Current Status and Trends in Shock-absorbing and Anti-explosion Technologies for Military Vehicle SeatsResearch on Design Technology of Shock Absorbing and Anti-explosion for Military Vehicle Seats(Series I)
WANG Guosheng1,2, LEI Qiangshun2, CAO Yu2, ZHANG Weijie1, LI Guibing1
(1.School of Mechanical Engineering,Hunan University of Science and Technology,Xiangtan 411201,Hunan,China;2.Department of Vehicle Chassis,China North Vehicle Research Institute,Beijing 100072,China)
WANG Guosheng, LEI Qiangshun, CAO Yu, ZHANG Weijie, LI Guibing. Current Status and Trends in Shock-absorbing and Anti-explosion Technologies for Military Vehicle SeatsResearch on Design Technology of Shock Absorbing and Anti-explosion for Military Vehicle Seats(Series I)[J]. Acta Armamentarii, 2022, 43(7): 1718-1732.
[1] 郭青山,王元辉.人机工程设计[M].第1版.天津:天津大学出版社,1994. GUO Q S,WANG Y H. Ergonomics design[M].1st ed. Tianjin: Tianjin University Press,1994. (in Chinese) [2] RAMASAMY A,HILL A M,HEPPER A E.Blast mines:physics,injury mechanisms and vehicle protection[J].Journal of the Royal Army Medical Corps,2009,155(4):258-264. [3] 谢成林,刘维平,杜蕾.基于静态舒适性分析的装甲车辆驾驶舱人机匹配研究[J].装甲兵工程学院学报,2008,22(6):69-72. XIE C L,LIU W P,DU L.Research on man-machine matching of tank driving cab in based on static comfort analysis[J].Journal of Academy of Armored Force Engineering,2008,22(6):69-72.(in Chinese) [4] 马强,王洪飞.710名坦克乘员职业性肌肉骨骼疾患调查[J].解放军预防医学杂志,2001,19(3):198-199. MA Q,WANG H F.Investigation of occupational musculoskeletal diseases in 710 tank occupants[J].Journal of Preventive Medicine of Chinese People's Liberation Army,2001,19(3):198-199. (in Chinese) [5] 路闯,叶应荣,袁宏伟,等.坦克乘员552名腰痛状况分析[J].临床军医杂志,2002,30(1):34-35. LU C,YE Y R,YUAN H W,et al. Analysis of low back pain in 552 tank crew[J].Clinical Journal of Medical Officer,2002,30(1): 34-35. (in Chinese) [6] 汪国胜,凌亮,凌云.装甲车辆人机界面直向设计方法探讨[J].车辆与动力技术,2005(1):26-31. WANG G S,LING L,LING Y.The discuss of the direct MMI design method in armored vehicles[J].Vehicle and Power Technology,2005(1):26-31. (in Chinese) [7] 房凌晖,郑翔玉,马丽,等.坦克装甲车辆防护发展研究[J].四川兵工学报,2014,35(2):23-26. FANG L H,ZHENG X Y,MA L,et al. Armor protection development of tank and armored vehicle[J].Journal of Sichuan Ordnance,2014,35(2):23-26. (in Chinese) [8] 吴铭权.坦克振动对人体的影响及其防护[J].人民军医,2002,45(3):135-136. WU M Q.Influence of tank vibration on human body and its protection[J].People's Military Surgeon,2002,45(3):135-136. (in Chinses) [9] 张志勇.半主动座椅悬架控制理论与实验研究[D].长沙:湖南大学,2008. ZHANG Z Y.Theoretical and experimental study on semi-active seat suspension control[D].Changsha:Hunan University,2008. (in Chinese) [10] 汪国胜,药凌宇,魏来生,等.某型坦克底盘线振动对行进间射击精度影响机理研究[J].兵工学报,2016,37(3):541-546. WANG G S,YAO L Y,WEI L S, et al. Research on the mechanism of the influence of the linear vibration of a tank chassis on the firing accuracy[J].Acta Armamentarii,2016,37(3): 541-546. (in Chinese) [11] 汪国胜,肖洁,赵韬硕,等.坦克底盘角振动对火炮射击精度影响机理研究[J].火力与指挥控制,2016,41(3):39-42. WANG G S,XIAO J,ZHAO T S,et al. Research on the influence mechanism of tank chassis angular vibration on gun firing accuracy[J].Fire Control & Command Control,2016,41(3):39-42. (in Chinese) [12] 汪国胜,魏来生,曹宇,等.目标角大小对坦克行进间射击精度影响机理[J].南京理工大学学报(自然科学版),2016,40(1): 77-83. WANG G S,WEI L S,CAO Y,et al.Influence mechanism of target angle on firing accuracy of moving tank[J].Journal of Nanjing University of Science & Technology,2016,40(1):77-83. (in Chinese) [13] 吴铭权,陈浩宇,姚治中,等.坦克振动的测试与评价[J].解放军预防医学杂志,2006,24(2):81-84. WU M Q,CHEN H Y,YAO Z Z,et al. Test and evaluation of tank vibration[J].Journal of Preventive Medicine of Chinese People's Liberation Army,2006,24(2):81-84. (in Chinese) [14] 李晓雷,白士红,庞思勤,等.履带装甲车辆对人体振动影响的研究[C]∥第四届全国人的可靠性和人-机-环境系统可靠性专题研讨会论文集.千岛湖:中国系统工程学会,2004:179-182. LI X L,BAI S H,PANG S Q,et al. Research on the impact of tracked armored vehicles on human vibration [C]∥Peoceedings of the Fourth National Symposium on Human Reliability and Human-Machine-environment System Reliability.Qiandao Lake: Chinese Society of Systems Engineering,2004:179-182. (in Chinese) [15] PRADKO F,ORR T R,LEE R A.Human vibration analysis[J].SAE Transactions,1966,74: 331-339. [16] 赵强,陈云微.基于磁流变技术的车辆座椅悬架减振研究[J].森林工程,2010,26(6):21-25. ZHAO Q,CHEN Y W.Study on vibration reduction of vehicle seat suspension based on magnetorheological technology[J].Forest Engineering,2010,26(6):21-25. (in Chinese) [17] 何斌意.装甲车辆座椅防雷性能评估方法初探[J].科学技术创新,2018(28):10-12. HE B Y.Preliminary study on lightning protection performance evaluation method for armored vehicle seats [J].Scientific and Technological Innovation,2018(28): 10-12. (in Chinese) [18] 易方,陈州,李红勋.美军新型轮式防地雷反伏击车辆扫描[J].汽车运用,2009(1):24-26. YI F,CHEN Z,LI H X. Scanning of new wheeled anti- mine and anti-ambush vehicle of US Army[J].Vehicle Application,2009(1): 24-26. (in Chinese) [19] 刘萍,张宏.磁流变弹性体在汽车座椅减振中的应用[J].机械研究与应用,2013,26(5):91-93. LIU P,ZHANG H.Application of a magnetorheological elastomer for seat vibration reduction[J].Mechanical Research & Application,2013,26(5):91-93. (in Chinese) [20] 侯树勋,王德民,金正善,等.四个兵种部队腰腿痛发病情况的调查和分析[J].人民军医,1997,11(22):52-54. HOU S X,WANG D M,JIN Z S,et al. Investigation and analysis of lumbago and leg pain in four military forces[J]. People's Military Surgeon,1997,11(22):52-54. (in Chinese) [21] 吴国梁.振动对人眼视觉功能的影响[J].东南大学学报,1997,27(1):92-95. WU G L. The effects of vibration of visual performance[J]. Journal of Southeast University,1997,27(1):92-95.(in Chinese) [22] 兀光波,徐小青,考希宾,等.装甲车辆舱室振动环境现状及其对乘员作业工效的影响[J].人类工效学,2015,21(1):84-86. WU G B,XU X Q,KAO X B,et al.The present situation of vibration environment in armored vehicle cabin and its influence on crew working efficiency[J].Chinese Journal of Ergonomics,2015,21(1):84-86. (in Chinese) [23] 安学国,王雄高.防雷装甲车的发展演变历程[J].国外坦克,2008(7):13-17. AN X G,WANG X G. The development and evolution of mine-protected armored vehicles[J]. Foreign Tank, 2008 (7):13-17.(in Chinese) [24] 张钱城,郝方楠,李裕春,等.爆炸冲击载荷作用下车辆和人员的损伤与防护[J].力学与实践,2014,36(5):527-539. ZHANG Q C,HAO F N,LI Y C,et al.Damage and protection of vehicles and personnel under explosion impact load [J]. Mechanics in Engineering,2014,36(5):527-539. (in Chinese) [25] 熊斌.MRAP的榜样“美洲狮”系列反地雷防伏击车[J].兵器知识,2010(5):57-59. XIONG B.MRAP model cougar series anti-mine ambush[J].Ordnance Knowledge,2010(5):57-59. (in Chinese) [26] 王虹,王宸.军防地雷车辆现状与发展特点[J].工程装备论证与试验,2005(2):16-18. WANG H,WANG C. Current situation and development characteristics of military anti-mine vehicles[J]. Demonstration and Test of Engineering Equipment,2005(2):16-18. (in Chinese) [27] BARSOUM R G S,PETERSON R O,OWEN D P,et al. Mine and collision protection for passenger vehicle:US 7114764[P].2006-10-03. [28] 郭启涛.某型防地雷车车身结构优化设计研究[D].南京:南京理工大学,2015. GUO Q T.Research on the optimization design of body structure of a certain type of anti-mine vehicle[D].Nanjing:Nanjing University of Science & Technology,2015.(in Chinese) [29] 徐晓前.战斗车辆的地雷防护[J].国外坦克,2002(12):31-32. XU X Q.Mine protection of combat vehicles[J].Foreign Tanks,2002(12):31-32. (in Chinese) [30] TAN C F,DELBRESSINE F,RAUTERBERG G W M. Vehicle seat design: state of the art and recent development[J]. Proceedings of the World Engineering Congress 2007, Penang, Malaysia: Federation of Engineering Institutions of Islamic Countries, 2007:51-61. [31] ANDERSON J C,BEHNER T,WEISS C E,et al. Mine blast loading: experiments and simulations[R]. San Antonio, TX, US: Southwest Research Inst, 2010. [32] DONG Y P,LU Z H. Analysis and evaluation of anti-shock seat with a multi-stage non-linear suspension for a tactical vehicle under a blast load[J].Journal of Automobile Engineering,2012,226(8):1037-1047. [33] 任佳,刘小川,杨建波,等.装甲车座椅抗地雷爆炸冲击模拟试验方法研究[J].应用力学学报,2020,37(6):2535-2543. REN J,LIU X C,YANG J B,et,al. Research on the simulation test method of anti-mine explosion impact of armored vehicle seats[J]. Journal of Applied Mechanics,2020,37(6):2535-2543. [34] JIANG R, RUI X, YANG F, et al. Simulation and experiment of the magnetorheological seat suspension with a seated occupant in both shock and vibration occasions[J]. Smart Materials and Structures, 2020, 29(10):105008. [35] 王雄高.爆炸防护座椅[J].国外坦克,2010(11):47-50. WANG X G. Explosion protection seat[J]. Foreign Tank, 2010(11): 47-50. (in Chinese) [36] 韩辉,焦丽娟,徐平.战车底部防雷技术研究[J].四川兵工学报,2007,28(3):11-13. HAN H,JIAO L J,XU P.Research on lightning protection technology of combat vehicle bottom[J].Journal of Sichuan Ordnance,2007,28(3):11-13. (in Chinese) [37] NILAKANTAN G.Design and development of an energy absorbing seat and ballixtic fabric material material model to reduce crew injury caused by acceleration from mine/IED blast[D].OH,US:University of Cincinnati,2006. [38] 张强,龚志钦,张晨然.适应新威胁装甲车辆悬吊式乘员座椅设计[J].中国个体防护装备,2014(4):5-9. ZHANG Q,GONG Z Q,ZHANG C R.Design of suspended passenger seat for armored vehicles adapting to new threats[J].Personal Protective Equipment,2014(4):5-9. (in Chinese) [39] 房凌晖,郑翔玉,蔡宏图,等.坦克装甲车辆防护技术发展研究[J].四川兵工学报,2014,35(3):23-26. FANG L H,ZHENG X Y,CAI H T, et al. Research on the development of tank and armored vehicle protection technology[J].Journal of Sichuan Ordnance,2014,35(3):23-26.(in Chinese) [40] DU H P,LI W H,ZHANG N.Semi-active variable stiffness vibration control of vehicle seat suspension using an MR elastomer isolator[J].Smart Material and Structures,2011,20(10):105003. [41] ZENG K G,ANDREW J, HILLS J D. Adaptive control of an active seat for occupant vibration reduction[J].Sound and Vibration,2015,349:39-55. [42] SY D N,QUOC H N,CHOI S B. A hybrid clustering based fuzzy structure for vibration control—Part 2:an application to semi-active vehicle seat-suspension system[J].Mechanical Systems and Signal Processing,2015,56(5):288-301. [43] DO X P,DO K S,CHOI S B. Design of a new adaptive fuzzy controller and its application to vibration control of a vehicle seat installed with an MR damper[J].Smart Materials and Structures,2015,24(8):085012. [44] DO K S,DO X P,CHOI S M,et al.An adaptive fuzzy sliding mode control of magneto-rheological seat suspension with human body model[J].Journal of Intelligent Material Systems and Structures,2016,27(7):925-934. [45] RAJENDIRAN S,LAKSHMI P.Simulation of PID and fuzzy logic controller for integrated seat suspension of a quarter car with driver model for different road profiles[J]. Journal of Mechanical Science and Technology,2016,30(10):4565-4570. [46] GAD S,METERE H,BASSUNINY A,et al. Multi-objective genetic algorithm fractional-order PID controller for semi-active magnetorheologically damped seat suspension[J].Journal of Vibration and Control,2017,23(8):1248-1266. [47] 杨建春,白鸿柏,刘英杰.钢丝绳减振器在履带车辆座椅上的应用[J].火炮发射与控制学报,2003,8(4):29-32. YANG J C,BAI H B,LIU Y J.Application of wire rope shock absorber in crawler vehicle seat [J].Journal of Gun Launch & Control,2003,8(4): 29-32. (in Chinese) [48] RAKHEJA S,BOILEAU P E,WANG Z.Performance analysis of suspension seats under high magnitude vibration excitations: part II: design parameter study,Part II: Low frequency noise[J].Vibration and Active control,2004,23(1): 7-26. [49] SUNG W,HITECH C L.Bumper stay unit capable of minimizing damages of vehicles by reducing impact force delivered to the vehicle body:KR932674B[P]. 2009-12-21. [50] SUNG W,HITECH C L. Car bumper stay unit:Korean. KR1270937B1 [P]. 2013-06-11. [51] 罗云华,张海鸥,黄早文.翻转管吸能特性及翻管成形工艺的研究[J].锻压机械,2000,35(5):6-8. LUO Y H,ZHANG H O,HUANG Z W. Work on characteristic as energy absorber and inversion process of inverted rube[J].Metalforming & Machinery,2000,35(5):6-8. (in Chinese) [52] LIANG C C,YANG M F,WU P W.Optimum design of metallic corrugated core sandwich panels subjected to blast loads[J].Ocean Engineering,2001,28(7):825-861. [53] XUE Z Y,HUTCHINSON J W.Preliminary assessment of sandwich plates subject to blast load[J].International Journal of Mechanical Sciences,2003 45(4):687-705. [54] XUE Z Y,HUTCHINSON J W.A comparative study of impulse-resistant metal sandwich plates[J].International Journal of Impact Engineering,2004,30(10):1283-1305. [55] 王大勇,翻转管碰撞性能的试验研究[J].上海汽车,2009,6(3): 44-47. WANG D Y. Experimental study on impact performance of overturned tube [J]. Shanghai Automobile,2009,6(3):44-47. (in Chinese) [56] 黄早文,俞彦勤,李尚健.翻转管的研制及其在吸能器中的应用[J].中国机械工程,1995,6(4):37-39. HUANG Z W,YU Y Q,LI S J. A study on invertube and their applications to energy absorbers [J]. China Mechanical Engineering,1995,6(4):37-39. (in Chinese) [57] 陈婷,周云波,王显会,等.爆炸冲击下座椅吸能元件设计及优化研究[J].计算机仿真,2019,36(7):1-5. CHEN T,ZHOU Y B,WANG X H,et al. Design and optimization of seat energy absorbing element under explosion impact[J].Computer Simulation,2019,36(7):1-5. (in Chinese) [58] 魏来生,汪国胜,李春明.一种基于四连杆调节机构的车辆减振缓冲座: CN110303955A[P].2019-10-08. WEI L S,WANG G S,LI C M. A vehicle damping seat based on four link adjusting mechanism:CN110303955A [P].2019-10-08. (in Chinese) [59] 汪国胜,雷强顺,李春明.一种基于滑动调节机构的车辆减振缓冲座椅:CN110303956A[P].2019-10-08. WANG G S,LEI Q S,LI C M. A vehicle damping seat based on sliding adjustment mechanism:CN110303956A [P].2019-10-08. (in Chinese) [60] 胡 柱卜,汪华飞,王羚杰.一种车辆防地雷座椅:CN103661028A[P].2014-03-26. HU Z B,WANG H F,WANG L J.An antimine seat used in vehicle:CN103661028A [P].2014-03-26. (in Chinese) [61] 张英,洪伟中.一种带有防雷功能的悬挂座椅:CN202439585U[P].2012-09-19. ZHANG Y,HONG W Z.An explosion-proof seat witha suspension:CN202439585U [P].2012-09-19. (in Chinese) [62] 宋春桃.车辆座椅的磁流变液减振研究[D].南京:南京理工大学,2007. SONG C T. Research on magnetorheological fluid damping of vehicle seat [D].Nanjing:Nanjing University of Science & Technology,2007. (in Chinese) [63] 孙启超,刘少军.某型坦克座椅减振的控制与仿真[J].机电产品开发与创新,2007,20(6):120-122. SUN Q C,LIU S J. Control and simulation of vibration reduction of a tank seat[J].Development & Innovation of Machinery & Electrical Products,2007,20(6):120-122. (in Chinese) [64] 曾才民.驾驶员座椅悬架磁流变阻尼器设计研究[D].南京:南京理工大学,2010. ZENG C M.Design of magnetorheological damper for driver seat suspension[D].Nanjing:Nanjing University of Science & Technology,2010. (in Chinese) [65] 陈嘉豪.坦克座椅磁流变隔振器设计与性能测试[D].南京:南京理工大学,2016. CHEN J H.Design and performance test of magnetorheological isolators for tank seats[D].Nanjing: Nanjing University of Science & Technology,2016. (in Chinese) [66] 孟小杰.基于磁流变阻尼器的座椅悬架减振研究[D].南京:南京理工大学,2017. MENG X J.Research on vibration reduction of seat suspension based on magnetorheological damper[D]. Nanjing:Nanjing University of Science & Technology,2017.(in Chinese) [67] 杨森.减振抗爆磁流变半主动座椅悬架系统控制方法研究[D].合肥:合肥工业大学,2019. YANG S.Research on the control method of vibration damping and anti-explosion magnetorheological semi-active seat suspension system[D].Hefei:Hefei University of Technology,2019. (in Chinese) [68] BAI X X,YANG S.Hybrid controller of magnetorheological semi-active seat suspension system for both shock and vibration mitigation[J]. Journal of Intelligent Material Systems and Structures,2019,30(11):1613-1628. [69] 唐志勇,朱炜,朱洪涛.装甲车辆磁流变座椅振动控制方法研究[J].兵器装备工程学报,2021,42(3):22-27. TANG Z Y,ZHU W,ZHU H T. Vibration control and experimental research on magnetorheological seat of armored vehicle[J].Journal of Ordnance Equipment Engineering,2021,42(3):22-27. (in Chinese)