摘要
针对小口径弹药弹链感应耦合装定系统,由于装定的快速性及空间狭小等原因而无法实现同轴式信息与能量的传输问题,提出了平板型线圈耦合结构。该结构的次级线圈仍环绕在引信外壁,初级线圈绕在非金属平板骨架上,安装在弹链导向槽上与弹链运动方向平行,有效耦合作用区为平面。仿真和实验表明:平板型结构相对于传统型、U型结构更适合于能量与信息的传输,可满足小口径弹药在高速及强振动条件下对感应电压幅值和信息同步传输的要求,可用于包括转管速射炮在内的各类火炮。
The ammunition belt induction coupling setting system of small-caliber ammunition can not realize co- axial transmitting of information and energy beacuse of the rapidity and the restricted space and other reasons. In order to solve the problem, an induction coupling structure of plate coil was put forward. The ektexine of fuze was surrounded by the secondary coil of the structure and a non-metallic plate skeleton was surrounded by the primary coil. The skeleton was properly installed on the guiding groove and was parallel to the direction of am- munition belt movement, and the effective coupling area of primary coil was plane. Experiments and simulation results showed that the coupling structure with plate type was satisfied with voltage amplitude and synchroniza- tion of information transmission in the condition of high velocity and powerful vibration, it had a superiority to the traditional and U-type coupling structures, and could be used for various type of artillery including Gatling rapid-fire artillery.
出处
《探测与控制学报》
CSCD
北大核心
2012年第6期11-15,20,共6页
Journal of Detection & Control
关键词
感应装定
引信
仿真
电磁耦合
耦合结构
induction setting
fuze
simulation
electromagnetic coupling
coupling structure
