A self-checkout system can include a plurality of telescoped bagging arm segments moveably coupled together in an order according to respective diameters of the plurality of telescoped bagging arm segments. A scanning system can be configured to provide a characteristic of an item purchased by a user of the self-checkout system and a processor circuit can be operatively coupled to the plurality of telescoped bagging arm segments and to the scanning system, where the processor circuit can be configured to move the plurality of telescoped bagging arm segments relative to one another based on the characteristic of the item to be placed in a bag in use with the self-checkout system.

A surgical instrument includes an end effector, a shaft assembly, a drive, and an activating mechanism. The end effector includes first and second jaws. At least one of the first and second jaws is pivotable relative to the other of the first and second jaws between open and closed positions. The shaft assembly extends proximally from the end effector. The drive is operatively connected to a portion of at least one of the end effector or the shaft assembly. The activating mechanism includes an actuation body operatively connected to the drive. The portion is configured to perform a first actuation profile in response to the actuation body moving along a first predetermined path or perform a second actuation profile in response to the actuation body moving along a second predetermined path. Selection of the first predetermined path is configured to prevent the actuation body from accessing the second predetermined path.

Systems, methods, and computer-readable media are disclosed for concentric suction cup tools with parallel pistons. In one embodiment, an example picking assembly may include a first piston subassembly with a first air cylinder, a first sliding rail that slides relative to the first air cylinder, and a first suction cup. The example picking assembly may include a second piston subassembly comprising a second air cylinder, a second sliding rail that slides relative to the second air cylinder, and a second suction cup, where the first and second piston subassemblies may be configured to independently actuate from a retracted position to an extended position. The example picking assembly may include a first guide plate with a first aperture for the first piston subassembly and a second aperture for the second piston subassembly, a shell that forms a housing for the picking assembly, and an airflow coupler.

An extension tool includes a plurality of sequentially arranged links moveable relative to one another. The plurality of sequentially arranged links include a first link. The extension tool further includes a line assembly having a line, the line including a first portion extending through the plurality of sequentially arranged links to the first link and a transition portion extending from the first portion through the first link. The extension tool further includes an attachment feature coupled to or formed integrally with the line of the line assembly at the transition portion of the line to support the line in the event of a failure of the line.

An extension tool includes a plurality of sequentially arranged links moveable relative to one another. The plurality of sequentially arranged links include a first link. The extension tool further includes a line assembly having a line, the line including a first portion extending through the plurality of sequentially arranged links to the first link and a transition portion extending from the first portion through the first link. The extension tool further includes an attachment feature coupled to or formed integrally with the line of the line assembly at the transition portion of the line to support the line in the event of a failure of the line.

A non-destructive inspection system is presented. The non-destructive inspection system comprises a robotic end effector having an extendable actuator and a flange-mounted roller containing an ultrasonic sensor, the flange-mounted roller connected to the extendable actuator by a pivot connection, the extendable actuator configured to extend the flange-mounted roller until the flange-mounted roller contacts an inspection surface.

A non-destructive inspection system is presented. The non-destructive inspection system comprises a robotic end effector having an extendable actuator and a flange-mounted roller containing an ultrasonic sensor, the flange-mounted roller connected to the extendable actuator by a pivot connection, the extendable actuator configured to extend the flange-mounted roller until the flange-mounted roller contacts an inspection surface.

An object gripping mechanism is provided for use with a robotic arm. A robotic arm and method of manufacturing an object gripping mechanism are also provided. The object gripping mechanism includes an attachment modular configured to connect the object gripping mechanism to the robotic arm. The object gripping mechanism also includes a plurality of retractable arms each pivotably connected with the attachment modular. The object gripping mechanism also includes one or more movement mechanisms collectively configured to pivot the plurality of retractable arms to a desired position. The object gripping mechanism further includes a drive mechanism positioned within each of the plurality of retractable arms and configured to pivot the object engagement feature using a gear and timing belt configuration.

A robot for automatically preventing epidemics includes: a moving body which is movable along a passage of an interior space of a transportation element; an injection unit which is mounted to the moving body and injects a chemical solution for disinfection toward the seat disposed in the interior space; and an ultraviolet ray irradiation unit which is mounted to a lower end of the moving body and irradiates ultraviolet rays toward a floor of the passage, in which the robot for automatically preventing epidemics automatically performs epidemic prevention work in the interior space.

A mechanical arm designed to provide automated garbage collection with smooth, constant movement (i.e. movement that has minimal jerk/shock) thereby resulting in limited shock stress on the components and leading to high durability. The mechanical arm including a horizontal displacement system having a plurality of sections rollingly engaged to one another and a motor mounted to an immobile section for drivingly extending section in a generally horizontal orientation, a vertical displacement system having a plurality of masts rollingly engaged to one another and a motor mounted to a first mast for drivingly extending a second mast in a generally vertical orientation, and/or a grabber system having a plurality of fingers mounted to a frame and operated by a single motor.