探测与控制学报
探測與控製學報
탐측여공제학보
JOURNAL OF DETECTION & CONTROL
2014年
6期
50-52,56
,共4页
刘冲%施坤林%霍鹏飞%杨小会
劉遲%施坤林%霍鵬飛%楊小會
류충%시곤림%곽붕비%양소회
高旋弹%二维弹道修正引信%鸭翼%瞬态力矩平衡
高鏇彈%二維彈道脩正引信%鴨翼%瞬態力矩平衡
고선탄%이유탄도수정인신%압익%순태력구평형
spin-stabilized gunnery proj ectiles%Two-dimensional traj ectory correction fuze%canard%transient moment balance
针对鸭翼偏转方向与弹道改变方向相反的现象,提出了基于瞬态力矩平衡原理从理论上揭示高旋弹鸭翼对弹道的影响。通过分析弹体在瞬态平衡状态下的受力情况得出了弹体受到的法向力是改变弹道轨迹的直接因素。仿真验证结果表明:弹体受到的法向力与弹体压心到质心的距离成反比,与鸭翼和弹体压心间的距离成正比,与鸭翼上的法向力成正比,弹道改变量与鸭翼上的法向力方向相反;对于翼面确定情况,为了增加弹道的改变量,需要加大鸭翼压心和弹体压心之间的距离,若鸭翼与弹体压心重合,无论鸭翼如何偏转,都不会改变弹道。
針對鴨翼偏轉方嚮與彈道改變方嚮相反的現象,提齣瞭基于瞬態力矩平衡原理從理論上揭示高鏇彈鴨翼對彈道的影響。通過分析彈體在瞬態平衡狀態下的受力情況得齣瞭彈體受到的法嚮力是改變彈道軌跡的直接因素。倣真驗證結果錶明:彈體受到的法嚮力與彈體壓心到質心的距離成反比,與鴨翼和彈體壓心間的距離成正比,與鴨翼上的法嚮力成正比,彈道改變量與鴨翼上的法嚮力方嚮相反;對于翼麵確定情況,為瞭增加彈道的改變量,需要加大鴨翼壓心和彈體壓心之間的距離,若鴨翼與彈體壓心重閤,無論鴨翼如何偏轉,都不會改變彈道。
침대압익편전방향여탄도개변방향상반적현상,제출료기우순태력구평형원리종이론상게시고선탄압익대탄도적영향。통과분석탄체재순태평형상태하적수력정황득출료탄체수도적법향력시개변탄도궤적적직접인소。방진험증결과표명:탄체수도적법향력여탄체압심도질심적거리성반비,여압익화탄체압심간적거리성정비,여압익상적법향력성정비,탄도개변량여압익상적법향력방향상반;대우익면학정정황,위료증가탄도적개변량,수요가대압익압심화탄체압심지간적거리,약압익여탄체압심중합,무론압익여하편전,도불회개변탄도。
According to the phenomenon that the direction of deflections of the canard is opposite to the direc-tion of the traj ectory changes,we proposed a principle based on the transient torque equilibrium,theoretically revealed the influence of the high spin canard on the proj ectile traj ectory.By analyzing the force of the proj ectile under transient equilibrium,we obtained that the normal force of the proj ectile was the direct factor of traj ectory changing.The simulation results showed that the normal force of proj ectile was inversely proportional to the dis-tance between the center of proj ectile pressure and center of mass,proportional to the distance between the cen-ter of proj ectile pressure and the center of canard pressure,proportional to the normal force of canard.With a certain canard,the quantity of ballistic shift which was in the opposite direction to the normal force of canard could be enlarged by increasing the distance between the center of proj ectile pressure and the center of canard pressure.However,if the canard and projectile pressure centers were overlapped,whatever canard deflection, the ballistic would not change.