Safety Related Functions and Interfaces
Universal Robots robots are equipped with a range of built-in safety functions as well as safety I/O, digital and analog control signals to or from the electrical interface, to connect to other machines and additional protective devices. Each safety function and I/O is constructed according to EN ISO13849-1 with Performance Level d (PLd) using a category 3 architecture.
The use of safety configuration parameters different from those determined as necessary for risk reduction, can result in hazards that are not reasonably eliminated, or risks that are not sufficiently reduced.
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Ensure tools and grippers are connected correctly to avoid hazards due to interruption of power.
Programmer and/or wiring errors can cause the voltage to change from 12V to 24V leading to fire damage to equipment.
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Verify the use of 12V and proceed with caution.
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The use and configuration of safety functions and interfaces must follow the risk assessment procedures for each robot application.
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The stopping time should be taken into account as part of the application risk assessment
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If the robot detects a fault or violation in the safety system (e.g. if one of the wires in the Emergency Stop circuit is cut or a safety limit is exceeded), then a Stop Category 0 is initiated.
The end effector is not protected by the UR safety system. The functioning of the end effector and/or connection cable is not monitored
Configurable Safety Functions
Universal Robots robot safety functions, as listed in the table below, are in the robot but are meant to control the robot system i.e. the robot with its attached tool/end effector. The robot safety functions are used to reduce robot system risks determined by the risk assessment. Positions and speeds are relative to the base of the robot.
| Safety Function | Description |
|---|---|
|
Joint Position Limit |
Sets upper and lower limits for the allowed joint positions. |
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Joint Speed Limit |
Sets an upper limit for joint speed. |
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Safety Planes |
Defines planes, in space, that limit robot position. Safety planes limit either the tool/end effector alone or both the tool/end effector and the elbow. |
|
Tool Orientation |
Defines allowable orientation limits for the tool. |
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Speed Limit |
Limits maximum robot speed. The speed is limited at the elbow, at the tool/end effector flange, and at the center of the user-defined tool/end effector positions. |
|
Force Limit |
Limits maximum force exerted by the robot tool/end effector and elbow in clamping situations. The force is limited at the tool/end effector, elbow flange and center of the user-defined tool/end effector positions. |
|
Momentum Limit |
Limits maximum momentum of the robot. |
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Power Limit |
Limits mechanical work performed by the robot. |
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Stopping Time Limit |
Limits maximum time the robot uses for stopping after a protective stop is initiated. |
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Stopping Distance Limit |
Limits maximum distance travelled by the robot after a protective stop is initiated. |
Safety Function
When performing the application risk assessment, it is necessary to take into account the motion of the robot after a stop has been initiated. In order to ease this process, the safety functions Stopping Time Limit and Stopping Distance Limit can be used.
These safety functions dynamically reduces the speed of the robot motion such that it can always be stopped within the limits. The joint position limits, the safety planes and the tool/end effector orientation limits take the expected stopping distance travel into account i.e. the robot motion will slow down before the limit is reached.