Enhance your manufacturing skills with modern CNC lathes, which offer the highest precision, reliability, and productivity for today's industrial applications.
Enhance your manufacturing skills with modern CNC lathes, which offer the highest precision, reliability, and productivity for today's industrial applications.
Cutting-edge CNC systems with user-friendly programming interfaces and monitoring capabilities for peak performance.
Achieve +/- 0.001" tolerance with precision spindles and rigid machine construction, ensuring the outcome quality time after time.
Work cycle running 24/7 unmanned, with an automatic tool changer, bar feeder, and intelligent monitoring systems to make the most out of productivity.
Variable speeds of up to 6,000 rpm, with fast traverse rates to guarantee quicker cycle times and enhance throughput.
Multi-station tool capable of live tooling for turning, milling, drilling, and threading operations in one single setup.
Multi-station tool capable of live tooling for turning, milling, drilling, and threading operations in one single setup.
Modern manufacturers face increasing demands for precision, efficiency, and cost control. Traditional solutions fall short.
Setup times averaging 40% of production time, unexpected breakdowns, and lengthy tool changeovers kill productivity and profitability.
Complex programming errors, difficult troubleshooting, and steep learning curves for operators slow down operations and increase costs.
Tool wear, waste of material, and energy consumption, as well as a lack of higher-skilled labor, make manufacturing costs increase, squeezing the margins.
Difficulty in switching among different part geometries, batch sizes, and materials without taking much time for reconfiguration.
Our 2025 advanced CNC lathe machines integrate cutting-edge technology to eliminate traditional manufacturing bottlenecks
Real-time changes in manufacturing enable a 40% reduction in setup times and preserve quality across production runs.
5-axis and 7-axis operations produce complex geometries in one setup instead of having to do it through multiple machine setups.
Operator’s touch controls are much easier to use and program, as computer programming reduces the time it takes for the operator to learn and lowers setup complexity.
Certain operations utilize high-speed tool changers and automation systems to access tool stations as needed, thereby minimizing machine downtime during tooling and allowing the machine to run unattended.
2025 environmentally conscious technological innovations reduce energy consumption, and at the same time adhere to stringent environmental regulations.
Connected systems give instantaneous insight into the environment for machine performance, interesting tool conditions, and production metrics.
Designed for precision, efficiency, and durability. Ideal for complex machining tasks, offering reliable performance.
| Equipment Picture | Machine Type | Equipment Model | HS Code | Price in Usd (Fob Shanghai) | Equipment Parameters |
|---|---|---|---|---|---|
![]() | Slant Bed CNC lathe | 235 LANCEN | 8458110090 | 43819 USD/set | More Details |
![]() | CNC Lathe | CK6130 | 8458110090 | 8050 USD/set | More Details |
![]() | CNC Lathe | CK6140x500 | 8458110090 | 11750 USD/set | More Details |
![]() | CNC Lathe | CK6150 | 8458110090 | 52350 USD/set | More Details |
![]() | Horizontal CNC lathe | CK6152E | 8458110090 | ***** USD/set | More Details |
![]() | CNC Lathe | CK6160*1500 | 8458110090 | 14800 USD/set | More Details |
![]() | CNC Lathe | CK6160*1000 | 8458110090 | 84240 RMB/set | More Details |
![]() | Horizontal CNC lathe | CK6165E | 8458110090 | ****** USD/set | More Details |
![]() | Horizontal CNC lathe | CK6185E | 8458110090 | ****** USD/set | More Details |
![]() | CNC Lathe | CK61100 | 8458110090 | 52350 USD/set | More Details |
![]() | CNC Lathe | CK61125E | 8458110090 | 52350 USD/set | More Details |
![]() | Turning and Milling Compound CNC lathe Machine | CTX200S | 8458110090 | ****** USD/set | More Details |
![]() | CNC Lathe | H32i | 8458110090 | 59750 RMB/set | More Details |
![]() | Turning and Milling Compound CNC lathe Machine | TCK25Y | 8458110090 | ****** USD/set | More Details |
![]() | Slant Bed CNC Lathe | TCK36A | 8458110090 | 17,500USD/set | More Details |
![]() | Slant Bed CNC lathe | TCK46A | 8458110090 | ****** USD/set | More Details |
![]() | Slant Bed CNC lathe | TCK50A*800 | 8458110090 | 361800 RMB/set | More Details |
![]() | Duplex Machine with Truss Slant Bed CNC lathe | TCK50A*500 and TCK50Y*400 | 8458110090 | ****** USD/set | More Details |
![]() | Slant Bed CNC lathe | TCK50A*1500 | 8458110090 | 48900 USD/set | More Details |
![]() | Slant Bed CNC lathe | TCK50A*800 | 8458110090 | 33000 USD/set | More Details |
![]() | Slant Bed CNC lathe | TCK50A*1500 | 8458110090 | 48900 USD/set | More Details |
![]() | Slant Bed CNC Turning milling Lathe Machine | TCK50AY*500 | 8458110090 | ****** USD/set | More Details |
![]() | Slant Bed CNC lathe | TCK50AY*500 | 8458110090 | ****** USD/set | More Details |
![]() | CNC Lathe | TCK56A | 8458110090 | 52350 USD/set | More Details |
![]() | CNC Lathe | TCK66A | 8458110090 | 52350 USD/set | More Details |
![]() | CNC Lathe | TCK6340 | 8458110090 | 52350 USD/set | More Details |
![]() | CNC Lathe | TCK6340S | 8458110090 | 52350 USD/set | More Details |
![]() | CNC Lathe | TCK6350 | 8458110090 | 52350 USD/set | More Details |
Consider spindle speed (RPM) for material handling and finishing, chuck diameter, and the length of the z-axis for workpiece size when selecting a CNC lathe. Key specifications will include the number of axes for operation complexity, as well as features such as live tooling and automation, to increase versatility and productivity.
| Category | Specification | Details |
|---|---|---|
| Machine Dimensions | Overall Length | 4,200mm (165.3″) |
| Overall Width | 2,800mm (110.2″) | |
| Overall Height | 2,400mm (94.5″) | |
| Machine Weight | 12,500kg (27,558 lbs) | |
| Working Envelope | Max Turning Diameter | Ø500mm (19.7″) |
| Max Turning Length | 1,500mm (59.1″) | |
| Chuck Size | Ø315mm (12.4″) | |
| Bar Capacity | Ø80mm (3.15″) | |
| Spindle Performance | Max Spindle Speed | 6,000 RPM |
| Spindle Motor Power | 37kW (50 HP) | |
| Max Torque | 2,400 Nm | |
| Spindle Bearing | High-precision angular contact | |
| Axis Specifications | X-axis Travel | 350mm (13.8″) |
| Z-axis Travel | 1,520mm (59.8″) | |
| Rapid Traverse (X/Z) | 24/30 m/min | |
| Positioning Accuracy | ±0.005mm (±0.0002″) |
| Feature | Details |
|---|---|
| Control Type | Advanced 32-bit CNC |
| Display | 21″ Color Touchscreen |
| Memory Capacity | 8GB Program Storage |
| Simultaneous Axes | Up to 12-axis control |
| Programming Language | G-code, Conversational |
| CAM Integration | Direct CAD/CAM import |
| Simulation | 3D real-time machining |
| AI Optimization | Automatic toolpath tuning |
| Network Interface | Ethernet, WiFi 6 |
| IoT Capability | Industry 4.0 ready |
| Remote Access | VPN secure connection |
| Data Logging | Real-time analytics |
| Category | Specification |
|---|---|
| Tool Turret | |
| Tool Stations | 20 positions (expandable to 40) |
| Tool Change Time | 1.5 seconds chip-to-chip |
| Max Tool Weight | 8kg per station |
| Tool Identification | RFID automatic recognition |
| Live Tooling | |
| Live Tool Stations | 12 driven tool positions |
| Milling Spindle Speed | 4,000 RPM max |
| Milling Motor Power | 7.5kW (10 HP) |
| C-axis Resolution | 0.001° positioning |
| Workholding | |
| Chuck Type | Hydraulic 3-jaw |
| Clamping Force | 60kN maximum |
| Tailstock | Programmable NC tailstock |
| Part Catcher | Automatic with conveyor |
| Category | Specification |
|---|---|
| Accuracy & Precision | ±0.002mm (±0.00008″) |
| Surface Finish | Ra 0.1μm achievable |
| Geometric Tolerance | ±0.005mm roundness |
| Thermal Stability | ±0.003mm/°C |
| Production Rates | |
| – Cycle Time Improvement | Up to 50% reduction |
| – First Pass Yield | 99.5% typical |
| – Tool Life Extension | 300% improvement |
| – Uptime | 99.2% availability |
| Power & Environment | |
| – Total Power | 65kW connected load |
| – Air Consumption | 200 L/min @ 6 bar |
| – Coolant Capacity | 800L tank with filtration |
| – Noise Level | <75 dB(A) operation |
From aerospace components to medical devices, precisely one machine—and endless possibilities.
Some feedback from real manufacturing leaders who went about transforming their operations
The primary difference between the CNC lathe and mill is that the lathe rotates the workpiece against stationary cutting tools to machine cylindrical or conical shapes, whereas the mill rotates the cutting tools around a stationary workpiece to machine complex shapes, such as flat surfaces, grooves, and pockets.
2-Axis CNC Lathes: Basic turning operations of X and Z axes.
3-Axis CNC Lathe: Adds live tooling for milling, drilling, and tapping.
4-Axis CNC Lathe: Adds a secondary tool carrier for tandem operations.
5 & 6 Axis CNC Lates: Complex milling is permitted with additional Y and B axes.
Multi-Spindle/Dual-Turret Lathes: Offers multiple spindles and turrets for simultaneous operations.
Chucking Lathes: These are designed for small parts, eliminating the need for a tailstock.
Flat Bed Lathes: Offers a removable gap to accommodate larger diameters.
Big Bore/Oil Country Lathes: For operations on large-diameter parts, such as pipes and shafts.
Prices for CNC lathes vary depending on size, features, and capabilities, ranging from $10,000 for basic models suitable for hobbyists to upwards of $100,000 for advanced industrial machines.
CNC lathe workings include these skills and attributes: keen attention to detail, IT and mathematical skills, hands-on ability, troubleshooting, operations monitoring, and quality control.
CNC lathe machines generally use a language called **G-code** (Geometric Code), which controls the movement and working of the machine.
CNC turning can be applied to wood turning, but suitable tools and setting parameters for woodworking must be incorporated instead of those for metalworking.
The seven major parts used in a CNC machine comprise the Machine Control Unit (MCU), input devices, drive system, machine tool, feedback system, bed and table, and cooling system.
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In a nutshell, join the thousands of manufacturers who have transformed their operations through the use of our precision CNC lathe machines. Request a custom quote and see how we can help increase productivity.
A CNC lathe is a computer-controlled tool used for shaping and machining materials, mostly metals or plastics. The workpiece is rotated against a stationary cutting tool. CNC lathes, with their high automation and precision, are capable of manufacturing intricate designs and prototypes.
A CNC lathe works by using a rotating spindle to hold and turn the workpiece. The cutting tool, on its part, is moved through its program along various axes, such as X, Y, and Z, to perform operations like turning, drilling, and threading, among others. This enables the machine to achieve high levels of accuracy and repeatability.
The key specifications of CNC lathes are, for example, swing diameter, spindle speed (RPM), axis movement capabilities, and tooling system. Thus, machines like the 8L CNC lathe might have specifications uniquely suited for small parts manufacturing, while high-performance CNC turning centers are indeed able to handle specifications robust enough for larger workpieces.
Currently, automation enhances productivity and efficiency in CNC lathes. Most CNC lathes are equipped with automatic tool changers, bar feeders, and loaders that enable smooth production runs. This tuition greatly reduces manual intervention, hence creating a higher output and standardized quality in manufacturing processes.
The advantages of these CNC turning centers are essentially versatility and the ability to perform various machining operations in one setup. They come in handy with live tooling capabilities that allow milling and drilling operations to be performed with turning. This need meets the reduction of multiple machines, thereby enhancing workflow.
There are several types of CNC lathes, including automatic lathes, dual-spindle lathes, and production lathes. All serve different manufacturing needs, ranging from high-volume runs to intricate prototype developments. For instance, dual-spindle lathes can perform simultaneous machining operations for enhanced efficiency and reduced cycle times.
Live tooling is the ability of the CNC-lathe to work with rotary tools while the spindle is rotating. Hence, operators can perform milling operations on the lathe, ensuring the machines’ versatility. It also enhances the complexity of the parts that can be produced through live tooling to allow for intricate designs.
Precision is ensured by CNC lathes through the use of computer numerical control, which enables the precise programming of machining paths. Rigid construction, linear guides, and high-tolerance spindles ensure that the machine remains precise and stable during the machining process, allowing for high-quality finished products.
When considering the purchase of used CNC lathes, key considerations include the machine’s condition, specifications, and additional features it can offer. Preparing yourself for such a purchase by looking for wear and tear, maintenance history, and verifying the requirements of manufacturing will help you make a better decision.
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