阅读说明：本技术 用于智能锁的换向机构以及智能锁 (Reversing mechanism for intelligent lock and intelligent lock ) 是由 沈汉标 王妙玉 童威云 杨思民 罗志鹏 于 2019-09-29 设计创作，主要内容包括：本发明提供一种用于智能锁的换向机构以及智能锁,换向组件的指纹检测器包括指纹头以及导线；执手的第一立柱固定在第一平板一侧,第一立柱中空；换向组件的换向块一侧与执手转件连接,另一侧与第一立柱固定连接,执手转件远离换向块的一侧设置有与换向螺柱相匹配的两个第一螺孔,换向块边缘设置有第一缺口,第一缺口在执手换向前后分别与不同的第一螺孔相对,执手换向时,通过第一立柱带动换向块旋转,并在换向后将换向螺柱插入第一螺孔与换向块上的第一缺口卡合以固定执手转件完成换向。本发明在换向时仅需要拆卸换向螺柱,不需要拆卸执手和指纹头,换向简单,降低了换向成本,提高了了消费者的体验。(The invention provides a reversing mechanism for an intelligent lock and the intelligent lock, wherein a fingerprint detector of a reversing assembly comprises a fingerprint head and a lead; a first upright post of the handle is fixed on one side of the first flat plate, and the first upright post is hollow; the switching-over piece one side and the handle of switching-over subassembly are changeed and are connected, the opposite side and first stand fixed connection, one side that the switching-over piece was kept away from to the handle commentaries on classics piece is provided with two first screws with switching-over double-screw assorted, switching-over piece edge is provided with first breach, first breach is respectively relative with different first screws around the handle switching-over, during the handle switching-over, it is rotatory to drive the switching-over piece through first stand, and insert first screw and the first breach block on the switching-over piece with fixed handle commentaries on classics piece with the switching-over double-screw after the switching-over. The invention only needs to disassemble the reversing stud when reversing, does not need to disassemble the handle and the fingerprint head, has simple reversing, reduces the reversing cost and improves the experience of consumers.)

1. A reversing mechanism for a smart lock, the reversing mechanism comprising: a reversing component, a handle and a fingerprint detector,

The fingerprint detector comprises a fingerprint head and a conducting wire, the conducting wire is connected with the fingerprint head, and the fingerprint detector is used for detecting fingerprints;

The handle comprises a first flat plate and a first upright post, the first upright post is fixed on one side of the first flat plate, the first upright post is hollow, the fingerprint head is arranged on the other side of the first flat plate and is opposite to the first upright post, the lead penetrates through the first flat plate and extends to one end, away from the first flat plate, of the first upright post along the interior of the first upright post;

The switching-over subassembly includes switching-over piece, handle commentaries on classics piece and switching-over double-screw bolt, switching-over piece one side with handle commentaries on classics piece is connected, the opposite side with first stand fixed connection, handle commentaries on classics piece is kept away from one side of switching-over piece be provided with two first screws of switching-over double-screw bolt assorted, switching-over piece edge is provided with first breach, first breach respectively with different around the handle switching-over first screw is relative, during the handle switching-over, drive through first stand the switching-over piece is rotatory, and will after the switching-over double-screw bolt is inserted first screw with first breach block on the switching-over piece is in order to fix the handle commentaries on classics piece accomplishes the switching-over.

2. The reversing mechanism for the intelligent lock according to claim 1, wherein one end of the first upright column, which is far away from the first flat plate, is provided with two second notches which are opposite to each other, a first through hole is formed in the middle of the reversing block, the first through hole is matched with one end of the first upright column, which is far away from the first flat plate, a first boss corresponding to the second notch is formed in the first through hole, and the first upright column is fixed in the through hole in a clamping manner through the first boss.

3. The reversing mechanism for the intelligent lock according to claim 2, wherein the reversing assembly further comprises a fixing ring and a stop ring, the stop ring is nested on the first through hole, and two sides of the fixing ring are respectively in contact with the stop ring and one side of the handle rotating member close to the reversing block.

4. the reversing mechanism for the intelligent lock according to claim 1, further comprising a square shaft, a square shaft fixture block, and a clutch block, wherein the clutch block comprises a second boss and a third boss, the second boss has a smaller diameter than the third boss and is fixed on the third boss, a groove matched with the square shaft is formed in the second boss, one end of the square shaft is disposed in the groove, the square shaft fixture block is sleeved on a side surface of the second boss, and the square shaft fixture block is provided with a fixing column penetrating through the second boss, so that the square shaft is fixed in the groove through the fixing column.

5. The reversing mechanism for the intelligent lock according to claim 4, wherein an annular protrusion surrounding the third boss is arranged on a side of the handle rotating member away from the reversing block, a rectangular protrusion is arranged on an outer side of the annular protrusion, one end of the rectangular protrusion is connected with the annular protrusion, the other end of the rectangular protrusion extends to an edge of the handle rotating member, the rectangular protrusion is hollow to form a second through hole, the second through hole penetrates through the annular protrusion, and a second notch opposite to the second through hole is arranged on the third boss.

6. The reversing mechanism for the intelligent lock according to claim 5, wherein the reversing assembly further comprises a clutch member, the clutch member comprises a pressure spring, a clutch pin and a clutch retainer ring, the clutch pin comprises an annular ring fixed on the clutch pin, the pressure spring is nested on the clutch pin, two ends of the pressure spring respectively abut against the rectangular protrusion and the annular ring, the clutch retainer ring is fixed at one end of the clutch pin far away from the rectangular protrusion, the clutch pin is opposite to the second through hole, and the clutch pin is pressed into the second through hole through external thrust and is clamped and connected with a second notch on the third protrusion, so that the clutch block and the handle rotating member are fixed together.

7. The reversing mechanism for the intelligent lock according to claim 4, wherein the reversing assembly further comprises a sealing plate and a face plate, the face plate is a rectangular shell, the sealing plate is arranged on one side of the face plate and connected with the face plate to form a rectangular box, and the square shaft and the first upright post respectively penetrate through the sealing plate and the face plate, are far away from one side of the sealing plate and extend into the rectangular box.

8. The reversing mechanism for the intelligent lock according to claim 7, wherein the reversing assembly further comprises a bearing and a torsion spring, the bearing and the torsion spring are arranged between the reversing block and the panel, the bearing is nested on the first upright post, the torsion spring is fixed on the panel, two ends of the torsion spring abut against a protrusion of the handle rotating piece facing one side of the reversing block, and the handle rotating piece is fixed through the torsion spring.

9. The reversing mechanism for a smart lock of claim 1, wherein the portion of the wire at the end of the first post remote from the first plate extends in a direction perpendicular to the first post.

10. An intelligent lock, characterized in that it comprises a reversing mechanism for an intelligent lock according to any one of claims 1 to 9.

Technical Field

the invention relates to the technical field of intelligent locks, in particular to a reversing mechanism for an intelligent lock and the intelligent lock.

Background

With the improvement of living standard of people, the family safety becomes more and more important, and the house entrance guard becomes extremely important as the most direct and important safety protection of family, and the choice of which kind of lockset to install becomes extremely important. The existing entrance guard market consumers choose the most installed lock to be the intelligent lock.

When the common intelligent door lock is installed, the door is divided into a left-opening door and a right-opening door, so that the door lock needs to be timely and conveniently changed into the left-opening door or the right-opening door. The existing door lock can be produced correspondingly only by knowing the door opening mode when being manufactured by a manufacturer, if the manufacturer does not know what door opening mode is required for installation, the manufacturer needs to prepare more parts and more goods, and the production arrangement is relatively troublesome. Meanwhile, in the product circulation process, the wholesaler and the retailer need to increase the stock quantity, so that the inventory cost of the wholesaler or the retailer is increased. When the consumer installs, if the type of the product is different from the left-opening and right-opening modes, the customer needs a professional to install the product in a reversing way, otherwise, the product can not be used. Or when the consumer wants to change the door opening direction in the decoration process, the consumer has to ask a professional person to use a professional way to perform reversing installation, even quit the previous door and buy a set of doors again. Therefore, the cost of investment for merchants or consumers is extremely high, and the fingerprint head is usually required to be detached to install when the intelligent lock is reversed, so that the fingerprint head is easily damaged, the reversing cost is increased, and the experience effect of the consumers is reduced.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the reversing mechanism for the intelligent lock and the intelligent lock.

In order to solve the above problems, the present invention adopts a technical solution as follows: a reversing mechanism for a smart lock, the reversing mechanism for a smart lock comprising: the fingerprint detection device comprises a reversing assembly, a handle and a fingerprint detector, wherein the fingerprint detector comprises a fingerprint head and a lead, the lead is connected with the fingerprint head, and the fingerprint detector is used for detecting fingerprints; the handle comprises a first flat plate and a first upright post, the first upright post is fixed on one side of the first flat plate, the first upright post is hollow, the fingerprint head is arranged on the other side of the first flat plate and is opposite to the first upright post, the lead penetrates through the first flat plate and extends to one end, away from the first flat plate, of the first upright post along the interior of the first upright post; the switching-over subassembly includes switching-over piece, handle commentaries on classics piece and switching-over double-screw bolt, switching-over piece one side with handle commentaries on classics piece is connected, the opposite side with first stand fixed connection, handle commentaries on classics piece is kept away from one side of switching-over piece be provided with two first screws of switching-over double-screw bolt assorted, switching-over piece edge is provided with first breach, first breach respectively with different around the handle switching-over first screw is relative, during the handle switching-over, drive through first stand the switching-over piece is rotatory, and will after the switching-over double-screw bolt is inserted first screw with first breach block on the switching-over piece is in order to fix the handle commentaries on classics piece accomplishes the switching-over.

Furthermore, one end, far away from the first flat plate, of the first stand column is provided with two second notches which are opposite to each other, a first through hole is formed in the middle of the reversing block, the first through hole is matched with one end, far away from the first flat plate, of the first stand column, a first boss corresponding to the second notch is arranged on the first through hole, and the first stand column is fixed in the through hole through the first boss in a clamping mode.

Furthermore, the reversing assembly further comprises a fixing ring and a stop ring, the stop ring is nested on the first through hole, and two sides of the fixing ring are respectively in contact with the stop ring and one side, close to the reversing block, of the handle rotating piece.

further, a reversing mechanism for intelligent lock still includes square shaft, square shaft fixture block, separation and reunion piece, the separation and reunion piece includes second boss, third boss, second boss diameter is less than the third boss, and fixes on the third boss, wherein, be provided with on the second boss with the recess that the square shaft matches, square shaft one end sets up in the recess, square shaft fixture block cover establish with second boss side, just the square shaft fixture block is provided with and runs through the fixed column of second boss, through the fixed column will the square shaft is fixed in the recess.

Further, the handle is changeed the piece and is kept away from switching-over piece one side is provided with and encircles the annular of third boss is protruding, the protruding outside of annular is provided with the rectangle arch, the protruding one end of rectangle with the protruding connection of annular, the other end extends to handle and changes a piece edge, the protruding cavity of rectangle forms the second through-hole, the second through-hole runs through the annular is protruding, be provided with on the third boss with the second breach that the second through-hole is relative.

furthermore, the reversing assembly further comprises a clutch piece, the clutch piece comprises a pressure spring, a clutch pin and a clutch retainer ring, the clutch pin comprises an annular ring fixed on the clutch pin, the pressure spring is nested on the clutch pin, two ends of the pressure spring respectively abut against the rectangular bulge and the annular ring, the clutch retainer ring is fixed at one end, far away from the rectangular bulge, of the clutch pin, the clutch pin is opposite to the second through hole, the clutch pin is pressed into the second through hole through external thrust and is clamped and connected with a second notch on the third bulge, and therefore the clutch block and the handle rotating piece are fixed together.

Furthermore, the reversing assembly further comprises a sealing plate and a panel, the panel is a rectangular shell, the sealing plate is arranged on one side of the panel and connected with the panel to form a rectangular box, and the square shaft and the first stand column respectively penetrate through the sealing plate and the panel to be away from one side of the sealing plate and extend into the rectangular box.

Further, the reversing assembly further comprises a bearing and a torsion spring, the bearing and the torsion spring are arranged between the reversing block and the panel, the bearing is nested on the first stand column, the torsion spring is fixed on the panel, two ends of the torsion spring abut against the protrusion of one side of the reversing block, and the handle rotating piece is fixed through the torsion spring.

Further, the part of the conducting wire, which is located at one end of the first upright far away from the first flat plate, extends in a direction perpendicular to the first upright.

Based on the same inventive concept, the invention also provides an intelligent lock, wherein the intelligent lock comprises the intelligent lock.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the fingerprint head is arranged on the handle, the lead extends along the first upright post, and the reversing is completed by utilizing the rotation of the reversing block during reversing, so that the handle rotating piece is prevented from rotating due to reversing, only the reversing stud needs to be disassembled during reversing, the handle and the fingerprint head do not need to be disassembled, the reversing is simple, the reversing cost is reduced, and the experience of consumers is improved.

Drawings

FIG. 1 is a front view of one embodiment of a reversing mechanism for an intelligent lock of the present invention;

FIG. 2 is a side view of one embodiment of a reversing mechanism for an intelligent lock of the present invention;

FIG. 3 is a top view of one embodiment of a reversing mechanism for an intelligent lock of the present invention;

FIG. 4 is an exploded view of one embodiment of a reversing mechanism for an intelligent lock of the present invention;

FIG. 5 is a diagram of an embodiment of a clutch block and a handle rotating member of the reversing mechanism for an intelligent lock according to the present invention;

Fig. 6 is a structural diagram of an embodiment of the intelligent lock of the present invention.

In the figure: 1. a square shaft; 2. a square shaft fixture block; 3. closing the plate; 4. a clutch block; 5. wire briquetting; 6. a reversing stud; 7. a handle rotating piece; 8. a pressure spring; 9. a clutch pin; 10. a clutch retainer ring; 11. a stationary ring; 12. a stopper ring; 13. a commutation block; 14. a bearing; 15. a torsion spring; 16. a panel; 17. a gasket; 18. a handle; 19. a fingerprint head; 20. handle apron.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

Referring to fig. 1-5, fig. 1 is a front view of an embodiment of a reversing mechanism for an intelligent lock according to the present invention; FIG. 2 is a side view of one embodiment of a reversing mechanism for an intelligent lock of the present invention; FIG. 3 is a top view of one embodiment of a reversing mechanism for an intelligent lock of the present invention; FIG. 4 is an exploded view of one embodiment of a reversing mechanism for an intelligent lock of the present invention; fig. 5 is a structural diagram of an embodiment of a clutch block and a handle rotating member in the reversing mechanism for the intelligent lock of the invention. The reversing mechanism for the intelligent lock is described in detail with reference to fig. 1-5.

In this embodiment, a reversing mechanism for an intelligent lock comprises: the handle comprises a reversing assembly, a handle 18 and a fingerprint detector, wherein the fingerprint detector comprises a fingerprint head 19 and a lead, the lead is connected with the fingerprint head 19, and a fingerprint is detected by the fingerprint detector; the handle 18 comprises a first flat plate and a first upright post, the first upright post is fixed on one side of the first flat plate, the first upright post is hollow, the fingerprint head 19 is arranged on the other side of the first flat plate and is opposite to the first upright post, and a conducting wire penetrates through the first flat plate and extends to one end, far away from the first flat plate, of the first upright post along the interior of the first upright post; the reversing assembly comprises a reversing block 13, a handle rotating piece 7 and a reversing stud 6, one side of the reversing block 13 is connected with the handle rotating piece 7, the other side of the reversing block is fixedly connected with a first upright post, two first screw holes matched with the reversing stud 6 are formed in one side, far away from the reversing block 13, of the handle rotating piece 7, a first notch is formed in the edge of the reversing block 13, the first notch is opposite to different first screw holes respectively before and after the handle 18 is reversed, the reversing block 13 is driven to rotate through the first upright post, and the reversing stud 6 is inserted into the first screw holes to be clamped with the first notch on the reversing block 13 to fix the handle rotating piece 7 to complete reversing.

In this embodiment, the reversing block 13 and the handle rotating member 7 are circular, and in other embodiments, the reversing block 13 and the handle rotating member 7 may also be in other shapes, which is not limited herein.

In this embodiment, the device disposed on the handle 18 is the fingerprint head 19, and in other embodiments, the device disposed on the handle 18 may also be a password input device, an iris detector, or other devices for inputting or detecting user information, which is not limited herein.

In this embodiment, the portion of the wire at the end of the first post remote from the first plate is disposed on the side of the handle rotator 7 near the reversing block 13 and extends in a direction perpendicular to the first post, by which the wire is prevented from contacting the non-rotating handle rotator 7 when the handle 18 is reversed, thereby protecting the fingerprint head 19 and the wire.

The one end that first flat board was kept away from to first stand is provided with two relative second breachs each other, and switching-over piece 13 middle part is provided with first through-hole, first through-hole with first stand is kept away from first flat board one end and is suited, and first through-hole is equipped with the first boss corresponding with the second breach, and first stand is provided with the one end of second breach and inserts first through-hole, and the first boss of conflict and block of second breach, first stand is fixed in the through-hole through first boss block.

In other embodiments, the first column may also be screwed to the commutation block 13 or fixed to the commutation block 13 by a bayonet lock, or may be welded to the commutation block 13, and the first column only needs to be fixed to the commutation block 13, which is not limited herein.

in this embodiment, the reversing assembly further includes a fixing ring 11 and a stop ring 12, the stop ring 12 is nested on the first through hole, and two sides of the fixing ring 11 are respectively in contact with the stop ring 12 and one side of the handle rotating member 7 close to the reversing block 13. The stopper ring 12 is ring-shaped, and has a protrusion on the inner side, and is fixed on the first through hole via the protrusion, in order to further fix the stopper ring 12, the outer side of the stopper ring 12 is a gear structure, and a protrusion engaged with the gear structure is provided on the reversing block 13. Retainer plate 11 also is the annular, and the outside is provided with a plurality of archs of interval each other, and handle commentaries on classics piece 7 is close to one side of retainer plate 11 and is provided with 11 assorted semi-circular archs of retainer plate, and retainer plate 11 sets up at this semi-circular protruding inboard.

in this embodiment, a reversing mechanism for intelligent lock still includes square shaft 1, square shaft fixture block 2, separation and reunion piece 4 includes the second boss, the third boss, second boss diameter is less than the third boss, and fix on the third boss, wherein, be provided with the recess that matches with square shaft 1 on the second boss, 1 one end of square shaft sets up in the recess, 2 covers of square shaft fixture block establish with second boss side, and one side that 2 contacts the second boss of square shaft fixture block is provided with the fixed column that runs through the second boss, fix square shaft 1 in the recess of second boss through the fixed column.

The handle is changeed 7 and is kept away from switching-over piece 13 one side and is provided with the annular arch that encircles the third boss, and the annular arch outside is provided with the rectangle arch, and the protruding one end of rectangle is connected with the annular arch, and the other end extends to handle and changes 7 edges, and the protruding cavity of rectangle forms the second through-hole, and the second through-hole runs through the annular arch, is provided with the second breach relative with the second through-hole on the third boss.

In this embodiment, the switching-over subassembly still includes the clutch piece, the clutch piece includes pressure spring 8, separation and reunion round pin 9 and separation and reunion retaining ring 10, separation and reunion round pin 9 is including fixing the annular ring on separation and reunion round pin 9, pressure spring 8 nestification is on separation and reunion round pin 9 and both ends conflict rectangle arch respectively, the annular ring, separation and reunion retaining ring 10 is fixed and is kept away from the protruding one end of rectangle at separation and reunion round pin 9, separation and reunion round pin 9 is relative with the second through-hole, it is connected with the protruding second breach block of third to impress second through-force with separation and reunion round pin 9, thereby it is together fixed with handle commentaries on classics piece 7 to rotate separation and reunion piece 4 and handle commentaries on classics.

In this embodiment, the third boss is hollow, the number of the second notches on the third boss is two, and the second notches are disposed on one side of the third boss far away from the second boss and opposite to each other.

In this embodiment, the clutch pin 9 may be partially inserted into the second through hole or not inserted into the second through hole when not pushed by an external force, and only the clutch pin 9 can be engaged with the second notch on the third protrusion when pushed by the external force, which is not limited herein.

in this embodiment, the reversing mechanism for the intelligent lock further comprises a wire pressing block 5, the wire pressing block 5 is arranged on one side, close to the clutch block 4, of the handle rotating piece 7, a groove penetrating through the annular protrusion is formed in one side, opposite to the rectangular protrusion, of the annular protrusion, the wire pressing block 5 penetrates through one end of the groove and is arranged on the inner side of the annular protrusion, one end of the wire pressing block is arranged on the outer side of the annular protrusion, and the wire pressing block 5 is fixed on the handle rotating piece 7 through a screw.

In the present embodiment, the number of screws fixing the wire presser 5 is 3.

In this embodiment, the reversing assembly further includes a sealing plate 3 and a face plate 16, the face plate 16 is a rectangular casing with a single-side opening, the sealing plate 3 is connected to one side of the face plate 16 with an opening, so as to form a rectangular box with the face plate 16, and the square shaft 1 and the first upright post respectively penetrate through the sealing plate 3 and the face plate 16, are far away from one side of the sealing plate 3, and extend into the rectangular box.

In other embodiments, the face plate 16 may be circular, diamond-shaped, or other shapes capable of receiving a reversing assembly, and is not limited herein.

In this embodiment, the reversing assembly further includes a bearing 14 and a torsion spring 15, the bearing 14 and the torsion spring 15 are disposed between the reversing block 13 and the panel 16, the bearing 14 is nested on the first upright column and disposed inside the torsion spring 15, the torsion spring 15 is fixed on one side of the panel 16 facing the sealing plate 3, two ends of the torsion spring 15 abut against the protrusions of the handle rotating member 7 facing one side of the reversing block 13, and the handle rotating member 7 is fixed by the torsion spring 15.

In this embodiment, two through holes are formed in two sides of the position, where the square shaft 1 penetrates through the sealing plate 3, of the square shaft, the through holes are opposite to first screw holes in the handle rotating piece 7, the reversing studs 6 are inserted into the first screw holes through different through holes respectively before and after the handle 18 is reversed, and then the handle rotating piece 7 is fixed.

In this embodiment, a gasket 17 is further disposed on a side of the face plate 16 away from the closing plate 3, the gasket 17 is sleeved on a first pillar, and the first pillar contacts the face plate 16 through the gasket 17, so that the face plate 16 is protected by the gasket 17.

The switching-over subassembly still includes handle apron 20, and handle apron 20 is fixed in the one side that first stand was kept away from to first flat board, and handle apron 20 is provided with the third through-hole with the relative region of first stand, through third through-hole holding fingerprint head 19.

in this embodiment, handle cover plate 20 is the rectangle, and in other embodiments, handle cover plate 20 can also be arc, annular and other shapes, only needs handle cover plate 20 can cover the one side that first flat board is kept away from first stand can, does not do the restriction here.

The commutation assembly of the present invention is further described below by way of its operation.

When reversing the handle 18 from side to side: the reversing stud 6 on the handle rotating piece 7 is disassembled, the handle 18 is rotated to drive the reversing block 13 to rotate 180 degrees, and then the reversing stud 6 is installed on the handle rotating piece 7 to realize left and right reversing.

When the separation is achieved: outside thrust promotes separation and reunion round pin 9 and slides in separation and reunion piece 4, realizes separation and reunion piece 4 and handle and changes being connected of piece 7, rotates handle 18 this moment and can drive square shaft 1 rotation simultaneously at the drive separation and reunion piece 4, and the executable function of unblanking and lifting is pressed down to this moment, eliminates when outside thrust, and separation and reunion round pin 9 resets because of the elasticity of pressure spring 8, rotates handle 18 this moment and pushes down and can't carry out unblanking, nevertheless lifts and to realize the relocking function.

This mechanism lies in that handle 18 is fixed inside panel 16 for traditional switching-over subassembly advantage, and panel 16 outside can't be dismantled, changes 7 fixed directions because of the handle, so fingerprint head 19's connecting wire can keep direction up and not influenced by the switching-over always, and handle changes 7 can not be rotatory because of the switching-over reason because of torsional spring 15's elasticity effect, and this mechanism simple to operate, stable in structure, the function is practical.

Has the advantages that: according to the invention, the fingerprint head is arranged on the handle, the lead extends along the first upright post, and the reversing is completed by utilizing the rotation of the reversing block during reversing, so that the handle rotating piece is prevented from rotating due to reversing, only the reversing stud needs to be disassembled during reversing, the handle and the fingerprint head do not need to be disassembled, the reversing is simple, the reversing cost is reduced, and the experience of consumers is improved.

Based on the same inventive concept, the present invention further provides an intelligent lock, please refer to fig. 6, fig. 6 is a structural diagram of an embodiment of the intelligent lock of the present invention, wherein the intelligent lock includes a reversing mechanism for the intelligent lock as described in the above embodiment, which is not described in detail herein.

In the embodiments provided in the present invention, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the modules or partitions may be merely logical partitions, and may be implemented in other ways, e.g., multiple modules or components may be combined or integrated into another system, or some features may be omitted, or not implemented. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be through some interfaces, devices or indirect coupling or communication connection, and may be in an electrical, mechanical or other form.

The components described as separate parts may or may not be physically separate, and the components shown may or may not be physical, that is, may be located in one place, or may be distributed on a plurality of networks. Some or all of them can be selected according to actual needs to achieve the purpose of the embodiment.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.