Global site

ABB's website uses cookies. By staying here you are agreeing to our use of cookies. Learn more

IRB 7600FX

Fast and flexible transfer solution for large parts

The IRB 7600FX raises the bar in Press Automation to provide customers with more flexibility at greater speeds while saving precious press-shop floor space.

Linear part transfer
By integrating a dual action unit into IRB 7600, ABB creates the IRB 7600FX, a 7-axis robot for the transfer of large parts rapidly along a linear path. As a result, vibrations created when parts are rotated 180° by the conventional 6-axis robot are eliminated. In the case of new press lines, Inter-press distance can be reduced as parts are transferred without having to be rotated.

Dynamic model control
The IRB 7600FX is also equipped with integrated dynamic model control to ensure that all seven axes are coordinated and operating at optimum speed and lifetime.

User-friendly programming interface
The IRB 7600FX is programmed the same way as its 6-axis counterpart is. Additionally, it can be programmed using ABB’s StampWare.

StampWare
Currently running in more than 1,000 units worldwide, StampWare is a family of controller software designed to make you more productive by minimizing the rearning time and setup time of new production, The modularized program structure, the program wizard and the graphical production window decrease the time for training that the operator and robot programmer need. As a result, production is more efficient during installation, production set-up and optimizing of the robot cycle.

Optimized performance with carbon fiber tooling
The IRB 7600FX’s carbon fiber tooling increases output thanks to its specially designed shape which has been optimized for tool height. As a result it can be placed into the die at lower press openings.

Specification and technical information

IRB 7600FX

Handling capacity (kg)

100

Reach (m)

3.10 + 1.75

Rotational 7th axis

S - stroke (mm)

1750

L - length (mm)

2250

H - height (mm)

160-120

W - width (mm)

420

For additional data, please see the data sheet.
Loading documents