The punch press machine was developed to address the increasing need for precision and efficiency in metalworking and manufacturing industries. As production demands grew, traditional manual methods of shaping metal became insufficient to meet the volume, accuracy, and consistency required in modern manufacturing. The punch press machine emerged as a solution to these challenges.

The primary purpose behind the development of the punch press was to automate the process of punching, cutting, and shaping metal sheets. Before this innovation, these tasks were performed by hand, which was time-consuming and prone to human error. With the introduction of punch press machines, manufacturers could achieve higher production speeds and more accurate results. The machine uses a combination of mechanical or hydraulic power to drive a punch through a metal sheet, creating precise holes or shapes with minimal effort.

As industries such as automotive, aerospace, and electronics evolved, the demand for complex, high-precision parts increased. The punch press machine’s ability to perform repetitive tasks quickly, with consistent results, made it ideal for these industries. Additionally, punch press machines could handle a variety of materials, from thin metal sheets to thicker, more robust materials, making them highly versatile.

The development of CNC (Computer Numerical Control) punch press machines further enhanced their capabilities, allowing for even greater precision and flexibility. With CNC technology, punch press machines could follow digital designs, automating complex patterns and reducing the need for manual adjustments.

https://www.zjdfjx.cn/product/stamping-press-machinery/dh1110t-single-curved-shaft-semi-closed-high-precision-strong-steel-frame-punching-machine.html
Performance characteristics

  • High rigidity frame design, using high quality steel plate welding after eliminating internal stress processing, improve the stability and reliability of the accuracy of the whole machine.
  • The machine adopts high alloy steel, single crankshaft, a working center, crank and connecting rod support structure, and optimizes the design.
  • In order to ensure the relative stability of machine operation the design method of symmetrical two balancer devices is adopted.
  • The automatic mould adjusting system has the precision height of 0.1mm, which is safe, convenient and reliable.
  • Crankshaft, gear set, connecting rod and other components, after hard oxidation and grinding process, have a very high comprehensive performance and wear resistance.
  • Use highly sensitive and reliable; clutch, brake device and international top double solenoid valve, overload protection device to ensure press Precision and safety of slider running and stopping.