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3D Printed Low-Cost Force-Torque Sensors

Norman Hendrich, Florens Wasserfall, Jianwei Zhang

2020IEEE Access39 citationsDOIOpen Access PDF

Abstract

Force sensing is essential for many manipulation tasks and, more generally, for all robots physically interacting with their environment. While multi-axis force/torque sensors are readily available commercially, their cost and complex integration have so far limited a wide deployment. In this paper, we introduce a modular approach to design and to integrate low-cost force sensors directly into 3D printed robot parts. Based on off-the-shelf optical sensors embedded into deformable structures, sensitivity and load capacity can be selected from a wide range. A working six-axis sensor, including electronics, can be built for less than 20 dollars, plus a few hours of 3D printing. We present tested example designs for sensors of different complexity, from a basic one-dimensional deflecting beam to six-axis sensors with custom shapes. We summarize the basic sensor layout geometries, explain key 3D printing and integration aspects, discuss sensor calibration, and describe our Arduino firmware and ROS-based drivers.

Topics & Concepts

FirmwareTorqueComputer scienceModular designSoftware deploymentArduinoRobot3D printingKey (lock)Computer hardwareElectronicsEmbedded systemElectrical engineeringMechanical engineeringEngineeringArtificial intelligencePhysicsComputer securityOperating systemThermodynamicsAdvanced Sensor and Energy Harvesting MaterialsTactile and Sensory InteractionsRobot Manipulation and Learning
3D Printed Low-Cost Force-Torque Sensors | Litcius