Create Custom Robotic Grippers

April 2, 2020

The web-based GripShape application allows users to design and purchase custom robot gripper fingers, available online at www.gripshape.com. GripShape offers design services, a design configurator, and manufacturing services for tooling robot grippers. The interface is easy to use and requires no CAD experience to customize a one-of-a-kind design in minutes.

 

The GripShape configurator is an intuitive application that is changing how custom robot gripper fingers are designed and purchased. The GripShape configurator offers an automated process for users to design their own gripper fingers in about ten minutes. The design is made and assembled by Fairlane using additive manufacturing and CNC machining. As an alternative, the user can choose to purchase the CAD download to machine or 3D print at their facility or with another vendor.

 

With GripShape, users start by choosing a representative workpiece and adjusting its size. Next, they adjust the finger length, grip width, grasp type and more. As the design is fine-tuned, users can refresh the model to see the changes instantly.  If the gripper fingers require revisions or other design optimization, users may request a quote in the purchasing section of the configurator and complete the form. Once complete, users can download parasolid CAD files to review the designs in their own CAD projects. As an option, Fairlane will review the design, provide basic feedback and quote the requested revisions.

 

For many applications, designing functional robot gripper fingers can be complex and sensitive. GripShape Solutions is for applications and customers who require full-service gripper design. An engineer will work with you to understand the specifics of your application and help design a gripper for your project. This option includes a parasolid CAD model, prototype finger set and/or a production-ready finger set. Examples of design revisions range from incorporating a user's workpiece, to adding basic features for part centering.