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Two axis robots

Commissioning service for axle systems

Save time and relieve your employees during the start-up phase. Our service technicians commission your axle system on site – quickly, reliably and optimally adjusted – for maximum performance.

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Learn more about Two axis robots

Selection Guide

YXCL

With their high mechanical rigidity and sturdy design, the YXCF planar surface gantries can be used in a wide variety of applications.
Light to heavy workpieces or payloads as well as long strokes are no problem for the YXCL linear gantries. Any position in a vertical, rectangular 2D workspace can be approached.
The complete systems consist of two linear axes with precise rail guides in serial design.
With coordinated stepper and servo motors, motor controllers and an integrated energy supply concept, a reliable, ready-to-install solution is provided.
The planar surface gantry can be delivered partially or completely assembled as required. All cables are laid and connected.

EXCT

The linear gantries of the EXCT series are high-speed systems for vertical, rectangular working areas. A parallel kinematic drive concept offers extraordinarily high dynamics and at the same time a compact design.
The system is driven by two fixed, powerful servo motors coupled to an T-shaped recirculating toothed belt.
The superimposition of both motors allows the slide to move in the Y and Z directions, allowing any position in a 2D workspace to be approached.
An integrated energy supply concept ensures simple installation and secure cable management even with high dynamics.
With its narrow design, compact Z-axis, various sizes and scalable working strokes, the EXCT gantry series is extremely flexible and also very suitable for limited installation spaces.
The ERMH electric rotary unit with pneumatic rotary feed-through, designed for high dynamics, is also available for the linear gantry in order to implement rotary applications.
Coordinated motor controllers and optional control systems with robot functionality round off the system.