I. Core Strength Workpieces (Areas of Highest Expertise)
These workpieces typically feature complex structures and require multiple processes. While traditional machine tools need multiple setups, Swiss-type lathes can complete them in a single clamping.

1. Precision Shaft-Type Parts:

• Automotive Components: Fuel injector nozzles, plungers, valve tappets, turbocharger small shafts, ABS system valve cores, sensor shafts.

• Medical Devices: Surgical instrument handles, endoscope parts, dental drill shanks, implant connector rods, micro-infusion pump shafts.

• Electronic Components: Fiber optic connector ferrules, hard disk drive spindles, micro-motor shafts, printer roller shafts.

2. Complex Stepped Shafts / Special-Shaped Shafts: Shaft parts with multiple features such as different diameters, grooves, threads, flats, and eccentric sections.

3. Shafts with Radial/Axial Holes: Equipped with live tools and a C-axis, Swiss-type lathes can perform milling, drilling, tapping, and other compound machining on the side or end face of the workpiece, e.g., motor shafts with transverse oil holes.

II. Hot Workpieces by Industry Application

1. New Energy Vehicle & Electronics Industry:

• Charging Gun/Pile Precision Parts: Conductive rods, contact pins, complex internal structural components.

• Motor Shafts: Micro stepper motor shafts, UAV motor shafts, power window motor shafts, often requiring high-speed dynamic balancing.

• Connectors: Metal shells and terminals for various high-end precision electronic connectors.

2. Medical Device & Instrumentation Industry:

• Precision Probes, Measuring Rods: Used in measuring equipment, requiring extremely high dimensional stability and surface finish.

• Analytical Instrument Parts: Valve components, capillary fittings in chromatographs, mass spectrometers, etc.

• High-Precision Gear Shafts/Worms: Integrated machining of small-module gears and shafts.

3. Communications & Optics Industry:

• Fiber Optic Communication Parts: Besides ferrules, various sleeves, connector housings.

• Lens Barrels, Aperture Components: Precision metal structural parts for camera and smartphone camera modules.

III. Workpieces with Typical Process Characteristics

• Workpieces Requiring "Back-Working": After one end is machined, the subspindle automatically takes over the part to immediately machine the other end (turning, drilling), ensuring concentricity.

• Slender Shafts with Large Length-to-Diameter Ratios: The Swiss-type lathe's "cutting while the guide bushing supports" method effectively avoids chatter caused by overhang, ensuring accuracy and finish.

• Workpieces Made from Difficult-to-Machine Materials: For materials like stainless steel, titanium alloys, Inconel, and hardened steels, Swiss-type lathes can be configured with high-pressure coolant for stable machining.

• Workpieces Requiring High Volume and High Consistency: Paired with an automatic bar feeder, they enable continuous uninterrupted production, suitable for mass orders in industries like automotive and electronics.

Key Capabilities of JSWAY Swiss-Type Lathes:
The efficient machining of the aforementioned workpieces is made possible by the following core functionalities of Swiss-type lathes:

• Powerful Compound Machining Capability: Integrates turning, milling, drilling, tapping, knurling, and slotting in one setup.

• Exceptional Rigidity: The moving headstock structure is suitable for micro-machining and heavy-duty cutting.

• Superior Precision: Capable of achieving tight dimensional tolerances and excellent surface finish quality.

• High-Efficiency Automation: Seamless integration with automatic bar feeders enables single-operator, multi-machine management.

In summary, the core characteristics of hot workpieces machined by JSWAY CNC Swiss-type lathes are "small, precise, complex, and high-volume." If you have specific industry applications or part drawings, we can assist you in further evaluating the economic and technical feasibility of their machining.