A piezoelectric tracked vehicle with potential application to planetary exploration 被引量：3

A piezoelectric tracked vehicle with potential application to planetary exploration

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摘要 A piezoelectric driving method for rover vehicles is proposed in this paper. Employing this method, a tracked vehicle driven by friction forces from a frame mounted with piezoelectric elements was developed. The vehicle is designed with no driver sprocket, no idler-wheel and no supporting bogie wheels, and the vehicle thus requires no lubrication and has potential application in planetary exploration. The frame consists of a pair of piezoelectric transducers. Each transducer comprises four annular parts jointed by beams adhered with piezoelectric ceramics. The tracks are set to the outer surface of the annular parts by means of track tension. Traveling rotating waves are generated by piezoelectric transducers in the annular parts, which generate microscopic elliptical motions at the interface of the tracks. The microscopic elliptical motions from the piezoelectric transducers drive the track vehicle to move. Finite elements analysis was carried out to verify the operation principle using commercial software ANSYS. Piezoelectric transducers were fabricated, assembled and tested to validate the concepts of the proposed rover vehicle and confirm the simulation results. A prototype vehicle with mass of 0.57 kg moves at a speed of 4.3 mm/s at a driving voltage of 250 V and operating frequency of 65.53 kHz. A piezoelectric driving method for rover vehicles is proposed in this paper. Employing this method, a tracked vehicle driven by friction forces from a frame mounted with piezoelectric elements was developed. The vehicle is designed with no driver sprocket, no idler-wheel and no supporting bogie wheels, and the vehicle thus requires no lubrication and has potential application in plan- etary exploration. The frame consists of a pair of piezoelectric transducers. Each transducer comprises four annular parts jointed by beams adhered with piezoelectric ceramics. The tracks are set to the outer surface of the annular parts by means of track ten- sion. Traveling rotating waves are generated by piezoelectric transducers in the annular parts, which generate microscopic ellipti- cal motions at the interface of the tracks. The microscopic elliptical motions from the piezoelectric transducers drive the track vehicle to move. Finite elements analysis was carried out to verify the operation principle using commercial software ANSYS. Piezoelectric transducers were fabricated, assembled and tested to validate the concepts of the proposed rover vehicle and confirm the simulation results. A prototype vehicle with mass of 0.57 kg moves at a speed of 4.3 mm/s at a driving voltage of 250 V and operating frequency of 65.53 kHz.

作者 JIN JiaMei QIAN Fu YANG Ying ZHANG JianHui ZHU KongJun

机构地区 State Key Laboratory of Mechanics and Control of Mechanical Structures

出处《Chinese Science Bulletin》 SCIE CAS 2012年第11期1339-1342,共4页

基金 supported by the National Natural Science Foundation of China (5117702, 91023020) NFSC Guangdong Joint Fund (U0934004) Program for New Century Excellent Talents in University (NCET-10-0070)

关键词履带车辆压电元件应用 ANSYS有限元分析压电换能器索具行星驱动链轮 rover vehicle, tracked vehicle, piezoelectric driving, mode, friction force

分类号 U469.694 [机械工程—车辆工程] TN384 [电子电信—物理电子学]

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