English 
Address:
No, 309 Guandoumen Road, Wuhu Distict, China (Anhui) pilot Free Trade Zone
XD-V50K
XDMADE
The XD-V50K’s bed and base are manufactured using resin sand casting—a process that ensures uniform material density and reduces internal stress. After casting, the structure undergoes aging treatment to eliminate residual stress, followed by high-frequency quenching to harden the surface. This combination guarantees long-term structural integrity, prevents deformation under heavy loads, and lays the groundwork for consistent machining accuracy.
The Z-axis adopts a horizontal stepped guideway layout, paired with 35/45 mm linear guide width (depending on the axis). This design dramatically enhances wear resistance compared to traditional guideways, even during prolonged heavy cutting. The rigid guideway structure also minimizes deflection, ensuring that the machine maintains precision even when processing large or dense workpieces.
Unlike conventional CNC lathes, the XD-V50K is equipped with fully enclosed moving inner guards that provide 70% better protection against chips, coolant, and debris. This barrier prevents contaminants from reaching critical components like ball screws and guideways, which are essential for maintaining precision. By reducing wear on these parts, the guards simplify maintenance requirements and extend the machine’s overall service life.
Key maintenance points—such as the servo turret, hydraulic tailstock, and spindle assembly—are designed for easy access. This reduces downtime during routine checks or repairs, ensuring that the machine stays operational for longer periods and supports continuous production schedules.
The imported high-rigidity horizontal 12-station servo turret is a standout feature of the XD-V50K. It offers fast neighboring-tool changes (reducing non-cutting time) and high positioning accuracy, with minimal deformation even under heavy cutting loads. The turret accommodates 25×25 mm tool shanks and Φ32 mm boring tool holders, supporting a wide range of cutting tools for versatile machining.
The machine’s hydraulic tailstock features an adjustable quill with a 100 mm stroke and Φ85 mm quill diameter, making it suitable for most heavy-duty machining requirements. It provides stable support for long workpieces (up to 480 mm in length between centers), preventing deflection during turning or milling and ensuring consistent precision across the entire workpiece.
The 15 KW spindle motor delivers ample power for heavy-duty cutting tasks, while the A2-6 spindle type and Φ62 mm spindle through-hole diameter (supporting Φ51 mm max bar through diameter) enable processing of large-diameter workpieces and bar stock. The spindle’s 3500 r/min rated speed balances high-speed efficiency with low-speed torque, adapting to materials ranging from aluminum to hardened steel.
The optional automatic chip conveyor features a streamlined monoblock design that saves floor space while ensuring efficient chip evacuation. It operates with low noise, includes overload protection to prevent damage, and integrates seamlessly with the machine’s workflow—reducing manual intervention and keeping the work area clean.
The XD-V50K Turning And Milling Compound Machine With Grinding Head is versatile enough to serve multiple industries, thanks to its heavy-duty cutting capability, high precision, and compatibility with long workpieces. Below are its key application areas:
In automotive production, the XD-V50K excels at machining critical components like drive shafts, gear hubs, and axle parts. Its heavy-duty cutting capacity (powered by the 15 KW spindle) handles high-strength automotive steels, while the ±0.002 mm repeatability accuracy ensures parts meet strict automotive tolerance standards. The 480 mm maximum machining length is ideal for long axle shafts, and the 12-station turret supports quick tool changes for multi-operation processing (e.g., turning, milling, and grinding in one setup).
For industries like construction and mining machinery, the XD-V50K processes large, thick-walled components such as hydraulic cylinder rods, bearing housings, and transmission shafts. The machine’s Φ550 mm max swing diameter accommodates large-diameter workpieces, while the monoblock cast bed’s rigidity prevents vibration during heavy material removal. The hydraulic tailstock provides stable support for long shafts, ensuring consistent precision even for parts up to 480 mm in length.
In aerospace manufacturing, where precision and material integrity are paramount, the XD-V50K machines high-precision components like turbine discs, engine shafts, and structural brackets. Its high-frequency quenched guideways and servo turret positioning accuracy maintain tight tolerances for aerospace-grade materials (e.g., titanium alloys and stainless steel). The fully enclosed guards prevent contamination, critical for aerospace parts that require strict surface quality standards.
For energy sectors (e.g., wind power and oil & gas), the XD-V50K processes components like wind turbine shaft flanges, oil drill pipe connectors, and generator rotor shafts. The Φ51 mm max bar through diameter supports bar stock processing for small to medium parts, while the optional automatic chip conveyor handles the high volume of chips generated from machining thick-walled energy components. The machine’s durability (backed by the 70% more protective guards) ensures reliable operation in high-production energy manufacturing facilities.
The XD-V50K is optimized for heavy-duty cutting through three key features:
A 15 KW high-power spindle motor that delivers sufficient torque for removing large volumes of material from hard metals (e.g., carbon steel, alloy steel).
A monoblock cast bed and base (resin sand casting + aging treatment + high-frequency quenching) that eliminates vibration and deformation during heavy loads.
Horizontal stepped guideways (35/45 mm width) with enhanced wear resistance, ensuring stable movement of the X and Z axes even under high cutting forces. These features work together to maintain precision while handling demanding heavy-cutting scenarios.
The XD-V50K offers ±0.002 mm repeatability accuracy, a critical specification for high-precision manufacturing. This precision is maintained through:
High-rigidity servo turret: Ensures accurate tool positioning and minimal deflection during cutting.
Quenched and ground guideways: Reduces friction and wear, preserving positioning accuracy over long-term use.
Fully enclosed moving guards: Prevents chips, coolant, and debris from damaging ball screws and guideways—components that directly impact precision.
Regular maintenance (e.g., lubricating guideways and checking turret alignment) further sustains this precision.
Yes, the XD-V50K is designed for long workpiece machining. It supports workpieces with a minimum machining length of 150 mm and a maximum machining length of 480 mm between centers. The machine’s hydraulic tailstock (with a 100 mm quill stroke and 85 mm quill diameter) provides stable support for long shafts, preventing deflection during turning or milling. This makes it ideal for parts like automotive axles, heavy machinery shafts, and wind turbine components.
Yes, the XD-V50K can integrate with automation systems like gantry-type robotic loaders. Its structural design includes mounting points for automation hardware, and the machine’s control system (compatible with industry-standard CNC protocols) enables seamless communication with robots. This integration is particularly useful for high-volume production, as it reduces manual workpiece loading/unloading time and improves process consistency. Additionally, the optional automatic chip conveyor complements automation by eliminating manual chip handling.
Routine maintenance for the XD-V50K includes:
Lubrication: Regularly lubricate X/Z-axis guideways and ball screws to reduce wear (follow the manufacturer’s schedule for oil type and frequency).
Guard Inspection: Check the fully enclosed moving guards for damage or gaps, ensuring they maintain 70% protection against contaminants.
Turret Alignment: Periodically verify the 12-station servo turret’s positioning accuracy to prevent tool misalignment.
Hydraulic System Check: Inspect the hydraulic tailstock’s fluid level and pressure to ensure stable support for workpieces.
Chip Conveyor Maintenance (if optional): Clean the conveyor and check for overload protection functionality to avoid jams.
Following these tasks extends the machine’s service life and preserves its precision.
The XD-V50K’s bed and base are manufactured using resin sand casting—a process that ensures uniform material density and reduces internal stress. After casting, the structure undergoes aging treatment to eliminate residual stress, followed by high-frequency quenching to harden the surface. This combination guarantees long-term structural integrity, prevents deformation under heavy loads, and lays the groundwork for consistent machining accuracy.
The Z-axis adopts a horizontal stepped guideway layout, paired with 35/45 mm linear guide width (depending on the axis). This design dramatically enhances wear resistance compared to traditional guideways, even during prolonged heavy cutting. The rigid guideway structure also minimizes deflection, ensuring that the machine maintains precision even when processing large or dense workpieces.
Unlike conventional CNC lathes, the XD-V50K is equipped with fully enclosed moving inner guards that provide 70% better protection against chips, coolant, and debris. This barrier prevents contaminants from reaching critical components like ball screws and guideways, which are essential for maintaining precision. By reducing wear on these parts, the guards simplify maintenance requirements and extend the machine’s overall service life.
Key maintenance points—such as the servo turret, hydraulic tailstock, and spindle assembly—are designed for easy access. This reduces downtime during routine checks or repairs, ensuring that the machine stays operational for longer periods and supports continuous production schedules.
The imported high-rigidity horizontal 12-station servo turret is a standout feature of the XD-V50K. It offers fast neighboring-tool changes (reducing non-cutting time) and high positioning accuracy, with minimal deformation even under heavy cutting loads. The turret accommodates 25×25 mm tool shanks and Φ32 mm boring tool holders, supporting a wide range of cutting tools for versatile machining.
The machine’s hydraulic tailstock features an adjustable quill with a 100 mm stroke and Φ85 mm quill diameter, making it suitable for most heavy-duty machining requirements. It provides stable support for long workpieces (up to 480 mm in length between centers), preventing deflection during turning or milling and ensuring consistent precision across the entire workpiece.
The 15 KW spindle motor delivers ample power for heavy-duty cutting tasks, while the A2-6 spindle type and Φ62 mm spindle through-hole diameter (supporting Φ51 mm max bar through diameter) enable processing of large-diameter workpieces and bar stock. The spindle’s 3500 r/min rated speed balances high-speed efficiency with low-speed torque, adapting to materials ranging from aluminum to hardened steel.
The optional automatic chip conveyor features a streamlined monoblock design that saves floor space while ensuring efficient chip evacuation. It operates with low noise, includes overload protection to prevent damage, and integrates seamlessly with the machine’s workflow—reducing manual intervention and keeping the work area clean.
The XD-V50K Turning And Milling Compound Machine With Grinding Head is versatile enough to serve multiple industries, thanks to its heavy-duty cutting capability, high precision, and compatibility with long workpieces. Below are its key application areas:
In automotive production, the XD-V50K excels at machining critical components like drive shafts, gear hubs, and axle parts. Its heavy-duty cutting capacity (powered by the 15 KW spindle) handles high-strength automotive steels, while the ±0.002 mm repeatability accuracy ensures parts meet strict automotive tolerance standards. The 480 mm maximum machining length is ideal for long axle shafts, and the 12-station turret supports quick tool changes for multi-operation processing (e.g., turning, milling, and grinding in one setup).
For industries like construction and mining machinery, the XD-V50K processes large, thick-walled components such as hydraulic cylinder rods, bearing housings, and transmission shafts. The machine’s Φ550 mm max swing diameter accommodates large-diameter workpieces, while the monoblock cast bed’s rigidity prevents vibration during heavy material removal. The hydraulic tailstock provides stable support for long shafts, ensuring consistent precision even for parts up to 480 mm in length.
In aerospace manufacturing, where precision and material integrity are paramount, the XD-V50K machines high-precision components like turbine discs, engine shafts, and structural brackets. Its high-frequency quenched guideways and servo turret positioning accuracy maintain tight tolerances for aerospace-grade materials (e.g., titanium alloys and stainless steel). The fully enclosed guards prevent contamination, critical for aerospace parts that require strict surface quality standards.
For energy sectors (e.g., wind power and oil & gas), the XD-V50K processes components like wind turbine shaft flanges, oil drill pipe connectors, and generator rotor shafts. The Φ51 mm max bar through diameter supports bar stock processing for small to medium parts, while the optional automatic chip conveyor handles the high volume of chips generated from machining thick-walled energy components. The machine’s durability (backed by the 70% more protective guards) ensures reliable operation in high-production energy manufacturing facilities.
The XD-V50K is optimized for heavy-duty cutting through three key features:
A 15 KW high-power spindle motor that delivers sufficient torque for removing large volumes of material from hard metals (e.g., carbon steel, alloy steel).
A monoblock cast bed and base (resin sand casting + aging treatment + high-frequency quenching) that eliminates vibration and deformation during heavy loads.
Horizontal stepped guideways (35/45 mm width) with enhanced wear resistance, ensuring stable movement of the X and Z axes even under high cutting forces. These features work together to maintain precision while handling demanding heavy-cutting scenarios.
The XD-V50K offers ±0.002 mm repeatability accuracy, a critical specification for high-precision manufacturing. This precision is maintained through:
High-rigidity servo turret: Ensures accurate tool positioning and minimal deflection during cutting.
Quenched and ground guideways: Reduces friction and wear, preserving positioning accuracy over long-term use.
Fully enclosed moving guards: Prevents chips, coolant, and debris from damaging ball screws and guideways—components that directly impact precision.
Regular maintenance (e.g., lubricating guideways and checking turret alignment) further sustains this precision.
Yes, the XD-V50K is designed for long workpiece machining. It supports workpieces with a minimum machining length of 150 mm and a maximum machining length of 480 mm between centers. The machine’s hydraulic tailstock (with a 100 mm quill stroke and 85 mm quill diameter) provides stable support for long shafts, preventing deflection during turning or milling. This makes it ideal for parts like automotive axles, heavy machinery shafts, and wind turbine components.
Yes, the XD-V50K can integrate with automation systems like gantry-type robotic loaders. Its structural design includes mounting points for automation hardware, and the machine’s control system (compatible with industry-standard CNC protocols) enables seamless communication with robots. This integration is particularly useful for high-volume production, as it reduces manual workpiece loading/unloading time and improves process consistency. Additionally, the optional automatic chip conveyor complements automation by eliminating manual chip handling.
Routine maintenance for the XD-V50K includes:
Lubrication: Regularly lubricate X/Z-axis guideways and ball screws to reduce wear (follow the manufacturer’s schedule for oil type and frequency).
Guard Inspection: Check the fully enclosed moving guards for damage or gaps, ensuring they maintain 70% protection against contaminants.
Turret Alignment: Periodically verify the 12-station servo turret’s positioning accuracy to prevent tool misalignment.
Hydraulic System Check: Inspect the hydraulic tailstock’s fluid level and pressure to ensure stable support for workpieces.
Chip Conveyor Maintenance (if optional): Clean the conveyor and check for overload protection functionality to avoid jams.
Following these tasks extends the machine’s service life and preserves its precision.