A waste sorting robot comprises a manipulator moveable within a working area. A suction gripper is connected to the manipulator and arranged to selectively grip a waste object in the working area. An air supply is in fluid communication with the suction gripper and configured to generate an airflow along an airflow path in the suction gripper. A solvent outlet in fluid communication with a solvent supply wherein the solvent outlet configured to dose the airflow with the solvent.

A device for harvesting mushrooms from a mushroom bed involves a robotic arm configured to interchangeably deploy one of a plurality of different suction grippers, each of the suction grippers having a suction cup having a size and shape profile appropriate for gripping a cap of a mushroom, the cap having a size and shape profile within a predetermined range. A vacuum source in fluid communication with the suction gripper supplies negative air pressure to the suction gripper for retaining a cap of the mushroom to be harvested in the suction cup. A control circuit in electronic communication with the suction gripper and the vacuum source is configured to automatically adjust the negative air pressure in the suction gripper in response to harvesting requirements during a mushroom harvesting process. A few standard mushroom shapes have been identified, which permits suction cup designs that maximize contact between the suction cups and the mushroom caps, which permits minimizing the strength of the vacuum needed to harvest the mushrooms.

A machine tool which removal-machines a workpiece by a tool includes an in-machine robot provided in a machining chamber, and a cleaning mechanism that cleans the in-machine robot by removing an adhering substance adhering to the in-machine robot. When the in-machine robot is cleaned, the in-machine robot moves relative to the cleaning mechanism and positions in proximity to the cleaning mechanism.

A robot with improved cleanliness for use in a clean environment is disclosed, having a uniform flow through the open interface between the clean environment and the interior of the robot housing, passing the particle generation area to an exhaust port, keeping the particles from the clean environment. The uniform flow reduces or eliminates the back flow, and further allows the scalability of the open interface to prevent particles generated from moving mechanisms within the robot housing to contaminate the clean environment. The uniform flow can be established by designing the flow dynamic, centering the exhaust port, or by restricting the flow along the elongated slot, for example, by uniformly restricting the flow along the elongated slot, or by implementing a restrictor along the elongated slot.

A machine tool includes: an exterior cover covering a machining area where a workpiece on a worktable is machined by a machining tool; an articulated robot arranged inside the exterior cover and configured to replace the workpiece on the worktable; a controller configured to control a posture of the articulated robot and a coordinate point at which a hand of the articulated robot is positioned; and an air nozzle arranged inside the exterior cover and configured to remove scattered matter that has been generated during machining of the workpiece and has adhered at least to the hand when the articulated robot is set at a predetermined posture or when the hand is moved to a predetermined coordinate point.

A high-precision two-part flat chuck device includes: a base, a cylinder, a sliding plate, a first clamping plate and a second clamping pate. A piston rod of the cylinder is connected with the sliding plate. Precision sliding rails are arranged at two sides of the base, and two sides of the sliding plate are respectively matched with the precision sliding rails in a sliding manner. An accommodating groove is arranged in a middle part of the sliding plate. The first and second clamping plates are symmetrically distributed in the accommodating groove along a center of the sliding plate, and a spring is arranged between the first and second clamping plates. Side surfaces of the first and second clamping plates are inclined planes, and chucks matched with each other are arranged at end parts of the first and seconding clamp plates.

Provided is an excellent robot device capable of preferably detecting difference between dirt and a scratch on a lens of a camera and difference between dirt and a scratch on a hand. A robot device detects a site in which there is the dirt or the scratch using an image of the hand taken by a camera as a reference image. Further, this determines whether the detected dirt or scratch is due to the lens of the camera or the hand by moving the hand. The robot device performs cleaning work assuming that the dirt is detected, and then this detects the difference between the dirt and the scratch depending on whether the dirt is removed.

A part transporting device for transporting a consumable part includes a part housing, a container, a robot arm, and a moving mechanism. The part housing accommodates an unused consumable part and a used consumable part. The container has an opening to be connected to a processing device and a gate valve for opening or closing the opening, the container being configured to accommodate the part housing. The robot arm is provided in the container and has at least one end effector at a tip end thereof, the robot arm transferring the used consumable part from the processing device through the opening to accommodate the used consumable part in the part housing and transferring the unused consumable part from the part housing to load the unused consumable part the processing device through the opening. The moving mechanism has a power source and is configured to move the part transporting device.

A robot for handling goods in transit having a movable fork unit with a load-bearing fork and a fork base relative to which the load-bearing fork can be translationally moved. The robot is provided with a cleaning device having a cleaning chamber which can be insulated from the surroundings, completely accommodates the load-bearing fork and at least partly accommodates the fork base. The cleaning device has an inlet opening for at least partial introduction of the fork unit into the cleaning chamber and an inflow opening for a cleaning agent, which opening leads to the cleaning chamber. The robot may be used for handling food items and beverages.

A part transporting device for transporting a consumable part includes a part housing, a container, a robot arm, and a moving mechanism. The part housing accommodates an unused consumable part and a used consumable part. The container has an opening to be connected to a processing device and a gate valve for opening or closing the opening, the container being configured to accommodate the part housing. The robot arm is provided in the container and has at least one end effector at a tip end thereof, the robot arm transferring the used consumable part from the processing device through the opening to accommodate the used consumable part in the part housing and transferring the unused consumable part from the part housing to load the unused consumable part into the processing device through the opening. The moving mechanism has a power source and is configured to move the part transporting device.