A control method executes a first step of actuating a brake to decelerate a robot arm, a second step of releasing or relaxing the actuation of the brake when one of Conditions A1, A2, and A3 is satisfied after deceleration of the robot arm, and a third step of actuating the brake again to restrict driving of the robot arm when one of Conditions B1, B2, and B3 is satisfied after release or relaxation of the brake, Condition A1: a velocity of the robot arm becomes a predetermined value or less; Condition A2: a contact state between the robot arm and the object becomes stable; Condition A3: time TA elapses; Condition B1: time TB elapses; Condition B2: a movement amount of the robot arm becomes a predetermined value or more; and Condition B3: the contact state between the object and the robot arm is released or relaxed.

A robot control apparatus includes a stop command unit which stops a robot. A first external force judgement value smaller than a stop judgement value and a second external force judgement value smaller than the first external force judgement value are previously determined. The stop command unit inhibits a restart of execution of an operation program when, in a state where the execution of the operation program is temporarily stopped, an external force is continuously equal to or less than the first external force judgement value during a period of a first time length, and additionally, the external force continuously exceeds the second external force judgement value during a period of a second time length.

A control method executes a first step of actuating a brake to decelerate a robot arm, a second step of releasing or relaxing the actuation of the brake when one of Conditions A1, A2, and A3 is satisfied after deceleration of the robot arm, and a third step of actuating the brake again to restrict driving of the robot arm when one of Conditions B1, B2, and B3 is satisfied after release or relaxation of the brake, Condition A1: a velocity of the robot arm becomes a predetermined value or less; Condition A2: a contact state between the robot arm and the object becomes stable; Condition A3: time TA elapses; Condition B1: time TB elapses; Condition B2: a movement amount of the robot arm becomes a predetermined value or more; and Condition B3: the contact state between the object and the robot arm is released or relaxed.

A joint device according to one aspect of the present disclosure is provided with an output shaft pivotally supported by a first link and connected to a second link, a rotary drive source provided in the first link, a first transmission mechanism that transmits the rotational force of the rotary drive source to the output shaft, a braking shaft provided in the first link, a second transmission mechanism that transmits the rotation of the output shaft to the braking shaft separately and independently from the first transmission mechanism, and a brake that brakes the rotation of the braking shaft.

The invention relates to a method for operating a brake of a machine that has a machine control unit and at least one moveable link that can be actuated by the machine control unit and that can be adjusted by a drive motor actuated by the machine control unit, which motor drives a shaft and which motor, in an engaged (closed) position of a brake that can be automatically actuated by the machine control unit, can be locked by said brake. The invention also relates to a machine with a machine control unit, in particular a robot with a robot control unit, which is configured and/or equipped for carrying out such a method.

A safety control device for releasing an operation of a machine, in particular a robot, includes an input device for detecting a manual contact, in particular a finger contact. The safety control device has a retaining device for securing the input device to a finger, in particular a fingertip, of an operator, in particular in a frictional manner, and/or a signaling means for outputting a signal, in particular an optical, acoustic, tactile, thermal, and/or electric signal, if a contact force detected by the input device is smaller than a specified upper minimum value and/or for outputting a signal, in particular the same signal or a different signal, in particular an optical, acoustic, tactile, thermal, and/or electric signal, if a contact force detected by the input device is greater than a specified lower maximum value.

A safety control device for releasing an operation of a machine, in particular a robot, includes an input device for detecting a manual contact, in particular a finger contact. The safety control device has a retaining device for securing the input device to a finger, in particular a fingertip, of an operator, in particular in a frictional manner, and/or a signaling means for outputting a signal, in particular an optical, acoustic, tactile, thermal, and/or electric signal, if a contact force detected by the input device is smaller than a specified upper minimum value and/or for outputting a signal, in particular the same signal or a different signal, in particular an optical, acoustic, tactile, thermal, and/or electric signal, if a contact force detected by the input device is greater than a specified lower maximum value.

The invention relates to a method for operating a brake of a machine that has a machine control unit and at least one moveable link that can be actuated by the machine control unit and that can be adjusted by a drive motor actuated by the machine control unit, which motor drives a shaft and which motor, in an engaged (closed) position of a brake that can be automatically actuated by the machine control unit, can be locked by said brake. The invention also relates to a machine with a machine control unit, in particular a robot with a robot control unit, which is configured and/or equipped for carrying out such a method.

The invention relates to a method for commanding the brakes (F1, F2, F3) of the motors (M1, M2, M3) of a multi-axis robot (R1), comprising: a robot arm (B) comprising at least two degrees of freedom each associated with an electric motor (M1, M2, M3), a sensor (C1, C2, C3) for measuring movement information, and a brake (F1, F2, F3), an interfacing unit (4) of the brakes (F1-F3) able to control the supply of electricity to the brakes (F1-F3), a central processing unit (2), variable drives (V1, V2, V3) having a torque off function of the motors (M1-M3), a security system (4, 5),
the method comprising the following successive steps: 6a) selecting a motor (M1-M3), 6b) activating an electric braking function using the selected motor (M1-M3), 6c) opening the brake (F1-F3), 6d) comparing the movement information delivered by the sensor (C1-C3) to a threshold, 6e) closing the brake (F1-F3) when the movement information exceeds the threshold.