The present disclosure is directed toward a robotic system that includes a robotic arm, a robotic end-effector, a lock, and a control system. The robotic end-effector is detachably coupled to the robotic arm and includes a locomotion device to move the robotic end-effector independent of the robotic arm. The lock is disposed with the robotic arm and robotic end-effector, and is operable to detach and attach the robotic arm and the robotic end-effector. The control system is configured to control the robotic arm and the robotic end-effector, and to operate the lock to detach and attach the robotic arm and the robotic end-effector.

A connector (70) for mechanically connecting a device (2) to a robot (20), wherein the connector (70) comprises a first portion (74) configured to be attached to the robot (20) and a second portion (76) configured to be attached to a device (2) configured to be connected to the robot (20). The first portion (74) and the second portion (76) are detachably attached to each other by means of: a) a first connection portion (1) constituting a rotational system comprising a pivot (116) about which the first portion (74) can rotate with respect to the second portion (76) and b) a second connection portion (1) constituting a mechanical locking structure that prevents the first portion (74) and the second portion (76) from being detached from each other.

A method for picking objects is specified, in which at least one object is removed from a source loading aid and placed into a target loading aid using a robot. After the operation of removing the object, a first sensor system of the robot is used to check whether at least one object is held by the robot. A number and/or a type of the at least one removed object is ascertained using the second sensor system. The operation of placing the at least one object into the target loading aid is aborted or modified if no object is held by the robot or the number and/or the type of the at least one removed object does not contribute to completing the picking order, which defines a desired number and/or desired type of objects in the target loading aid. Furthermore, a device and a computer program product for performing the presented method is specified.

Provided is a process, including: engaging, with a first subset of end effectors of a robot, a first open-top vessel; engaging, while the first subset of end effectors are engaged with the first open-top vessel, with a second subset of end effectors of the robot, a second open-top vessel; concurrently transporting the first open-top vessel and the second open-top vessel with two or more actuators; disengaging the first open-top vessel at a first workstation of the robot, the first workstation being configured to dispense a first alimentary product into the first open-top vessel; and disengaging the second open-top vessel at a second workstation of the robot, the second workstation being configured to dispense a second alimentary product into the second open-top vessel.

An application head of a coating product on a surface to be coated comprising at least two spray nozzles for the coating product, each spray nozzle suitable for spraying the coating product in the form of an aerosol stream, while simultaneously creating several droplets having a diameter smaller than the diameter of the outlet orifice of the spray nozzle.

A quick change end effector system for use with a robot includes: a quick change end effector configured for application to a task to be completed by a robot, the quick change end effector further comprising an end effector magnet; and a robotic manipulator configured to lock to the end effector, the robotic manipulator further configured to use the end effector to complete the task, the robotic manipulator comprising a manipulator magnet, the manipulator magnet being configured to magnetically attract the end effector magnet, thereby locking the manipulator in a mechanically strong connection to the quick change end effector, wherein upon disengagement of the magnetic attraction locking the manipulator to the quick change end effector, the quick change end effector can be quickly removed from the manipulator.

A cleaning system is provided. The cleaning system includes a robot cleaner and a station. The robot cleaner includes a pad fixing part on which a cleaning pad is detachably mounted, a lifter to lift a part of the robot cleaner at which the pad fixing part is positioned, and a pad detacher to detach the cleaning pad mounted on the pad fixing part. The station includes a pad storage box in which a cleaning pad that is to be provided to the robot cleaner is stored, a pad coupling part on which a cleaning pad that is to be coupled to the robot cleaner is rested, and a pad supplier to supply the cleaning pad stored in the pad storage box to the pad coupling part.

Methods and systems for installing a plug into an aperture of an article are provided, such as drain hole in an electrocoated vehicle floor pan. A robot system used herein includes a robot and a tool, where the tool includes a plug reservoir, a sensor, and an actuator. The sensor is configured to detect the aperture of the article and the actuator is configured to place one of the plugs from the plug reservoir into the aperture. The robot system can include a tool change nest, where the plug reservoir can be received with the tool change nest and the removed from a remainder of the tool. Quick change of plug reservoirs using the present technology improves operation speed and use of one or more tool change nests can reload and/or reconfigure the robot system for plugging various apertures with minimized input or interaction.

A robotic grommet installer includes a robotic arm and an installation unit. The installation unit includes a rotary grommet holder rotatively coupled to the robotic arm and an installer coupled to the robotic arm. The rotary grommet holder includes a plurality of grommet chambers spaced circumferentially about a rotational axis of the rotary grommet holder. Each grommet chamber of the plurality of grommet chambers is configured to hold a plurality of grommets. The installer is configured to retrieve a grommet from the rotary grommet holder, wherein the rotary grommet holder is configured to rotate to align the installer with an available grommet positioned within one of the plurality of grommet chambers.

The present disclosure provides a cleaning system and a cleaning apparatus. The cleaning system includes a cleaning apparatus and a robot. The robot includes at least one robot arm. The cleaning apparatus includes at least one adaptor mechanism and a cleaning mechanism. The adaptor mechanism connects the cleaning mechanism to the robot arm. By controlling robot arms of the robot, the cleaning mechanism of the cleaning apparatus performs cleaning operations for platforms. The cleaning system achieves continuous and efficient cleaning effects, and operates object cleaning in diverse manners.