CN110685505B

CN110685505B - Automatic intelligent lockset

Info

Publication number: CN110685505B
Application number: CN201911113714.2A
Authority: CN
Inventors: 沈汉标; 王妙玉; 童威云; 黄安川; 刘中启
Original assignee: Guangdong Hotata Smart Home Co Ltd
Current assignee: Guangdong Hotata Smart Home Co Ltd
Priority date: 2019-11-14
Filing date: 2019-11-14
Publication date: 2024-01-02
Anticipated expiration: 2039-11-14
Also published as: CN110685505A

Abstract

The invention discloses an automatic intelligent lockset, which comprises: the device comprises a base, a motor reduction gearbox, a rotating shaft, an adapter, an emergency knob and a panel; the panel is fixedly connected with the base, the motor reduction gearbox is fixed in the base, one end of the rotating shaft is connected with the motor reduction gearbox and rotates in a linkage way, and the other end of the rotating shaft is in axial tight abutting joint with the emergency knob; the adapter is axially fixed between the panel and the base, and is circumferentially fixed and axially movable with the rotating shaft; the emergency knob is axially movably arranged in the panel, the holding part of the emergency knob protrudes out of the panel, and the emergency knob is switched between a state of being separated from the adapter and a state of being clamped with the adapter circumferentially. In the process of driving the rotating shaft by the motor reduction gearbox, the emergency knob cannot rotate at the same time, so that unnecessary friction with related parts cannot be generated, and the power consumption of the motor is reduced; the side wall of the emergency knob and the appearance coating of the knob hole peripheral panel are not easy to damage due to friction.

Description

Automatic intelligent lockset

Technical Field

The invention relates to the field of locks, in particular to an automatic intelligent lock.

Background

The automatic intelligent lock is increasingly widely applied and is favored by more and more consumers in the market. In the current market, an automatic intelligent lock is structured by arranging a motor and a reduction gearbox in the lock, wherein the motor reduction gearbox drives a rotating shaft to rotate, thereby driving a lock body to realize locking and unlocking in an automatic mode. Correspondingly, an emergency knob for a manual mode is also designed, and when the motor fails or is damaged, a user can lock and unlock by manually rotating the emergency knob. The emergency knob is also connected with the rotating shaft, and the motor reduction gearbox is usually connected at one end of the rotating shaft, and the emergency knob is connected at the other end of the rotating shaft and is respectively used for automatic operation and manual operation.

In practical use, this structure has been found to have certain drawbacks: when automatic operation, the motor drives the rotating shaft to rotate, then the emergency knob is synchronously driven to rotate, unnecessary friction is generated between the emergency knob and related parts, the power consumption of the motor is increased, and the service performance of the lockset is influenced. Moreover, on the premise of no screwing, the emergency knob automatically rotates on the door, so that the door has no practicability and can bring a cumbersome and tedious look and feel to a user. In addition, the side wall of the emergency knob and the appearance coating of the peripheral panel of the knob hole are damaged by friction, and the emergency knob is exposed and damages the appearance of the lockset.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide an automatic intelligent lockset, and under the condition that an emergency knob is not used, the emergency knob is separated from a rotating shaft for transmission, and the emergency knob cannot automatically rotate along with the driving of a motor reducer; when the emergency knob is needed to be used, the emergency knob is pressed into a certain stroke, the emergency knob and the rotating shaft are linked to rotate, and the rotating shaft can be driven to rotate by screwing the emergency knob, so that unlocking or locking is realized.

The invention is realized by adopting the following technical scheme:

an automated smart lock, comprising: the device comprises a base, a motor reduction gearbox, a rotating shaft, an adapter, an emergency knob and a panel; the panel is fixedly connected with the base, the motor reduction gearbox is fixed in the base, one end of the rotating shaft is connected with the motor reduction gearbox and rotates in parallel, and the other end of the rotating shaft is in axial tight abutting joint with the emergency knob; the adapter is axially and fixedly arranged between the panel and the base, and is circumferentially fixed and axially movable with the rotating shaft; the emergency knob is axially movably arranged in the panel, the holding part of the emergency knob protrudes out of the panel, and the emergency knob is switched between a state of being separated from the adapter and a state of being circumferentially clamped with the adapter.

Further, the rotating shaft is axially and movably arranged in the motor reduction gearbox, a first clamping groove is formed in the motor reduction gearbox, and a first convex rib which is suitable for being matched with the first clamping groove is formed in the outer edge of one end of the rotating shaft; the rotating shaft and the motor reduction gearbox are clamped and fixed in the circumferential direction so as to realize linkage rotation.

Further, a second clamping groove is formed in the outer edge of the rotating shaft, one end of the second clamping groove extends to the end part of the rotating shaft in an opening mode, and a second convex rib matched with the second clamping groove is arranged in the adapter; through the second convex rib and the movable fit of the second clamping groove, the adapter and the rotating shaft are circumferentially fixed and axially movable.

Further, a third clamping groove is further formed in the adapter, and a third convex rib matched with the third clamping groove is arranged on the emergency knob; the emergency knob and the adapter are matched with each other through the third clamping groove and the third convex ribs to achieve circumferential clamping.

Further, a clamp spring is fixedly arranged on the outer edge of the rotating shaft, a gasket and a spring are sequentially arranged on one side of the clamp spring, two sides of the gasket are respectively abutted to the emergency knob and the spring, and two sides of the spring are respectively abutted to the gasket and the adapter.

Further, a first boss is arranged at the central position of the emergency knob, and the first boss is tightly abutted to one end face of the rotating shaft.

Further, a second boss is arranged on the emergency knob and is abutted with the gasket.

Further, the automatic intelligent lockset further comprises a sealing cover, and the sealing cover is fixedly covered outside the panel and the emergency knob.

Further, the automatic intelligent lockset further comprises an inner lining piece, wherein a knob hole is formed in the inner lining piece; the lining piece is fixedly arranged between the sealing cover and the panel, and the emergency knob is arranged in the knob hole.

Further, the automatic intelligent lockset further comprises a rubber ring, and the rubber ring is fixedly arranged between the adapter and the base.

Compared with the prior art, the invention has the following beneficial effects: the motor reduction gearbox drives the rotating shaft and the adapter to rotate in a linkage way, so that locking and unlocking are realized, and under the general condition, the emergency knob and the adapter are in a separated state, so that the motor reduction gearbox cannot drive the emergency knob to rotate at the same time; when needs manual unblanking, the user is with emergent knob toward the tool to lock internal pressure back of certain stroke, and emergent knob directly promotes the pivot and withdraws from the reducing gear box, and emergent knob gets into the adapter internal lock simultaneously and fixes, and the speed reducer can not drive the pivot again this moment, and emergent knob, adapter, pivot three can the linkage rotate, so the user can twist the knob through the hand and lock or unblank. In the process of driving the rotating shaft by the motor reduction gearbox, the emergency knob cannot rotate at the same time, so that unnecessary friction with related parts cannot be generated, and the power consumption of the motor is reduced; but also has simple and good appearance; in addition, the side wall of the emergency knob and the appearance coating of the peripheral panel of the knob hole are not easy to damage due to friction, so that the appearance of the lockset is kept to be good; it is also ensured that the lock can be locked and unlocked manually in an emergency situation.

Drawings

FIG. 1 is an overall external view of the present invention;

FIG. 2 shows an exploded view of the present invention;

FIG. 3 shows a cross-sectional view of the present invention;

FIG. 4 is a front view of FIG. 3;

FIG. 5 is an assembled cross-sectional view of the emergency knob, adapter, shaft, motor reduction gearbox;

FIG. 6 is an exploded view of the shaft and motor reduction gearbox;

FIG. 7 is an exploded view of the emergency knob, adapter and shaft;

FIG. 8 shows another exploded view of the emergency knob, the swivel, and the spindle.

In the figure: 10. a base; 20. a motor reduction gearbox; 21. a first clamping groove; 30. a rotating shaft; 31. the first convex rib; 32. a second clamping groove; 40. an adapter; 41. the second convex rib; 42. a third clamping groove; 50. an emergency knob; 51. a third rib; 52. a first boss; 53. a second boss; 60. a panel; 70. clamping springs; 80. a gasket; 90. a spring; 100. a cover; 110. a lining member; 120. and a rubber ring.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and detailed description, wherein it is to be understood that, on the premise of no conflict, the following embodiments or technical features may be arbitrarily combined to form new embodiments.

Referring to fig. 1-5, the present invention discloses an automatic intelligent lock, comprising: base 10, motor reduction box 20, pivot 30, adapter 40, emergency knob 50 and panel 60. The panel 60 is fixedly connected with the base 10, the motor reduction gearbox 20 is fixed in the base 10, one end of the rotating shaft 30 is connected with the motor reduction gearbox 20 and rotates in a linkage way, and the other end of the rotating shaft 30 is in axial tight abutting joint with the emergency knob 50; the adapter 40 is fixedly arranged between the panel 60 and the base 10 in the circumferential direction, and the adapter 40 and the rotating shaft 30 are fixedly and axially movable in the circumferential direction; the emergency knob 50 is axially movably arranged in the panel 60, and the holding part of the emergency knob protrudes out of the panel 60 so as to be held and screwed by a user; the emergency knob 50 is switched between a state of being disengaged from the adapter 40 and a state of being engaged with the adapter 40 in the circumferential direction.

Thus, with continued reference to fig. 3-5, the emergency knob 50 and the shaft 30 are axially movable, the adapter 40 is axially fixed, and by pressing the emergency knob 50, the shaft 30 can be pushed to back out of the reduction gearbox, and the shaft 30 is no longer driven by the reduction gearbox. Meanwhile, the rotating shaft 30 and the adapter 40 are kept circumferentially clamped, and the rotating shaft and the adapter always keep linkage rotation; after the emergency knob 50 is pressed into a certain stroke, the state of being separated from the adapter 40 is changed into the state of being circumferentially clamped with the adapter 40, at the moment, the emergency knob 50, the adapter 40 and the rotating shaft 30 are in linkage rotation, and the rotating shaft 30 can be rotated by screwing the emergency knob 50.

Specifically, referring to fig. 6, the rotating shaft 30 is axially movably disposed in the motor reduction gearbox 20, a first clamping groove 21 is disposed in the motor reduction gearbox 20, and a first rib 31 adapted to cooperate with the first clamping groove 21 is disposed on an outer edge of one end of the rotating shaft 30; through the cooperation of first draw-in groove 21 and first protruding muscle 31, pivot 30 and motor reduction gearbox 20 block fixedly in the axial to realize the coordinated rotation.

Specifically, referring to fig. 7-8, a second clamping groove 32 is provided on the outer edge of the rotating shaft 30, and an opening of one end of the second clamping groove 32 extends to the end of the rotating shaft 30 to form a chute with an opening on the left side; the adapter 40 is internally provided with a second convex rib 41 matched with the second clamping groove 32, the second clamping groove 32 can slide relative to the second convex rib 41, and the adapter 40 and the rotating shaft 30 are circumferentially fixed and axially movable through movable fit between the second clamping groove 32 and the second convex rib. More specifically, the 4 second clamping grooves 32 are distributed on the outer edge of the rotating shaft 30 in a cross shape.

Specifically, referring to fig. 7-8, a third clamping groove 42 is further provided on the adapter 40, a third rib 51 adapted to the third clamping groove 42 is provided on the emergency knob 50, and circumferential clamping is achieved between the emergency knob 50 and the adapter 40 through cooperation of the third clamping groove 42 and the third rib 51. More specifically, the plurality of third beads 51 are uniformly arranged in a circular shape on the emergency knob 50.

Under the condition that the motor reduction gearbox 20 drives the rotating shaft 30 to rotate (in a normal state), the emergency knob 50 and the adapter 40 are in a disengaged state, the motor reduction gearbox 20 drives the rotating shaft 30 to rotate through the cooperation of the first clamping groove 21 and the first convex rib 31, and at the moment, the emergency knob 50 is not in transmission with the adapter 40, so that the emergency knob cannot rotate along with the rotating shaft 30. In the failure or emergency state (emergency state) of the motor, the user needs to unlock manually, the emergency knob 50 is pressed into a certain stroke by pressing the emergency knob 50, the emergency knob 50 pushes the rotating shaft 30 to reversely withdraw from the motor, at the moment, the first convex rib 31 and the first clamping groove 21 are separated from transmission, and the rotating shaft 30 is not driven by the motor any more; meanwhile, the second clamping groove 32 slides relative to the second convex rib 41, and only axially slides between the rotating shaft 30 and the adapter 40, and still remains circumferentially fixed. In addition, the emergency knob 50 is clamped into the adapter 40, and the third ribs 51 and the third clamping grooves 42 are matched, so that the emergency knob 50 and the adapter 40 are circumferentially fixed, and the emergency knob 50, the adapter 40 and the rotating shaft 30 can be in linkage rotation; at this time, the user can rotate the rotating shaft 30 by manually screwing the emergency knob 50, so as to realize locking or unlocking.

It should be noted that, there is a certain transmission relation between the rotating shaft 30 and the lock tongue, when the rotating shaft 30 rotates in different directions, the lock tongue can make telescopic movement, so as to achieve locking or unlocking. In the present invention, this part is a common technology in the industry, so the transmission of this part will not be repeated, and those skilled in the art only need to know how to rotate the rotating shaft 30, so the present invention can be implemented.

Specifically, referring to fig. 5, a clamp spring 70 is fixedly disposed on the outer edge of the rotating shaft 30, one side of the clamp spring 70 is sequentially provided with a washer 80 and a spring 90, two sides of the washer 80 are respectively abutted with the emergency knob 50 and the spring 90, and two sides of the spring 90 are respectively abutted with the washer 80 and the adapter 40.

By arranging the gasket 80 and the spring 90 at the side part of the jump ring 70, the emergency knob 50 can push the jump ring 70 to move towards the inner direction of the lock under the condition of no external force (normal state), and the jump ring 70 is fixedly clamped on the rotating shaft 30, so that the rotating shaft 30 can be pressed into the inner direction of the motor reduction gearbox 20, and the rotating shaft 30 is kept to be driven by the motor reduction gearbox 20; at the same time, the shaft 30 will hold the emergency knob 50 against the panel 60. In the event of a failure or emergency (emergency state), the user presses the emergency knob 50 for a certain stroke (the pressing force is enough to overcome the acting force of the spring 90), so that the rotating shaft 30 can be separated from the motor reduction gearbox 20, and the manual unlocking can be performed.

Specifically, referring to fig. 5 and 8, a first boss 52 is disposed at a central position of the emergency knob 50, and the first boss 52 is closely abutted to an end surface of the rotating shaft 30. The first boss 52 is an abutment portion where the emergency knob 50 contacts the rotation shaft 30.

Specifically, the emergency knob 50 is provided with a second boss 53, and the second boss 53 abuts against the washer 80. The second boss 53 is an abutment portion where the emergency knob 50 contacts the washer 80, and the spring force acts on the second boss 53 through the washer 80, so that the emergency knob 50 is kept against the panel 60.

Referring specifically to fig. 1-2, the present invention further includes a cover 100, the cover 100 fixedly covering the panel 60 and the emergency knob 50. The emergency knob 50 is arranged under the sealing cover 100, so that damage to the appearance surface of the panel 60 is avoided, the appearance effect is influenced, the appearance of the lockset is concise and elegant, and the overall consistency of the appearance is improved. In use, the cover 100 is removed and the emergency knob 50 is operated.

More specifically, referring to fig. 2, the present invention further includes an inner liner 110, and the inner liner 110 is provided with a knob hole; the inner lining member 110 is fixedly disposed between the panels 60, and the emergency knob 50 is disposed in the knob hole. The lining member 110 is filled between the cover 100 and the panel 60, and increases the strength of the cover 100, so that it is not easily deformed when being impacted.

More specifically, referring to fig. 2, the present invention further includes a rubber ring 120, where the rubber ring 120 is fixedly disposed between the adapter 40 and the base 10, and is used for reducing friction generated on the base 10 when the adapter 40 rotates, and reducing power consumption of the motor.

By elaborating the above embodiments, it can be understood that the emergency knob does not rotate simultaneously in the process of driving the rotating shaft by the motor reduction gearbox, so that unnecessary friction with related parts is avoided, and the power consumption of the motor is reduced; but also has simple and good appearance; in addition, the side wall of the emergency knob and the appearance coating of the peripheral panel of the knob hole are not easy to damage due to friction, so that the appearance of the lockset is kept to be good; it is also ensured that the lock can be locked and unlocked manually in an emergency situation.

The above embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, but any insubstantial changes and substitutions made by those skilled in the art on the basis of the present invention are intended to be within the scope of the present invention as claimed.

Claims

1. An automatic intelligent lockset, comprising: the device comprises a base, a motor reduction gearbox, a rotating shaft, an adapter, an emergency knob and a panel; the panel is fixedly connected with the base, the motor reduction gearbox is fixed in the base, one end of the rotating shaft is connected with the motor reduction gearbox and rotates in parallel, and the other end of the rotating shaft is in axial tight abutting joint with the emergency knob; the adapter is axially and fixedly arranged between the panel and the base, and is circumferentially fixed and axially movable with the rotating shaft; the emergency knob is axially movably arranged in the panel, the holding part of the emergency knob protrudes out of the panel, the emergency knob is switched between a state of being separated from the adapter and being circumferentially clamped with the adapter, the rotating shaft is axially movably arranged in the motor reduction gearbox, a first clamping groove is arranged in the motor reduction gearbox, and a first convex rib suitable for being matched with the first clamping groove is arranged on the outer edge of one end of the rotating shaft; the rotating shaft and the motor reduction gearbox are clamped and fixed in the circumferential direction so as to realize linkage rotation.

2. The automatic intelligent lock according to claim 1, wherein a second clamping groove is formed in the outer edge of the rotating shaft, one end of the second clamping groove extends to the end of the rotating shaft, and a second convex rib matched with the second clamping groove is arranged in the adapter; through the second convex rib and the movable fit of the second clamping groove, the adapter and the rotating shaft are circumferentially fixed and axially movable.

3. The automatic intelligent lockset according to claim 1, wherein a third clamping groove is further arranged on the adapter, and a third convex rib matched with the third clamping groove is arranged on the emergency knob; the emergency knob and the adapter are matched with each other through the third clamping groove and the third convex ribs to achieve circumferential clamping.

4. The automatic intelligent lock according to claim 1, wherein a clamp spring is further fixedly arranged on the outer edge of the rotating shaft, a gasket and a spring are sequentially arranged on one side of the clamp spring, two sides of the gasket are respectively abutted with the emergency knob and the spring, and two sides of the spring are respectively abutted with the gasket and the adapter.

5. The automatic intelligent lock according to claim 1, wherein a first boss is arranged at a central position of the emergency knob, and the first boss is tightly abutted to an end face of the rotating shaft.

6. The automatic intelligent lock according to claim 4, wherein a second boss is provided on the emergency knob, the second boss abutting the washer.

7. The automatic intelligent lockset of claim 1 further comprising a cover, said cover fixedly covering said panel and said emergency knob.

8. The automatic intelligent lockset according to claim 7, further comprising a liner member having a knob hole disposed thereon; the lining piece is fixedly arranged between the sealing cover and the panel, and the emergency knob is arranged in the knob hole.

9. The automatic intelligent lockset of claim 1 further comprising a rubber ring fixedly disposed between said adapter and said base.