A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The invention relates to the technical field of intelligent locks, and discloses a full-automatic intelligent lock driving mechanism which comprises a shell, a control panel is bolted to the front face of the shell, a knapsack motor is bolted to the front face of the shell, a rotating shaft is installed in the knapsack motor, a magnet is bolted to the front face of the rotating shaft, and a Hall sensing plate is bolted to the front face of the backpack motor; when the knapsack motor drives the rotating shaft to rotate, the rotating shaft drives the magnet to rotate, and when the magnet rotates to the three induction areas, the rotating direction and the rotating position of the knapsack motor can be known, the first area induction is the initial position, the third area induction is the final position, and the second area induction is the direction judgment position; meanwhile, adjustment can be conducted according to different lock cylinders, then the driving position of the knapsack motor is defined through the Hall sensing plate, and thus the problem that the knapsack motor needs to be forced to stop rotating through stalling is solved, and power consumption of the battery is saved.
本发明涉及智能锁技术领域,且公开了一种全自动智能锁的驱动机构,包括壳体,所述壳体的正面栓接有控制板,所述壳体的正面栓接有背包电机,所述背包电机的内部安装有转轴,所述转轴的正面栓接有磁石,所述背包电机的正面栓接有霍尔感应板;本发明通过背包电机驱动转轴运转时,随后转轴带动磁石进行转动,当磁石转动到三个感应区域,即可知道该背包电机的转动方向转动位置,第一区域感应为初始位置,第三区域感应是终点位置,第二区域感应是方向判断位置,同时可根据不同锁芯调整,之后通过霍尔感应板明确背包电机驱动位置,从而解决了需要通过堵转来迫使背包电机停止转动,且节约了电池功耗。
The invention relates to the technical field of intelligent locks, and discloses a full-automatic intelligent lock driving mechanism which comprises a shell, a control panel is bolted to the front face of the shell, a knapsack motor is bolted to the front face of the shell, a rotating shaft is installed in the knapsack motor, a magnet is bolted to the front face of the rotating shaft, and a Hall sensing plate is bolted to the front face of the backpack motor; when the knapsack motor drives the rotating shaft to rotate, the rotating shaft drives the magnet to rotate, and when the magnet rotates to the three induction areas, the rotating direction and the rotating position of the knapsack motor can be known, the first area induction is the initial position, the third area induction is the final position, and the second area induction is the direction judgment position; meanwhile, adjustment can be conducted according to different lock cylinders, then the driving position of the knapsack motor is defined through the Hall sensing plate, and thus the problem that the knapsack motor needs to be forced to stop rotating through stalling is solved, and power consumption of the battery is saved.
本发明涉及智能锁技术领域,且公开了一种全自动智能锁的驱动机构,包括壳体,所述壳体的正面栓接有控制板,所述壳体的正面栓接有背包电机,所述背包电机的内部安装有转轴,所述转轴的正面栓接有磁石,所述背包电机的正面栓接有霍尔感应板;本发明通过背包电机驱动转轴运转时,随后转轴带动磁石进行转动,当磁石转动到三个感应区域,即可知道该背包电机的转动方向转动位置,第一区域感应为初始位置,第三区域感应是终点位置,第二区域感应是方向判断位置,同时可根据不同锁芯调整,之后通过霍尔感应板明确背包电机驱动位置,从而解决了需要通过堵转来迫使背包电机停止转动,且节约了电池功耗。