Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
The invention relates to the technical field of electronic coded locks, in particular to a shockproof electronic coded lock. The shockproof electronic coded lock comprises sliding devices, locking pins and a motor. A motor body of the motor is fixedly connected with a lock body of the coded lock. A rotating shaft of the motor is connected with the corresponding sliding device. One sliding device comprises two slide block frames which are symmetrically located on the two sides of the corresponding locking pin. When rotating in the forward direction, the rotating shaft drives the two slide block frames to get close to the corresponding locking pin along the axis of the rotating shaft so as to lock the locking pin. When rotating in the reverse direction, the rotating shaft drives the two slide block frames to get away from the corresponding locking pin along the axis of the rotating shaft so as to unlock the locking pin. The locking pins can reciprocate in the axial direction so as to drive the coded lock to be closed or opened. According to the shockproof electronic coded lock, the corresponding locking pin is locked through the two slide block frames symmetrically arranged on the corresponding slide device, and therefore the shockproof effect, the anticollision effect and the safety coefficient of the coded lock are increased.
The invention relates to the technical field of electronic coded locks, in particular to a shockproof electronic coded lock. The shockproof electronic coded lock comprises sliding devices, locking pins and a motor. A motor body of the motor is fixedly connected with a lock body of the coded lock. A rotating shaft of the motor is connected with the corresponding sliding device. One sliding device comprises two slide block frames which are symmetrically located on the two sides of the corresponding locking pin. When rotating in the forward direction, the rotating shaft drives the two slide block frames to get close to the corresponding locking pin along the axis of the rotating shaft so as to lock the locking pin. When rotating in the reverse direction, the rotating shaft drives the two slide block frames to get away from the corresponding locking pin along the axis of the rotating shaft so as to unlock the locking pin. The locking pins can reciprocate in the axial direction so as to drive the coded lock to be closed or opened. According to the shockproof electronic coded lock, the corresponding locking pin is locked through the two slide block frames symmetrically arranged on the corresponding slide device, and therefore the shockproof effect, the anticollision effect and the safety coefficient of the coded lock are increased.
Shockproof electronic coded lock
LI GUANGHAO (Autor:in)
23.09.2015
Patent
Elektronische Ressource
Englisch
IPC:
E05B
LOCKS
,
Schlösser