A robotic joint comprises a first link, a middle link, a torque generator, a second link, and a locking mechanism. Different ends of the middle link are rotatably coupled to the first link and the second link. The torque generator is coupled to the first link and the middle link and is configured to produce a torque between these links. The locking mechanism is switchable between a locking state and an unlocking state. In the unlocking state, the locking mechanism allows free rotation of the second link relative to the middle link in the first and second rotation directions. In the locking state, the locking mechanism is configured to impede rotation of the second link relative to the middle link in the first rotation direction and to allow rotation of the second link relative to the middle link in the second rotation direction opposite of the first rotation direction.

A robotic joint comprises a first link, a middle link, a torque generator, a second link, and a locking mechanism. Different ends of the middle link are rotatably coupled to the first link and the second link. The torque generator is coupled to the first link and the middle link and is configured to produce a torque between these links. The locking mechanism is switchable between a locking state and an unlocking state. In the unlocking state, the locking mechanism allows free rotation of the second link relative to the middle link in the first and second rotation directions. In the locking state, the locking mechanism is configured to impede rotation of the second link relative to the middle link in the first rotation direction and to allow rotation of the second link relative to the middle link in the second rotation direction opposite of the first rotation direction.

A mechanical arm includes a first link connectable to a surface, a second link, a third link, a fourth link, and a fifth link that are coupled to one another in series, and an end effector connectable to the fifth link. The end effector is rotatable about an axis of rotation same as an axis of rotation of the fourth link, and rotatable about an axis of rotation orthogonal to the axis of rotation of the fourth link. The first link, the second link, the third link, the fourth link, and the fifth link are collectively structured and configured to rotate such that the end effector is actuatable to a workspace under the surface.

A mechanical arm includes a first link connectable to a surface, a second link, a third link, a fourth link, and a fifth link that are coupled to one another in series, and an end effector connectable to the fifth link. The end effector is rotatable about an axis of rotation same as an axis of rotation of the fourth link, and rotatable about an axis of rotation orthogonal to the axis of rotation of the fourth link. The first link, the second link, the third link, the fourth link, and the fifth link are collectively structured and configured to rotate such that the end effector is actuatable to a workspace under the surface.

An articulating assembly of a robotic system has an extruded connector arm including a longitudinally-extending body portion and a connection portion. The body portion has an axial base member, a perimeter wall, and a plurality of webs extending radially from the base member to the perimeter wall. The robotic system may also have an actuatable joint secured to the connection portion of the connector arm. The connector arm may be cut-to-size and replaceable, thereby forming a modular component for the robotic system.

An articulating assembly of a robotic system has an extruded connector arm including a longitudinally-extending body portion and a connection portion. The body portion has an axial base member, a perimeter wall, and a plurality of webs extending radially from the base member to the perimeter wall. The robotic system may also have an actuatable joint secured to the connection portion of the connector arm. The connector arm may be cut-to-size and replaceable, thereby forming a modular component for the robotic system.

Disclosed herein is an articulated manipulator capable of moving a tool such as an inspection device, a processing device, or a welding device to a desired position for inspection or repair of a defect portion in a limited place. The articulated manipulator includes a base plate, a movable unit slidably coupled on the base plate, a rotatable unit rotatably coupled on the movable unit, and a rotation unit rotatably coupled to one side of the rotatable unit.

Disclosed herein is an articulated manipulator capable of moving a tool such as an inspection device, a processing device, or a welding device to a desired position for inspection or repair of a defect portion in a limited place. The articulated manipulator includes a base plate, a movable unit slidably coupled on the base plate, a rotatable unit rotatably coupled on the movable unit, and a rotation unit rotatably coupled to one side of the rotatable unit.

A robot includes a first member and a second member that is rotationally driven about a prescribed axis with respect to the first member. The second member includes a pair of axially spaced-apart flange portions. The second member is supported by the respective flange portions so as to be rotatable about the axis. The robot also includes a balancer that is attached to the first member and the second member so as to be respectively rotatable about attachment axes that are parallel to the axis. In addition, the robot includes an adapter that is inserted between the pair of flange portions. The adapter is attached to the second member in an attachable/detachable manner and disposes the attachment axis of the balancer for the second member at a position that is radially farther inside than outer circumferential surfaces of the flange portions and that is decentered with respect to the axis.

A robot includes a first member and a second member that is rotationally driven about a prescribed axis with respect to the first member. The second member includes a pair of axially spaced-apart flange portions. The second member is supported by the respective flange portions so as to be rotatable about the axis. The robot also includes a balancer that is attached to the first member and the second member so as to be respectively rotatable about attachment axes that are parallel to the axis. In addition, the robot includes an adapter that is inserted between the pair of flange portions. The adapter is attached to the second member in an attachable/detachable manner and disposes the attachment axis of the balancer for the second member at a position that is radially farther inside than outer circumferential surfaces of the flange portions and that is decentered with respect to the axis.