Skip to main content

Robot Tool Changers| Medium Payload |Epsilon E100

Epsilon exceptional lifting force for a small footprint

The Epsilon Tool Changer line provides a strong and reliable method for a manipulator (i.e., a robot) to quickly change between different tools/end-effectors. With Applied Robotics, Inc.’s modular design, the Epsilon offers the maximum flexibility for any application.


The line was designed to be a comprehensive family of tool changers that cover the entire range of the current CXC, MXC and Sigma tool changers we already make (ranging from 10kg. to 1,500kg.)

This is a Tool Changer Evolution. Our cam design has stood the test of time and even with extensive research; we couldn’t do anything better. In fact, we are so confident in our locking mechanism that we offer a lifetime guarantee on it. We also made sure to incorporate new market requirements and customer feedback to design these tool changers; that’s why we extended the availability of couple/uncouple sensing and came up with a direct bolt design to limit the need of adaptor plates.

Advantages

  • High Strength Aluminum Alloy Body
  • Cam Locking Mechanism with :
  • Lifetime Guarantee
    • Self-Centering
    • Wear Compensating
    • Self-Cleaning
    • Positive Cam Retraction
  • Optional Couple/Uncouple Sensing
  • Optional Tool Present Sensing
  • 8x G1/8 User Pneumatic Ports

Benefits

  • Maximul robot payload still available
  • Reduced maintenance cost
  • Minimized total cost of ownership
  • Easier installation, less accessories costs

Master AdaptorTool Adaptor
ReferenceER100ET100
Payload120 kg
Moment - Mx, My548 Nm
Moment - Mz960 Nm
Maximum Axial Tensile Force (no damage if exceeded)13.345N @ 0 bar couple port input pressure
Size152x152x71.5 mm152x152x71.5 mm
Weight2.680 kg2.680 kg
Couple/uncouple portG1/8n/a
Repeatability - X, Y0.020 mm
Repeatability - Z0.020 mm

Operating conditions

Operating temperature5-60°C
Operating pressure6 bar ±1
User pneumatic pressure6 bar ±1

Notice :The provided technical data are the higher limits recommended in static condition. To obtain the correct dimensioning of the product, it is necessary to hold account of all the applicable dynamic forces, including the inertia of the manipulator, the configuration of the tools and the external forces applied.

The Tool Changers are designed and manufactured by Applied Robotics, Inc.
Product Engineering Services is the Distributor of Applied Robotics for the territory of Belgium and France