CN111863502A

CN111863502A - Keyless starting ignition switch lock with fault mechanical unlocking function

Info

Publication number: CN111863502A
Application number: CN202010796235.1A
Authority: CN
Inventors: 王芳; 石雁; 张新利
Original assignee: Jinzhai Zhengdong Intelligent Technology Co Ltd
Current assignee: Jinzhai Zhengdong Intelligent Technology Co Ltd
Priority date: 2020-08-10
Filing date: 2020-08-10
Publication date: 2020-10-30

Abstract

The invention relates to an ignition switch lock, in particular to a keyless starting ignition switch lock with a fault mechanical unlocking function. The technical scheme is as follows: a keyless starting ignition switch lock with a fault mechanical unlocking function comprises a lock body, a knob arranged on the lock body, a rotating shaft located in the lock body and linked with the knob, and a lock tongue linked with the rotating shaft, wherein an electromagnetic controller is arranged on the lock body, a driving piece is arranged on the electromagnetic controller, a rotating shaft outer ring is sleeved outside the rotating shaft, a locking part capable of being used for circumferential locking or releasing circumferential locking of the driving piece of the electromagnetic controller is arranged on the outer periphery of the rotating shaft outer ring, and a coded lock assembly for enabling the rotating shaft outer ring to be connected with the knob or releasing the rotating shaft outer ring from being connected with the knob is arranged at the. By adopting the technical scheme, the keyless-starting ignition switch lock with the fault mechanical unlocking function is provided, which can realize unlocking without key driving when a fault occurs, has a simple structure and is convenient to unlock.

Description

Keyless starting ignition switch lock with fault mechanical unlocking function

Technical Field

The invention relates to an ignition switch lock, in particular to a keyless starting ignition switch lock with a fault mechanical unlocking function.

Background

The ignition LOCK of the keyless system is suitable for ignition, flameout and theft prevention of motorcycles and electric vehicles, the ignition switch has three basic functions of 'ON, OFF and LOCK' required by finished vehicles like the traditional similar products, however, the keyless system has the defect that when a relay receiving an electronic signal breaks down, the motorcycle cannot be started, and at the moment, a key cannot be inserted into a LOCK cylinder to start, so that the ignition switch combining keyless start and keyed start appears.

In order to overcome the defects of the traditional keyless system ignition lock, through continuous research and development of technicians in the field, the ignition lock capable of being started without a key or with a key appears in the market. For example, the patent number is ZL2018010129844.4, the application date is: 2018, on 08.02 month, the patent name of the ignition switch lock capable of being started without a key and started with the key is as follows: the ignition switch lock capable of being started without key and started with key includes knob, lock core and lock body, the lock core is rotatably set in the lock body, the knob is connected with lock core by means of linkage, the interior of the lock body is equipped with rotating shaft, said rotating shaft can be axially moved along the lock core, said rotating shaft is connected with lock core by means of linkage, the end position of lock body far from one side of lock core is equipped with rotor switch, on the lock body also a driving plate and a latch are set, said driving plate is connected with latch, said rotating shaft can be rotated to drive driving plate and make it move so as to implement telescopic movement of latch, on the lock body an electromagnetic controller is set, on the electromagnetic controller a pin shaft is set, on the lock core a

The blade matched with the key is arranged, a rotatable lock cylinder sleeve is sleeved on the periphery of the lock cylinder, a clamping groove or a clamping hole matched with the blade is sleeved on the lock cylinder sleeve, a pin shaft groove is formed in the periphery of the lock cylinder sleeve, a pin shaft is separated from or inserted into the pin shaft groove to unlock or lock the lock cylinder, when the lock cylinder is not inserted into the key matched with the lock cylinder, the lock cylinder is linked with the lock cylinder sleeve, the lock cylinder sleeve and the lock cylinder are controlled by an electromagnetic controller, when the pin shaft is separated from the pin shaft groove, a rotary knob drives the lock cylinder and the lock cylinder sleeve to rotate so as to drive a rotary shaft to rotate, and when the pin shaft is inserted into the pin shaft groove; when the lock core is inserted into a key matched with the lock core, the blade is separated from the clamping groove or the clamping hole of the lock core sleeve, the lock core can rotate in the lock core sleeve, and the key is rotated to drive the lock core to rotate so as to drive the rotating shaft to rotate. The principle is as follows: the knob is linked with the lock core to drive the lock core to rotate and drive the lock core to move along the axial direction, the rotating shaft is linked with the lock core to drive the lock core to rotate and drive the rotating shaft to move, a coil and a driving spring are arranged in the electromagnetic controller, the coil can overcome the acting force of the driving spring to suck the pin shaft and separate from the pin shaft groove after being electrified, the coil is powered off, the pin shaft extends out and is inserted into the pin shaft groove under the action of the driving spring, the electromagnetic controller can control the unlocking and locking of the lock core sleeve when being electrified, the lock core is not inserted into a key matched with the lock core, the blade in the lock core extends out of the blade groove and can be just clamped in the clamping groove or the clamping hole of the lock core sleeve, the linkage of the lock core and the lock core sleeve is realized, when the electromagnetic controller works normally, the pin shaft is controlled by the electromagnetic controller to separate from, the rotation of the rotating shaft can drive a rotor switch to perform keyless starting operation, and can also drive the lock cylinder to rotate through the knob, the lock cylinder drives the rotating shaft to rotate, and the rotating shaft drives the driving piece to move to realize telescopic movement of the lock latch and perform vehicle locking operation; when the electromagnetic controller cannot work normally, the electromagnetic controller cannot control the pin shaft to be separated from the pin shaft groove, the lock cylinder and the lock cylinder sleeve are linked and arranged, the lock cylinder cannot rotate and cannot be started without a key, the lock cylinder is inserted into a key matched with the lock cylinder, the blades are separated from a clamping groove or a clamping hole of the lock cylinder sleeve, the lock cylinder can rotate in the lock cylinder sleeve, the key is rotated to drive the lock cylinder to rotate, the rotating shaft is driven to rotate, the rotating shaft can drive the rotor switch to perform key starting operation, and the lock cylinder sleeve are matched with each other.

It can be seen from the above patent that, the lock cylinder jacket is provided with a lock cylinder sleeve which can lock the lock cylinder, when the electromagnetic controller fails and the pin shaft in the electromagnetic brake can not unlock the lock cylinder sleeve, the lock cylinder is inserted with a key, so that the lock cylinder sleeve and the lock cylinder are disconnected, the lock cylinder is rotated, and the lock cylinder is linked with the rotating shaft to control the latch, thereby unlocking the locomotive.

However, the internal structure is not only complex, inconvenient to assemble and high in cost. When the electromagnetic controller fails, the lock cylinder must be controlled by a key, and a spare key is not always carried under the condition that an operator uses keyless driving for a long time, namely, the operator is used to the keyless driving. Therefore, when the spare unlocking key is not carried and the electromagnetic relay fails, the operator still cannot unlock the electromagnetic relay.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the keyless-starting ignition switch lock which can realize unlocking without key driving when a fault occurs, has a simple structure, is convenient to unlock and has a fault mechanical unlocking function.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a keyless start's ignition switch lock with trouble mechanical unlocking function, including the lock body, install knob on the lock body, be located in the lock body with the knob linkage can follow the reciprocal pivot that slides and circumferential direction of lock body axial and can realize the spring bolt of locking or unblock with the pivot linkage, the lock body on be equipped with electromagnetic control ware, be equipped with the driving piece that can lock or unblock after the circular telegram on the electromagnetic control ware, its characterized in that: the outer sleeve of the rotating shaft is provided with an outer ring of the rotating shaft, the outer circumferential surface of the outer ring of the rotating shaft is provided with a locking part which can be used for circumferential locking or releasing circumferential locking of a driving piece of the electromagnetic controller, and the knob is provided with a coded lock assembly which can drive the outer ring of the rotating shaft to be connected with the knob or release the outer ring of the rotating shaft to be connected with the knob.

By adopting the technical scheme, the rotating shaft and the knob are linked, and the knob can drive the rotating shaft to rotate when rotating, so that the linkage of the rotating shaft to the spring bolt is realized, and the functions of locking and unlocking, ignition and the like are realized. The outer ring of the rotating shaft sleeved outside the rotating shaft is locked with a driving piece of the electromagnetic controller through a locking part, when the rotating shaft is in a locking state, the outer ring of the rotating shaft is locked in the circumferential direction and cannot rotate, the knob is connected with the outer ring of the rotating shaft through the coded lock assembly, and at the moment, the knob is limited by the outer ring of the rotating shaft and cannot be linked with the rotating shaft to drive the lock tongue; on the contrary, after the electromagnetic controller releases the locking of the driving piece on the outer ring of the rotating shaft, the outer ring of the rotating shaft can rotate along with the rotation of the knob in the circumferential direction, and the rotating shaft linked with the knob can also rotate along with the rotation of the knob and drive the lock tongue. When the electromagnetic controller fails to drive the driving piece on the electromagnetic controller, the driving piece locks the outer ring of the rotating shaft, and the knob cannot rotate because the rotation is kept linked with the outer ring of the rotating shaft through the coded lock assembly on the electromagnetic controller. When the fault unlocking is carried out, an external tool is not required, and the unlocking process is simple and convenient. Compared with the traditional lock core, the lock core has the advantages of fewer parts, more convenient assembly and processing and reduced production cost.

The invention is further configured to: the rotating shaft comprises a linkage part linked with the lock tongue and an installation part extending to the knob, the coded lock assembly comprises a cover body and a coded lock body part, and the cover body is connected with the knob; the installation part of the rotating shaft is provided with an installation frame for installing the lock body part of the coded lock, the outer ring of the rotating shaft comprises a locking connection unit connected with the coded lock assembly and a locking unit which can be locked or separated with a driving piece of an electromagnetic controller, and the locking part is a locking groove arranged on the peripheral surface of the locking unit; the connecting unit of the outer ring of the rotating shaft is an annular body which extends to the lock body part of the coded lock, and the inner wall of the annular body is provided with a locking piece which is locked with or unlocked from the lock body part of the coded lock.

Adopt above-mentioned technical scheme, set up the installation frame that is used for placing trick lock body part in the pivot, make the pivot form the lock shell that is used for placing trick lock body part installation, reduced spare part, reduced manufacturing cost, the assembly of also being more convenient for simultaneously. The outer ring of the rotating shaft is locked or unlocked with the coded lock assembly through the connecting unit, and is locked with the driving piece of the electromagnetic controller through the locking groove in the locking unit, so that the structure is simple, and the locking and the unlocking are convenient.

The invention is further arranged as follows: the locking piece of the locking unit department in the outer lane of the rotating shaft is the locking notch opened on the inner wall of the ring body, the lock body part of the coded lock comprises an installation shaft arranged in the installation frame of the rotating shaft, at least two connecting seats sleeved on the installation shaft and capable of rotating along the installation shaft, coded wheels with numbers and coded lock tongues corresponding to the connecting seats, the coded lock tongues are correspondingly arranged on the connecting seats respectively, the coded lock tongues are arranged outside the coded wheels in a covering mode and capable of reciprocating sliding movement along the installation shaft, and the frame body is provided with protrusions corresponding to the unlocking notches and locking protrusions matched with the locking notches of the outer lane of the rotating shaft.

By adopting the technical scheme, the bulge on the frame body corresponds to the unlocking notch on the connecting seat, and if the password wheel drives the connecting seat to rotate until the unlocking notch on the connecting seat does not correspond to the bulge on the frame body, the locking bulge on the frame body and the locking notch on the outer ring of the rotating shaft are kept locked; if adjust corresponding the back, it is rotatory to drive the pivot outer lane through the knob, then the locking arch can be by the slip-out in the locking breach of pivot outer lane, and the arch on it enters into the breach of unblanking of connecting seat, realizes that the pivot outer lane receives the unblock when trick lock subassembly locking.

The invention is further arranged as follows: the lock body is internally provided with a relay switch which can identify an external keyless control system to energize the electromagnetic controller, and the knob is provided with a top block which can touch the relay switch.

By adopting the technical scheme, when the knob is pushed, the knob moves towards the lock body in the axial direction, the ejector block on the knob can touch the relay switch, at the moment, if the relay switch is matched with an external keyless control system, the relay switch prompts the electromagnetic controller to be electrified, and the driving piece in the electromagnetic controller can unlock the outer ring of the rotating shaft.

The invention is further arranged as follows: the electromagnetic controller comprises an electromagnetic valve body, an electromagnetic push rod arranged in the electromagnetic valve body and an electromagnetic coil sleeved outside the electromagnetic push rod, the driving piece comprises an electromagnetic valve shifting block shaft hinged with the electromagnetic valve body, and a linkage block linked with the electromagnetic push rod and a shifting spring bolt capable of locking or separating a locking part on the outer ring of the rotating shaft are arranged on the electromagnetic valve shifting block shaft.

By adopting the technical scheme, the driving is stable, the structure is simple, and the clamping stagnation condition can not occur in the electromagnetic driving process.

The invention is further described below with reference to the accompanying drawings.

Drawings

FIG. 1 is a perspective view of an embodiment of the present invention;

FIG. 2 is a partial perspective view of an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of an embodiment of the present invention;

FIG. 4 is a perspective view of a rotating shaft and a knob portion according to an embodiment of the present invention;

FIG. 5 is an exploded view of the spindle and knob of the present invention;

FIG. 6 is an exploded view of the spindle and the combination lock assembly according to the present invention;

FIG. 7 is a perspective view of an outer ring of a rotating shaft according to an embodiment of the present invention.

Detailed Description

As shown in fig. 1-7, the keyless-start ignition switch lock with the fault mechanical unlocking function comprises a lock body 1, a knob 2 installed on the lock body 1, a rotating shaft 3 located in the lock body 1 and linked with the knob 2 and capable of sliding back and forth along the axial direction of the lock body 1 and rotating circumferentially, and a lock tongue 4 linked with the rotating shaft 3 and capable of realizing locking or unlocking, wherein an electromagnetic controller 5 is arranged on the lock body 1, and a driving member 51 which can be locked or unlocked after being electrified is arranged on the electromagnetic controller 5. A relay switch 52 capable of identifying an external keyless control system to enable the electromagnetic controller 5 to be electrified is arranged in the lock body 1, and a top block 53 capable of touching the relay switch 52 is arranged at the knob 2. When the knob 2 is pushed, the knob 2 moves axially toward the lock body 1, and the top block 53 on the knob 2 can touch the relay switch 52, at this time, if the relay switch 52 is matched with an external keyless control system, the relay switch 52 forces the electromagnetic controller 5 to be powered on, and the driving member 51 in the electromagnetic controller 5 performs work. The outer ring 6 of the rotating shaft is sleeved outside the rotating shaft 3, a locking part which can be used for circumferential locking or releasing of the circumferential locking of the driving piece 51 of the electromagnetic controller 5 is arranged on the outer circumferential surface of the outer ring 6 of the rotating shaft, and a coded lock assembly 7 which can drive the outer ring 6 of the rotating shaft to be connected with the knob 2 or release the outer ring 6 of the rotating shaft to be connected with the knob 2 is arranged at the position of the knob 2. Through implementing the linkage with pivot 3 and knob 2, can drive pivot 3 rotatory when knob 2 is rotatory to this realizes the linkage of pivot 3 to spring bolt 4, realizes functions such as unblock and ignition. The outer ring 6 of the rotating shaft sleeved outside the rotating shaft 3 is locked with the driving piece 51 of the electromagnetic controller 5 through a locking part, when in a locking state, the outer ring 6 of the rotating shaft is locked in the circumferential direction and cannot rotate, the knob 2 is connected with the outer ring 6 of the rotating shaft through the coded lock assembly 7, and at the moment, the knob 2 is limited by the outer ring 6 of the rotating shaft and cannot be linked with the rotating shaft 3 to drive the bolt 4; on the contrary, after the electromagnetic controller 5 releases the locking of the driving member 51 on the outer ring 6 of the rotating shaft, the outer ring 6 of the rotating shaft can rotate along with the rotation of the knob 2, and the rotating shaft 3 linked with the knob 2 can also rotate along with the rotation and drive the bolt 4. When the electromagnetic controller 5 fails to drive the driving piece 51 thereon, the driving piece 51 locks the outer ring 6 of the rotating shaft, and the knob 2 is linked with the outer ring 6 of the rotating shaft through the coded lock assembly 7 thereon, so that the knob 2 cannot rotate, the coded lock assembly 7 is unlocked to release the locking of the outer ring 6 of the rotating shaft, the outer ring 6 of the rotating shaft is separated from the knob 2, the knob 2 can rotate, and the rotating shaft 3 can be linked to drive the bolt 4 while rotating, so that the unlocking in case of failure is completed. When the fault unlocking is carried out, an external tool is not required, and the unlocking process is simple and convenient. Compared with the traditional lock core, the lock core has the advantages of fewer parts, more convenient assembly and processing and reduced production cost.

In the embodiment of the present invention, the rotating shaft 3 includes a linkage portion 31 linked with the bolt 4 and a mounting portion 32 extending to the knob 2, the coded lock assembly 7 includes a cover 71 and a coded lock body portion 72, the cover 71 is connected with the knob 2; the mounting portion 32 of the rotary shaft 3 is provided with a mounting frame 321 to which the code lock body portion 72 is mounted. Set up the installation frame 321 that is used for placing trick lock body part 72 on pivot 3, make pivot 3 form the lock shell that is used for placing trick lock body part 72 installation, reduced spare part, reduced manufacturing cost, the assembly of also being more convenient for simultaneously. The outer ring 6 of the spindle includes the locking connection unit 61 connected with lock assembly 7 of the password and can lock or lock the unit 62 separated with driving piece 51 of the electromagnetic controller 5, the locking part is a locking groove 621 that is set up on the perimeteric surface of the locking unit 62; the connecting unit 61 of the outer ring 6 is an annular body extending to the code lock body part 72, and a locking piece for locking or unlocking the code lock body part 72 is arranged on the inner wall of the annular body.

In the embodiment of the present invention, the locking member of the locking unit 62 of the outer ring 6 of the rotating shaft is a locking notch 622 opened on the inner wall of the ring body, the combination lock body portion 72 includes an installation shaft 721 installed in the installation frame 321 of the rotating shaft 3, at least two connection seats 722 sleeved on the installation shaft 721 and capable of rotating along the installation shaft 721, a combination wheel 723 having numbers and respectively fixed to the connection seats 722, and a combination lock tongue 724 corresponding to the connection seats 722, each connection seat 722 is correspondingly provided with an unlocking notch 7221, the combination lock tongue 724 is a frame body covered outside the combination wheel 723 and capable of sliding back and forth along the installation shaft 721, and the frame body is provided with a protrusion 7241 corresponding to the unlocking notch 7221 and a locking protrusion 7242 matching with the locking notch 622 of the outer ring 6 of the rotating shaft. The protrusion 7242 on the frame body corresponds to the unlocking notch 7221 on the connecting seat 722, if the password wheel 723 drives the connecting seat 722 to rotate until the unlocking notch 7221 on the connecting seat does not correspond to the protrusion 7241 on the frame body, the locking protrusion 7242 on the frame body and the locking notch 621 are locked; if the adjustment corresponds to the above, the knob 2 drives the rotating shaft outer ring 6 to rotate, so that the locking protrusion 7242 can slide out of the locking notch 621 of the rotating shaft outer ring 6, and the protrusion 7242 thereon enters the unlocking notch 7221 of the connecting seat 722, thereby unlocking the rotating shaft outer ring 6 when the rotating shaft outer ring is locked by the coded lock assembly 7. Of course, it should be noted that the coded lock assembly 7 in the embodiment of the present invention is not limited to the coded lock assembly with the coded wheel in the embodiment of the present invention, and may also be a coded lock that implements a touch click code through a liquid crystal display, or a coded lock that implements unlocking by a fingerprint method. Such changes can be made without the need for creative efforts, as described with reference to the embodiments of the present invention.

The electromagnetic controller 5 in the embodiment of the present invention includes an electromagnetic valve body 54, an electromagnetic push rod 541 disposed in the electromagnetic valve body 54, and an electromagnetic coil sleeved outside the electromagnetic push rod, the driving member 51 includes an electromagnetic valve dial block shaft hinged to the electromagnetic valve body 54, and the electromagnetic valve dial block shaft is provided with a linkage block 55 linked with the electromagnetic push rod 541, and a toggle latch 56 capable of locking or separating a locking portion on the outer ring 6 of the rotating shaft.

The cover body 71 of the coded lock assembly 7 is connected with the knob 2 through a rotatable ring body 8, the ring body 8 is clamped with the cover body 71 through a clamping piece, the clamping piece is a steel ball 711 arranged in the cover body 71 and a spring 712 which is used for abutting against the steel ball 711, and a clamping groove 81 for clamping the steel ball 712 is arranged on the inner circumferential surface of the ring body 8. Be connected through buckle subassembly between knob 2 and the circle body 8, circle body 8 is equipped with extension arch 82 towards the one end of knob 2, is equipped with draw-in groove 821 on the extension arch 82, and buckle subassembly is including locating on knob 2 and can with the fixture block 21 of this draw-in groove 821 adaptation, and fixture block 21 contradicts through compression spring 22. When the fixture block 21 is pressed, the spring force of the compression spring 22 is overcome, the fixture block 21 is separated from the clamping groove 821, the knob 2 can be detached from the ring body 8, at the moment, the code wheel 723 in the code lock assembly 7 is exposed, and an operator unlocks the code lock assembly 7. This arrangement allows the knob 2 to be used as a dust cap for the combination lock assembly 7.

Claims

1. The utility model provides a keyless start's ignition switch lock with trouble mechanical unlocking function, including the lock body, install knob on the lock body, be located in the lock body with the knob linkage can follow the reciprocal pivot that slides and circumferential direction of lock body axial and can realize the spring bolt of locking or unblock with the pivot linkage, the lock body on be equipped with electromagnetic control ware, be equipped with the driving piece that can lock or unblock after the circular telegram on the electromagnetic control ware, its characterized in that: the outer sleeve of the rotating shaft is provided with an outer ring of the rotating shaft, the outer circumferential surface of the outer ring of the rotating shaft is provided with a locking part which can be used for circumferential locking or releasing circumferential locking of a driving piece of the electromagnetic controller, and the knob is provided with a coded lock assembly which can drive the outer ring of the rotating shaft to be connected with the knob or release the outer ring of the rotating shaft to be connected with the knob.

2. The keyless-start ignition switch lock having the fail-safe mechanical unlock function according to claim 1, wherein: the rotating shaft comprises a linkage part linked with the lock tongue and an installation part extending to the knob, the coded lock assembly comprises a cover body and a coded lock body part, and the cover body is connected with the knob; the installation part of the rotating shaft is provided with an installation frame for installing the lock body part of the coded lock, the outer ring of the rotating shaft comprises a locking connection unit connected with the coded lock assembly and a locking unit which can be locked or separated with a driving piece of an electromagnetic controller, and the locking part is a locking groove arranged on the peripheral surface of the locking unit; the connecting unit of the outer ring of the rotating shaft is an annular body which extends to the lock body part of the coded lock, and the inner wall of the annular body is provided with a locking piece which is locked with or unlocked from the lock body part of the coded lock.

3. The keyless-start ignition switch lock having the failed mechanical unlock function according to claim 2, wherein: the locking piece of the locking unit department in pivot outer lane is for offering the locking breach on the ring body inner wall, trick lock body part including locate the installation axle in the pivot installation frame, the cover locate at least two on the installation epaxial connecting seats that can follow the installation rotation of axle, respectively with the fixed password wheel that has the figure that sets up of connecting seat and correspond the password spring bolt that sets up with the connecting seat, what correspond respectively on each connecting seat is equipped with the breach of unblanking, the password spring bolt for the cover locate the password wheel outside can follow the frame body of installation axle reciprocating sliding motion, be equipped with in the frame body with unblank the corresponding arch that sets up and with the locking breach assorted locking arch of pivot outer lane.

4. The keyless-start ignition switch lock having the fail-safe mechanical unlock function according to claim 1, 2 or 3, wherein: the lock body is internally provided with a relay switch which can identify an external keyless control system to drive the electromagnetic controller to be electrified, and the knob is provided with a top block which can touch the relay switch.

5. The keyless-start ignition switch lock having the fail-safe mechanical unlock function according to claim 1, 2 or 3, wherein: the electromagnetic controller comprises an electromagnetic valve body, an electromagnetic push rod arranged in the electromagnetic valve body and an electromagnetic coil sleeved outside the electromagnetic push rod, the driving piece comprises an electromagnetic valve shifting block shaft connected with the electromagnetic valve body in a hinged mode, and a linkage block linked with the electromagnetic push rod and a shifting spring bolt capable of locking or separating a locking portion on the outer ring of the rotating shaft are arranged on the electromagnetic valve shifting block shaft.

6. The keyless-start ignition switch lock having the failed mechanical unlock function according to claim 4, wherein: the electromagnetic controller comprises an electromagnetic valve body, an electromagnetic push rod arranged in the electromagnetic valve body and an electromagnetic coil sleeved outside the electromagnetic push rod, the driving piece comprises an electromagnetic valve shifting block shaft connected with the electromagnetic valve body in a hinged mode, and a linkage block linked with the electromagnetic push rod and a shifting spring bolt capable of locking or separating a locking portion on the outer ring of the rotating shaft are arranged on the electromagnetic valve shifting block shaft.