High-Precision Servo Electric Press Brake | Advanced Metal Forming Solution

Contact me immediately if you encounter problems!

All Categories

servo electric press brake

The servo electric press brake represents a significant advancement in metal forming technology, combining precision engineering with digital control systems. This innovative machine utilizes high-performance servo motors to drive the bending process, offering unprecedented accuracy and repeatability in metal forming operations. The machine's sophisticated control system enables operators to program complex bending sequences with multiple axes of motion, ensuring consistent results across large production runs. Unlike traditional hydraulic systems, servo electric press brakes operate with direct drive technology, eliminating the need for hydraulic fluid and reducing maintenance requirements. The machine's advanced features include real-time force monitoring, automatic angle correction, and integrated safety systems that protect both operators and materials. With capabilities ranging from micro-bending to heavy-duty applications, these machines can handle diverse materials including steel, aluminum, and specialty alloys. The servo electric system provides precise control over both position and force throughout the bending cycle, enabling complex forms and maintaining tight tolerances. Modern servo electric press brakes often incorporate advanced features such as 3D visualization software, tool recognition systems, and network connectivity for Industry 4.0 integration.

Popular Products

The servo electric press brake offers numerous compelling advantages that set it apart from conventional hydraulic systems. First and foremost, its energy efficiency is remarkable, consuming power only during actual bending operations and reducing energy costs by up to 50% compared to hydraulic alternatives. The elimination of hydraulic oil not only makes these machines more environmentally friendly but also significantly reduces maintenance costs and downtime associated with fluid replacement and system cleaning. The precise control offered by servo motors ensures exceptional accuracy and repeatability, with typical accuracy levels of ±0.0004 inches, enabling consistent high-quality production. The machine's rapid acceleration and deceleration capabilities lead to faster cycle times and increased productivity, while the absence of hydraulic warm-up periods allows for immediate operation. Noise levels are substantially lower than hydraulic systems, creating a more comfortable working environment. The digital control system enables easy programming and storage of complex bending sequences, reducing setup time and operator training requirements. These machines also offer superior position control, allowing for precise depth adjustment and consistent bend angles across multiple parts. The compact design of servo electric systems requires less floor space, and their cleaner operation makes them suitable for clean room environments. Additionally, the reduced maintenance requirements and longer service intervals contribute to lower total cost of ownership over the machine's lifetime.

Tips And Tricks

Mechanical Compensation

08

Jan

Mechanical Compensation

View More
Beijing Machine Tool Exhibition

12

Mar

Beijing Machine Tool Exhibition

View More
SPS Exhibition at FEIMEC 2024

12

Mar

SPS Exhibition at FEIMEC 2024

View More
CybTouch 12 PS

12

Mar

CybTouch 12 PS

View More

Get a Free Quote

Our representative will contact you soon.
Email
Name
Company Name
Message
0/1000

servo electric press brake

Advanced Servo Motor Technology

Advanced Servo Motor Technology

The heart of the servo electric press brake lies in its cutting-edge servo motor technology, which represents a fundamental shift from traditional hydraulic systems. These high-precision motors provide direct drive control with unprecedented accuracy and responsiveness. Each axis is independently controlled by dedicated servo motors, allowing for complex synchronized movements that ensure perfect bend angles and consistent results. The system's ability to maintain precise position and force control throughout the entire bending cycle enables operators to achieve complex forms with minimal variation. The servo motors also feature advanced feedback systems that continuously monitor and adjust performance in real-time, compensating for material variations and environmental factors. This level of control enables the machine to maintain accuracy within microns, making it ideal for precision manufacturing applications.
Intelligent Control System Integration

Intelligent Control System Integration

The sophisticated control system of the servo electric press brake integrates multiple advanced features that enhance both productivity and precision. The system includes an intuitive touchscreen interface that provides real-time visualization of bending operations and allows for easy program creation and modification. Advanced algorithms continuously calculate optimal bending parameters based on material properties and desired outcomes, while the integrated tool management system ensures proper tool selection and setup. The control system also incorporates automatic angle measurement and correction capabilities, eliminating the need for manual adjustments and reducing scrap rates. Network connectivity enables seamless integration with production management systems and supports remote diagnostics and maintenance planning.
Energy Efficient and Environmentally Sustainable Design

Energy Efficient and Environmentally Sustainable Design

The servo electric press brake's design prioritizes energy efficiency and environmental sustainability without compromising performance. The direct drive system eliminates energy losses associated with hydraulic systems, resulting in power consumption reductions of up to 50%. The absence of hydraulic oil eliminates the environmental risks associated with fluid disposal and potential leaks, while also reducing the machine's carbon footprint. The system's energy recovery capability during deceleration further enhances efficiency by capturing and reusing energy that would otherwise be lost as heat. The clean, oil-free operation reduces maintenance requirements and eliminates the need for regular fluid changes, leading to significant cost savings over the machine's lifetime. This environmentally conscious design aligns with modern manufacturing sustainability goals while delivering superior performance and reliability.