CN110439379A - Electronic lock - Google Patents

Abstract

The present invention provides a kind of electronic locks.Electronic lock includes lock body, deadlock lever and locked component, and at least part of deadlock lever is movably disposed in lock body, with locked position of coupler and unlocked position when deadlock lever is axially moved with sliding slot, and deadlock lever along it；Locked component is movably arranged in lock body, and locked component includes: elongated insertion part, and elongated insertion part is always positioned in sliding slot, and when deadlock lever is in locked position of coupler and unlocked position, elongated insertion part is located at both ends of the sliding slot in the axial direction of deadlock lever；Rotation section, rotation section and elongated insertion part connect far from one end of deadlock lever and are able to drive elongated insertion part rotation, and when elongated insertion part is located at both ends of the sliding slot in the axial direction of deadlock lever, elongated insertion part and sliding slot are clamped, and rotation section is dallied and elongated insertion part remains stationary.The present invention solves the problems, such as that the service performance of electronic lock in the prior art is poor.

Description

Electronic lock

Technical field

The present invention relates to field of lockset, in particular to a kind of electronic lock

Background technique

There are large number of, widely distributed equipment machine room in the departments such as electric power, communication, this important place door is closed Lock proposes higher requirement to safety, but use environment is more severe, traditional mechanical lock there are functional limitations big, solution Locking device is easy the disadvantages of being replicated, and is unable to satisfy requirement.

Element electrically driven for existing passive electronic lock largely uses solenoid, leads to existing passive electronic lock Anti- percussion unlocking ability is poor, at high cost.And for the electronic lock using decelerating motor, usually exist and is unlocking or be latched Occurs the phenomenon that turning to decelerating motor card in journey.

Therefore, the problem of the service performance difference of electronic lock exists in the prior art.

Summary of the invention

The main purpose of the present invention is to provide a kind of electronic locks, to solve the usability of electronic lock in the prior art The problem of energy difference.

To achieve the goals above, according to an aspect of the invention, there is provided a kind of electronic lock includes lock body, locking At least part of bar and locked component, deadlock lever is movably disposed in lock body, and deadlock lever has sliding slot, and deadlock lever edge It is axially moved when have locked position of coupler and unlocked position, and sliding slot have so that deadlock lever is maintained at locked position of coupler and unlocked position The first holding position and the second holding position；Locked component is movably arranged in lock body, and locked component includes: elongated insertion part, elongated insertion part It is always positioned in sliding slot, when deadlock lever is in locked position of coupler, elongated insertion part is located at the one end of sliding slot in the axial direction of deadlock lever, when When deadlock lever is in the unlocked position, elongated insertion part is located at the other end of the sliding slot in the axial direction of deadlock lever；Rotation section, rotation section and lock Determine head to connect far from one end of deadlock lever and be able to drive elongated insertion part rotation, when elongated insertion part is located at sliding slot in the axial direction of deadlock lever Any end when, elongated insertion part and sliding slot are clamped, rotation section idle running and elongated insertion part remains stationary.

Further, rotation section includes: rotor；Restraining structure, elongated insertion part are connect by restraining structure with rotor, when When elongated insertion part is not by external force pressure, the restrained structural constraint of elongated insertion part, so that rotor drives restraining structure synchronous with elongated insertion part Rotation, when external force pressure of the elongated insertion part by sliding slot, restraining structure releases the constraint to elongated insertion part, rotor only band moving constraint Structure rotation.

Further, elongated insertion part is provided with accommodation groove far from one end of deadlock lever, and rotor includes: driving motor；Clutch Inner ring, driving motor and clutch inner ring are drivingly connected, and clutch inner ring is arranged in accommodation groove, restraining structure setting elongated insertion part with Between clutch inner ring.

Further, restraining structure includes the circumferentially spaced multiple groups reset assembly along clutch inner ring, and each group resets Component includes the spring and steel ball mutually abutted, and the periphery wall of clutch inner ring has the circular groove of retaining spring, locking The surface of head towards clutch inner ring side has lock groove, and steel ball can extend into lock groove under the action of the spring.

Further, elongated insertion part includes: body part, and body part has accommodation groove for accommodating rotation section；Lug boss, it is convex The portion of rising is arranged in one end of the separate rotation section of body part and protrudes into sliding slot always, and lug boss deviates in the rotation of rotation section Heart setting.

Further, sliding slot includes sequentially connected locking groove section, the first link slot section, solution locked groove section and the second link slot Section, and locking groove section reconciliation locked groove section is located at both ends of the sliding slot in the axial direction of deadlock lever, the first link slot section and the second connection Slot section along the axially extending of deadlock lever, and a part of the cell wall of locking groove section be directed away from solution locked groove section direction it is recessed with The first holding position is formed, the direction that a part of the cell wall of solution locked groove section is directed away from locking groove section is recessed to form the second holding Position, when elongated insertion part is located at the first link slot section and the second link slot section (214), rotation section idle running.

Further, sliding slot includes sequentially connected Locked segment, linkage section and unlock section, and Locked segment and unlock section, which are located at, to be slided Both ends of the slot in the axial direction of deadlock lever, and it is respectively provided with the first holding position and the second holding position；Axis of the linkage section along deadlock lever To extension, and Locked segment and unlock section are arc-shaped, and linkage section is linear type, when elongated insertion part is located at linkage section, rotation section idle running.

Further, the groove width of locking groove section and/or solution locked groove section at the first holding position and/or the second holding position is greater than Sliding slot is removing the first holding position and the second holding position with the groove width at external position.

Further, the lateral wall of deadlock lever also have be connected to the first holding position of sliding slot or the second holding position it is urgent Solve locked groove.

Further, electronic lock further include: mounting base, mounting base are arranged inside lock body；Rotation stop pin, the setting of rotation stop pin Inside mounting base, and at least part of rotation stop pin can be stretched out by mounting base and enter emergency release slot；Drive rod, driving One end of bar protrude into mounting base and with rotation stop pin connection, and drive rod is able to drive the rotation of rotation stop pin, so that rotation stop pin can Protrude into or remove emergency release slot；Return unit, the one end of rotation stop pin far from emergency release slot is arranged in return unit, when rotation stop pins position When in emergency release slot, return unit can compress rotation stop pin；Gear-stopping bar, drive rod are tight with cooperating with emergency release key Anxious solution lock-bit, gear-stopping bar is movably arranged at emergency release position, when gear-stopping bar is far from emergency release position, emergency release key energy The cooperation of enough and drive rod is to carry out emergency release.

Further, the lateral wall of deadlock lever also has limiting slot, and the limit with limiting slot cooperation is additionally provided with inside lock body Position screw.

Further, detection components are additionally provided with inside lock body, deadlock lever is internally provided with inductive component, when deadlock lever by When locked position of coupler is moved to unlocked position, detection components are no longer able to detect that inductive component, electronic lock receive unlock in place Signal；When deadlock lever is moved to locked position of coupler by unlocked position, detection components are corresponding with inductive component, and electronic lock receives It is latched signal in place.

It applies the technical scheme of the present invention, the electronic lock in the application includes lock body, deadlock lever and locked component, locking At least part of bar is movably disposed in lock body, deadlock lever have sliding slot, and deadlock lever along its axial movement when have Locked position of coupler and unlocked position, and sliding slot has the first holding position for making deadlock lever be maintained at locked position of coupler and unlocked position and the Two holding positions；Locked component is movably arranged in lock body, and locked component includes: elongated insertion part, and elongated insertion part is always positioned in sliding slot, when When deadlock lever is in locked position of coupler, elongated insertion part is located at the one end of sliding slot in the axial direction of deadlock lever, when deadlock lever is in solution lock-bit When setting, elongated insertion part is located at the other end of the sliding slot in the axial direction of deadlock lever；Rotation section, rotation section and elongated insertion part are far from deadlock lever One end connects and is able to drive elongated insertion part rotation, when elongated insertion part is located at any end of the sliding slot in the axial direction of deadlock lever, lock Determine head and sliding slot is clamped, rotation section is dallied and elongated insertion part remains stationary.

Using above structure electronic lock when, when deadlock lever switches between locked position of coupler and unlocked position, lock The elongated insertion part for determining component switches at the both ends of the sliding slot of deadlock lever, so as to guarantee deadlock lever be maintained at locked position of coupler or Person's unlocked position.When elongated insertion part changes with respect to the position of sliding slot, rotation section is able to drive elongated insertion part rotation, and due to when lock When determining head and being located at the both ends of sliding slot, remaining stationary in elongated insertion part makes, and rotation section is able to carry out idle running, so in this way can be to rotation Portion itself plays a protective role.Therefore, the electronic lock in the application efficiently solves making for electronic lock in the prior art With the problem of performance difference.

Detailed description of the invention

The accompanying drawings constituting a part of this application is used to provide further understanding of the present invention, and of the invention shows Examples and descriptions thereof are used to explain the present invention for meaning property, does not constitute improper limitations of the present invention.In the accompanying drawings:

Fig. 1 shows the structural schematic diagram of the electronic lock of a specific embodiment according to the present invention；

Structural schematic diagram after being opened Fig. 2 shows the cover board of the electronic lock in Fig. 1；

Fig. 3 shows the explosive view of the electronic lock in Fig. 1；

Fig. 4 shows the structural schematic diagram of the deadlock lever of the electronic lock in Fig. 1；

Fig. 5 shows the main view of the deadlock lever of the electronic lock in Fig. 4；

Fig. 6 shows the positional diagram between the emergency release slot of the deadlock lever in Fig. 4 and limiting slot；

Fig. 7 shows the positional relationship of rotation stop pin and emergency release slot when the deadlock lever in Fig. 4 is in locked position of coupler and illustrates Figure；

Fig. 8 shows the explosive view of the deadlock lever of Fig. 7, locked component and rotation stop pin；

Fig. 9 shows the positional diagram of lug boss and deadlock lever when the deadlock lever in Fig. 7 is in locked position of coupler；

Figure 10 shows the deadlock lever in Fig. 4 and switches to lug boss and deadlock lever during unlocked position by locked position of coupler Positional diagram；

Figure 11 shows the positional diagram of lug boss and deadlock lever when the deadlock lever in Fig. 4 is in the unlocked position；

Figure 12 shows the deadlock lever in Fig. 4 and switches to lug boss and deadlock lever during locked position of coupler by unlocked position Positional diagram；

Figure 13 shows the positional diagram in the application between the locked component and drive rod of electronic lock；

When the deadlock lever that Figure 14 shows electronic lock in the application is in locked position of coupler between stop screw and limiting slot Positional diagram；

The limit when deadlock lever that Figure 15 shows electronic lock in the application switches from locked position of coupler to emergency release position Positional diagram between screw and limiting slot；

Figure 16 shows the positional diagram between Figure 15 protrusions portion and emergency release slot；

Stop screw and limiting slot when being in emergency release position Figure 17 shows the deadlock lever of electronic lock in the application Between positional diagram；

Figure 18 shows the positional diagram between Figure 17 protrusions portion and limiting slot.

Wherein, the above drawings include the following reference numerals:

10, lock body；11, key socket；20, deadlock lever；21, sliding slot；211, locking groove section；212, the first link slot section； 213, locked groove section is solved；214, the second link slot section；215, the first holding position；216, the second holding position；217, the first stopper protrusion； 218, the second stopper protrusion；22, emergency release slot；221, first segment；222, second segment；23, limiting slot；30, locked component； 31, elongated insertion part；311, lock groove；312, body part；313, accommodation groove；314, lug boss；32, rotation section；321, rotor； 3211, driving motor；3212, clutch inner ring；3213, circular groove；322, restraining structure；3221, spring；3222, steel ball； 40, stop screw；50, mounting base；60, return unit；70, drive rod；80, gear-stopping bar；90, cover board；100, lock core component；200, Rotation stop pin.

Specific embodiment

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase Mutually combination.The present invention will be described in detail below with reference to the accompanying drawings and embodiments.

It should be pointed out that unless otherwise specified, all technical and scientific terms used in this application have and the application The normally understood identical meanings of person of an ordinary skill in the technical field.

In the present invention, in the absence of explanation to the contrary, the noun of locality used such as " upper and lower, top, bottom " is usually needle For direction shown in the drawings, or for component itself is on vertical, vertical or gravity direction；Equally Ground for ease of understanding and describes, and " inside and outside " refers to the inside and outside of the profile relative to each component itself, but the above-mentioned noun of locality is not For limiting the present invention.

Service performance in order to solve the problems, such as electronic lock in the prior art is poor, and this application provides a kind of electronic gates Lock.

As shown in Fig. 1 to Figure 18, the electronic lock in the application includes lock body 10, deadlock lever 20 and locked component 30, is closed At least part of locking bar 20 is movably disposed in lock body 10, and deadlock lever 20 has sliding slot 21, and deadlock lever 20 is along its axis To movement when have locked position of coupler and unlocked position, and sliding slot 21 have so that deadlock lever 20 is maintained at locked position of coupler and unlocked position The first holding position 215 and the second holding position 216；Locked component 30 is movably arranged in lock body 10, and locked component 30 includes: lock Determine first 31, elongated insertion part 31 is always positioned in sliding slot 21, and when deadlock lever 20 is in locked position of coupler, elongated insertion part 31 is located at sliding slot 21 and exists One end in the axial direction of deadlock lever 20, when deadlock lever 20 is in the unlocked position, elongated insertion part 31 is located at sliding slot 21 in deadlock lever 20 Axial direction on other end rotation section 32, rotation section 32 connect far from one end of deadlock lever 20 with elongated insertion part 31 and is able to drive lock Determine first 31 rotation, when elongated insertion part 31 is located at any end of the sliding slot 21 in the axial direction of deadlock lever 20, elongated insertion part 31 and sliding slot 21 clampings, rotation section 32 is dallied and elongated insertion part 31 remains stationary.

Using above structure electronic lock when, when deadlock lever 20 switches between locked position of coupler and unlocked position, The elongated insertion part 31 of locked component 30 switches at the both ends of the sliding slot 21 of deadlock lever 20, so as to guarantee that deadlock lever 20 is kept In locked position of coupler or unlocked position.When elongated insertion part 31 changes with respect to the position of sliding slot 21, rotation section 32 is able to drive lock Determine first 31 rotation, and when the both ends due to being located at sliding slot 21 when elongated insertion part 31, when elongated insertion part 31 remains stationary, 32 energy of rotation section It enough dallies, so itself can play a protective role to rotation section 32 in this way.Therefore, the electronic lock in the application is effective Ground solves the problems, such as that the service performance of electronic lock in the prior art is poor.

As shown in figure 3, rotation section 32 includes rotor 321 and restraining structure 322.Elongated insertion part 31 passes through restraining structure 322 It is connect with rotor 321, when elongated insertion part 31 is not by external force pressure, the restrained structure 322 of elongated insertion part 31 constraint, so that rotor 321 drive restraining structures 322 and elongated insertion part 31 to rotate synchronously, when external force pressure of the elongated insertion part 31 by sliding slot 21, about binding Structure 322 releases the constraint to elongated insertion part 31, and rotor 321 only drives restraining structure 322 to rotate.It is arranged in this way, Neng Goubao Card is when elongated insertion part 31 by external force when being influenced without being able to rotate, and restraining structure 322 contacts the constraint to elongated insertion part 31, to realize The idle running of rotor 321, and then the stuck phenomenon of rotor 321 can be effectively prevented from.And rotor 321 not by external force and It, can be under the action of restraining structure 322, so that rotor 321 between elongated insertion part 31 and rotor 321 when being able to carry out rotation Elongated insertion part 31 is able to drive to rotate together.

It should be noted that elongated insertion part 31 can carry out deadlock lever 20 when elongated insertion part 31 is located at the both ends of sliding slot 21 Effect, so that deadlock lever 20 is maintained at locked position of coupler or unlocked position.Also, in the process, deadlock lever 20 equally can be with Elongated insertion part 31 is limited.Therefore, when deadlock lever 20 is maintained at locked position of coupler or unlocked position, elongated insertion part 31 be will receive The effect of deadlock lever 20 and remain stationary, thus make rotation section 32 dally.

As shown in figure 8, elongated insertion part 31 is provided with accommodation groove 313 far from one end of deadlock lever 20, rotor 321 includes driving Motor 3211 and clutch inner ring 3212.Driving motor 3211 and clutch inner ring 3212 are drivingly connected, and the setting of clutch inner ring 3212 exists In accommodation groove 313, restraining structure 322 is arranged between elongated insertion part 31 and clutch inner ring 3212.It is arranged in this way, works as elongated insertion part 31 when not suffering oppression and can rotate, and driving motor 3211 drives clutch inner ring 3212 to rotate, and in the effect of restraining structure 322 Under, clutch inner ring 3212 drives elongated insertion part 31 to rotate.And when elongated insertion part 31 is not able to rotate, driving motor 3211 drives in clutch Ring 3212 rotates in accommodation groove 313, and restraining structure 322 rotates together with clutch inner ring 3212 at this time.

Specifically, restraining structure 322 includes the circumferentially spaced multiple groups reset assembly along clutch inner ring 3212, each group Reset assembly includes the spring 3221 and steel ball 3222 mutually abutted, and the periphery wall of clutch inner ring 3212 has retaining spring The surface of 3221 circular groove 3213, elongated insertion part 31 towards 3212 side of clutch inner ring has lock groove 311, and steel ball 3222 exists It can extend under the action of spring 3221 in lock groove 311.It is arranged in this way, one end energy of the spring 3221 far from steel ball 3222 Enough protrude into inside circular groove 3213, and spring 3221 close to one end of steel ball 3222 from circular groove 3213 to elongated insertion part 31 It is stretched out towards the surface of 3212 side of clutch inner ring.When elongated insertion part 31 is not able to rotate, clutch inner ring 3212 is in driving motor It is able to drive spring 3221 under the action of 3211 and steel ball 3222 rotates in accommodation groove 313.And when elongated insertion part 31 can rotate When, a part of steel ball 3222 can enter lock groove 311 with the rotation of clutch inner ring 3212, and elongated insertion part 31 is driven to turn together It is dynamic.Also, a part of steel ball 3222 can be always held in lock groove 311 during elongated insertion part 31 rotates, to protect Demonstrate,prove the synchronous rotation of elongated insertion part 31 and clutch inner ring 3212.

As shown in figure 8, reset assembly is three groups, and clutch inner ring 3212 in the specific embodiment of the application Periphery wall there is equally distributed three circular grooves 3213, there are three lock grooves 311 for same elongated insertion part 31 tool.

And it is not able to rotate it should be noted that working as elongated insertion part 31, and clutch inner ring 3212 drives restraining structure 322 holding When setting rotation in slot 313, since steel ball 3222 in the process is constantly into and out lock groove 311.So turning to reduce Resistance when dynamic portion 32 dallies, needs for lock groove 311 to be arranged to arc groove, i.e. lock groove 311 and elongated insertion part 31 is towards clutch It is rounding off between the surface of 3212 side of inner ring.

Specifically, elongated insertion part 31 includes body part 312 and lug boss 314.Body part 312 has accommodation groove 313 to be used for Accommodate rotation section 32；Lug boss 314 is arranged in one end of the separate rotation section 32 of body part 312 and is protruded into sliding slot 21 always, And lug boss 314 deviates the center of rotation setting of rotation section 32.In this way, when deadlock lever 20 is in locked position of coupler and unlocked position Between when switching over, rotation section 32 is able to drive the rotation of body part 312.Again since lug boss 314 deviates turning for rotation section 32 Dynamic center setting, so lug boss 314 can be rotated relative to sliding slot 21 when body part 312 rotates, can make deadlock lever 20 into Line position sets switching.

It should be noted that the accommodation groove 313 in body part 312 among the above is not all to hold entire rotation section 32 It receives, but only accommodates the restraining structure 322 and clutch inner ring 3212 of rotation section 32.

And it is further desired that, it is noted that in the application be driving motor 3211 usually select decelerating motor.

As shown in Fig. 9 to Figure 12, sliding slot 21 is in runway circle shape in this application.It is arranged in this way, when deadlock lever 20 exists When switching between locked position of coupler and unlocked position, the lug boss 314 of elongated insertion part 31 is always positioned in sliding slot 21, and is closed relatively Locking bar 20 does unidirectional operation in sliding slot 21, that is to say, that along runway circle shape sliding slot 21 always clockwise or counter-clockwise Movement.

Optionally, sliding slot 21 includes sequentially connected Locked segment, linkage section and unlock section, and Locked segment and unlock section, which are located at, to be slided Both ends of the slot 21 in the axial direction of deadlock lever 20, and it is respectively provided with the first holding position 215 and the second holding position 216；Linkage section edge Deadlock lever 20 it is axially extending, and Locked segment and unlock section it is arc-shaped, linkage section is linear type, and elongated insertion part 31 is located at linkage section When, rotation section 32 is dallied.When setting sliding slot 21 in this way, the needs of driving motor 3211 have the function of to rotate and reverse.

It should be pointed out that in this application, although sliding slot 21 is in runway circle shape, sliding slot 21 is not to be wound around to close In the circumferential direction of locking bar 20, but along the axially extending of deadlock lever 20.That is in runway circle shape there are two o'clock, this The line of two points is parallel with the length direction of deadlock lever 20.

As shown in Fig. 9 to Figure 12, sliding slot 21 includes sequentially connected locking groove section 211, the first link slot section 212, unlock Slot section 213 and the second link slot section 214, and locking groove section 211 conciliates locked groove section 213 and is located at sliding slot 21 in the axial direction of deadlock lever 20 On both ends, the first link slot section 212 and the second link slot section 214 are along the axially extending of deadlock lever 20, and locking groove section 211 The direction that a part of cell wall is directed away from solution locked groove section 213 is recessed to form the first holding position 215, solves the slot of locked groove section 213 The direction that a part of wall is directed away from locking groove section 211 is recessed to form the second holding position 216, and elongated insertion part 31 is located at first and connects When access slot section 212 and the second link slot section 214, rotation section 32 is dallied.It is arranged in this way, when the lug boss 314 of elongated insertion part 31 When positioned at the first holding position 215, deadlock lever 20 can be made to be maintained at locked position of coupler, and deadlock lever 20 passes through the first holding position 215 pairs of elongated insertion parts 31 limit, and elongated insertion part 31 cannot be rotated with rotation section 32.Same lug boss 314 for working as elongated insertion part 31 When the second holding position 216, deadlock lever 20 can be made to be maintained at unlocked position, and deadlock lever 20 passes through the second holding position 216 Elongated insertion part 31 is limited, elongated insertion part 31 cannot be rotated with rotation section 32.

Certainly, the first holding position 215 can also be located at the middle position of locking groove section 211, same second holding position 216 The middle position of solution locked groove section 213 can also be located at, as long as deadlock lever 20 can be made to be maintained at unlocked position or locked position of coupler .

It should be noted that, although the lug boss 314 when elongated insertion part 31 is set and the second holding position in the first holding position 215 216 when setting, and lug boss 314 opposite with deadlock lever 20 can act on.But when needing the position to deadlock lever 20 to switch over When, deadlock lever 20 can make elongated insertion part 31 remove the first holding position 215 or the second holding position 216 under the effect of external force, but Elongated insertion part 31 is still located on locking groove section 211 or solution locked groove section 213 at this time, that is to say, that deadlock lever 20, which is still within, at this time closes Lock position or unlocked position.At this point, electronic lock is unlocked or is latched by using the key to match, just can So that driving motor 3211 starts, so as to make to be moved to the first company by locking groove section 211 or solution locked groove section 213 than tapered end Access slot section 212 or the second link slot section 214.

It should also be noted that, elongated insertion part 31 only can switch to first by locking groove section 211 or solution locked groove section 213 It can be rotated with rotation section 32 when link slot section 212 or the second link slot section 214, be that rotation section 32 is dallied in the case of other.

Specifically, locking groove section 211 and/or solution locked groove section 213 are at the first holding position 215 and/or the second holding position 216 Groove width be greater than sliding slot 21 except the first holding position 215 and the second holding position 216 are with the groove width at external position.It sets in this way It sets, lug boss 314 can be allow when being located at the first holding position 215 or the second holding position 216 of sliding slot 21 and deadlock lever 20 interactions, and make mutually to be limited between lug boss 314 and deadlock lever 20.

Specifically, sliding slot 21 further includes the first stopper protrusion 217 and the second stopper protrusion 218, in the sliding slot of runway circle shape 21 inner ring side wall has the first concave portion at the first holding position 215, along motion profile of the elongated insertion part 31 in sliding slot 21, the The edge away from 31 direction of motion side of elongated insertion part of the first holding position 215 is arranged in one stopper protrusion 217；In runway circle shape Sliding slot 21 inner ring side wall at the second holding position 216 have the second concave portion, along movement of the elongated insertion part 31 in sliding slot 21 The edge away from 31 direction of motion side of elongated insertion part of the second holding position 216 is arranged in track, the second stopper protrusion 218.It is logical It crosses in this way, can guarantee that lug boss 314 during opposite sliding slot 21 moves, can be transported always along the same direction Dynamic, i.e. for lug boss 314 when opposite sliding slot 21 moves, motion path is fixed as locking groove section 211, the first link slot section 212, solution The circulation either motion path that locked groove section 213, the second link slot section 214 eventually pass back to locking groove section 211 is fixed as locking groove The 211, second link slot section 214 of section, solution locked groove section 213, the first link slot section 212 eventually pass back to the circulation of locking groove section 211.And And be arranged in this way, when lug boss 314 leave the first holding position 215 or the second holding position 216 and by locking groove section 211 or When person's solution locked groove section 213 enters the first link slot section 212 or the second link slot section 214, lug boss 314 can be by the first holding position 215 or second holding position 216 be introduced into the first concave portion or the second concave portion, it is then raised under the action of rotation section 32 Portion 314 is by locking groove section 211 or solves 213 rotary motion of locked groove section to the first link slot section 212 or the second link slot section 214。

Optionally, in the outer ring side wall of the sliding slot 21 of runway circle shape in the first holding position 215 and/or the second holding position 216 Place has third concave portion.

As shown in Figure 4 and Figure 6, the lateral wall of deadlock lever 20 also has protects with the first holding position 215 or second of sliding slot 21 Hold the emergency release slot 22 of the connection of position 216.Also, lug boss 314 can be by third concave portion by the first holding position 215 or the Two holding positions 216 enter emergency release slot 22.

The first holding position 215 is located at locking groove section 211, and and emergency release in the specific embodiment of the application Slot 22 connects.

And emergency release slot 22 is connected to locking groove section 211, and deadlock lever 20 also has emergency release position.Work as lug boss 314 when being moved to emergency release slot 22 by locking groove section 211, and deadlock lever 20 can be switched to evacuation solution lock-bit by locked position of coupler It sets；When lug boss 314 is moved to locking groove section 211 by emergency release slot 22, deadlock lever 20 can be cut by emergency release position Shift to locked position of coupler.

Specifically, emergency release slot 22 has first segment 221 and second segment 222, and first segment 221 and locking groove section 211 connections, the extending direction of second segment 222 are identical as the extending direction of the first link slot section 212.

It may also be noted that the first link slot section 212 is identical as the length of the second link slot section 214 in this application, And the length of the second segment 222 of emergency release slot 22 is greater than the length of the first link slot section 212.Also, the first link slot section 212 are arranged between second segment 222 and the second link slot section 214.

It should also be noted that, when lug boss 314 is moved to first segment 221 by locking groove section 211 with respect to deadlock lever 20, It needs to turn an angle deadlock lever 20.Also, in the specific embodiment of the application, the angle of rotation is 90 degree. That is first segment 221 is the segmental arc along the circumferentially extending of deadlock lever 20, and the radian of first segment 221 is 90 degree.

Certainly, according to actual service condition, the radian of first segment 221 can also be arranged to other values.

Also, electronic lock in this application further includes rotation stop pin 200, and rotation stop pin 200 is arranged in lock body 10, and only Ship and resell on another market 200 can relative to deadlock lever 20 rotate with protrude into second segment 222 or be detached from second segment 222.By the way that 200 energy of rotation stop pin is arranged Enough prevent deadlock lever 20 from being rotated in normal use process.I.e. when needing to carry out emergency release to electronic lock, only It ships and resell on another market after 200 disengaging second segments 222, deadlock lever 20 can be switched to emergency release position by locked position of coupler.

Certainly, in this application, electronic lock further includes the mounting base 50 and drive rod 70 being arranged in inside lock body 10.And And rotation stop pin 200 is movably arranged in mounting base 50, one end of rotation stop pin 200 is protruding by mounting base 50, and stretch out One end is able to enter second segment 222 or leaves second segment 222.One end of drive rod 70 protrude into mounting base 50 and with rotation stop pin 200 connections.When carrying out emergency release, emergency release key is able to drive the rotation of drive rod 70, so that rotation stop pin 200 be driven to move It is dynamic, and then deadlock lever 20 is made to switch to emergency release position by locked position of coupler.

As shown in figure 13, the electronic lock in the application also has gear-stopping bar 80, and a part of gear-stopping bar 80 protrudes into lock Inside body 10, and backstop is in the one end of drive rod 70 far from rotation stop pin 200.In the specific use process, only by gear-stopping bar 80 when detaching lock body 10, can use emergency release key that drive rod 70 is driven to rotate.If not by gear-stopping bar 80 from lock body 10 It detaches, gear-stopping bar 80 is by backstop between emergency release key and drive rod 70, therefore emergency release key cannot drive drive Lever 70 rotates.

It should be noted that rotation stop pin 200 is additionally provided with return unit 60 far from one end of deadlock lever 20, return unit 60 is arranged In the one end of rotation stop pin 200 far from emergency release slot 22, when deadlock lever 20 switches to emergency release position, by making rotation stop pin 200 reenter second segment 222, and deadlock lever 20 can be made to be maintained at emergency release position under the action of return unit 60.

As shown in Figure 14 to Figure 18, the lateral wall of deadlock lever 20 also has limiting slot 23, be additionally provided with inside lock body 10 with The stop screw 40 that limiting slot 23 cooperates.

Also, limiting slot 23 is in U-shape and has sequentially connected first limit section, the second limit section and third limit section. The length of first limit section is identical with the length of third limit section and is greater than the length of the first link slot section 212.When deadlock lever 20 When switching between locked position of coupler and unlocked position, stop screw 40 moves in the first limit section；When deadlock lever 20 rotates simultaneously And when switching to emergency release position by locked position of coupler, stop screw 40 is moved to by the first limit section and by the second limit section Third limits section.

Specifically, detection components are additionally provided with inside lock body 10, deadlock lever 20 is internally provided with inductive component, works as deadlock lever 20 when being moved to unlocked position by locked position of coupler, and detection components are no longer able to detect that inductive component, electronic lock receive unlock Signal in place；When deadlock lever 20 is moved to locked position of coupler by unlocked position, detection components are corresponding with inductive component, electronic gate Interlocking receives locking signal in place.

In this application, electronic lock further includes key socket 11, lock core component 100 and cover board 90.Key socket 11 is set It sets on lock body 10；Cover board 90 can cover the part of lock body 10.The part of covering includes that deadlock lever is arranged in lock body 10 20 position, the setting position of key socket 11 and lock core component 100.It is arranged in this way, it can be by cover board 90 to key Spoon socket 11, lock core component 100 and deadlock lever 20 are protected.

In the specific embodiment of the application, deadlock lever 20 is disposed longitudinally on inside lock body 10 with respect to lock body 10.

In this application, electronic lock can carry out normal release or emergency release, normal when carrying out to electronic lock When unlock, the key used can be at least one of computer key or mechanical key.

When unlock, lock pin component 100 is solved first, cover board 90 is turned to open position from closed position, cover board 90 is not Key socket 11 and deadlock lever 20 are covered again, computer key is inserted into key socket 11, and computer key reads electronic gate code-locked Value, code value is correct, then electron door lock is powered, and to drive driving motor 3211 to rotate, driving motor 3211 drives clutch inner ring 3212 rotations, since the lug boss 314 of elongated insertion part 31 is fastened in locking groove section 211, steel ball 3222 overcomes the bullet of spring 3221 Spring force effect runs off lock groove 311, clutch inner ring 3212 with respect to 31 rotary motion of elongated insertion part, i.e., elongated insertion part 31 remain stationary and from Inner ring 3212 is closed to dally；At this point, deadlock lever 20 is pulled manually, deadlock lever 20 is mobile from locked position of coupler toward unlocked position direction, Lug boss 314 leaves locking groove section 211, and since the no longer stop lockup head 31 of locking groove section 211 moves, elongated insertion part 31 is in spring By under the effect of the frictional force of elongated insertion part 31 and clutch inner ring 3212 under 3221 spring-force driven dual, clutch inner ring 3212 can band Dynamic elongated insertion part 31 rotates together, so that lug boss 314 rotates and enters the first link slot section 212, due to the first link slot section 212 Side wall stopper protrusion portion 314 under the action of, elongated insertion part 31 can not be rotated relative to lock body 10, elongated insertion part 31 enter disengaged position, Clutch inner ring 3212 dallies；When lug boss 314 leaves the first link slot section 212, clutch inner ring 3212 drives 31 turns of elongated insertion part It moves hence into solution locked groove section 213, so that lug boss 314 can limit deadlock lever 20, is maintained at deadlock lever 20 Unlocked position, and stop operating more than driving motor 3211 after the predetermined time.

When locking, lock pin component 100 is solved first, cover board 90 is turned to open position from closed position, cover board 90 is not Key socket 11 and deadlock lever 20 are covered again, computer key is inserted into key socket 11, and computer key reads electronic gate code-locked Value, code value is correct, then electron door lock is powered, and to drive driving motor 3211 to rotate, driving motor 3211 drives clutch inner ring 3212 rotations, since the lug boss 314 of elongated insertion part 31 is fastened in solution locked groove section 213, steel ball 3222 overcomes the bullet of spring 3221 Spring force effect runs off lock groove 311, clutch inner ring 3212 with respect to 31 rotary motion of elongated insertion part, i.e., elongated insertion part 31 remain stationary and from Inner ring 3212 is closed to dally；At this point, deadlock lever 20 is pulled manually, deadlock lever 20 is mobile from unlocked position toward locked position of coupler direction, Lug boss 314 leaves solution locked groove section 213, and since solution locked groove section 213 no longer stop lockup head 31 moves, elongated insertion part 31 is in spring By under the effect of the frictional force of elongated insertion part 31 and clutch inner ring 3212 under 3221 spring-force driven dual, clutch inner ring 3212 can band Dynamic elongated insertion part 31 rotates together, so that lug boss 314 rotates and enters the second link slot section 214, due to the second link slot section 214 Side wall stopper protrusion portion 314 under the action of, elongated insertion part 31 can not be rotated relative to lock body 10, elongated insertion part 31 enter disengaged position, Clutch inner ring 3212 dallies；When lug boss 314 leaves the second link slot section 214, clutch inner ring 3212 drives 31 turns of elongated insertion part It moves hence into locking groove section 211, so that lug boss 314 can limit deadlock lever 20, is maintained at deadlock lever 20 Locked position of coupler, and stop operating more than driving motor 3211 after the predetermined time.

When emergency release, lock pin component 100 is solved first, cover board 90 is turned to open position, cover board from closed position 90 no longer cover deadlock lever 20 and gear-stopping bar 80, gear-stopping bar 80 are taken out, the bar portion of gear-stopping bar 80 no longer backstop is in emergency release On the insertion path of key, at this point, emergency release key is plugged on drive rod 70 and rotates emergency release key to drive Drive rod 70 rotates, so that rotation stop pin 200 be driven to move to evacuation position by restraining position；When the end of rotation stop pin 200 no longer When being fastened in emergency release slot 22, the rotation stop limit to deadlock lever 20 is relieved.Later, 20 predetermined angle of deadlock lever is rotated (preferably 90 degree), stop screw 40 move to third limit section by the first limit section of limiting slot 23；Meanwhile lug boss 314 Predetermined angle (preferably 90 degree) are rotated along first segment 221, lug boss 314 enters in second segment 222 to realize lock The emergency release of tool.Finally, reversely rotating solution lock key and extracting solution lock key, at this point, work of the rotation stop pin 200 in return unit 60 Under, the end face of rotation stop pin 200 is connected to the outer round surface of deadlock lever 20.

It should be noted that in this application cover board 90 be can be same to deadlock lever 20, key socket 11 and gear-stopping bar 80 What Shi Jinhang was blocked, and when overturning, cover board is after 90s can be made deadlock lever 20, key socket 11 and gear-stopping bar 80 while not covered Plate 90 blocks.

It should be noted that the key that the electronic lock in the application uses is electron key.

It can be seen from the above description that the above embodiments of the present invention realized the following chievements:

1, by the cooperation of restraining structure 322 and clutch inner ring 3212 in the application, it can be avoided and motor rotation blockage occur The phenomenon that；

2, has the function of emergency release, and emergency release is easy to operate；

3, lock body 10, deadlock lever 20 and lock core component 100 etc. can be protected by the way that cover board 90 is arranged.

Obviously, above-mentioned the described embodiment is only a part of the embodiment of the present invention, instead of all the embodiments. Based on the embodiments of the present invention, obtained by those of ordinary skill in the art without making creative efforts all Other embodiments should fall within the scope of the present invention.

It should be noted that term used herein above is merely to describe specific embodiment, and be not intended to restricted root According to the illustrative embodiments of the application.As used herein, unless the context clearly indicates otherwise, otherwise singular Also it is intended to include plural form, additionally, it should be understood that, when in the present specification using term "comprising" and/or " packet Include " when, indicate existing characteristics, step, work, device, component and/or their combination.

It should be noted that the description and claims of this application and term " first " in above-mentioned attached drawing, " Two " etc. be to be used to distinguish similar objects, without being used to describe a particular order or precedence order.It should be understood that using in this way Data be interchangeable under appropriate circumstances, so that presently filed embodiment described herein can be in addition to illustrating herein Or the sequence other than those of description is implemented.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (12)

1. a kind of electronic lock, including lock body (10), deadlock lever (20) and locked component (30), which is characterized in that

At least part of the deadlock lever (20) is movably disposed in the lock body (10), and the deadlock lever (20) has Sliding slot (21) has locked position of coupler and unlocked position when the deadlock lever (20) is along its axial movement, and the sliding slot (21) has There is the first holding position (215) for making the deadlock lever (20) be maintained at the locked position of coupler and the unlocked position and second to keep Position (216)；

The locked component (30) is movably arranged in the lock body (10), and the locked component (30) includes:

Elongated insertion part (31), the elongated insertion part (31) are always positioned in the sliding slot (21), when the deadlock lever (20) are in described When locked position of coupler, the elongated insertion part (31) is located at the one end of the sliding slot (21) in the axial direction of the deadlock lever (20), works as institute When stating deadlock lever (20) and being in the unlocked position, the elongated insertion part (31) is located at the sliding slot (21) in the deadlock lever (20) Axial direction on the other end；

Rotation section (32), the rotation section (32) connect with the elongated insertion part (31) far from the one end of the deadlock lever (20) and energy The elongated insertion part (31) are enough driven to rotate, when the elongated insertion part (31) are located at the sliding slot (21) in the axis of the deadlock lever (20) When upward any end, the elongated insertion part (31) and the sliding slot (21) are clamped, rotation section (32) idle running and the lock Determine head (31) to remain stationary；

When extracting or pressing the deadlock lever (20), change the position that the elongated insertion part (31) are located at the sliding slot (21), institute It states rotation section (32) and is able to drive the elongated insertion part (31) rotation.

2. electronic lock according to claim 1, which is characterized in that the rotation section (32) includes:

Rotor (321)；

Restraining structure (322), the elongated insertion part (31) are connect by the restraining structure (322) with the rotor (321), when When the elongated insertion part (31) is not by external force pressure, the elongated insertion part (31) is constrained by the restraining structure (322), so that described turn Kinetoplast (321) drives the restraining structure (322) and the elongated insertion part (31) to rotate synchronously, when the elongated insertion part (31) is by institute When stating the external force pressure of sliding slot (21), the restraining structure (322) releases the constraint to the elongated insertion part (31), the rotor (321) restraining structure (322) is only driven to rotate.

3. electronic lock according to claim 2, which is characterized in that the elongated insertion part (31) is far from the deadlock lever (20) One end be provided with accommodation groove (313), the rotor (321) includes:

Driving motor (3211)；

Clutch inner ring (3212), the driving motor (3211) and the clutch inner ring (3212) are drivingly connected, in the clutch Ring (3212) setting is in accommodation groove (313), and restraining structure (322) setting is in the elongated insertion part (31) and the clutch Between ring (3212).

4. electronic lock according to claim 3, which is characterized in that the restraining structure (322) includes along the clutch The circumferentially spaced multiple groups reset assembly of inner ring (3212), reset assembly described in each group includes the spring mutually abutted (3221) and steel ball (3222), and the periphery wall of the clutch inner ring (3212) has the circle for positioning the spring (3221) recessed The surface of slot (3213), the elongated insertion part (31) towards clutch inner ring (3212) side has lock groove (311), the steel Pearl (3222) is can extend under the action of the spring (3221) in the lock groove (311).

5. electronic lock according to claim 1, which is characterized in that the elongated insertion part (31) includes:

Body part (312), the body part (312) have accommodation groove (313) for accommodating the rotation section (32)；

Lug boss (314), one far from the rotation section (32) of lug boss (314) setting in the body part (312) It holds and is protruded into the sliding slot (21) always, and the lug boss (314) deviates the center of rotation setting of the rotation section (32).

6. electronic lock according to any one of claim 1 to 5, which is characterized in that the sliding slot (21) includes sequentially The locking groove section (211) of connection, the first link slot section (212), solution locked groove section (213) and the second link slot section (214), and it is described Locking groove section (211) and solution locked groove section (213) are located at two of the sliding slot (21) in the axial direction of the deadlock lever (20) End, the first link slot section (212) and the second link slot section (214) along the axially extending of the deadlock lever (20), and A part of the cell wall of the locking groove section (211) be directed away from it is described solution locked groove section (213) direction it is recessed with formed described in A part of first holding position (215), the cell wall of solution locked groove section (213) is directed away from the side of the locking groove section (211) To recessed to form second holding position (216), the elongated insertion part (31) is located at the first link slot section (212) and described When the second link slot section (214), rotation section (32) idle running.

7. electronic lock according to any one of claim 1 to 5, which is characterized in that the sliding slot (21) includes sequentially Locked segment, linkage section and the unlock section of connection, the Locked segment and the unlock section are located at the sliding slot (21) in the locking Both ends in the axial direction of bar (20), and it is respectively provided with first holding position (215) and second holding position (216)；It is described Linkage section is axially extending along the deadlock lever (20), and the Locked segment and the unlock section are arc-shaped, the linkage section For linear type, when the elongated insertion part (31) is located at the linkage section, rotation section (32) idle running.

8. electronic lock according to claim 6, which is characterized in that the locking groove section (211) and/or the solution locked groove Groove width of the section (213) at first holding position (215) and/or second holding position (216) is greater than the sliding slot (21) First holding position (215) and second holding position (216) are being removed with the groove width at external position.

9. electronic lock according to claim 6, which is characterized in that the lateral wall of the deadlock lever (20) also has and institute State first holding position (215) of sliding slot (21) or the emergency release slot (22) of second holding position (216) connection.

10. electronic lock according to claim 9, which is characterized in that the electronic lock further include:

Mounting base (50), mounting base (50) setting are internal in the lock body (10)；

Rotation stop pin (200), rotation stop pin (200) setting is internal in the mounting base (50), and the rotation stop pin (200) is extremely Few a part can be stretched out by the mounting base (50) and enter the emergency release slot (22)；

Drive rod (70), one end of the drive rod (70) are protruded into the mounting base (50) and with the rotation stop pin (200) even Connect, and the drive rod (70) is able to drive the rotation stop pin (200) rotation so that the rotation stop pin (200) can extend into or Remove the emergency release slot (22)；

One far from the emergency release slot (22) in the rotation stop pin (200) is arranged in return unit (60), the return unit (60) End, when the rotation stop pin (200) be located at the emergency release slot (22) it is interior when, the return unit (60) can compress the rotation stop It sells (200)；

Gear-stopping bar (80), the drive rod (70) have the emergency release position cooperated with emergency release key, the gear-stopping bar (80) it is movably arranged at the emergency release position, it is described urgent when the gear-stopping bar (80) are far from the emergency release position Solving lock key can cooperate with the drive rod (70) to carry out emergency release.

11. electronic lock according to any one of claim 1 to 5, which is characterized in that the outside of the deadlock lever (20) Wall also has limiting slot (23), and the stop screw with the limiting slot (23) cooperation is additionally provided with inside the lock body (10) (40)。

12. electronic lock according to any one of claim 1 to 5, which is characterized in that also set inside the lock body (10) Detection components are equipped with, the deadlock lever (20) is internally provided with inductive component,

When the deadlock lever (20) is moved to the unlocked position by the locked position of coupler, the detection components are no longer able to examine The inductive component is measured, the electronic lock receives unlock signal in place；

When the deadlock lever (20) is moved to the locked position of coupler by the unlocked position, the detection components and the induction Component is corresponding, and the electronic lock receives locking signal in place.