The 45° inclined bed design not only effectively disperses cutting force and improves the overall rigidity of the machine tool but also accelerates chip discharge by gravity, avoiding chip accumulation that affects machining accuracy and tool life. The transmission system adopts a double pre-tensioned fixation structure, which can eliminate precision deviations caused by thermal deformation and ensure long-term machining stability. The spindle adopts a maintenance-free structure, paired with NSK or FAG P4-class precision bearings, with a maximum speed of 5000rpm, which can stably achieve a surface roughness of Ra1.6μm. Equipped with a high-speed and ultra-precision servo motor and intelligent dynamic control technology, it has a fast feed rate and precise positioning, and the machining efficiency is 40% higher than that of traditional models. It integrates an automatic liquid lubrication system, which supplies oil to key components such as guideways and ball screws at fixed times and quantities, resulting in low wear and long service life.
The spindle through-hole diameter is 52mm, which can be adapted to the processing of large-diameter bar stock. The X-axis stroke covers the commonly used processing range, and the Z-axis stroke meets the processing needs of long shaft parts. The repeat positioning accuracy is ±0.012mm for the X-axis and ±0.016mm for the Z-axis, ensuring precision machining quality. The tool post supports multi-station fast tool change, with stable tool clamping, meeting the composite processing needs of turning, milling, drilling, etc. The CNC system supports mainstream brands such as FANUC and Siemens, integrating DYNPREC dynamic precision compensation and ILC intelligent load control functions, with convenient programming and strong compatibility. The cooling system adopts a Taiwan large-displacement cooling pump, which can adjust the coolant flow according to the processing scenario. The cooling efficiency is increased by 30% when processing high-temperature alloys, effectively extending tool life. The machine tool has a compact design and moderate floor space, facilitating workshop layout and production line integration.
In the field of auto parts processing, it can complete the composite processing of turning, milling, and drilling of complex parts such as engine valve cores, drive shafts, and gearbox gears. The processing cycle of a single piece can be shortened to less than 3 minutes, meeting mass production needs. In the medical device industry, relying on its high-rigidity spindle and low-vibration design, it can stably process products with strict surface quality requirements such as orthopedic implants and surgical instruments, ensuring biocompatibility and operational safety. In the 3C electronics industry, it supports the precision processing of micro-shaft parts with a diameter of ≤10mm. Combined with an automatic chip removal system, it meets the dual standards of cleanliness and precision for consumer electronics. In the aerospace field, it can process aviation titanium alloy parts, small thin-walled structural parts, etc. By automatically optimizing the feed rate through the system, it avoids vibration problems caused by the low elastic modulus of materials.
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