The invention relates to an automatic automated installation in which at least one robot (2) is used in at least one mode of operation in at least one work zone (3). The installation comprises a closed space (1) equipped with at least one door (4) offering access to at least one operator intervention work station (6) which is situated in said work zone (3) of said robot, and means (7) for detecting the presence of an element (25; 26) in said closed space (1) at said operator intervention work station (6). The detection means (7) are arranged in said closed space (1) to delimit at least two zones (8, 9, 10) and are also associated with means (21) for control of said at least one mode of operation of the robot (2), each zone (8, 9, 10) being associated with one mode of operation of the robot (2). The detection means (7) are positioned a predetermined height from a floor (18) of said space (1), said height being greater than the height of an empty pallet (12).

A simulation apparatus acquires a position and an operating speed in each drive axis of the robot at a set point set for each minute section of a motion path of the robot when an operation program of a robot is executed. The simulation apparatus comprises a stop position estimation part that estimates a stop position where the robot is stopped after moving by inertia in each dive axis, based on the position in each drive axis of the robot, the operating speed in each drive axis, and the weight of the work tool, when an emergency stop of the robot is performed at the set point. The simulation apparatus comprises a swept space calculation part that calculates a swept space of three-dimensional models of the robot and the work tool based on the stop position.

A teaching system configured to teach operation to a plurality of robots includes a first controlling device which determines whether a first robot and a second robot are in an enabled state where the first and second robots are permitted to operate, and when the first controlling device determines as in the enabled state, the first controlling device transmits an enable signal indicative of permitting the second robot to operate and enables the first robot to be taught the operation when a teaching terminal specifies the first robot. When a second controlling device receives the enable signal from the first controlling device and the teaching terminal specifies the second robot, the second controlling device enables the second robot to be taught the operation.

To improve production efficiency while maintaining stability of an operation of a robot arm. A dust position determination unit determines whether there is a read error based on a read result of a detection head of an encoder. In a case where the dust position determination unit determines that there is a read error, an error determination unit judges in which region, among an allowable region and a non-allowable region, the read error occurs. In a case where the read error is judged to occur in the allowable region, the error determination unit continues an operation of the robot arm.

To improve production efficiency while maintaining stability of an operation of a robot arm. A dust position determination unit determines whether there is a read error based on a read result of a detection head of an encoder. In a case where the dust position determination unit determines that there is a read error, an error determination unit judges in which region, among an allowable region and a non-allowable region, the read error occurs. In a case where the read error is judged to occur in the allowable region, the error determination unit continues an operation of the robot arm.

A reusable mechanism is disclosed for coupling two robotic appendages, such that an unintended force acting against a side of one of the appendages may decouple the appendages. The mechanism includes a revolved male dovetail mated to a revolved female dovetail. The mechanism may further include a channel within the male dovetail and a detent that inhibits rotation of the male dovetail in relation to the female dovetail.

A reusable mechanism is disclosed for coupling two robotic appendages, such that an unintended force acting against a side of one of the appendages may decouple the appendages. The mechanism includes a revolved male dovetail mated to a revolved female dovetail. The mechanism may further include a channel within the male dovetail and a detent that inhibits rotation of the male dovetail in relation to the female dovetail.

A robot comprises a mobile base, a robotic arm operatively coupled to the mobile base, a plurality of distance sensors, at least one antenna configured to receive one or more signals from a monitoring system external to the robot, and a computer processor. The computer processor is configured to limit one or more operations of the robot when it is determined that the one or more signals are not received by the at least one antenna.

A robot comprises a mobile base, a robotic arm operatively coupled to the mobile base, and at least one interface configured to enable selective coupling to at least one accessory. The at least one interface comprises an electrical interface configured to transmit power and/or data between the robot and the at least one accessory, and a mechanical interface configured to enable physical coupling between the robot and the at least one accessory.

A perception mast for mobile robot is provided. The mobile robot comprises a mobile base, a turntable operatively coupled to the mobile base, the turntable configured to rotate about a first axis, an arm operatively coupled to a first location on the turntable, and the perception mast operatively coupled to a second location on the turntable, the perception mast configured to rotate about a second axis parallel to the first axis, wherein the perception mast includes disposed thereon, a first perception module and a second perception module arranged between the first imaging module and the turntable.