CN217557987U - Intelligent door lock - Google Patents

Abstract

The present disclosure relates to an intelligent door lock, including: a lock body having a working chamber; the welcome lamp module is detachably connected to the lock body; the welcome lamp module is provided with a locking end, and when the welcome lamp module is connected to the lock body, the locking end is positioned in the operation chamber; the adjusting assembly is connected with the lock body and is positioned in the operation chamber; the adjusting component is used for abutting against the locking end; the lock core component is connected with the adjusting component; and the lock core component rotates to drive the adjusting component to move so as to loosen the locking end. The technical problem that the usher lamp module on traditional intelligence lock can't be dismantled, changed has effectively been solved to this disclosed technical scheme.

Description

Intelligent door lock

Technical Field

The utility model relates to a household equipment technical field especially relates to an intelligent lock.

Background

Along with the development of the society, people's standard of living improves, and intelligent lock is more and more favored by the consumer. In order to meet the higher and higher use requirements of users, a welcome lamp function is arranged on part of intelligent door locks. However, in the related art, the welcome lamp module is directly fixed on the intelligent door lock and cannot be detached and replaced, and poor use experience is brought to users.

Disclosure of Invention

The utility model provides an intelligence lock to solve the technical problem that usher's lamp module on the traditional intelligence lock can't be dismantled, changed.

To this end, the present disclosure provides an intelligent door lock, comprising:

a lock body having a working chamber;

the welcome lamp module is detachably connected to the lock body; the welcome lamp module is provided with a locking end, and when the welcome lamp module is connected to the lock body, the locking end is positioned in the operation chamber;

the adjusting component is connected with the lock body and is positioned in the operation chamber; the adjusting component is used for abutting against the locking end; and a plug assembly connected to the adjustment assembly; the lock cylinder component rotates to drive the adjusting component to move so as to loosen the locking end.

In one possible implementation mode, the lock body is provided with a mounting part and a mounting hole communicated with the operation cavity from the mounting part, the welcome lamp module comprises a lamp body, a connecting seat and a locking piece, the lamp body is connected to the connecting seat, and the locking piece is connected to one side, away from the lamp body, of the connecting seat;

the connecting seat is inserted in the mounting part, and the locking piece penetrates through the mounting hole and extends into the operation chamber;

the adjusting component is used for abutting against the locking piece.

In a possible implementation manner, the locking piece is provided with a tight abutting inclined surface, the tight abutting inclined surface is arranged towards the opposite side of the connecting seat, and the tight abutting inclined surface and the connecting seat are arranged at an obtuse angle.

In a possible implementation mode, a lock catch is arranged on the inner side wall of the lock body and corresponds to the mounting hole, and a lock hole penetrating through the abutting inclined plane is formed in the locking piece;

when the welcome lamp module is connected to the lock body, the lock catch is inserted into the lock hole.

In a possible implementation mode, a guide inclined plane is arranged on the lock catch and is arranged on one side, back to the mounting hole, of the lock catch, and an included angle formed between the guide inclined plane and the inner side wall of the lock body is 20-45 degrees; or the like, or, alternatively,

be equipped with first direction inclined plane and second direction inclined plane on the hasp, one side of hasp towards the mounting hole is located to first direction inclined plane, and one side of hasp dorsad mounting hole is located to second direction inclined plane, and the contained angle between the inside wall of first direction inclined plane and lock body is 20 ~ 45, and the contained angle between the inside wall of second direction inclined plane and lock body is 20 ~ 45.

In one possible embodiment, the adjustment assembly comprises:

the shell is connected with the lock body and provided with an adjusting cavity, and a first through hole and a second through hole which penetrate through the adjusting cavity are formed in the shell;

the guide piece is movably arranged in the adjusting cavity;

one end of the connecting rod is connected to the lock core component, and the other end of the connecting rod passes through the first through hole and is connected to the guide piece;

one end of the top tightening piece is abutted against the guide piece, and the other end of the top tightening piece penetrates through the second through hole and is used for abutting against the locking end;

the first resetting piece is sleeved on the top tightening piece and is positioned in the adjusting cavity; the first resetting piece is used for providing an elastic force for enabling the top piece to move towards the approaching guide piece;

the lock cylinder component rotates to drive the connecting rod to move towards the direction of keeping away from the lock cylinder component, the guide part moves towards the direction of keeping away from the lock cylinder component, and the jacking part moves towards the direction close to the guide part so as to loosen the locking end.

In one possible embodiment, the guide is spindle-shaped, the guide having a width direction;

the top tight piece is abutted to the guide piece along the width direction, and when the other end of the top tight piece is abutted to the locking end, the top tight piece is abutted to the center of the guide piece.

In a possible embodiment, the guide member has a length direction, the guide member is provided with a first connecting portion, the first connecting portion extends along the length direction, and the connecting rod is provided with a first hook, and the first hook is hooked with the first connecting portion.

In a possible implementation manner, a second connecting portion opposite to the first connecting portion is arranged on the guide piece, the second connecting portion extends along the length direction, the adjusting assembly further comprises a second resetting piece, one end of the second resetting piece is sleeved on the second connecting portion, and the other end of the second resetting piece abuts against the inner side wall of the shell.

In a possible embodiment, a limiting member is disposed in the working chamber of the lock body, and the adjusting assembly further includes a fixing member connected to an outer side wall of the housing, and the fixing member is used for being connected and fastened to the limiting member.

In a possible implementation manner, the connecting rod is provided with a second hook, the lock cylinder assembly comprises a lock cylinder structure and a clamp spring, a clamp groove is formed in a lock cylinder tail rod of the lock cylinder structure, the clamp spring is sleeved in the clamp groove, and the second hook is connected to the clamp spring in a hanging manner.

According to this intelligence lock that openly provides, include: a lock body having a working chamber; the welcome lamp module is detachably connected to the lock body; the welcome lamp module is provided with a locking end, and when the welcome lamp module is connected to the lock body, the locking end is positioned in the operation chamber; the adjusting component is connected with the lock body and is positioned in the operation chamber; the adjusting component is used for tightly abutting against the locking end; the lock core component is connected with the adjusting component; the lock core component rotates to drive the adjusting component to move so as to loosen the locking end. This disclosed technical scheme sets up the structure of intelligent lock through optimizing to with meeting the guest lamp module can dismantle to connect on the lock body, realize meeting the guest lamp module can dismantle, removable, effectively improved user's use and experienced the sense. Particularly, configure into the intelligent lock and include the combined member of lock body, usher's lamp module, adjusting part and lock core subassembly at least, this usher's lamp module can dismantle and connect in the lock body, and when the usher's lamp module was connected on the lock body, the operation cavity of lock body was arranged in to the locking end of this usher's lamp module to receive adjusting part's support tightly, so, in order to improve the usher's lamp module and the fastening nature of being connected of lock body. When meeting light module is changed to needs, rotate through lock core subassembly to the drive is connected the adjusting part motion on the lock core subassembly, thereby makes adjusting part loosen and supports tightly to the locking end, and at this moment, meeting light module can be followed the lock body and dismantled, so that operating personnel maintains, changes. The intelligent door lock is simple in structure and convenient to assemble; the linkage of each part is strong, the occupied space is small, and the miniaturization of the intelligent lock is facilitated.

Drawings

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present disclosure, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise. In addition, in the drawings, like parts are denoted by like reference numerals, and the drawings are not drawn to actual scale.

Fig. 1 is a schematic perspective view of an intelligent door lock provided in an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of a greeting-light module provided in the embodiment of the present disclosure;

FIG. 3 is a schematic view of a portion of a lock body according to an embodiment of the present disclosure;

FIG. 4 is an enlarged view of portion A of FIG. 3;

FIG. 5 is an exploded view of an adjustment assembly provided by an embodiment of the present disclosure;

FIG. 6 is a schematic structural view of a guide provided in an embodiment of the present disclosure;

FIG. 7 is a schematic structural diagram of a connecting rod provided in an embodiment of the present disclosure;

FIG. 8 is a schematic structural view of a plug assembly provided in accordance with an embodiment of the present disclosure;

fig. 9 is a partially enlarged view of fig. 8.

Description of reference numerals:

100. a lock body; 101 an installation part; 102. mounting holes; 110. locking; 111. a first guide slope; 112. a second guide slope; 120. a limiting member;

200. a welcome lamp module; 210. a lamp body; 220. a connecting seat; 230. a locking member; 231. tightly abutting against the inclined plane; 232. a lock hole;

300. an adjustment assembly; 310. a housing; 311. a first through hole; 312. a second through hole; 320. a guide member; 321. a first connection portion; 322. a second connecting portion; 330. a connecting rod; 331. a first hook; 332. a second hook; 340. a top tightening member; 350. a first reset member; 360. a second reset member; 370. a fixing member;

400. a plug assembly; 410. a lock cylinder structure; 420. a clamp spring; 421. and (6) clamping the hole.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present disclosure more clear, the technical solutions of the embodiments of the present disclosure will be described clearly and completely with reference to the drawings in the embodiments of the present disclosure, and it is obvious that the described embodiments are some embodiments of the present disclosure, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

Referring to fig. 1, an embodiment of the present disclosure provides an intelligent door lock, including: lock body 100, usher lamp module 200, adjusting part 300 and lock body 100.

A lock body 100 having a working chamber;

the welcome lamp module 200 is detachably connected to the lock body 100; the welcome lamp module 200 has a locking end, and when the welcome lamp module 200 is connected to the lock body 100, the locking end is located in the operation chamber;

an adjusting assembly 300 connected to the lock body 100 and located in the working chamber; the adjusting component 300 is used for abutting against the locking end; and

a plug assembly 400 connected to the adjustment assembly 300; the plug assembly 400 rotates to move the adjustment assembly 300 to release the locking end.

In this embodiment, through the structure that sets up intelligent lock of optimization to can dismantle the usher lamp module 200 and connect on lock body 100, thereby realize that the usher lamp module 200 can dismantle, removable, effectively improved user's use experience and feel.

Specifically, the intelligent door lock is configured as a combined component at least comprising a lock body 100, a welcome lamp module 200, an adjusting assembly 300 and a lock cylinder assembly 400, wherein the welcome lamp module 200 is detachably connected to the lock body 100, the adjusting assembly 300 is accommodated in the working chamber, and the lock cylinder assembly 400 is connected to the adjusting assembly 300. When the welcome lamp module 200 is connected to the lock body 100, the locking end of the welcome lamp module 200 is disposed in the working chamber of the lock body 100 and is supported by the adjusting assembly 300, so as to improve the connection and fastening between the welcome lamp module 200 and the lock body 100. When the welcome lamp module 200 needs to be replaced, the lock cylinder assembly 400 is rotated, and the adjusting assembly 300 connected to the lock cylinder assembly 400 is driven to move, so that the adjusting assembly 300 is tightly abutted to the locking end, and at the moment, an operator can detach the welcome lamp module 200 from the lock body 100, so that the operator can maintain and replace the welcome lamp module 200. Therefore, the intelligent door lock is simple in structure and convenient to assemble; the linkage of each part is strong, the occupied space is small, and the miniaturization of the intelligent lock is facilitated.

Further, the lock body 100 includes an outer lock having an operation chamber, and a key hole into which a key is inserted is formed on the outer lock. At this moment, this usher lamp module 200 can be dismantled and connect on outer latch fitting, and this adjusting part 300 is connected in outer latch fitting, and the one end intercommunication key hole of this lock core subassembly 400, adjusting part 300 is connected to the other end, so, when the key inserts the key hole and rotates, can drive lock core subassembly 400 and rotate, and at this moment, the lock core tailrod of this lock core subassembly 400 can stretch out and draw back to drive the motion of adjusting part 300, make adjusting part 300 loosen and support tightly to usher lamp module 200's the end of locking.

Referring to fig. 2, in one possible embodiment, the lock body 100 has a mounting portion 101 and a mounting hole 102 communicating with the working chamber from the mounting portion 101, the usher lamp module 200 includes a lamp body 210, a connecting seat 220 and a locking element 230, the lamp body 210 is connected to the connecting seat 220, and the locking element 230 is connected to a side of the connecting seat 220 away from the lamp body 210;

the connecting base 220 is inserted into the mounting portion 101, and the locking element 230 passes through the mounting hole 102 and extends into the working chamber;

adjustment assembly 300 is used to abut locking feature 230.

In this embodiment, the specific structure of the usher light module 200 is optimized, and meanwhile, the specific structure of the joint between the lock body 100 and the usher light module 200 is optimized, so as to optimize the connection manner between the usher light module 200 and the lock body 100. In the embodiment, the connection mode of the usher light module 200 and the lock body 100 is set to be a plug-in mode, so that the usher light module 200 is convenient to detach and install. Specifically, the greeting-light module 200 is configured as a combined component at least including the light body 210, the connecting seat 220 and the locking element 230, and the lock body 100 is provided with a mounting portion 101 to cooperate with the combined component. Further, the lamp body 210 exposes the lock body 100 to provide light to the user; the connecting base 220 is inserted into the mounting portion 101 to realize the connection and fastening of the greeting lamp module 200 and the lock body 100; this locking part 230 passes through mounting hole 102 and inserts in the operation cavity, can realize this usher's lamp module 200 and adjusting part 300's linkage action on the one hand, and on the other hand still can increase the connection fastening nature of usher's lamp module 200 and lock body 100, prevents that usher's lamp module 200 from droing from lock body 100, causes the potential safety hazard.

For example, but not limited to, the mounting portion 101 is a mounting groove, and the size of the mounting groove matches with the size of the connection seat 220, so as to completely insert the connection seat 220 into the mounting groove. The bottom of the mounting groove is provided with a mounting hole 102 penetrating through the operation chamber, and when the connecting seat 220 is inserted into the mounting groove, the locking element 230 passes through the mounting hole 102 and is inserted into the operation chamber to act with the adjusting component 300.

In one embodiment, there are two mounting holes 102, the two mounting holes 102 are respectively disposed on two opposite sides of the mounting portion 101, and there are two locking elements 230, the two locking elements 230 are respectively connected to two opposite sides of the connecting base 220. Thus, when the usher light module 200 is connected to the lock body 100, the two locking elements 230 are respectively inserted into the mounting holes 102 and are disposed in the working chamber; the connecting seat 220 is inserted into the mounting part 101, so that the welcome lamp module 200 is matched with the lock body 100; the lamp body 210 exposes the lock body 100 to provide light to a user.

In one possible embodiment, the locking element 230 is provided with a pressing inclined surface 231, and the pressing inclined surface 231 faces the connecting seat 220, see fig. 2, and is arranged at an opposite side, and the pressing inclined surface 231 is arranged at an obtuse angle with the connecting seat 220.

In this embodiment, the specific structure of the locking element 230 is optimized. Specifically, a holding inclined surface 231 is provided on the locking element 230 to cooperate with the adjusting assembly 300. The locking element 230 is in a wedge-shaped structure, and the size of the cross-sectional area of the locking element 230 is linearly changed in the installation direction of the locking element 230, and the larger the cross-sectional area of the locking element 230 closer to the connecting base 220 is, the smaller the cross-sectional area of the locking element 230 farther from the connecting base 220 is. Thus, when the locking element 230 is inserted into the working chamber, the situation that the locking element 230 is pushed by the adjusting component 300 and cannot be inserted can be effectively reduced, which is beneficial to the assembly of the welcome lamp module 200.

Optionally, the locking element 230 is further provided with an abutting plane, and the abutting plane is disposed opposite to the abutting inclined plane 231. After the locking member 230 is inserted into the working chamber, the abutting plane abuts against the inner side wall of the lock body 100, and the abutting inclined plane 231 is abutted by the adjusting component 300, so that the connection tightness between the welcome lamp module 200 and the lock body 100 is further improved through the adjusting component 300.

Referring to fig. 2 to 4, in a possible embodiment, the inner side wall of the lock body 100 is provided with a lock catch 110, the lock catch 110 is disposed corresponding to the mounting hole 102, and the locking element 230 is provided with a lock hole 232 penetrating through the abutting inclined surface 231;

when the welcome lamp module 200 is connected to the lock body 100, the lock catch 110 is inserted into the lock hole 232.

In this embodiment, the connection between the locking element 230 and the lock body 100 is optimized. Specifically, the locking element 230 and the lock body 100 are locked and fixed by a snap structure. The locking element 230 is configured to have a structure of a locking hole 232, and meanwhile, a corresponding lock catch 110 is disposed on the inner sidewall of the lock body 100 and is corresponding to the locking hole 232, so that after the locking element 230 is inserted into the working space, the lock catch 110 is locked into the locking hole 232, thereby completing the first-layer fastening of the locking element 230 and the lock body 100.

For example, but not limited to, the lock 110 is a male lock and the locking element 230 is a female lock.

Referring to fig. 4, in a possible embodiment, the lock catch 110 is provided with a guide inclined surface, the guide inclined surface is arranged on a side of the lock catch 110 facing away from the mounting hole 102, and an included angle between the guide inclined surface and an inner side wall of the lock body 100 is 20 ° to 45 °.

In this embodiment, the specific structure of the lock 110 is optimally set. Specifically, a guiding inclined surface is provided on the latch 110 and is disposed on a side opposite to the mounting hole 102, so as to facilitate the release of the locking element 230 from the latch 110. It will be appreciated that the closer the guide ramp is to the mounting hole 102, the greater the distance between it and the inside wall of the lock body 100.

Further, an included angle between the guide inclined plane and the inner side wall of the lock body 100 is set to be 20-45 degrees, so that the locking element 230 can be separated from the lock catch 110 under the condition of acting force; meanwhile, the locking function of the locking element 230 and the lock catch 110 can be ensured under the condition of no acting force.

Referring to fig. 4, in a possible embodiment, a first guiding inclined plane 111 and a second guiding inclined plane are arranged on the lock catch 110, the first guiding inclined plane 111 is arranged on one side of the lock catch 110 facing the mounting hole 102, the second guiding inclined plane is arranged on one side of the lock catch 110 facing away from the mounting hole 102, an included angle between the first guiding inclined plane 111 and an inner side wall of the lock body 100 is 20 to 45 degrees, and an included angle between the second guiding inclined plane and the inner side wall of the lock body 100 is 20 to 45 degrees.

In this embodiment, the specific structure of the lock 110 is optimized. Specifically, two guiding inclined planes are disposed on the lock catch 110, the two guiding inclined planes are disposed in the installation direction of the locking element 230, and the two guiding inclined planes are disposed oppositely, so as to facilitate the assembly of the locking element 230 onto the lock catch 110 through the first guiding inclined plane 111, and facilitate the detachment of the locking element 230 from the lock catch 110 through the second guiding inclined plane when a force is applied. It should be understood that the closer the first guide slope 111 is to the mounting hole 102, the smaller the distance between it and the inner side wall of the lock body 100; the closer the second guide slope is to the mounting hole 102, the greater the distance between it and the inner side wall of the lock body 100.

Further, an included angle between the first guiding inclined plane 111 and the inner side wall of the lock body 100 is set to be 20-45 degrees, and an included angle between the second guiding inclined plane and the inner side wall of the lock body 100 is set to be 20-45 degrees, so that the locking element 230 can be separated from the lock catch 110 under the condition of acting force; meanwhile, the locking function of the locking element 230 and the lock catch 110 can be ensured under the condition of no acting force.

Referring to fig. 5, in one possible embodiment, the adjustment assembly 300 includes:

the shell 310 is connected to the lock body 100, the shell 310 is provided with an adjusting cavity, and the shell 310 is provided with a first through hole 311 and a second through hole 312 which penetrate through the adjusting cavity;

the guide piece 320 can be movably arranged in the adjusting cavity;

a connecting rod 330 having one end connected to the plug assembly 400 and the other end connected to the guide 320 through the first through hole 311;

the top fastening piece 340, one end of which is abutted against the guiding piece 320, and the other end of which passes through the second through hole 312 for abutting against the locking end;

the first resetting piece 350 is sleeved on the top tightening piece 340 and is positioned in the adjusting cavity; the first restoring member 350 is used for providing an elastic force for moving the tightening member 340 towards the approaching guide member 320;

the plug assembly 400 rotates to drive the connecting rod 330 to move in a direction away from the plug assembly 400, the guide 320 moves in a direction away from the plug assembly 400, and the tightening member 340 moves in a direction close to the guide 320 to loosen the locking end.

In this embodiment, the specific structure of the adjusting assembly 300 is optimally set. Specifically, the adjustment assembly 300 is configured as a combined member including at least a housing 310, a guide member 320, a link 330, a tightening member 340, and a first restoring member 350. In the combined member, the housing 310 is used for connecting to the lock body 100 and providing a support and a working space for other components of the adjusting assembly 300; a guide 320 movable in any direction within the housing 310; the connecting rod 330 is used for connecting the plug assembly 400 and the guide 320, so as to realize the linkage of the plug assembly 400 and the guide 320; the top member 340 is used for realizing the linkage of the guide member 320 and the locking end; the first returning member 350 is used to provide the tightening member 340 with an elastic force for driving the tightening member 340 to move toward the guide member 320. This guide 320 is as the linkage component of connecting rod 330 and top piece 340 for with the motion that connecting rod 330 brought from lock core subassembly 400, shift to on the top piece 340, and the motion through top piece 340 changes the relation of being connected of top piece 340 and locking end, thereby realizes supporting tightly and loosening the locking end, and then realizes usher's lamp module 200's connection fastening and can dismantle the performance, improve user's use experience.

Optionally, the housing 310 is a square box. Of course, in other embodiments, the housing 310 may also be a square frame with an opening, and the shape of the housing 310 is not limited herein. The bottom of the housing 310 abuts against the bottom of the lock body 100 and is connected to the lock body 100. For example, but not limiting to, the first through hole 311 is opened on a side plate of the square housing 310 facing the plug assembly 400, and the second through hole 312 is opened on an adjacent side plate. When the greeting lamp module 200 is connected to the lock body 100, the locking end of the greeting lamp module corresponds to the second through hole 312, and the locking end abuts against the side wall of the lock body 100 corresponding to the second through hole 312.

Optionally, the tightening member 340 includes a plug and a ram, the ram being provided on one side of the plug. For example, but not limited to, the plug is a sphere, and the central axis of the ejector pin passes through the spherical center of the plug. The side of the ram remote from the ram abuts the guide 320 and the side of the ram remote from the ram abuts the locking end.

Alternatively, the first restoring member 350 may be a spring, in which case the spring is sleeved outside the top member 340, and one end of the spring abuts against the head of the top member 340 and the other end abuts against the inner sidewall of the housing 310, thereby achieving an elastic connection with the top member 340. Of course, in other embodiments, the first restoring member 350 may also be a soft rubber elastic body, or a hinge spring or other members capable of providing an elastic force.

Referring to fig. 5 and 6, in one possible embodiment, the guide 320 has a spindle shape, and the guide 320 has a width direction;

the tightening member 340 abuts against the guide member 320 in the width direction, and when the other end of the tightening member 340 abuts against the locking end, the tightening member 340 abuts against the center of the guide member 320.

In this embodiment, the structure of the guide 320 is optimally set. Specifically, the guiding element 320 is configured as a spindle structure in a shuttle shape, so that the guiding element 320 has a structural feature that two ends are thick in the middle in the length direction thereof; and based on the above structural features, a linkage manner of each member in the adjustment assembly 300 is provided.

Specifically, the length direction of the guide member 320 is arranged parallel to the axial direction of the connecting rod 330, and the length direction of the guide member 320 is arranged perpendicular to the axial direction of the tightening member 340, that is, the connecting rod 330 is connected to a tip end of the guide member 320, and the tightening member 340 abuts against one side of the guide member 320 in the width direction, so that the connecting rod 330 can drive the guide member 320 to move along the length direction thereof and move away from the lock cylinder assembly 400 under the driving of the lock cylinder assembly 400, and since the second through hole 312 limits the movement of the tightening member 340 in the length direction of the guide member 320, the tightening member 340 can only move towards the guide member 320 and abut against the other position of the guide member 320 under the action of the first restoring member 350, the difference of the front and rear positions of the tightening member 340 on the guide member 320 brings the horizontal movement displacement of the tightening member 340, and the side of the tightening member 340 away from the guide member 320 can be separated from the abutment of the locking end to contact the tightening member 340 against the guest light 200, thereby facilitating the detachment of the guest module 200.

Referring to fig. 5 to 7, in one possible embodiment, the guide 320 has a length direction, the guide 320 is provided with a first connection portion 321, the first connection portion 321 extends along the length direction, the connecting rod 330 is provided with a first hook 331, and the first hook 331 is hooked with the first connection portion 321.

In this embodiment, the specific structures of the guide 320 and the connecting rod 330 are optimally arranged to optimize the connection manner of the guide 320 and the connecting rod 330. Specifically, the first coupling portion 321 is provided on the guide 320, and at the same time, the first hook 331 is provided at the end of the link 330, so that the link 330 is hooked to the first coupling portion 321 by the first hook 331. It should be understood that the first connecting portion 321 is provided with a hanging hole for hanging the common hook. For example, but not limiting of, the first connection portion 321 is a flat connection lug.

Referring to fig. 5 to 7, in a possible embodiment, the guide member 320 is provided with a second connecting portion 322 opposite to the first connecting portion 321, the second connecting portion 322 extends along the length direction, the adjusting assembly 300 further includes a second resetting member 360, one end of the second resetting member 360 is sleeved on the second connecting portion 322, and the other end of the second resetting member 360 abuts against the inner side wall of the housing 310.

In this embodiment, the connection manner of the guide 320 and the housing 310 is optimized. Specifically, the second restoring member 360 is further provided, and the second connecting portion 322 is further provided on the guide member 320, so that the restoring effect of the guide member 320 is achieved by providing the second restoring member 360 between the second connecting portion 322 and the housing 310. For example, but not limited to, the second connection portion 322 is a convex pillar.

Optionally, the second restoring member 360 may be a spring, in which one end of the spring is sleeved outside the second connecting portion 322, and one end of the spring abuts against the housing 310, so as to achieve the elastic connection between the guiding member 320 and the housing 310. Of course, in other embodiments, the second restoring member 360 may also be a soft rubber elastic body, or a hinge spring or other members capable of providing an elastic force.

Referring to fig. 3 and 5, in a possible embodiment, the position-limiting member 120 is disposed in the working chamber of the lock body 100, and the adjusting assembly 300 further includes a fixing member 370, the fixing member 370 is connected to an outer side wall of the housing 310, and the fixing member 370 is used to be connected and fastened with the position-limiting member 120.

In this embodiment, the connection between the housing 310 and the lock body 100 is optimized. Specifically, the stopper 120 is provided in the working chamber of the lock body 100, and the fixing member 370 is provided in the housing 310, so that the housing 310 and the lock body 100 are coupled and fastened by coupling the fixing member 370 and the stopper 120.

Alternatively, the fixing member 370 is provided in two, two fixing members 370 are respectively provided at two opposite sides of the housing 310, and the two fixing members 370 are located on a diagonal line of the housing 310. The two position-limiting members 120 are provided, and the positions of the two position-limiting members 120 correspond to the positions of the two fixing members 370, respectively.

Optionally, the limiting member 120 is a connecting column, and the fixing member 370 is a connecting lug, which is provided with a connecting hole. One end of the connecting column is fixedly connected to the inner wall of the lock body 100, and the other end of the connecting column passes through the connecting hole, so as to realize the connection and fastening of the shell 310 and the lock body 100. For example, but not limited to, the stopper 120 is a screw post.

Referring to fig. 8 and 9, in a possible embodiment, a second hook 332 is provided on the connecting rod 330, the plug assembly 400 includes a plug structure 410 and a clamp spring 420, a tail rod of the plug structure 410 is provided with a clamping groove, the clamp spring 420 is sleeved in the clamping groove, and the second hook 332 is hung on the clamp spring 420.

In this embodiment, the manner of connection of the connecting rod 330 to the plug assembly 400 is optimized. Specifically, the plug assembly 400 is configured as a combined member including at least a plug structure 410 and a clamp spring 420, and the clamp spring 420 is coupled to a plug tail of the plug structure 410, so that the clamp spring 420 is protruded along with the plug tail when the plug structure 410 is rotated. Meanwhile, the connecting rod 330 is configured as a structural member having a second hook 332, and the second hook 332 is hooked to the clamp spring 420, so that the connecting rod 330 can be driven to move when the clamp spring 420 extends along with the lock cylinder tail rod.

Optionally, in order to prevent the horizontal misalignment and displacement of the link 330 and the clamp spring 420, a clamp hole 421 is formed in the clamp spring 420 for the second hook 332 to be inserted into, thereby improving the operation stability of the link 330 and the clamp spring 420.

It is noted that, in this document, relational terms such as "first" and "second," and the like, are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising a," "8230," "8230," or "comprising" does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

The foregoing are merely exemplary embodiments of the present disclosure, which enable those skilled in the art to understand or practice the present disclosure. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the disclosure. Thus, the present disclosure is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (11)

1. An intelligent door lock, comprising:

a lock body having a working chamber;

the welcome lamp module is detachably connected to the lock body; the welcome lamp module is provided with a locking end, and when the welcome lamp module is connected to the lock body, the locking end is positioned in the operation chamber;

the adjusting component is connected to the lock body and is positioned in the operation chamber; the adjusting component is used for tightly abutting against the locking end; and

a plug assembly connected to the adjustment assembly; the lock cylinder assembly rotates to drive the adjusting assembly to move so as to loosen the locking end.

2. The intelligent door lock according to claim 1, wherein the lock body is provided with a mounting portion and a mounting hole communicated with the working chamber from the mounting portion, the welcome lamp module comprises a lamp body, a connecting seat and a locking piece, the lamp body is connected to the connecting seat, and the locking piece is connected to one side, away from the lamp body, of the connecting seat;

the connecting seat is inserted in the mounting part, and the locking piece penetrates through the mounting hole and extends into the operation chamber;

the adjusting component is used for abutting against the locking piece.

3. The intelligent door lock according to claim 2, wherein the locking element is provided with a butting inclined surface, the butting inclined surface is arranged towards the opposite side of the connecting seat, and the butting inclined surface and the connecting seat are arranged at an obtuse angle.

4. The intelligent door lock according to claim 3, wherein a lock catch is arranged on an inner side wall of the lock body, the lock catch is arranged corresponding to the mounting hole, and a lock hole penetrating through the abutting inclined surface is formed in the locking piece;

when the welcome lamp module is connected to the lock body, the lock catch is inserted into the lock hole.

5. The intelligent door lock according to claim 4, wherein the lock catch is provided with a guide inclined surface, the guide inclined surface is arranged on one side of the lock catch, which faces away from the mounting hole, and an included angle between the guide inclined surface and the inner side wall of the lock body is 20-45 degrees; or the like, or, alternatively,

the lock is characterized in that a first guide inclined plane and a second guide inclined plane are arranged on the lock catch, the first guide inclined plane is arranged on one side, facing the mounting hole, of the lock catch, the second guide inclined plane is arranged on one side, facing away from the mounting hole, of the lock catch, an included angle formed between the first guide inclined plane and the inner side wall of the lock body ranges from 20 degrees to 45 degrees, and an included angle formed between the second guide inclined plane and the inner side wall of the lock body ranges from 20 degrees to 45 degrees.

6. The intelligent door lock of claim 1, wherein the adjustment assembly comprises:

the shell is connected with the lock body and provided with an adjusting cavity, and a first through hole and a second through hole which penetrate through the adjusting cavity are formed in the shell;

the guide piece is movably arranged in the adjusting cavity;

one end of the connecting rod is connected to the lock core assembly, and the other end of the connecting rod penetrates through the first through hole and is connected to the guide piece;

one end of the top tightening piece is abutted against the guide piece, and the other end of the top tightening piece penetrates through the second through hole and is used for abutting against the locking end;

the first resetting piece is sleeved on the jacking piece and is positioned in the adjusting cavity; the first resetting piece is used for providing an elastic force for enabling the top piece to move towards the guide piece;

the lock cylinder assembly rotates, drives the connecting rod moves towards keeping away from the direction of lock cylinder assembly, the guide moves towards keeping away from the direction of lock cylinder assembly, top retainer moves towards being close to the direction of guide, in order to loosen the locking end.

7. The intelligent door lock of claim 6, wherein the guide is spindle-shaped, the guide having a width direction;

the top piece abuts against the guide piece along the width direction, and when the other end of the top piece abuts against the locking end, the top piece abuts against the center of the guide piece.

8. The intelligent door lock of claim 7, wherein the guide has a length direction, the guide is provided with a first connecting portion, the first connecting portion extends along the length direction, the connecting rod is provided with a first hook, and the first hook is hooked with the first connecting portion.

9. The intelligent door lock of claim 8, wherein the guide member is provided with a second connecting portion opposite to the first connecting portion, the second connecting portion extends along the length direction, the adjusting assembly further comprises a second reset member, one end of the second reset member is sleeved on the second connecting portion, and the other end of the second reset member abuts against the inner side wall of the housing.

10. The intelligent door lock of claim 6, wherein a limiting member is disposed in the working chamber of the lock body, and the adjusting assembly further comprises a fixing member connected to an outer sidewall of the housing, and the fixing member is used for being connected and fastened with the limiting member.

11. The intelligent door lock of claim 6, wherein the connecting rod is provided with a second hook, the lock cylinder assembly comprises a lock cylinder structure and a clamp spring, a lock cylinder tail rod of the lock cylinder structure is provided with a clamping groove, the clamp spring is sleeved in the clamping groove, and the second hook is hung on the clamp spring.

Images