Abstract

Acoustic levitation forces can be used to manipulate small objects and liquid without mechanical contact or contamination. To use acoustic levitation for contactless robotic grippers, automated insertion of objects into the acoustic pressure field is necessary. This work presents analytical models based on which concepts for the controlled insertion of objects are developed. Two prototypes of acoustic grippers are implemented and used to experimentally verify the lifting of objects into the acoustic field. Using standing acoustic waves and by dynamically adjusting the acoustic power, the lifting of high-density objects (>7 g/cm3) from acoustically transparent surfaces is demonstrated. Moreover, a combination of different acoustic traps is used to lift lower-density objects from acoustically reflective surfaces. The provided results open up new possibilities for the implementation of acoustic levitation in robotic grippers, which have the potential to be used in a variety of industrial applications.

Highlights

  • Trapping of objects by means of acoustic forces is used in various areas such as chemistry [1], bioreactors [2,3], blood analysis [4], study of organisms in microgravity [2,5], control of nano material self-assembly [6], containerless processing [7,8,9], and to study droplet dynamics [10,11]

  • The provided results open up new possibilities for the implementation of acoustic levitation in robotic grippers, which have the potential to be used in a variety of industrial applications

  • The device that generates the acoustic field can be mounted to a robot arm to form a gripper, as shown in Figures 1 and 2 [16]

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Summary

Introduction

Trapping of objects by means of acoustic forces is used in various areas such as chemistry [1], bioreactors [2,3], blood analysis [4], study of organisms in microgravity [2,5], control of nano material self-assembly [6], containerless processing [7,8,9], and to study droplet dynamics [10,11]. Using standing acoustic waves and dynamically adjusting the acoustic power, the lifting of high density objects (> 7 g/cm3) from acoustically transparent surfaces is demonstrated. It is known that standing acoustic waves generated by a single source can be used to levitate objects [13,14].

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