CN202970166U - Mechanical-electrical integration electronic lock body - Google Patents

Abstract

The utility model relates to a mechanical-electrical integration electronic lock body which comprises a lock shell, a mechanical driving mechanism, a locking mechanism, a lock tongue executing mechanism and an electrical control driving mechanism. The mechanism driving mechanism comprises a key turning rod, a gear plate, a gear seat and a lock tongue turning rod. The key turning rod rotates to drive the gear plate to move and enables the gear seat and the lock tongue turning rod to rotate. The locking mechanism comprises a main lock tongue, an inclined tongue and an inclined tongue linkage rod, wherein the lock tongue turning rod drives the main lock tongue to move and the inclined tongue linkage rod drives the inclined tongue to move. The lock tongue executing mechanism comprises a clutch seat, a turning rod, an inner turning fork and an outer turning fork, wherein the clutch seat drives the inner turning fork to rotate and drives the turning rod to swing through a clutch pin. The electrical control driving mechanism is driven by a motor and transmitted by an eccentric wheel, and the clutch pin is pushed by a pushing frame. A clutch seat plate can be additionally arranged on the lock tongue executing mechanism to enable the clutch seat plate to contact with the gear plate and drive the gear plate to move. mechanical-electrical integration electronic lock body is small in size, thin in thickness, narrow in width, simple in operation, high in mechanical-electrical conversion reliability, and strong in anti-theft performance.

Description

Electromechanical integration electronics lock lock body

Technical field

The utility model relates to a kind of lockset, relates in particular to a kind of electromechanical integration electronics lock lock body.

Background technology

Present safety lock body is divided into full mechanical anti-theft lock lock body and electronic intelligence safety lock body.Full mechanical anti-theft lock is progressively replaced by electronic safety lock because of the inconvenient life characteristic that more and more is not suitable with the modern of locking a door; Yet, original electronic lock body, general thickness is thick, wider width, and volume is larger, can not satisfy the installation requirement of some security doors (particularly thin door), and the damage of opposite house is larger simultaneously; Therefore, how to design a kind of simple in structure, cost is lower, intensity is high, the reliability of electromechanical integration conversion is strong, failure rate is low, and it is both convenient to use, safe and reliable again, volume is less simultaneously, thickness is thinner, and width is narrower, and is easy for installation, the electronic lock that applicability is strong is the important topic of this those skilled in the art's research always.

Given this, mention a kind of Mechatronic anti-theft lock body in Chinese patent 201010182761.5, it structurally comprises the dead bolt performance element, the locking unit, mechanical driving unit and this driven by power unit, it can drive this mechanical driving unit by mechanical key and rotate, thereby actuate unlatching or locking that door lock is realized in this locking unit, and when concrete the use, in door, outer handle holds and can drive master lock tongue of the present utility model and stretch out or retract and realize closing and opening of door lock, and the motor that starts the driven by power unit of the connection by power supply etc. comes structure to realize that the electromechanical conversion opens or close door lock.Although it is simple in structure to be somebody's turn to do invention, volume is larger, and the lock body volume is larger, and cost is higher, and applicability is strong not.

mentioned a kind of Bidirectional brake electronic lock body in Chinese patent 201120099224.4, this utility model is provided with handle and dials rudder and dial rudder by the tapered end of transmission bar and tapered end interlock in lock housing, handle is dialled to be provided with in rudder and can be dialled rudder with handle and do outer square bar axle in relative rotation, and handle is dialled rudder and outer square bar between centers and is provided with and controls its clutch in relative rotation, after inserting emergency key in tapered end, stirring clutch by lever body makes handle dial rudder and outer square bar axle integrator, be rotationally connected with simultaneously the handle on outer square bar axle, the connection of outer square bar axle by clutch makes holds in dialling rudder and can rotate with its rotation, handle is dialled rudder and is dialled rudder and the inter-agency linkage of latch bolt and drive latch bolt mechanism and retract and unblank by being arranged at handle.Although this utility model has certain theftproof, its structure relative complex is assembled cumbersomely simultaneously, and it is convenient not to install, and uses simultaneously simple and conveniently not, and lock body is wider, thicker, and applicability is relatively poor.

Mention a kind of electronic lock body of new structure in another China Patent No. 201120310863.0, comprise micro motor, anti-tongue, latch bolt, master lock tongue, stainless steel side slat, lock body base, mechanical key parts, switch plastic cement and grip member; All parts all are arranged in lock body base and stainless steel side slat.Although although this utility model has certain security reliability, structure is more complicated, the assembling trouble, in case break down, detachable maintaining is cumbersome, it is also convenient not, laborsaving to use simultaneously.

In sum, prior art is necessary further perfect.

Summary of the invention

The utility model is in order to solve existing electronic lock body complex structure, intensity difference, volume is large, lock body is generally thicker, wider, assembling and relatively bothering during detachable maintaining, moreover economic and practical not problem and propose a kind of simple and compact for structure, the lock body volume is little, open good hand touch and use the electromechanical integration electronics lock lock body of safety and reliability.

The utility model is achieved through the following technical solutions:

Above-mentioned a kind of electromechanical integration electronics lock lock body comprises lock housing and is installed in mechanical driving mechanism, locking mechanism, dead bolt executing agency and automatically controlled driving mechanism on described lock housing; Described mechanical driving mechanism comprises that the key of being located at described lock housing one end inboard is stirred and turns, is located at described key and stir the gear plate that turns a side, turn with an end coupling meshed gears seat of described gear plate and the tongue switching that is installed in described pinion stand one end; Described key is stirred and is turned rotation and contact and push described gear plate with described gear plate and move, and the described gear plate described pinion stand of drive and tongue switching is turned together rotate; The latch bolt interlock that described locking mechanism comprises the master lock tongue being located at described tongue switching and turning a side, be located at the latch bolt of described master lock tongue one side and be installed in described latch bolt one end is turned; One end of described master lock tongue turns with described tongue switching and contacts, and described tongue switching is turned drive described master lock tongue moving telescopic in rotary course; One end of described latch bolt turns with described latch bolt interlock and contacts, and described latch bolt interlock is turned drive described latch bolt moving telescopic together in moving process; Described dead bolt executing agency comprises that being located at described latch bolt interlock turns clutch seat, the coupling of a side and be arranged at interior shift fork and the outer shift fork that the inside and outside two ends of described clutch seat were turned and be located at respectively to stirring of described clutch seat one side; One end of described clutch seat is provided with on-of pin, the other end swing with described stir to turn contact, make described clutch seat push when rotating described stir to turn swing aside; It is inboard that described on-of pin stretches into described clutch seat under external force, makes described interior shift fork rotate and drive described clutch seat and rotate together; Describedly stir the bottom surface that an end that turns is articulated in described lock housing, the other end turns with described latch bolt interlock and contacts, make described stir to turn drive described latch bolt interlock turn and move around in swing process; Described automatically controlled driving mechanism comprises the motor of being located at described clutch seat one side, the eccentric wheel that is connected with described motor and the promotion frame that is connected with described eccentric wheel; The described eccentric wheel of described motor-driven rotates, and makes described eccentric wheel drive in rotation process that described promotion frame moves and to the described on-of pin application of force, and described on-of pin is pushed described clutch seat inboard.

Described electromechanical integration electronics lock lock body, wherein: described gear plate roughly is arc, and two ends are respectively equipped with gathering sill, and arch portion inboard, stage casing is provided with chute; Described gear plate is stirred under the extruding of turning the side straight-line displacement along described lock housing at described key.

Described electromechanical integration electronics lock lock body, wherein: an end of described master lock tongue is provided with stirs groove; The end that described tongue switching turns is connected with described pinion stand, and the other end turns by described tongue switching and swung with described by external force to stir side contacts in groove, described tongue switching is turned drive described master lock tongue when rotating to move.

Described electromechanical integration electronics lock lock body, wherein: described latch bolt comprises the latch bolt head, be located at the uvula of described latch bolt head inboard, be located at the oblique tongue rod of described latch bolt head-tail and be articulated in the block of described latch bolt head inboard; Described oblique tongue rod is subjected to external force can promote that described block swings and drive described latch bolt head and uvula moves together; The interlock of described latch bolt is turned and is slidably connected on described oblique tongue rod, comprises being turned the first retaining wall, the second retaining wall that both ends form to a lateral buckling and being convexly set in described latch bolt by described latch bolt interlock linking and turning the first connecting lever and second connecting lever at opposite side two ends; Be provided with gripper shoe between described the first retaining wall and the second retaining wall, be arranged with the dead bolt back-moving spring on one section described oblique tongue rod between described latch bolt head-tail and described the first retaining wall, be arranged with the linkage block spring on one section described oblique tongue rod between described the first retaining wall and described gripper shoe.

Described electromechanical integration electronics lock lock body, wherein: an end of described clutch seat is provided with stirs pivot angle, and other end inboard is provided with the clutch spring with described on-of pin coupling, and the circumference at two ends is provided with stopper slot inside and outside the described clutch seat; Contact and push described stirring and turn by the described pivot angle of stirring when described clutch seat rotates; The excircle of described outer shift fork is provided with the limited block that is connected with described stopper slot coupling; The inner face of described interior shift fork is provided with roughly interior group of projection of semicircular in shape, dials projection in described and contacts with the on-of pin that stretches into described clutch seat inboard; Described stirring turned coupling and is located at described clutch seat one side, is arranged with the hinged end in described lock housing bottom surface and turns spring, and other end coupling is arranged between described gripper shoe and the second retaining wall.

Described electromechanical integration electronics lock lock body, wherein: described mechanical driving mechanism comprises that also the dextrorotation of being located at described gear plate one side turns and be located in described pinion stand and the tongue switching drive plate between turning; One end of described drive plate contacts with described the second connecting lever, and the other end and described key are stirred and turned rotating contact; Described dextrorotation is turned and is comprised and directly turning and crank throw; Described directly turning with described chute coupling contacts, and makes described gear plate drive described dextrorotation in moving process and turns rotation; Described crank throw is when described dextrorotation is turned to a sideway swivel and an end in contact of described oblique tongue rod.

Described electromechanical integration electronics lock lock body, wherein: described locking mechanism also comprises the insurance hypistoma component of being located between described master lock tongue and latch bolt, and described insurance hypistoma component comprises safety tongue, safeguard, safeguard axle sleeve, insurance tongue, anti-plate and anti-dialing spring; Described safety tongue is between described safeguard and anti-plate and can slide in described lock housing bottom surface; One end of described safeguard and described lock housing bottom surface are hinged and also be arranged with described insurance tongue, and the other end is worn an end in contact of penetrating described safety tongue and described anti-plate; Described anti-plate is positioned at the side that described latch bolt interlock is turned, and an end contacts with described safeguard coupling, and the other end is arranged with described anti-dialing spring.

Described electromechanical integration electronics lock lock body, wherein: a side that drives described the first described anti-plate of connecting lever extruding when a side is retracted is turned in described latch bolt interlock, makes the described anti-plate described safeguard of extruding and described safety tongue is retracted.

A kind of electromechanical integration electronics lock lock body comprises lock housing and is installed in mechanical driving mechanism, locking mechanism, dead bolt executing agency and automatically controlled driving mechanism on described lock housing; Described mechanical driving mechanism comprises that the key of being located at described lock housing one end inboard is stirred and turns, is located at described key and stir the gear plate that turns a side, turn with an end coupling meshed gears seat of described gear plate and the tongue switching that is installed in described pinion stand one end; Described key is stirred and is turned rotation and contact and push described gear plate with described gear plate and move, and the described gear plate described pinion stand of drive and tongue switching is turned together rotate; The latch bolt interlock that described locking mechanism comprises the master lock tongue being located at described tongue switching and turning a side, be located at the latch bolt of described master lock tongue one side and be installed in described latch bolt one end is turned; One end of described master lock tongue turns with described tongue switching and contacts, and described tongue switching is turned drive described master lock tongue moving telescopic in rotary course; One end of described latch bolt turns with described latch bolt interlock and contacts, and described latch bolt interlock is turned drive described latch bolt moving telescopic together in moving process; Described dead bolt executing agency comprises that being located at described latch bolt interlock turns clutch seat, the coupling of a side and be arranged at interior shift fork and the outer shift fork that the inside and outside two ends of described clutch seat were turned and be located to stirring of described clutch seat one side; One end of described clutch seat is provided with on-of pin, the other end swing with described stir to turn contact, make described clutch seat push when rotating described stir to turn swing aside; It is inboard that described on-of pin stretches into described clutch seat under external force, makes described interior shift fork rotate and drive described clutch seat and rotate together; Describedly stir the bottom surface that an end that turns is articulated in described lock housing, the other end turns with described latch bolt interlock and contacts, make described stir to turn drive described latch bolt interlock turn and move around in swing process; Described dead bolt executing agency also comprises the clutch seat board; One end of described clutch seat board is sheathed on the outer end of described clutch seat, and the other end contacts with described gear plate, makes described outer shift fork drive described clutch seat board in rotation process and swings and promote described gear plate and move; Described automatically controlled driving mechanism comprises the motor of being located at described clutch seat one side, the eccentric wheel that is connected with described motor and the promotion frame that is connected with described eccentric wheel; The described eccentric wheel of described motor-driven rotates, and makes described eccentric wheel drive in rotation process that described promotion frame moves and to the described on-of pin application of force, and described on-of pin is pushed described clutch seat inboard.

Described electromechanical integration electronics lock lock body, wherein: described gear plate roughly is apart from shape, and two ends are respectively equipped with gathering sill, and wherein a distolateral limit is provided with tooth, and other end side is provided with U-lag; The outer face of described outer shift fork is provided with lug boss along circumference, and described lug boss is extended with fixture block to a side; One end of described clutch seat board in the form of a ring, the other end is roughly rounded; A described clutch seat board end inner periphery in the form of a ring is provided with the draw-in groove that is connected with described fixture block coupling; The rounded end of described clutch seat board contacts with described U-lag coupling, makes described clutch seat board drive described gear plate in the process that swings and moves.

Beneficial effect:

the utility model electromechanical integration electronics lock lock body structure is simple, be skillfully constructed, wherein, pinion stand, drive plate and tongue switching turn and are assembled into one, can effectively key be stirred by arched gear plate that the torsion that turns passes to pinion stand and tongue switching turns, tongue switching is turned the master lock tongue is stretched out and retraction, all can realize the closing and open of door lock by key or door outer handle this moment, also can stir to turn by key power is passed to drive plate, make the drive plate rotation promote the latch bolt interlock and turn latch bolt is retracted, with respect to existing electronic lock body, the utility model not only structure connect compact, intensity is high, and is and simple, convenient and reliability is high, especially, sense switch by automatically controlled driving mechanism, detect the state of main tongue and latch bolt in good time, can effectively be with moving cam and promote the frame motion by the motor that starts automatically controlled driving mechanism, in on-of pin is advanced, shift fork is inboard, interior shift fork drives the clutch seat and swings, thereby extruding is stirred and is turned, make and stir that to kidnap moving latch bolt flexible, rapid operation not only, structure is connected firmly, and can efficiently realize electromechanical conversion unlatching or close door lock, operation than the automatically controlled driving mechanism of original electronic lock body is more stable, reliably, failure rate is low, the electromechanical integration conversion efficiency is high.

The utility model electromechanical integration electronics lock lock body removes when dextrorotation is turned, arched gear plate is changed into the gear plate of rectangular configuration and establishes U-lag at an end of the gear plate of this rectangular configuration, add the clutch seat board in the outer end of clutch seat again, gear plate one end of rectangular configuration is connected with an end in contact of clutch seat board by U-lag, when the lock body upside-down mounting, from holding within doors handle, outer shift fork is rotated, an end that the clutch seat is rotated and drive the clutch seat board swings, and the gear plate that promotes rectangular configuration moves; In the gear plate moving process of rectangular configuration, meeting driven gear seat and tongue switching turn rotation, and square tongue is got, door is from locking within doors, and whole process is not only simple to operate, and each organisation operations is reliable, and improved the applicability of lock body, making locks a door becomes convenient.

Compare existing electronic lock body, lock body formal dress of the present utility model or anti-dress all can be up to the master lock tongue by handle, realize opening the door, and traveling mechanism is reasonable, and is easy to operate, install easily; Simultaneously, the thickness of original lock body generally at 21 ~ 26mm or 38 ~ 40mm or 30mm, width generally at 90mm, and the utility model lock thickness the thinlyyest can arrive 15mm, width is 85mm, compare that former lock body lock thickness of the present utility model is thinner, width is narrower, volume is also less, cost is low, can install with compatibility on existing a lot of security doors, applicability is stronger; No matter machinery uses that combine with electronics, or machinery, Electronic Control separate use and all are independent of each other, and have very high theftproof, are suitable for propagation and employment.

Description of drawings

Fig. 1 is the structural representation of the utility model electromechanical integration electronics lock lock body embodiment one;

Fig. 2 is each structure connection diagram that the utility model electromechanical integration electronics lock lock body opens the door by key;

Fig. 3 is each structure connection diagram that the utility model electromechanical integration electronics lock lock body embodiment one opens the door by handle;

Fig. 4 is the partial structurtes exploded view of the mechanical driving mechanism of the utility model electromechanical integration electronics lock lock body embodiment one;

Fig. 5 is the structural representation that in the mechanical driving mechanism of the utility model electromechanical integration electronics lock lock body embodiment one, tongue switching turns;

Fig. 6 is the structural representation of the mechanical driving mechanism middle gear seat of the utility model electromechanical integration electronics lock lock body embodiment one;

Fig. 7 is that three connection layouts between structure are turned in gear plate, pinion stand and the dextrorotation of the utility model electromechanical integration electronics lock lock body embodiment one;

Fig. 8 is the partial structurtes assembling drawing of the locking mechanism of the utility model electromechanical integration electronics lock lock body embodiment one;

Fig. 9 is the anti-plate structural representation of the insurance hypistoma component of the utility model electromechanical integration electronics lock lock body embodiment one;

Figure 10 is the partial structurtes assembling drawing of the dead bolt executing agency of the utility model electromechanical integration electronics lock lock body embodiment one;

Figure 11 is the interior shifting fork structure schematic diagram of the dead bolt executing agency of the utility model electromechanical integration electronics lock lock body embodiment one;

Figure 12 is that the stirring of dead bolt executing agency of the utility model electromechanical integration electronics lock lock body embodiment one turned structural representation;

Figure 13 is the structural representation of the utility model electromechanical integration electronics lock lock body embodiment two;

Figure 14 is the gear plate of the utility model electromechanical integration electronics lock lock body embodiment two and the partial structurtes assembly connection figure of dead bolt executing agency;

Figure 15 is the partial structurtes assembling drawing of the dead bolt executing agency of the utility model electromechanical integration electronics lock lock body embodiment two.

The accompanying drawing component part numbers:

The 1-lock housing

11-return moldings plate

12-U shape junction plate

The 2-mechanical driving mechanism

The 20-key is stirred and is turned

The 201-key hole

The 202-driving end

The 203-contact jaw

The 21-gear plate

The 211-chute

The 212-gathering sill

213-U shape groove

The 22-pinion stand

The 221-through hole

222-the first projection

The 223-toothed disc

224-the second projection

The 23-drive plate

The 231-flat end

The 232-bending end

The 24-tongue switching turns

The 241-fixed end

The 242-free end

The 243-groove

The 244-tongue switching turns post

25-master lock tongue

26-dextrorotation is turned

The 261-crank throw

262-directly turns

The 3-locking mechanism

31-master lock tongue

311-master lock tongue axle

312-stirs groove

The 32-latch bolt

321-latch bolt head

The 322-uvula

The 323-oblique tongue rod

The 324-block

The interlock of 33-latch bolt is turned

331-the first retaining wall

332-the second retaining wall

333-the first connecting lever

334-the second connecting lever

The 34-gripper shoe

35-dead bolt back-moving spring

36-linkage block spring

The 37-insurance hypistoma component

The 371-safety tongue

The 372-safeguard

373-safeguard axle sleeve

374-insures tongue

375-prevents plate

376-prevents dialing spring

377-the first projection

378-the second projection

4-dead bolt executing agency

41-clutch seat

411-stirs pivot angle

The 412-on-of pin

413-clutch spring

The 414-stopper slot

The 415-lug boss

The 416-fixture block

The outer shift fork of 42-

The 421-limited block

Shift fork in 43-

Dial projection in 431-

44-stirs and turns 44

441-first stirs and turns

442-second stirs and turns

443-turns spring

45-clutch seat board

The 451-draw-in groove

The automatically controlled driving mechanism of 5-

The 51-motor

The 52-electric machine assembly

The 53-eccentric wheel

54-promotes frame

The 55-switch base

The 56-sense switch

The specific embodiment

The below further describes the utility model electromechanical integration electronics lock lock body with two specific embodiments:

Embodiment 1

As shown in Fig. 1 to 12, the utility model electromechanical integration electronics lock lock body comprises lock housing 1 and is located at lock housing 1 interior mechanical driving mechanism 2, locking mechanism 3, dead bolt executing agency 4 and automatically controlled driving mechanism 5.

Lock housing 1 is used for carrying mechanical driving mechanism 2, locking mechanism 3, dead bolt executing agency 4 and automatically controlled driving mechanism 5, and lock housing 1 is roughly rectangular, and the two ends that the one side is provided with return moldings plate 11, one sides are provided with for the U-shaped junction plate 12 that assembles.

Mechanical driving mechanism 2 comprise key stir turn 20, gear plate 21, pinion stand 22, drive plate 23, tongue switching turn 24, master lock tongue 25 and dextrorotation turn 26.

Key is stirred and is turned 20 and be located at drive plate 23 1 sides, comprise key hole 201, driving end 202 and contact jaw 203, it is cross that key hole 201 roughly is, lateral wall and each interval that driving end 202 and contact jaw 203 all are located at key hole 201 come, wherein, the outer end of contact jaw 203 is convex; Stir when key and turn 20 when rotating to an angle, key is stirred and is turned 20 driving end 202 and can contact with the end of gear plate 21.

Gear plate 21 is positioned at lock housing 1 one sides, and it is arc that gear plate 21 roughly is, and the middle part is arch portion to the curving projection, and the inboard of stage casing arch portion is provided with roughly curved chute 211, one ends and is provided with tooth with pinion stand 22 coupling engagements; The two ends of gear plate 21 are rectangular and be equipped with gathering sill 212, can make gear plate 21 stirred linearly displacement when turning 20 driving end 202 extruding by key by gathering sill 212.

Pinion stand 22 couplings are arranged at gear plate 21 1 sides, pinion stand 22 is structure as a whole, roughly rectangular through hole 221, the one end lateral walls that inside is provided with for mounting knob are provided with the first projection 222 that roughly is fan-shaped, and joining with the first projection 222 is provided with toothed disc 223; Wherein, the other end of pinion stand 22 is provided with the second projection 224 that roughly is fan-shaped along the end face circumference, linearly during displacement, can come driven gear seat 22 to rotate together when gear plate 21 by toothed disc 223.

Drive plate 23 is sheathed on pinion stand 22 and with toothed disc 223 1 contacts side surfaces of pinion stand 22 and is connected, comprise flat end 231 and bending end 232, flat end 231 is held level with both hands directly by one of drive plate 23 and is extended to form, bending end 232 by the other end of drive plate 23 first to a lateral buckling again horizontal-extending form, wherein, drive plate 23 is rotatable under external force.

Tongue switching turns 24 and is sheathed on pinion stand 22 1 ends, and namely gear plate 23 toothed disc 223 and the tongue switching that are located in pinion stand 22 turns between 24; Tongue switching turns 24 and roughly is the racket shape, comprises fixed end 241 and free end 242, and wherein, the end face of fixed end 241 is provided with the groove 243 that the second projection 224 with pinion stand 22 adapts, and the outer end of free end 242 is provided with tongue switching and turns post 244.

One end coupling of master lock tongue 25 is set in key and stirs and turn on 20, and other end coupling is set in the tongue switching that tongue switching turns 24 free end 242 and turns on post 244.

Dextrorotation is turned 26 couplings and is arranged at gear plate 21 stage casing one sides, comprises crank throw 261 and directly turns 262, and crank throw 261 is turned 26 outwardly-bent the extending to form in an end by dextrorotation, directly turns 262 and turns outside straight the extending to form in the other end of 26 by dextrorotation; Crank throw 261 and directly turn 262 between arrange at an angle, wherein, directly turn 262 end roughly rounded and with the chute 211 of gear plate 21 mutually coupling contact.

Locking mechanism 3 comprises that master lock tongue 31, latch bolt 32, latch bolt interlock turn 33, gripper shoe 34, dead bolt back-moving spring 35, linkage block spring 36 and insurance hypistoma component 37.

The tongue switching that master lock tongue 31 couplings are arranged at mechanical driving mechanism 2 turns 24 1 sides, the middle part is provided with master lock tongue axle 311, afterbody one side is provided with stirs groove 312, master lock tongue axle 311 is arranged in master lock tongue 311 middle parts and the end coupling is fastened in the guide groove of lock housing 1 bottom surface, master lock tongue 31 can move around in the guide groove of lock housing 1 bottom surface by master lock tongue axle 311 under external force, makes the master lock tongue flexible back and forth; Stirring groove 312 and tongue switching turns 24 free end 242 and is complementary; Tongue switching turns 24 free end, 242 couplings and is arranged in and stirs groove 312 inboards, can drive master lock tongue 31 telescopic moving back and forth when tongue switching turns 24 when swinging.

Latch bolt 32 comprises latch bolt 321, uvula 322, oblique tongue rod 323 and block 324 between insurance hypistoma component 37 and automatically controlled driving mechanism 5, wherein, uvula 322 is arranged at latch bolt 321 inboard; One end of oblique tongue rod 323 is worn and is penetrated latch bolt 321 afterbody, and the other end is worn and penetrated latch bolt interlock and turn 33; It is inboard that block 324 is articulated in latch bolt 321 middle parts, and by lock housing 1 sidewall gear in lock housing 1 inboard; Oblique tongue rod 323 can promote under external force block 324 and swing and promote together latch bolt 321 and stretch out to lock housing 1 outside.

The latch bolt interlock is turned 33 and is sheathed on the oblique tongue rod 323 of latch bolt 32, can move around under external force, comprise the first retaining wall 331, the second retaining wall 332, the first connecting lever 333 and the second connecting lever 334, wherein, the first retaining wall 331 is to turn 33 both ends by the latch bolt interlock to be bent to form to a side is vertical with the second retaining wall 332, the first connecting lever 333 and the second connecting lever 334 are convexly set in respectively the both ends that 33 opposite sides are turned in the latch bolt interlock, and the second connecting lever 334 contacts with the bending end 232 of drive plate 23 in mechanical driving mechanism 2; When drive plate 23 rotation, the bending end 232 of drive plate 23 can push the second connecting lever 334, thereby makes the latch bolt interlock turn 33 to a side shifting;

Gripper shoe 34 is sheathed on the oblique tongue rod 323 of latch bolt 32, turns in latch bolt interlock between 33 the first retaining wall 331 and the second retaining wall 332; Dead bolt back-moving spring 35 is sheathed on the oblique tongue rod 323 of latch bolt 32, turns in the interlock of latch bolt 321 afterbody and latch bolt on one section oblique tongue rod 323 between the first retaining wall 331 lateral walls of 33; Linkage block spring 36 also is sheathed on the oblique tongue rod 323 of latch bolt 32, turns in latch bolt interlock on the inside wall and one section oblique tongue rod 323 between gripper shoe 34 of the first retaining wall 331 of 33.

Insurance hypistoma component 37 is located between master lock tongue 31 and latch bolt 32, comprises safety tongue 371, safeguard 372, safeguard axle sleeve 373, insurance tongue 374, anti-plate 375 and anti-dialing spring 376; Wherein, safety tongue 371 is between safeguard 372 and anti-plate 375, and opposite end surface is respectively equipped with slide block, and the middle part is provided with rectangular through slot, and safety tongue 371 can slide along lock housing 1 bottom surface guide groove by its end face slide block under external force; Safeguard 372 roughly is sickleshaped, and an end is hinged by safeguard axle sleeve 373 and lock housing 1 bottom surface, and the other end passes rectangular through slot and anti-plate 375 1 end in contact of safety tongue 371 and withstand on the afterbody of latch bolt 321 when latch bolt 32 is stretched out; Insurance tongue 374 is set on safeguard axle sleeve 373, and a side pressure is connected on safeguard 372 middle parts, and the other end is crimped on the projection of lock housing 1 bottom surface; Anti-plate 375 is positioned at the latch bolt interlock and turns 33 1 sides, and an end is provided with the first projection 377 that contacts with safeguard 372 couplings, and the other end is provided with the second projection 378; Anti-plate 375 1 sides are provided with deep-slotted chip breaker, and the latch bolt interlock is turned 33 and retracted when mobile, and the deep-slotted chip breaker that the first connecting lever 333 of 33 can anti-plate 375 1 sides of extruding contact is turned in the latch bolt interlock, and anti-plate 375 is swung aside; Anti-dialing spring 376 is sheathed on the second projection 378 of anti-plate 375, and a side pressure is connected on the first projection 377, the projection crimping on the other end and lock housing 1 bottom surface.

Dead bolt executing agency 4 comprises clutch seat 41, outer shift fork 42, interior shift fork 43 and stirs and turn 44.

Clutch seat 41 is positioned at automatically controlled driving mechanism 5 one sides, the one end is arranged with a pair of pivot angle 411 of stirring, the other end is provided with on-of pin 412 and clutch spring 413, wherein, clutch spring 413 is sheathed on on-of pin 412 and to be installed in clutch seat 41 1 ends by clutch cover inner, on-of pin 412 can be pressed into clutch seat 41 inboards under external force, if after removing external force, on-of pin 412 can reset by automatic spring under 413 effects of clutch spring; Middle part medial extremity and the outboard end of clutch seat 41 are equipped with stopper slot 414 along circumference.

Outer shift fork 42 is installed in the outboard end of clutch seat 41, and its middle part is provided with the polygon fitting recess for the outer handle of dress, and excircle is provided with limited block 421, and wherein, limited block 421 is connected with stopper slot 414 couplings of clutch seat 41.

Interior shift fork 43 is installed in the medial extremity of clutch seat 41, its inner face is provided with roughly interior group of projection 431 of semicircular in shape along circumference, the middle part, outer end is provided with for dress inner handle polygon fitting recess, wherein, when on-of pin 412 puts in clutch seat 41 inboards under external force, this moment, when rotating interior shift fork 43 by external force, the interior group of projection 431 of interior shift fork 43 can contact with on-of pin 412, rotated with interior shift fork 43 thereby drive clutch seat 41.

Stir and turn 44 couplings and be arranged at clutch seat 41 1 sides, comprise that first stirs and turn 441, second and stir and turn 442 and turn spring 443, wherein, first stir turn an end and second of 441 stir turn that an end of 442 connects by axle sleeve and together with hinged with lock housing 1 bottom surface, first stirs and turns 441 the other end and second and stir and turn 442 positions, stage casing and be connected and fixed by axle sleeve, and second stirs and turn gripper shoe 34 that 442 other end coupling is fastened on locking mechanism 3 and latch bolt and link and turn between the second retaining wall 332 of 33; Turn spring 443 be sheathed on second stir turn 442 with the axle sleeve of hinged that end in lock housing 1 bottom surface on, a side pressure connects second and stirs and turn 442 position, stage casing axle sleeves, other end crimping lock housing 1 inside wall; Can make pivot angle 411 extruding second of stirring of clutch seat 41 stir the axle sleeve that turns 442 positions, stage casing when clutch seat 41 positive rotation or against rotation, make second to stir and turn 442 1 ends and turn the second retaining wall 332 of 33 toward a side oscillation and the latch bolt interlock of pushing locking mechanism 3, thereby the interlock of drive latch bolt is turned 33 and is moved, and latch bolt 32 is retracted.

Automatically controlled driving mechanism 5 arranges with dead bolt executing agency 4 couplings, comprise motor 51, electric machine assembly 52, eccentric wheel 53, promote frame 54, switch base 55 and sense switch 56, promote frame 54 and roughly be T-shaped, wherein, motor 51 is installed on lock housing 1 bottom surface by electric machine assembly 52, and is connected with promotion frame 54 by eccentric wheel 53; Motor 51 rotates and drives and promote frame 54 and stretch out toward a side when can drive eccentric wheel 53 towards a direction rotation startup, promote 54, frame the on-of pin 412 of the clutch seat 41 of dead bolt executing agency 4 is compressed into clutch seat 41 inboards, promote the past rightabouts of frame 54 and retract and break away from on-of pin 412 when motor 51 rotate to start to drive to another way; Sense switch 56 arranges by one group of adjacent right angle inner side edge of switch base 55 along lock housing 1, have three sense switches 56, wherein a pair of coupling key of being located at mechanical driving mechanism 2 is stirred and is turned 20 both sides, and the tongue switching that another one is located at mechanical driving mechanism 2 turns 24 1 sides.

The utility model embodiment 1 stirs when key and turns 20 upper, and it is the lock body formal dress in lower time that tongue switching turns 24; Otherwise, when key stir turn 20 under, it was formal dress when upper that tongue switching turns 24.

The below illustrates the electrical integrated electronic lock body course of work of Inventive machine of the utility model embodiment 1 take Fig. 1 lock body formal dress as example:

As shown in Fig. 1 to 12, when when turning the key in the lock outdoors, key is inserted key to be stirred and turns 20, key is stirred turn 20 and turned clockwise, key is stirred and is turned 20 driving end 202 extruding gear plates 21 and gear plate 21 is moved down, at this moment, turn clockwise and drive tongue switching at the drive lower tooth wheel seat 22 of gear plate 21 and turn 24 and swing clockwise, stir groove 312 inboards due to what tongue switching turned that 24 free end 242 is arranged in master lock tongue 31, therefore hold outer handle and can make tongue switching turn 24 to clockwise rotate, compression master lock tongue 25 also makes master lock tongue 31 retract; Meanwhile, move down when putting in place at gear plate 21, key is stirred and is turned the sense switch 56 that 20 contact jaw 203 can the automatically controlled driving mechanisms 5 of touching, master lock tongue 31 can be touched another sense switch 56 of automatically controlled driving mechanism 5 after retraction puts in place, and then give 51 1 signals of motor, make motor 51 rotate and drive promotion frame 54 with on-of pin 412 propelling clutch seat 41 inboards; At this moment, the key that continues to turn clockwise under master lock tongue 31 has been retracted the prerequisite that puts in place is stirred and is turned 20, key is stirred turn 20 driving end 202 extruding drive plates 23 to be rotated counterclockwise, thereby the second connecting lever 334 of 33 is turned in the bending end 232 extruding latch bolt interlocks that make drive plate 23, thereby make the latch bolt interlock turn 33 and carry latch bolt 32 retractions, latch bolt 32 is in the retraction process, latch bolt 321 can the extruding safeguard 372 ends, the first connecting lever 333 of 33 is turned in simultaneously latch bolt interlock also can push anti-plate 375, make safeguard 372 drive safety tongue 371 and retract together, door can be opened;

Otherwise, when when locking a door outdoors, first key is stirred turn 20 by key and turned clockwise, latch bolt 32 and safety tongue 371 are retracted, Deng the door shut after, due to stir turn 44 under the effect of turning spring 443 counter-clockwise swing reset, can promote latch bolt interlock and turn 33 and move, make latch bolt 32 and safety tongue 371 got together; Latch bolt 32 lock complete after, press down again outer handle, making tongue switching turn 24 is rotated counterclockwise, turn at tongue switching under the acting in conjunction of the extruding of 24 free end 242 and master lock tongue 25, master lock tongue 31 ejects rapidly, meanwhile, master lock tongue 31 breaks away from sense switch 56, and tongue switching turns 24 and can be rotated counterclockwise and make gear plate 21 to move up by driven gear seat 22; Because the chute 211 of gear plate 21 turns 26 directly turn and 262 coordinate contact to be connected with just outstanding, therefore, just outstanding turn 26 can be along with gear plate 21 moves up and swings clockwise, at this moment just outstanding 26 261 of the crank throws of turning can push up oblique tongue rod 323 afterbodys that are pressed in latch bolt 32, at this moment, key stir turn 20 and latch bolt interlock turn 33 and also broken away from sense switch, on-of pin 412 retraction original positions, door is locked complete outside the room.

As shown in Figure 2, when by Internal handle within doors at closing time, because master lock tongue 31 is in retracted mode, latch bolt 32 and safety tongue 371 all are in the state of stretching out, on-of pin 412 has also put in clutch seat 41 inboards, only need press down Internal handle, makes interior shift fork 43 drive clutch seats 41 and turns clockwise and push to stir and turn 44, stir and turn 44 and clockwise swings and drives latch bolt and link and turn 33 and move, make latch bolt 32 retractions; When shutting behind the door, latch bolt 32 can be locked by automatic springs, safety tongue 371 ejection that also can reset;

When by handle when opening the door within doors, because master lock tongue 31 is in retracted mode, on-of pin 412 stretches into clutch seat 41 inboards, therefore, by pressing down Internal handle, interior shift fork 43 dextrorotations are transferred drive 41 rotations of clutch seat, by clutch seat 41 stir pivot angle 411 push stir turn 44 second stir the axle sleeve that turns 442 positions, stage casing, turn 44 and swing clockwise and drive the latch bolts interlock and turn 33 to a side shifting thereby make to stir, latch bolt 32 and safety tongue 371 are retracted, door can be opened.

Embodiment 2

As shown in Fig. 2 and Figure 13 to 15, the utility model embodiment 2 is identical with embodiment 1, also comprises lock housing 1 and is located at lock housing 1 interior mechanical driving mechanism 2, locking mechanism 3, dead bolt executing agency 4 and automatically controlled driving mechanism 5.

The electromechanical integration electronics lock lock body of the utility model embodiment 2 is with respect to the difference of embodiment 1:

The mechanical driving mechanism 2 of the utility model embodiment 2 comprise key stir turn 20, gear plate 21, pinion stand 22, drive plate 23, tongue switching turn 24 and master lock tongue 25, wherein, the gear plate 21 of the utility model embodiment 2 is roughly rectangular, two ends are respectively equipped with gathering sill 212, wherein a distolateral limit is provided with tooth, and other end side is provided with U-lag 213.

the dead bolt executing agency 4 of the utility model embodiment 2 comprises clutch seat 41, outer shift fork 42, interior shift fork 43, stir and turn 44 and clutch seat board 45, wherein, clutch seat 41 outer end end faces are provided with lug boss 415 along circumference, also be provided with fixture block 416 on lug boss 415, simultaneously, one end of clutch seat board 45 in the form of a ring and inner periphery be provided with draw-in groove 451, clutch seat board 45 an end coupling in the form of a ring is sheathed on the lug boss 415 of clutch seat 41 outer end end faces, draw-in groove 451 is complementary with fixture block 416, draw-in groove 451 is connected with fixture block 416 contacts, the other end of clutch seat board 45 is roughly rounded and be complementary with the U-lag 213 of gear plate 21 and contact.

The course of work of the electromechanical integration electronics lock lock body of the utility model embodiment 2:

as Fig. 2, 13, 14, shown in 15, when the electromechanical integration electronics of the utility model embodiment 2 is locked the lock body formal dress, key is inserted key to be stirred and turns 20, key is stirred turn 20 and turned clockwise, key is stirred and is turned 20 driving end 202 extruding gear plates 21 and gear plate 21 is moved down, at this moment, turn clockwise and drive tongue switching at the drive lower tooth wheel seat 22 of gear plate 21 and turn 24 and swing clockwise, stir groove 312 inboards due to what tongue switching turned that 24 free end 242 is arranged in master lock tongue 31, therefore holding outer handle can make tongue switching turn 24 to clockwise rotate, compression master lock tongue 25 also retracts master lock tongue 31, meanwhile, move down when putting in place at gear plate 21, key is stirred and is turned the sense switch 56 that 20 contact jaw 203 can the automatically controlled driving mechanisms 5 of touching, master lock tongue 31 can be touched another sense switch 56 of automatically controlled driving mechanism 5 after retraction puts in place, and then give 51 1 signals of motor, motor 51 is rotated and pass through promotion frame 54 with on-of pin 412 propelling clutch seat 41 inboards, at this moment, the key that continues to turn clockwise under master lock tongue 31 has been retracted the prerequisite that puts in place is stirred and is turned 20, key is stirred turn 20 driving end 202 extruding drive plates 23 to be rotated counterclockwise, thereby the second connecting lever 334 of 33 is turned in the bending end 232 extruding latch bolt interlocks that make drive plate 23, thereby make the latch bolt interlock turn 33 and carry latch bolt 32 retractions, latch bolt 32 is in the retraction process, latch bolt 321 can the extruding safeguard 372 ends, the first connecting lever 333 of 33 is turned in simultaneously latch bolt interlock also can push anti-plate 375, make safeguard 372 drive safety tongue 371 and retract together, door can be opened,

Otherwise, when when locking a door outdoors, first key is stirred turn 20 by key and turned clockwise, latch bolt 32 and safety tongue 371 are retracted, Deng the door shut after, due to stir turn 44 under the effect of turning spring 443 counter-clockwise swing reset, can promote latch bolt interlock and turn 33 and move, make latch bolt 32 and safety tongue 371 got together; Latch bolt 32 lock complete after, press down again outer handle, making tongue switching turn 24 is rotated counterclockwise, turn at tongue switching under the acting in conjunction of the extruding of 24 free end 242 and master lock tongue 25, master lock tongue 31 ejects rapidly, meanwhile, master lock tongue 31 breaks away from sense switch 56, and tongue switching turns 24 and can be rotated counterclockwise and make gear plate 21 to move up by driven gear seat 22; Because the rounded end of the U-lag 213 of gear plate 21 and clutch seat board 45 coordinates contact to be connected, therefore, clutch seat board 45 can be along with gear plate 21 moves up and counter-clockwise swing, at this moment, key stir turn 20 and latch bolt interlock turn 33 and also broken away from sense switch, on-of pin 412 retraction original positions, door is locked complete outside the room.

When by handle when opening the door within doors, because master lock tongue 31 is in retracted mode, on-of pin 412 stretches into clutch seat 41 inboards, therefore, by pressing down Internal handle, interior shift fork 43 dextrorotations are transferred drive 41 rotations of clutch seat, by clutch seat 41 stir pivot angle 411 push stir turn 44 second stir the axle sleeve that turns 442 positions, stage casing, turn 44 and swing clockwise and drive the latch bolts interlock and turn 33 to a side shifting thereby make to stir, latch bolt 32 and safety tongue 371 are retracted, door can be opened; Otherwise when locking a door within doors, only need first press down Internal handle, latch bolt 32 and safety tongue 371 are retracted, after waiting door to shut, the ejection that can automatically reset of latch bolt 32 and safety tongue 371.

when the electromechanical integration electronics of the utility model embodiment 2 is locked the lock body upside-down mounting, interior shift fork 43 is in outside the room, outer shift fork 42 is within doors, because master lock tongue 31 is in retracted mode, latch bolt 32 and safety tongue 371 all are in the state of stretching out, and on-of pin 412 has also put in clutch seat 41 inboards, this moment is first from pressing down within doors handle, make outer shift fork 42 drive clutch seats 41 and rotate and push to stir and turn 44, stir and turn 44 and swing and drive latch bolt and link and turn 33 and move, make latch bolt 32 and safety tongue 371 retractions, when shutting behind the door, latch bolt 32 can be locked by automatic springs, safety tongue 371 ejection that also can reset, wherein, because the rounded end of the U-lag 213 of gear plate 21 and clutch seat board 45 coordinates contact to be connected, at this moment drive outer shift fork 42 rotations from holding within doors handle, drive clutch seat 41 rotation together in outer shift fork 42 rotary courses, driving clutch seat board 45 in clutch seat 41 rotary courses swings, make rounded one the bringing in and promote gear plate 21 and move of clutch seat board 45, gear plate 21 move can driven gear seat 22 and tongue switching turn 24 and rotate, thereby master lock tongue 31 is got, at this moment, because master lock tongue 31 breaks away from sense switch 56, can be to 51 1 signals of motor, motor 51 is rotated and make and promote frame 54 disengaging on-of pins 412, on-of pin 412 resetted and ejected clutch seat 41 inboards this moment, this moment pulling handle no matter how outside the room, 43 of interior shift forks can dally, door can't be opened, door is from locking successfully within doors.

After the lock body assembling of the utility model embodiment 1 and embodiment 2 is completed, due to the thickness of original lock body generally at 21 ~ 26mm or 38 ~ 40mm or 30mm, width generally at 90mm, and the integral thickness of the utility model electronic lock body is 85mm at 15 ~ 20mm, width, therefore, than original electronic lock body, electronic lock body thickness of the present utility model is thinner, and volume is less, and applicability is stronger.

The electromechanical integration electronics of the utility model embodiment 1 and embodiment 2 lock lock body, no matter formal dress or upside-down mounting can be opened the master lock tongue by handle; Lock body structure is simple, compact simultaneously, traveling mechanism is reasonable, intensity is high, the reliability of electromechanical conversion is high, have than traditional mechanical lock the effect that more convenient operation is used, machinery combines with electronics, machinery, Electronic Control are separately used and are independent of each other with being combined with, and theftproof performance is high, can suitability for industrialized production.

Claims (10)

1. electromechanical integration electronics lock lock body comprises lock housing and is installed in mechanical driving mechanism, locking mechanism, dead bolt executing agency and automatically controlled driving mechanism on described lock housing; It is characterized in that:

Described mechanical driving mechanism comprises that the key of being located at described lock housing one end inboard is stirred and turns, is located at described key and stir the gear plate that turns a side, turn with an end coupling meshed gears seat of described gear plate and the tongue switching that is installed in described pinion stand one end; Described key is stirred and is turned rotation and contact and push described gear plate with described gear plate and move, and the described gear plate described pinion stand of drive and tongue switching is turned together rotate;

The latch bolt interlock that described locking mechanism comprises the master lock tongue being located at described tongue switching and turning a side, be located at the latch bolt of described master lock tongue one side and be installed in described latch bolt one end is turned; One end of described master lock tongue turns with described tongue switching and contacts, and described tongue switching is turned drive described master lock tongue moving telescopic in rotary course; One end of described latch bolt turns with described latch bolt interlock and contacts, and described latch bolt interlock is turned drive described latch bolt moving telescopic together in moving process;

Described dead bolt executing agency comprises that being located at described latch bolt interlock turns clutch seat, the coupling of a side and be arranged at interior shift fork and the outer shift fork that the inside and outside two ends of described clutch seat were turned and be located at respectively to stirring of described clutch seat one side; One end of described clutch seat is provided with on-of pin, the other end swing with described stir to turn contact, make described clutch seat push when rotating described stir to turn swing aside; It is inboard that described on-of pin stretches into described clutch seat under external force, makes described interior shift fork rotate and drive described clutch seat and rotate together; Describedly stir the bottom surface that an end that turns is articulated in described lock housing, the other end turns with described latch bolt interlock and contacts, make described stir to turn drive described latch bolt interlock turn and move around in swing process;

Described automatically controlled driving mechanism comprises the motor of being located at described clutch seat one side, the eccentric wheel that is connected with described motor and the promotion frame that is connected with described eccentric wheel; The described eccentric wheel of described motor-driven rotates, and makes described eccentric wheel drive in rotation process that described promotion frame moves and to the described on-of pin application of force, and described on-of pin is pushed described clutch seat inboard.

2. electromechanical integration electronics as claimed in claim 1 is locked lock body, and it is characterized in that: described gear plate roughly is arc, and two ends are respectively equipped with gathering sill, and arch portion inboard, stage casing is provided with chute; Described gear plate is stirred under the extruding of turning the side straight-line displacement along described lock housing at described key.

3. electromechanical integration electronics as claimed in claim 2 is locked lock body, and it is characterized in that: an end of described master lock tongue is provided with stirs groove; The end that described tongue switching turns is connected with described pinion stand, and the other end turns by described tongue switching and swung with described by external force to stir side contacts in groove, described tongue switching is turned drive described master lock tongue when rotating to move.

4. electromechanical integration electronics as claimed in claim 1 lock lock body is characterized in that: described latch bolt comprises the latch bolt head, be located at the uvula of described latch bolt head inboard, be located at the oblique tongue rod of described latch bolt head-tail and be articulated in the block of described latch bolt head inboard; Described oblique tongue rod is subjected to external force can promote that described block swings and drive described latch bolt head and uvula moves together;

The interlock of described latch bolt is turned and is slidably connected on described oblique tongue rod, comprises being turned the first retaining wall, the second retaining wall that both ends form to a lateral buckling and being convexly set in described latch bolt by described latch bolt interlock linking and turning the first connecting lever and second connecting lever at opposite side two ends;

Be provided with gripper shoe between described the first retaining wall and the second retaining wall, be arranged with the dead bolt back-moving spring on one section described oblique tongue rod between described latch bolt head-tail and described the first retaining wall, be arranged with the linkage block spring on one section described oblique tongue rod between described the first retaining wall and described gripper shoe.

5. electromechanical integration electronics as claimed in claim 4 lock lock body, it is characterized in that: an end of described clutch seat is provided with stirs pivot angle, and other end inboard is provided with the clutch spring with described on-of pin coupling, and the circumference at two ends is provided with stopper slot inside and outside the described clutch seat;

Contact and push described stirring and turn by the described pivot angle of stirring when described clutch seat rotates;

The excircle of described outer shift fork is provided with the limited block that is connected with described stopper slot coupling;

The inner face of described interior shift fork is provided with roughly interior group of projection of semicircular in shape, dials projection in described and contacts with the on-of pin that stretches into described clutch seat inboard;

Described stirring turned coupling and is located at described clutch seat one side, is arranged with the hinged end in described lock housing bottom surface and turns spring, and other end coupling is arranged between described gripper shoe and the second retaining wall.

6. described electromechanical integration electronics lock lock body as arbitrary in claim 1 to 5 is characterized in that: described mechanical driving mechanism comprises that also the dextrorotation of being located at described gear plate one side turns and be located in described pinion stand and the tongue switching drive plate between turning;

One end of described drive plate contacts with described the second connecting lever, and the other end and described key are stirred and turned rotating contact;

Described dextrorotation is turned and is comprised and directly turning and crank throw; Described directly turning with described chute coupling contacts, and makes described gear plate drive described dextrorotation in moving process and turns rotation; Described crank throw is when described dextrorotation is turned to a sideway swivel and an end in contact of described oblique tongue rod.

7. described electromechanical integration electronics as arbitrary in claim 1 to 5 is locked lock body, it is characterized in that: described locking mechanism also comprises the insurance hypistoma component of being located between described master lock tongue and latch bolt, and described insurance hypistoma component comprises safety tongue, safeguard, safeguard axle sleeve, insurance tongue, anti-plate and anti-dialing spring;

Described safety tongue is between described safeguard and anti-plate and can slide in described lock housing bottom surface;

One end of described safeguard and described lock housing bottom surface are hinged and also be arranged with described insurance tongue, and the other end is worn an end in contact of penetrating described safety tongue and described anti-plate;

Described anti-plate is positioned at the side that described latch bolt interlock is turned, and an end contacts with described safeguard coupling, and the other end is arranged with described anti-dialing spring.

8. electromechanical integration electronics as claimed in claim 7 is locked lock body, it is characterized in that: a side that drives described the first described anti-plate of connecting lever extruding when a side is retracted is turned in described latch bolt interlock, makes the described anti-plate described safeguard of extruding and described safety tongue is retracted.

9. electromechanical integration electronics lock lock body comprises lock housing and is installed in mechanical driving mechanism, locking mechanism, dead bolt executing agency and automatically controlled driving mechanism on described lock housing; It is characterized in that: described mechanical driving mechanism comprises that the key of being located at described lock housing one end inboard is stirred and turns, is located at described key and stir the gear plate that turns a side, turn with an end coupling meshed gears seat of described gear plate and the tongue switching that is installed in described pinion stand one end; Described key is stirred and is turned rotation and contact and push described gear plate with described gear plate and move, and the described gear plate described pinion stand of drive and tongue switching is turned together rotate;

The latch bolt interlock that described locking mechanism comprises the master lock tongue being located at described tongue switching and turning a side, be located at the latch bolt of described master lock tongue one side and be installed in described latch bolt one end is turned; One end of described master lock tongue turns with described tongue switching and contacts, and described tongue switching is turned drive described master lock tongue moving telescopic in rotary course; One end of described latch bolt turns with described latch bolt interlock and contacts, and described latch bolt interlock is turned drive described latch bolt moving telescopic together in moving process;

Described dead bolt executing agency comprises that being located at described latch bolt interlock turns clutch seat, the coupling of a side and be arranged at interior shift fork and the outer shift fork that the inside and outside two ends of described clutch seat were turned and be located to stirring of described clutch seat one side; One end of described clutch seat is provided with on-of pin, the other end swing with described stir to turn contact, make described clutch seat push when rotating described stir to turn swing aside; It is inboard that described on-of pin stretches into described clutch seat under external force, makes described interior shift fork rotate and drive described clutch seat and rotate together; Describedly stir the bottom surface that an end that turns is articulated in described lock housing, the other end turns with described latch bolt interlock and contacts, make described stir to turn drive described latch bolt interlock turn and move around in swing process;

Described dead bolt executing agency also comprises the clutch seat board; One end of described clutch seat board is sheathed on the outer end of described clutch seat, and the other end contacts with described gear plate, makes described outer shift fork drive described clutch seat board in rotation process and swings and promote described gear plate and move;

Described automatically controlled driving mechanism comprises the motor of being located at described clutch seat one side, the eccentric wheel that is connected with described motor and the promotion frame that is connected with described eccentric wheel; The described eccentric wheel of described motor-driven rotates, and makes described eccentric wheel drive in rotation process that described promotion frame moves and to the described on-of pin application of force, and described on-of pin is pushed described clutch seat inboard.

10. electromechanical integration electronics as claimed in claim 9 is locked lock body, and it is characterized in that: described gear plate roughly is apart from shape, and two ends are respectively equipped with gathering sill, and wherein a distolateral limit is provided with tooth, and other end side is provided with U-lag; The outer face of described outer shift fork is provided with lug boss along circumference, and described lug boss is extended with fixture block to a side;

One end of described clutch seat board in the form of a ring, the other end is roughly rounded; A described clutch seat board end inner periphery in the form of a ring is provided with the draw-in groove that is connected with described fixture block coupling; The rounded end of described clutch seat board contacts with described U-lag coupling, makes described clutch seat board drive described gear plate in the process that swings and moves.

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