Method for controlling an industrial robot by touch

The invention claimed is: 1. A method for controlling an industrial robot, the industrial robot comprising a first robot arm, a second robot arm, a joint defining a kinematic pair between the first and second robot arms, an actuator for generating relative movement between the first and second robot arms, and a robot controller for controlling the movements of the actuator, the method comprising the steps of: determining a presence of a first torque indication at the actuator to be interpreted as a first command to the robot controller; repeatedly obtaining an external torque value (τ_ext) to thereby obtain an external torque behaviour, the external torque behaviour depending on a reference torque value (τ_ref) obtained from a dynamic model of the industrial robot; comparing the external torque behaviour with the first torque indication; and executing, on the condition that no second command overruling the first command is provided to the robot controller, a robot function corresponding to the first command upon detecting that the external torque behaviour corresponds to the first torque indication; determining a presence of a second torque indication at the actuator to be interpreted as a second command to the robot controller; comparing the external torque behaviour with the second torque indication; and executing a robot function corresponding to the second command upon detecting that the external torque behaviour corresponds to the second torque indication, wherein the second command overrules the first command. 2. The method according to claim 1 , wherein the method further comprises the step of exerting a force according to the first force indication on the actuator. 3. The method according to claim 1 , wherein the method further comprises the step of filtering the external torque behaviour. 4. The method according claim 1 , wherein the first command is a command to continue or to stop a work cycle of the industrial robot. 5. The method according to claim 1 , wherein the first torque indication defines a minimum magnitude of the external torque behaviour. 6. The method according to claim 5 , wherein the first torque indication defines a minimum duration above the minimum magnitude of the external torque behaviour. 7. The method according to claim 1 , wherein the joint defines a revolute pair between the first and second robot arms. 8. The method according to claim 1 , wherein the actuator is a servo motor. 9. The method according to claim 1 , wherein the execution of the robot function corresponding to the first command is carried out after a predetermined delay after detecting that the external torque behaviour corresponds to the first torque indication. 10. An industrial robot comprising a first robot arm, a second robot arm, a joint defining a kinematic pair between the first and second robot arms, an actuator for generating relative movement between the first and second robot arms, and a robot controller for controlling the movements of the actuator, the robot controller being configured to execute a method comprising the steps of: determining a presence of a first torque indication at the actuator to be interpreted as a first command to the robot controller; repeatedly obtaining an external torque value (τ_ext) to thereby obtain an external torque behaviour, the external torque behaviour depending on a reference torque value (τ_ref) obtained from a dynamic model of the industrial robot; comparing the external torque behaviour with the first torque indication; and executing, on the condition that no second command overruling the first command is provided to the robot controller, a robot function corresponding to the first command upon detecting that the external torque behaviour corresponds to the first torque indication; determining a presence of a second torque indication at the actuator to be interpreted as a second command to the robot controller; comparing the external torque behaviour with the second torque indication; and executing a robot function corresponding to the second command upon detecting that the external torque behaviour corresponds to the second torque indication, wherein the second command overrules the first command.