振动与冲击
振動與遲擊
진동여충격
JOURNAL OF VIBRATION AND SHOCK
2015年
17期
30-37
,共8页
闫书明%方磊%马亮%荆坤
閆書明%方磊%馬亮%荊坤
염서명%방뢰%마량%형곤
交通设施%避险车道%网索吸能系统%实车试验%有限元分析%阻尼器
交通設施%避險車道%網索吸能繫統%實車試驗%有限元分析%阻尼器
교통설시%피험차도%망색흡능계통%실차시험%유한원분석%조니기
traffic facility%truck escape ramp%net energy absorption system%real vehicle test%FEA%damper
为弥补部分避险车道长度不足,提出避险车道网索吸能系统,采用低速功能试验验证了系统可行性,采用高速功能试验找出了结构薄弱之处,建立有限元仿真模型,对结构薄弱处影响因素进行了系统分析后,得到了网索吸能系统优化结构,并组织两次实车运行试验对优化结构进行了验证。发现网索吸能系统可有效输出阻尼力,将阻尼力控制在25 kN 可有效保证乘员安全性能,阻尼力和车辆质量对传力索输出力峰值影响不大,将缠绳滚筒直径控制在400 mm 以上、质量控制在130 kg 以下,同时将防护网设置在避险车道入口后30 m 处,可有效保证传力索不会破断,坡度为9.29的砾石避险车道安装了搅拌式阻尼器网索吸能系统后可在66.2 m 的距离内使驶入速度为104 km/h 的55 t 大货车停车,安装了刹车片式阻尼器网索吸能系统后可在62.5 m 距离内使驶入速度为101 km/h 的55 t 大货车停车。结果表明,合理设计和设置的网索吸能系统是一种有效的拦截刹车失灵车辆的设施。
為瀰補部分避險車道長度不足,提齣避險車道網索吸能繫統,採用低速功能試驗驗證瞭繫統可行性,採用高速功能試驗找齣瞭結構薄弱之處,建立有限元倣真模型,對結構薄弱處影響因素進行瞭繫統分析後,得到瞭網索吸能繫統優化結構,併組織兩次實車運行試驗對優化結構進行瞭驗證。髮現網索吸能繫統可有效輸齣阻尼力,將阻尼力控製在25 kN 可有效保證乘員安全性能,阻尼力和車輛質量對傳力索輸齣力峰值影響不大,將纏繩滾筒直徑控製在400 mm 以上、質量控製在130 kg 以下,同時將防護網設置在避險車道入口後30 m 處,可有效保證傳力索不會破斷,坡度為9.29的礫石避險車道安裝瞭攪拌式阻尼器網索吸能繫統後可在66.2 m 的距離內使駛入速度為104 km/h 的55 t 大貨車停車,安裝瞭剎車片式阻尼器網索吸能繫統後可在62.5 m 距離內使駛入速度為101 km/h 的55 t 大貨車停車。結果錶明,閤理設計和設置的網索吸能繫統是一種有效的攔截剎車失靈車輛的設施。
위미보부분피험차도장도불족,제출피험차도망색흡능계통,채용저속공능시험험증료계통가행성,채용고속공능시험조출료결구박약지처,건립유한원방진모형,대결구박약처영향인소진행료계통분석후,득도료망색흡능계통우화결구,병조직량차실차운행시험대우화결구진행료험증。발현망색흡능계통가유효수출조니력,장조니력공제재25 kN 가유효보증승원안전성능,조니력화차량질량대전력색수출력봉치영향불대,장전승곤통직경공제재400 mm 이상、질량공제재130 kg 이하,동시장방호망설치재피험차도입구후30 m 처,가유효보증전력색불회파단,파도위9.29적력석피험차도안장료교반식조니기망색흡능계통후가재66.2 m 적거리내사사입속도위104 km/h 적55 t 대화차정차,안장료찰차편식조니기망색흡능계통후가재62.5 m 거리내사사입속도위101 km/h 적55 t 대화차정차。결과표명,합리설계화설치적망색흡능계통시일충유효적란절찰차실령차량적설시。
To make up for the deficiency of short length of some truck escape ramp,a net energy absorption system for a truck escape ramp was proposed,the system feasibility was proved with low velocity tests,the weak parts of the system were found with high velocity tests,FEA models were built to analyze influence factors on the weak parts,the system's optimization structure was obtained and its function was verified with two vehicle running tests.It was shown that the damping force can be outputted by the net energy absorption system,the occupant safety can be guaranteed with a 25 kN damping force;the damping force and vehicle mass have a smaller effect on peak output force of tension rod,the rod can be effectively guaranteed not to be broken by controlling the diameter of the rod roller to be larger than 400 mm,the mass of the rod roller to be less than 130 kg,and setting the protective net at 30 m behind the entrance of the truck escape ramp;the truck escape ramp with a slope of 9.29 and an installed stirring type damper net energy absorption system can make a 55 t truck with a speed of 104 km /h stop within a distance of 66.2 m,while it with an installed brake sheet damper net energy absorption system can make a 55 t truck with a speed of 101 km /h stop within a distance of 62.5 m. The results indicated that the net energy absorption system with reasonable design and correct setting can be an effective facility to stop brake failure vehicles.
