Automatic Swing Angle Double-Sided CNC Boring And Milling Machine: High-Precision Solution for Complex Part Machining

Core Advantages: Redefining Complex Part Machining Efficiency & Precision

1. Double-Sided Simultaneous Machining: Efficiency Doubled
   
   
   Unlike traditional single-sided CNC machines, it can perform boring, milling, and turning on both sides of the workpiece at the same time. For example, when processing an automotive transmission housing, it can mill the front and rear end faces, bore the input/output shaft holes on both sides, and drill positioning holes simultaneously—cutting total processing time by over 50% compared to sequential single-sided operations. This is critical for mass production of automotive or energy equipment parts.
2. Flexible Swing Angle Adjustment: Adapt to Complex Geometries
   
   
   With multi-angle swing adjustment capabilities, it can handle workpieces with irregular or inclined structures (e.g., aerospace engine casings with angled mounting lugs, wind turbine gearbox inclined oil passages). The angle adjustment function eliminates the need for custom fixtures or repeated clamping to adjust workpiece orientation, reducing setup time by 60% and avoiding precision errors caused by repositioning.
3. Full Automation: Unmanned Production Ready
   
   
   Equipped with an automatic tool changer, real-time measurement system, and intelligent CNC programming, it supports unmanned or semi-unmanned operation. For batch processing of heavy machinery components, the machine can automatically switch tools (e.g., from a boring tool to a milling cutter), measure workpiece dimensions in real time to compensate for errors, and adjust cutting parameters dynamically. This reduces manual intervention by over 70%, lowering labor costs and ensuring consistent batch quality.
4. High Precision Guarantee: Meet Industry Strict Standards
   • Adopts advanced CNC systems (optional Nanjing Huaxing or Guangzhou CNC) and precision guide rails, with key precision indicators including coaxiality ≤0.1mm (for YC III C300HT/400HT), parallelism ≤0.1mm, and verticality ≤0.1mm. These ensure that critical features of parts—such as the coaxiality of wind turbine gearbox shaft holes or the flatness of aerospace structural component mating faces—meet strict assembly requirements.
   • The surface roughness of machined parts reaches 6.3, eliminating the need for secondary polishing and reducing post-processing workload, which is especially important for parts requiring airtight or frictionless mating (e.g., hydraulic turbine housings).

Key Application Scenarios: Focus on High-Demand Complex Part Industries

1. Energy Equipment Industry: Wind & Hydroelectric Components
   
   
   Processes wind turbine gearboxes (machines double-sided shaft holes and inclined oil passages via swing angle adjustment) and hydroelectric turbine housings (performs double-sided end face milling and large-diameter boring simultaneously). The machine’s high rigidity (supported by stable spindle transmission) and large processing range (max turning diameter up to φ1025mm for YC III C800HT) handle thick-walled, high-strength energy parts without vibration, ensuring long-term stable operation of energy equipment.
2. Aerospace Industry: Engine & Structural Parts
   
   
   Handles aerospace engine casings (machines multi-angle mounting holes and inner cavity surfaces via swing angle function) and fuselage structural components (ensures double-sided flatness and hole position accuracy for seamless assembly). The machine’s high precision (repeat positioning accuracy and coaxiality control) meets aerospace-grade standards, avoiding safety risks from part dimensional deviations.
3. Automotive Manufacturing: Transmissions & Rear Axles
   
   
   Processes automotive transmissions (simultaneously bores double-sided shaft holes and mills positioning grooves) and rear axle housings (performs double-sided end face milling and drilling of mounting holes). The double-sided machining efficiency supports mass automotive production, while the machine’s stability ensures consistent part dimensions—critical for the interchangeability of automotive components.
4. Heavy Machinery Industry: Construction & Mining Parts
   
   
   Machines key components of construction machinery (e.g., excavator main pump housings) and mining equipment (e.g., crusher gearbox casings). These parts often have thick walls and complex internal structures; the machine’s multi-function integration (boring + milling + turning) and swing angle adjustment complete all processes in one clamping, reducing handling damage to heavy parts and improving production safety.

Detailed Technical Parameters: Four Models for Diverse Complex Parts

Practical Support: Payment & Packing for Smooth Cooperation

• Payment Terms: 30% advance payment via TT, 70% balance paid after pre-shipment inspection. This balances the buyer’s risk and the supplier’s capital flow, ensuring transparency and trust.
• Packing: The machine is shipped in a full container as standard, with customized anti-collision padding and moisture-proof treatment inside the container. This protects the machine from damage during long-distance sea or land transportation, ensuring it arrives in perfect condition for on-site installation.

Customization for Specific Industry Needs

• CNC System Upgrade: Match high-end international CNC systems (e.g., Fanuc, Siemens) for aerospace or ultra-precision energy parts.
• Tool Changer Expansion: Increase tool magazine capacity (e.g., from 12 to 24 tool positions) for parts requiring more tool types (e.g., multi-angle boring, special-shaped milling).
• Cooling System Optimization: Add a high-pressure cooling system for processing heat-sensitive materials (e.g., titanium alloy aerospace parts) to prevent thermal deformation.