Zhongshan Nuoxin Intelligent Equipment Co., Ltd. was established in 2004 and is a high-tech enterprise. The company specializes in the research and production of precision processing equipment such as CNC numerical control lathes, turning-milling combined machines, and vertical machining centers. At the same time, the company is dedicated to providing customers with support for precision part processing technology and CNC equipment operation training, as well as handling after-sales issues.
The company has been deeply engaged in the CNC lathe industry for over 20 years and has successively received titles such as "Guangdong Province High-tech Enterprise" and "Zhongshan Machinery Chamber Council Member Unit". It is committed to creating more value for its customers and providing comprehensive solutions that meet the processing needs of customers.
In modern industrial production, the demands of the global market are shifting towards automated, multi-axis, and single-setup machining processes. Traditional single-spindle setups require manual intervention or robotic arms to flip parts, leading to critical alignment errors and downtime.
Twin-spindle configurations allow the main spindle to transfer components seamlessly to the sub-spindle for back-end operations. This reduces cycle times by up to 40% and drastically minimizes geometric tolerance stackups.
By pairing twin spindles with automatic bar feeders and finished-part unloaders, manufacturers can deploy shifts with minimal labor oversight, enhancing overall operating efficiencies.
Replacing two separate turning machines with one advanced dual-spindle multi-tasking machine reduces plant space requirements, electrical overhead, and maintenance costs.
The company is located in the Industrial Development Zone of Zhongshan City, Guangdong Province, with a self-owned factory area of over 20,000 square meters. It has a professional design and production manufacturing team. Continuous innovation development, standardized production operations, and strict product quality control management have enabled the company to successfully apply for a number of product invention and utility model patents and successfully pass international ISO9001 and ISO14001 system certifications.
By using premium cast-iron structures, heat-treated slant beds, and high-precision linear guideways, our CNC systems are optimized for maximum rigidity and high thermal stability under demanding working conditions. We deploy advanced components from leading global brands to construct our main spindles, sub-spindles, and tool turrets, ensuring long-term reliability and micron-level positioning repeatability.
To understand the value of Twin Spindle CNC turning solutions, mechanical engineers and procurement teams should review the core architectural highlights integrated into modern multi-tasking centers:
The core of twin-spindle technology is the real-time angular synchronization of the main spindle and the sub-spindle. Our CNC lathes feature precise C-axis resolution on both spindles, permitting part handoff at high rotational speeds without stopping the process. This maintains consistent phase alignment, critical for milling flats, cross-holes, and hex geometries on both ends of parts.
Equipped with Y-axis controls and servo-powered live tooling turrets, our mill-turn centers handle complex milling, cross-drilling, and tapping operations. By merging a lathe and a milling machine into a single workspace, complex operations such as off-center drilling, helical interpolation, and thread milling are processed in one cycle.
Our engineering solutions cater to complex industrial ecosystems, delivering turnkey setups for specialized processing lines worldwide:
High-volume manufacturing of transmission shafts, steering components, turbocharger impellers, and hydraulic valves requires low cycle times and high process stability. Our multi-tasking machines achieve sub-micron tolerances over continuous operating periods.
Machining complex parts like orthopedic bone screws, implant interfaces, and surgical tooling from titanium, PEEK, and cobalt-chrome. Precision turning with live tool options handles complex geometries with outstanding surface finishes.
Manufacturing critical fasteners, fuel nozzle housings, and high-temp alloy connectors. Our slant bed CNC machines deliver high mechanical stability, dampening vibrations when working with tough superalloys.
The company's product quality and after-sales service are highly recognized by customers. Its business scope has covered aviation, automobiles, motorcycles, construction machinery, home appliances, plumbing and bathroom, lighting, medical and optoelectronics, etc. The company also provides system technical service support to customers, from pre-sale technical consultation to in-sale installation and commissioning and technical training, to after-sale maintenance services and customer follow-ups. Our after-sales team can respond promptly and solve your worries at any time.
From custom parameter tuning and custom tool arrangement layout design to training programs for CNC programming and operations, Nuoxin's engineers are dedicated to keeping your facilities online and operating at maximum efficiency. Our global replacement part network keeps downtime to a absolute minimum.
CNC turning machine pricing varies based on the chuck capacity, turning length, axis count (3-axis, 4-axis, or 5-axis/turn-mill setups), and automation integrations. Below is an indicative reference price framework for procurement planning:
| Machine Series | Key Configurations | Optimal Applications | Estimated Factory Price Range (USD) |
|---|---|---|---|
| NXX-26AS / NXX-36AS | Inclined Bed, Twin-Spindle, Dual Gang-Tool, Max Bar Capacity 26/36mm | High-speed small connector pins, precision shafts, high-volume hardware | $24,000 - $35,000 |
| NXX-46AL / NXX-46A1 | Slant Bed, Gang Tooling, Heavy-Duty Bed, Max Bar Capacity 46mm | Mid-sized bushings, high-rigidity simple turning, standard fittings | $18,000 - $28,000 |
| NXX-46CY / NXX-46BCY | Slant Bed, Live Tooling, Y-Axis, C-Axis, Turn-Mill Capabilities | Complex hydraulic parts, off-center milling, small-to-mid medical components | $32,000 - $48,000 |
| NXX-46ESY / NXX-52DEY | Twin-Spindle, Multi-Tasking Center, Servo Power Turret, Y-Axis, Max Capacity 52mm | Complex heavy-duty parts, back-end machining, aerospace fasteners | $50,000 - $75,000 |
*Note: The prices listed above represent standard configurations for export. Custom requirements, including high-end CNC controller installations (e.g., Fanuc, Siemens, Syntec), specialized active safety enclosures, dynamic oil-bath bar feeders, and live tooling holders, may affect final quotations. For official project quotes, please contact our technical sales team directly.
Looking to the future, our company will consistently adhere to the business philosophy of "honesty, responsibility, innovation, and win-win", and implement the quality policy of "quality improvement, customer satisfaction first". We will continue to improve and provide continuous services to offer customers higher-quality products and more satisfactory services! We look forward to your visit and cooperation!
Connect with our engineering consulting team today to discuss your part drawings, cycle time targets, and automation requirements. We provide complete time-studies and custom machine layouts to optimize your investment.
Get expert answers regarding twin-spindle machining, optimization, and configuration parameters.
Gang-tool lathes set up cutting tools adjacent to one another on a flat table slide, allowing fast indexing times because the slide shifts straight to the next tool. Turret lathes house tools on a rotating turret, which requires rotation time to swap tools but provides more clearance for complex geometries and features. Gang tooling is ideal for fast production cycles on smaller parts, while turrets are preferred for complex, multi-operational components.
During a dynamic part transfer (on-the-fly transfer), the CNC controller synchronizes the rotational speed and the phase angle of the main spindle and the sub-spindle. The sub-spindle advances along the Z-axis, grips the workpiece while both spindles are rotating at identical velocities, and the main spindle's chuck opens. The sub-spindle then retracts to resume operations on the reverse side of the part. This preserves phase alignment for cross-drilled holes or machined flats.
A slant bed design (commonly ranging from 30° to 45°) offers two major technical advantages: first, it permits efficient chip evacuation because chips slide off the bed into the conveyor instead of building up around the tooling; second, it provides high rigidity and a wider cross-slide foundation, reducing vibrations and improving thermal displacement control during heavy roughing cuts.
Yes, we provide end-to-end global technical support. This includes customized programming workshops, installation support, pre-shipment inspections, and video technical support. We also work with regional distributors to dispatch certified service technicians for installation, alignment calibration, and preventative maintenance audits.