CN101871284A - Mechatronic anti-theft lock body - Google Patents

Mechatronic anti-theft lock body Download PDF

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Publication number
CN101871284A
CN101871284A CN 201010182761 CN201010182761A CN101871284A CN 101871284 A CN101871284 A CN 101871284A CN 201010182761 CN201010182761 CN 201010182761 CN 201010182761 A CN201010182761 A CN 201010182761A CN 101871284 A CN101871284 A CN 101871284A
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CN
China
Prior art keywords
dead bolt
shift fork
drive
pin
driven
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Granted
Application number
CN 201010182761
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Chinese (zh)
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CN101871284B (en
Inventor
刘茂胜
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Individual
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Individual
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Priority to CN2010101827615A priority Critical patent/CN101871284B/en
Publication of CN101871284A publication Critical patent/CN101871284A/en
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Publication of CN101871284B publication Critical patent/CN101871284B/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The invention provides a mechatronic anti-theft lock body, which comprises a bolt actuating unit, a locking unit, a mechanical drive unit and an electric drive unit. The mechanical drive unit can be driven by a mechanical key to rotate so as to drive the locking unit to unlock or lock a door lock. In the specific use, handles in and out the door can be rotated in opposite directions to drive the main bolt to extend out or retract to lock or unlock the door lock, and the motor of the electric drive unit can be started through connecting a power supply and the like, thereby realizing mechatronic switching of unlocking and locking of the door lock. The invention can effectively solve the existing problem of non-efficient switching of mechanical unlocking and electric unlocking, and can also solve the problems that the structure of the conventional electronic anti-theft lock is complex, the strength of the conventional electronic anti-theft lock is low, and particularly the motor driving mechanism can not work stably, thereby causing low reliability in mechatronic switching.

Description

A kind of Mechatronic anti-theft lock body
Technical field
The present invention relates to a kind of lockset, more specifically be meant a kind of Mechatronic anti-theft lock body.
Background technology
Present theftproof lock lock body is divided into full mechanical anti-theft lock lock body and electronic intelligence theftproof lock lock body.Full mechanical anti-theft lock is progressively replaced by electronic safety lock because of the inconvenience of locking a door (will use mechanical key could open or locking) incompatibility modern's life characteristic more and more,
Yet existing electronic safety lock, have because the problem that the design of motor clutch exists defective to cause the easy appearance of door lock can not open or can not locking.The electronic safety lock that has causes door lock to break down because the design of dead bolt transmission mechanism is unreasonable.What have causes realizing that machinery is unblanked and electronic effective conversion of unblanking because of dead bolt transmission mechanism and cooperating of motor clutch are unreliable.And its structure relative complex of these common electronic safety locks, intensity is relatively poor, the fluctuation of service of motor-driven mechanism particularly, causes the reliability of its electromechanical conversion lower.In addition, in concrete the use, occur easily that machinery is unblanked and automatically controlledly unblank separately to use or combine when using, both interactional problems occur.
Summary of the invention
The invention provides a kind of Mechatronic anti-theft lock body, 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 the door, outer handle holds and can drive main dead bolt of the present invention 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.The present invention can effectively solve the machinery of present existence and unblank and the electronic problem that can not effectively change of unblanking, and this is to be first purpose of the present invention.
The invention provides a kind of Mechatronic anti-theft lock body, it can solve its structure relative complex of common electronic safety lock, intensity is relatively poor, the fluctuation of service of motor-driven mechanism particularly, the lower problem of reliability that causes its electromechanical conversion, by special structure design of the present invention, the present invention has the more convenient effect of manipulating than traditional mechanical lock body, compare simple in structure with other electronic lock body, traveling mechanism is reasonable, intensity is better, motor particularly of the present invention and gear train operation are highly stable, the reliability of electromechanical conversion is very high, simultaneously can with the installation compatibility of the pure mechanical lock body used on the existing security door, machinery combines with electronics (but external circuit plate control motor-driven mechanism), machinery, Electronic Control is separately used with being used in combination and is independent of each other, the theftproof performance height can suitability for industrialized production.And this is to be second purpose of the present invention.
The technical solution used in the present invention is: a kind of Mechatronic anti-theft lock body, comprise the dead bolt performance element, the locking unit, mechanical driving unit and this driven by power unit, wherein, this dead bolt performance element comprises shifting part, interior shift fork and outer shift fork, wherein, be somebody's turn to do interior shift fork and be somebody's turn to do the two ends up and down that outer shift fork can be rotatably set in this shifting part respectively, make and to drive this shifting part rotation when shift fork rotates to extreme position in this separately, this shifting part is provided with on-of pin, this on-of pin is done the inside that the time spent can stretch to shift fork outside this being subjected to external force, should outer shift fork and this shifting part be fixed together.
This locking unit comprises main dead bolt, upper slide and lower skateboard, wherein, this main dead bolt is arranged between this upper slide and this lower skateboard, when being moved, this main dead bolt drives this upper slide and this lower skateboard moves around on this main dead bolt, this main dead bolt contacts with this shifting part, drive this main dead bolt when making the rotation of this shifting part and do translational motion, thereby drive this upper slide and this lower skateboard moves.
This mechanical driving unit comprises the key shift fork and key is driven turns, wherein, driven the turning of this key shift fork and this key is meshing with each other together, driven the turning with the shifting part of this dead bolt performance element of this key contacts, make that this key is driven to turn rotation and the time can drive this shifting part rotation, and then make this shifting part drive this main dead bolt to do translational motion.
This driven by power unit comprises motor, gear train and catch wherein, this gear train is connected with this motor, rotate by this gear train of this driven by motor, this catch is arranged on the outside of this shifting part and can moves toward this on-of pin direction place, this catch is connected with this gear train, move toward this on-of pin direction place by this catch of this gear set drive, and can apply external force, on-of pin is pushed into this outer shift fork inside to this on-of pin.
This shifting part comprises moving arm and mount pad, this moving arm is fixedly installed on the outside of this mount pad, the two ends up and down of this mount pad are concaved with recess, this mount pad also is provided with pin-and-hole, be placed with spring in this pin-and-hole, this on-of pin is installed in this pin-and-hole by a closure member, and makes this on-of pin move around at the two ends of pin-and-hole.
Should in shift fork relatively and this recess be provided with limited block, so that when shift fork rotates in this, this limited block moves in this recess, and when this limited block contacts with the end of this recess, drive this sliding piece by limited block and rotate, this outer shift fork is provided with stopper slot with respect to this on-of pin, after this on-of pin is subjected under the external force effect, after this on-of pin stretches to this stopper slot, should outer shift fork and this shifting part be fixed together.
This main dead bolt is provided with axis hole and stirs breach, the moving arm of this shifting part is fastened on this and stirs in the breach, driving this main dead bolt by this moving arm when shifting part is rotated moves, one connecting axle is installed in this axis hole, the two ends end to end that this upper slide and this lower skateboard all are provided with gathering sill, this connecting axle are fastened on respectively in this gathering sill, and make and drive the interlock of this upper slide and this lower skateboard and make stretching routine up and down when this main dead bolt moves.
This gear train comprises driving gear, driven gear and handsetting gear, wherein, this driving gear is fixed on the main shaft of this motor, this driven gear meshes together with this driving gear and this handsetting gear respectively, this handsetting gear links together by a driving spring and this catch, one end of this driving spring is arranged on this catch, its other end is arranged on this gear train, driving this driving spring when this handsetting gear rotates rotates, and then drive this catch and move toward this on-of pin direction place, by this catch this on-of pin is pushed this outer shift fork inside again.
This locking unit also comprises and is arranged on this key shift fork and this key is driven between turning slow-witted dead bolt and be installed in the driven slow-witted tongue that turns of this key and drive and turn, should be provided with the driving breach by slow-witted dead bolt, this slow-witted tongue drives to turn and is provided with actuating arm, this actuating arm is fastened on and drives in the breach, drive when rotating and should move by slow-witted dead bolt when this slow-witted tongue drives to turn, this actuating arm is connected with this key shift fork by a torque spring.
This locking unit also comprises oblique tongue and oblique tongue driven unit, and tiltedly the tongue driven unit comprises first drive plate, second drive plate and oblique tongue sliding seat, and this oblique tongue is fixed on this oblique tongue sliding seat, drives this oblique tongue and move when this oblique tongue sliding seat moves.
The middle part of this first drive plate and this second drive plate is provided with axis hole, one end of this first drive plate and second drive plate is separately positioned on the both sides up and down of this oblique tongue sliding seat, the other end of this first drive plate is arranged on the outside of shift fork in this, make when shift fork rotates in this and can touch this first drive plate, and to drive this first drive plate be that rotate in the axle center with its axis hole, equally, the other end of this second drive plate is arranged on the outside of this outer shift fork, make this outer shift fork can touch this second drive plate, and to drive this second drive plate be that rotate in the axle center with its axis hole, and this first drive plate or this second drive plate can both drive this oblique tongue sliding seat when rotating and move.
This driven by power unit comprises that also main dead bolt sense switch, key sense switch, this main dead bolt sense switch of attachment plug are arranged on the rear side of this main dead bolt, make this main dead bolt can touch this main dead bolt sense switch, be connected with external power source or wiring board etc. by attachment plug motor is rotated, after this main dead bolt sense switch is return and touched to main dead bolt after unblanking, produce a reverse signal by this main dead bolt sense switch, this reverse signal is passed on the wiring board and drives this motor counter-rotating, thereby this gear train of this motor-driven is rotated.
Beneficial effect of the present invention is: it structurally comprises the dead bolt performance element the present invention, 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 the door, outer handle holds and can drive main dead bolt of the present invention 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, its machinery that can effectively solve present existence is unblanked and the electronic problem that can not effectively change of unblanking, invent it and can solve its structure relative complex of common electronic safety lock, intensity is relatively poor, the fluctuation of service of motor-driven mechanism particularly, the lower problem of reliability that causes its electromechanical conversion, by special structure design of the present invention, the present invention has the more convenient effect of manipulating than traditional mechanical lock body, compare simple in structure with other electronic lock body, traveling mechanism is reasonable, intensity is better, motor particularly of the present invention and gear train operation are highly stable, the reliability of electromechanical conversion is very high, simultaneously can with the installation compatibility of the pure mechanical lock body used on the existing security door, machinery combines with electronics (but external circuit plate control motor-driven mechanism), machinery, Electronic Control is separately used with being used in combination and is independent of each other, the theftproof performance height can suitability for industrialized production.
Description of drawings
Fig. 1 is the overall structure schematic diagram of embodiments of the invention.
Fig. 2 is the perspective view of embodiments of the invention;
Fig. 3 is the schematic perspective view of the dead bolt performance element of embodiments of the invention.
Fig. 4 is being subjected to external force stretches to shift fork inside outside this as the time spent schematic diagram for the on-of pin of embodiments of the invention.
Fig. 5 is the schematic perspective view of the locking unit of embodiments of the invention.
Fig. 6 is the schematic perspective view of the mechanical driving unit of embodiments of the invention.
Fig. 7 is the schematic perspective view of the driven by power unit of embodiments of the invention.
Fig. 8 is the schematic diagram that the dead bolt performance element of embodiments of the invention cooperates with oblique tongue driven unit and mechanical driving unit.
The specific embodiment
To Figure 7 shows that a kind of preferable specific embodiment of the present invention, a kind of Mechatronic anti-theft lock body comprises dead bolt performance element 10, locking unit 20, mechanical driving unit 30 and this driven by power unit 40 as Fig. 1, wherein,
As shown in Figure 3, Figure 4, this dead bolt performance element 10 comprises shifting part 11, interior shift fork 12 and outer shift fork 13, wherein, be somebody's turn to do interior shift fork 12 and be somebody's turn to do the two ends up and down that outer shift fork 13 can be rotatably set in this shifting part 11 respectively, make and to drive this shifting part 11 rotations when shift fork 12 rotates to extreme position in this separately, this shifting part 11 is provided with on-of pin 111, this on-of pin 111 is done the inside that the time spent can stretch to shift fork 13 outside this being subjected to external force, should be fixed together with this shifting part 11 by outer shift fork 13.
As shown in Figure 5, this locking unit 20 comprises main dead bolt 21, upper slide 22 and lower skateboard 23, wherein, this main dead bolt 21 is arranged between this upper slide 22 and this lower skateboard 23, when being moved, this main dead bolt 21 drives this upper slide 22 and this lower skateboard 23 moves around on this main dead bolt 21, this main dead bolt 21 contacts with this shifting part 11, drives this main dead bolt 21 when making these shifting part 11 rotations and does translational motion, moves with this lower skateboard 23 thereby drive this upper slide 22.
As Fig. 2, shown in Figure 6, this mechanical driving unit 30 comprises key shift fork 31 and key is driven turns 32, wherein, this key shift fork 31 and this key be driven to turn 32 and is meshing with each other together, this key is driven to turn 32 and contacts with the shifting part 11 of this dead bolt performance element 10, make when this key is driven to turn 32 rotations and can drive this shifting part 11 rotations, and then make these shifting part 11 these main dead bolts 21 of drive do translational motion.
As shown in Figure 2, this driven by power unit 40 comprises motor 41, gear train 42 and catch 43 wherein, this gear train 42 is connected with this motor 21, driving this gear train 42 by this motor 41 rotates, this catch 43 is arranged on the outside of this shifting part 11 and can moves toward these on-of pin 111 direction places, this catch 43 is connected with this gear train 42, driving this catch 43 by this gear train 42 moves toward these on-of pin 111 direction places, and can apply external force to this on-of pin 111, on-of pin 111 is pushed into this outer shift fork 13 inside.
Further, as shown in Figure 3, this shifting part 11 comprises moving arm 112 and mount pad 113, this moving arm 112 is fixedly installed on the outside of this mount pad 113, and the both sides up and down of this moving arm 112 are provided with boss, and the two ends up and down of this mount pad 113 are concaved with recess 114, this mount pad 113 also is provided with pin-and-hole 115, be placed with spring in this pin-and-hole 115 as shown in Figure 1, this on-of pin 111 is installed in this pin-and-hole 115 by a closure member, and makes this on-of pin 111 move around at the two ends of pin-and-hole 115.
Should in shift fork 12 relatively and this recess 114 be provided with limited block 121, so that when shift fork in this 12 rotates, this limited block 121 moves in this recess 114, and when this limited block 121 contacts with the end of this recess 114, drives this sliding piece 11 by limited block 121 and rotate.
Further, as shown in Figure 4, this outer shift fork 13 is provided with stopper slot 131 with respect to this on-of pin 111, after this on-of pin 111 is subjected under the external force effect, after this on-of pin 111 stretches to this stopper slot 131, should be fixed together with this shifting part 11 by outer shift fork 13,
As shown in Figure 5, this main dead bolt 21 is provided with axis hole 211 and stirs breach 212, and the moving arm 112 of this shifting part 11 is fastened on this and stirs in the breach 212, drives this main dead bolt 21 by this moving arm 112 when shifting part 11 is rotated and moves.
One connecting axle 213 is installed in this axis hole 211, this upper slide 22 and this lower skateboard 23 all are provided with gathering sill 221, the two ends end to end of this connecting axle 213 are fastened on respectively on this gathering sill 221, and make and when this main dead bolt 21 moves, drive 23 interlocks of this upper slide 22 and this lower skateboard and make stretching routine up and down, thereby in the realization, in, the effect of following multiple spot locking, and in concrete manufacture process, be that this upper slide 22 and the lateral attitude of this lower skateboard 23 are fixed, promptly limiting it moves toward the lateral attitude, thereby make the main dead bolt 21 can be by the effect of this upper slide 22 with this lower skateboard 23, and realize that main dead bolt 21 stretches out the distance of lock housing, and on realizing, in, the effect of following multiple spot locking.
Further, this gear train 42 comprises driving gear 421, driven gear 422 and handsetting gear 423, and wherein, this driving gear 421 is fixed on the main shaft of this motor 41, this driven gear 422 meshes together with this driving gear 421 and this handsetting gear 423 respectively
This handsetting gear 423 links together with this catch 43 by a driving spring 44, one end of this driving spring 44 is arranged on this catch 43, its other end is arranged on this gear train 42, driving this driving spring 44 when this handsetting gear 423 rotates rotates, and then drive this catch 43 and move toward these on-of pin 111 direction places, by this catch 43 this on-of pin 111 is pushed this outer shift fork 13 inside again.
As Fig. 2, shown in Figure 6, this locking unit 20 also comprise be arranged on this key shift fork 31 and this key driven turn the slow-witted dead bolt 24 between 32 and be installed in the driven slow-witted tongue that turns on 32 of this key drive and turn 25, should be provided with driving breach 241 by slow-witted dead bolt 24, this slow-witted tongue driving is turned 25 and is provided with actuating arm 251, this actuating arm 251 is fastened on and drives in the breach 241, drive and should move by slow-witted dead bolt 24 when 25 rotations are turned in this slow-witted tongue driving, this actuating arm 251 is connected with this key shift fork 31 by a torque spring
As shown in Figure 2, this locking unit 20 also comprises oblique tongue 26 and oblique tongue driven unit 27, tiltedly tongue driven unit 27 comprises first drive plate 271, second drive plate 272 and oblique tongue sliding seat 273, this oblique tongue 26 is fixed on this oblique tongue sliding seat 273, drives this oblique tongue 26 and move when this oblique tongue sliding seat 273 moves.
The middle part of this first drive plate 271 and this second drive plate 272 is provided with axis hole 274, one end of this first drive plate 271 and second drive plate 272 is separately positioned on the both sides up and down of this oblique tongue sliding seat 273, the other end of this first drive plate 271 is arranged on the outside of shift fork 12 in this, make when shift fork 12 rotates in this and can touch this first drive plate 271, and to drive this first drive plate 271 be that rotate in the axle center with its axis hole 274, equally, the other end of this second drive plate 272 is arranged on the outside of this outer shift fork 13, make this outer shift fork 13 can touch this second drive plate 272, and to drive this second drive plate 272 be that rotate in the axle center with its axis hole 274.Can both drive this oblique tongue sliding seat 273 when this first drive plate 271 or 272 rotations of this second drive plate moves.
In addition, this driven by power unit 40 also comprises main dead bolt sense switch 45, key sense switch 46, the attachment plug (not shown), this main dead bolt sense switch 45 is arranged on the rear side of this main dead bolt, make this main dead bolt 21 can touch this main dead bolt sense switch 45, be connected with external power source or wiring board etc. by attachment plug motor 41 is rotated, after this main dead bolt sense switch 45 is return and touched to main dead bolt 21 after unblanking, produce a reverse signal by this main dead bolt sense switch 45, this reverse signal is passed on the wiring board and drives this motor 41 counter-rotatings, thereby making this motor 41 drive this gear train 42 rotates, and then make this catch 43 break away from this on-of pin 111, and this on-of pin 111 withdraws from the stopper slot of shift fork 13 outside this under the effect of its spring, and then this outer shift fork 13 is dallied, thereby realize the effect of dynamo-electric conversion locking on this shifting part 11.
What deserves to be mentioned is, this driven by power unit 40 is arranged on the motor cabinet, this motor cabinet is fixedly installed in the lock housing, the top of this lock housing is connected with a locking closure, this dead bolt performance element 10, this locking unit 20, this mechanical driving unit 30 is installed in this lock housing, this lock housing and this locking closure are provided with corresponding hole and fixed leg, in the hope of effect and the position relation that realizes above-mentioned each element, (for example, this first drive plate 271 and this second drive plate 272 are installed on the fixed leg in the lock housing, so that this first drive plate 271 and this second drive plate 272 can be the axle center rotation with its axis hole 273.The axle position of this key shift fork is contained in lock housing, the corresponding Kong Weiwei benchmark of locking closure rotates, with dead bolt performance element 10 be contained in make it draw together shifting part 11, interior shift fork 12 and outer shift fork 13 with lock housing, the corresponding Kong Weiwei benchmark of locking closure can be independently or rotation simultaneously.) obviously these each elements are placed in and make its characteristic that realizes that requirement of the present invention embodies in order to realize structural principle of the present invention in the lock housing, structural principle according to the present invention is expected easily, does not repeat them here.
It should be noted that, as shown in Figure 8, this key is driven to turn 32 and contacts with the shifting part 11 of this dead bolt performance element 10, make when this key is driven to turn 32 rotations and can drive this shifting part 11 rotations, can touch this first drive plate 271 when shift fork 12 rotates in being somebody's turn to do, and to drive this first drive plate 271 be that rotate in the axle center with its axis hole 274, equally, the other end of this second drive plate 272 is arranged on the outside of this outer shift fork 13, make this outer shift fork 13 can touch this second drive plate 272, and to drive this second drive plate 272 be that rotate in the axle center with its axis hole 274.Can both drive this oblique tongue sliding seat 273 when this first drive plate 271 or 272 rotations of this second drive plate moves.
Theftproof lock lock body of the present invention will grasping handle and up one carry at closing time, can be realized locking when concrete the use.When indoor opening the door,, do not need to use key with down just unlatching of pressure handle hand door of hand.But handle outdoors dallies, can make the motor rotation in the lock body realize dynamo-electric conversion back unlatching to signal by the electronic control part of pcb board in the time of need opening the door, if electronic control part breaks down or just open with mechanical key during deenergization, the implementation mechanical movement is unblanked, and also can reach the purpose of unlatching.
The present invention has the more convenient effect of manipulating than traditional mechanical lock body, with other electronic lock body compare simple in structure, traveling mechanism is reasonable, intensity better, particularly the operation of motor of the present invention and gear train is highly stable, the reliability of electromechanical conversion is very high, simultaneously can with the installation compatibility of the pure mechanical lock body used on the existing security door, machinery combines with electronics (but external circuit plate control motor-driven mechanism), machinery, Electronic Control are separately used with being used in combination and are independent of each other, the theftproof performance height can suitability for industrialized production.
In sum, the objective of the invention is to implement.Fully shown above embodiment purpose of the present invention and embodiment and structure thereof have disclosed relevant principle simultaneously.Therefore, the equivalent embodiment concrete right scope that the present invention includes other is seen claims.

Claims (9)

1. a Mechatronic anti-theft lock body comprises dead bolt performance element, locking unit, mechanical driving unit and this driven by power unit, it is characterized in that:
This dead bolt performance element comprises shifting part, interior shift fork and outer shift fork, wherein, be somebody's turn to do interior shift fork and be somebody's turn to do the two ends up and down that outer shift fork can be rotatably set in this shifting part respectively, make and to drive this shifting part rotation when shift fork rotates to extreme position in this separately, this shifting part is provided with on-of pin, this on-of pin is done the inside that the time spent can stretch to shift fork outside this being subjected to external force, should outer shift fork and this shifting part be fixed together;
This locking unit comprises main dead bolt, upper slide and lower skateboard, wherein, this main dead bolt is arranged between this upper slide and this lower skateboard, when being moved, this main dead bolt drives this upper slide and this lower skateboard moves around on this main dead bolt, this main dead bolt contacts with this shifting part, drive this main dead bolt when making the rotation of this shifting part and do translational motion, thereby drive this upper slide and this lower skateboard moves;
This mechanical driving unit comprises the key shift fork and key is driven turns, wherein, driven the turning of this key shift fork and this key is meshing with each other together, driven the turning with the shifting part of this dead bolt performance element of this key contacts, make that this key is driven to turn rotation and the time can drive this shifting part rotation, and then make this shifting part drive this main dead bolt to do translational motion;
This driven by power unit comprises motor, gear train and catch wherein, this gear train is connected with this motor, rotate by this gear train of this driven by motor, this catch is arranged on the outside of this shifting part and can moves toward this on-of pin direction place, this catch is connected with this gear train, move toward this on-of pin direction place by this catch of this gear set drive, and can apply external force, on-of pin is pushed into this outer shift fork inside to this on-of pin.
2. a kind of Mechatronic anti-theft lock body as claimed in claim 1, it is characterized in that, this main dead bolt is provided with axis hole and stirs breach, the moving arm of this shifting part is fastened on this and stirs in the breach, driving this main dead bolt by this moving arm when shifting part is rotated moves, one connecting axle is installed in this axis hole, the two ends end to end that this upper slide and this lower skateboard all are provided with gathering sill, this connecting axle are fastened on respectively in this gathering sill, and make and drive the interlock of this upper slide and this lower skateboard and make stretching routine up and down when this main dead bolt moves.
3. a kind of Mechatronic anti-theft lock body as claimed in claim 2, it is characterized in that, this gear train comprises driving gear, driven gear and handsetting gear, wherein, this driving gear is fixed on the main shaft of this motor, this driven gear meshes together with this driving gear and this handsetting gear respectively, this handsetting gear links together by a driving spring and this catch, one end of this driving spring is arranged on this catch, its other end is arranged on this gear train, when this handsetting gear rotates, drive this driving spring and rotate, and then drive this catch and move, by this catch this on-of pin is pushed this outer shift fork inside again toward this on-of pin direction place.
4. a kind of Mechatronic anti-theft lock body as claimed in claim 3, it is characterized in that, should in shift fork relatively and this recess be provided with limited block, so that when shift fork rotates in this, this limited block moves in this recess, and when this limited block contacts with the end of this recess, driving this sliding piece by limited block rotates, should be provided with stopper slot with respect to this on-of pin by outer shift fork, after this on-of pin is subjected under the external force effect, after this on-of pin stretches to this stopper slot, should outer shift fork and this shifting part be fixed together.
5. a kind of Mechatronic anti-theft lock body as claimed in claim 4, it is characterized in that, this locking unit also comprises and is arranged on this key shift fork and this key is driven between turning slow-witted dead bolt and be installed in the driven slow-witted tongue that turns of this key and drive and turn, should be provided with the driving breach by slow-witted dead bolt, this slow-witted tongue drives to turn and is provided with actuating arm, this actuating arm is fastened on and drives in the breach, drive when rotating and should move by slow-witted dead bolt when this slow-witted tongue drives to turn, this actuating arm is connected with this key shift fork by a torque spring.
6. a kind of Mechatronic anti-theft lock body as claimed in claim 5, it is characterized in that, this locking unit also comprises oblique tongue and oblique tongue driven unit, tiltedly the tongue driven unit comprises first drive plate, second drive plate and oblique tongue sliding seat, this oblique tongue is fixed on this oblique tongue sliding seat, drives this oblique tongue and move when this oblique tongue sliding seat moves.
7. a kind of Mechatronic anti-theft lock body as claimed in claim 6, it is characterized in that, the middle part of this first drive plate and this second drive plate is provided with axis hole, one end of this first drive plate and second drive plate is separately positioned on the both sides up and down of this oblique tongue sliding seat, the other end of this first drive plate is arranged on the outside of shift fork in this, make when shift fork rotates in this and can touch this first drive plate, and to drive this first drive plate be that rotate in the axle center with its axis hole, equally, the other end of this second drive plate is arranged on the outside of this outer shift fork, make this outer shift fork can touch this second drive plate, and to drive this second drive plate be that rotate in the axle center with its axis hole, and this first drive plate or this second drive plate can both drive this oblique tongue sliding seat when rotating and move.
8. a kind of Mechatronic anti-theft lock body as claimed in claim 7, it is characterized in that, this driven by power unit also comprises main dead bolt sense switch Keying spoon sense switch, this main dead bolt sense switch of attachment plug is arranged on the rear side of this main dead bolt, make this main dead bolt can touch this main dead bolt sense switch, be connected with external power source or wiring board etc. by attachment plug motor is rotated, after this main dead bolt sense switch is return and touched to main dead bolt after unblanking, produce a reverse signal by this main dead bolt sense switch, this reverse signal is passed on the wiring board and drives this motor counter-rotating, thereby this gear train of this motor-driven is rotated.
9. a kind of Mechatronic anti-theft lock body as claimed in claim 8, it is characterized in that, this shifting part comprises moving arm and mount pad, this moving arm is fixedly installed on the outside of this mount pad, the two ends up and down of this mount pad are concaved with recess, and this mount pad also is provided with pin-and-hole, are placed with spring in this pin-and-hole, this on-of pin is installed in this pin-and-hole by a closure member, and makes this on-of pin move around at the two ends of pin-and-hole.
CN2010101827615A 2010-05-25 2010-05-25 Mechatronic anti-theft lock body Expired - Fee Related CN101871284B (en)

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Application Number Priority Date Filing Date Title
CN2010101827615A CN101871284B (en) 2010-05-25 2010-05-25 Mechatronic anti-theft lock body

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Application Number Priority Date Filing Date Title
CN2010101827615A CN101871284B (en) 2010-05-25 2010-05-25 Mechatronic anti-theft lock body

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CN101871284A true CN101871284A (en) 2010-10-27
CN101871284B CN101871284B (en) 2012-05-30

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102966271A (en) * 2012-12-17 2013-03-13 刘茂胜 Mechanical-electrical integrated electronic lock body
CN104499830A (en) * 2014-12-30 2015-04-08 王小良 Fully automatic pulling wheel double-clutch intelligent anti-theft door lock
CN105370104A (en) * 2015-09-30 2016-03-02 江门市科裕智能科技有限公司 Electromechanical rapid switching control door lock
CN107366478A (en) * 2016-11-29 2017-11-21 郑廷相 Smart lock
CN109898927A (en) * 2019-03-13 2019-06-18 广东惠氏五金科技有限公司 A kind of electronic safety lock
CN110499965A (en) * 2018-05-18 2019-11-26 多玛凯拔德国有限公司 Lock, especially emergency lock
CN110821293A (en) * 2019-09-27 2020-02-21 广州市捷睿电子实业有限公司 Automatic door locking mechanism and unlocking method

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CN2489043Y (en) * 2001-07-19 2002-05-01 昆明金安利信息技术有限公司 Multifunctional lock body
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CN201391145Y (en) * 2009-04-22 2010-01-27 刘成开 Electronic mechanic quick-opening and quick-closing anti-theft lock

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CN2470482Y (en) * 2001-03-17 2002-01-09 李泽华 Electronic anti-theft lock
CN2489043Y (en) * 2001-07-19 2002-05-01 昆明金安利信息技术有限公司 Multifunctional lock body
DE202006019325U1 (en) * 2006-12-20 2007-03-01 Kfv Karl Fliether Gmbh & Co. Kg Closure system e.g. door, lock, has slider locked with latch knob by front surface in opening position and movable relative to latch knob by electrical signal transmitter, and connecting rod movable by pusher bolt
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Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102966271A (en) * 2012-12-17 2013-03-13 刘茂胜 Mechanical-electrical integrated electronic lock body
CN104499830A (en) * 2014-12-30 2015-04-08 王小良 Fully automatic pulling wheel double-clutch intelligent anti-theft door lock
CN104499830B (en) * 2014-12-30 2017-08-25 王小良 The full-automatic double clutch intelligent anti-theft door locks of thumb wheel
CN105370104A (en) * 2015-09-30 2016-03-02 江门市科裕智能科技有限公司 Electromechanical rapid switching control door lock
CN105370104B (en) * 2015-09-30 2019-03-01 江门市科裕智能科技有限公司 A kind of electromechanical quick switching control door lock
CN107366478A (en) * 2016-11-29 2017-11-21 郑廷相 Smart lock
CN107366478B (en) * 2016-11-29 2022-07-05 郑廷相 Intelligent lock
CN110499965A (en) * 2018-05-18 2019-11-26 多玛凯拔德国有限公司 Lock, especially emergency lock
CN109898927A (en) * 2019-03-13 2019-06-18 广东惠氏五金科技有限公司 A kind of electronic safety lock
CN109898927B (en) * 2019-03-13 2022-01-28 浙江科熊智能科技有限公司 Electronic anti-theft lock
CN110821293A (en) * 2019-09-27 2020-02-21 广州市捷睿电子实业有限公司 Automatic door locking mechanism and unlocking method

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