Frequently Asked Questions

How to realize multi-surface machining on horizontal lathes?

Multi-surface machining on horizontal lathes is realized by indexing chucks, rotary fixtures and powered turrets with indexing positioning. With spindle indexing and end face power tools, machining of outer circles, end faces, steps and side grooves can be completed sequentially in a single setup. Combined with tailstock auxiliary support and special angle jigs, multi-directional cutting is available without re-clamping workpieces, avoiding positioning errors caused by repeated clamping.

Hard Requirements for Heavy-Duty Cutting on Machine Tools?

It requires a high-rigidity machine bed, powerful spindle torque, sturdy tooling clamping and a stable feed system to eliminate vibration under heavy cutting depth and maintain consistent dimensional accuracy, delivering stable performance during heavy-load cutting.

What are the core differences between lathes and boring mills?

Lathes operate by rotating the workpiece while the cutting tool feeds fixedly, excelling in turning outer circles, inner holes and threads for shaft and disc rotary parts. Boring mills keep the workpiece stationary with rotating cutting tools for feed motion, specializing in high-precision boring of large apertures, large box structures and heavy discs as well as multi-surface milling, ideal for machining large heavy workpieces.

What determines the load capacity of the worktable?

It is jointly determined by worktable casting thickness, support guide structure, spindle box counterweight and integral casting rigidity of the machine base. High-load worktables can accommodate large heavy rough castings and satisfy clamping and machining demands for heavy-duty mechanical parts.

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