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Features
● High rigidity precision linear guides are selected, featuring high speed, low noise and low wear, which are suitable for the rapid processing of precision mold parts.
● The spindle adopts C3 high-precision lead screw angular contact ball bearings and a high-strength arrangement structure.
● It is driven by a high-torque, low-noise and highly stable AC control servo motor.
● The powerful cutting ability combines with outstanding accuracy and performance, making inlaying and hole drilling operations simple and easy.
● It is widely used in the processing industries of machine tools, auto parts, lighting fixtures, hardware and other parts.
The "Two-Linear-One-Hard" Series Composite Machining Center is an innovatively designed CNC machine tool featuring precision linear guides on the X and Y axes, and a hardened box-way guide with wear-resistant coating on the Z axis. This hybrid design delivers exceptional cutting strength, precise positioning, and rapid dynamic response. It is particularly suitable for applications requiring both high-load machining and fast axis response, making it an ideal solution for mold manufacturing, heavy machinery production, and energy equipment sectors.
● High rigidity precision linear guides are selected, featuring high speed, low noise and low wear, which are suitable for the rapid processing of precision mold parts.
● The spindle adopts C3 high-precision lead screw angular contact ball bearings and a high-strength arrangement structure.
● It is driven by a high-torque, low-noise and highly stable AC control servo motor.
● The powerful cutting ability combines with outstanding accuracy and performance, making inlaying and hole drilling operations simple and easy.
● It is widely used in the processing industries of machine tools, auto parts, lighting fixtures, hardware and other parts.
| Item | unit | H-850L |
| Worktable area | mm | 1000*500 |
| Worktable maximum loading | kg | 450 |
| T-Slot(slot*width*distance) | mm | 5-18*90 |
| Spindle nose taper | BT | BT40 |
| X/Y/Z axis travel | mm | 800/500/600 |
| Distance between spindle end face and worktable end face | mm | 110-710 |
| X, Y, Z axis gauge specifications | 35/45/Sliding rails | |
| Spindle Speed (Belt type/Direct Connection) | rpm | 8000/12000 |
| Tool magazine capacity | T | 24 |
| X/Y/Zaxis fast displacement | m/min | 24*24*18 |
| Cutting feed speed | m/min | 1-8000 |
| Repeated positioning accuracy | mm | ±0.003/300 |
| Machine weight | Kg | 5000 |
1. Unique “Two-Linear-One-Hard” Structural Design
X/Y Axes: High-precision linear guides enable rapid feed rates of 30–48 m/min, ensuring dynamic responsiveness during high-speed machining.
Z Axis: Equipped with ultra-wide hardened box ways for excellent rigidity and vibration resistance—ideal for deep cavity milling and heavy-duty cutting tasks.
2. High Precision & Stability
Repeatability: ±0.003 mm per 300 mm.
The box-way structure effectively suppresses cutting vibration and improves surface finish quality.
Spindle speeds range from 8,000 to 12,000 RPM, with 20% torque enhancement—perfect for both roughing of steel and high-speed finishing of aluminum and other hard materials.
3. Smart Function Expansion
Equipped with next-generation CNC systems (e.g., Mitsubishi, FANUC, or advanced domestic controllers).
Optional support for 4-axis and 5-axis simultaneous machining (with 4th-axis rotary table).
24-tool Automatic Tool Changer (ATC) with 1.4-second change time for increased productivity.
Integrated automation interfaces for robotic arms or conveyors enable lights-out manufacturing.
4. Modular Platform Design
Flexible table size options ranging from 1000×500 mm to 2000×900 mm.
Load capacity from 450 kg to 1,800 kg depending on the model—adaptable for small to large workpieces.
1. Supported Materials
Metallic:
Aluminum, mild steel, cast iron (for heavy cutting)
Stainless steel (304/316), mold steels (H13, P20)
Superalloys (Inconel 718), titanium alloys (TC4), high-hardness materials for roughing and finishing
Non-metallic:
Graphite electrodes, engineering plastics, composites
2. Machining Types
Heavy Cutting: High stock removal, deep cavity machining (Z travel ≥ 500 mm)
Precision Machining: Accurate hole systems, complex 3D surfaces (e.g., impellers, gear housings)
Compound Machining: Complete roughing and finishing in a single setup, reducing tool changeovers
3. Typical Workpiece Sizes
Small to Medium Parts: Mold inserts, hydraulic manifolds (e.g., 300×300×200 mm)
Large Parts: Frames for energy equipment, construction machinery components (e.g., 1500×800×500 mm)
4. Processable product pictures
| Feature | Two-Linear-One-Hard Series | Full Box-Way Type | Full Linear Guide Type |
| Rigidity | ★★★★★ (Z-axis hardened way) | ★★★★★ | ★★★☆☆ |
| High-Speed Capability | ★★★★☆ (X/Y linear guideways) | ★★☆☆☆ | ★★★★★ |
| Application Scenarios | Heavy cutting + precision | Ultra heavy-duty | Lightweight high-speed |
Mold Manufacturing: Rough and finish machining of automotive panel molds and large die-casting mold cavities
Energy Equipment: Heavy-duty cutting of wind turbine gearboxes, nuclear valve bodies, and oil drilling components
Aerospace: Efficient milling and deep-hole drilling for aircraft structural parts and engine housings
Heavy Machinery: Complex surface machining for mining equipment and marine propulsion systems
Precision General Manufacturing: Stable machining of medical equipment frames and bases for optical instruments
Contact Ling Yueyang today to explore tailored solutions for your workshop and unlock the full potential of hybrid guideway technology.
