A food preparation system arranged in a kitchen includes a gantry fixed with the kitchen, at least one robot arm having an end effector supported on a base in the kitchen, where the base is movably mounted on the gantry, defining a reaching distance of the robot from the end effector to the base, along a travel path of the base on the gantry, a storage container arranged in the kitchen, within the reaching distance of the at least one robot arm, and configured for storing a food item, at least one ingredient distribution device arranged in the kitchen, within the reaching distance of the at least one robot arm, and configured for dispensing at least one ingredient on the food item, and an oven arranged in the kitchen, within the reaching distance of the at least one robot arm, and configured for baking the food item.

A driven linear axis includes a housing which has a linear rail guide on which a carriage is arranged such that it can be moved back and forth linearly with the aid of a transport device. The transport device comprises a belt which circulates in the housing and is guided over two gears, at least one gear being configured as a drive gear. Furthermore, a drive device is arranged within the drive gear and is in a torque-locking rotary connection with the drive gear.

The present application discloses a mechanism to adjust backlash in a rack and pinion powertrain assembly. The mechanism to adjust backlash includes a mounting frame having an opening defined therein to receive an operative end of a drive assembly, a shoulder fastener positioned through a first complementary set of holes at a first end of a mounting flange to movably couple the mounting flange to the mounting frame, the fastener being fastened in a manner such that the mounting flange and drive assembly have freedom to pivot about a longitudinal axis of the first complementary set of holes, and an adjustable length coupling device having a first end coupled mechanically to the mounting plate and a second end coupled mechanically to the mounting flange at a location substantially opposite the first end of the mounting flange.

Disclosed herein is a robotic system comprising a robotic arm, an end effector coupled to a distal end of a robotic arm, one or more cameras, and a processors configured to construct a three-dimensional (3D) model of a user based on received data from the one or more cameras, identify automatically a target therapy point on the user based on the constructed 3D model, and actuate the end effector to apply a therapy to the target therapy point.

A repositionable riser is disclosed. The repositionable riser may be used in connection with a robotic arm deployed in a workspace. In various embodiments, the repositionable riser includes a riser having one or more mounting locations at or near an upper end of the riser configured to fixedly mount an equipment on the riser, a lateral translation subsystem comprising a carriage on which the riser is mounted and a set of one or more elongated structures that define a constrained lateral path along which the carriage is movable, the path including a first end associated with active use of the equipment and a second end not associated with active use of the equipment, and an anchor structure to which one or both of the carriage and the riser are configured to be coupled to secure the riser at the first end.

A repositionable riser is disclosed. The repositionable riser may be used in connection with a robotic arm deployed in a workspace. In various embodiments, the repositionable riser includes a riser having one or more mounting locations at or near an upper end of the riser configured to fixedly mount an equipment on the riser, a lateral translation subsystem comprising a carriage on which the riser is mounted and a set of one or more elongated structures that define a constrained lateral path along which the carriage is movable, the path including a first end associated with active use of the equipment and a second end not associated with active use of the equipment, and an anchor structure to which one or both of the carriage and the riser are configured to be coupled to secure the riser at the first end.

A mechanised container for use in a robotic storage and picking system is described. The container includes a base openable to deposit at least one item from the container in to a further container positioned by a load handling device beneath the first container. Each item can be stored in such mechanised containers in stacks within a robotic storage and picking system.

A method for transferring a workpiece from a first manipulator to a second manipulator by means of a manipulation system in a bending installation having at least one bending machine is provided. Each manipulator comprises first, second, and third manipulator arms, each of which is pivotable about second axes, third axes, and fourth axes and exclusively in a parallel orientation with respect to a first axis of a guide arrangement. The workpiece is grasped by a holding arrangement of the first manipulator. The third manipulator arms are oriented to be opposite and to project towards one another, and the same workpiece is grasped by a holding arrangement of the second manipulator and subsequently released from the holding arrangement of the first manipulator for the direct transfer process. The invention furthermore relates to a manipulation system and a bending installation equipped therewith.

A task table for use in a robotic system comprising a robot mounted on a carriage configured to move the robot along a path is disclosed. The task table includes a substantially horizontal table surface, and one or more mounting arms to which the table surface is affixed at a first distal end and comprising, at a second distal end opposite the first distal end, one or more mounting structures, the one or more mounting arms having a length that allows the table surface to be mounted to the robot or the carriage at a distance from a base of the robot that enables the robot to reach a plurality of locations on the table surface each with a desired pose.

A task table for use in a robotic system comprising a robot mounted on a carriage configured to move the robot along a path is disclosed. The task table includes a substantially horizontal table surface, and one or more mounting arms to which the table surface is affixed at a first distal end and comprising, at a second distal end opposite the first distal end, one or more mounting structures, the one or more mounting arms having a length that allows the table surface to be mounted to the robot or the carriage at a distance from a base of the robot that enables the robot to reach a plurality of locations on the table surface each with a desired pose.