Komatsu Servo Presses H1F200 & H1F110
Superior Precision and Versatility
- Micron-Level Die Height Positioning: Engineered to achieve repeatable and highly precise die height adjustments at the micron level.
- Versatile Die Handling: Well-suited for a variety of die operations including progressive, transfer, and manual processes.
- Integration of A.C Servo Technology: Cutting-edge A.C servo technology is seamlessly integrated into our mechanical stamping press designs to enhance performance.
- Customizable Slide Movement: Offers full control over slide velocity and direction, enabling fine-tuning of slide motions for any specific task.
- Consistent Working Energy: The design maintains consistent working energy throughout the press stroke, unaffected by slide speed variations.
- Programmable Dwell Capability: Allows for programmed dwell at precise positions, synchronizing secondary operations within the press cycle for higher part quality and extended die longevity.
- Multi-Path Motion Programming: Features the ability to set multiple motion paths with return options to either top dead center or a designated cycle start position (pendulum mode) for flexible operation.
- Self-Regulating Slide Position: Automatically adjusts slide positioning to ensure consistent die height and load management for uniform quality.
- Maintenance Reduction: Eliminates mechanical components such as clutch-brake units and rotary union air connections, streamlining maintenance.
- Efficiency and Cost Savings: Reduces die tryout duration and costs, and lowers energy expenditures by optimizing electrical power usage.
Komatsu Servo Presses H1F80, H1F60, & H1F45
Enhanced Flexibility and Precision
- Optimized for Various Die Operations: Perfectly suited for progressive, transfer, or manual die processes.
- Advanced A.C. Servo Technology Integration: Features the latest A.C. servo technology within its mechanical stamping press design for enhanced functionality.
- Slide Velocity Management: Enables precise slide velocity control during stamping, allowing for the fine-tuning of slide movements tailored to specific requirements.
- Steady Working Energy: Guarantees a uniform energy output throughout each stroke, independent of slide speed variations.
- Positional Dwelling for Secondary Operations: Offers the capability to pause at specific positions, facilitating the timing of additional tasks within a press cycle.
- Enhancement in Part Quality: Leads to notable improvements in the quality of manufactured parts.
- Extension of Die Durability: Promotes longer die lifespan through optimized operation settings.
- Flexible Motion Path Programming: Allows for the programming of varied motion paths with a seamless return to the top dead center position.
- Consistent Die Height Management: Ensures automatic slide adjustments to maintain uniform die height, enhancing production consistency.
- Reduced Mechanical Component Wear: Achieves a reduction in wear-and-tear of high-maintenance parts like the clutch-brake unit, minimizing downtime.
- Decreased Lubrication Necessity: Lowers the dependency on die and part lubrication, contributing to cleaner operations.
- Streamlined Die Testing: Cuts down on both the time and costs associated with die tryouts, improving efficiency.
- Energy Cost Savings: Offers significant reductions in electricity usage, leading to lower operational costs.