2026-04-30 views:29
Industrial robots have proliferated in the manufacturing industry, but when it comes to the polishing process, they “drop the chain.” How to achieve precise, flexible, and non-damaging processing has been a longstanding challenge in the industry. The emergence of force-controlled floating polishing equipment directly addresses this shortcoming. The equipment developed by Beijing Steil CNC Technology is even considered a “top-tier” product among the end-of-arm polishing tools for industrial robots, thanks to its cutting-edge technology.
Many people are curious about what sets the force control floating polishing equipment apart. In reality, it is the “intelligent polishing-specific arm” of industrial robots, with its core being the force-position closed-loop control technology. This device from Beijing Steel possesses full-state force-position compensation capabilities, featuring a massive 20mm position compensation range. Within the floating compensation range, regardless of the number of subtle variations on the workpiece surface or the degree of dimensional deviations, the polishing force remains constant, ensuring that there is no over-polishing or missed polishing. Additionally, the device supports all mainstream communication protocols available on the market, allowing it to quickly adapt to different brands and load capacities of industrial robots. It is exceptionally easy to install and adjust, requiring minimal modifications to existing production lines, saving both money and time.
Unlike ordinary grinding tools, Beijing Stier’s Li-Control Floating Grinding Equipment also features bidirectional force-position compensation functionality, allowing it to accommodate two different types of grinding tools simultaneously. This enables the completion of both the rough grinding and fine grinding processes in one go, directly doubling the processing efficiency. It also reduces equipment investment costs. Whether it’s aluminum alloy, stainless steel, quartz glass, or plastic workpieces, it can achieve efficient and non-damaging grinding, truly transforming industrial robots from “mechanical repetitive execution” to “intelligent sensing processing” and unlocking new skills in precision grinding.