Vario ST robot cells
High part density and long unmanned times
In Vario ST robot cells, the parts are deposited in workpiece carriers (pallets, baskets, intermediate layers, etc.). The robot restacks the empty pallets and forms the stack of finished parts. This design is ideally suited if it is possible to to standardize pallets, for example for series parts or part families. The pallet sizes and number of pallets can be selected. This magazine enables long unmanned runtimes even with short production times.
Technical data Vario ST
Vario ST | |
---|---|
max. payload robot [kg] | 88 / 180 |
max. workpiece weight 2x [kg] | 30 / 50 |
Magazine | ST Stacking basket |
max. magazine area [m²] | 10,56 |
Unmanned time [h] * | 73 |
Lining parts | ●●● |
Shaft parts | ●●● |
Cubic parts | ●●● |
Saw cuts | ●●● |
Castings | ●●○ |
for lathe | ![]() |
for machining center | ![]() |
Basic software | ![]() |
Software Advanced | |
Single Batch | ![]() |
Multi Batch | |
Onepanel | ![]() |
*) max. unmanned time in hours for parts 100x100mm and milling time 10min
The goal is additional spindle hours
Your workpieces + suitable magazine = maximum autonomous time
An important criterion
Unmanned time & magazine space
Maximize spindle hours - don't lose sight of the vision
The possible autonomous time is not only to be seen from today's needs. Automation will still be in operation in 10-15 years' time. How long do you want to be able to manufacture autonomously in 10 years' time? What is your vision?
To compare the magazines in terms of parts capacity
there is the table value *)
This value is related to workpieces