ZLX - Better performance for toothed belt axisDiscover the new generation of compact linear axes. The high profile of this axis has been developed with a completely new geometry. A robust, corrosion-resistant, clear anodised profile that makes it very easy to connect to aluminium construction profiles. It has a large number of grooves for attaching accessories. The outer profile is characterized by a simple and very robust connection of electric motors to the deflections. The heart of the movement is the drylin W linear guide in size 16, which is integrated inside the profile. The carriage design offers variable fastening options thanks to grooves and sliding blocks that are completely protected from external influences. In addition, the belt tension can be easily adjusted without dismantling individual components. The linear plain films made of iglidur J200 offer a long service life with fast and slow adjustments. Combined with a wide, coated timing belt with a large deflection diameter, the ZLX achieves the best possible performance values. The ZLX toothed belt axis can be used both in individual operation or in combination in various portal superstructures (XX, XXY, XXYZ).
Tech up:- Higher performance thanks to larger deflection radii on the internal timing belt
Cost down:- Simple and cost-saving mounting options directly on the axis
Proof:- drylin W, size 16 angular, 2 rails, 4 bearings, horizontal mounting position with load 150 N, acceleration 1 m/s², speed 1 m/s, max. Max. travel distance 25.253 km
Sustainability:More special features of the axis- Modular, quick and easy connection of the ZLX toothed belt axis Axis, large grooves
- Smaller grooves as screw-on point for various accessories
- Initiator position can be variably selected via the profile length
- Grooves on the carriage plate for easier connection of customer parts
- Various motor and gearbox combinations are possible
- The drive can be realized via an expanding mandrel coupling or a plug-in shaft
- Protected drylin W linear guideways
- High resistance to deflection