CN219958855U - Ignition switch lock - Google Patents

Abstract

An ignition switch lock comprises a knob, a face cover base, a lock body, a lock sleeve linkage assembly, a rotating shaft and a rotor switch, wherein a sliding block abuts against the outer peripheral surface of the lock body through a holding assembly, a poking assembly arranged on the sliding block extends out of the lock body, and the face cover base and the lock body can be fixed or unlocked through poking the sliding block; an inclined plane which is the same as the stop groove in direction relative to the opening groove is arranged on the end surface of the sliding block, which is abutted against the outer peripheral surface of the lock body, so that the process of locking the surface cover base is more convenient; the gear limiting groove and the positioning component which is horizontally inclined in the vertical direction of the central shaft of the lock sleeve are arranged to prevent excessive rotation, so that the lock sleeve linkage component is not easy to generate rotary offset in each gear state, and can automatically return to the optimal position when the rotary offset occurs, and the gear conversion process is more accurate and stable.

Description

Ignition switch lock

Technical Field

The utility model relates to the technical field of ignition switch locks, in particular to an ignition switch lock.

Background

The ignition switch of the keyless system is suitable for ignition, flameout and theft prevention of motorcycles and electric vehicles, has the 'ON, OFF, LOCK' three-gear basic function required by the finished vehicle like the traditional similar products, however, when a relay for receiving an electronic signal by the ignition switch lock of the keyless system fails, the motorcycle cannot be started, and at the moment, the ignition switch lock can not be started by using a key inserted into a lock cylinder, so that the ignition switch lock combined with keyless starting and key starting appears.

The applicant applies for a Chinese patent number 202221995058.0 in the year 2022 and the month 7, which discloses an ignition switch lock capable of keyless starting and keyed starting, comprising a lock body provided with an integrally formed knob mounting seat, a knob rotatably connected with the lock body, a lock sleeve linkage assembly, an electromagnetic controller provided with a pin shaft, a rotating shaft, a driving piece, a latch and a rotor switch, wherein the lock sleeve linkage assembly comprises a lock sleeve in linkage connection with the knob, a lock cylinder provided with a blade and a blade hole, and a pin shaft positioning plate provided with a pin shaft groove, the lock sleeve is provided with a lock cylinder mounting hole and is in linkage connection with the rotating shaft, a first sliding plane axially arranged along the lock cylinder mounting hole is arranged on the inner wall of the lock sleeve, a second sliding plane corresponding to the position of the first sliding plane is arranged on the lock cylinder, the first sliding plane and the second sliding plane enable the lock cylinder and the lock sleeve to synchronously and circumferentially rotate without relative circumferential sliding, the main torsion in the rotation process is born, the blade is not stressed, the service life of the blade is prolonged, the ignition switch lock can realize the key pulling out in any gear, the side wall of the lock sleeve is provided with a sliding connecting hole communicated with a lock cylinder mounting hole, the side wall of the lock cylinder is provided with a plug hole, the pin shaft positioning plate is provided with a connecting column, the connecting column penetrates through the sliding connecting hole until being matched with the plug hole to realize the relative fixed connection of the lock cylinder and the pin shaft positioning plate, the lock cylinder always drives the pin shaft positioning plate to move in the movement process, the first inclined plane which is arranged at one side of the upper end of the pin shaft groove and is used for realizing the function of a lock tap under the condition of no key or no remote controller along the circumferential direction of the lock sleeve when the lock sleeve rotates anticlockwise, the outer circumferential surface of the lock sleeve is provided with a gear limiting groove, the lock body is provided with a positioning pin extending into the gear limiting groove, the over-rotation preventing function is realized, so that the gear shifting process is more accurate and stable. The utility model has the following advantages: the knob is connected with the lock sleeve in a linkage way, the first sliding plane and the second sliding plane bear torsion in the rotating process, and the blades are protected, and meanwhile, keys can be pulled out from all gears; the pin shaft positioning plate with the first inclined plane is arranged, so that a lock faucet can be realized under the condition of having a key or not having the key; the gear position limiting groove and the positioning pin are arranged, so that gear position conversion is more accurate. The utility model has the following defects: the knob mounting seat and the lock body are integrally formed, and the ignition switch lock is complex to assemble and disassemble; the locating pin sets up along lock sleeve center pin plumb line direction, and easy emergence rotation skew at the flameout gear knob just can not self return.

The utility model of Chinese patent application number 202222585794.5 discloses a knob mounting structure for an ignition switch lock, which comprises a protruding block, an opening groove, a stop groove, a spring, a limiting block, a bottom surface and a mounting groove, wherein the protruding block is arranged on the outer side surface of the end part of a lock body, the opening groove is arranged on a knob mounting seat and is used for inserting the protruding block, the stop groove is communicated with the protruding block, the spring and the limiting block are arranged on the knob mounting seat and can axially move, the bottom surface of the knob mounting seat is provided with the mounting groove, the mounting groove is communicated with the opening groove, two elastic clamping hooks are arranged on a limiting piece and are used for clamping the rotary mounting seat through a through hole to realize fixed connection, and a guide inclined plane is arranged at the joint of the stop groove and the opening groove, so that the protruding block can conveniently move into the stop groove from the opening groove.

Disclosure of Invention

The technical problem to be solved by the utility model is to provide the ignition switch lock which can be conveniently assembled and disassembled with the surface cover base and can automatically return to the optimal position when the lock sleeve is rotated and offset under each gear state.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an ignition switch lock, includes knob, face lid base, through face lid installation mechanism with face lid base fixed connection's lock body, be provided with the electromagnetic controller of taking the round pin axle on the lock body, be provided with the lock sleeve linkage subassembly and the pivot of outer peripheral face area round pin axle groove in the lock body, lock sleeve linkage subassembly is including lock core and lock sleeve, the lock sleeve rotatable set up in the lock body, its linkage is connected the knob with the pivot, the lock body is kept away from in the pivot the tip of lock sleeve linkage subassembly one side is equipped with rotor switch, face lid installation mechanism is including locating first stopper of lock body tip lateral surface, locate the open slot of face lid base with the stop groove that the open slot is linked together, its characterized in that: the surface cover mounting mechanism further comprises a positioning groove axially formed in the outer peripheral surface of the surface cover base, a guide rail arranged in the end portion of the lock body in the direction of the perpendicular line of the central shaft of the lock sleeve, and a sliding block arranged in the guide rail, one end of the sliding block abuts against the outer peripheral surface of the lock body through a retaining component, and a stirring component for promoting the sliding block to be in an abutting state with the lock body is arranged on the sliding block.

By adopting the technical scheme, the lock sleeve is rotatably arranged in the lock body, and the lock sleeve is in linkage connection with the knob and the rotating shaft, so that the knob drives the lock sleeve linkage assembly and the rotating shaft to rotate and simultaneously can drive the lock sleeve linkage assembly and the rotating shaft to axially move, and the ignition or gear change can be realized through the knob; the retaining component is a first spring, and the first spring always gives an elastic force for the sliding block to move towards the outer peripheral surface of the lock body, namely the first spring promotes the sliding block to prop against the outer peripheral surface of the lock body; when the first limiting block is limited into the stop groove, the sliding block is limited into the positioning groove; the poking component is a first bump of the lock body extending out of the peripheral surface of the sliding block, and the locking or unlocking of the surface cover base and the lock body can be realized by poking the sliding block.

The ignition switch lock described above may be further configured to: the end face of the sliding block, which is abutted against the outer peripheral surface of the lock body, is provided with a second inclined plane, and the direction of the second inclined plane is the same as that of the stop groove relative to the opening groove.

By adopting the technical scheme, the second inclined plane which is the same as the stop groove in the direction opposite to the opening groove is arranged on the end face of the sliding block, so that when the base is covered on the installation face, the sliding block can automatically move towards the direction of the first spring due to the acting force of the base on the installation face, the first spring is compressed at the moment, when the first limiting block is successfully limited into the stop groove, the sliding block is limited into the positioning groove due to the elastic force of the first spring, and meanwhile, the second inclined plane is the same as the stop groove in the direction opposite to the opening groove, so that the sliding block can be matched with the first limiting block, the base on the installation face is successfully locked, namely, the process of locking the base on the installation face is more convenient, namely, the installation face can be realized without sliding the sliding block when the base on the installation face is covered on the installation face.

The ignition switch lock described above may be further configured to: the lock sleeve is characterized in that a gear limiting groove is formed in the outer peripheral surface of the lock sleeve, a positioning assembly extending into the gear limiting groove is arranged in the lock body, the positioning assembly comprises a second spring and a gear limiting ball propped against the gear limiting groove through the second spring, and the second spring is horizontally inclined to the vertical direction of the central shaft of the lock sleeve.

By adopting the technical scheme, the gear limiting groove and the positioning component are arranged to prevent excessive rotation, the second spring is horizontally inclined to the vertical line direction of the central shaft of the lock sleeve, so that the gear limiting ball always gives the lock sleeve a counterclockwise rotating force, the lock sleeve linkage component can automatically return to the optimal position if rotating offset occurs in each gear state, and meanwhile, the lock sleeve linkage component is not easy to generate rotating offset in each gear state due to the provision of force, so that the gear conversion process is more accurate and stable.

The ignition switch lock described above may be further configured to: the lock body is internally provided with a connecting piece penetrating through the surface cover base, the upper end of the connecting piece is connected with the knob, the lower end of the connecting piece is connected with the lock sleeve, a rotating ring sleeved on the connecting piece is rotatably arranged between the surface cover base and the lock body, and the diameter of the rotating ring is larger than that of the lock sleeve.

By adopting the technical scheme, the rotating ring sleeved on the connecting piece is rotatably arranged between the face cover base and the lock body, the diameter of the rotating ring is larger than that of the lock sleeve, the rotating ring is fixed by the lower end face of the face cover base and the upper end face of the lock body, so that the rotating ring cannot axially move, and the rotating ring is sleeved on the connecting piece, so that the rotating ring can be in linkage connection with the knob and the lock sleeve, and the rotating ring can play a role in preventing the knob from being pulled out of the face cover base while not affecting the synchronous rotation and the synchronous axial movement of the knob and the lock sleeve linkage assembly, and can play a pick-proof role, so that the anti-theft performance of the ignition switch lock is enhanced.

The ignition switch lock described above may be further configured to: the connecting piece with the knob passes through screw fixed connection, the diameter of connecting piece lower terminal surface is the same with the diameter of lock sleeve.

By adopting the technical scheme, the connecting piece is fixedly connected with the knob through the screw, is more stable in plugging or clamping connection, is convenient for the setting of the rotating ring, and has the same diameter as the lock sleeve, so that the lock sleeve linkage assembly can be rotationally arranged in the lock body.

The beneficial effects of the utility model are as follows: the sliding block is propped against the outer peripheral surface of the lock body through the retaining component, the poking component arranged on the sliding block extends out of the lock body, when the first limiting block is limited in the stop groove, the sliding block is limited in the positioning groove, namely, the fixing or unlocking of the surface cover base and the lock body can be realized through poking the sliding block; the inclined surface which is the same as the stop groove in the direction opposite to the opening groove is arranged on the end surface of the sliding block, which is abutted against the outer peripheral surface of the lock body, so that the process of locking the surface cover base is more convenient, namely, the locking of the surface cover base can be realized without sliding the sliding block when the surface cover base is installed; the gear limiting groove and the positioning component which is horizontally inclined in the vertical direction of the central shaft of the lock sleeve are arranged to prevent excessive rotation, so that the lock sleeve linkage component is not easy to generate rotary offset in each gear state, and can automatically return to the optimal position when the rotary offset occurs, and the gear conversion process is more accurate and stable.

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

Drawings

FIG. 1 is a schematic diagram illustrating an assembled state of an embodiment of the present utility model;

FIG. 2 is an exploded view of the present utility model;

FIG. 3 is a schematic view of the parts inside the lock body of the present utility model;

FIG. 4 is a second schematic view of the internal components of the lock of the present utility model;

FIG. 5 is an exploded view of the lock sleeve linkage assembly of the present utility model;

FIG. 6 is an explosion illustration II of the lock sleeve linkage assembly of the present utility model;

FIG. 7 is a schematic view of a base structure of a cover according to the present utility model;

fig. 8 is a schematic view of a slider structure according to the present utility model.

Reference numerals notes: the face cover base 1, the open slot 10, the stop slot 11, the positioning slot 12, the knob 2, the lock body 3, the first limiting block 30, the first spring 31, the sliding block 32, the second inclined plane 320, the first convex block 33, the second spring 34, the gear limiting ball 35, the lock sleeve linkage assembly 4, the lock cylinder 41, the plug hole 411, the second sliding plane 4110, the lock sleeve 42, the lock cylinder mounting hole 421, the first sliding plane 4210, the sliding connection hole 422, the gear limiting slot 423, the pin positioning plate 43, the connection post 432, the pin slot 431, the pressing piece 44, the first inclined plane 45, the bracket 5, the rotor switch 51, the rotating shaft 6, the driving piece 61, the latch 62, the electromagnetic controller 7, the pin 71, the micro switch 8, the connection piece 9 and the rotating ring 91.

Description of the embodiments

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The ignition switch lock as shown in fig. 1 to 8 comprises a knob 2, a surface cover base 1, a lock body 3 fixedly connected with the surface cover base 1 through a surface cover mounting mechanism, an electromagnetic controller 7 with a pin shaft 71 is arranged on the lock body 3, a lock sleeve linkage assembly 4 with a pin shaft groove 431 on the outer peripheral surface and a rotating shaft 6 are arranged in the lock body 3, the lock sleeve linkage assembly 4 comprises a lock cylinder 41 with blades and a lock sleeve 42 with blade holes, the lock sleeve 42 is rotatably arranged in the lock body 3, the linkage connection knob 2 and the rotating shaft 6 are in linkage connection, the end part of the lock body 3, far away from the lock sleeve linkage assembly 4, of the rotating shaft 6 is provided with a rotor switch 51, the surface cover mounting mechanism comprises a first limit block 30 arranged on the outer side surface of the lock body 3, an open slot 10 axially arranged on the surface cover base 1, a stop slot 11 communicated with the open slot 10, a positioning slot 12 axially arranged on the outer peripheral surface of the surface cover base 1, a guide rail arranged in the lock body 3 along the direction of the center axis of the lock sleeve 42 in the vertical direction, a sliding block 32 and a first spring 32 arranged in the guide rail, the sliding block 32 and the first side surface 31 are rotatably arranged in the lock body 3, the sliding block 32 and the first spring 32 are rotatably arranged at the side surface of the first limit block 32, and the first limit block 33 is extended out of the first limit block 33 in the first limit block 33 or the first limit block 33, and the first limit block 33 is extended out of the first limit block body 3, and the first limit block 32 is extended to the first limit block 32, and the first limit block 32 is extended to the first limit block 33, and the first limit block 32 is in the direction and can be moved to the direction 1, and can be moved in the direction, and can be moved.

The end surface of the sliding block 32, which abuts against the outer peripheral surface of the lock body 3, is provided with a second inclined surface 320, the second inclined surface 320 and the stop groove 11 have the same direction relative to the opening groove 10, so that when the cover base 1 is installed, the sliding block 32 can automatically move towards the direction of the first spring 31 due to the acting force of the cover base 1, at the moment, the first spring 31 is compressed, when the first limiting block 30 is successfully limited into the stop groove 11, the sliding block 32 can be limited into the positioning groove 12 due to the elastic force of the first spring 31, and meanwhile, the second inclined surface 320 and the stop groove 11 have the same direction relative to the opening groove 10, so that the cover base 1 can be successfully locked, namely, the process of locking the cover base 1 is more convenient due to the arrangement of the second inclined surface 320, namely, the cover base 1 can be successfully locked without sliding the sliding block 32.

The lock sleeve linkage assembly 4 further comprises a pin shaft locating plate 43 provided with a pin shaft groove 431, the lock sleeve 42 is provided with lock cylinder mounting holes 421 which are distributed along the axial direction of the lock sleeve 42, the side wall of the lock sleeve is provided with sliding connection holes 422 which are connected with the lock cylinder mounting holes 421 in a conducting mode, the pin shaft locating plate 43 is provided with connecting posts 432 which are in clearance fit with the sliding connection holes 422, the side wall of the lock cylinder 41 is provided with plug holes 411, the connecting posts 432 penetrate through the sliding connection holes 422 until being clamped with the plug holes 411, the lock cylinder 41 always drives the pin shaft locating plate 43 to move in the moving process, the side wall of the lock sleeve 42 is provided with the sliding connection holes 422, and the lock cylinder 41, the lock sleeve 42 and the pin shaft locating plate 43 are convenient to assemble and connect, and the maximum utilization space can be reasonably utilized.

The lock cylinder 41 and the lock sleeve 42 are provided with a linkage structure which enables the lock cylinder 41 to be linked with the lock sleeve 42 to rotate circumferentially when the lock cylinder 41 axially downwards links the pin shaft locating plate 43 along the lock sleeve 42 and enables the pin shaft 71 to exit the pin shaft groove 431, the linkage mechanism comprises a first sliding plane 4210 which is arranged on the inner wall of the lock cylinder mounting hole 421 and axially arranged along the lock cylinder mounting hole 421, and a second sliding plane 4110 which is arranged on the outer periphery of the lock cylinder 41, the first sliding plane 4210 and the second sliding plane 4110 correspond to each other when the lock cylinder 41 is mounted on the lock sleeve 42, the lock cylinder 41 can axially upwards or downwards link the lock sleeve 42 under the action of the linkage mechanism, and the pin shaft locating plate 43 always keeps to move synchronously along the lock cylinder 41 in the ascending or descending process due to the fact that the connecting post 432 is clamped with the inserting hole 411, and when the lock sleeve 42 rotates circumferentially due to the action of the linkage mechanism, the connecting post 432 can rotate circumferentially along the lock sleeve 42, and further due to the fact that the connecting post 432 is clamped with the inserting hole 411, the pin shaft locating plate 43 can rotate along with the lock sleeve 42, and the blades can be pulled out, thereby realize the replacement of each blade in the process, and the service life of the blade can be prolonged.

The gear limiting groove 423 is formed in the outer peripheral surface of the lock sleeve 42, the positioning component extending into the gear limiting groove 423 is arranged on the lock body 3, the positioning component comprises a second spring 34 and a gear limiting ball 35 with one end propped against the second spring 34, the second spring 34 always provides elastic force for the gear limiting ball 35 to move towards the lock sleeve 42, the second spring 34 is horizontally inclined to the vertical axis direction of the central axis of the lock sleeve 42, the effect of preventing excessive rotation is achieved, meanwhile, the positioning component is horizontally inclined to the vertical axis direction of the central axis of the lock sleeve 42, so that the gear limiting ball 35 always provides a force for the lock sleeve 42 to rotate in the anticlockwise direction, the lock sleeve linkage component 4 can automatically return to the optimal position if rotating offset occurs in each gear state, and the lock sleeve linkage component 4 is not easy to generate rotating offset in each gear state due to the provision of force, so that the gear conversion process is more accurate and stable.

Still be provided with in the lock body 3 and wear to locate the connecting piece 9 of face lid base 1, the connecting piece 9 upper end passes through screw connection knob 2, the lower extreme is connected with lock sleeve 42, set up the retainer 91 of cover on locating the connecting piece 9 between face lid base 1 and the lock body 3 up end, the diameter of retainer 91 is greater than the diameter of lock sleeve 42, the retainer 91 inner circle shape matches with connecting piece 9 outer lane shape, when synchronous circumference motion with knob 2, can restrict knob 2 to be pulled out face lid base 1, play the pick-proof effect, the theftproof performance of reinforcing ignition switch lock.

The lock body 3 is further provided with a driving piece 61 and a latch 62, the rotation of the rotating shaft 6 can drive the driving piece 61 to move to realize telescopic movement of the latch 62, the driving piece 61, the latch 62 and the rotor switch 51 are installed on the support 5, the support 5 is a plastic piece and can be connected with the lock body 3 in a clamping manner, the support 5 can be integrally arranged with the lock body 3, a coil (not shown in the figure) and a driving spring (not shown in the figure) are arranged in the electromagnetic controller 7, the pin 71 can be sucked up by overcoming the acting force of the driving spring after the coil is electrified, the coil is powered off, and the pin 71 stretches out under the action of the driving spring.

Referring to the ignition switch lock with key-free starting and key starting of the Chinese patent application number 202221995058.0, a first inclined plane 45 is arranged on one side of the upper end of the pin shaft groove 431, and the pin shaft 71 can slide to the lock tap blocking position along the circumferential direction of the pin shaft positioning plate 43 when the lock cylinder 41 is in flameout gear anticlockwise rotation, so that the knob 2 is pressed down under the condition of no key or no remote control, the knob 2 can drive the lock sleeve 42 to move downwards, the lock sleeve 42 drives the lock cylinder 41 to move downwards synchronously, and the pin shaft positioning plate 43 is driven until the pin shaft 71 exits the pin shaft groove 431, and when the knob 2 is rotated anticlockwise, the pin shaft 71 can slide into the lock tap blocking position smoothly under the action of the first inclined plane 45, so that the lock tap function is realized under the condition of no key or no remote control.

The lock body 3 is also provided with the micro switch 8, still be provided with the reset spring that can drive lock sleeve linkage assembly 4 and pivot 6 to reset in the lock body 3, still the cover is equipped with the butt piece 44 on the lock sleeve 42, reset spring includes the cover and establishes the third spring on the lock sleeve 42 and the fourth spring of cover on pivot 6, third spring one end is contradicted on butt piece 44, the other end is contradicted on pivot 6, butt piece 44 is contradicted on the terminal surface of knob 2 one side is kept away from to the lock sleeve 42 under the effect of third spring, be equipped with the conflict face on pivot 6, the one end of fourth spring is contradicted on the conflict face, the other end is contradicted on support 5 in lock body 3, be equipped with the cover between fourth spring and the conflict face and locate the manger plate bench of pivot 6, be equipped with in the support 5 and can catch the accommodation space (not shown in the figure) of rainwater that flows down from the manger plate bench, and its side sets up the wash port (not shown in the figure), butt piece 44 can be with the butt piece 8's contact point of micro switch when pressing knob 2 and the realization micro switch 8 is contradicted by each other, can open the micro switch 8 with the cooperation of intelligent remote controller can not have the magnetic sensor 8, can not open the error-controlled by the remote controller can not open the remote controller, the anti-controller can be opened the remote controller is unexpected, if can be opened safely and can be opened.

In this embodiment, one side of connecting piece 9 near knob 2 is equipped with the boss, still be equipped with the mounting hole that can alternate the screw on the connecting piece 9, knob 2 corresponds mounting hole department and is equipped with the screw hole that can connect the screw soon, can alternate the screw in mounting hole department to connect the screw soon in screw hole department, realize the fixed connection of knob 2 and connecting piece 9, it is more stable to connect, be equipped with the jack that can supply the key to wear to establish on the connecting piece 9, be equipped with the through-hole that can peg graft the key on the knob 2, in the key can be followed through-hole and jack insertion lock core 41, the connecting piece 9 can also be with the connection of knob 2: plugging and clamping; the connection of the connector 9 to the sleeve 42 may also be: and (5) plugging and clamping.

When the pin shaft 71 is in an extending state and a key matched with the blade is not inserted, the blade is inserted into the blade hole, the pin shaft positioning plate 43 cannot move downwards along the shaft of the lock sleeve 42, the knob 2 is pressed to drive the lock sleeve linkage assembly 4 to move downwards, at the moment, the knob 2 can only be rotated anticlockwise, and the pin shaft 71 can smoothly slide into a lock tap gear position, so that the lock tap function under the condition of no key or no remote control is realized; when the pin 71 is in an extending state, a key matched with the blade is inserted, the lock cylinder 41 is separated from the lock sleeve 42, the key is pressed to enable the lock cylinder 41 fixedly connected with the pin positioning plate 43 to move downwards along the lock sleeve 42, and then the knob 2 is rotated clockwise to realize ignition; when the pin shaft 71 is in a contracted state, no matter whether a key matched with the blade is inserted into the lock core 41 or not, ignition can be realized by rotating the knob 2 in the clockwise direction, at the moment, the knob 2 drives the lock sleeve 42, the lock core 41 and the pin shaft positioning plate 43 to synchronously rotate, so that the rotating shaft 6 is driven to rotate in the clockwise direction to realize ignition, and the positioning assembly is positioned in an ignition gear.

The above embodiment is only one of the preferred embodiments of the present utility model, and common changes and substitutions made by those skilled in the art within the scope of the technical solution of the present utility model are included in the scope of the present utility model.

Claims (5)

1. The utility model provides an ignition switch lock, includes knob, face lid base, through face lid installation mechanism with face lid base fixed connection's lock body, be provided with the electromagnetic controller of taking the round pin axle on the lock body, be provided with the lock sleeve linkage subassembly and the pivot of outer peripheral face area round pin axle groove in the lock body, lock sleeve linkage subassembly is including lock core and lock sleeve, the lock sleeve rotatable set up in the lock body, its linkage is connected the knob with the pivot, the lock body is kept away from in the pivot the tip of lock sleeve linkage subassembly one side is equipped with rotor switch, face lid installation mechanism is including locating first stopper of lock body tip lateral surface, locate the open slot of face lid base with the stop groove that the open slot is linked together, its characterized in that: the surface cover mounting mechanism further comprises a positioning groove axially formed in the outer peripheral surface of the surface cover base, a guide rail arranged in the end portion of the lock body in the direction of the perpendicular line of the central shaft of the lock sleeve, and a sliding block arranged in the guide rail, one end of the sliding block abuts against the outer peripheral surface of the lock body through a retaining component, and a stirring component for promoting the sliding block to be in an abutting state with the lock body is arranged on the sliding block.

2. An ignition switch lock as defined in claim 1, wherein: the end face of the sliding block, which is abutted against the outer peripheral surface of the lock body, is provided with a second inclined plane, and the direction of the second inclined plane is the same as that of the stop groove relative to the opening groove.

3. An ignition switch lock according to claim 1 or 2, characterized in that: the lock sleeve is characterized in that a gear limiting groove is formed in the outer peripheral surface of the lock sleeve, a positioning assembly extending into the gear limiting groove is arranged in the lock body, the positioning assembly comprises a second spring and a gear limiting ball propped against the gear limiting groove through the second spring, and the second spring is horizontally inclined to the vertical direction of the central shaft of the lock sleeve.

4. An ignition switch lock as claimed in claim 3, wherein: the lock body is internally provided with a connecting piece penetrating through the surface cover base, the upper end of the connecting piece is connected with the knob, the lower end of the connecting piece is connected with the lock sleeve, a rotating ring sleeved on the connecting piece is rotatably arranged between the surface cover base and the lock body, and the diameter of the rotating ring is larger than that of the lock sleeve.

5. An ignition switch lock as defined in claim 4, wherein: the connecting piece with the knob passes through screw fixed connection, the diameter of connecting piece lower terminal surface is the same with the diameter of lock sleeve.