CN209908145U - Intelligent door lock for modifying traditional mechanical door lock - Google Patents

Abstract

The utility model relates to a lock technical field, concretely relates to an intelligence lock for repacking traditional mechanical door lock, include from last to the casing, joint frame and the subsides dress box that set gradually down, be equipped with drive arrangement in the casing, the joint frame bottom be provided with subsides dress box assorted dress box groove, be provided with first passageway of rotating on the joint frame, be equipped with the turn round in the first passageway of rotating, be equipped with the draw-in groove on the turn round, the draw-in groove is used for joint drive arrangement's drive shaft, it rotates the passageway to be provided with the second in the dress box, the second rotates and is provided with the commentaries on classics core in the passageway, it is provided with anti-lock button groove to change the core middle part, anti-lock button groove and the anti-lock button phase-match of mechanical door lock, the top of commentaries on classics core and the. The utility model discloses only need to paste the dress box and install on mechanical door lock's anti-lock button, just can reach the technological effect of repacking traditional mechanical door lock, improved user's life convenience.

Description

Intelligent door lock for modifying traditional mechanical door lock

Technical Field

The utility model relates to a lock technical field, concretely relates to an intelligent lock for reequiping traditional mechanical lock.

Background

The electronic door lock uses a programmable memory and a data reading device, and the key of the electronic door lock is difficult to copy. The key has a special electronic chip of 3.5 x 3.5mm, which stores a specific password. When the key is inserted into the lock hole, the code is sent into the memory in the lock, and at the same time, a magnetic field is generated, and a voltage is generated in the coil on the chip and used as an unlocking power supply, and if the code in the key is matched with the lock, the lock is opened.

The electronic door lock is introduced into daily life, and great convenience is brought to people, so that the problem that people can not enter a door because the people forget a key is solved. However, for some people, due to various reasons, the traditional mechanical door lock cannot be replaced by the electronic door lock directly at will, so that the people cannot enjoy the convenience brought by the electronic door lock for daily life.

In the existing technology for modifying a mechanical door lock, for example, a clutch square rod for modifying a common handle lock into an electronic door lock disclosed in chinese patent publication No. CN201193429Y includes a rear square rod with a disk body, and is characterized in that a micro-motor with an output shaft is installed in the disk body, an end cover of a hollow front round rod is connected with the disk body in a matching manner, a rotary blocking arm and a blocking pin which are matched in blocking and connecting manner are correspondingly arranged on the end cover and the output shaft, the front end of the output shaft is of a flat shaft structure and is in sleeve fit with a lead screw, the lead screw is in threaded fit with a square thread sleeve, and the square thread sleeve is in clutch and clamping fit with the end part of. The clutch square rod controls the square thread sleeve in clutch clamping matching to be inserted and rotated or separated from the front round rod through a micro motor, so that the door is opened and locked; and when the square screw sleeve and the front round rod cannot be separated under the action of external force, the tension spring can drive the screw rod and the square screw sleeve to be pulled out together, so that the square screw sleeve is separated from the front round rod, and the door handle returns to an idle running state in which the door handle cannot be opened. Although the device can be used for modifying a mechanical door lock, the device is inconvenient to install due to complex structure, so that the application of the device is limited.

Therefore, the utility model provides a simple structure, it is convenient to use for repack traditional mechanical lock's intelligent lock, in order to improve user's life convenience.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art not enough, the utility model provides an intelligent lock for reequiping traditional mechanical lock, only need to paste dress box and install on the anti-lock button of mechanical lock, and will change the core cover on the anti-lock button, utilize the anti-lock button groove of commentaries on classics in-core to fix the anti-lock button, utilize turn round and commentaries on classics core joggle simultaneously, it rotates to drive the turn round through drive arrangement, thereby realize the rotation of anti-lock button, realize that the intelligence of traditional mechanical lock is unblanked, reach the technological effect of reequiping traditional mechanical lock, user's life convenience has been improved.

The purpose of the utility model is realized through the following technical scheme:

the utility model provides an intelligent lock for repacking traditional mechanical door lock, includes from last casing, joint frame and the subsides dress box that sets gradually extremely down, is provided with drive arrangement in the casing, the joint frame bottom can be dismantled with the dress box and be connected, is provided with first rotation passageway on the joint frame, be provided with the turn round in the first rotation passageway, be provided with the draw-in groove on the turn round, the draw-in groove is used for the joint transmission shaft, drive arrangement is used for controlling the transmission shaft and rotates, it rotates the passageway to be provided with the second in the dress box, the second rotates and is provided with the core in the passageway, it is provided with anti-lock button groove to change the core middle part, anti-lock button phase-match of anti-lock button groove and mechanical door lock, the top of core.

Furthermore, the bottom of the joint frame is provided with a mounting box groove matched with the mounting box, and the joint frame is clamped with the mounting box through the mounting box groove.

Further, the shell comprises a top cover, a rotary drum and a bottom cover which are sequentially arranged from top to bottom, the bottom of the bottom cover is provided with a lock cylinder shaft hole, the top of the bottom cover is provided with a fixed channel, the fixed passage is communicated with the lock core shaft hole, a transmission shaft driving gear, a first transmission gear and an outer ring driving gear are arranged in the shell, the driving device is used for controlling the rotation of the transmission shaft driving gear, the transmission shaft driving gear is arranged at the top of the fixed channel, and the transmission shaft driving gear is coupled with the fixed channel, a clamping hole is arranged on the transmission shaft driving gear, the clamping hole is matched with the transmission shaft, the top of the transmission shaft sequentially passes through the lock cylinder shaft hole, the fixed channel and the clamping hole, the outer side wall of the outer ring driving gear is connected with the inner wall of the rotary drum, one side of the first transmission gear is meshed with the transmission shaft driving gear, and the other side of the first transmission gear is meshed with the inner wall of the outer ring driving gear.

Furthermore, a first sliding groove is formed in the bottom of the rotary drum, a plurality of first protruding blocks are uniformly arranged on the top of the bottom cover, the first protruding blocks are arranged on the same circumference, and the whole or part of the first protruding blocks are arranged in the first sliding groove; the inner wall of the top of the rotary drum is provided with a second sliding groove, the side wall of the top cover is uniformly provided with a plurality of second convex blocks, and all or part of the second convex blocks are arranged in the second sliding groove.

Further, a motor output gear is sleeved on a driving shaft of the driving device, a second transmission gear is further arranged in the shell, one side of the second transmission gear is meshed with the motor output gear, and the other side of the second transmission gear is meshed with the transmission shaft driving gear. The transmission shaft driving gear is controlled to rotate through the driving device, and the top of the transmission shaft is connected with the transmission shaft driving gear through the clamping hole due to the fact that the bottom of the transmission shaft is connected with the rotating head in a clamped mode, so that the rotating head is driven to rotate synchronously along with the driving device through the transmission shaft. During the use, pass the lock core shaft hole with the transmission shaft in proper order, fixed passage, and let the card hole block the transmission shaft, when needs electric control, control drive arrangement work, drive arrangement drives motor output gear and rotates, and through the transmission of second drive gear, it rotates to drive transmission shaft drive gear, thereby order about the transmission shaft and follow drive arrangement synchronous rotation, realize electric control, and when the user needs manual control, the user only needs to rotate the rotary drum, the rotatory in-process of rotary drum, drive outer loop drive gear and rotate, and through the transmission of first drive gear, it rotates to drive transmission shaft drive gear, thereby order about the transmission shaft and follow the rotary drum synchronous rotation, realize manual control.

Furthermore, the rotary core, the reverse locking button groove, the rotary head and the transmission shaft are coaxially arranged. Through the coaxial arrangement of rotary core, anti-lock button groove, bull head, transmission shaft, when drive arrangement worked, rotary core, anti-lock button groove, bull head can follow the coaxial rotation of transmission shaft.

Further, the engagement frame is bolted to the housing.

Further, a controller and a power supply are arranged in the shell, and the controller is connected with the driving device and the power supply.

Further, still be provided with charging socket on the casing lateral wall, charging socket is connected with the power. Through set up charging socket on the casing lateral wall, utilize charging socket to carry out the electric energy supply to the power, improve the continuous working ability of device.

Furthermore, the shell is also provided with a control key, and the control key is connected with the controller. By arranging the control keys on the shell, a user can input an operation instruction through the control keys, and the controller makes a corresponding response according to the operation instruction.

Further, still be provided with wireless communication module in the casing, wireless communication module is connected with the controller, communication module is used for receiving operating instruction. Utilize wireless communication module to receive the operation instruction that the user sent from mobile communication terminal and cloud server, the controller makes corresponding response according to operation instruction again, realizes the remote intelligent control of lock, improves the applied convenience of device.

Furthermore, a gear code disc is arranged in the shell and connected with the controller, and the gear code disc is used for detecting the rotation stroke of the driving device. The controller controls the driving device to stop working when the gear code disc detects that the rotating stroke of the driving device reaches a preset value.

Further, still be provided with drive current sampling resistor in the casing, drive current sampling resistor is connected with the controller, and drive current sampling resistor is used for detecting drive current's real-time change among the drive arrangement rotation process. The real-time change of the driving current in the rotation process of the driving device is detected according to the driving current sampling resistor, whether the rotation is blocked or not is further judged, the resistance and the cause can be sequentially analyzed, preferably, the range and the threshold value of the driving current are detected by setting the driving current sampling resistor, the detected current in the rotation process is utilized, and the driving device is controlled to stop working when the current reaches a certain threshold value or interval by the controller.

Furthermore, the inner wall of the anti-locking button groove is provided with a flexible wear-resistant layer. Set up flexible wearing layer through the inner wall at the anti-button groove of locking, utilize flexible wearing layer to make anti-button groove and anti-button soft contact of locking, reduce the mutual wearing and tearing between commentaries on classics core and the anti-button of locking, improve the life of device, increase the frictional force between anti-button groove and the anti-button of locking simultaneously, let the core of changeing change and drive the anti-button of locking and rotate.

Furthermore, the bottom of the rotary head is provided with a plurality of third lugs, the top of the rotary core is provided with a plurality of grooves, and the grooves are matched with the third lugs.

Further, the bump is of a square structure.

Further, the driving device is a motor.

Furthermore, an annular track groove is formed in the inner wall of the second rotating channel, and an annular track matched with the annular track groove is formed in the outer wall of the rotating core. Preferably, the annular rail is partially or entirely disposed in the annular rail groove. The inner wall of the second rotating channel is provided with the annular track groove, the outer wall of the rotating core is provided with the annular track, and the rotating core and the mounting box can rotate freely by the cooperation of the annular track and the annular track groove.

The utility model has the advantages that: the utility model is used for repacking traditional mechanical door lock's intelligent lock, moreover, the steam generator is simple in structure, it is convenient to use, only need to paste the dress box and install on mechanical door lock's anti-lock button, and with the core cover of will changeing on the anti-lock button, utilize the anti-lock button groove of commentaries on classics in-core to fix the anti-lock button, utilize the turn round simultaneously and change the core joggle, it rotates to drive the turn round through drive arrangement, thereby realize the rotation of anti-lock button, realize that traditional mechanical door lock's intelligence is unblanked, reach the technological effect of repacking traditional mechanical door lock, user's life convenience has.

Drawings

Fig. 1 is a schematic structural view of the intelligent door lock of the present invention;

fig. 2 is an exploded view of the intelligent door lock of the present invention;

fig. 3 is a schematic structural view of the housing of the present invention;

fig. 4 is an exploded view of the housing of the present invention;

fig. 5 is a bottom view of the housing of the present invention;

in the figure, 1-shell, 2-joint frame, 3-packing box, 4-first rotating channel, 5-rotating head, 6-clamping groove, 7-transmission shaft, 8-second rotating channel, 9-rotating core, 10-reverse locking button groove, 11-reverse locking button, 12-third bump, 13-groove, 14-packing box groove, 15-driving device, 16-top cover, 17-rotating cylinder, 18-bottom cover, 19-lock core shaft hole, 20-fixed channel, 21-transmission shaft driving gear, 22-first transmission gear, 23-outer ring driving gear, 24-motor output gear, 25-second transmission gear, 26-first bump, 27-second sliding groove, 28-second bump and 29-clamping hole.

Detailed Description

The technical solution of the present invention is described in further detail below with reference to the accompanying drawings, but the scope of the present invention is not limited to the following description.

As shown in fig. 1-5, an intelligent door lock for refitting a traditional mechanical door lock comprises a shell 1, a joint frame 2 and a mounting box 3 which are sequentially arranged from top to bottom, wherein a driving device 15 is arranged in the shell 1, the bottom of the joint frame 2 is detachably connected with the mounting box 3, a first rotating channel 4 is arranged on the joint frame 2, a turn head 5 is arranged in the first rotating channel 4, a clamping groove 6 is arranged at the center of the turn head 5, the clamping groove 6 is used for clamping a transmission shaft 7, the driving device 15 is used for controlling the transmission shaft 7 to rotate, a second rotating channel 8 is arranged in the mounting box 3, a rotary core 9 is arranged in the second rotating channel 8, a reverse locking button groove 10 is arranged in the middle of the rotary core 9, the reverse locking button groove 10 is matched with a reverse locking button 11 of the mechanical door lock, and the top of the rotary core 9 is in tenon joint with the bottom of.

As shown in fig. 2, a mounting box slot 14 matched with the mounting box 3 is arranged at the bottom of the joint frame 2, and the joint frame 2 is clamped with the mounting box 3 through the mounting box slot 14.

As shown in fig. 2, the housing 1 includes a top cover 16, a rotary drum 17 and a bottom cover 18, which are sequentially arranged from top to bottom, the bottom of the bottom cover 18 is provided with a key cylinder shaft hole 19, the top of the bottom cover 18 is provided with a fixed passage 20, the fixed passage 20 is communicated with the key cylinder shaft hole 19, a transmission shaft driving gear 21, a first transmission gear 22 and an outer ring driving gear 23 are arranged in the housing 1, the driving device 15 is used for controlling the transmission shaft driving gear 21 to rotate, the transmission shaft driving gear 21 is arranged on the top of the fixed passage 20, the transmission shaft driving gear 21 is coupled with the fixed passage 20, the transmission shaft driving gear 21 is provided with a locking hole 29, the locking hole 29 is matched with the transmission shaft 7, the top of the transmission shaft 7 sequentially passes through the key cylinder shaft hole 19, the fixed passage 20 and the locking hole, one side of the first transmission gear 22 is meshed with the transmission shaft driving gear 21, and the other side of the first transmission gear 22 is meshed with the inner wall of the outer ring driving gear 23.

Specifically, a first sliding groove is formed at the bottom of the rotating drum 17, a plurality of first protruding blocks 26 are uniformly arranged at the top of the bottom cover 18, the first protruding blocks 26 are arranged on the same circumference, and all or part of the first protruding blocks 26 are located in the first sliding groove; a second sliding groove 27 is formed in the inner wall of the top of the rotating drum 17, a plurality of second protrusions 28 are uniformly formed on the side wall of the top cover 16, and all or part of the second protrusions 28 are located in the second sliding groove 27.

Specifically, a motor output gear 24 is sleeved on a driving shaft of the driving device 15, a second transmission gear 25 is further arranged in the housing 1, one side of the second transmission gear 25 is meshed with the motor output gear 24, and the other side of the second transmission gear is meshed with the transmission shaft driving gear 21. Through drive arrangement 15 control transmission shaft drive gear 21 rotation, because transmission shaft 7 bottom and the joint of turning round 5, transmission shaft 7 top is through calorie hole 29 and transmission shaft drive gear 21 joint to drive turning round 5 through transmission shaft 7 and along with drive arrangement 15 synchronous revolution.

Specifically, the rotary core 9, the reverse locking button groove 10, the rotary head 5 and the transmission shaft 7 are coaxially arranged. Through coaxially arranging the rotary core 9, the reverse locking button groove 10, the rotary head 5 and the transmission shaft 7, when the driving device 15 works, the rotary core 9, the reverse locking button groove 10 and the rotary head 5 can coaxially rotate along with the transmission shaft 7.

Specifically, the engagement frame 2 is bolted to the housing 1.

Specifically, a controller and a power supply are further arranged in the housing 1, and the controller is respectively connected with the driving device 15 and the power supply.

Specifically, still be provided with charging socket on the casing 1 lateral wall, charging socket is connected with the power. Through set up charging socket on 1 lateral wall of casing, utilize charging socket to carry out the electric energy supply to the power, improve the lasting operating capacity of device.

Specifically, the housing 1 is further provided with a control key, and the control key is connected with the controller. By arranging the control keys on the shell 1, a user can input an operation instruction through the control keys, and the controller makes a corresponding response according to the operation instruction. In a preferred embodiment, the control button is a knob, when a user needs to open the mechanical door lock in the use process, the user only needs to rotate the knob, namely, an operation instruction is input to the device, the controller controls the driving device 15 to work after receiving a rotation signal of the knob, the driving device 15 controls the transmission shaft 7 to rotate, the transmission shaft 7 is connected with the rotary head 5 in a clamping mode, so that the rotating transmission shaft 7 drives the rotary head 5 to rotate, the rotary head 5 is connected with the rotary core 9 in a joggling mode, so that the rotary core 9 and the rotary head 5 are driven to rotate coaxially, and in the rotation process of the rotary core 9, the anti-locking button 11 of the mechanical door lock is clamped by the anti-locking button groove 10 in the rotary core 9, so that the anti-locking button 11 is driven to rotate coaxially along with the transmission shaft 7, and.

Specifically, a wireless communication module is further arranged in the housing 1, the wireless communication module is connected with the controller, and the communication module is used for receiving an operation instruction. Utilize wireless communication module to receive the operation instruction that the user sent from mobile communication terminal and cloud server, the controller makes corresponding response according to operation instruction again, realizes the remote intelligent control of lock, improves the applied convenience of device. In a preferred embodiment, after the smart door lock is mounted on the anti-lock button 11 of the mechanical door lock, the user can connect with the wireless communication module of the device through a mobile communication terminal or a cloud server, then inputting an operation instruction through the mobile communication terminal or the cloud server, transmitting the operation instruction to the controller through the wireless communication module, making a corresponding response according to the operation instruction by the controller, controlling the driving device 15 to work, controlling the transmission shaft 7 to rotate by the driving device 15, because the transmission shaft 7 is clamped with the rotary head 5, the rotary transmission shaft 7 drives the rotary head 5 to rotate, and because the rotary head 5 is joggled with the rotary core 9, the rotary core 9 and the rotary head 5 are driven to coaxially rotate, and in the rotating process of the rotary core 9, because the back locking button groove 10 in the rotary core 9 clamps the back locking button 11 of the mechanical door lock, the back locking button 11 is driven to rotate coaxially along with the transmission shaft 7, and the mechanical door lock is opened or closed.

Specifically, a stroke sensor is further disposed in the housing 1, and the stroke sensor is connected to the controller and is used for detecting a rotation stroke of the driving device 15. By providing the stroke sensor, the stroke sensor is used to detect the rotation stroke of the driving device 15, and when the stroke sensor detects that the rotation stroke of the driving device 15 reaches a predetermined value, the controller controls the driving device 15 to stop working. In a preferred embodiment, because the rotation stroke of the lock cylinder of the traditional mechanical door lock is limited, in order to avoid the problem that the driving device 15 continues to operate after the anti-lock button 11 reaches the upper limit of the rotation stroke of the lock cylinder in the process of controlling the anti-lock button 11 to rotate by the driving device 15, so as to cause damage to the mechanical door lock or the intelligent door lock, a stroke sensor is arranged in the housing 1, the stroke sensor is used for detecting the rotation stroke of the driving device 15, when the anti-lock button 11 reaches the upper limit of the rotation stroke of the lock cylinder, the stroke sensor detects that the rotation stroke of the driving device 15 reaches a preset value, the stroke sensor transmits a signal to the controller, and the controller controls the driving device 15 to stop operating, so that damage to the mechanical door lock or the intelligent door lock is effectively avoided, and the safety of the operation of the device is improved.

Specifically, a gear code disc is further arranged in the housing 1, the gear code disc is connected with the controller, and the gear code disc is used for detecting the rotation stroke of the driving device 15. The controller controls the driving device 15 to stop working when the gear code disc detects that the rotating stroke of the driving device 15 reaches a preset value.

Specifically, the inner wall of the anti-lock button groove 10 is provided with a flexible wear-resistant layer. Set up flexible wearing layer through the inner wall at anti-lock button groove 10, utilize flexible wearing layer to make anti-lock button groove 10 and anti-lock 11 soft contacts of button, reduce the mutual wearing and tearing between rotary core 9 and the anti-lock button 11, improve device's life, increase the frictional force between anti-lock button groove 10 and the anti-lock button 11 simultaneously, let rotary core 9 change and drive anti-lock button 11 and rotate.

As shown in fig. 2, the bottom of the rotary head 5 is provided with a plurality of third protrusions 12, the top of the rotary core 9 is provided with a plurality of grooves 13, and the grooves 13 are matched with the third protrusions 12.

Specifically, the third bump 12 has a square structure.

In particular, the driving means 15 is a motor.

Specifically, an annular track groove is formed in the inner wall of the second rotating passage 8, and an annular track matched with the annular track groove is formed in the outer wall of the rotating core 9. Preferably, the annular rail is partially or entirely disposed in the annular rail groove. The inner wall of the second rotating channel 8 is provided with an annular track groove, the outer wall of the rotating core 9 is provided with an annular track, and the rotating core 9 and the mounting box 3 can rotate freely by matching the annular track with the annular track groove.

In the using process, the pasting box 3 is firstly installed on the anti-locking button 11 of the mechanical door lock, the rotating core 9 is sleeved on the anti-locking button 11, the anti-locking button 11 of the mechanical door lock is clamped by the anti-locking button groove 10 in the rotating core 9, then the joint frame 2 is installed on the pasting box 3, as the pasting box groove 14 matched with the pasting box 3 is arranged on the joint frame 2, the stable connection between the joint frame 2 and the pasting box 3 can be realized only by installing the pasting box 3 in the pasting box groove 14 in the installation and fixing process of the joint frame 2 and the pasting box 3, as the driving device 15 is fixedly arranged on the joint frame 2, the transmission shaft 7 of the driving device 15 is clamped with the rotating head 5, the rotating head 5 is arranged in the first rotating channel 4 in the joint frame 2, and the rotating head 5 is in joggled connection with the rotating core 9, when the mechanical door lock is required to be unlocked or locked, the driving device 15 is controlled to work, the driving device 15 drives the transmission shaft 7 to rotate, the transmission shaft 7 drives the rotating head 5 to rotate and drives the anti-locking button 11 to rotate through the transmission of the rotating core 9, so that the intelligent unlocking or locking of the mechanical door lock is realized; in addition, because the coaxial setting of rotary core 9, anti-lock button groove 10, bull head 5, transmission shaft 7, at drive arrangement 15 during operation, rotary core 9, anti-lock button groove 10, bull head 5 can follow the coaxial rotation of transmission shaft 7, realize high-efficient swift unblanking or close the lock to reach the technological effect of repacking traditional mechanical door lock, improved user's life convenience.

The foregoing is illustrative of the preferred embodiments of the present invention, and it is to be understood that the invention is not limited to the precise forms disclosed herein, and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the invention as defined by the appended claims. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (10)

1. The utility model provides an intelligent lock for repacking traditional mechanical door lock, a serial communication port, include from last casing, joint frame and the subsides dress box that sets gradually extremely down, be provided with drive arrangement in the casing, the joint frame bottom can be dismantled with the dress box and be connected, is provided with first rotation channel on the joint frame, be provided with the turn round in the first rotation channel, be provided with the draw-in groove on the turn round, the draw-in groove is used for the joint transmission shaft, drive arrangement is used for controlling the transmission shaft and rotates, it rotates the passageway to be provided with the second in the dress box, the second rotates and is provided with the core that changes in the passageway, it is provided with anti-lock button groove to change the core middle part, anti-lock button phase-match of anti-lock button groove and mechanical door lock, the.

2. The intelligent door lock of claim 1, wherein the housing comprises a top cover, a rotary drum and a bottom cover, the top cover, the rotary drum and the bottom cover are sequentially arranged from top to bottom, the bottom of the bottom cover is provided with a lock cylinder hole, the top of the bottom cover is provided with a fixed passage, the fixed passage is communicated with the lock cylinder hole, the housing is internally provided with a transmission shaft driving gear, a first transmission gear and an outer ring driving gear, the driving device is used for controlling the transmission shaft driving gear to rotate, the transmission shaft driving gear is arranged at the top of the fixed passage and is coupled with the fixed passage, the transmission shaft driving gear is provided with a locking hole, the locking hole is matched with the transmission shaft, the top of the transmission shaft sequentially passes through the lock cylinder hole, the fixed passage and the locking hole, the outer side wall of, one side of the first transmission gear is meshed with the transmission shaft driving gear, and the other side of the first transmission gear is meshed with the inner wall of the outer ring driving gear.

3. An intelligent door lock for refitting a traditional mechanical door lock as claimed in claim 2, wherein a motor output gear is sleeved on the driving shaft of the driving device, a second transmission gear is further arranged in the housing, one side of the second transmission gear is meshed with the motor output gear, and the other side of the second transmission gear is meshed with the transmission shaft driving gear.

4. The intelligent door lock for modifying the traditional mechanical door lock as claimed in claim 2, wherein the bottom of the rotating drum is provided with a first sliding slot, the top of the bottom cover is uniformly provided with a plurality of first protrusions, the first protrusions are arranged on the same circumference, and the first protrusions are wholly or partially positioned in the first sliding slot; the inner wall of the top of the rotary drum is provided with a second sliding groove, the side wall of the top cover is uniformly provided with a plurality of second convex blocks, and all or part of the second convex blocks are positioned in the second sliding groove.

5. An intelligent door lock for retrofitting a conventional mechanical door lock according to claim 2, wherein a controller and a power supply are further provided within the housing, the controller being connected to the drive means and the power supply.

6. The intelligent door lock of claim 5, wherein a wireless communication module is further disposed in the housing, the wireless communication module is connected to the controller, and the communication module is configured to receive an operation command.

7. An intelligent door lock for retrofitting a conventional mechanical door lock according to claim 1, wherein the inner wall of the anti-lock button slot is provided with a flexible wear layer.

8. An intelligent door lock for retrofitting a conventional mechanical door lock as recited in claim 1, wherein said bottom of said turn is provided with a plurality of third protrusions, said top of said turn core is provided with a plurality of grooves, said grooves matching said third protrusions.

9. The intelligent door lock of claim 8, wherein the third protrusion has a square configuration.

10. An intelligent door lock for retrofitting a conventional mechanical door lock according to claim 1, wherein said drive means is a motor.

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