The adapter interchange system for robotised systems comprising a robotic arm (1) provided with a tool (2) at one of the ends thereof, with said tool (2) comprising at least one actuator (3) joined to the end of said robotic arm (1) and at least one adapter (4) detachably joined to said at least one actuator (3). It allows an adapter interchange system to be provided which allows the adapter of the actuator of the tool to be changed, instead of changing the entire tool, to provide a less complex and more economical solution.

The present invention relates to a tool changer for automatically connecting a tool changer for collaborative robots, a robot tool changer system, and a method for connecting a tool to a robot arm. The tool changer comprises a first tool changer part intended to be mounted to an arm of the robot, the first tool changer part comprising first connecting means; a second tool changer part intended to be mounted to the operating device and comprising second connecting means. The first and second connecting means are arranged for mutual engagement, such that said first and second tool changer part may be connected and disconnected from each other.

A remote arm for a manipulator is disclosed, which has a boom tube having a distal end and housing a mechanical communication chain. A floating gearbox assembly is coupled to the boom tube and has an outer framework rigidly coupled to the distal end of the boom tube. An inner framework is retained by the outer framework and is rotatable relative to the outer framework. A drive gear is disposed in the inner framework, which is in mechanical communication with the mechanical communication chain. A wrist joint has a wrist joint housing and an output gear is disposed in the wrist joint housing, where the wrist joint housing is configured to detachably couple to the outer framework. The output gear is configured to mechanically communicate with the drive gear when the wrist joint housing is coupled to the outer framework.

A surgical tray efficiency system comprising a vertical rack assembly for holding and displaying a plurality of surgical instrument trays, a sterile barrier covering the vertical rack assembly and including tray location identifiers, and a standardization software platform including a customizable interactive planogram is described. The customizable interactive planogram software helps operating room staff arrange the instrument trays on the vertical rack assembly according to a predetermined customizable location ID, and create/load/access information related to the surgical procedure/trays/instruments before, during, and after the surgery.

End effector tool changers for a pick, sort, and place robotic system are disclosed. The end effector tool changer comprises an arm attachment portion, a plurality of engagement mechanisms, wherein each engagement mechanism comprises a first part and a second part, and wherein the first part and the second part of the engagement mechanism are selected from the group consisting of a pin and a pinhole; a robotic arm attachment portion, comprising a first plurality of magnets and a first plurality of first parts of the plurality of engagement mechanisms; and a tool attachment portion, comprising a second plurality of magnets and a second plurality of second parts of the plurality of engagement mechanisms. The end effector tool changer has greater mechanical stability, prevents accidental disconnection of the tool, and prevents unintentional rotation of the tool.

The apparatus and method described herein allows for the automated replacement of end effectors on a robot without requiring external power source such as electricity or compressed air. The programmed robot motion provides the mechanism for tool changing. This simplified approach provides a simpler, less expensive solution to systems currently provided. The robot motion provides the mechanism and all the power needed to enable the tool changing.

A tool changer 30 with a master half 32 and tool half 34. Mating member 60, 138 enables the master half 32 and tool half to mesh with one another. A securing mechanism has a clasp 70 and a cam 72. The clasps 70 move between a release position and a grasping position. In the grasping position, the master 32 and tool halves 34 are secured together with one another. The cam 72 moves the clasps 70 between the release and grasping positions. From a release position, the master half 32 engages the tool half 34. The master half 32 moves horizontally with respect to the tool half 34. This, in turn, moves the cam 72 from its release position to its grasping position. In the grasping position, the clasps 70 grasp the tool half 34, the cam locks 72 in its grasping position and the master 32 and tool 34 halves secure with one another.

A transport mechanism for wafers of different sizes and types includes a carrier device and a manipulator device. The carrier device has a mounting rack, multiple supporting units, and multiple carrier units. The multiple supporting units are mounted on the mounting rack, and each supporting unit has two supporting bases. Each one of the multiple carrier units has two carrier plates. Each one of the two carrier plates has a connecting rod and two positioning rods. The two positioning rods are respectively located on two sides of the connecting rod. The manipulator device has a driving unit and a manipulator unit. The manipulator unit is mounted on the driving unit and has two arms. Each one of the two arms has a connecting socket and two positioning sockets. The two positioning sockets are respectively located beside the connecting socket. The locking element is movably mounted to the arm.

A machine for filling and packaging bottles, cartridges, syringes and the like, said machine including a wall that delimits an operating chamber in which at least one handling arm is arranged, substantially facing at least one station placed externally to the operating chamber for the treatment of at least a container. At least one intermediate element includes, on at least a portion thereof, at least one coupling member configured to be alternatively operatively associable to said station and to said handling arm, said intermediate element further including comprising coupling means, integral to the intermediate element itself, other than said coupling member and configured to removably hold said at least one container to be treated.

A method of manipulating a brush relative to a brush-arm assembly of an end-effector comprises locating a carriage in one of a first position or a second position relative to a stationary component. The method also comprises, with the carriage in one of the first position or the second position, different from the first position, relative to the stationary component, locating the brush-arm assembly of the end-effector with respect to the stationary component so that the brush-arm assembly is in contact with the stationary component. The method further comprises moving the carriage in a second direction toward the stationary component, from the first position to a third position, to load the brush onto the brush-arm assembly, or moving the carriage in a first direction away from the stationary component from the second position to the first position to unload the brush from the brush-arm assembly.