CN104963560B - A kind of transmission mechanism of electronic lock - Google Patents

Abstract

A kind of transmission mechanism of electronic lock, it includes：One pedestal, with an axis；One lock group, is installed on the pedestal；One motor, is installed on the lock group, and the motor has a rotating shaft；One helical spring, with a gap between screw, one end of the helical spring can be directly or indirectly connected in the rotating shaft；One driving member, with a pin, the pin can be inserted in the gap between screw of the helical spring；One clutch part, local removable mounting is in the driving member；One operating assembly, is installed on the pedestal, can be rotated relative to the pedestal；When the clutch part is moved to the region that can be acted by the operating assembly in the axial direction, the operating assembly can promote the clutch part, when the clutch part is moved to the region that can not be acted by the operating assembly in the axial direction, the operating assembly can not promote the clutch part.Simple structure of the present invention, manufacturing cost are cheap, and can increase the service life of battery.

Description

A kind of transmission mechanism of electronic lock

The application is Application No. 201210293754.1, and the applying date is on 08 17th, 2012, the entitled " biography of electronic lock The divisional application of motivation structure ".

Technical field

The present invention is related to lockset, espespecially a kind of transmission mechanism of electronic lock.

Background technology

The transmission device of electronic lock mostly connects a scroll bar using the rotating shaft of motor by, recycles Worm-drive multiple Big little gear, with the direction for reaching reduction motor rotary speed and changing motor shaft output, is then interlocked rotating disk and is locked with indirect drive Door bolt, makes the plunger latch head of lock bolt reach the position for removing and receiving or stretching out, but this transmission device is due to multiple big little gears, so Cost can be improved, also because its motor can drive lock bolt to act, the electric power output of battery can be also expended, make the use longevity of battery Life reduction.

The content of the invention

The main object of the present invention is to provide a kind of transmission mechanism of electronic lock, and its simple structure, manufacturing cost are cheap, and The service life of battery can be increased.

For up to above-mentioned purpose, solution of the invention is：

A kind of transmission mechanism of electronic lock, including：

One motor, with a rotating shaft, and defines an axis；

A connection piece, is linked to the rotating shaft of the motor, can be together with the rotating shaft around axis rotation；

One helical spring, removable mounting is locally connected in the connector, the helical spring with a driving member；

When the axis of rotation of the motor, the connector can be driven and rotated together, and be driven the helical spring and done along axis The linear motion in direction.

Further, the connector has a protuberance.

Further, the protuberance of the connector is spiral-shaped.

Further, the helical spring, with a gap between screw, the protuberance of the connector is placed in the spiral shell of the helical spring Revolve gap.

Further, the helical spring has a kink；The driving member has a recess, and the kink of the helical spring can It is inserted in the recess of the driving member.

Further, the helical spring has a connecting portion；The driving member has a connecting portion, the connecting portion of the helical spring Tight fit can be produced with the connecting portion of the driving member, and consolidated together.

Further, the driving member has a stop portion, and the end of the connecting portion of the helical spring is abutted in the stop portion.

Further comprise a pedestal；One lock group, is installed on the pedestal, and the motor is installed on the lock group.

Further comprise a clutch part, be locally installed on the driving member.

An operating assembly is further included, the pedestal is installed on, can be rotated relative to the pedestal；

When the clutch part is moved to the region that can be acted by the operating assembly in the axial direction, the operating assembly can be pushed away Move the clutch part, when the clutch part is moved to the region that can not be acted by the operating assembly in the axial direction, the operational group Part can not promote the clutch part, and the operating assembly has forms a conduit between multiple raised lines, every two raised line, and each raised line has Two drive portions being spaced apart, the clutch part have a convex portion, the convex portion have two be spaced apart be driven portion, the convex portion The portion of being driven can be stirred by the drive portion of the raised line in good time.

After said structure, the present invention can set the region that clutch part is never operated by operating assembly using input unit The region that can be operated by the operating assembly is moved to, when clutch part is located at the region that can be operated by the operating assembly, operating assembly With the manually operated operating assembly plunger latch head of the lock bolt can be driven to do locking or unblock, its simple structure, it is possible to decrease be manufactured into This, and the service life of battery can be increased.

Brief description of the drawings

Fig. 1 is preferred embodiment of the present invention, the three-dimensional combination figure of the first lock body of display, the second lock body and lock bolt；

Fig. 2 is preferred embodiment of the present invention, shows the three-dimensional exploded view of the first lock body；

Fig. 3 is preferred embodiment of the present invention, shows the three-dimensional exploded view of the first lock body other direction；

Fig. 4 is preferred embodiment of the present invention, shows the stereogram of connector；

Fig. 5 is preferred embodiment of the present invention, shows the stereogram of helical spring；

Fig. 6 is preferred embodiment of the present invention, shows the stereogram of driving member；

Fig. 7 is preferred embodiment of the present invention, shows the three-dimensional exploded view of the second lock body；

Fig. 8 is preferred embodiment of the present invention, shows the floor map of the first lock body；

Fig. 9 is preferred embodiment of the present invention, when the portion of being driven of clutch part is located in the conduit of operating assembly, is shown The diagrammatic cross-section of A-A hatchings in Fig. 8；

Figure 10 is preferred embodiment of the present invention, when the portion of being driven of clutch part is located at outside the conduit of operating assembly, is shown The diagrammatic cross-section of A-A hatchings in diagram 8；

Figure 11 is preferred embodiment of the present invention, when the portion of being driven of clutch part is located in the conduit of operating assembly, is shown Show the three-dimensional combination diagram of part section of the first lock body；

Figure 12 is preferred embodiment of the present invention, when the portion of being driven of clutch part is located at outside the conduit of operating assembly, is shown Show the three-dimensional combination diagram of part section of the first lock body；

Figure 13 is the combined planar schematic diagram of another specific embodiment of the present invention, display motor and helical spring；

Figure 14 is still another embodiment of the present invention, display motor, connector, helical spring and driving member, wherein connecting The protuberance of part is disclosed as spiral-shaped local combined planar schematic diagram；

Figure 15 is still another embodiment of the present invention, display motor and connector, and the protuberance of wherein connector is disclosed as Pin-shaped combined planar schematic diagram.

【Primary clustering symbol description】

The pedestal of 2 first lock body 21

The bottom plate of 211 room 212

The ring lip of 213 first annulus 214

The flange of 215 second annulus 216

The supporting part of 217 first supporting part 218 second

The input unit of 219 pillar 22

The through hole of 220 first through hole 221 second

The hole of 222 first hole 223 second

The lock housing of 23 lock group 231

The screw hole of 2311 motor mounting hole 2,312 first

The ring side of 2313 second screw hole 2314

The groove of 232 core 2321

The operating assembly of 2322 projection 24

The rim of 241 lock group mounting hole 2411

The drive portion of 242 raised line 2421

The ring portion of 243 conduit 244

The rotating shaft of 251 motor 2511

The hole of 252 connector 2521

The helical spring of 2522 annular groove 253

The kink of 2531 gap between screw 2532

The first part of 26 clutch part 261

262 second 2621 retaining ring grooves of part

The rod member perforating of 263 hole 264

265 convex portions 2651 are driven portion

27 driving members 271 are managed

The collar of 2711 pin 272

The clasp of 273 passage 274

The housing of 4 second lock body 41

The holding part of 411 through hole 412

The knob of 413 hole 42

The cross bore of 421 axle portion 422

The clicking section of 43 shifting part 431

The touch control part of 44 microswitch 441

The supply unit of 45 control device 46

The screw of 51 rod member 52 first

The lock bolt of 53 second screw 6

The axis of 61 plunger latch head 7

Another embodiment

The rotating shaft of 251 ' motor 2511 '

253 ' helical springs

Another embodiment

The rotating shaft of 251 " motor 2511 "

The hole of 252 " connector 2521 "

The helical spring of 2522 " protuberance 253 "

The kink of 2531 " gap between screw 2532 "

The free end of 2533 " connecting portion 2534 "

27 " driving members 271 " are managed

The connecting portion of 2711 " recess 2712 "

The collar of 2713 " stop portion 272 "

The axis of 273 " passage 8 ".

Embodiment

In order to which technical scheme is explained further, the present invention is explained in detail below by specific embodiment State.

As shown in Figures 1 to 12, be electronic lock of the present invention transmission mechanism preferred embodiment, the transmission mechanism peace Loaded on a lock body, the transmission mechanism, including：One pedestal 21, an input unit 22, a lock group 23, an operating assembly 24, a motor 251st, a connection piece 252, a helical spring 253, a clutch part 26, a driving member 27 and a clasp 274 etc..

As shown in Figure 2 and Figure 3, the pedestal 21 has a room 211, and defines an axis 7, and the room 211 is by a bottom plate 212nd, outside the space that one first annulus 213, a ring lip 214 and one second annulus 215 are surrounded, the wherein bottom plate 212 Enclose and connect first annulus 213 in the axial direction, the lateral connection of the first annulus 213 ring lip 214, the edge of ring lip 214 Axis direction reconnects second annulus 215, and has two the first supports being spaced apart in the axial direction from the bottom plate 212 The second supporting part 218 and two pillars 219 being spaced apart that portion 217, two is spaced apart, each center of pillar 219 have one First hole 222（Such as Fig. 3）, and the bottom plate 212 have a first through hole 220, one second through hole 221 and two be spaced apart second Hole 223, the excircle of the first through hole 220 forms a flange 216 in the axial direction.

As shown in Figure 2 and Figure 3, the input unit 22, is mountable on the pedestal 21, and can connect signal processing unit （Not shown in figure）, to handle input signal, to determine to the output signal of the motor 251.

As shown in Figure 2 and Figure 3, the lock group 23, including：One lock housing 231, a core 232 and a clasp 233 etc.；Wherein should The removable mounting of core 232 is in the lock housing 231, and the lock housing 231 is stretched out in one end, and receives the snapping of the clasp 233, makes the core 232 It can do and rotate relative to the lock housing 231, and the end of the core 232 has a groove 2321, the cell wall shape in the groove 2321 Into a projection 2322（Such as Fig. 9 or Figure 10）；The lock housing 231 axially has a motor mounting hole adjacent to one end of the clasp 233 2311st, two the first screw hole 2312 and two the second screw holes 2313 being spaced apart being spaced apart, two first screw hole 2312 align two first holes 222 of the pedestal 21 respectively, and two second screw hole 2313 aligns the two second of the pedestal 21 respectively Hole 223, and the outward appearance of the lock housing 231 is that a ring side 2314 is formed in the middle of class's cylinder, two classes.

As shown in Figure 2 and Figure 3, the operating assembly 24 is a beveling cone, and the center of operating assembly 24 has a lock group Mounting hole 241, the lock group mounting hole 241 is that a rim 2411 is formed in the middle of a class hole, two class, and the lock group 23 can removable mounting In the lock group mounting hole 241 of the operating assembly 24, make the ring side 2314 of the lock group 23 adjacent to the rim 2411 of the operating assembly 24, And the operating assembly 24 can rotate relative to the lock group 23, wherein the end face of the operating assembly 24 is spaced apart with four A conduit 243 is formed between raised line 242, each two raised line 242, each raised line 242 has two drive portions being spaced apart 2421, and the operating assembly 24 forms a ring portion 244 adjacent to the periphery of the raised line 242.

As shown in Figures 2 to 5, the motor 251 is mountable to the motor mounting hole 2311 of the lock group 23, and the motor 251 has There is a rotating shaft 2511；The connector 252 has a hole 2521, can be directly sleeved in the rotating shaft 2511 of the motor 251, be allowed to tight Coordinate, and rotate together, the excircle of the connector 252 has multiple annular grooves 2522；The helical spring 253, one end can be inserted in The annular groove 2522 of the connector 252, makes together with the helical spring 253 consolidates with the connector 252, and the helical spring 253 The middle local gap between screw 2531 with proper width, the other end of the helical spring 253 has a kink 2532.

As shown in Figure 2 and Figure 3, the clutch part 26, is a sleeve-shaped, the clutch part 26 have a first part 261 with One second part 262, the external diameter of the first part 261 is more than the external diameter of second part 262, and the center of the clutch part 26 is axially With a hole 263, and a rod member perforating 264 is connected, the outer rim of first part 261 of the clutch part 26 radially extends a convex portion 265, the convex portion 265 have two be spaced apart be driven portion 2651, the clutch part 26 second part 262 excircles have one Retaining ring groove 2621, the hole 263 of the clutch part 26 can be sheathed on the end of the core 232, be done relative to the core 232 along axis side To mobile or rotation.

As shown in Fig. 2, Fig. 3, Fig. 3, Fig. 9 and Figure 10, there is the driving member 27 pipe 271 to be connected with a collar 272, should The center of pipe 271 has a passage 273, and the inside pipe wall of the pipe 271 extends radially inwardly a pin 2711, the passage of the driving member 27 273 are sheathed on the helical spring 253, and the pin 2711 is arranged among the gap between screw 2531 of the helical spring 253, and the transmission The collar 272 of part 27 is sheathed on the periphery of the second part 262 of the clutch part 26, and abuts in the first part of the clutch part 26 261, the retaining ring groove 2621 of second part 262 is buckled in the clasp 274, the pipe 271 of the wherein driving member 27 is local to wear this Second through hole 221 of pedestal 21, the local first through hole 220 for being arranged in the pedestal 21 of the second part 262 of the clutch part 26, makes The convex portion 265 of the clutch part 26, which can be located at, is placed in the conduit 243 of the operating assembly 24 or positioned at not being placed in the operating assembly Moved between 24 conduit 243.

As shown in Figure 2 and Figure 3, two first screws 52 can wear two first holes 222 of the pedestal 21 respectively, and directly be screwed into Two first screw holes 2312 of the lock group 23, now two pillars 219 of the pedestal 21 be supported on the end face of the lock group 23 respectively, should Two first supporting parts 217 of pedestal 21 are also supported on the end face of the lock group 23,218 points of two second supporting part of the pedestal 21 respectively Be not supported on the motor 251, lock group 23 can so be consolidated with the pedestal 21 together with, and the ring portion 244 of the operating assembly 24 The ring lip 214 of the neighbouring pedestal 21, makes the operating assembly 24 to be rotated relative to the lock group 23 with the pedestal 21, combinations thereof Arrange in pairs or groups again afterwards electronic building brick（Not shown in figure）Form first lock body 2.

As shown in fig. 7, second lock body 4, including：One housing 41, a knob 42, a shifting part 43, a microswitch 44, One control device 45 and a supply unit 46 etc., the hole 413 and one that there is the housing 41 through hole 411, two to be spaced apart are housed Portion 412, the knob 42 has an axle portion 421, and the axle portion 421 of the knob 42 can wear the through hole 411 of the housing 41, utilize clasp （Not shown in figure）And be combined with the shifting part 43, the shifting part 43 has two clicking sections 431 being spaced apart, to touch The touch control part 441 of the housing 41 and the microswitch 44 on the control device 45 is installed on, the supply unit 46 is installed on the shell The holding part 412 of body 41, to provide the electric power of lock body.

As shown in Figure 1, Figure 2, shown in Fig. 3 and Fig. 7, a rod member 51, one end is arranged in the rod member of the clutch part 26 of first lock body 2 Perforating 264, and the projection 2322 of the core 232 is adjacent to, to receive stirring for the projection 2322, centre is arranged in the lock bolt 6 rod member accommodating hole（Not shown in figure）, the other end is inserted in the cross bore 422 of the knob 42；Two second screws 53, can distinguish Wear holes 413, the holes of the lock bolt 6 of the housing 41 of second lock body 4（Not shown in figure）And it is screwed into first lock body 2 Lock group 23 two second screw holes 2313, first lock body 2, second lock body 4 and the lock bolt 6 are fixed on into door-plate （Not shown in figure）On, so operate the knob 42 of the core 232 of first lock body 2, the operating assembly 24 and the second lock body 4 i.e. The plunger latch head 61 of the lock bolt 6 can be driven to do and stretch out or remove receipts.

As shown in Fig. 1 to Fig. 3 and Fig. 8 to Figure 11, after entire combination, when being intended to do locking or unblock with the operating assembly 24 When, by the button of input unit 22, input proper password, you can drive the rotating shaft 2511 of the motor 251 to rotate, interlock the connection Part 252 is rotated together with the helical spring 253, because the pin 2711 of the driving member 27 is located at the gap between screw of helical spring 253 In 2531, so when the helical spring 253 is rotated, the pin 2711 by the drive driving member 27, and then drive the transmission Part 27 is done to move along a straight line vertically, you can drive the clutch part 26 together is driven portion 2651 by positioned at the not accommodating operational group The position of the conduit 243 of part 24 is moved to the position of the conduit 243 of the accommodating operating assembly 24（The wherein raised line of operating assembly 24 242 have two to be spaced apart to obtain inclined-plane, not shown in figure, the convex portion 265 of the clutch part 26 can be made conveniently to slip into the conduit 243）, That is, the pin 2711 of the driving member 27 moves adjacent to the spiral bullet by the position of the kink 2532 of the neighbouring helical spring 253 The position that spring 253 is connected with connector 252, so rotates the operating assembly 24, the drive portion 2421 of the operating assembly 24 can band That moves the clutch part 26 is driven portion 2651, the clutch part 26 is rotated, you can drive the rod member 51 to drive the lock bolt of lock bolt 6 First 61 remove receipts or stretch out, after end of operation, through a predetermined time, and the motor 251 can be rotated with initial opposite direction, Interlock the connector 252 to rotate together with the helical spring 253, make the clutch part 26 is driven portion 2651 by being somebody's turn to do positioned at accommodating The position of the conduit 243 of operating assembly 24 cannot not be moved to accommodatingly the position of the conduit 243 of the operating assembly 24, so be rotated further by this Operating assembly 24, the drive portion 2421 of the operating assembly 24 is to separate the state that staggers with the portion 2651 that is driven of the clutch part 26, Therefore the drive portion 2421 of the operating assembly 24 can not drive the clutch part 26 be driven portion 2651, and produce idle running.

As shown in Fig. 1 to Fig. 3 and Fig. 8 to Figure 11, to correct key（Not shown in figure）During operation, can directly it utilize Correct key is inserted in the core 232, drives the core 232, interlocks the rod member 51 using the projection 2322 of the core 232, enters And drive the plunger latch head 61 of the lock bolt 6 to remove receipts or stretch out.

As shown in Fig. 1 to 3 figures and Fig. 8 to Figure 11, the present invention is to drive the transmission using the rotation of the helical spring 253 The pin 2711 of part 27, makes the driving member 27 move linearly, when the clutch part 26 touches the end face or the pedestal of the lock group 23 During 21 flange 216, if the motor 251 can continue to rotate a bit of time, and the helical spring 253 can be because of the driving member 27 The factor of pin 2711, produces the elastic deformation of axis direction, and the motor 251 can't therefore failure, and the wherein spiral bullet The function of the kink 2532 of spring 253 is when can make the helical spring 253 rotation, to prevent the end scratch of the helical spring 253 The inwall of the pipe 271 of the driving member 27.

As shown in figure 13, another specific embodiment of the present invention a, motor 251 ' has a rotating shaft 2511 ', the rotating shaft 2511 ' Directly extend a helical spring 253 ', the rotating shaft 2511 ' can be integrally formed with the helical spring 253 ', can also be connected for two components Connect.

As shown in figure 14, further embodiment of this invention, the wherein motor 251 ", the connector 252 ", the helical spring 253 " also change with the construction feature of the driving member 27 " etc. with connecting moves mode.

Wherein the motor 251 " has a rotating shaft 2511 ", and defines an axis 8 "；The connector 252 " has a hole 2521 ", it can be directly sleeved in the rotating shaft 2511 " of the motor 251 ", be allowed to tight fit, and rotate together, the connector 252 " Excircle have a protuberance 2522 "（Further embodiment of this invention aspect is spiral-shaped, and this is spiral-shaped can also to connect one Larger circular shape, this is spiral-shaped stable helical spring, when the larger arc-shaped is contacted with helical spring The effect of frictional force is reduced, as shown in figure 14, or is a pin, such as Figure 15）.

The helical spring 253 ", one end has a connecting portion 2533 ", and the other end has a free end 2534 ", the free end 2534 " have a gap between screw 2531 ", and the end of the connecting portion 2533 " extends a kink 2532 ".

There is the driving member 27 " pipe 271 " to be connected with a collar 272 ", and the center of the pipe 271 " has a passage 273 ", one end inside pipe wall of the pipe 271 " is formed radially inward a connecting portion 2712 " with radially outward forming a recess 2711 ", The neighbouring place of connecting portion 2712 " has a stop portion 2713 ", and the passage 273 " of the driving member 27 " is sheathed on the helical spring 253 ", the connecting portion 2533 " of the wherein helical spring 253 " is consolidated in the connecting portion 2712 " of the driving member 27 ", the spiral bullet One end of the connecting portion 2533 " of spring 253 " is supported on the stop portion 2713 " of the driving member 27 ", and the helical spring 253 " is curved Folding part 2532 " is sticked in the recess 2711 " of the driving member 27 ", you can the part of the helical spring 253 " is consolidated in the transmission Part 27 ", and the inwall of passage 273 " of the spiral winding external diameter of the free end 2534 " of the helical spring 253 " and the driving member 27 " A gap is formed, making the free end 2534 " of the helical spring 253 " can do flexible, and the protuberance 2522 " of the connector 252 " Be placed among the gap between screw 2531 " of the helical spring 253 ", it is other construction components substantially with foregoing optimal specific implementation Example is identical, is repeated no more in this.

As shown in Figure 11, Figure 12 and Figure 14, and its manner of execution is, when the rotating shaft 2511 " of the motor 251 " is rotated, to interlock The connector 252 " rotates, because the protuberance 2522 " of the connector 252 " is placed in the gap between screw of the helical spring 253 " 2531 ", and the part of the helical spring 253 " is fixed on the driving member 27 ", but the ring 272 " of the driving member 27 " be placed on this from Component 26（As shown in Figure 2）By local limit, therefore when the connector 252 " is rotated, the driving member 27 " and the spiral shell can be driven Rotation spring 253 " is together along paralleling to the axis 7（Such as Fig. 2）Direction moves along a straight line, as shown in Figure 11, Figure 12, so can band together The portion 2651 that is driven for moving the clutch part 26 is moved to accommodating be somebody's turn to do by the position positioned at the conduit 243 for not housing the operating assembly 24 The position of the conduit 243 of operating assembly 24（Wherein the raised line 242 of the operating assembly 24 has two to be spaced apart to obtain inclined-plane, in figure It is not shown, the convex portion 265 of the clutch part 26 can be made conveniently to slip into the conduit 243）, so rotate the operating assembly 24, the operation What the drive portion 2421 of component 24 can drive the clutch part 26 is driven portion 2651, the clutch part 26 is rotated, you can drive The plunger latch head 61 of the rod member 51 driving lock bolt 6 is removed receipts or stretched out, after end of operation, through a predetermined time, the motor 251 " can be rotated with initial opposite direction, are interlocked the connector 252 " rotation, are driven helical spring 253 " and driving member 27 " one Rise and move linearly, make the clutch part 26 is driven portion 2651 by the position positioned at the conduit 243 for housing the operating assembly 24 The position of the conduit 243 of the operating assembly 24 cannot be moved to accommodatingly, the operating assembly 24 is so rotated further by, the operating assembly 24 Drive portion 2421 is the state that staggers that separates with the portion 2651 that is driven of the clutch part 26, therefore the drive portion 2421 of the operating assembly 24 The clutch part 26 can not be driven is driven portion 2651, and produces idle running.

Above-described embodiment and schema and non-limiting product form of the invention and style, any art it is common Appropriate change or modification that technical staff is done to it, all should be regarded as not departing from the patent category of the present invention.

Claims (7)

1. a kind of transmission mechanism of electronic lock, it is characterised in that including：

One motor, with a rotating shaft, and defines an axis；

A connection piece, is linked to the rotating shaft of the motor, is rotated together with rotating shaft around the axis；

One helical spring, removable mounting is locally connected in the connector, the helical spring with a driving member；

When the axis of rotation of the motor, the connector can be driven and rotated together, and be driven the helical spring and done in the axial direction Linear motion；

Also include a pedestal；One lock group, is installed on the pedestal, and the motor is installed on the lock group；

One clutch part, is locally installed on the driving member；

One operating assembly, is installed on the pedestal, can be rotated relative to the pedestal；

When the clutch part is moved to the region that can be acted by the operating assembly in the axial direction, the operating assembly can promote this Clutch part, when the clutch part is moved to the region that can not be acted by the operating assembly in the axial direction, the operating assembly without Method promotes the clutch part, and the operating assembly, which has, forms a conduit between multiple raised lines, every two raised line, each raised line have two every Open up the drive portion put, the clutch part have a convex portion, the convex portion have two be spaced apart be driven portion, the quilt band of the convex portion Dynamic portion can be stirred by the drive portion of the raised line in good time.

2. the transmission mechanism of electronic lock as claimed in claim 1, it is characterised in that：The connector has a protuberance.

3. a kind of transmission mechanism of electronic lock as claimed in claim 2, it is characterised in that：The protuberance of the connector is spiral Shape.

4. a kind of transmission mechanism of electronic lock as claimed in claim 2, it is characterised in that：The helical spring has between a spiral Gap, the protuberance of the connector is placed in the gap between screw of the helical spring.

5. a kind of transmission mechanism of electronic lock as claimed in claim 1, it is characterised in that：The helical spring has a bending Portion；The driving member has a recess, and the kink of the helical spring is inserted in the recess of the driving member.

6. a kind of transmission mechanism of electronic lock as claimed in claim 1, it is characterised in that：The helical spring has a connection Portion；The driving member has a connecting portion, and the connecting portion of the helical spring produces tight fit with the connecting portion of the driving member, and consolidates Together.

7. a kind of transmission mechanism of electronic lock as claimed in claim 6, it is characterised in that：The driving member has a stop portion, The end of the connecting portion of helical spring is abutted in the stop portion.