CN110541619A

CN110541619A - Anti-theft lock with modular driving device

Info

Publication number: CN110541619A
Application number: CN201910898927.4A
Authority: CN
Inventors: 沈汉标; 王妙玉; 童威云; 黄安川; 黄克洲; 夏亮
Original assignee: Guangdong Ketyoo Intelligent Technology Co Ltd
Current assignee: Guangdong Ketyoo Intelligent Technology Co Ltd
Priority date: 2019-09-23
Filing date: 2019-09-23
Publication date: 2019-12-06
Anticipated expiration: 2039-09-23
Also published as: CN110541619B

Abstract

The invention discloses an anti-theft lock with a modular driving device, which comprises: the lock body is internally provided with a lock bolt and a transmission device, and the transmission device is linked with the lock bolt; the driving module comprises a driving box body and a driving mechanism, the driving box body is arranged in the lock body, and a notch is formed in one side edge, close to the transmission device, of the driving box body; the driving mechanism is fixed in the driving box body, one end of the driving mechanism is exposed out of the notch and is linked with the transmission device, so that the driving mechanism drives the transmission device to eject or withdraw the lock tongue into the lock body. According to the invention, the plurality of gears in the driving device are all arranged in the box body connected with the lock body, when the gears in the driving device need to be replaced, the whole box body is only required to be detached from the lock body, and a new box body internally provided with the driving gear is replaced, so that the replacement action can be completed, the situation that the gears fall scattered is avoided, the maintenance efficiency of the lock body is improved, and the stable reliability of the lock body can be enhanced.

Description

Anti-theft lock with modular driving device

Technical Field

The invention relates to the field of door locks, in particular to an anti-theft lock with a modular driving device.

background

Currently, the anti-theft lock is widely applied to various occasions due to high safety. The existing anti-theft locks are provided with driving devices, for example, a plurality of gears installed in the lock body, and the gears are matched with each other to rotate, so that the mechanical switch in the lock body is pushed to be closed, and the unlocking and locking actions are completed.

the most easily damaged part in the existing anti-theft lock body is the driving device, because a plurality of gears in the lock body are generally fixed on a shell plate of the lock body through rotating shafts, and all the gears are mutually meshed and are mutually matched to rotate, if one gear in the lock body is abnormal, the linkage of the whole driving device can be caused, and the normal work of each structure in the lock body is influenced.

If one of the gears is to be replaced, firstly, the shell plate of the lock body needs to be detached, but the gear connected to the shell plate is easy to fall off; then, because the gears are tightly matched with each other, if a certain gear needs to be replaced, a plurality of gears linked with the gear need to be completely detached from the shell plate of the lock body, and the plurality of gears are matched and spliced back into the lock body after the gear is replaced, so that the whole replacement process is complex, long in time consumption and incapable of improving the maintenance efficiency, scattered gear parts are easily lost when detached, and after a new gear is replaced, the adjacent gears can be perfectly meshed, so that the stability of the lock body is poor.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide the anti-theft lock with the modular driving device, which can simplify the replacement process of the gear in the driving device, improve the maintenance efficiency of the lock body and enhance the stability and reliability of the lock body.

The purpose of the invention is realized by adopting the following technical scheme:

An anti-theft lock with modular drive, comprising:

The lock body is internally provided with a lock bolt and a transmission device, and the transmission device is linked with the lock bolt;

the driving module comprises a driving box body and a driving mechanism, the driving box body is arranged in the lock body, and a notch is formed in one side edge, close to the transmission device, of the driving box body; the driving mechanism is fixed in the driving box body, one end of the driving mechanism is exposed out of the notch and is linked with the transmission device, so that the driving mechanism drives the transmission device to eject or withdraw the lock tongue into the lock body.

Furthermore, the driving mechanism comprises a gear assembly and a shifting tongue assembly, the gear assembly is distributed in the box body far away from the notch, the shifting tongue assembly is arranged in the box body close to the notch, and the gear assembly is linked with the shifting tongue assembly.

Furthermore, the bolt shifting assembly comprises a gear base and a bolt shifting peach, and the bolt shifting peach is clamped with the gear base; a plurality of gear grooves are uniformly distributed on the outer surface of the gear base, and the gear base is meshed with the gear assembly through the gear grooves.

Further, a section of idle stroke is arranged between the gear base and the bolt shifting peach.

Furthermore, the lock tongue shifting peach comprises a lock cylinder and a shifting tongue, the shifting tongue is sleeved outside the lock cylinder, and the shifting tongue and the lock cylinder synchronously rotate; the distance from the middle point of the lock core to the outermost end of the shifting tongue is greater than the maximum distance from the middle point of the lock core to the edge of the gap of the box body.

Furthermore, the shifting tongues are provided with double-blade shifting tongues, the corresponding transmission devices are provided with a main lock tongue transmission mechanism and an oblique tongue transmission mechanism, the double-blade shifting tongues are symmetrically distributed, when the double-blade shifting tongues rotate in different rotating directions, one of the shifting tongues shifts the main lock tongue transmission mechanism to drive the main lock tongue linked with the main lock tongue transmission mechanism to pop out or withdraw into the lock body, and the other shifting tongue shifts the oblique tongue transmission mechanism to drive the main lock tongue linked with the oblique tongue transmission mechanism to pop out or withdraw into the lock body.

Furthermore, an induction component is installed on a moving path of the poking tongue, a shielding piece extending outwards is connected to the gear base, and the gear base drives the shielding piece to cut in or out an induction range of the induction component in a rotating mode when rotating.

Further, the sensing assembly is set as one of a mechanical switch, an ultrasonic distance sensor, a photoelectric switch or a magnetic control sensor.

Furthermore, the gear assembly comprises at least one driving gear and a plurality of driven gears, the driving gear is meshed with the driven gears, one driven gear is meshed with a gear groove of the gear base, and the driving gear is connected with the motor; wherein the motor is arranged in the box body or outside the lock body.

Further, the opening range of the notch is larger than the maximum width of the poking tongue component.

compared with the prior art, the invention has the beneficial effects that:

All set up a plurality of gear among the drive arrangement in a box body that is connected with the lock body, when the gear among the drive arrangement needs to be changed, only need to lift whole box body off from the lock body, change a new box body that embeds there is drive gear and can accomplish the change action, avoid appearing the condition that the gear scatters and drops, and can shorten the change time, reduce the change degree of difficulty to improve the maintenance efficiency of lock body, still can strengthen the reliable and stable nature of lock body.

Drawings

FIG. 1 is a schematic view of the overall structure of the anti-theft lock of the present invention;

FIG. 2 is a schematic view of the internal structure of the driving box body in the anti-theft lock according to the present invention;

FIG. 3 is an exploded view of the deadbolt assembly of the present invention;

FIG. 4 is a schematic structural view of the transmission of the present invention;

FIG. 5 is a schematic structural view of the main bolt actuator of the present invention;

FIG. 6 is a schematic view of the overall structure of the overload protection gear of the present invention;

FIG. 7 is a cross-sectional view of the overload protection gear of the present invention in a normal load condition;

Fig. 8 is a cross-sectional view of the overload protection gear of the present invention in an overload state.

In the figure: 1. a lock body; 2. driving the box body; 201. a motor; 202. a driving gear; 203. a change gear; 204. a driven gear; 205. a gear base; 206. an idle travel stop; 207. double-leaf tongue poking; 208. a limiting block; 209. a lock cylinder; 210. a shielding sheet; 211. a notch; 3. a main bolt; 301. connecting sheets; 302. an oblique chute; 303. a shifting sheet; 304. poking holes; 4. a latch bolt; 401. rotating the poking tongue; 402. a push rod; 403. shifting blocks; 5. sensing the tongue; 6. an inductive component; 7. an overload protection gear; 701. an input gear; 702. an output gear; 703. a gear shaft; 704. a sphere; 705. an elastic member; 706. and (4) spherical pits.

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.

An anti-theft lock with a modular driving device is characterized in that as shown in figure 1, the modular driving device is detachably arranged in a lock body 1, and the whole module of the anti-theft lock is replaced when the anti-theft lock needs to be replaced, so that the replacement efficiency can be improved, and the anti-theft lock can be produced in a modularized mode, and the production efficiency is improved.

In this embodiment, the anti-theft lock is an electronic lock, and a lock body 1 of the anti-theft lock is provided with a lock tongue and a transmission device, the transmission device is linked with the lock tongue, and the transmission device moves to drive the lock tongue to pop out or retract into the lock body 1. As shown in fig. 1 to 5, in this embodiment, the transmission device includes a main bolt transmission mechanism and a latch bolt transmission mechanism, where the main bolt transmission mechanism includes a main bolt 3, a shift piece 303 and a connecting piece 301, one end of the connecting piece 301 is connected to the main bolt 3, the connecting piece 301 is slidably connected to the lock body 1, the connecting piece 301 is provided with an oblique sliding slot 302, one end of the shift piece 303 is slidably connected to the oblique sliding slot 302 of the connecting piece 301 through a pin, when the connecting piece 301 rotates in different directions, one end of the shift piece 303 moves in the oblique sliding slot 302 of the connecting piece 301 and provides a vertically upward or vertically downward acting force for the connecting piece 301, so that the connecting piece 301 can drive the main bolt 3 to pop out or retract into the lock body 1; and one side of the shifting piece 303 close to the driving mechanism is provided with a shifting hole 304, and the driving mechanism can drive the shifting piece 303 to rotate by shifting the shifting hole 304, so that the driving mechanism drives the main bolt 3 to move.

the latch bolt transmission mechanism comprises a push rod 402, a rotary shifting bolt 401 and a latch bolt 4; a spring for resetting is sleeved on the tongue rod of the oblique tongue 4; one end of the push rod 402 is provided with a strip-shaped hole, the push rod 402 is in sliding connection with a pin shaft fixed on the connecting sheet 301 through the strip-shaped hole, and the connecting sheet 301 can drive the push rod 402 to synchronously move up and down when moving up and down; under the action of external force, the push rod 402 and the connecting sheet 301 can slide relatively in the left-right direction; one end of the push rod 402 far away from the driving mechanism is hinged with a rotary shifting tongue 401, the other end of the rotary shifting tongue 401 is abutted to the latch bolt 4, a shifting block 403 is arranged on one side of the push rod 402 close to the driving mechanism, the push rod 402 can be linked with the driving mechanism through the shifting block 403, after the connecting sheet 301 moves the push rod 402 towards the direction close to the driving mechanism, the driving mechanism is close to the push rod 402 and can drive the push rod 402 to slide on the connecting sheet 301 by shifting the shifting block 403, the push rod 402 slides to drive the rotary shifting tongue 401 to rotate, and therefore the latch bolt 4 is retracted into the lock body 1.

The driving mechanism in the lock body 1 comprises the gear assembly and the shifting tongue assembly, and the key hole of the shifting tongue assembly is exposed outside the lock body 1 and is easily blocked by foreign matters for lawless persons or the situation that a key is broken in the key hole exists, so that the shifting tongue assembly is also arranged in the driving box body 2, and can be conveniently and quickly replaced when the shifting tongue assembly is damaged. In order to improve the replacement efficiency of the driving mechanism, the gear assembly and the shifting tongue assembly are both arranged on a driving box body 2, the driving box body 2 and the lock body 1 can be detachably connected through bolts, when the driving mechanism is abnormal and cannot be driven, the driving box body 2 is only needed to be dismounted, and the replacement action can be completed by replacing a new driving box body 2, so that the maintenance efficiency can be greatly improved; the condition that individual gear was changed can also be avoided appearing, the condition of disjointing appears in the mutually supporting between each part in the lock body 1 to maintain the stability of pickproof lock.

Drive box body 2 can set up to semi-enclosed drive box body 2, and drive box body 2 includes box shell and lid, the gear assembly with dial the tongue subassembly and all connect on the box shell, the box shell is connected with the lid is detachable, when the box body back of taking off, with box shell and lid split, can retrieve the gear assembly or dial the tongue subassembly. A notch 211 is formed in one side of the driving box body 2 close to the shifting piece 303, the notch 211 is used for enabling the shifting tongue assembly to extend to the shifting hole 304 of the shifting piece 303 to provide enough space for shifting the shifting piece 303, the opening range of the notch 211 is larger than the maximum width of the shifting tongue assembly, so that when the push rod 402 moves down to the notch 211 of the driving box body 2, enough space is provided for the shifting block 403 of the push rod 402 to extend into the notch 211 to be in contact with the shifting tongue assembly.

The gear assembly in the drive box body 2 includes a plurality of intermeshing's gear, and a plurality of gear all distributes in the box body of keeping away from breach 211, and a plurality of gear can be driven by motor 201, and this motor 201 sets up in same drive box body 2 with the gear jointly, also can set up motor 201 on the control panel outside lock body 1, and the pivot of motor 201 passes lock body 1 and be connected with the gear can. In this embodiment, the motor 201 is built in the driving case 2, so that the thickness of the control panel can be reduced to achieve an aesthetic effect. A rotating shaft of the motor 201 is connected with a driving gear 202, and the driving gear 202 is longitudinally arranged and meshed with a direction changing gear 203; the plurality of driven gears 204 which are transversely arranged are sequentially arranged on the side edge of the motor 201, one driven gear 204 which is closest to the direction changing gear 203 is meshed with the direction changing gear 203, one driven gear 204 is meshed with the gear base 205 of the tongue shifting assembly, and the motor 201 drives the driving gear 202 to drive the direction changing gear 203 and the plurality of driven gears 204 to be synchronous and finally drive the tongue shifting assembly to rotate.

the driven gear 204 may be a gear with overload protection, as shown in fig. 6 to 8, the overload protection gear 7 includes an input gear 701, an output gear 702, a gear shaft 703, a spherical body 704, and an elastic member 705; the input gear 701 is in transmission connection with a reduction case of the intelligent lock body 1, and the output gear 702 is in transmission connection with a lock tongue of the intelligent lock body 1; the input gear 701 and the output gear 702 are both pivoted on the gear shaft 703, the output gear 702 and the input gear 701 are both axially fixed, and the output gear 702 abuts against the top of the input gear 701; a spring groove for accommodating an elastic piece 705 is formed in the input gear 701, and the elastic piece 705 is arranged in the spring groove; the sphere 704 is disposed on the top of the elastic member 705, a spherical recess 706 is disposed at the bottom of the output gear 702, the upper portion of the sphere 704 is accommodated in the spherical recess 706, and the lower portion of the sphere 704 is accommodated in the spring groove and compresses the elastic member 705.

Under the normal condition of load, the compressed elastic piece 705 tightly pushes the sphere 704 in the spherical pit 706, so that the input gear 701, the sphere 704 and the output gear 702 rotate around the gear shaft 703 together; when the load is too big, the moment transmitted by the sphere 704 is not enough to overcome the load resistance, the upper part of the sphere 704 is separated from the spherical pit 706, and then the upper part is pressed into the spring groove by the bottom plane of the output gear 702, the input gear 701 can not drive the output gear 702 to rotate any more, so that the motor 201 of the intelligent lock body 1 can not drive the lock tongue any more, the overload protection for the inside of the intelligent lock body 1 is realized, the gear and the speed reducer case of the lock body 1 are not easily damaged due to the too big load, the stability and the reliability of the lock body 1 are enhanced, and the service life of the lock body 1 is prolonged.

The driving bolt component in the driving box body 2 is arranged in the box body close to the notch 211 and comprises a gear base 205 and a bolt shifting peach, a plurality of gear grooves are uniformly distributed on the outer surface of the gear base 205, the gear base 205 is meshed with the gear assembly through the gear grooves, the bolt shifting peach is clamped with the gear base 205, after the gear in the gear assembly rotates, the bolt shifting component can be driven to synchronously rotate, the bolt shifting component is linked with a main bolt transmission mechanism and an oblique bolt transmission mechanism in a transmission device, the shifting piece 303 in the main bolt transmission mechanism can be shifted to rotate when the bolt shifting component rotates, and the shifting block 403 of the push rod 402 can slide, so that the main bolt 3 and the oblique bolt 4 are driven to pop out or retract into the lock body 1.

The lock bolt shifting peach comprises a lock cylinder 209 and a double-blade shifting tongue 207, the double-blade shifting tongue 207 is sleeved outside the lock cylinder 209, and the double-blade shifting tongue 207 and the lock cylinder 209 synchronously rotate; two shifting tongues of the double-blade shifting tongue 207 are symmetrically distributed, when the double-blade shifting tongue 207 rotates in different rotating directions, one of the shifting tongues shifts the main spring bolt transmission mechanism to drive the main spring bolt 3 linked with the main spring bolt transmission mechanism to pop out or retract into the lock body 1, and the other shifting tongue shifts the oblique tongue transmission mechanism to drive the main spring bolt 3 linked with the oblique tongue transmission mechanism to pop out or retract into the lock body 1.

in order to ensure that the bolt dialing peach can also dial a main bolt transmission mechanism and a latch bolt transmission mechanism while driving the box body 2 to rotate, the distance from the middle point of the lock cylinder 209 to the outermost end of the double-blade dialing bolt 207 is set to be larger than the maximum distance from the middle point of the lock cylinder 209 to the edge of the box body gap 211, and the double-blade dialing bolt 207 can be ensured to smoothly dial the transmission mechanism.

since the mechanical key is inserted into the keyhole of the key cylinder 209 and then rotates, the gear assembly is necessarily driven to move, and there is a situation that the gear resistance is too large to rotate the key, in order to avoid this situation, the gear base 205 can be automatically reset after the lock body 1 is automatically locked.

In order to achieve the reset effect, an idle running travel stop 206 is arranged on the gear base 205, a limit block 208 is correspondingly arranged at the bottom of the bolt shifting peach, when the bolt shifting peach is clamped into the gear base 205, the limit block 208 of the bolt shifting peach can move outside the idle running travel stop 206, so that a section of idle running is formed between the gear base 205 and the bolt shifting peach, and the gear base 205 can be reversely reset under the condition that the double-blade shifting bolt 207 is not moved, so that the resistance of a rotating key is reduced; the included angle of the contact surface that idle running stroke stop 206 and stopper 208 contacted decides the size of idle running, and another effect of idle running stroke is its specific stroke angle, and after the spring bolt stretched out and locked, gear base 205 resets for stopper 208 and idle running stroke stop 206 contact, motor 201 once the drive can be unblanked with power transmission to two leaf shifting block 207, need not to idle for one section stroke increase wait to unblank the time.

The gear base 205 is connected with a shielding piece 210 extending outward, the shielding piece 210 is located on one side of an idle stroke stop block 206, and a sensing component 6 is installed on a moving path of the shifting tongue, the sensing component 6 is used for detecting whether the gear base 205 is successfully reset, and the gear base 205 drives the shielding piece 210 to cut in or out a sensing range of the sensing component 6 in a rotating manner when rotating. The response subassembly 6 sets up to one of them in mechanical switch, ultrasonic wave distance sensor, photoelectric switch or the magnetic control sensor, and in this embodiment, response subassembly 6 sets up to photoelectric switch, when gear base 205 resets, drives and shelters from the piece 210 rotation, and after the completion that resets, shelters from piece 210 and just in time shelters from photoelectric switch, lets photoelectric switch unable accept the measuring beam who sends by self, then sends the information that targets in place that resets to the control module in the lock body 1, accomplishes the action of locking a door.

In order to improve the automation degree of the lock body 1, the lock body 1 is further provided with an induction tongue 5, an induction component 6 is arranged on the moving path of the induction tongue 5, when the door is closed, the induction tongue 5 is pressed by the door frame and the induction component 6 is triggered, the induction component 6 can send a driving instruction to the control module, the motor 201 in the lock body 1 is controlled to start to move, and the automatic locking function is realized.

The working principle of the embodiment is as follows:

When the door is closed, the sensing tongue 5 is extruded by the door frame to trigger the sensing assembly 6, at this time, the control module controls the motor 201 to start rotating and drives the gear assembly to synchronously rotate, at this time, an idle stroke stop 206 of the gear base 205 pushes the limit block 208 of the double-blade shifting tongue 207 to control the double-blade shifting tongue 207 to start rotating clockwise, so that one of the double-blade shifting tongues 207 shifts the push rod 402 to move right, and drives the rotary shifting tongue 401 to rotate clockwise, thereby pressing the oblique tongue 4; and then the control module controls the double-blade shifting tongue 207 to start to rotate anticlockwise, so that the other shifting tongue of the double-blade shifting tongue 207 shifts the shifting piece 303, the end part of the shifting piece 303 slides along the inclined sliding groove 302 in the rotating process, and upward moving thrust is provided for the connecting piece 301, so that the main bolt 3 is pushed out of the lock body 1, and the automatic locking function is realized. After the door is closed, the main bolt 3 is popped out, the oblique bolt 4 is reset and popped out under the action of the spring, at the moment, the motor 201 rotates reversely to drive the gear base 205 to reset, at the moment, the other idle running stop 206 of the gear base 205 is contacted with the limit block 208, so that the limit block 208 of the double-blade shifting bolt 207 can directly push the idle running stop 206 during unlocking, the gear base 205 immediately starts to rotate clockwise, and the unlocking time can be saved; after the sensing assembly 6 detects that the door is reset in place, the sensing assembly sends in-place information to the control module, and at the moment, the door closing action is completed.

When the door needs to be opened, the door can be opened by identification of the control panel or by inserting a mechanical key into a key hole of the lock cylinder 209. After the user identity is successfully identified, the motor 201 continuously rotates reversely to drive the gear base 205 to rotate clockwise, one of the double-blade shifting tongues 207 shifts the shifting piece 303, and the shifting piece 303 drives the connecting piece 301 to slide downwards, so that the main bolt 3 is retracted into the lock body 1; meanwhile, the connecting piece 301 slides downwards to drive the push rod 402 to move towards the direction of the double-blade shifting tongue 207, when the double-blade shifting tongue 207 rotates clockwise, the other shifting tongue of the double-blade shifting tongue 207 shifts the shifting block 403 of the push rod 402, so that the push rod 402 moves to the right, and drives the rotary shifting tongue 401 to rotate clockwise, and the inclined tongue 4 is abutted during the period, so that the inclined tongue 4 retracts into the lock body 1, and at the moment, the unlocking and door opening actions can be completed.

when the sensing assembly 6 detects that the gear base 205 cannot rotate, the box body is detached from the lock body 1, a new driving box body 2 is replaced, unlocking and locking actions of the lock body 1 can be recovered immediately, maintenance efficiency is improved, high matching among parts in the lock body 1 can be maintained after replacement, and stability and reliability of the lock body 1 are improved.

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.

Claims

1. An anti-theft lock with modular drive, comprising:

2. The anti-theft lock with modular drive of claim 1, characterized in that the drive mechanism comprises a gear assembly and a toggle assembly, the gear assembly is distributed in the box body far from the notch, the toggle assembly is arranged in the box body near the notch, and the gear assembly is linked with the toggle assembly.

3. The anti-theft lock with modular drive of claim 2, wherein the bolt assembly comprises a gear base and a bolt tumbler, the bolt tumbler is clamped with the gear base; a plurality of gear grooves are uniformly distributed on the outer surface of the gear base, and the gear base is meshed with the gear assembly through the gear grooves.

4. the modular drive antitheft lock according to claim 3, characterized in that there is a free travel between the gear base and the deadbolt peach.

5. The anti-theft lock with modular drive of claim 3, wherein the bolt tumbler comprises a lock cylinder and a tumbler, the tumbler is sleeved outside the lock cylinder, and the tumbler and the lock cylinder rotate synchronously; the distance from the middle point of the lock core to the outermost end of the shifting tongue is greater than the maximum distance from the middle point of the lock core to the edge of the gap of the box body.

6. The anti-theft lock with modular drive as claimed in claim 5, wherein the two-leaf latch is a dual-leaf latch, and the corresponding drive units are a main latch drive and a latch drive, and the dual-leaf latch is symmetrically arranged, such that when the dual-leaf latch rotates in different directions, one of the two-leaf latch drives the main latch drive to eject or retract the main latch linked to the main latch drive into the lock, and the other of the two-leaf latch drives the latch drive to eject or retract the main latch linked to the latch drive into the lock.

7. the anti-theft lock with modular drive of claim 6, characterized in that the sensing assembly is installed on the moving path of the poking tongue, and an outwardly extending shielding piece is connected to the gear base, and the gear base rotates to drive the shielding piece to rotationally cut in or out the sensing range of the sensing assembly.

8. The pickproof lock with modular drive of claim 7, wherein the sensing assembly is configured as one of a mechanical switch, an ultrasonic distance sensor, an electro-optical switch, or a magnetically controlled sensor.

9. The picklock with modular drive as claimed in claim 2, wherein the gear assembly comprises at least one drive gear and a plurality of driven gears, the drive gear being in mesh with the driven gears, one of the driven gears being in mesh with a gear groove of the gear base, the drive gear being connected to the motor; wherein the motor is arranged in the box body or outside the lock body.

10. The pickproof lock with modular drive of claim 1, wherein the opening of the aperture is wider than the maximum width of the deadbolt assembly.