ABV Engineers | Amada Press

Press Machines

From High Accuracy to Ultrahigh Accuracy

  • In 1965, Amada developed the TP series of stamping presses with the basic aim of reliable safety. The TP presses immediately became mainstream stamping machnes. A wet clutch-brake combination was adopted for the first time in th transmission mechanism and proved its effectivesness in the stable operation of the transmission.
  • Based on the highly trusted TP series, Amada’s subsequent stamping presses evolved in a variety of series as total systems of hardware, software, peripheralequipment, and service to meet varied needs of customers.
  • Die setup reduction, material yeild improvement, process rationalization by automation an dline configuration, production management efficiency enhancement. In these ways, Amada’s stamping machines have improved productivity and reducted total cost.
  • Low-noise link motion presses. Digital electric servo presses with substantially improved stamping capabilities. The Amada stamping presses continue to advance from “high accuracy to ultrahigh accuracy”.

Servo Press Machine

Digital AC servo press machines are latest machine environmentally conscious products due to reduction of power consumption, lubricating oil consumption and stamping noise. Fusion of servo motor and proven crank mechanism achieves unprecedented improved productivity and high-valued added forming.

Crank Press Machine

These are always traditional CRANK PRESS with industry leading technology. High-rigidity frame, 6-sided guide with an eccentric load-resistant structure, and a unique crank mechanism to drive the slide for high precision, high production, and space saving are realized to meet a wide range of needs.

Link Press Machine

Our original link mechanism achieves reduction of the blanking impact with slow working around the bottom and accomplishes press working higher quality without reducing the productivity due to fast approach, fast return.

Knuckle Press Machine

These are link presses with Knuckle mechanism. Optimized the frame bed structure with the high-rigidity structure of the column, slide, and crown.