A robot includes: a base; a swivel body supported rotatable about a first axis; a first arm supported rotatable about a second axis perpendicular to the first axis; a second arm supported rotatable about a third axis parallel to the second axis; and a first wrist element supported rotatable about a fourth axis perpendicular to the third axis and disposed in a same plane as the first axis. A first hollow section penetrating along the first axis is provided in the base and the swivel body; a second hollow section penetrating along the fourth axis is provided in the first wrist element; the first and second arms have shapes allowing a linear object having passed through the first hollow section to be guided to the second hollow section via a space extending along a line connecting intersections of the first and second axes and the third and fourth axes.

A robot end effector for dispensing an extrudable substance comprises a chassis and cartridge bays, attached to the chassis and each shaped to receive a corresponding one of two-part cartridges. Robot end effector also comprises a dispensing valve, attached to the chassis and comprising a valve inlet and a valve outlet. The valve outlet is in selective fluidic communication with the valve inlet. Robot end effector further comprises a manifold, comprising a manifold outlet and manifold inlets, which are in fluidic communication with the manifold outlet. Robot end effector additionally comprises a plunger assembly, comprising pairs of plungers and arranged to concurrently extrude contents of the two-part cartridges through the cartridge outlets. Robot end effector also comprises an electric motor, attached to the chassis and configured to selectively move the plunger assembly relative to the chassis.

An interface mechanism is provided in a cover of an arm of a horizontal articulated robot and connects a wiring member inside the arm and a wiring member outside the horizontal articulated robot to each other. The interface mechanism includes a fixed member that is disposed inside the arm and that is fixed to a cover, and also includes a connecting member that is attached to the fixed member and to which the wiring member inside the arm and the wiring member outside the horizontal articulated robot are connected. The fixed member is fixed to an inner surface of the cover in a state where the fixed member abuts against the inner surface from below.

Provided is a robot. For example, a joint part of this robot is provided with: a motor; a reduction gear coupled to the motor; an output-side member fixed to the output shaft of the reduction gear; a position detection mechanism for detecting the rotational position of the motor; a circuit board to which the motor and the position detection mechanism are electrically connected; and a case in which the motor, the reduction gear, the position detection mechanism, and the circuit board are housed. The motor and the reduction gear are fixed to the case. A motor driving circuit for driving the motor, a signal transmission circuit for outputting a signal inputted to the circuit board to outside the circuit board, and a connector to which an end of a wiring is connected are mounted to the circuit board.

A system includes an inspection robot having a plurality of input sensors, the plurality of input sensors distributed horizontally relative to an inspection surface and configured to provide inspection data of the inspection surface at selected horizontal positions; a controller, comprising: a position definition circuit structured to determine an inspection robot position of the inspection robot on the inspection surface; a data positioning circuit structured to interpret the inspection data, and to correlate the inspection data to the inspection robot position on the inspection surface; and wherein the data positioning circuit is further structured to determine position informed inspection data in response to the correlating of the inspection data with the inspection robot position.

A working unit includes a tool rotation mechanism, a first turning mechanism turning the tool rotation mechanism about a first axis, and a second turning mechanism turning the tool rotation mechanism and the first turning mechanism about a second axis perpendicular to the first axis. The first turning mechanism includes a motor having a stator connected to the second turning mechanism and a hollow shaft-shaped rotor arranged inside the stator in such a manner that the rotor is capable of rotating about the first axis, and a second rotating body including one arm portion coupled to one end portion of the rotor, the other arm portion coupled to the other end portion of the rotor, and an arm coupling portion that couples the arm portions to each other. The tool rotation mechanism is provided on the second rotating body.

The various embodiments herein relate to a coupling apparatus for a medical device having a coupler body, a cavity defined in the coupler body, a rotatable drive component disposed within the cavity and having at least two pin-receiving openings, and an actuable locking ring disposed around the cavity.

A robot includes a multi-articular arm and a base. The base includes a body and a connector unit. The body has a supporting surface and a space. The supporting surface supports a base end portion of the multi-articular arm. The space is provided in the body and has a base opening on the supporting surface. The connector unit is disposed in the space and includes a cable connector that is connectable to an internal cable disposed in the body and that has a connection opening to be connectable to an external cable. The connection opening faces toward the base opening.

A transfer robot includes one arm, another arm, a motor, and a brake. The another arm is connected to the one arm via a shaft such that the another arm is rotatable relatively with respect to the one arm around a shaft axis of the shaft. The motor includes a rotor rotatable around the shaft axis to rotate the another arm around the shaft axis, and a stator connected to the one arm. The brake is provided at the another arm to apply a force to the stator so as to suppress relative rotation between the stator and the rotor when electric power is not supplied to the motor.

A transfer robot includes one arm, another arm, and a motor. The one arm has a first connection portion. The other arm has a second connection portion that is connected to the first connection portion of the one arm via a shaft such that the other arm is rotatable relatively with respect to the one arm around a shaft axis of the shaft. The motor is provided inside the first connection portion of the one arm. The motor includes a rotor rotatable around the shaft axis to rotate the one arm or the other arm around the shaft axis.