A wrist structure of a robot capable of protecting an oil seal of a wrist structure from a high-pressure jet for cleaning or from external foreign matter or the like. A wrist structure of a robot includes a wrist body, a holder attached to the wrist body, a wrist flange rotatably supported by the holder, an oil storage provided between the wrist body and the holder, an oil seal disposed between the holder and the wrist flange and configured to prevent oil from leaking from the oil storage, and a cover that is formed integrally with the holder and that covers the oil seal from the outside between the holder and the wrist flange.

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.

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.

Systems are provided for gripping or otherwise manipulating lettuce, sliced foodstuffs (e.g., sliced cheese, sliced tomato or other sliced vegetables), or other foodstuffs or other irregular objects or substances. These systems can facilitate the manipulation of groups of irregular objects, including distributing small amounts (e.g., individual instances) of such groups of objects. These systems operate to manipulate such objects by extending and retracting rods, wires, or otherwise-configured pins to contact and/or penetrate the object(s) to be manipulated. In some examples, the pins are retracted to individually dispense objects (e.g., slices of cheese) from a stack of objects. In some examples, the separation and angle of the pins can be controlled to, e.g., grip one or more irregular objects and subsequently to dispense some or all of the gripped object(s).

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.

An end effector of a robot arm that is configured to participate in an animal-related operation, where the end effector is comprised of an actuator and a housing that is provided with a first aperture at a first end portion, where the actuator participates in the animal related operation via the first aperture, and the housing is provided with a second aperture providing access to an interior of the housing, wherein a passage extends through the housing along at least part of the actuator, from the second aperture to the first aperture such that the housing may be flushed through for removing dirt.

Systems are provided for gripping or otherwise manipulating lettuce, sliced foodstuffs (e.g., sliced cheese, sliced tomato or other sliced vegetables), or other foodstuffs or other irregular objects or substances. These systems can facilitate the manipulation of groups of irregular objects, including distributing small amounts (e.g., individual instances) of such groups of objects. These systems operate to manipulate such objects by extending and retracting rods, wires, or otherwise-configured pins to contact and/or penetrate the object(s) to be manipulated. In some examples, the pins are retracted to individually dispense objects (e.g., slices of cheese) from a stack of objects. In some examples, the separation and angle of the pins can be controlled to, e.g., grip one or more irregular objects and subsequently to dispense some or all of the gripped object(s).

Execution restrictions on tasks based on a state of a multifunction robot or the like are satisfied, and furthermore, the execution efficiency of the entirety of an operation is also enhanced. An information processing device includes a determination unit that determines an execution order of a plurality of tasks including an operation for a target object, based on a transition of a state of an operation tool used in each of the tasks.

A robotic system for applying a volatile fluid to a work-piece comprising a support structure configured to mount at least one spray nozzle while facilitating motion of the nozzle in multiple degrees of freedom. An encoder senses a position of the spray nozzle and issues a position signal indicative thereof. A pneumatically-driven motor effects displacement of the spray nozzle on the support structure along each degree of freedom. A controller disposed outside the boundaries defined by the structural support, is responsive to the position signals for controlling the pneumatically-driven motor to displace the spray nozzle while dispensing the volatile fluid. The pneumatically driven motor and the isolated spatial position of the controller prohibits a source of ignition for the volatile fluid sprayed by the nozzle.

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.