Robotic Tool Changers for a wide range of applications

IPR Robotics offers a wide range of tool changer sizes for use with industrial robots and linear gantries. These tool changers provide safe, fast, reliable and repeatable tool changes for tools weighing up to 2200 lbs.

IPR Robotics offers a wide range of tool changer sizes for use with industrial robots and linear gantries. These tool changers provide safe, fast, reliable and repeatable tool changes for tools weighing up to 2200 lbs. A variety of pneumatic and hydraulic line configurations are available to meet the tool requirements of each application. There are also IP-65 sealed electrical connection options including SUB-D and Military style connectors. All of these can be quickly coupled and uncoupled with tight repeatability and high reliability over long durations and high duty cycles. Stainless steel versions are available for food, pharmaceutical and medical applications.


Contact techsales@iprrobotics.com with your requirements.

IPR delivers the hands and feet of robots!

Featured Product

Honeywell Intelligrated - Solve Loading Dock Challenges With Robotic Unloading

Honeywell Intelligrated - Solve Loading Dock Challenges With Robotic Unloading

Challenges on the loading dock are characteristic of greater pressures from the rise of e-commerce. Loading and unloading freight from trailers, trucks and shipping containers are arduous, repetitive tasks plagued by high turnover. Even with regularly available staff, manually unloading freight and the constant lifting and twisting results in fatigue and inconsistent, declining productivity. Robotics capable of fully automating unloading tasks bring a new paradigm to the dock. High performance and flexibility push unloading from a labor-heavy, manual chore to an automated, refined process. High-performing DC workers can take more desirable positions, with relief from unpleasant work conditions. Management gets to replace uncertainty and staffing challenges with a reliable, automated process, with data to fuel continuous improvement.