[1]吴恢悦,付 庄,冯 新,等.非接触式功率传输滑环热力学仿真与分析[J].机械与电子,2022,(08):38-43.
 WU Huiyue,FU Zhuang,FENG Xin,et al.Thermodynamic Simulation and Analysis of Non-contact Power Transmission Slip Ring[J].Machinery & Electronics,2022,(08):38-43.
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非接触式功率传输滑环热力学仿真与分析()
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《机械与电子》[ISSN:1001-2257/CN:52-1052/TH]

卷:
期数:
2022年08期
页码:
38-43
栏目:
设计与研究
出版日期:
2022-08-24

文章信息/Info

Title:
Thermodynamic Simulation and Analysis of Non-contact Power Transmission Slip Ring
文章编号:
1001-2257 ( 2022 ) 08-0038-06
作者:
吴恢悦 1 付 庄 1 冯 新 1 翁艺航 2 熊一帆 2 景 飞 1
1. 上海交通大学机械系统与振动国家重点实验室,上海 200240 ; 2. 上海航天电子技术研究所,上海 201109
Author(s):
WU Huiyue1 FU Zhuang1 FENG Xin1 WENG Yihang2 XIONG Yifan2 JING Fei1
( 1.State Key Laboratory of Mechanical System and Vibration , Shanghai Jiao Tong University , Shanghai 200240 , China ; 2.Shanghai Aerospace Electronic Technology Institute , Shanghai 201109 , China )
关键词:
非接触式功率传输冗余备份滑环热分析磁芯损耗热仿真
Keywords:
non-contact power transmission slip ring with redundant backup thermal analysis core loss thermal simulation
分类号:
TH13
文献标志码:
A
摘要:
为克服接触式滑环寿命短、安全性能低的缺陷,设计了一种具有冗余备份的非接触式功率传输滑环装置,并对整体结构进行热分析。首先,对非接触式滑环建立热学理论模型,并对各部件温升和热阻及热源进行分析;其次,对磁芯损耗进行理论计算,并通过电磁场仿真进行验证,计算线圈损耗和轴承摩擦损耗等其他热源;最后,根据热源以及换热条件等参数进行热学仿真,获得非接触式滑环的稳态温度分布和热流分布。仿真表明,该装置温度在相应材料耐受范围内。
Abstract:
In order to overcome the defects of short service life and low safety performance of contact slip ring , a non-contact power transmission slip ring device with redundant backup is designed in this paper , and the thermal analysis of the whole structure is carried out.Firstly , the thermal theoretical model of non-contact slip ring was established , and the temperature rise , thermal resistance and heat source of each component were analyzed.Secondly , the magnetic core loss is theoretically calculated and verified by electronic field simulation , and other heat sources such as coil loss and bearing friction loss are calculated.Finally , according to heat source and heat transfer conditions , the thermal simulation was carried out to obtain the steady temperature distribution and heat flow distribution of the non-contact slip ring.Simulation results show that the temperature of the device is within the tolerance range of the corresponding material.

参考文献/References:

[ 1 ] 冯新,付庄,王科 瑾,等 . 基于 SSP 补偿和变频控制的滑环设计[ J ] . 上海交通大学学报,2021 , 55 ( 7 ):814-825.

[ 2 ] KIM T H , RYU J H , JEONG K , et al.Development of mobile intraoperative computed tomography imaging system and assessment of its performance in a brain and body phantom study [ J ] .Journal of X-ray science and technology , 2019 , 27 ( 5 ): 907-918.
[ 3 ] ABDOLKHANI A , HU A P.A novel detached magnetic coupling structure for contactless power transfer[ C ]// IECON 2011 37th Annual Conference on IEEE Industrial Electronics Society.New York : IEEE , 2011 : 1103-1108.
[ 4 ] AVINO F , MARTENS P , HOWLING A A , et al.Gas breakdown mitigation in satellite slip rings [ J ] .Aero- spacescience and technology , 2019 , 85 : 229-233.
[ 5 ] ZHU X M , LIU L P , QI H J.Performances of an contactless energy transfer system for rotary ultrasonic machining applications [ J ] .IEEE Access , 2020 , 8 : 51981-51990.
[ 6 ] HE G M , CHEN Q H , REN X Y , et al.LL-delta structure for CS featuring high PTC [ J ] .IET Power electronics , 2019 , 12 ( 10 ): 2543-2550.
[ 7 ] 孙远航,王永松,孙习武,等 . 航天用导电滑环失效建模与工艺优化研究 [ J ] . 机械工程学报,2020 , 56 ( 16 ):1-12.
[ 8 ] 王志攀 . 旋转关节中非接触式功率和信号传输模块的设计与评估[ D ] . 上海:东华大学,2015.
[ 9 ] 赵文,祝崇辉,陈松松,等 . 高机动雷达密闭式机箱的热设计[ J ] . 机械与电子, 2019 , 37 ( 9 ): 12-15.
[ 10 ] 周则儒,陈斌,李应光,等 . 基于热电类比原理的变压器负载能力评估模 型[ J ] . 广东电力,2021 , 34 ( 4 ):101-107.
[ 11 ] 沈雨苏,陈蔚芳,罗勇,等 . 电主轴温度场与热变形的仿真与实验研究[ J ] . 机械与电子, 2018 , 36 ( 12 ): 18-22 , 28.

备注/Memo

备注/Memo:
收稿日期: 2021-12-06
基金项目:国家自然科学基金面上项目( 61973210 );上海航天先进技术联合研究基金( USCAST2020-7 )
作者简介:吴恢悦 ( 1997- ),男,广东汕头人,硕士研究生,研究方向为机器人控制系统、旋转关节的非接触式功率传输、信号传输;付 庄 ( 1972- ),男,山东招远人,教授,研究方向为特种机器人与控制系统,通信作者。
更新日期/Last Update: 2022-09-02