Shell fuse detonated by disappearing circuit under impact and The shock sensed detonating method thereof

Shell fuse detonated by disappearing circuit under impact and The shock sensed detonating method thereof

Disclosed are an electrical fuse detonated by the loss of a circuit caused by an impact and a method of detonating the same. The present invention relates to a structure for sensing an impact on a fuse using a circuit loss preventing method to effectively correspond to various impact situations. In...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: KO, DONG SIK, SEO, JUNG HYUP, OH, JONG MYUNG
Format: Patent
Sprache:eng ; kor
Schlagworte:
AMMUNITION
AMMUNITION FUZES
ARMING OR SAFETY MEANS THEREFOR
BLASTING
HEATING
LIGHTING
MECHANICAL ENGINEERING
WEAPONS
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Beschreibung
Zusammenfassung:Disclosed are an electrical fuse detonated by the loss of a circuit caused by an impact and a method of detonating the same. The present invention relates to a structure for sensing an impact on a fuse using a circuit loss preventing method to effectively correspond to various impact situations. In a multifunctional electrical fuse including an impact sensor, a proximity sensor and a time sensor, a detonation part battery (310) protected from a penetration impact supplies power to a shunt (12-1) formed in an electrical part upper PCB (12), thereby maintaining electrical connection. If the electrical part upper PCB (12) is destroyed by collision with a target and the shunt (12-1) is disconnected, a detonation part MCU (34-1) directly senses that and outputs a disconnection detonation signal, or an electrical part MCU (14-1) of an electrical part lower PCB (14) transmits detonation data to the detonation part MCU (34-1) before destroyed such that the detonation part MCU (34-1) outputs the disconnection detonation signal. According to the present invention, impact sensing/impact delay sensing functions of compensating performance of the impact sensor are effectively prepared without a reduction of space for arrangement of peripheral devices, loss of function, and additional manufacturing costs, and setting the sensitivity of an impact sensing process may be free without limitation on impact switching time. 충격에 의한 회로소실로 기폭되는 전자식 신관과 그 충격감지방법이 개시된다. 본 발명은 다양한 탄착상황에 효과적으로 대응하기 위한 회로소실차단 방식의 신관 충격감지구조와 그 동작방법에 관한 것으로서 충격센서와 근접, 시한센서를 모두 탑재한 다기능 전자식 신관에서 관통충격으로부터 보호되는 기폭부의 배터리(31)가 전자부 상단PCB(12)에 형성된 분로(12-1)에 전원을 공급하여 통전상태로 유지시킨다. 표적 충돌에 의해 상기 전자부 상단PCB(12)가 소실되면서 상기 분로(12-1)가 단전되면, 기폭부MCU(34-1)가 이를 직접 감지하여 단전기폭신호를 출력하거나 또는 전자부 하단PCB(14)의 전자부MCU(14-1)가 자신의 소실 직전에 기폭부MCU(34-1)로 기폭데이터를 전송하여 기폭부MCU(34-1)가 단전기폭신호를 출력하도록 한다. 본 발명에 의하면 충격센서의 성능을 보완하는 충격감지/충격지연감지 기능이 주변 장치의 배치공간 축소나 기능손실, 추가적인 제조비용 없이 효과적으로 구현되며, 충격스위칭 시간에 제약이 없어 충격감지 프로세스의 감도설정이 자유로운 장점이 있다.