An arm assembly and hand assembly for supporting metrology equipment is provided. The hand assembly includes a boom arm having a proximal end coupled to a distal end of the arm assembly and a distal end coupled to a carriage assembly of the hand assembly. The carriage assembly is configured to support the metrology equipment in such a way so as to align the center of gravity of the metrology equipment substantially at the center of rotation of the hand assembly. The arm assembly includes an upper arm that is supported by way of a first counterbalance mechanism and/or a first brake mechanism and a forearm extending from a distal end of the upper arm, the forearm being supported by a second counterbalance mechanism and/or a second brake mechanism by way of a drive assembly. A hub assembly associated with a counterbalance mechanism includes an adjustment mechanism.

A system and method for providing proxy picking of non-fungible goods within an automated storage and retrieval system is provided, which repurposes one or more automated mobile robots operating within the automated inventory management system to perform a plurality of tasks across multiple different areas of an automated store. The proxy picking system and method are configured to pick individually identified non-fungible goods according to a customer selection on an ordering screen based on measured attributes and images of the goods, the attributes selected by the customer.

A cross carriage for a gantry system for moving workpieces, loads and the like, formed of several construction plates arranged in adjacent parallel planes. Longitudinally and/or transversely extending hollow profiled elements are arranged between at least two of the construction plates and several or all of the construction plates and/or hollow profiled elements are predominantly formed of a plastic material, preferably a carbon fiber-reinforced plastic material.

A multi-user medical robotic system for collaboration or training in minimally invasive surgical procedures includes first and second master input devices, a first slave robotic mechanism, and at least one processor configured to generate a first slave command for the first slave robotic mechanism by switchably using one or both of a first command indicative of manipulation of the first master input device by a first user and a second command indicative of manipulation of the second master input device by a second user. To facilitate the collaboration or training, both first and second users communicate with each other through an audio system and see the minimally invasive surgery site on first and second displays respectively viewable by the first and second users.

A robotic surgery system comprises a mounting base, a plurality of surgical instruments, and an articulate support assembly. Each instrument is insertable into a patient through an associated minimally invasive aperture to a desired internal surgical site. The articulate support assembly movably supports the instruments relative to the base. The support generally comprises an orienting platform, a platform linkage movably supporting the orienting platform relative to the base, and a plurality of manipulators mounted to the orienting platform, wherein each manipulator movably supports an associated instrument.

The robot of this embodiment moves a work tool to points where multiple work-pieces are placed, and executes a process specified at each point where the work-piece is placed. A point sequence memory stores the point where the work-piece is placed. A work-instruction-sequence memory stores a work instruction executed at the point where the work-piece is placed. A work-piece-correction-level memory stores, in association with each other, a work-piece correction level at each point and a parameter of each point where the work-piece is placed. A work-piece-correction counter memory stores a counter indicating to which point the work-piece correction level at the point is reflected.

A liquid compound dispensing apparatus for dispensing a controlled amount of liquid compound onto a workpiece is described. The apparatus comprises a cartridge system. The cartridge system may accept a liquid compound cartridge containing liquid compound. The apparatus also comprises a plate, having a threaded bore, positioned above the cartridge system that is movable in a first and second direction, at least one plunger attached to the plate at a first end and attached to a piston at a second end. The piston is dimensioned to move within the liquid compound cartridge to displace liquid compound when the plate is moved in the second direction. A driving mechanism moves the plate in the first and the second directions to dispense product and comprises a motor, a threaded rod disposed through the threaded bore of the plate that is driven by a driving belt attached to the motor.

A bending apparatus in one aspect of the present disclosure comprises a robot, a chuck mechanism, and a plurality of bending mechanisms. The plurality of bending mechanisms are each provided as a separate component from the robot and the chuck mechanism, and are arranged in a space reachable by a workpiece held by the chuck mechanism.

Provided is a robot center-of-gravity display device including: a specification setting unit that sets specifications including the weights, center-of-gravity positions, and dimensions of components of respective shafts; a posture setting unit that sets position information of the respective shafts; a robot-image generating unit that generates a three-dimensional model image of the robot in a state where the respective shafts are located at the positions indicated by the position information, based on the set position information of the respective shafts and the specifications of the components; a center-of-gravity-position calculation unit that calculates the center-of-gravity position of the overall robot, based on the set position information of the respective shafts and the specifications of the components; an image combining unit that superimposes an indication showing the center of gravity of the overall robot on the three-dimensional model image at the calculated center-of-gravity position; and a display unit that displays the generated image.

A multi-user medical robotic system for collaboration or training in minimally invasive surgical procedures includes first and second master input devices, a first slave robotic mechanism, and at least one processor configured to generate a first slave command for the first slave robotic mechanism by switchably using one or both of a first command indicative of manipulation of the first master input device by a first user and a second command indicative of manipulation of the second master input device by a second user. To facilitate the collaboration or training, both first and second users communicate with each other through an audio system and see the minimally invasive surgery site on first and second displays respectively viewable by the first and second users.