The present disclosure describes a sealing apparatus for a robot and an articulated robot utilizing the sealing apparatus. In one embodiment, the sealing apparatus includes a first enclosure and a second enclosure. The second enclosure may be rotatably connected to the first enclosure such that the first enclosure and the second enclosure cooperatively define a gap between the first enclosure and the second enclosure. The sealing apparatus may further include a seal disposed in the gap such that the seal and the second enclosure cooperatively define a chamber. The sealing apparatus also includes an elastomer disposed in the chamber. The elastomer may be compressed by the seal and the second enclosure to generate an elastic force that presses the seal against the first enclosure.

A sealing member (2), for waterproof sealing of a volume, comprises a hollow, generally cylindrical body and a sealing area (5a, 5b) at the respective axial ends thereof. At least one sealing area (5a) comprises a first radially extending portion (6) and a second portion (7) extending in a reverse direction partly overlapping the first portion. The second portion (7) has a free end and is arranged for pressing towards the first portion (6), thereby forming a seal with the first portion (6). A sealing system comprises a sealing member (2) as above, a sealing seat (9) for abutment against the sealing member (2), and a counterpart surface (11), for pressing the sealing member (2) against the sealing seat (9). The sealing seat (9) comprises an inclined surface (10). A work tool (1) comprising the above-mentioned sealing system has at least one sealing area (5a) of the sealing member (2) pressed between a housing (4) and a chassis (3) of the work tool (1).

A next generation painting robot with advanced fluid delivery system, enhanced kinematics and a service airlock compartment. The painting robot includes a fluid delivery system which places color changing valves and pumping hardware on the back side of the robot's mounting pedestal, where it can be serviced without a technician having to enter the spray booth. The fluid delivery system also allows smaller and lighter robot arms, and is designed to minimize paint waste and wait time during color changes. The robot also features kinematics providing redundant inner arm rotation. The arm kinematics, along with the smaller arms, a paint supply line routed through the center of first and third arm joints, and optimized motor conductor routing, dramatically improve near reach flexibility. The improved near reach flexibility in turn allows a smaller spray booth than possible with previous robot architectures.

A robot sealing structure including a shaft end face of a reducer, an attachment surface of an arm member that is to be in surface contact with the shaft end face, a number of bolts that fix the shaft and the arm member to each other in a state in which the shaft end face and the attachment surface are in surface contact; a recessed flat portion that is provided in part of one of the shaft end face and the attachment surface, and a seal member that is disposed on the recessed flat portion, where the recessed flat portion is a portion recessed in a direction along the center axis line of the shaft, with respect to the shaft end face or the attachment surface, and the recessed flat portion is continuous over an entire circumference around the center axis line.

A robot includes a robot arm, a base supporting the robot arm, and a cable coupled to the base, wherein the base has a housing a circuit board, a connector unit located on a side surface of the housing and electrically coupled to the circuit board, to which the cable is coupled, a cover member having an insertion portion through which the cable is inserted and attached to the side surface of the housing to cover the connector unit, and a wall portion located between a coupling portion by which the cover member is coupled to the side surface of the housing and the connector and provided to project from the side surface of the housing within a space surrounded by the side surface of the housing and the cover member.

A soft robotic gripper having component parts capable of being assembled in the field at the terminus of an industrial robot arm for providing adaptive gripping of a product. A hub includes a pneumatic inlet leading to outlets. Finger mounts with pneumatic passages hold inflatable fingers, and tension fastener(s) secure and compress the finger mounts toward the hub by passing through the pneumatic passages and fastening under tension in a direction of the hub.

An exoskeleton device for outdoor activities includes means for preventing contamination and damage when used outdoors or in other rugged environments. The exoskeleton device includes a frame, one or more assistive devices, and a sizing component. One or more assistive devices may advantageously comprise components for mitigating the intrusion of and contamination by moisture, dirt, and other contaminants.

A waterproof structure including an extension shaft disposed at an upper side of a vertically extending ball screw spline shaft so as to be coaxial with the ball screw spline shaft, a cylindrical cover member that covers the extension shaft and the ball screw spline shaft and is configured to be extended and shortened in a direction along a longitudinal axis of the extension shaft, and a rotary connection unit that connects the ball screw spline shaft and the extension shaft to each other so that the ball screw spline shaft and the extension shaft are configured to rotate relative to each other around the longitudinal axis, where an upper end of the cover member is fixed to an upper end of the extension shaft.

A waterproof structure for a speed reducer according to one aspect of the disclosure includes: a speed reducer for decelerating a rotational driving force of an electric motor and transmitting the decelerated rotational driving force to a rotationally driven portion; a motor flange housing the speed reducer; a cover externally covering the speed reducer in a liquid-tight manner; and a holding plate and a first fixing bolt provided on an inner peripheral side of the cover to fix the cover to the motor flange.

A robotic arm capable of reducing the size while suppressing damage to a plurality of elongated members inserted therein, is provided. The robotic arm to which an end effector is attached, includes plurality of elongated members extending to end effector, cylindrical housing defining a periphery of internal space configured to be a passage of plurality of elongated members, and an attaching structure provided to a tip end of the internal space of the cylindrical housing so as to attach the end effector to a tip-end part of the cylindrical housing. The attaching structure includes insertion holes formed corresponding to plurality of elongated members so as to insert the plurality of elongated members therein, and fixing members configured to fix the plurality of elongated members to the insertion holes, respectively. The cylindrical housing is formed so that the inner diameter is larger at the tip-end part than at a base-end part.