CN210805591U - Ignition switch lock - Google Patents

Abstract

The utility model relates to an ignition switch lock, including the lock body, the knob, the lock core, pivot and spring bolt subassembly, the lock body is equipped with rotor switch at the pivot tip position of keeping away from lock core one side, the spring bolt subassembly includes driving plate and spring bolt, the driving plate is connected with the spring bolt, be equipped with first solenoid controller on the lock body, be equipped with first round pin axle on the first solenoid controller, the flexible removal of the steerable first round pin axle of first solenoid controller, first round pin axle is connected with the driving plate, first round pin axle drives the flexible removal that realizes the spring bolt of driving plate removal, be equipped with the via hole that supplies the pivot to wear to establish on the driving plate, be equipped with the eccentric block in the pivot, be equipped with on the driving plate can with the first touch multitouch of conflicting complex of eccentric block, flexible being provided with on the eccentric block stirs. Adopt above-mentioned scheme, provide an ignition switch lock, it can not only manual control spring bolt flexible, can also be through automatically controlled automatic control spring bolt flexible, simple structure, reasonable in design, convenient operation.

Description

Ignition switch lock

Technical Field

The utility model relates to an ignition switch lock, especially an ignition switch lock that uses on electric motor car or motorcycle.

Background

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

The applicant applies for a Chinese patent No. 201810129844.4 on 8/2/2018 and discloses an ignition switch lock capable of being started without a key and started with a key, which comprises a knob, a lock cylinder and a lock body, wherein the lock cylinder is rotatably arranged in the lock body, the knob is in linkage connection with the lock cylinder, a rotating shaft is rotatably arranged in the lock body and can move along the axial direction of the lock cylinder and is in linkage connection with the lock cylinder, a rotor switch is arranged at the end part of the lock body, which is far away from one side of the lock cylinder, of the rotating shaft, a driving sheet and a latch are further arranged on the lock body and are connected with the latch, the driving sheet can be driven by the rotation of the rotating shaft to move so as to realize the telescopic movement of the latch, an electromagnetic controller is arranged on the lock body, a pin shaft is arranged on the electromagnetic controller and can control the pin shaft to move telescopically, the lock core sleeve is provided with a clamping groove or a clamping hole matched with the blade, the peripheral surface of the lock core sleeve is provided with a pin shaft groove, a pin shaft is separated from or inserted into the pin shaft groove to unlock or lock the lock core, when the lock core is not inserted into a key matched with the lock core, the lock core is linked with the lock core sleeve, the lock core sleeve and the lock core are controlled by an electromagnetic controller, when the pin shaft is separated from the pin shaft groove, a rotary knob drives the lock core and the lock core sleeve to rotate so as to drive a rotating shaft to rotate, and when the pin shaft is inserted into the pin shaft groove, the lock core and the lock core; 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 technical scheme has the problems that the lock bolt can be controlled to stretch only by manually driving the rotating shaft to rotate, and the lock bolt cannot be automatically controlled to stretch, so that the operation is inconvenient.

Disclosure of Invention

The utility model overcomes prior art's is not enough, provides an ignition switch lock, and it can not only the flexible of manual control spring bolt, can also be through the flexible of automatically controlled automatic control spring bolt, simple structure, reasonable in design, convenient operation.

In order to realize the purpose, the utility model discloses a technical scheme is: an ignition switch lock comprises a lock body, a knob, a lock core, a rotating shaft and a lock tongue assembly, wherein the lock core and the rotating shaft are rotatably arranged in the lock body, the knob is in linkage connection with the lock core, the rotating shaft is in linkage connection with the lock core, a rotor switch is arranged at the end part of the lock body, which is far away from one side of the lock core, at the rotating shaft, the lock tongue assembly comprises a driving sheet and a lock tongue, the driving sheet is connected with the lock tongue, a first electromagnetic controller is arranged on the lock body, a first pin shaft is arranged on the first electromagnetic controller, the first electromagnetic controller can control the first pin shaft to move in a telescopic manner, the first pin shaft is connected with the driving sheet, the driving sheet is driven by the first pin shaft to move so as to realize the telescopic movement of the lock tongue, a through hole for the rotating shaft to penetrate is arranged on the driving sheet, an eccentric block is arranged on the rotating shaft, a first, after the first electromagnetic controller drives the lock tongue to extend out, the lock cylinder rotates clockwise to drive the eccentric block of the rotating shaft to abut against the first abutting block of the driving sheet, so that the lock tongue is driven to retract; the lock core is pushed, the end part of the poking piece abuts against the side face of the driving piece and retracts into the eccentric block, the lock core is rotated anticlockwise until the poking piece rotates to the notch, the poking piece extends out of the notch and is inserted into the notch, and at the moment, the rotating shaft rotates clockwise to drive the poking piece to abut against the driving piece so as to drive the lock tongue to retract; at the moment, the rotating shaft rotates anticlockwise to drive the poking piece to abut against the driving piece so as to drive the lock tongue to extend out.

By adopting the scheme, the ignition LOCK is sequentially provided with the ON gear, the OFF gear and the LOCK gear along the anticlockwise direction; when the spring bolt is manually controlled to stretch, only the lock core is pressed into the lock body, so that the poking piece on the rotating shaft is rotated at the notch of the driving piece when the poking piece moves, and the poking piece can be abutted against the inner wall of the notch by rotating the lock core and the rotating shaft, so that the driving piece is driven to move; in an initial state, a poking piece of the rotating shaft and the notch are arranged in a staggered mode, when the bolt is automatically controlled to stretch, a coil is arranged in the first electromagnetic controller, the coil is instantly electrified in a forward direction or a reverse direction, the first pin shaft can be controlled to stretch out or retract, the end portion of the first pin shaft is connected with the driving sheet, the driving sheet is driven to move, the stroke of the through hole is long, when the driving sheet is automatically controlled to move, the movement of the driving sheet is not influenced by the rotation of the rotating shaft, when the knob is in an OFF gear, the bolt is pushed out by the first electromagnetic controller, the rotating knob is rotated from the OFF gear to an ON gear, the rotating shaft rotates clockwise, an eccentric block of the rotating shaft is abutted against a first abutting block of the driving sheet, the bolt is driven to retract, the knob is in the ON gear, the eccentric block is arranged relative to the first abutting block, and; when the knob is in OFF fender, first electromagnetic control ware releases the spring bolt, pushes down the knob this moment, and the extensible member is inconsistent with the side of driving plate and is withdrawn, and rotatory knob keeps OFF from OFF and changes to LOCK fender to drive pivot anticlockwise rotation, the extensible member rotates the breach department to the driving plate along with the pivot, and the extensible member stretches out and inserts and locates the breach, then rotates the pivot again and can drive the driving plate and remove, thereby drive the spring bolt and stretch out or withdraw, simple structure, and reasonable in design, convenient operation.

The utility model discloses a further setting is: the lock body is internally provided with a spring set which can drive the lock cylinder and the rotating shaft to slide and reset, and the lock body is internally provided with a limiting structure which limits the sliding and resetting of the lock cylinder and the rotating shaft in the process of driving the lock tongue to stretch and retract by the rotating shaft.

Through adopting above-mentioned scheme, under the effect of spring assembly, it drives lock core and pivot and accomplishes and reset, be convenient for carry out the operation next time, however at the flexible in-process of manual drive spring bolt, owing to press the knob in to the lock body, just can move the piece to breach department with stirring of pivot, at the rotation in-process, the atress is uneven, make stirring of pivot very easily and set up with breach dislocation, limit structure can restrict the flexible in-process lock core of manual drive spring bolt and pivot and slide and reset, make stirring of pivot be located the breach all the time.

The utility model discloses a further setting is: still be equipped with the lug in the pivot, the fixed support that is provided with in the one end of keeping away from the lock core on the lock body, be equipped with on the support and supply lug pivoted rotation chamber, rotate the chamber and be equipped with the first inclined hole with lug shape adaptation in the one side that is close to the lock core, promote the lock core, the lug passes first inclined hole and moves to and rotate chamber department, and limit structure is the stopper of setting on rotating the chamber, and the stopper is located the rotation orbit of lug, and when the pivot rotated to the lug on it and corresponds the stopper, the lug supports to locate the stopper under the effect of spring assembly and realizes spacing to lock core and pivot.

Through adopting the above scheme, rotor switch installs on the support, the support passes through the mode of screw or joint and is connected with the lock body, only aim at first inclined hole when the lug of pivot, just can promote the lock core in to the lock body, then drive the driver plate and remove, moreover, the steam generator is simple in structure, and reasonable in design, at the flexible in-process of drive spring bolt, in case the lug rotates to the stopper on, need not continue to press the lock core in to the lock body this moment, but stopper backstop lug, thereby can not drive lock core automatic re-setting, consequently only need to rotate the lock core and can accomplish the flexible of spring bolt, it is more convenient to operate, in case the lug breaks away from the conflict with the stopper, under spring assembly's effect, can drive pivot and lock core automatic re-.

The utility model discloses a further setting is: be equipped with on the eccentric block and place the chamber, dial the round pin that moves the piece and for setting up placing the intracavity, place the intracavity and still be equipped with the round pin spring, the eccentric block has the baffle at the opening part joint of placing the chamber, and round pin spring one end is contradicted on the round pin, and the other end is contradicted on the baffle, is equipped with on the round pin and places the inconsistent spacing portion of intracavity wall.

Through adopting above-mentioned scheme, the tip an organic whole of round pin is provided with spacing portion, and the diameter of spacing portion is greater than and places the chamber and be close to the opening of driving plate, therefore the round pin spring can drive the round pin and stretch out and place the chamber, but the round pin can not break away from and place the chamber, and the baffle directly blocks to be established on the eccentric block, the dismouting of being convenient for, and the installation of round pin spring is stable.

The utility model discloses a further setting is: and a second inclined hole matched with the shape of the bump is formed in one side, close to the lock cylinder, of the rotating cavity, and the first inclined hole and the second inclined hole are respectively located on two sides of the limiting block.

By adopting the scheme, the first inclined hole corresponds to an OFF gear of the ignition lock, when the bolt is manually controlled to retract, and the lug of the rotating shaft corresponds to the first inclined hole, the rotating shaft and the lock cylinder can reset under the driving of the spring group, and at the moment, the poking piece is far away from the driving piece, so that the bolt is not automatically controlled to stretch by the first electromagnetic controller; the second inclined hole corresponds to a LOCK gear of the ignition LOCK, when the manual control spring bolt extends out, and the lug of the rotating shaft corresponds to the second inclined hole, the rotating shaft and the LOCK cylinder can reset under the driving of the spring group, and at the moment, the poking piece is far away from the driving piece, so that the automatic control spring bolt expansion of the first electromagnetic controller cannot be influenced.

The utility model discloses a further setting is: be equipped with in the lock body and supply pivot pivoted pivot installation cavity, be provided with the second on the inner wall of pivot installation cavity and contradict the touch multitouch, the eccentric block of pivot and the cooperation of second touch multitouch constitute the rotation of lock core spacing.

Through adopting above-mentioned scheme, because pivot and lock core are the linkage cooperation, the turned angle of pivot is the turned angle of lock core promptly, and the second conflict piece is two and interval distribution in the pivot installation intracavity, and the eccentric block of pivot is arranged in between two second conflict pieces, can conflict with two second conflict pieces respectively when the pivot rotates to the turned angle of restriction pivot, simple structure, the dismouting of being convenient for.

The utility model discloses a further setting is: the lock body is also provided with a second electromagnetic controller, the second electromagnetic controller is provided with a second pin shaft, the second electromagnetic controller can control the second pin shaft to stretch and move, the outer peripheral surface of the lock core sleeve is provided with a slot or an insertion hole, the second pin shaft is separated from the slot or the insertion hole of the lock core sleeve to unlock the lock core, and the second pin shaft is inserted into the slot or the insertion hole of the lock core sleeve to realize circumferential locking of the lock core.

By adopting the scheme, the coil and the driving spring are arranged in the second electromagnetic controller, the coil can overcome the acting force of the driving spring after being electrified to suck the second pin shaft up and separate from the slot or the jack, the coil is powered off, the second pin shaft extends out and is inserted into the slot or the jack under the action of the driving spring, and the second electromagnetic controller can control circumferential unlocking and circumferential locking of the lock cylinder sleeve if being electrified or not; when the lock cylinder sleeve is limited to rotate, only the lock cylinder is inserted into a key matched with the lock cylinder, the blade is separated from a clamping groove or a clamping hole of the lock body, the lock cylinder can rotate in the lock body, the key is rotated to drive the lock cylinder to rotate at the moment, the lock cylinder and the rotating shaft can be driven to rotate, the rotating shaft can drive the rotor switch to be started, the driving piece can be driven to move to achieve telescopic movement of the lock tongue, and the vehicle locking faucet is locked.

The utility model discloses a further setting is: the lock core sleeve is characterized in that two groups of clamping grooves are formed in the inner wall of the lock core sleeve, the clamping grooves are evenly distributed along the circumferential direction of the lock core sleeve, jacks are formed in the positions, corresponding to the clamping grooves, of the outer circumferential face of the lock core sleeve and communicated with the clamping grooves, and the jacks are formed in long holes, so that when the second pin shaft is inserted into the jacks, the lock core sleeve can move axially.

Through adopting above-mentioned scheme, be equipped with two sets of draw-in grooves on the lock core cover, rotate to the lock car or flame-out after, just can extract when the key, when other positions, the lock core can not be extracted to the key, and the jack need not to overlap the lock core behind the draw-in groove intercommunication, save material and installation space, and the second round pin axle is inserted and is established in the jack that corresponds, and the lock core cover can not rotate, but its axial displacement can be followed to the lock core cover.

The utility model discloses a further setting is: the support is provided with a stay wire slider in a sliding manner, the support is provided with a sliding groove for the stay wire slider to slide, the rotating shaft is provided with a shifting block for driving the stay wire slider to move, the support is provided with a stay wire spring for driving the stay wire slider to reset, the stay wire slider is provided with a convex column, one end of the stay wire spring is sleeved on the convex column, and the other end of the stay wire spring is abutted against the side wall of the sliding groove.

Through adopting above-mentioned scheme, the slider of acting as go-between slides stably, when the lock core was not pressed to the lock body in, the shifting block corresponds the slider setting of acting as go-between, rotates the lock core and can drive the slider of acting as go-between and remove to open the case operation, the spring drive of acting as go-between slide automatic re-setting, simple structure, reasonable in design.

The present invention will be further described with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of the internal structure of the lock body;

FIG. 3 is a schematic view of a structure of the rotation shaft and the driving plate;

FIG. 4 is a schematic view of the matching structure of the first electromagnetic controller, the driving plate and the lock tongue;

FIG. 5 is a schematic structural view of the lock body;

FIG. 6 is a schematic view of the mating arrangement of the second solenoid control and the cylinder sleeve;

FIG. 7 is a schematic view of the engagement structure of the rotating shaft and the toggle member;

FIG. 8 is a schematic view of the mating structure of the driving plate, the bracket and the first electromagnetic controller;

FIG. 9 is a schematic structural view of a stent;

FIG. 10 is a schematic view of the lock cylinder;

FIG. 11 is a schematic cross-sectional view of a second solenoid control;

FIG. 12 is a schematic view of the construction of the cylinder sleeve;

FIG. 13 is a schematic view of the fitting structure of the wire pulling slider and the wire pulling spring.

Detailed Description

As shown in fig. 1-13, an ignition switch lock comprises a lock body 1, a knob 2, a lock cylinder 3, a rotating shaft 4 and a latch bolt assembly, wherein the lock cylinder 3 and the rotating shaft 4 are both rotatably disposed in the lock body 1, the knob 2 is connected with the lock cylinder 3 in an inserting manner in a linkage manner, the knob 2 is connected with the lock cylinder 3 in a linkage manner so that the knob 2 can drive the lock cylinder 3 to rotate and drive the lock cylinder 3 to move along the axial direction thereof, the rotating shaft 4 can move along the axial direction of the lock cylinder 3, the rotating shaft 4 is connected with the lock cylinder 3 in an inserting manner in a linkage manner, the rotating shaft 4 is connected with the lock cylinder 3 in a linkage manner so that the lock cylinder 3 can drive the rotating shaft 4 to rotate and drive the rotating shaft 4 to move, a rotor switch 5 is disposed at an end of the rotating shaft 4 far from the lock cylinder 3, the latch bolt assembly comprises a driving plate 61 and a latch bolt 62, the driving plate, the lock body 1 is internally provided with a containing cavity 11 for placing a first electromagnetic controller 7, the first electromagnetic controller 7 is provided with a first pin shaft 71, the first electromagnetic controller 7 is internally provided with a first coil 72, the first coil 72 is instantly electrified in a forward direction or a reverse direction to control the first pin shaft 71 to extend out or retract, the driving plate 61 is provided with a pin shaft hole 612, the end part of the first pin shaft 71 can be inserted into the pin shaft hole 612, the first pin shaft 71 drives the driving plate 61 to move so as to realize the telescopic movement of the bolt 62, the driving plate 61 is provided with a through hole 613 for the rotating shaft 4 to penetrate, the rotating shaft 4 is provided with an eccentric block 41, the driving plate 61 is provided with a first abutting block 614 which can be abutted and matched with the eccentric block 41, the eccentric block 41 is telescopically provided with a poking piece 81, the driving plate 61 is provided with a notch 615 for the poking piece 81 to insert, after the first electromagnetic controller 7 drives the bolt 62 to extend out, the lock core 3 clockwise rotates to drive the eccentric block 41, thereby retracting the latch bolt 62; the lock core 3 is pushed, the end part of the toggle piece 81 abuts against the side surface of the driving piece 61 and retracts into the eccentric block 41, the lock core 3 is rotated anticlockwise until the toggle piece 81 rotates to the notch 615, the toggle piece 81 extends out and is inserted into the notch 615, and at the moment, the rotating shaft 4 rotates clockwise to drive the toggle piece 81 to abut against the driving piece 61 so as to drive the bolt 62 to retract; at this time, the rotating shaft 4 rotates counterclockwise to drive the toggle member 81 to press the driving plate 61, so as to drive the latch bolt 62 to extend.

In this embodiment, a spring set capable of driving the lock cylinder 3 and the rotating shaft 4 to slide and reset is disposed in the lock body 1, the spring set includes a first reset spring 91 located between the lock cylinder 3 and the rotating shaft 4 and a second reset spring 92 located at an end portion of the rotating shaft 5 far from the lock cylinder 3, the rotating shaft 4 is further provided with a protrusion 42, a bracket 10 is fixedly disposed at an end of the lock body 1 far from the lock cylinder 3, the bracket 10 is connected to the lock body 1 by a screw or a snap-fit manner, the bracket 10 is provided with a rotating cavity 101 for the protrusion 42 to rotate, the rotating cavity 101 is provided with a first inclined hole 102 at a side close to the lock cylinder 3, the protrusion 3 is pushed, the protrusion 42 passes through the first inclined hole 102 and moves to the rotating cavity 101, the limiting structure is a limiting block 103 disposed on the rotating cavity 101, the limiting block 103 is located on a rotating track of the protrusion 42, when the protrusion 42 rotated to the rotating shaft, under the action of the spring group, the bump 42 is abutted to the limiting block 103 to limit the lock cylinder 3 and the rotating shaft 4, and the lock cylinder 3 and the rotating shaft 4 cannot slide under the action of the spring group to reset to the initial position.

In this embodiment, be equipped with on eccentric block 41 and place chamber 411, dial the round pin that moves 81 for setting up in placing chamber 411, still be equipped with round pin spring 82 in placing chamber 411, eccentric block 41 is keeping away from one side joint of dialling 82 in placing chamber 411 and is having a baffle 83, the conflict of round pin spring 82 one end is on the round pin, the other end is contradicted on baffle 83, be equipped with on the round pin and place the inconsistent spacing portion 811 of chamber 411 inner wall, consequently round pin spring 82 can drive the round pin and stretch out and place chamber 411, nevertheless the round pin can not break away from and place chamber 411.

In this embodiment, the rotation cavity 101 is provided with a second inclined hole 104 adapted to the shape of the protrusion 42 at a side close to the lock cylinder 3, and the first inclined hole 102 and the second inclined hole 104 are respectively located at two sides of the stopper 103.

In this embodiment, a rotating shaft installation cavity 12 for rotating the rotating shaft 4 is formed in the lock body 1, two second contact blocks 13 are arranged on the inner wall of the rotating shaft installation cavity 12, the eccentric block 41 of the rotating shaft 4 is arranged between the two second contact blocks 13, and the eccentric block 41 of the rotating shaft 4 is matched with the second contact blocks 13 to form a rotation limit of the lock cylinder 3.

In this embodiment, a blade groove 31 is formed in the key cylinder 3, a blade matched with a key is arranged in the blade groove 31, a cylinder sleeve a is sleeved on the outer periphery of the key cylinder 3, the cylinder sleeve a is rotatably arranged in the lock body 1, two sets of clamping grooves a1 matched with the blade are formed in the cylinder sleeve a, of course, two sets of clamping holes can be formed, the clamping grooves a1 are uniformly distributed along the circumferential direction of the cylinder sleeve a, when the key cylinder 3 is not inserted into a key matched with the key cylinder, the key cylinder 3 and the cylinder sleeve a are arranged in a linkage manner, the lock body 1 is also provided with a second electromagnetic controller B, the second electromagnetic controller B is provided with a second pin shaft B1, the second electromagnetic controller B1 is internally provided with a second coil B2 and a driving spring B3, the second coil B2 is electrified to suck up the second pin shaft B1 against the acting force of the driving spring B3, the second coil B2 is powered off, the second pin shaft B1 is extended out under the action of the driving spring B3, a jack a2 is formed, certainly, a slot can also be arranged, the jack a2 is communicated with the slot a1, the jack a2 is provided with a long hole, when the second pin shaft B1 is inserted into the jack a2, the lock cylinder sleeve a can move along the axial direction of the lock cylinder sleeve, the second pin shaft B1 is separated from the jack a2 of the lock cylinder sleeve a to unlock the lock cylinder 3, and the second pin shaft B1 is inserted into the jack a2 of the lock cylinder sleeve to lock the lock cylinder 3 in the circumferential direction.

In this embodiment, a stay wire slider C1 is slidably arranged on the support 10, a sliding groove 105 for allowing the stay wire slider C1 to slide is arranged on the support 10, a second shifting block 43 for driving the stay wire slider C1 to move is integrally arranged on the rotating shaft 4, a stay wire spring C2 for driving the stay wire slider C1 to reset is arranged on the support a, a convex column C11 is integrally arranged on the stay wire slider C1, one end of the stay wire spring C2 is sleeved on the convex column C11, the other end of the stay wire spring C2 abuts against a side wall of the sliding groove a1, and a stay wire hole 14 is further arranged on the lock body 1.

The above embodiment is only one of the preferred embodiments of the present invention, and the general changes and substitutions performed by those skilled in the art within the technical scope of the present invention are included in the protection scope of the present invention.

Claims (9)

1. The utility model provides an ignition switch lock, including lock body, knob, lock core, pivot and spring bolt subassembly, lock core and pivot are all rotated and are set up in the lock body, the knob is connected with the lock core linkage, and the pivot is connected with the lock core linkage, and the lock body is equipped with rotor switch in the pivot tip position of keeping away from lock core one side, and the spring bolt subassembly includes driver plate and spring bolt, and the driver plate is connected its characterized in that with the spring bolt: the lock body is provided with a first electromagnetic controller, the first electromagnetic controller is provided with a first pin shaft, the first electromagnetic controller can control the first pin shaft to stretch and move, the first pin shaft is connected with a driving sheet, the first pin shaft drives the driving sheet to move so as to realize the stretching and moving of the lock tongue, the driving sheet is provided with a through hole for the penetration of a rotating shaft, the rotating shaft is provided with an eccentric block, the driving sheet is provided with a first contact block which can be in contact fit with the eccentric block, the eccentric block is provided with a poking member in a stretching and pulling manner, the driving sheet is provided with a notch for the insertion of the poking member, and after the first electromagnetic controller drives the lock tongue to extend, the lock core rotates clockwise to drive the eccentric block of the rotating shaft to contact with the; the lock core is pushed, the end part of the poking piece abuts against the side face of the driving piece and retracts into the eccentric block, the lock core is rotated anticlockwise until the poking piece rotates to the notch, the poking piece extends out of the notch and is inserted into the notch, and at the moment, the rotating shaft rotates clockwise to drive the poking piece to abut against the driving piece so as to drive the lock tongue to retract; at the moment, the rotating shaft rotates anticlockwise to drive the poking piece to abut against the driving piece so as to drive the lock tongue to extend out.

2. The ignition switch lock of claim 1, wherein: the lock body is internally provided with a spring set which can drive the lock cylinder and the rotating shaft to slide and reset, and the lock body is internally provided with a limiting structure which limits the sliding and resetting of the lock cylinder and the rotating shaft in the process of driving the lock tongue to stretch and retract by the rotating shaft.

3. The ignition switch lock of claim 2, wherein: still be equipped with the lug in the pivot, the fixed support that is provided with in the one end of keeping away from the lock core on the lock body, be equipped with on the support and supply lug pivoted rotation chamber, rotate the chamber and be equipped with the first inclined hole with lug shape adaptation in the one side that is close to the lock core, promote the lock core, the lug passes first inclined hole and moves to and rotate chamber department, and limit structure is the stopper of setting on rotating the chamber, and the stopper is located the rotation orbit of lug, and when the pivot rotated to the lug on it and corresponds the stopper, the lug supports to locate the stopper under the effect of spring assembly and realizes spacing to lock core and pivot.

4. An ignition switch lock as defined in claim 1, 2 or 3, characterized in that: be equipped with on the eccentric block and place the chamber, dial the round pin that moves the piece and for setting up placing the intracavity, place the intracavity and still be equipped with the round pin spring, the eccentric block has the baffle at the opening part joint of placing the chamber, and round pin spring one end is contradicted on the round pin, and the other end is contradicted on the baffle, is equipped with on the round pin and places the inconsistent spacing portion of intracavity wall.

5. The ignition switch lock of claim 3, wherein: and a second inclined hole matched with the shape of the bump is formed in one side, close to the lock cylinder, of the rotating cavity, and the first inclined hole and the second inclined hole are respectively located on two sides of the limiting block.

6. An ignition switch lock as defined in claim 1, 2 or 3, characterized in that: be equipped with in the lock body and supply pivot pivoted pivot installation cavity, be provided with the second on the inner wall of pivot installation cavity and contradict the touch multitouch, the eccentric block of pivot and the cooperation of second touch multitouch constitute the rotation of lock core spacing.

7. An ignition switch lock as defined in claim 1, 2 or 3, characterized in that: the lock body is also provided with a second electromagnetic controller, the second electromagnetic controller is provided with a second pin shaft, the second electromagnetic controller can control the second pin shaft to stretch and move, the outer peripheral surface of the lock core sleeve is provided with a slot or an insertion hole, the second pin shaft is separated from the slot or the insertion hole of the lock core sleeve to unlock the lock core, and the second pin shaft is inserted into the slot or the insertion hole of the lock core sleeve to realize circumferential locking of the lock core.

8. The ignition switch lock of claim 7, wherein: the lock core sleeve is characterized in that two groups of clamping grooves are formed in the inner wall of the lock core sleeve, the clamping grooves are evenly distributed along the circumferential direction of the lock core sleeve, jacks are formed in the positions, corresponding to the clamping grooves, of the outer circumferential face of the lock core sleeve and communicated with the clamping grooves, and the jacks are formed in long holes, so that when the second pin shaft is inserted into the jacks, the lock core sleeve can move axially.

9. The ignition switch lock according to claim 3 or 5, characterized in that: the support is provided with a stay wire slider in a sliding manner, the support is provided with a sliding groove for the stay wire slider to slide, the rotating shaft is provided with a shifting block for driving the stay wire slider to move, the support is provided with a stay wire spring for driving the stay wire slider to reset, the stay wire slider is provided with a convex column, one end of the stay wire spring is sleeved on the convex column, and the other end of the stay wire spring is abutted against the side wall of the sliding groove.

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