Control trajectory, stand-off distance, and nozzle opening in one repeatable workflow for sample preparation and process development.
Add substrate heating when deposition quality depends on evaporation, curing, or temperature-driven process stability.
We fully integrate custom rotary tables and tilt mechanisms during manufacturing. You control everything with the exact same program used for the nozzle, requiring no additional software.
Most serious visitors do not arrive because they want a generic CNC machine. They arrive because one part of the workflow became too manual, too inconsistent, too slow to compare, or too difficult to scale across real samples and targets.
Once trials need comparable results, hand feel becomes drift. The first reason teams look for this platform is simple: the spray step has to become repeatable.
Labs often need to compare formulations, layers, and process windows on flat substrates and sample arrays without rebuilding the workflow every time.
When evaporation, curing, or layer formation changes the outcome, substrate heating becomes part of the process rather than an accessory.
Larger formats, angled parts, holders, rotation, and custom geometry are where standard automation often ends and our extensible path becomes useful.
The goal is not automation for its own sake. The goal is control over the variables that make the deposition step reproducible, explainable, and usable for real development or production work.
Move from improvised hand motion to programmed spray paths that can be repeated, compared, and tuned.
Keep the nozzle where it should be throughout the process instead of relying on operator consistency.
Use motorized trigger control when material application needs more than manual feel and visual judgment.
Add substrate heating, tilt, larger platforms, rotary handling, or workflow accessories when the base machine is no longer enough.
Some teams are ready to order a standard setup. Others still need comparison, configuration, or a discussion about a machine that grows from the standard platform into something process-specific.
Use the shop when the baseline direction is already clear enough for direct browsing, product comparison, and self-directed ordering.
Open shop Compare and configureMove through comparison and configuration when the question is still about footprint, heating, tilt, or the right standard setup.
Compare setups Custom projectsChoose the project path when geometry, fluid handling, holders, automation logic, or engineering constraints already go beyond the standard catalog.
Open custom projectsA custom machine usually starts from a proven CzRobotics platform, then adds only the engineering that the application really needs. The process stays transparent from the first consultation to shipment.
We start with the material, target surface, geometry, process limits, and the point where the current spray step stops being reliable.
When needed, we validate the spray behaviour on real material or representative samples before turning the discussion into a machine specification.
We define the machine changes and quote them clearly. That can include expert integrations such as a rotary table as a real synchronized 5th axis in the control system and G-code workflow, not a separate external add-on.
Custom complete machines are built, tested, and prepared for shipment with a realistic lead time of about 4 to 6 weeks after approval.
If a standard setup already fits, you can move directly to the shop. If not, we will help you decide whether the next step is comparison, configuration, or a custom build.
We reply with a concrete next-step recommendation. No automated newsletters.
