CN203755805U - Handle device of automatic door lock - Google Patents

Abstract

The utility model relates to a handle device of an automatic door lock. The handle device comprises a handle shaft, wherein the handle shaft is further provided with a safety structure which comprises a safety stirring part and a handle safety sheet, a center hole suitable for the handle shaft to penetrate through is formed in the handle safety sheet, the circumferential side wall of the center hole is provided with an idle stroke groove suitable for the safety stirring part to locate in, when the handle safety sheet rotates to an unlocking direction for a preset angle along with the handle shaft, a first deflected pressure produced by a restoration deflected pressing part of the handle safety sheet restores the handle safety sheet, and when the handle safety sheet rotates in an opposite direction for a preset angle along with the handle shaft, a second deflected pressure produced by the restoration deflected pressing part of the handle safety sheet enables that the handle safety sheet abuts against an unlocking control part of the automatic door lock to prevent the unlocking control part from unlocking a spring bolt. The handle device is simple in structure and can be operated to ensure the locking of locking states.

Description

A kind of lever handle device of automatic door lock

Technical field

The utility model relates to door lock field, the lever handle device that specifically the dual lock lock-out state on a kind of automatic door lock is insured.

Background technology

Safe-guard door lock is for realizing the locking between door and doorframe, and door lock is mainly to utilize institute's bolt to be plugged in frame hole and the locking that realizes opposite house, realize the unlatching of door, is generally to utilize key to pull tapered end, and tapered end drives locking bolt to move by transmission mechanism.Consideration based on safe-guard door lock theftproof performance, is provided with master latch, retainer and latch bolt on most safe-guard door lock, make lock core drive these locking bolt actions, and transmission mechanism need to be set in lock body.In existing safe-guard door lock, set drive mechanism is relatively complicated, and this makes the weight of safe-guard door lock integral body larger, and cost of production is high, and in actual use procedure, fault rate is also relatively high.

The linked door lock that Chinese patent literature CN101915029B discloses a kind of bolt extending control mechanism and had this mechanism; comprise: a described lock housing; be arranged on the described spring bolt mechanism in described lock housing, comprise the operating mechanism of tapered end opening/closing component and handle opening/closing component; And bolt extending control mechanism.Described bolt extending control mechanism comprises that dead bolt retraction driving mechanism and dead bolt stretch out trigger mechanism; The actuator lever triggering being connected on described spring bolt mechanism that wherein said dead bolt stretches out in trigger mechanism is arranged on the stopping element in described lock housing, and lockplate and stopping element are departed from by friction is level and smooth, and by dodging level and smooth combination; The biasing force acting in actuator lever makes to depart from stopping element after actuator lever actuating, avoids later action collision.At least two master lock tongues are set on dead bolt installing plate, in a master lock tongue, secondary lock tongue are installed, described secondary lock tongue is combined with adjacent master lock tongue after described spring bolt mechanism stretches out, and forms connection ring.

The door latch structure of this patent documentation is simple, mechanical noise is little, but also there is in actual use following shortcoming: in this patent documentation, locking after dead bolt is retracted is completely by the unci on lockplate, to hook locking hub axially to grow part realization, at closing time, when the magnet of actuator lever is subject to the reaction force of magnet of door frames, thereby actuator lever acts on ratchet towards retreating in lock housing, by ratchet, touch and hook part and deviate from locking hub axle and remove the locking to master lock tongue (5), master lock tongue (5) under the effect of torsion spring, lock out realize automatic locking.Therefore, the automatic door lock in the prior art cannot keep closing the door but the state of not locking.

Utility model content

For this reason, technical problem to be solved in the utility model is the unreasonable structure of automatic door lock of the prior art, can not realize the problem of the state of closing the door but not locking, and then the lever handle device that provides the dual lock lock-out state on a kind of automatic door lock to insure.

For solving the problems of the technologies described above, the utility model provides a kind of lever handle device of automatic door lock, comprises handle axle, and is set in the handle shifting part on described handle axle, on described handle axle, is also provided with safety structure, and described safety structure comprises:

Insurance shifting part, is arranged on described handle axle;

Handle safety plate, on described handle safety plate, form and be applicable to the centre bore that described handle axle passes, on the circumferential side wall of described centre bore, be formed with and be applicable to described insurance shifting part place idle running groove in the inner, and when described handle axle rotates towards unlocking direction, described insurance shifting part can rotate in residing described idle running groove, and do not drive described handle safety plate to rotate, when described handle axle rotates in the opposite direction, described insurance shifting part can contact with the cell wall of described idle running groove, and drives described handle safety plate to rotate;

Handle safety plate reset bias piece, described handle safety plate reset bias piece acts on described handle safety plate, described handle safety plate reset bias piece has the biasing force of two extreme positions, be respectively the first biasing force and the second biasing force, when described handle safety plate rotates predetermined angle with described handle axle towards unlocking direction, described the first biasing force that described handle safety plate reset bias piece produces resets described handle safety plate; At described handle safety plate during with described handle axle counter-rotation predetermined angle, described the second biasing force that described handle safety plate reset bias piece produces makes described handle safety plate withstand the release control assembly of automatic door lock, stops described release control assembly to dead bolt release.

Described handle safety plate reset bias piece is double jump torsion spring, described double jump torsion spring is the torsion spring that at least one torsion spring pin is shaped to ring, described double jump torsion spring is set on the fixed axis in lock housing by described ring, this torsion spring pin is the first torsion spring pin, and the second torsion spring pin of described double jump torsion spring is connected with described handle safety plate.

On described handle safety plate, form connecting hole, described the second torsion spring pin is shaped to and hooks the hook-shaped of described connecting hole.

Described insurance shifting part is set to the polygon shaft coaxial with described handle axle, and the corner angle of described polygon shaft are in described idle running groove, and the number that described idle running groove arranges is consistent with the number of the described corner angle of described polygon shaft, and around described centre bore setting.

Described polygon profile shaft is square shaft, and described idle running groove is provided with four.

Described idle running groove is deep-slotted chip breaker, and the described cell wall of described deep-slotted chip breaker both sides is " eight " font outer expanding shape, and the limit that the gradient of described cell wall is applicable to described square shaft contacts with described trough wall surface.

Described handle shifting part is " 9 " font.

Technique scheme of the present utility model has the following advantages compared to existing technology:

(1) in the utility model, tapered end in described tapered end opening/closing component is that key operated double-lock-head structure all can be inserted in indoor and outdoor, described double-lock-head structure has a lock core shifting part, the described locking device that lock out is only stirred release by described lock core shifting part, when described lock core shifting part rotates towards unlocking direction, described in first removing, lock out the locking of locking device to described dead bolt, described lock core shifting part is rotated further, and described bolt plate is towed back in described lock housing.Once said structure can guarantee interior door lock of the present utility model and go up after lock core insurance, indoor, by key, door lock cannot not opened, can prevent well that like this burglar who enters the room from window, balcony from going out thing easily steathily from indoor opening the door.

(2) in the utility model, the first lead is not only used for coordinating dead bolt being led with the first guiding bar-shaped trough, can also play spacing effect to the rotation of described lock core safety plate, simultaneously, can also fix the another torsion spring pin of described torsion spring, realize killing three birds with one stone, simplified the structure in lock housing.

(3) contact apparatus in the utility model has triggering failure state, at release control assembly during by dieback, contact apparatus can be automatically converted to triggering failure state from triggering effective status, make the contact of flip flop equipment just maybe can not encounter described release control assembly, thereby avoided contact and release control assembly awkwardly to collide, eliminated the collision noise that contact apparatus of the prior art causes.

(4) lever handle device of the present utility model is simple in structure, but also can realize the state of closing the door and keeping not locking.Only need counterclockwise rotate 45 ° of handles, can realize the dieback of handle safety plate to described release control assembly, even if use key or the contact of doorframe collision at closing time can not be by the releases of described release control assembly.

(5) in the utility model, tapered end and handle have retraction driving mechanism separately, while making to unblank, lock core unblanks to unblank non-interference with handle, when lock core is unblanked, handle no longer rotates with lock core, thereby makes the speed of unblanking fast, unblank more laborsaving, reduced the interior risk that key is fractureed at lock core hole.

(6) in the utility model, on described release control assembly, form and take the second arc groove that described latch release shaft is the center of circle, described the 4th axle is arranged in described lock housing through described the second arc groove, can save space in lock housing, so that described release control assembly and described release shifting part can stackedly arrange.

Accompanying drawing explanation

For content of the present utility model is more likely to be clearly understood, according to specific embodiment of the utility model also by reference to the accompanying drawings, the utility model is described in further detail, wherein below

Fig. 1 is the stereogram that interior door lock of the present utility model lock out;

Fig. 2 is the front view that interior door lock of the present utility model lock out;

Fig. 3 is the front view that interior door lock of the present utility model is retracted;

Fig. 4 be interior door lock of the present utility model in contact failure state front view;

Fig. 5 is the front view of lock housing of the present utility model;

Fig. 6 is the front view of dead bolt member of the present utility model;

Fig. 7 is the front view of release control assembly of the present utility model;

Fig. 8 is the front view of handle safety plate of the present utility model;

Fig. 9 is the schematic diagram of the two bar springs of lock core safety plate of the present utility model;

Figure 10 is the schematic diagram of lock core solution locking plate of the present utility model;

Figure 11 is the schematic diagram of lock core safety plate of the present utility model

Figure 12 is the schematic diagram of the double jump spring of handle safety plate of the present utility model;

Figure 13 is the schematic diagram of structure of contact terminal;

Figure 14 is the schematic diagram that is provided with the triggering frame that triggers wheel.

In figure, Reference numeral is expressed as: dead bolt 1, lock housing 2, panel 3, release control assembly 4, bolt plate 5;

Safety axis 100, lock core safety plate 101, joint portion 102, safety lock bonding part 103, lock core safety plate biasing member 104, double jump torsion axis 105, draw-in groove 106, latch release shaft 107, dop 108, release biasing member 109, the 5th axle 110, the first projection, the first guiding bar-shaped trough 113, the first lead 114, the first arc groove 115, the second arc groove 116, lock out biasing member 117;

Trigger frame 200, trigger architecture 201, structure of contact terminal 202, the first reset bias piece 203, the first axle 204, limiting section 205, spacing protuberance 206, the second reset bias piece 207, bar hole 208, the second axle 209, the 3rd axle 210, the first connecting portion 211, the second connecting portion 212;

Handle axle 300, handle shifting part 301, insurance shifting part 302, handle safety plate 303, idle running groove 304, handle safety plate reset bias piece 305, fixed axis 306, connecting hole 307;

The first integrated structure 400, lock core shifting part 401, lock core solution locking plate 402, the second integrated structure 403, release shifting part 404, the 4th axle 405, stir structure 406.

The specific embodiment

For technical characterictic of the present utility model, object and effect being had more clearly, understand, now contrast accompanying drawing the specific embodiment of the present utility model is described.

Implement one

As shown in Fig. 1-14, a kind of interior door lock of the present embodiment, comprises lock housing 2, and is arranged in described lock housing 2,

Dead bolt member, comprises the dead bolt 1 that can lock out or retract along the vertical direction of the panel of described lock housing 2, and the bolt plate 5 that described dead bolt 1 is installed;

Driving mechanism, comprise drive that described dead bolt member lock out lock out driving mechanism and the retraction driving mechanism that drives described dead bolt member to retract;

Locking mechanism, comprises to the described bolt plate 5 of retracted mode is entered line-locked retraction locking device and entered the line-locked locking device that lock out to locking out the described bolt plate 5 of state;

Operating mechanism, comprises tapered end opening/closing component and handle opening/closing component;

Tapered end in described tapered end opening/closing component is that key operated double-lock-head structure all can be inserted in indoor and outdoor, described double-lock-head structure has a lock core shifting part 401, the described locking device that lock out is only stirred release by described lock core shifting part 401, when described lock core shifting part 401 rotates towards unlocking direction, described in first removing, lock out the locking of locking device to described dead bolt 1, described lock core shifting part 401 is rotated further, and described dead bolt 1 plate is towed back in described lock housing 2.Once said structure can guarantee interior door lock of the present utility model and go up after lock core insurance, indoor, by key, door lock cannot not opened, can prevent well that like this burglar who enters the room from window, balcony from going out thing easily steathily from indoor opening the door.In the present embodiment, introduce a kind of structure that preferably lock out locking device, this structure comprises

Safety axis 100, is installed in described bolt plate 5;

Lock core safety plate 101, can be set in rotationally on described safety axis 100 around described safety axis 100, and form joint portion 102 on described lock core safety plate 101;

Safety lock bonding part 103, relatively described lock housing 2 is fixing, with described joint portion 102 in conjunction with after, stop described bolt plate 5 to be retracted in described lock housing 2;

Lock core safety plate biasing member 104, be arranged between described bolt plate 5 and described lock core safety plate 101, its partial pressure is on described lock core safety plate 101, make the 103 directions rotations towards described safety lock bonding part of described lock core safety plate 101, and make described joint portion 102 and 103 combinations of described safety lock bonding part.

Described in above-mentioned, lock out locking device structure simply compact.Simultaneously, the structure of described lock core safety plate also can have multiple, and in the present embodiment, described lock core safety plate is shaped to " L " type, described safety axis 100 is arranged on the flex point place of described " L " type, described joint portion 102 is molded over the long limit end of described " L " type, and the minor face of described " L " is applicable to described lock core shifting part 401 and stirs.

Described lock core safety plate biasing member 104 is a double jump torsion spring, described double jump torsion spring is the torsion spring that two torsion spring pin are shaped to ring, a ring footmuff of described double jump torsion spring is located on the double jump torsion axis 105 in bolt plate 5, and the another ring pin of described double jump torsion spring is connected with the described joint portion 102 of described lock core safety plate 101.

Further, the described retraction locking device in the present embodiment comprises

Draw-in groove 106, described draw-in groove 106 is molded in described bolt plate 5;

Latch release shaft 107, is installed on the base plate or cover plate of described lock housing 2;

Release control assembly 4, can be set in described latch release shaft 107 rotationally around described latch release shaft 107, and described release control assembly 4 also forms dop 108 towards a side of described draw-in groove 106;

Release biasing member 109, is arranged on described lock housing 2 and described release control assembly 4, and its biasing force makes described release control assembly 4 turn to described dop 108 around described latch release shaft 107 to snap in described draw-in groove 106.

In order to realize the control release of key to described retraction locking device, door lock in the present embodiment also comprises lock core solution locking plate 402, described lock core solution locking plate 402 is arranged in described lock housing 2 rotationally by the 5th axle 110, described lock core solution locking plate 402, props up described release release control assembly 4 and rotates release towards described unlocking direction at described lock core shifting part 401 under the stirring of unlocking direction.

In order to reduce component part in lock housing, saving takes up room, reduce costs, described joint portion 102 is the first projection along the base plate perpendicular to described lock housing 2 or the extension of cover plate direction, described safety lock bonding part 103 is for being installed in the base plate of described lock housing 2 or the second projection on cover plate relevant position, the dead bolt guide frame that described dead bolt 1 lock out or retracted orientation leads is comprised and is molded over the guiding of first in described bolt plate 5 bar-shaped trough 113, and be arranged on the first lead 114 in described lock housing 2, described the first guiding bar-shaped trough 113 is positioned at the side away from described lock core of described lock core safety plate 101, and described the first lead 114 in described the first guiding bar-shaped trough 113 props up described lock core safety plate 101 and crosses rotation.Described release biasing member 109 is for being set in the torsion spring in described latch release shaft 107, a torsion spring pin of described torsion spring is connected with described release control assembly 4, another torsion spring pin is ring and is set on described the first lead 114, on described lock core solution locking plate 402, form and take the first arc groove 115 that described the 5th axle 110 is the center of circle, described the first lead 114 is arranged in described lock housing 2 through described the first arc groove 115.Such structure can make described the first lead 114 not only have the effect of guiding, can also play spacing effect to the rotation of described lock core safety plate 101, meanwhile, can also fix the another torsion spring pin of described torsion spring, realize killing three birds with one stone, simplified the structure in lock housing.

Implement two

As shown in Fig. 1-4 and Figure 13,14, the interior door lock of the present embodiment 2 also comprises the contact apparatus that triggers the release of described retraction locking device on the basis of embodiment 1, and described contact apparatus comprises:

Trigger frame 200, can stretch out or retracted orientation moves and is arranged in described lock housing 2 along described dead bolt 1;

Trigger architecture 201, is arranged on one end of described panel 3 of the close described lock housing 2 of described triggering frame 200, affected by door leaf switch motion and drives described triggering frame 200 to move towards described dead bolt 1 retracted orientation;

Structure of contact terminal 202, is arranged on the other end of described triggering frame 200, is triggering described release control assembly with described triggering frame 200 during towards described dead bolt 1 retracted orientation motion;

The first reset bias piece 203, makes described triggering frame 200 stretch out direction towards described dead bolt 1 and resets.

Described structure of contact terminal 202 has the effective status of triggering and triggers failure state two states on described triggering frame 200, after the triggering effective length of the described structure of contact terminal 202 in described triggering failure state foreshortens to described trigger architecture 201 and returns in described panel completely with respect to the triggering effective length of described triggering effective status, described structure of contact terminal 202 just maybe can not be encountered described release control assembly 4;

Also comprise the second reset bias piece 207, when the effect of 207 pairs of described structure of contact terminals 202 of described the second reset bias piece is greater than the reaction of 4 pairs of described structure of contact terminals 202 of described release control assembly, described structure of contact terminal 202 rotates or moves to described triggering effective status by described triggering failure state; When the effect of 207 pairs of described structure of contact terminals 202 of described the second reset bias piece is less than the reaction of 4 pairs of described structure of contact terminals 202 of described release control assembly, described structure of contact terminal 202 rotates or moves to described triggering failure state by described triggering effective status.The contact apparatus of said structure has triggering failure state, at release control assembly 4 during by dieback, contact apparatus can be automatically converted to triggering failure state from triggering effective status, make the contact of flip flop equipment just maybe can not encounter described release control assembly 4, thereby avoided contact and release control assembly 4 awkwardly to collide, eliminated the collision noise that contact apparatus of the prior art causes.

Introduce preferred embodiment a kind of below, described structure of contact terminal 202 is changed in described triggered as normal state and described triggering failure state by mode rotationally, described triggering frame 200 is provided with the first axle 204 perpendicular to the cover plate of described lock housing 2 or base plate, described structure of contact terminal 202 is arranged on described the first axle 204 rotationally, on the edge of described structure of contact terminal 202, form the effective portion of triggering corresponding with described release control assembly 4 when described triggered as normal state, and when described triggering failure state the triggering inefficacy portion corresponding with described release control assembly 4, and the effective portion of described triggering is greater than described triggering inefficacy portion to the distance of described the first axle 204 to the distance of described the first axle 204,

Described triggering frame 200 is provided with limiting section 205, and described structure of contact terminal 202 is provided with spacing protuberance 206, and described limiting section 205 is by stopping described spacing protuberance 206 and stop described structure of contact terminal 202 counterclockwise or clockwise direction rotating; The biasing force of described the second reset bias piece 207 makes described structure of contact terminal 202 counterclockwise or clockwise direction rotates, and when the torque of the partial pressure of described the second reset bias piece 207 on described structure of contact terminal 202 is greater than normal release, the torque of described release control assembly 4 reactions on described structure of contact terminal 202, and the torque direction of the two is contrary.When described release control assembly 4 is not during by dieback, the effective portion of described triggering of described structure of contact terminal and 4 touchings of described release control assembly, make described release control assembly 4 releases, when described release control assembly 4 is during by dieback, the torque of the biasing force that the countertorque that release control assembly 4 acts on the effective portion of described triggering place is greater than described the second reset bias piece 207 to described structure of contact terminal 202, thereby described structure of contact terminal is rotated, make described triggering inefficacy portion towards described release control assembly 4, now, even if trigger architecture is clashed into by doorframe, described triggering inefficacy portion on described structure of contact terminal can not touch described release control assembly, avoided shock.

In order to guarantee that described triggering frame stretches out smoothly or retracts, on described triggering frame 200, be also provided with described triggering frame 200 along described dead bolt 1 stretches out or retracted orientation moves triggering frame guide frame.In the present embodiment 2, described triggering frame guide frame comprises and being molded on described triggering frame 200, length direction is along described dead bolt 1 stretches out or retracted orientation extends bar hole 208 or be installed in the second axle 209 in described lock housing 2, and be installed in the second axle 209 on described triggering frame 200 or be molded in described lock housing 2, length direction stretches out or retracted orientation extension bar hole 208 along described dead bolt 1.

At the first reset bias piece 203 described in the present embodiment 2, it is the first reduction torsion spring.Described the first reduction torsion spring is set on the 3rd axle 210 on described lock housing 2 base plates or cover plate, and a torsion spring pin of described the first reduction torsion spring is connected with described lock housing 2, and another torsion spring pin acts on described triggering frame 200.

Further, described the second reset bias piece 207 is the second reset tension spring.The first connecting portion 211 is set on described triggering frame 200, and described structure of contact terminal 202 is provided with the second connecting portion 212, and the two ends of described the second reset tension spring are connected with the second connecting portion 212 with described the first connecting portion 211 respectively.

Described trigger architecture 201, for triggering wheel, can certainly be set to magnet trigger architecture.

Embodiment tri-

The present embodiment 3 is on the basis of embodiment 2 as Figure 1-4, lever handle device has been done to improvement, and described handle opening/closing component comprises handle axle 300, and is set in the handle shifting part 301 on described handle axle 300, on described handle axle 300, be also provided with safety structure, described safety structure comprises:

Insurance shifting part 302, is arranged on described handle axle 300;

Handle safety plate 303, on described handle safety plate 303, form and be applicable to the centre bore that described handle axle 300 passes, on the circumferential side wall of described centre bore, be formed with and be applicable to described insurance shifting part 302 places idle running groove 304 in the inner, and when described handle axle 300 rotates towards unlocking direction, described insurance shifting part 302 can be in the interior rotation of residing described idle running groove 304, and do not drive described handle safety plate 303 to rotate, when described handle axle 300 rotates in the opposite direction, described insurance shifting part 302 can contact with the cell wall of described idle running groove 304, and drive described handle safety plate 303 to rotate,

Handle safety plate reset bias piece 305, described handle safety plate reset bias piece 305 acts on described handle safety plate 303, described handle safety plate reset bias piece 305 has the biasing force of two extreme positions, be respectively the first biasing force and the second biasing force, when described handle safety plate 303 rotates predetermined angle with described handle axle 300 towards unlocking direction, described the first biasing force that described handle safety plate reset bias piece 305 produces resets described handle safety plate 303; At described handle safety plate 303 during with described handle axle 300 counter-rotation predetermined angle, described the second biasing force that described handle safety plate reset bias piece 305 produces makes described handle safety plate 303 withstand the release control assembly 4 of automatic door lock, stops 4 pairs of bolt plate 5 releases of described release control assembly.Such lever handle device is simple in structure, but also can realize the state of closing the door and keeping not locking.Only need counterclockwise rotate 45 ° of handles, can realize the dieback of handle safety plate to described release control assembly 4, even if use key or the contact of doorframe collision at closing time can not be by described release control assembly 4 releases.

Described handle safety plate reset bias piece 305 is double jump torsion spring, described double jump torsion spring is the torsion spring that at least one torsion spring pin is shaped to ring, described double jump torsion spring is set on the fixed axis 306 in described lock housing by described ring, this torsion spring pin is the first torsion spring pin, and the second torsion spring pin of described double jump torsion spring is connected with handle safety plate 303.

On described handle safety plate, 303 form connecting hole 307, and described the second torsion spring pin is shaped to and hooks the hook-shaped of described connecting hole 307.

Described insurance shifting part 302 is set to the polygon shaft coaxial with described handle axle 300, the corner angle of described polygon shaft are in described idle running groove 304, the number that described idle running groove 304 arranges is consistent with the number of the described corner angle of described polygon shaft, and around described centre bore setting.In the present embodiment, described polygon profile shaft is preferably square shaft, and described idle running groove 304 is provided with four.

Described idle running groove 304 is deep-slotted chip breaker, and the described cell wall of described deep-slotted chip breaker both sides is " eight " font outer expanding shape, and the limit that the gradient of described cell wall is applicable to described square shaft contacts with described trough wall surface.

Described handle shifting part 301 is " 9 " font.

Embodiment 4

As Figure 1-4, the present embodiment 4, on the basis of embodiment 3, improves retraction driving mechanism, and described retraction driving mechanism comprises holds hand-guided the first retraction driving mechanism, and the second retraction driving mechanism of being controlled by tapered end, wherein

Described the first retraction driving mechanism comprises and is arranged on described bolt plate 5 towards the first integrated structure 400 of described lock core shifting part 401 1 sides, described lock core shifting part 401 rotates and described the first integrated structure 400 combinations towards unlocking direction, and described bolt plate 5 is lock out or the cooperation of the dead bolt guide frame of retracted orientation guiding under, drive described bolt plate 5 to retract in described lock housing 2;

Described the second retraction driving mechanism comprises and is arranged on described bolt plate 5 towards the second integrated structure 403 of described handle shifting part 301 1 sides, also comprise the release shifting part 404 being arranged between described bolt plate 5 and described handle assembly, described release shifting part 404 can be arranged in described lock housing 2 rotationally around the 4th axle 405, described release shifting part 404 towards the other end of described bolt plate 5 be provided with described the second integrated structure 403 combinations stir structure 406, described release shifting part 404 rotates around described the 4th axle 405 under the stirring of described handle shifting part 301, by described combination of stirring structure 406 and described the second integrated structure 403, and described bolt plate 5 is lock out or the cooperation of the dead bolt guide frame of retracted orientation guiding under, drive in the described lock housing 2 of described bolt plate 5 retraction.When the retraction driving mechanism of said structure makes to unblank, lock core unblank with handle unblank non-interference, when lock core is unblanked, handle no longer rotates with lock core, thereby make the speed of unblanking fast, unblank more laborsaving, reduced the interior risk that key is fractureed at lock core hole.

Described lock core shifting part 401 is for to have the lock core thumb wheel of stirring handle, and described the first integrated structure 400 is for to be molded over the first protuberance in described bolt plate 5, and described lock core thumb wheel is stirred described the first protuberance described bolt plate 5 is towed back in described lock housing 2.

Described the second integrated structure 403 is for to be molded over the second protuberance of described bolt plate 5 one sides or to stir through hole, the described structure 406 of stirring is for to be molded on described release shifting part 404, with described the second protuberance or stir through hole coordinate insert stir through hole or the second protuberance.In the present embodiment, described in, stirring through hole is square.

Described release shifting part 404 is a release shift fork.

In order to save space in lock housing, so that described release control assembly 4 can stackedly arrange with described release shifting part 404, on described release control assembly 4, form and take the second arc groove 116 that described latch release shaft 107 is the center of circle, described the 4th axle 405 is arranged in described lock housing 2 through described the second arc groove 116.

The described driving mechanism that lock out is one to be arranged on and to lock out biasing member 117 between described lock housing and described bolt plate, described in lock out 117 pairs of described bolt plate 5 of biasing member and impose the biasing force that lock out direction towards described dead bolt 1.The described biasing member that lock out can be preferably torsion spring.

The course of work of interior door lock of the present utility model:

Automatic locking process

While locking a door, triggering wheel bumps against with doorframe, make to trigger in frame 200 retraction lock housings 2, the contact triggering on frame 200 touches release control assembly 4, and release control assembly 4 is clockwise rotated around latch release shaft 107, in the draw-in groove 106 of the dop 108 that makes release control assembly 4 bolt plate 5, exit, the locking of releasing to bolt plate 5, now, locking out under the elastic force effect that reset bias piece is torsion spring of pressurized, bolt plate lock out automatically, and realization is locked.Trigger frame 200 and reset under the i.e. effect of the reduction torsion spring in figure of the first reset bias piece 203,, under the i.e. effect of the reset tension spring in figure of contact the second reset bias piece 204, reset meanwhile.If need locking states be insured, can rotate by key band movable lock core shifting part 401, then drive lock core safety plate 101 to clockwise rotate until the joint portion 102 on lock core safety plate 101 be hooked on described safety lock bonding part 103.

The process of unblanking

While opening the lock with the key, key band movable lock core shifting part 401 clockwise rotates, stir lock core safety plate and overcome the i.e. active force of the double jump torsion spring in figure of lock core safety plate biasing member 104, rotate counterclockwise, make joint portion 102 103 separated dropouts from lock core limited section, the release of lock core safety plate, lock core shifting part 401 is rotated further, by with bolt plate on the first integrated structure 400 bolt plate is towed back in lock housing, thereby realize, unblank.

While unblanking with handle, must first with key, lock core safety plate be opened, then clockwise rotate handle axle, handle shifting part 301 clockwise rotates with handle axle, setting due to idle running groove on handle safety plate 303, now, handle safety plate 303 is not driven, handle shifting part 301 is stirred release shifting part 404 and is rotated counterclockwise around the 4th axle, release shifting part 404 is in the process rotating counterclockwise, drive the second integrated structure 403 in bolt plate, drag in bolt plate retraction lock housing, now, the dop of release control assembly 4 snaps in draw-in groove 106 under the i.e. effect of the reduction torsion spring in figure of release biasing member 109, realization is unblanked.

After unblanking, need to keep closing the door but do not lock state time, can be by rotating counterclockwise handle axle 300, on handle axle, 300 square shaft promotes 303 rotations of handle safety plate, biasing force at handle safety plate reset bias piece 305, handle safety plate withstands release control assembly 4, and the dop 108 of release control assembly cannot be deviate from from draw-in groove 106, thereby will close the door but the state of not locking locks.At closing time, doorframe is encountered triggering wheel, make to trigger in frame retraction lock housing, because release control assembly 4 is locked, therefore, release control assembly is greater than the i.e. pulling force of reset tension spring in figure of the second reset bias piece 207 to the conflict power at structure of contact terminal place, now, structure of contact terminal can clockwise rotate, and makes described trigger architecture just maybe can not touch described release control assembly 4, and now contact lost efficacy.

When needs are removed handle insurance, only need clockwise direction to rotate handle axle and drive handle safety plate 303 counter-rotation, handle safety plate resets under the effect of handle safety plate reset bias piece 305.

Obviously, above-described embodiment is only for example is clearly described, not the restriction to embodiment.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here exhaustive without also giving all embodiments.And among the protection domain that the apparent variation of being extended out thus or change are still created in the utility model.

Claims (7)

1. a lever handle device for automatic door lock, comprises handle axle (300), and is set in the handle shifting part (301) on described handle axle (300), it is characterized in that, on described handle axle (300), be also provided with safety structure, described safety structure comprises:

Insurance shifting part (302), is arranged on described handle axle (300);

Handle safety plate (303), on described handle safety plate (303), form and be applicable to the centre bore that described handle axle (300) passes, on the circumferential side wall of described centre bore, be formed with applicable described insurance shifting part (302) and locate idle running groove (304) in the inner, and when described handle axle (300) rotates towards unlocking direction, described insurance shifting part (302) can rotate in residing described idle running groove (304), and do not drive described handle safety plate (303) to rotate, when described handle axle (300) rotates in the opposite direction, described insurance shifting part (302) can contact with the cell wall of described idle running groove (304), and drive described handle safety plate (303) to rotate,

Handle safety plate reset bias piece (305), described handle safety plate reset bias piece (305) acts on described handle safety plate (303), described handle safety plate reset bias piece (305) has the biasing force of two extreme positions, be respectively the first biasing force and the second biasing force, when described handle safety plate (303) rotates predetermined angle with described handle axle (300) towards unlocking direction, described the first biasing force that described handle safety plate reset bias piece (305) produces resets described handle safety plate (303); At described handle safety plate (303) during with described handle axle (300) counter-rotation predetermined angle, described the second biasing force that described handle safety plate reset bias piece (305) produces makes described handle safety plate (303) withstand the release control assembly (4) of automatic door lock, stops described release control assembly (4) to bolt plate (5) release.

2. the lever handle device of automatic door lock according to claim 1, it is characterized in that: described handle safety plate reset bias piece (305) is double jump torsion spring, described double jump torsion spring is the torsion spring that at least one torsion spring pin is shaped to ring, described double jump torsion spring is set on the fixed axis (306) in lock housing by described ring, this torsion spring pin is the first torsion spring pin, and the second torsion spring pin of described double jump torsion spring is connected with described handle safety plate (303).

3. the lever handle device of automatic door lock according to claim 2, is characterized in that: on described handle safety plate, (303) form connecting hole (307), and described the second torsion spring pin is shaped to and hooks the hook-shaped of described connecting hole (307).

4. according to the lever handle device of the automatic door lock described in any one in claim 1-3, it is characterized in that: described insurance shifting part (302) is set to the polygon shaft coaxial with described handle axle (300), the corner angle of described polygon shaft are in described idle running groove (304), the number that described idle running groove (304) arranges is consistent with the number of the described corner angle of described polygon shaft, and around described centre bore setting.

5. the lever handle device of automatic door lock according to claim 4, is characterized in that: described polygon profile shaft is square shaft, and described idle running groove (304) is provided with four.

6. the lever handle device of automatic door lock according to claim 5, it is characterized in that: described idle running groove (304) is deep-slotted chip breaker, and the described cell wall of described deep-slotted chip breaker both sides is " eight " font outer expanding shape, and the limit of the applicable described square shaft of the gradient of described cell wall contacts with described trough wall surface.

7. the lever handle device of automatic door lock according to claim 4, is characterized in that: described handle shifting part (301) is " 9 " font.