A tendon and rigid element assembly that includes a tendon subassembly, including a tendon having a longitudinal end having a mating portion. Also, a rigid element has a mating portion. Further, a first one of the mating portions includes a set of projections and a second one of the mating portions defines a set of indentations that are sized and shaped to accept and retain the projections and wherein the set of projections are secured in the set of indentations, thereby securing the tendon to the rigid element.

A lubricant container part 7 is provided to a robot arm drive unit 5 pertaining to a first arm 2, 2a and a second arm 3, 3a which displace relative to each other via a reduction mechanism 4, and a receiving member 9, 9a having a recess 10 forming a concave shape facing vertically upward is provided below the liquid level 8 of a lubricant 6 inside the lubricant container part 7, and through this configuration, even when time elapses after stopping of the robot, the lubricant can be extracted from the receiving member 9, 9a in a manner suitable for observing the state of iron powder included in the lubricant 6.

A malfunction detection device compares detected data on a condition at a predetermined part of an apparatus with a threshold so as to determine a malfunction of the apparatus. The malfunction detection device varies the threshold in accordance with a type of a lubricant used for movable parts of the apparatus.

A robot including a wrist base, a wrist flange member including a flange surface for mounting an end effector, and an actuator driven to rotate the wrist flange member relative to the wrist base around an axis line orthogonal to the flange surface, the actuator includes a first member fixed to the wrist base and a second member fixed to the wrist flange member, a gap which is exposed in a direction opposite to the flange surface along the axis line is formed between a cylindrically shaped outer peripheral surface of the wrist base or the first member and a cylindrically shaped inner peripheral surface, which is arranged radially outside the outer peripheral surface, of the wrist flange member or the second member, and the robot includes an oil seal for sealing the gap.

A robot includes a first member, a second member that is provided so as to be movable around the first member, and a gear device that transmits driving force from one of the first member and the second member to the other. The gear device includes a contact portion where two surfaces come into contact with each other and a lubricant, which is disposed on the contact portion and of which a change rate of worked penetration caused by a worked stability test is within a range of 16% to +16% inclusive.

Systems and methods of servicing engines including a method of servicing an engine, the method including navigating at least a portion of a robotic assembly to a location associated with the engine; applying, from the robotic assembly, a medium to one or more adjustable components of the engine while the engine is at an elevated temperature; waiting a duration of time; and with the robotic assembly, operating on the one or more adjustable components.

A method of assembling a portion of a robot, including, providing a robot arm having an exterior surface and providing a tendon retaining element, having a first half having a first major surface, defining open channels and a second half having a second major surface. Then, placing a tendon in each of the open channels of the first half and placing the second major surface on the first major surface, thereby creating a set of closed channels each having a tendon passing therethrough and creating a finished tendon retaining element. Finally, attaching the finished tendon retaining element about the exterior surface of the robot arm, so that the tendons extend along the length of the robot arm.

Provided is a joint structure for a robot which can prevent leakage of a lubricant which is charged to the interior of the joint structure while improving a drip-proof property. The joint structure for the robot includes: a first arm which is hollow; a second arm which is rotatably mounted to the first arm; a power transmission mechanism which is provided adjacent to the outside of the first arm, the power transmission mechanism including a gear and an inner space which houses the gear and is charged with a lubricant; a booster section which increases a pressure in an interior of the first arm to be higher than an outside pressure; and a one-way communication section which allows the interior of the first arm and the inner space to communicate with each other and a gas in the interior of the first arm to flow into the inner space, while preventing the lubricant in the inner space from flowing out to the interior of the first arm.

A cleaning robot includes a cover, a fixed body provided in the cover, a traveling part connected to the fixed body, a movement frame fastened to the cover to move in correspondence with movement of the cover, an inner body configured to support the movement frame relative to the fixed body, and a rotator provided on a bottom of the inner body to rotate in correspondence with movement of the cover.

A lubricant injection system is provided, which includes a pedestal, a robotic arm including a plurality of arm bodies sequentially coupled from pedestal, lubricant injecting hand having a discharge part configured to be sequentially coupled to each of a plurality of filler ports of a target machine, robot control device configured to control operation of robotic arm, a lubricant pumping device in which pumping of lubricant is controlled, a lubricant pumping channel configured to lead lubricant from the lubricant pumping device to the discharge part, and a flow rate sensor provided to the lubricant pumping channel and configured to send the detected flow rate information to the robot control device. Robot control device calculates an injection quantity based on the flow rate information sent from flow rate sensor, and when calculated injection quantity reaches target injection quantity, robot control device controls to stop pumping of lubricant.