Load Diagram; Introduction To Load Diagram - ABB Robotics IRB 1200 Product Specification

1 Description

1.4.1 Introduction to load diagram

1.4 Load diagram

1.4.1 Introduction to load diagram
Information
It is very important to always define correct actual load data and correct payload
of the robot. Incorrect definitions of load data can result in overloading of the
robot.
If incorrect load data and/or loads are outside load diagram is used the following
parts can be damaged due to overload:
In the robot system is the service routine LoadIdentify available, which allows
the user to make an automatic definition of the tool and load, to determine correct
load parameters. For detailed information, see Operating manual - IRC5 with
FlexPendant.
Robots running with incorrect load data and/or with loads outside diagram, will
not be covered by robot warranty.
General
The load diagram includes a nominal pay load inertia, J
load of 0.3 kg at the upper arm housing. At different moment of inertia the load
diagram will be changed. For robots that are allowed tilted, wall or inverted mounted,
the load diagrams as given are valid and thus it is also possible to use RobotLoad
within those tilt and axis limits.
Control of load case by "RobotLoad"
To easily control a specific load case, use the calculation program ABB RobotLoad.
Contact your local ABB organization for more information.
The result from RobotLoad is only valid within the maximum loads and tilt angles.
There is no warning if the maximum permitted armload is exceeded. For over load
cases and special applications, contact ABB for further analysis.
24
WARNING
• motors
• gearboxes
• mechanical structure
WARNING
WARNING
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2
of 0.06 kgm and an extra
0
Product specification - IRB 1200
3HAC046982-001 Revision: G