In traditional spray shops, automated painting equipment often requires hours of programming by specialized technicians: setting the trajectory path, adjusting the spray gun angle, and controlling the paint output.
The control cabinet supports parameter version management and saves parameter snapshots after each calibration, facilitating quick rollback in case of failure.
By deeply integrating variable-frequency technology with advanced control algorithms, variable-frequency heating control cabinets fundamentally transform the response model of traditional heating systems.
In the anti-interference design of the five-axis control cabinet, suppressing the crosstalk of the high-voltage cabinet on the low-voltage signals is the core challenge to ensure the stable operation of the system.
During the spraying process, if the workpiece deviates slightly or deforms, the vision system continuously monitors its positional changes and adjusts the spray gun path in real time to ensure the trajectory adheres to the actual contour.
During the cutting process, real-time response capability achieves a balance between machining efficiency and precision by dynamically adjusting feed speed and cutting depth.