at least an upper container (3) from a selected stack (2) to the transport unit (8) before the transport unit (8) including the container (3) is transported from the selected stack (2) and for transferring at least a container (3) from the transport unit (8) to the top of a selected stack (2) after the transport unit (8) including the container (3) is transported to the selected stack (2). The transport unit (8) is movable above the stacks (2). The container handling device comprises a lifting member (9) for displacing a selected stack (2) in vertical direction with respect to adjacent stacks (2), wherein the lifting member (9) is movable below the stacks (2) in a non-lifting condition thereof, and the container handling device comprises an engaging member (10) that is provided at the transport unit (8) and suitable for engaging at least an upper container (3) of a lifted stack so as to retrieve the container or for releasing an engaged container so as to place the container on top of a selected stack.

The invention relates to an actuator with an anti-backbend chain, a drive motor, and a worm which can be driven by the drive motor and which comprises a helical groove. The anti-backbend chain has engagement means and is guided along the worm, and the chain is in engagement with the worm by means of the engagement means and the helical groove to drive the anti-backbend chain. Such an actuator should have a more compact design and should optionally exhibit less wear. For this purpose, the core diameter of the worm is larger than twice the distance from the motor axis to the motor exterior along which the anti-backbend chain is guided, and the anti-backbend chain is guided at least partly along the drive motor by means of the engagement means.

The invention relates to an actuator with an anti-backbend chain, a drive motor, and a worm which can be driven by the drive motor and which comprises a helical groove. The anti-backbend chain has engagement means and is guided along the worm, and the chain is in engagement with the worm by means of the engagement means and the helical groove to drive the anti-backbend chain. Such an actuator should have a more compact design and should optionally exhibit less wear. For this purpose, the core diameter of the worm is larger than twice the distance from the motor axis to the motor exterior along which the anti-backbend chain is guided, and the anti-backbend chain is guided at least partly along the drive motor by means of the engagement means.

The objective of the present invention is to provide: a robot arm extension device capable of adjusting an operating radius according to the operation environment and requirements of a robot in industrial sites; and a robot including the robot arm extension device. The robot arm extension device according to the present invention comprises: a housing; an adapter formed on one side of the housing and connected to the robot; a length extending part embedded in the housing and withdrawn from or inserted into the housing; and a driving part for providing the driving power of the length extending part.

Actuation systems and methods for actuating a telescopic structure are provided. The actuation system can include a chain cartridge including a drive chain engageably coupled to a drive mechanism actuated by an actuator coupled to a power supply. The drive chain can include a plurality of inter-connected links conveying at least one cable within an interior space of each inter-connected link. The system can also include a telescopic structure including a plurality of segments configured to extend and retract telescopically and conveying the drive chain therein. The drive chain can couple to a distal segment of the plurality of segments. The drive mechanism can impart a linear translation force on the plurality of inter-connected links to cause the distal segment to extend or retract from the telescopic structure. Methods of actuating the actuation system described herein are also provided.