30° Inclined Linear Way Precision CNC Machine Tool

Product Overview

Developed and designed by Anhui Primacon Intelligent Equipment Co., Ltd., QTE series CNC lathes feature high precision and excellent stability. They are ideal processing equipment specially used for machining high-precision complex parts..

This machine integrates turning, drilling and tapping processes. It is equipped with HIWIN linear guides and ball screws. Matched with large-capacity precision spindle unit and high-power main servo motor, it ensures stable operation and outstanding machining precision.

Product Characteristics

Structural Foundation & Stability

1. Integrated 30-step stepped high-low rail bed with precision large-scale linear guides, large-span layout, stable structure with high rigidity, and excellent accuracy retention.

Precision-Driven Components

Spindle System:

1. The large-scale precision spindle unit, paired with a high-power main servo motor, ensures smooth operation and exceptional accuracy.

Motion Control:

The machine employs Japanese THK high-precision ball screws and linear roller guides to ensure smooth and accurate movement across all axes. With generous travel ranges in the X, Y, and Z axes, along with rapid traverse capability on key axes, it provides both the precision and speed required for efficient complex machining.

Versatile Machining Capabilities

Y-axis flexibility: Offered with either hardened rail or linear guide configurations, adapting to diverse machining demands—from heavy roughing operations to high-precision finishing.

The machine tool features a 12-position power tool turret with bidirectional positioning, enabling rapid tool changes and precise positioning to enhance machining accuracy.

Servo tailstock: Features programmable adaptive torque control, making it well-suited for long shaft machining. It includes a standard quill taper, generous base travel, and rapid traverse speeds.

Advantages

Stability & Durability

The HT300 cast base and slant bed design, combined with cross-reinforcement, significantly reduces deformation under heavy loads—critical for maintaining precision in long production runs. This stability directly translates to consistent part quality, even when machining high-strength materials like titanium or alloy steel.

Superior Precision

From the NSK double-row cylindrical roller bearings (minimizing spindle runout) to the THK C3-grade ball screws (ensuring micron-level positioning), every component is engineered for accuracy.This makes the equipment an ideal choice for manufacturing aerospace components—such as engine parts—and medical implants, where extremely high tolerance precision is required.

Enhanced Efficiency

By integrating turning, milling, and drilling operations into a single setup, this machine eliminates the need for multi-station operations, drastically reducing workpiece handling time. The high torque of the power turret (combined with the milling spindle) and rapid feed rates further shorten cycle times, significantly boosting overall production efficiency.

Adaptability to Diverse Applications

Whether machining complex 3D contours (via Y-axis movement) or long shafts (using the servo tailstock), this machine tool adapts to diverse requirements. Optional configurations—such as Siemens/FANUC systems, electric spindles, or high-pressure coolant—can be customized to meet specific industry demands.

1. Precision machining of critical components

Aerospace components (such as turbine blades, blade discs, and engine casings) have extremely high requirements for dimensional accuracy and surface quality. CNC machine tools achieve the machining of complex geometric shapes through multi-axis interpolation and micron-level precision control.

Airframe structural components: Large gantry-type five-axis machine tools can machine structural components such as aircraft wings and tail fins, completing multi-surface machining in a single setup to reduce error accumulation.

2. Processing high-strength and difficult-to-machine materials

Aerospace materials (such as titanium alloys, high-temperature alloys, and composite materials) are hard and difficult to machine. CNC machine tools use advanced tools and adaptive control technology to achieve efficient machining.

Titanium alloy machining: CNC machine tools are equipped with special tools and cooling systems to reduce material deformation and tool wear, ensuring the integrity of high-strength components.

Composite material machining: CNC planar grinding machines are used for precision grinding of carbon fibre composite materials to ensure surface roughness meets design requirements.

Do you have export experience? What documents can you provide?

Yes, our machines have been exported worldwide. We provide invoices, packing lists, certificates of origin, CE certifications, etc.

What is the service life of the machine tool?

Normal usage conditions allow for a lifespan of ten years.

What materials can this machine process?

It efficiently machines stainless steel (304/316), aluminum (6061/7075), titanium (Grade 5), and engineering plastics (PEEK/POM).

Do you provide on-site installation or training?

We offer comprehensive manuals and remote guidance. On-site support is available in selected regions.