Summary of the invention
The purpose of this utility model provides a kind of device that is used to control intelligent door lock machinery unlocking mechanism, and it can solve the not high problem of existing intelligent door lock mechanical unlocking device secrecy, and is easy for installation and be easy to control and management.
For achieving the above object, the utility model has adopted following technical scheme: a kind of device that is used to control intelligent door lock machinery unlocking mechanism, comprise lock body, be provided with motor and tapered end in the described lock body, motor is electrically connected with the mainboard of intelligent door lock, motor is arranged between the side of tapered end and the two and is provided with locked cock mechanism, and motor-driven locked cock mechanism is in tapered end and unblanks or the locking two states.
As shown from the above technical solution, motor is electrically connected with the mainboard of intelligent door lock, the normal conditions lower lock head is in blocking, when needs use mechanical key to unblank, need at first to use the IC-card that sets in advance to control electric motor starting by mainboard, by motor-driven locked cock mechanism action, thereby make lock core be transformed into unlocking condition, finally insert mechanical key and realize unblanking by locking.In sum, the utility model is controlled mechanical unlocking device by IC-card, has not only solved the not high problem of existing intelligent door lock mechanical unlocking device secrecy, and installs, changes conveniently, is easy to control and management.
The specific embodiment
As shown in Figure 1, 2, a kind of device that is used to control intelligent door lock machinery unlocking mechanism, comprise lock body, be provided with motor 10 and tapered end 20 in the described lock body, motor 10 is electrically connected with the mainboard of intelligent door lock, motor 10 is arranged between the side of tapered end 20 and the two and is provided with locked cock mechanism, and motor 10 drives locked cock mechanisms and tapered end 20 is in unblank or the locking two states.
The arranged outside of described motor 10 has the support 11 that is fixed in the lock body, and the side towards tapered end 20 of motor 10 is provided with rotating shaft, and rotating shaft driving locked cock mechanism is in tapered end 20 and unblanks or the locking two states.
Described locked cock mechanism comprises sliding sleeve 31 and the slide block 32 that overlaps tubular, sliding sleeve 31 fixed covers are located in the rotating shaft, the inside of described slide block 32 is provided with cavity, sliding sleeve 31 passes in the cavity of slide block 32 and is rotatably assorted with slide block 32 formations, be arranged with spring 33 on the stack shell that is arranged in slide block 32 cavitys of sliding sleeve 31, be installed with projection 34 on the excircle side that is arranged with spring 33 of described sliding sleeve 31, the head of projection 34 stretches out the outside of curling up the periphery of formation at spring 33, rotating shaft drives sliding sleeve 31 and rotates, drive slide blocks 32 by spring 33 simultaneously and move, an end of slide block 32 stretches into or withdraws from the rotary motion trace of tapered end 20 and tapered end 20 is in and unblanks or the locking two states.
When rotating under the drive of sliding sleeve 31 at machine shaft, projection 34 on the sliding sleeve 31 and spring 33 are also followed rotation together, described spring 33 will be by means of supporting role the moving axially along sliding sleeve 31 of projection 34 in rotation process, thereby drive also moving axially of slide block 32 along sliding sleeve 31, make an end of slide block 32 stretch into or withdraw from the rotary motion trace of tapered end 20, thereby realize that tapered end 20 is in unblanks or the locking two states.
Further, the two ends of described spring 33 are the cantilever-shaped outside of curling up the periphery of formation at spring 33 of stretching out, and this design of spring 33 more helps it and promotes slide block 32 along the moving axially of sliding sleeve 31, and more helps unblanking and locking.
Described tapered end 20 comprises lock core 21 and stator 22, and stator 22 is installed on the lock body, and stator 22 is set in the outside of lock core 21 and is rotatably assorted with lock core 21 formations, and the side towards slide block 32 of stator 22 offers the hole of passing through for the slide block end.
One end of the close motor 10 of described sliding sleeve 31 is provided with circular flange 311, and flange 311 residing planes parallel with the radial section of sliding sleeve 31, and described flange 311 is convenient to separate sliding sleeve 31 and motor 10, more helps sliding sleeve 31 and rotates; One end of the close tapered end 20 of sliding sleeve 31 is arranged with the disk 312 of ring-type, disk 312 is arranged between the end and slide block 32 close ends of tapered end 20 of spring 33 near tapered end 20, described disk 312 makes spring 33 be easy to promote slide block 32 and moves, guaranteed the normal operation of whole door lock.
Be described further below in conjunction with Fig. 1~2 pair workflow of the present utility model:
Generally, intelligent door lock is in closure state, also be that tapered end 20 is in blocking, an end of the close tapered end 20 of the slide block 32 in the locked cock mechanism stretches into the inboard of the rotary motion trace of tapered end 20 at this moment, also be that an end of the close tapered end 20 of slide block 32 passes the hole on the stator 22 and stretches into the inboard of the rotary motion trace of lock core 21, even if the hand-held mechanical key insertion of people is arranged this moment and attempts rotational lock core 21, because the barrier effect of slide block 32, lock core 21 can not rotate, and causes mechanical key to unblank;
If unlocking person is handed IC-card, then to experience the IC-card brush out-of-date when the induction zone of intelligent door lock, the 10 energising work of mainboard control motor, the rotating shaft rotation of motor 10 also drives sliding sleeve 31 rotations, spring 33 on the sliding sleeve 31 moves after following rotation and driving slide block 32, make the end of close lock core 21 of slide block 32 withdraw from the hole on the inboard and stator 22 of the rotary motion trace of lock core 21 successively, be inserted and rotated mechanical key this moment once more, lock core 21 rotates and drives shift fork 23 and unblanks with realization.
After door lock is opened when closed once more, mainboard control motor 10 backward rotation, the rotating shaft rotation of motor 10 also drives sliding sleeve 31 rotations, spring 33 on the sliding sleeve 31 is followed and is rotated and drive slide block 32 reaches, make the end of close lock core 21 of slide block 32 reenter the hole on the stator 22 and the rotary motion trace inboard of lock core 21, realize the locking once more of door lock.