Manufacturer Part# / Cross Reference Search

Please use this search function to find READY die set components that are equivalent to commonly used pins, bushing, ISO Springs, and Gas Springs from other manufacturers.

Please Note: We believe this cross reference to be accurate. Please review the specifications to ensure the item will work in your application. Gas Spring equivalents were based on body dimensions, on contact force and stroke length.
Cylinders with stem controlled movement can stop at the desired working position, with the possibility of deciding when stem withdrawal is to take place by means of an electric signal, in accordance with the application that is being executed.

Each unit has the following elements:
  • Working cylinder
  • Pressure accumulator
  • Adapter plate
  • Hydraulic valve
Unit of Measure

Specifications

Brands

N/A Ready

Application

N/A Work Holding

Force Increase by Temperature

N/A 33 daN/deg C

Maximum Stem Speed

N/A 10 m/min

Maximum Charging Pressure

N/A 150 bar

Minimum Charging Pressure

N/A 50 bar

Fully Closed Force (Fc)

N/A 2190 daN

Maximum Stroke Length

N/A 63 mm

Fully Opened Length (La)

N/A 226 mm

Fully Closed Length (Lc)

N/A 163 mm

Fully Opened Force (Fa)

N/A 1500 daN

Fully Opened Force (Fa) Tolerance (±)

N/A 5 %

Medium Pressure

N/A Nitrogen Gas (N2) Oil

Nitrogen Gas (N2) Nominal Pressure

N/A 150 bar

Rod Seal Area

N/A 10.18 cm²

Maximum Working Temperature

N/A 60 ºC

Additional Information

Additional Information

N/A The adapter plate locates each unit and links it to the other units in the system. The working cylinder, which is full of oil, is connected through the adapter plate to the pressure accumulator. This is subjected in one of its parts to nitrogen gas pressure, thus providing pressure for the whole system. The accumulator has the capacity to absorb the whole of the volume of oil displaced by the working cylinder.

The working cylinder is activated by the movement of the press, displacing the hydraulic volume freely through the adapter plate up to the pressure accumulator. Once the working stroke has been attained, the hydraulic valve, which is controlled by means of an electric signal, stops the return of hydraulic fluid from the accumulator to the working cylinder, at which point the piston movement stops. When the hydraulic valve opens once again, the hydraulic volume returns to the working cylinder, thus bringing about the return of the stem to its stand-by position.

The pressure accumulator is regulated in accordance to pressure device norms, as it is charged with nitrogen gas at a pressure of 150 Bar.