At present, in view of the poor dust suction effect of the edge banding machine. During the trimming operation, the chip removal system has been revised and upgraded.
This project takes the edge banding machine usage as background, and conducts
1. current situation analysis
2. finding problem nodes
3. optimization design
4. simulation analysis
5. field test verification
Through key components such as chip removal cover. Finally, the new chip removal cover structure is optimized and determined, and the goal is to improve the chip removal and chip removal performance of the edge banding machine.
During the trimming process of the board, a large amount of cutting particles and dust are prone to be produced, which affects the working environment, the cleaning is also time-consuming and laborious, and the equipment is also prone to failure.
Now some China edge banding manufacturer has a detailed understanding of the on-site situation of the original edge banding machine trimming and chip removal, and the actual situation is analyzed and simulated. The simulation results show that the chip removal rate of the original chip removal cover is less than 66%, and part of the chip leakage.
Site situation before optimization
Optimize the distribution of waste
Optimize the structure under the premise of ensuring the movement space of fine-tuning components. The optimized simulation results show that the chip removal rate of the cover body is as high as 96% on average, an increase of 30%, and the chip removal effect has been greatly improved compared with the original structure.
Simulation results after optimization
China edge banding machine inspected the optimized effect of edge banding machine trimming and chip removal on the spot. The effect of trimming and chip removal has been significantly improved, and there is basically no obvious leakage, which is generally consistent with the simulation results.