Our Inline PCB Depaneling Machine, with moveable blades, offers Efficient PCB Separation Solution.The Inline PCB Depaneling Machine features microcomputer control for automatic cutting stroke adjustment, high-speed operation, and infrared light curtain switch for safety. Increase efficiency and automation since it has the ability to connect to a board loader. Ideal for electronic, electrical, lighting, medical, and automotive industries.
Features:
- The program of the Inline PCB depaneling machine is capable of automatically managing the number of cuts and the cutting distance. It supports board widths ranging from 58mm to 320mm, and the PLC control system has the capacity to store data for up to 100 different settings.
- Both the upper circular blade and the lower linear blades of the machine are precision-adjustable, offering a customizable space of 0-15mm for optimal cutting performance.
- The Inline PCB depaneling machine features a fully automated PCB transfer process, eliminating the need for manual intervention. It includes a designated port for connecting external mechanical hands, enabling seamless integration with mechanical arms or automatic pallets for the collection of separated PCBs.
- An automatic counting function is integrated into the machine, providing a clear and intuitive display of the production output for efficient monitoring and management.
Equipment Specifications:
Model: ETE-505A
Machine size: 972*1052*1115mm
Maximum depaneling length: 350mm
Maximum depaneling width: 200mm
Bottom component height limit: 15mm
Tool material: imported high-speed steel
Depaneling thickness: 0.5-3mm
Air source: 4-6KGF/cm2
Power supply: 220V/110V, 50HZ/60HZ, 200W
Advantages:
- Traditional manual PCB depaneling machines require manual board placement and positioning, which is time-consuming and labor-intensive, resulting in low production efficiency. Our inline PCB depaneling machine, the ETE-505A, features microcomputer control and can automatically set the cutting stroke based on the size of the PCB, eliminating the need for manual positioning. It can also be connected to a board loader, reducing labor and improving efficiency, and increasing automation.
- Due to multiple cutting strokes, the cutting process is extremely stable, greatly improving the V-CUT cut’s positioning ability. Even for circuit boards with shallow V-CUT cuts, there is no jumping of the V-CUT cut from the guiding blade, avoiding the production of defective products.