Journal of Jilin University(Engineering and Technology Edition) ›› 2019, Vol. 49 ›› Issue (3): 881-887.doi: 10.13229/j.cnki.jdxbgxb20171291

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Influence of inertial mass on rack and pinion actuator′s damping characteristic

Xing⁃ye WANG(),Jin⁃qiu ZHANG,Guo⁃qiang LI,Zhi⁃zhao PENG   

  1. Department of Vehicle Engineering, Academy of Army Armored Force, Beijing 100072, China
  • Received:2017-12-29 Online:2019-05-01 Published:2019-07-12

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Abstract:

An actuator based on the structure of servo motor and rack and pinion is designed. The two components of actuator damping force are analyzed theoretically, which are mechanical friction damping force and inertia force, and their calculation methods are given respectively. Compared with the traditional passive damping force, the influence of the inertial mass on the damping characteristics of the actuator is analyzed through typical sinusoidal excitation, and further verified by bench test. The test results show that the calculation method of damping force is reasonable, can match the actual damping force of the actuator well. However, it is also found that the inertial mass of the actuator results in the rise of the maximum damping force and the nonlinear characteristic which goes against its active control. Moreover, the idle stroke of the structure leads to obvious fluctuation of the damping force in the process of high frequency reversing. So, in the process of actuator structure design, it should be considered to reduce the inertial mass and idle stroke by optimal design.

Key words: mechanical design, rack and pinion actuator, bench test, inertial mass, damping characteristic, mechanical friction force

CLC Number: 

  • TH703

Fig.1

Structure of rack and pinion actuator"

Table 1

Main parameters of motor"

参 数符号数值
额定输出功率/WPme1000
额定扭矩/(N·m)Tme3.18
额定转速/(r·min?1nme3000
转动惯量/(kg·m?2Jm1.36×10?4

Table 2

Main parameters of planetary reducer"

参 数符号数值
额定输出扭矩/(N·m)Tre130
额定输入转速/(r·min?1nre3000
转动惯量/(kg·m?2Jr0.5×10?4
减速比i16

Fig.2

Indicator diagram of actuator"

Fig.3

Velocity characteristic curve of actuator"

Fig.4

Character test bench"

Fig.5

Indicator diagram of actuator under excitation of constant velocity"

Fig.6

Velocity characteristics of mechanicalfriction damp"

Fig.7

Indicator diagram of actuator under sinusoidal excitation of fixed frequency"

Fig.8

Velocity characteristics curves of actuator under sinusoidal excitation of fixed frequency"

Fig.9

Indicator diagram of actuator under sinusoidal excitation of fixed amplitude"

Fig.10

Velocity characteristics curves of actuator under sinusoidal excitation of fixed amplitude"

Fig.11

Comparison of calculate value and realisticvalue of actuator’s velocity characteristic"

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