CN209011707U - Universal intelligent lock controller - Google Patents

Abstract

Universal intelligent lock controller, it is characterized in that control shaft 13, driving gear 12, active connecting shaft 14, mesomerism gear 9, mesomerism gear axis 8, controlled motor 2, motor driving gear 10, motor driven gear 15, driven gear 3, output shaft 5, driven connecting shaft 6, switch 11, clutch button 16 and the brake spring 7 of the linkage of door Internal handle are all in the space of a shell 1.The utility model realizes locking using the method for control lock body inside door Internal handle control shaft and unlocks, compared with existing fully-automatic intelligent is locked and is unlocked with clutch for clutch control outdoors, its advantage is that not linkage door Internal handle during locking and unlocking, unlocking, the used time is few, little power consumption, it can unlock without pushing door outer handle, in door, security performance improves electric control opening device, can adapt to various dual-active pin double-quick lock bodies.

Description

Universal intelligent lock controller

Technical field

The utility model relates to a kind of invention of smart lock, especially a kind of universal intelligent can be automatic locking and unlocked The invention of lock controller.

Background technique

There are three types of existing smart lock locking modes, the first locking is that automatic lock body shutdown is automatic locking, on second Lock is that the locking of dual-active pin double-quick lock body is to put on lock on door outer handle or door Internal handle, the third locking is that controlled motor drive is special Lock core rotate locking, outdoors there are two types of unlocking modes, one is inputting to push door outer handle after correct unlocking signal and unlock, under Pressure door outer handle is unlocked is divided into outside lock body inner clutch and lock body two kinds of clutch again, and lock body inner clutch must use electronic lock Body, clutch uses mechanical lock outside lock body, push door outer handle unlock common feature be exactly lock body inner clutch component or After clutch part is controlled outside lock body, connection status is changed by original clutch state, door outer handle unlocking could be pushed, it is excellent Point be control clutch controlled motor power it is small, little power consumption, the disadvantage is that must push door outer handle could unlock, can only be half from Dynamic to unlock, another kind is that controlled motor drives special lock core to rotate unlocking, and advantage is Full-automatic unlocking, the disadvantage is that unlocking the used time More, used controlled motor power requirement is larger, and power consumption is more.

Summary of the invention

Universal intelligent lock controller, is mounted on the position between Internal handle panel and door body, and intracorporal lock tongue is locked in control Extend and retract lock panel, it is characterized in that door Internal handle linkage control shaft, driving gear, active connecting shaft, mesomerism gear, Mesomerism gear axis, motor driving gear, motor driven gear, driven gear, output shaft, driven connecting shaft, is opened controlled motor It closes, clutch button and brake spring are all in the space of a shell；

Control shaft is connect with door Internal handle, and active connecting shaft and driven connection axis connection, output shaft connect square shaft with lock body Connection；

The axle center of control shaft, the axle center of active connecting shaft, the axle center of driven connecting shaft, the axle center of output shaft, lock body connection The axle center of square shaft is same axle center, and the axis parallel with mesomerism gear axis；

The axle center of control shaft and the plane of driving gear are vertical, and the axle center of output shaft and the plane of driven gear are vertical；

There is notch at one at the circumference of driving gear, this indentation, there is anodontia, is in and is not controlled by external force in door Internal handle In the state of, notch alignment mesomerism gear；

There is notch at one at the circumference of motor driven gear, this indentation, there is anodontia, is in motor driven gear in switch On controlling position state of a control under, notch alignment mesomerism gear；

It is engaged with mesomerism gear at driven gear circumference position with teeth；

Position of the motor driven gear between driving gear and driven gear；

Door Internal handle above mentions and pushes linkage control axis and driving gear, due to the rotation of driving gear, notch thereon It is no longer aligned with mesomerism gear, is changed into position with teeth and is engaged with mesomerism gear, driven gear controlled rotation, and thus linkage output Axis controls lock body locking and unlocks；

Motor driving gear rotation linkage motor driven gear, motor driven gear linkage mesomerism gear rotation, intermediary's tooth Rotation linkage driven gear rotation, driven gear linkage output shaft are taken turns, output shaft linkage lock body connection side axis is realized locking and opened Lock, in the state that door Internal handle is in and is not controlled by external force, notch alignment mesomerism gear on driving gear circumference, intermediary's tooth The rotation of wheel can not link the rotation of driving gear, controlled motor not handle in linkage door during controlling lock body locking and unlocking Hand.

Detailed description of the invention

Fig. 1 is the structure chart of the utility model entirety.

Fig. 2 is the structure chart of output shaft and driven gear in the utility model.

Fig. 3 is the structure chart of driven connecting shaft and driven gear in the utility model.

Fig. 4 is the structure chart of driving gear and active connecting shaft in the utility model.

Fig. 5 is the structure chart of control shaft and driving gear in the utility model.

Fig. 6 is the structure chart of motor driven gear in the utility model.

Fig. 7 is the structure chart of mesomerism gear and mesomerism gear axis in the utility model.

Attached drawing Parts List: shell 1, controlled motor 2, driven gear 3, lock body connect square shaft 4, output shaft 5, driven connection Axis 6, brake spring 7, mesomerism gear axis 8, mesomerism gear 9, motor driving gear 10, switch 11, driving gear 12, control shaft 13, active connecting shaft 14, motor driven gear 15, clutch button 16.

Specific embodiment

Referring to Fig.1, have in shell 1 controlled motor 2, driven gear 3, output shaft 5, driven connecting shaft 6, brake spring 7, in Jie's gear shaft 8, mesomerism gear 9, motor driving gear 10, switch 11, driving gear 12, control shaft 13, active connecting shaft 14, electricity Machine driven gear 15, clutch button 16, driven gear 3.

Output shaft 5 and driven connecting shaft 6 are an entirety, and driving gear 12, control shaft 13 and active connecting shaft 14 are one A entirety.

For output shaft 5 through a circular hole 1-1 on shell 1, the position section that output shaft 5 is contacted with circular hole 1-1 is circle, Lock body connects square shaft 4 in the square hole 5-1 of 5 end of output shaft.

For control shaft 13 through a circular hole 1-2 on shell 1, the position section that control shaft 13 is contacted with circular hole 1-2 is round Shape, control shaft 13 are connect with door Internal handle.

Driven connecting shaft 6 in the axle center hole of active connecting shaft 14, motor driven gear 15 driving gear 12 with it is driven Position between gear 3.

Active connecting shaft 14 is in the centre bore of motor driven gear 15.

Mesomerism gear axis 8 is fixed on shell 1, the axle center of mesomerism gear axis 8 and axle center, the active connecting shaft of control shaft 13 14 axle center, the axle center of driven connecting shaft 6, output shaft 5 axis parallel, mesomerism gear 9 is that axle center turns with mesomerism gear axis 8 It is dynamic.

Brake spring 7 presses clutch button 16 on mesomerism gear axis 8, controls mesomerism gear 9 in 8 axis of mesomerism gear axis To activity, mesomerism gear 9 can not be engaged with driving gear 12 in this case, rotation door Internal handle can not then link lock body connection Square shaft 4.

Motor driving gear 10 is engaged with motor driven gear 15, and motor driven gear 15 is engaged with mesomerism gear 9, intermediary Gear 9 is engaged with driven gear 3, and mesomerism gear 9 is engaged with driving gear 12.

Referring to Fig. 2 and Fig. 3, it is output shaft 5 that driven gear 3, which is driven connecting shaft 6, another side on one side, is had on output shaft 5 Square hole 5-1, lock body connect square shaft 4 and are inserted into square hole 5-1, according to practical application, only exist since door Internal handle is above mentioned and pushed It is rotated in certain slewing area, the position 3-1 with teeth on 3 circumference of driven gear need to only meet what Internal handle was above mentioned and pushed It is with teeth in slewing area normally to lock and unlock.

Referring to Fig. 4 and Fig. 5, it is control shaft 13 that driving gear 12, which is active connecting shaft 14, another side on one side, control shaft 13 with Door Internal handle connection, has a notch 12-2, according to practical application, since door Internal handle is above mentioned and pushed on driving gear 12 It is only rotated in certain slewing area, the position 12-1 and 12-3 with teeth on 12 circumference of driving gear need to only meet handle in door It is with teeth in the slewing area for mentioning and pushing on hand normally to lock and unlock.

Referring to Fig. 6, there is notch 15-3 at one in 15 circumference of motor driven gear, anodontia at this notch 15-3, internal diameter is one The size and active connecting shaft 14 of a circular hole 15-2, circular hole 15-2 are mating, in 15 plane of motor driven gear close to the position of circumference It sets, there is controlling position 15-1 at one, the effect of controlling position 15-1 is switching on and off for control switch 11.

Referring to Fig. 7,9 circumference of mesomerism gear is with teeth, and mesomerism gear axis 8 is in its center in hole.

It is linked 12 turns of driving gear the working principle of the utility model is: door Internal handle is above mentioned and pushed by control shaft 13 Dynamic, position 12-1 and 12-3 with teeth the linkage mesomerism gear 9 on driving gear 12 rotate, and are linked using the rotation of mesomerism gear 9 Driven gear 3 rotates, and thus link output shaft 5, connects the intracorporal lock tongue of the control lock of square shaft 4 by lock body and extends and retracts lock body Panel realizes locking and unlocks.

After intelligent input component receives correct unlocking signal outdoors, control circuit controls controlled motor 2 and rotates, by It controls the rotation linkage motor driving gear 10 of motor 2 to rotate, the rotation linkage motor driven gear 15 of motor driving gear 10 rotates, electricity The rotation linkage driven gear 3 of machine driven gear 15 rotates, and the rotation linkage output shaft 5 of driven gear 3 rotates, and passes through lock body connection side The control of axis 4 locks intracorporal lock tongue and extends and retracts lock panel, realizes locking and unlocks.

In the state that door Internal handle is in and is not controlled by external force, the notch 12-2 on driving gear 12 is directed at mesomerism gear 5, during rotation, the driving gear 12 that can not link rotation that is, can not the rotation of linkage door Internal handle for mesomerism gear 9.

In the state that door Internal handle is in and is not controlled by external force, the notch 15-3 in motor driven gear 15 is directed at intermediary Gear 9, the controlling position 15-1 control switch 11 in motor driven gear 15 disconnect, and controlled motor 2 stops operating.

Since the effect of 15 notch 15-3 of motor driven gear only joins during door Internal handle is above mentioned and pushed Dynamic driven gear 3 rotates, and do not link motor driven gear 15 and motor driving gear 10.

The utility model realizes locking using the method for control lock body inside door Internal handle control shaft and unlocks, with it is existing it is complete from Dynamic smart lock is compared with the unlocking of clutch for clutch control outdoors, its advantage is that not linkage door Internal handle during locking and unlocking, on Lock and unlock that the used time is few, little power consumption, not having to push door outer handle can unlock, and in door, security performance mentions electric control opening device Height can adapt to various dual-active pin double-quick lock bodies.

Claims (6)

1. universal intelligent lock controller, it is mounted on the position between Internal handle panel and door body, control is locked intracorporal lock tongue and stretched Out and lock panel is retracted, it is characterized in that the control shaft (13) of door Internal handle linkage, driving gear (12), active connecting shaft (14), mesomerism gear (9), mesomerism gear axis (8), controlled motor (2), motor driving gear (10), motor driven gear (15), Driven gear (3), output shaft (5), driven connecting shaft (6), switch (11), clutch button (16) and brake spring (7) are all one In the space of a shell (1)；

Control shaft (13) is connect with door Internal handle, and active connecting shaft (14) is connect with driven connecting shaft (6), output shaft (5) and lock Body connects square shaft (4) connection；

The axle center of control shaft (13), the axle center of active connecting shaft (14), the axle center of driven connecting shaft (6), output shaft (5) axis The heart, lock body connection square shaft (4) axle center be same axle center, and the axis parallel with mesomerism gear axis (8)；

The axle center of control shaft (13) is vertical with the plane of driving gear (12), the axle center of output shaft (5) and putting down for driven gear (3) Face is vertical；

There is notch at one (12-2) at the circumference of driving gear (12), it is anodontia at this notch (12-2), it is in door Internal handle In the state of not controlled by external force, notch (12-2) is directed at mesomerism gear (9)；

There is notch at one (15-3) at the circumference of motor driven gear (15), it is anodontia at this notch (15-3), in switch (11) Under controlling position (15-1) state of a control on motor driven gear (15), notch (15-3) is directed at mesomerism gear (9)；

It is engaged with mesomerism gear (9) at driven gear (3) circumference position with teeth；

Position of the motor driven gear (15) between driving gear (12) and driven gear (3)；

Door Internal handle above mentions and pushes linkage control axis (13) and driving gear (12), due to the rotation of driving gear (12), On notch (12-20) be no longer aligned with mesomerism gear (9), be changed into position with teeth and engaged with mesomerism gear (9), driven gear (3) controlled rotation, and the thus locking of linkage output shaft (5) control lock body and unlocking；

Motor driving gear (10) rotation linkage motor driven gear (15), motor driven gear (15) link mesomerism gear (9) Rotation, mesomerism gear (9) rotation linkage driven gear (3) rotation, driven gear (3) link output shaft (5), output shaft (5) connection Dynamic lock body connection square shaft (4) realizes locking and unlocks, in the state that door Internal handle is in and is not controlled by external force, driving gear (12) notch on circumference (12-2) alignment mesomerism gear (9), the rotation of mesomerism gear (9) can not link driving gear (12) Rotation, controlled motor (2) not linkage door Internal handle during controlling lock body locking and unlocking.

2. universal intelligent lock controller according to claim 1, it is characterized in that the position with teeth on driven gear (3) circumference (3-1), which need to only meet, with teeth in the slewing area that an Internal handle is above mentioned and pushed normally can lock and unlock.

3. universal intelligent lock controller according to claim 1, it is characterized in that having teeth portion on driving gear (12) circumference Position (12-1,12-3), which need to only meet, with teeth in the slewing area that an Internal handle is above mentioned and pushed normally can lock and unlock.

4. universal intelligent lock controller according to claim 1 is not controlled it is characterized in that being in door Internal handle by external force In the state of, the notch (15-3) in motor driven gear (15) is directed at mesomerism gear (9), the control in motor driven gear (15) Position (15-1) control switch (11) processed, controlled motor (2) stop operating.

5. universal intelligent lock controller according to claim 1, it is characterized in that brake spring (7) is in mesomerism gear axis (8) On, it presses clutch button (16), control mesomerism gear (9) is axial movable in mesomerism gear axis (8), in this case mesomerism gear (9) it can not be engaged with driving gear (12), rotation door Internal handle can not then link lock body connection side axis (4).

6. universal intelligent lock controller according to claim 1, it is characterized in that due to motor driven gear (15) notch The effect of (15-3), during door Internal handle is above mentioned and pushed, only link driven gear (3) rotation, not linkage electricity Machine driven gear (15) and motor driving gear (10).