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 articulated robot includes a lumbar portion including a first joint that rotates about a first axis which is a vertical axis and rotating about the first axis, a second joint connected to the lumbar portion and rotating about a second axis parallel to a horizontal plane, a first arm connected to the second joint and rotating about the second axis, a third joint connected to the first arm and rotating about a third axis parallel to the second axis, and a second arm connected to the third joint and rotating about the third axis. When the first arm extends parallel to the first axis, a clearance through which the second arm rotating about the third axis can pass in a planar area between the second axis and the third axis is provided between the second arm and the first arm and between the second arm and the lumbar portion.

A robot includes a first joint member, a second joint member connecting a second arm member and a third arm member, a third joint member connecting the third arm member and a flange, a first link having one end connected to the second joint member and another end connected to the third joint member, a second link having one end connected to the second joint member, a counter weight connected to another end of the second link and the first joint member, and including a motor rotating the third arm member, on a side opposite to the first joint member with the other end of the second link as a base point, and a transmission member transmitting rotating force generated by the motor to the third arm member through the first joint member, the second arm member, and the second joint member.

Provided is a robot equipped with two joint parts attached to an end of an arm in a coupled state. For example, in a joint part of a robot, a motor and a reduction gear are housed in a case, and an output-side member having a flange is fixed to the output shaft of the reduction gear. An opening that opens in the direction orthogonal to the axial direction of the output shaft of the reduction gear is formed in the case. A planar attachment face orthogonal to the opening direction of the opening is formed in the opening. The robot is provided with a plurality of biaxial joint units comprising two joint parts. In the robot, the attachment face of the case of one joint part constituting a biaxial joint unit is fixed to the flange of the other joint part either directly or via a coupling member.

A machining robot for machining workpieces by chip removal has two rotating main axes parallel with one another and at least two rotating subsidiary axes. A foot lever mounted in a first main axis and an elbow lever mounted at the free end of the foot lever in a second main axis form a kinematic chain. A first subsidiary axis is oriented in the longitudinal direction of the elbow lever. A second subsidiary axis mounts a machining unit in the elbow lever. The first main axis is mounted in the base frame. The machining unit is a multi-function unit through which the second subsidiary axis passes, and which has at least two working sides. One working side is a multifunction side, and the other working side is a main spindle side. The multifunction unit has at least two chip removal tools that can be driven for rotation.

An embodiment of the present disclosure provides a manipulator for a finishing work, including: a base; an arm comprising a plurality of links, a plurality of joints connecting the plurality of links, and a plurality of actuators generating rotation of at least some of the plurality of joints; and a processor determining a driving torque of each of the plurality of actuators considering a self-weight effect of the manipulator and controlling the plurality of actuators based on the determined driving torque.

A coating system includes a plurality of liquid immersion workstations positioned along an arcuate path, the plurality of liquid immersion workstations defining a single complete coating process for a sequence of objects. A plurality of curing workstations are configured to independently receive objects of the sequence of objects exiting the plurality of liquid immersion workstations. An articulated robotic arm has a base positioned inside the arcuate path in top plan view such that the robotic arm is operable to carry each object of the sequence of objects through each of the plurality of liquid immersion workstations and to exactly one of the plurality of curing workstations. An articulated robotic hand is provided at a distal end of the robotic arm and configured to grasp and hold each of the objects and to oscillate the object while submerged in each of the plurality of liquid immersion workstations.

A robot includes a base plate rotatable around a rotation axis, a first arm connected to the base plate at a first axis which is perpendicular to the rotation axis and around which the first arm is rotatable, a second arm connected to the first arm at a second axis which is parallel to the first axis and around which the second arm is rotatable, a third arm connected to the second arm at a third axis which is parallel to the first axis and around which the third arm is rotatable, a turnable link connected to the third arm at a fourth axis which is perpendicular to the third axis and around which the turnable link is rotatable, a distal-end swingable portion connected to the turnable link at a fifth axis which is perpendicular to the fourth axis and around which the distal-end swingable portion is rotatable, a distal end connected to the distal-end swingable portion at a sixth axis which is perpendicular to the fifth axis and around which the distal end is rotatable, and a welder connected to the distal end.

A robot includes at least two joints having a first joint and a second joint. The first joint is provided with a first drive source, and the second joint is provided with a second drive source. A motor drive substrate for driving the first drive source and a motor drive substrate for driving the second drive source are differentiated in size.

Provided is a robot including: a wrist unit that has a tool attached to a distal end face thereof and that changes the orientation of the tool, the tool performing work on a work target device secured to an installation surface; and a movable unit that changes the three-dimensional position of the wrist unit. The movable unit includes an arm that has a longitudinal axis and the wrist unit is attached to the distal end thereof, and a visual sensor that has a field of view oriented in a direction intersecting the longitudinal axis of the arm is attached to the a position closer to the base end than the distal end face of the wrist unit is.