CN212336951U - Anti-violence intelligent lock - Google Patents

Abstract

The utility model relates to an anti violence intelligence lock comprises four bibliographic categories: mechanical lock body, outdoor panel subassembly, indoor panel subassembly, lock core and lock core safety cover subassembly, mechanical lock body includes one-way idle running component and fitting piece, and outdoor panel subassembly includes key hole closing plate fitting piece, sliding closure fitting piece and other fitting pieces and constitutes, and indoor panel subassembly includes motor and control scheme and fitting piece, and lock core safety cover subassembly include lock core, lock core assurance cover, and the technological optimization and the theftproof performance of lock core safety cover have reduced processing cost and assembly cost when strengthening, the beneficial effects of the utility model are that have anti violence and open the function.

Description

Anti-violence intelligent lock

Technical Field

The utility model relates to a tool to lock field, more specifically say, relate to an intelligent pickproof lock is opened to anti-riot power.

Background

At present stage, the intelligence lock is moving towards consumer's family and various entrance guard's demands, the use of intelligence lock and the aesthetic feeling of appearance bring different experience for the consumer, the effect of intelligence lock is always leave the theftproof performance, the theftproof performance of an intelligence lock is almost not understood to most consumers, the consumer more pays attention to the brand when selecting, user mode and outward appearance, the intelligence lock on the present market is unpacked outdoor panel subassembly with violence and is directly twisted the square hole and just can realize unblanking and open the door behind the outdoor panel subassembly, can pry outdoor panel subassembly within 30 seconds with specialized tool, the intelligence lock on the present market is not as a good quality mechanical lock in the aspect of violence is opened, for example: some intelligent locks include some foreign large brand's mechanical key hole below outdoor panel assembly, and the front looks do not have the key hole, and the appearance is pleasing to the eye, and various intelligence are opened the mode, bring good feeling for the consumer, and this type of intelligent lock is when facing ordinary violence, and thirty seconds is about can be opened, prizes outdoor panel assembly, and mechanical unlocking means is whole to be exposed, can directly unblank. The lock core of another kind of intelligence lock openly installs in the lock body, the keyhole has some influence appearances on the front panel, the design of keyhole closing plate differs, some keyhole closing plates hold with magnet, some pry with specialized tool, this brings the inconvenience of using for the consumer, this kind of intelligence lock on the market can realize unblanking directly twisting the lock body square hole after prying outdoor panel subassembly, various intelligence locks on the market at present are after inputing the instruction of unblanking, twist the outer doorknob, torsion all directly transmits to the lock body and unblanks to unblank and collude, the transmission of torsion does not pass through indoor retransmission and unblank for the lock body and collude, consequently, the intelligence lock on the market all has the potential safety hazard after prying outdoor panel at present. At present, when the outer door handle is rotated, torsion is directly transmitted to the sliding cover to drive the sliding cover to slide downwards, no buffer exists, the rotation speed of the outer door handle directly influences the initial sliding speed of the sliding cover, and the impact force on the sliding cover is different. With the continuous updating of processing machinery, the structure and the processing technology of the lock cylinder protective cover on the market at present fall behind, the structure, the processing mode and the processing technology of the lock cylinder protective cover on the market are optimized in a competitive mode, the processing cost is reduced, and meanwhile the quality and the protection strength are improved.

SUMMERY OF THE UTILITY MODEL

An anti-violence intelligent lock is composed of four parts: mechanical lock body, outdoor panel subassembly, indoor panel subassembly, lock core and lock core safety cover subassembly.

The mechanical lock body includes: a one-way idle rotation member, the outdoor panel assembly comprising: sliding closure fitting piece, key hole closing plate fitting piece and other fitting pieces, the sliding closure fitting piece includes: mouth shape push-and-pull piece, push-and-pull piece spring, control latch component, latch component return spring, sliding closure screens marble, damping tooth, indoor panel subassembly includes: motor and control scheme and fitting piece, torsion transmission mechanism crosses and is used for torsion to connect and cut off between indoor, outside panel components and mechanical lock body, and inside mechanical lock body, outdoor panel components and indoor face spare subassembly were arranged respectively in to each part of torsion transmission mechanism, and torsion transmission mechanism includes: the external door handle, the external door handle seat, the external square pin, the square hole piece, the internal square pin guide piece, the torque transmission pin seat, the bridging tooth, the unlocking hook and the shifting fork.

The mechanical lock body is arranged in a security door between the outdoor panel assembly and the indoor panel assembly, and the one-way idle rotation member comprises: the square hole piece, the unlocking hook, the tongue-shaped teeth and the tongue-shaped tooth spring, wherein two ends of the square hole piece are provided with holes and are not communicated, the square hole in the outdoor direction is connected with the outer square pin, the outer door handle seat and the outer door handle, the hexagonal hole in the indoor direction is connected with the inner square pin and the inner square pin guide piece, the square hole piece is provided with a tooth structure which is matched with the tongue-shaped teeth arranged in the unlocking hook and forms a certain angle, the tongue-shaped tooth spring is arranged in the back of the tongue-shaped teeth in the unlocking hook and is used for leading the tongue-shaped tooth top to the vertex, when the outer door handle rotates the square hole piece in the unlocking direction, the inclined plane of the tongue-shaped teeth is contacted with the inclined plane of the teeth on the square hole piece and generates inner thrust to press the tongue-shaped teeth into the inner cavity to idle and cannot drive the unlocking hook to unlock, when the outer door handle rotates in the reverse locking direction, the two matched teeth are in plane contact, the tongue-shaped teeth are not pressed into the thrust of, when the outer door handle and the inner door handle are in a non-rotating state, a certain angle is formed between the teeth on the square hole piece and the tongue-shaped teeth, when the inner door handle is rotated to be in an unlocking state, unlocking can be achieved without extruding the corresponding tooth structure on the square hole piece along with the rotating angle of the tongue-shaped teeth in the unlocking hook, it is guaranteed that the outer door handle cannot rotate along with indoor unlocking, when indoor counter locking is performed, idling occurs between the inclined plane of the tongue-shaped teeth in the unlocking hook and the teeth on the square hole piece, the outer door handle cannot rotate along with the inner door handle when the inner door handle is unlocked or counter locked, when the outer door handle is lifted, the square hole piece directly drives the unlocking hook to reversely lock, idling is pressed downwards, when no electronic instruction exists outdoors, the torsion transfer pin does not enter the inner square pin guide piece to complete torsion connection, and the inner door handle cannot swing along with the inner door handle. When the square hole member is directly rotated to unlock after the outdoor panel assembly is violently disassembled, the square hole member idles 360 degrees and cannot be unlocked and damaged.

The one-way idle rotation component only starts to work to push the torque transmission pin to enter the inner square pin guide piece for torque connection only when the outdoor panel component is not disassembled and damaged through a correct electronic unlocking instruction, and the torque passes through the outer door handle, the outer door handle seat, the outer square pin, the square hole piece, the inner square pin guide piece, the torque transmission pin and the torque transmission pin seat to realize unlocking through the bridge teeth, the unlocking hook and the shifting fork.

When there is no unlocking command, the motor in the indoor panel assembly is in a contracted state, the torsion force transmission pin is retracted under the elastic force of the transmission pin spring and does not contact with the inner pin guide, the torsion force is cut off when entering the inner pin guide, and the inner pin guide is idle and cannot be unlocked when the torsion force of the outer door handle is transmitted to the inner pin guide through the same channel.

When the door is unlocked outdoors, the sliding cover is lifted to enter a clamping position, a correct unlocking instruction is input, the outer door handle is rotated to unlock, the outer door handle drives the outer door handle seat to rotate, an upward pushing point on the outer door handle seat pushes the mouth-shaped push-pull piece to move upwards, a push-pull point on the mouth-shaped push-pull piece pushes the left and right inclined tongues to contract and move inwards, the door lock is opened after the outer door handle is rotated to a certain angle, the push-pull point on the mouth-shaped push-pull piece crosses the upper plane of the inclined tongues, the left and right inclined tongues completely extend out under the elastic force of the inclined tongue spring, the torsion of the outer door handle is released after the door lock is opened, the outer door handle seat returns to the original position under the elastic force of the outer door handle return spring, the upward pushing point on the outer door handle seat moves downwards, the mouth-shaped push-pull piece loses the pushing point pushing force, the mouth-shaped push-pull piece moves downwards under the elastic force of the push-pull piece, the left and right latch tongues do not contract and move inwards any more, the push-pull points on the mouth-shaped moving piece drive the left and right latch tongues to rotate downwards by overcoming the elasticity of the latch tongue component return springs, the pull-down points on the left and right latch tongues push the sliding cover to overcome the resistance of the sliding cover clamping marbles to move downwards by passing through the pull-down contact points on the sliding cover, the positioning points on the sliding cover cross the resistance area of the sliding cover clamping marbles, the sliding cover moves downwards by self weight, the damping racks on the sliding cover drive the damping teeth to rotate, the damping teeth slide the sliding cover with a certain resistance to avoid sudden and rapid sliding impact of the sliding cover, and the sliding cover releases the outer door after the outer door handle is rotated and.

The electronic instruction part can be unlocked by a mechanical key after losing working efficacy due to various reasons, before the mechanical key is unlocked, the keyhole sealing plate is pushed inwards to overcome the elasticity of the spring and enter the sliding track, then the keyhole sealing plate is pressed downwards to open the keyhole sealing plate, after the unlocking is finished, the keyhole sealing plate is lifted to enter an upper peak to release the thrust, and the keyhole sealing plate is separated from the track to automatically return to the position for sealing under the action of the elasticity.

The lock cylinder and the lock cylinder protection cover assembly comprise a lock cylinder and a lock cylinder protection cover, the lock cylinder protection cover is composed of a lock outer cap, a rotating cover and a C-shaped sleeve, the lock outer cap, the rotating cover and the C-shaped sleeve can be processed and formed at one time in an optimized structure, and the C-shaped sleeve is riveted into the lock outer cap to complete assembly and can be assembled by an intelligent manipulator at one time during assembly.

The utility model has the advantages that: the anti-violence opening function is realized through the structure.

Drawings

Fig. 1a is a schematic diagram of one embodiment of a mechanical lock body of an intelligent lock.

FIG. 1b is a schematic diagram of one embodiment of an indoor panel assembly of a smart lock.

FIG. 1c is a schematic diagram of one embodiment of an outdoor panel assembly of a smart lock.

FIG. 1d is a schematic view of one embodiment of a lock cylinder and cylinder guard assembly of an intelligent lock.

Fig. 2 is a schematic diagram of an embodiment of the intelligent lock after assembly of components.

Figure 3a is a schematic view of one embodiment of the mechanical lock body in the outdoor direction.

Figure 3b is a schematic diagram of one embodiment of the internal structure of the mechanical lock body after the face plate is disassembled.

Figure 4-1 is a schematic view of one embodiment of a one-way lost motion member of a mechanical lock body.

Fig. 4-2 is a schematic view of an embodiment of a one-way lost motion member of a mechanical lock body with parts exploded.

Fig. 4-3 are schematic views of one embodiment of the indoor orientation of the one-way lost motion member of the mechanical lock body.

Fig. 5a is a schematic cross-sectional view of an embodiment of a torque transmission path of the torque transmission mechanism when the intelligent lock inputs a correct electronic command to open the door.

Fig. 5b is a schematic cross-sectional view illustrating an embodiment of the torque force transmission mechanism being unable to be transmitted to the unlocking hook when the smart lock is not inputting or inputting the correct electronic command.

Fig. 6a is a schematic view of an embodiment of the intelligent lock, wherein the outdoor panel assembly automatically slides down after the outdoor handle is rotated to open the door and the sliding cover automatically slides down after the torsion of the outdoor handle is released.

FIG. 6b is a schematic view of one embodiment of the left and right angled tongue members.

FIG. 6c is a schematic view of an embodiment of the internal structure of the left and right latch members.

Fig. 7a is a schematic view of an embodiment of a state in which a keyhole sealing plate is opened.

Fig. 7b is a schematic view showing an example of a state in which the keyhole sealing plate is opened and closed.

Figure 8a is a schematic view of one embodiment of a lock cylinder and lock cylinder boot assembly.

Fig. 8b is a schematic view of an exploded embodiment of the lock cylinder protection cover.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiment in the utility model.

Embodiments of the present invention will now be described with reference to the drawings, wherein like element numbers represent like elements. As described above, as shown in fig. 1a to 7b, an anti-force-to-violence unlocking intelligent lock is composed of four parts, namely, a mechanical lock body, an outdoor panel assembly, an indoor panel assembly, a lock cylinder and a lock cylinder protection cover assembly, wherein the mechanical lock body is arranged in a security door between the outdoor panel assembly and the indoor panel assembly, the lock cylinder and the lock cylinder protection cover assembly penetrate through the mechanical lock body and are also assembled between the outdoor panel assembly and the indoor panel assembly, the indoor panel assembly is assembled in an indoor direction on the security door, the outdoor panel assembly is assembled in an outdoor direction on the security door, a torsion transmission mechanism penetrates through the indoor, the outdoor panel assembly and the mechanical lock body and is used for torsion connection and disconnection, and all parts of the torsion transmission mechanism are respectively arranged in the mechanical lock body, the outdoor panel assembly and the.

The torque transmission mechanism includes: the door handle comprises an outer door handle 8, an outer door handle seat 9, an outer square pin 10, a square hole piece 11, an inner square pin 12, an inner square pin guide piece 13, a torsion transmission pin 14, a torsion transmission pin seat 15, a bridge tooth 16, an unlocking hook 17 and a toggle fork 18.

As shown in figure 4-2, the mechanical lock body comprises a one-way idle rotation component and a matched component thereof, the one-way rotation component comprises a square hole piece 11, an unlocking hook 17, a tongue-shaped tooth 3 and a tongue-shaped tooth elastic body 4, the tongue-shaped tooth 3 and teeth 1-2 on the square hole piece are installed at a certain angle, the angle is that the tongue-shaped tooth 3 cannot press teeth 1-2 on the square hole piece 11 when an inner door handle 21 is rotated to unlock so as to ensure that an outer door handle 8 cannot rotate when the inner door handle 21 is rotated to unlock, when the square hole 1-1 on the square hole piece 11 is directly and forcibly screwed to unlock after an outdoor panel assembly is disassembled (in the example, the part 11 rotates clockwise to unlock), the inclined surface of the 1-2 teeth on the square hole piece 11 is contacted with the inclined surface of the tongue-shaped tooth 3 to generate an internal thrust to overcome the elastic force of the spring 4 and press the tongue-shaped tooth 3 into an inner groove.

When the square hole piece 11 is rotated in the other direction, the plane of 1-2 teeth on the square hole piece 11 is contacted with the plane on the tongue-shaped teeth 3, and then no internal thrust is generated, the square hole piece 11 drives the unlocking hook 17 to rotate so as to realize reverse locking without unlocking, after a correct unlocking instruction is input to the outdoor panel assembly under the condition of no prying and damage, the motor 20 overcomes the elasticity of the spring 19 and presses the torsion transmission pin 14 into the internal pin guide piece 13 for torsion connection, and when the external door handle 8 is rotated to unlock, the torsion is realized through the external door handle 8, the external door handle seat 9, the external pin 10, the square hole piece 11, the internal pin 12, the internal pin guide piece 13, the torsion transmission pin 14, the external pin seat 15, the bridging teeth 16, the unlocking hook 17 and the shifting fork 18.

When no electronic command or correct electronic command is input, the torque transmission pin 14 has no thrust of the motor 20, the torque transmission pin 14 retracts away from the inner pin guide 13 under the elastic force of the torque transmission pin spring 19 and does not contact with the inner pin guide 13, and when the outer door handle 8 is pressed down, torque cannot be transmitted to the torque transmission pin 14 at the moment, so that the torque transmission cannot be interrupted, and unlocking cannot be realized.

The inner square pin 12 and the inner square pin guide piece 13 are connected through inner and outer hexagonal teeth, the inner square pin guide piece can rotate along with the inner square pin guide piece when the inner square pin 12 rotates, the outer edge of the inner square pin guide piece 13 is circular, when the torque transfer pin 14 does not enter the inner square pin guide piece 13, the outer edge of the inner square pin guide piece 13 can only idle in the torque transfer pin seat 15, the torque transfer pin seat 15 is in tooth connection with the bridging tooth 16, the other end of the bridging tooth 16 is in tooth connection with the unlocking hook 17, the bridging tooth 16 and the unlocking hook 17 can be driven to rotate when the torque transfer pin seat 15 rotates, and the unlocking hook 17 drives the shifting fork 18 to rotate.

When the outdoor unlocking is carried out, after the sliding cover 25 is lifted to a certain height, the sliding cover clamping marble 22 positions the sliding cover 25 through the clamping spring 23, a correct unlocking instruction is input, the outer door handle 8 is rotated to unlock, the outer door handle 8 drives the outer door handle seat 9 to rotate, a push point 9-1 on the outer door handle seat pushes the mouth-shaped push-pull piece 27 to move upwards, push-pull points 27-1 and 27-2 on the mouth-shaped push-pull piece 27 push inclined planes of the left and right inclined tongues 28-1 to generate inner push force to contract and move inwards, the door lock is opened after the outer door handle 8 is rotated to a certain angle, at the moment, the push-pull points 27-1 and 27-2 on the mouth-shaped push-pull piece 27 cross the upper plane of the inclined tongues 28-1, the left and right inclined tongues 28-1 all extend to the stop column 28-4 under the elastic force of the inclined tongue spring 28-3 to be positioned and not to move any more, and the torsion on the outer door, the outer door handle seat 9 returns to the original position under the elastic force of the outer door handle return spring 29, the upper push point 9-1 of the outer door handle seat 9 moves downwards, the mouth-shaped push-pull piece 27 loses the pushing force of 9-1, the mouth-shaped push-pull piece 27 moves downwards under the elastic force of the push-pull piece spring 31, the push-pull points 27-1 and 27-2 on the mouth-shaped push-pull piece 27 move downwards and press the upper plane of the left and right inclined tongues 28-1, the left and right inclined tongues 28-1 do not contract and move inwards any more under the action of the internal pushing force, the push-pull points 27-1 and 27-2 on the mouth-shaped push piece 27 drive the left and right inclined tongue members 28 to rotate downwards against the elastic force of the inclined tongue member return spring 30, the lower pull points 28-2 on the left and right inclined tongue members 28 push the sliding cover downwards through the lower pull contact points 25-1 and 25-2 on the sliding cover, the elastic force of the push-pull piece, the push-pull member 27 overcomes the elasticity of the left and right latch return springs 30 and the elastic resistance of the slide-cover position-retaining marble 22 to move downwards under the elastic force of the push-pull member spring 31, after the positioning point 25-3 (see fig. 5b) on the slide cover crosses the jacking force area of the slide-cover position-retaining marble 22, the slide cover 25 moves downwards through the self weight, the damping rack 26 on the slide cover drives the damping teeth 24 to rotate, the damping teeth 24 slide downwards for a certain resistance to prevent the slide cover 25 from sliding downwards suddenly and rapidly, and the slide cover 25 releases the outer door handle 8 after the outer door handle 8 is rotated and unlocked, and then the slide cover 25 slowly slides downwards and returns to the position.

When the electronic instruction part loses working performance due to various reasons, the key can be unlocked by a mechanical key, before the key is unlocked, the keyhole sealing plate 32 is pushed inwards, the marble 38 pressed in the keyhole sealing plate 32 overcomes the elastic force of the spring 37 to enable the slide rail seat 33 to move inwards along the rail column 36, when the slide rail seat 33 moves inwards to the top point, the keyhole sealing plate 32 passes through the clamping positions 35 on the two sides at the moment to enable the lower slide rail 33-1 to be unblocked, then the keyhole sealing plate 32 is pushed downwards to achieve the purpose of unlocking by the mechanical key, after the key is unlocked, the keyhole sealing plate 32 is lifted upwards to enter the top point to release the thrust, and the spring 37 enables the keyhole sealing plate 32 to automatically separate from the original rail and return to seal the keyhole through the. A ball 38 and a spring 37 are mounted in the holder 34.

The lock core and the protection cover assembly are shown in fig. 7a and comprise a lock core 42 and a lock core protection cover fitting piece, wherein the lock core protection cover fitting piece is composed of an outer lock cap 39, a rotating cover 40 and a C-shaped sleeve 41, the outer lock cap 39, the rotating cover 40 and the C-shaped sleeve 41 can be processed and formed at one time in an optimized structure, the rotating cover 40 is only needed to be placed into the outer lock cap during assembly, the C-shaped sleeve is riveted into the outer lock cap 39, and then the whole lock core guarantee cover is assembled.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. An anti-violence intelligent lock is composed of four parts: machinery lock body, outdoor panel subassembly, indoor panel subassembly, lock core and lock core safety cover subassembly, wherein:

the mechanical lock body is arranged in a burglar-proof door between an outdoor panel component and an indoor panel component and comprises a one-way idle rotation component, and the one-way idle rotation component comprises: square hole piece, unlocking hook, tongue-shaped tooth and tongue-shaped tooth spring;

the outdoor panel assembly includes: a sliding cover mating piece and a keyhole sealing plate mating piece; the sliding closure mating piece includes: the device comprises a mouth-shaped push-pull piece, a push-pull piece spring, a left latch component, a right latch component, a latch component return spring, a sliding cover clamping marble and damping teeth;

the indoor panel assembly includes: motor and control circuitry and fittings therefor;

the lock cylinder and lock cylinder protection cover assembly comprises a lock cylinder and a lock cylinder protection cover, and the lock cylinder protection cover is composed of a lock outer cap, a rotating cover and a C-shaped sleeve;

have tooth structure on the square hole spare and install the tongue shape tooth that colludes in the unlocking hook and match and become certain angle, the tongue shape tooth back in the unlocking hook embeds has tongue shape tooth spring to be used for tongue shape addendum to summit, is breaking apart meetting the violence outdoor panel subassembly after, rotate the square hole spare, 360 degrees idle rotations of square hole spare just can not realize unblanking.

2. The anti-violence smart lock of claim 1, wherein the torsion transmission mechanism traverses between the indoor and outdoor panel assemblies and the mechanical lock body for torsion connection and disconnection, and the components of the torsion transmission mechanism are respectively disposed inside the mechanical lock body, the outdoor panel assembly and the indoor panel assembly;

the torque transmission mechanism includes: the device comprises an outer door handle, an outer door handle seat, an outer square pin, a square hole piece, an inner square pin guide piece, a torsion transfer pin seat, a bridging tooth, a unlocking hook and a shifting fork;

the two ends of the square hole piece are provided with holes and are not communicated, the square hole in the outdoor direction is connected with the outer square pin, the outer door handle seat and the outer door handle, and the hexagonal hole in the indoor direction is connected with the inner square pin and the inner square pin guide piece.

3. The anti-violence smart lock of claim 2, wherein the motor of the indoor panel assembly overcomes the spring force of the spring and presses the torsion transmission pin into the inner pin guide for torsion connection after the correct unlocking command is input.

4. The anti-violence intelligent lock according to claim 2, wherein when the outdoor panel assembly is unlocked by inputting a correct electronic command without being pried or damaged, the torsion is transmitted from the outside to the inside of the lock, and then is transmitted to the unlocking hook in the lock body through the torsion transmission member of the bridge gear, so that the unlocking is realized.

5. The force resistant smart lock of claim 1 wherein the one-way teeth in the one-way lost motion member may be of different shapes and the number of teeth may be one or more.

6. The violence resistant smart lock of claim 1, wherein when the outer door handle is forcibly screwed to unlock, the outer door handle is idly rotated without damaging the mechanical lock body.

7. The violence resistant smart lock of claim 1, wherein unlocking and counter-locking are performed indoors without electronic command, without the outer door handle following movement; the outer door handle can be lifted up to be reversely locked, pressed and idled, the torsion is in a cut-off state at the moment, and the inner door handle cannot move along with the torsion.

8. The anti-violence intelligent lock according to claim 1, wherein when the outdoor sliding cover is opened to a fixed position and a correct unlocking command is input, the outer door handle is twisted to unlock the lock, the sliding cover does not slide down when the lock is not opened, the torsion sliding cover does not slide down when the outer door handle is not released after unlocking, and the sliding cover automatically slides down and closes when the pushing force disappears when the outer door handle is released.

9. The anti-violence smart lock of claim 1, wherein the key hole sealing plate slides in the lower sliding track to open the key hole sealing plate, the sliding direction of the key hole sealing plate is one of downward, upward, leftward and rightward, and the key hole sealing plate automatically separates from the track to return to the original position under the action of the elastic force when the key hole sealing plate is lifted upwards.

10. The anti-violence intelligent lock according to claim 1, wherein the lock outer cap, the rotating cover and the C-shaped sleeve are all optimized to be formed in a one-time machining mode, the C-shaped sleeve is riveted into the lock outer cap during assembly, and the assembly is completed in a one-time mode through an intelligent manipulator.

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