CN210976934U - Full-automatic lock body with false lock cylinder - Google Patents

Abstract

The utility model discloses a full-automatic lock body of false lock core, include: the lock body is provided with a main lock tongue, an oblique lock tongue and an induction tongue; a first microswitch is arranged in the lock body below the tongue rod of the induction tongue and is electrically connected with the drive control system; the electronic sensing device is arranged in the lock body or outside the lock body and is communicated with the drive control system through a signal, and the electronic sensing device transmits a self-locking instruction to the drive control system after detecting that the lock body or the panel is pried; the driving control system is arranged in the lock body, is linked with the electric control self-locking mechanism, and is responsible for receiving instructions transmitted by all parts in the lock body and controlling the electric control self-locking mechanism to execute corresponding actions according to the instructions; the electric control self-locking mechanism is arranged in the lock body and is linked with the main lock tongue and the oblique tongue, and the electric control self-locking mechanism locks or unlocks the main lock tongue and the oblique tongue under the driving of the driving control system, so that the anti-theft effect of the lock body is improved.

Description

Full-automatic lock body with false lock cylinder

Technical Field

The utility model relates to a lock field of false lock core especially relates to a full-automatic lock body of false lock core.

Background

The intelligent door lock is widely applied at present, and the intelligent door lock in the prior art can be unlocked by using a key or a biological identification technology, so that the unlocking convenience is improved; and in current door lock structure, only rely on a sheetmetal or direction keyway to be connected between the lock core of the shell part of intelligence lock and inside, after the verification that has passed through the intelligence lock, the shell passes through the sheetmetal and drives the lock body rotation to open the lock.

However, after the existing intelligent door lock is pried open by violence, the front panel of the intelligent door lock is exposed, lawless persons can drive the lock body to rotate by inserting the screwdriver or the flaky object into the lock core, and open the door lock under abnormal conditions, so that the anti-theft effect of the door lock is poor, and the safety of personnel and property in a house cannot be guaranteed.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a full-automatic lock body with a false lock cylinder, which realizes the full-automatic door locking action; and detect lock body or panel and by the automatic start self-locking mechanism after prizing, carry out the locking to lock core subassembly for lock core subassembly can not rotate, thereby improves the theftproof effect of lock body.

The purpose of the utility model is realized by adopting the following technical scheme:

a fully automatic false lock core lock body comprises:

the lock body is provided with a main lock tongue, an oblique lock tongue and an induction tongue; a first microswitch is arranged in the lock body below the tongue rod of the induction tongue and is electrically connected with the drive control system;

the electronic sensing device is arranged in the lock body or outside the lock body and is communicated with the drive control system through a signal, and the electronic sensing device transmits a self-locking instruction to the drive control system after detecting that the lock body or the panel is pried;

the driving control system is arranged in the lock body, is linked with the electric control self-locking mechanism, and is responsible for receiving instructions transmitted by all parts in the lock body and controlling the electric control self-locking mechanism to execute corresponding actions according to the instructions;

and the electric control self-locking mechanism is arranged in the lock body and is linked with the main lock tongue and the oblique tongue, and the electric control self-locking mechanism locks or unlocks the main lock tongue and the oblique tongue under the driving of the driving control system.

Further, the bottom of main spring bolt is connected with the baffle, and the side of baffle is fixed with the occlusion part, and the part that is sheltered from by the occlusion part in the lock body is provided with first response subassembly when main spring bolt pops out completely, and the part that is sheltered from by the occlusion part in the lock body is provided with the second response subassembly when main spring bolt retracts completely, and first response subassembly, second response subassembly all are linked together with the drive control system signal, and first response subassembly and second response subassembly are the drive control system transmission main spring bolt and are in place popped out or retract the signal that targets in place.

Furthermore, automatically controlled self-locking mechanism includes drive assembly, drive assembly includes engaged with first gear train and second gear train, and first gear train meshes with drive control system mutually, and second gear train passes through main spring bolt plectrum and main spring bolt swing joint, drives first gear train and the synchronous rotation of second gear train by drive control system, drives main spring bolt plectrum and promotes main spring bolt when second gear train rotates for main spring bolt stretches out or retracts in the lock body.

Furthermore, the first gear set comprises a first gear and a gear shifting peach, the gear shifting peach is sleeved outside the first gear, and the gear shifting peach and the gear rotate synchronously; the gear shifting peach is provided with an induction shifting peach in an outward extending mode, a second microswitch is arranged on the lock body close to the induction shifting peach, and the second microswitch is electrically connected with the drive control system and used for transmitting a first gear set reset completion signal to the drive control system.

Further, the second gear train includes gear two and main spring bolt plectrum, and main spring bolt plectrum suit is on gear shaft of gear two, and the upper end of main spring bolt plectrum extends toward main spring bolt direction and with main spring bolt swing joint, and one side that main spring bolt plectrum is close to the lock core subassembly is outwards extended there is main spring bolt plectrum, stirs main spring bolt plectrum through utilizing the lock core plectrum, and it uses the gear shaft to rotate as the axle to drive main spring bolt plectrum, realizes popping out and the action of retracting of main spring bolt.

Further, automatically controlled self-locking mechanism still includes lock core subassembly, lock core subassembly sets up in one side of second gear train, and the lock core subassembly is its lock core thumb wheel under the effect of external force and is stirred main spring bolt plectrum to drive main spring bolt and stretch out or retract in the lock body.

Furthermore, the lock cylinder assembly comprises a false lock cylinder and a lock cylinder shifting block sleeved outside the false lock cylinder, and the false lock cylinder and the lock cylinder shifting block synchronously rotate.

Furthermore, the electric control self-locking mechanism also comprises a main lock tongue self-locking assembly, the main lock tongue self-locking assembly is arranged between the first gear set and the lock cylinder assembly, and the main lock tongue self-locking assembly moves back and forth between the first gear set and the lock cylinder assembly; when the first gear set rotates, the first gear set pushes the main bolt self-locking assembly to the direction of the lock cylinder assembly until the main bolt self-locking assembly locks the lock cylinder assembly.

Furthermore, the main bolt self-locking assembly is connected with a reset torsion spring, one end of the reset torsion spring is connected to the inner side wall of the lock body, and the other end of the reset torsion spring is connected with the end part of the main bolt self-locking assembly.

Furthermore, the electric control self-locking mechanism also comprises a latch bolt clamping component, the latch bolt clamping component clamps the latch bolt close to one end part of the latch bolt, the latch bolt clamping component is linked with the first gear set and the lock core component, and the first gear set drives the latch bolt clamping component to move far away from the latch bolt when rotating so as to relieve the clamping state of the latch bolt; when the lock core assembly rotates, the clamping state of the latch bolt clamping assembly is released by pulling the unlocking plate.

Compared with the prior art, the beneficial effects of the utility model reside in that:

(1) the sensing bolt is extruded in the door closing process, a trigger signal is transmitted to the drive control system after the first microswitch is triggered, and the drive control system drives the electric control self-locking mechanism to move, so that the main bolt is automatically popped out, and the full-automatic door locking process is realized; in addition, the latch bolt is clamped when the door is opened, so that the latch bolt is prevented from being reversed, and the door is not easy to be bounced when the door is closed;

(2) when the lock body or the panel is prized, the electronic sensing device sends a self-locking instruction to the driving control system, and the electronic control self-locking mechanism is controlled to lock the lock core assembly, so that the lock core assembly cannot rotate, and the anti-theft effect is realized.

Drawings

Fig. 1 is a schematic structural view of the lock body of the present invention in the open state;

fig. 2 is a schematic structural view of the lock body of the present invention in a door closing state;

fig. 3 is a schematic structural view of the lock body of the present invention in a door closing reset state;

fig. 4 is a schematic structural view of the lock body of the present invention in the door-opening unlocking state;

fig. 5 is a schematic structural view of the lock body of the present invention in a door opening reset state;

fig. 6 is a schematic structural view of the second gear set and the lock cylinder assembly of the present invention;

fig. 7 is a schematic structural view of the unlocking plate and the clamping plate of the lock body of the present invention.

In the figure: 1. a lock body; 101. a first sensing assembly; 102. a second sensing assembly; 2. a main bolt; 201. a shielding portion; 3. sensing the tongue; 301. a first inductive switch; 4. a latch bolt; 401. a push rod; 402. inserting sheets; 5. a first gear set; 501. a first gear; 502. gear shifting peach; 503. sensing and shifting peaches; 504. a second inductive switch; 6. a second gear set; 601. a second gear; 602. a main bolt plectrum; 603. the main bolt dials peach; 7. clamping a plate; 8. a return torsion spring; 9. a false lock cylinder; 901. lock core shifting peach; 902. unlocking and dialing the peaches; 10. a drive control system; 11. and unlocking the plate.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

A false lock core full-automatic lock body, lock body 1 and the intelligent control panel on the door body are connected, the user discerns the person's identity information of unblanking through intelligent control panel, and the lock body 1 unblanks after the discernment succeeds. And the main bolt 2 is automatically ejected in the door closing process, so that the full-automatic door locking action is realized.

As shown in fig. 1 to 6, a main bolt 2, a dead bolt 4 and an induction bolt 3 are arranged on a lock body 1 of a fully automatic lock body 1 of a false lock cylinder 9. A first microswitch is arranged in the lock body 1 below the tongue rod of the sensing tongue 3 and electrically connected with the drive control system 10, the sensing tongue 3 is extruded in the door closing process, and the tongue rod of the sensing tongue 3 can contact the first microswitch to transmit a trigger instruction for executing the full-automatic door locking action to the drive control system 10. The main bolt 2 is linked with an electric control self-locking mechanism, and the electric control self-locking mechanism can enable the main bolt 2 to automatically pop out under the driving of the drive control system 10, so that the full-automatic door locking process is realized.

The driving control system 10 includes a controller and a driving device, the controller is responsible for receiving instructions transmitted by each component in the lock body 1 and the control panel, and controls the driving device to execute related operations according to the instructions, so as to provide driving power for the electric control self-locking mechanism. In this embodiment, the driving means is provided as a motor and a gear driven by the motor. In order to improve the working accuracy of the motor and ensure that all parts in the lock body 1 can be accurately matched, the bottom of the main bolt 2 is connected with a baffle plate, the side edge of the baffle plate is fixed with a shielding part 201, a first induction component 101 is arranged at the position, shielded by the shielding part 201, in the lock body 1 when the main bolt 2 is completely popped out, a second induction component 102 and the first induction component 101 are arranged at the position, shielded by the shielding part 201, in the lock body 1 when the main bolt 2 is completely retracted, the second sensing assembly 102 is in signal communication with the drive control system 10, the first sensing assembly 101 and the second sensing assembly 102 transmit in-place ejecting or retracting in-place signals of the main bolt 2 to the controller, and the controller learns whether the main bolt 2 is ejected or retracted in place completely through the in-place signals transmitted by the first sensing assembly 101 and the second sensing assembly 102, so that an accurate feedback point is provided for next automatic action, and the accuracy of automation is improved.

The electric control self-locking mechanism comprises a transmission assembly, the transmission assembly comprises a first gear set 5 and a second gear set 6 which are meshed with each other, the first gear set 5 is meshed with a drive control system 10, the second gear set 6 is movably connected with a main lock tongue 2 through a main lock tongue shifting piece 602, the drive control system 10 drives the first gear set 5 and the second gear set 6 to synchronously rotate, and the second gear set 6 drives the main lock tongue shifting piece 602 to push the main lock tongue 2 when rotating, so that the main lock tongue 2 extends out of or retracts into a lock body 1.

The first gear set 5 includes a first gear 501 and a gear wheel 502, the first gear 501 is engaged with a gear in a driving device, and the driving device can drive the first gear set 5 to rotate. The gear shifting peach 502 is sleeved outside the first gear 501, the gear shifting peach 502 and the first gear 501 rotate synchronously, and the gear shifting peach 502 is used for pushing the self-locking assembly of the main bolt 2 to move towards the direction of the lock cylinder assembly; the gear shifting peach 502 extends outward to form an induction shifting peach 503, and a second microswitch is arranged on the lock body 1 close to the induction shifting peach 503 and electrically connected with the drive control system 10 to transmit a reset completion signal of the first gear set 5 to the drive control system 10.

The second gear set 6 includes a second gear 601 and a main bolt shifting piece 602, the main bolt shifting piece 602 is sleeved on the gear shaft of the second gear 601, the upper end of the main bolt shifting piece 602 extends toward the main bolt 2 and is movably connected with the main bolt 2, so that the main bolt 2 can be driven by the main bolt shifting piece 602 to pop out or retract into the lock body 1 when the second gear set 6 rotates.

The main bolt 2 can be ejected or retracted into the lock body 1 through a mode of manually rotating the bolt assembly, besides the mode of automatically driving the first gear set 5 and the second gear set 6 to rotate through the driving device. The lock core assembly is arranged on one side of the second gear set 6 and comprises a false lock core 9 and a lock core shifting block 901 sleeved outside the false lock core 9, and the false lock core 9 and the lock core shifting block 901 rotate synchronously; and a main bolt shifting peach 603 extends outwards from one side of the main bolt shifting piece 602 close to the lock cylinder assembly, when a screwdriver or other square objects are inserted into the false lock cylinder 9 and twisted, the lock cylinder shifting peach 901 shifts the main bolt shifting peach 603, so that the ejection and retraction actions of the main bolt 2 are realized.

Because the lock core assembly can be used for locking or unlocking, in order to prevent a lawless person from prying the lock body 1 and using a screwdriver to insert a false lock core 9 to rotate the lock core to realize burglary, the lock body 1 is internally provided with the main lock tongue 2 self-locking assembly and the electronic induction device matched with the main lock tongue 2 self-locking assembly, the electronic induction device can be arranged on a control panel, also can be arranged on the surface of the lock body 1 and can also be arranged inside the lock body 1, and when the electronic induction device detects that the lock body 1 is pried, the electronic induction device sends a self-locking instruction to the controller. The self-locking assembly of the main bolt 2 can be a clamping plate 7 sleeved on a gear shaft of the second gear set 6, and the clamping plate 7 can move back and forth between the first gear set 5 and the lock cylinder assembly; after electronic induction device detected lock body 1 and was prized, sent the auto-lock instruction to the controller, when controller control drive arrangement drove first gear train 5 and rotated, gear thumb peach 502 of first gear train 5 promoted main spring bolt 2 auto-lock subassembly toward lock core subassembly direction for 2 auto-lock subassemblies of main spring bolt block lock core thumb peach 901 near cardboard 7 of lock core subassembly one end, make the unable rotation of lock core, thereby reach the theftproof effect.

In order to avoid that the main bolt 2 self-locking assembly still locks the lock cylinder shifting block 901 when unnecessary, and influence the normal door opening action of the lock body 1, therefore, a reset torsion spring 8 is connected to the main bolt 2 self-locking assembly, one end of the reset torsion spring 8 is connected to the inner side wall of the lock body 1, and the other end is connected with the end of the main bolt 2 self-locking assembly, after the main bolt 2 self-locking assembly locks the lock cylinder shifting block 901, the reset torsion spring 8 is in a tightening state, after the gear shifting block 502 of the first gear set 5 is reset, the reset torsion spring 8 can automatically recover the original state, and in the recovery process, the main bolt 2 self-locking assembly is pushed back to the original position, so that the main bolt 2 self-locking assembly is separated from the lock cylinder shifting block 901. Wherein the gear thumb wheel 502 of first gear train 5 resets work and is triggered by first response subassembly 101, when main spring bolt 2 popped out lock body 1, first response subassembly 101 is sheltered from, first response subassembly 101 sends main spring bolt 2 to the controller and pops out the information in place, the controller learns that main spring bolt 2 accomplishes and pops out the action after, control drive arrangement stops and begins the reverse motion, drive arrangement reversal can reset first gear train 5, when the response thumb wheel 503 contact second micro-gap switch of first gear train 5 in the reset process, second micro-gap switch sends first gear train 5 again to the controller and resets the completion signal, then control drive arrangement stop motion.

In order to realize the clamping effect of the latch bolt 4, a latch bolt clamping component is arranged in the lock body 1, as shown in fig. 6, the latch bolt clamping component comprises a self-locking torsion spring, a push rod 401 and an insertion sheet 402, the push rod 401 is sleeved outside the self-locking torsion spring, the push rod 401 and the self-locking torsion spring synchronously rotate, one end of the push rod 401 is in contact with the gear shifting peach 502 of the first gear set 5, and the other end of the push rod is connected with the insertion sheet 402. When the door is opened, the inserting sheet 402 is inserted into the slot on the side surface of the latch bolt 4 under the condition that the self-locking torsion spring is not stressed, the latch bolt 4 is clamped, the latch bolt 4 still can stretch up and down at the moment, but the inserting sheet 402 is inserted into the slot of the latch bolt 4, so that the latch bolt 4 cannot be reversed, the door is not easy to be bounced when the door is closed, and the influence on closing and locking the door is avoided. When the door is unlocked, the first gear set 5 rotates to drive the gear shifting peach 502 to press the push rod 401, the push rod 401 inclines to enable the inserting piece 402 to be far away from the slot of the latch bolt 4, and at the moment, the latch bolt clamping assembly is released, so that the door can be opened in a push-pull mode.

In addition, still be provided with unlocking plate 11 between lock core subassembly and push rod 401, as shown in fig. 7, unlocking plate 11 can remove about in lock body 1, still be provided with the unblock thumb peach 902 on the corresponding lock core subassembly, when the lock core subassembly is rotatory unblanked, unblock thumb peach 902 stirs unlocking plate 11, make unlocking plate 11 remove toward push rod 401, the one end that unlocking plate 11 is close to push rod 401 compresses tightly push rod 401, make push rod 401 slope make drive inserted sheet 402 and oblique tongue 4 separation, realize relieving the screens action. When the unlocking dial peach 902 rotates away from the unlocking plate 11, the unlocking plate 11 does not actively press the push rod 401 any more, so that the self-locking torsion spring of the push rod 401 resets under no external force to clamp the insertion piece 402 into the slot again, the latch bolt 4 is clamped, and the latch bolt 4 cannot rotate reversely.

The working principle of the embodiment is as follows:

when the door is opened, as shown in fig. 1, the first gear set 5 is at point B, the sensing dial 503 contacts the second sensing switch 504, no interaction force exists between the first gear set 5 and the push rod 401, and the insertion piece 402 is inserted into the slot of the latch tongue 4 to block the latch tongue 4 from being reversed.

When the lock body 1 is pushed into a door frame to close the door, the sensing tongue 3 is compressed to enable the first sensing switch 301 to send a trigger signal to the controller, at the moment, the driving control system 10 drives the first gear set 5 to start to rotate anticlockwise to a point C, and at the moment, the sensing dial peach 503 is separated from the second sensing switch 504; as shown in fig. 2, in the process that the first gear set 5 rotates to point C, the second gear set 6 is driven to rotate clockwise and synchronously, and simultaneously, the main bolt shifting piece 602 is also driven to rotate clockwise, so that the main bolt 2 is pushed out of the lock body 1; meanwhile, the gear shifting peaches 502 of the first gear set 5 shift the main bolt self-locking assembly to move towards the lock cylinder shifting peaches 901, so that the main bolt self-locking assembly locks the lock cylinder shifting peaches 901, and the door locking action is completed.

After the main bolt 2 pops out the lock body 1, the first sensing assembly 101 is shielded, the driving device is controlled to stop and start to perform reverse motion, so that the first gear set 5 rotates clockwise to recover to a point B, as shown in fig. 3, at the moment, the gear shifting peach 502 is separated from the main bolt self-locking assembly, the reset torsion spring 8 in a tight state recovers to the original state, the main bolt self-locking assembly is pushed in the direction away from the lock cylinder shifting peach 901, and the lock body 1 enters a door closing reset state. When the first gear set 5 rotates clockwise and returns to the point B, the sensing picks 503 compress the second sensing switch 504 again, and the driving device is controlled to stop moving, so that the lock body 1 maintains the door locking state.

When the door needs to be opened, after the user identity authentication is successful, the driving device drives the first gear set 5 to rotate clockwise to the point A, the second gear set 6 rotates anticlockwise, and at the moment, the main lock tongue shifting piece 602 drives the main lock tongue 2 to retract into the lock body 1; in addition, the gear shifting peach 502 of the first gear set 5 compresses the push rod 401, so that the inserting piece 402 is separated from the latch bolt 4, and the sliding door body can be opened.

In addition, the lock core assembly can be turned to unlock, when a key or other tools are inserted into the lock core, the lock core assembly is turned clockwise, the unlocking dial peach 902 on the lock core assembly dials the unlocking plate 11, so that the unlocking plate 11 moves towards the push rod 401 and presses the push rod 401, the inserting piece 402 is driven to be far away from the latch bolt 4, and the reversing function of the latch bolt 4 is recovered; meanwhile, when the lock cylinder assembly rotates clockwise, the lock cylinder shifting block 901 thereof shifts the main bolt shifting block 602, so that the main bolt shifting block 602 rotates counterclockwise, thereby driving the main bolt 2 to retract into the lock body 1, and similarly realizing the door opening action, as shown in fig. 4.

After the door is opened, the sensing tongue 3 pops out, the sensing tongue 3 is far away from the first sensing switch 301, the first gear set 5 is controlled to reset to a point B, as shown in fig. 5, the gear shifting peach 502 loosens the push rod 401 at the moment, the self-locking torsion spring resets to drive the inserting piece 402 to be inserted into the slot of the latch bolt 4 again, the latch bolt 4 is clamped, and the latch bolt 4 cannot rotate reversely.

When the lock body 1 is in the state of closing the door, if lock body 1 or control panel suffer violence and prize open, the electronic induction device sends the auto-lock instruction to drive arrangement this moment, let drive arrangement drive first gear train 5 anticlockwise rotation to C point once more, let gear shifting peach 502 stir main spring bolt auto-lock subassembly once more, make its locking lock core shifting peach 901 again, let lawless persons can't utilize tools such as screwdrivers to twist reverse the lock core, make the lock core can't rotate, oblique tongue screens subassembly lasts carries out the screens to oblique tongue 4, make the door body can't open, thereby the security of lock has been improved.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (10)

1. The utility model provides a full-automatic lock body of false lock core which characterized in that includes:

the lock body is provided with a main lock tongue, an oblique lock tongue and an induction tongue; a first microswitch is arranged in the lock body below the tongue rod of the induction tongue and is electrically connected with the drive control system;

the electronic sensing device is arranged in the lock body or outside the lock body and is communicated with the drive control system through a signal, and the electronic sensing device transmits a self-locking instruction to the drive control system after detecting that the lock body or the panel is pried;

the driving control system is arranged in the lock body, is linked with the electric control self-locking mechanism, and is responsible for receiving instructions transmitted by all parts in the lock body and controlling the electric control self-locking mechanism to execute corresponding actions according to the instructions;

and the electric control self-locking mechanism is arranged in the lock body and is linked with the main lock tongue and the oblique tongue, and the electric control self-locking mechanism locks or unlocks the main lock tongue and the oblique tongue under the driving of the driving control system.

2. The fully-automatic lock body with the false lock cylinder according to claim 1, characterized in that a baffle is connected to the bottom of the main lock bolt, a shielding part is fixed to the side of the baffle, a first sensing assembly is arranged at a position, which is shielded by the shielding part, in the lock body when the main lock bolt is completely ejected, a second sensing assembly is arranged at a position, which is shielded by the shielding part, in the lock body when the main lock bolt is completely retracted, the first sensing assembly and the second sensing assembly are both in signal communication with a drive control system, and the first sensing assembly and the second sensing assembly transmit a signal that the main lock bolt is ejected in place or retracted in place for the drive control system.

3. The fully automatic false lock core lock body as claimed in claim 1, wherein the electrically controlled self-locking mechanism includes a transmission assembly, the transmission assembly includes a first gear set and a second gear set which are engaged with each other, the first gear set is engaged with the drive control system, the second gear set is movably connected with the main lock tongue through a main lock tongue shifting piece, the drive control system drives the first gear set and the second gear set to synchronously rotate, and the second gear set drives the main lock tongue shifting piece to push the main lock tongue when rotating, so that the main lock tongue extends out of or retracts into the lock body.

4. The fully automatic lock body of claim 3, wherein the first gear set comprises a first gear and a gear shifting block, the gear shifting block is sleeved outside the first gear, and the gear shifting block and the gear rotate synchronously; the gear shifting peach is provided with an induction shifting peach in an outward extending mode, a second microswitch is arranged on the lock body close to the induction shifting peach, and the second microswitch is electrically connected with the drive control system and used for transmitting a first gear set reset completion signal to the drive control system.

5. The full-automatic lock body of false lock core of claim 3, characterized in that, the second gear train includes gear two and main spring bolt plectrum, and main spring bolt plectrum suit is on the gear shaft of gear two, and the upper end of main spring bolt plectrum extends towards main spring bolt direction and with main spring bolt swing joint, and one side that main spring bolt plectrum is close to the lock core subassembly outwards extends has main spring bolt thumb peach, stirs main spring bolt thumb peach through utilizing the lock core thumb peach, drives main spring bolt plectrum and uses the gear shaft as the axle and rotate, realizes popping out and the withdrawal action of main spring bolt.

6. The full-automatic lock body of false lock core of claim 3, characterized in that, automatically controlled self-locking mechanism still includes lock core subassembly, lock core subassembly sets up in one side of second gear train, and lock core subassembly its lock core thumb wheel stirs main spring bolt plectrum under the effect of external force to drive main spring bolt and stretch out or retract in the lock body.

7. The fully automatic false lock core lock body according to claim 6, wherein the lock core assembly comprises a false lock core and a lock core dial installed outside the false lock core, and the false lock core and the lock core dial rotate synchronously.

8. The fully automatic false lock core lock body according to claim 6, wherein the electrically controlled self-locking mechanism further comprises a main lock tongue self-locking assembly, the main lock tongue self-locking assembly is arranged between the first gear set and the lock core assembly, and the main lock tongue self-locking assembly moves back and forth between the first gear set and the lock core assembly; when the first gear set rotates, the first gear set pushes the main bolt self-locking assembly to the direction of the lock cylinder assembly until the main bolt self-locking assembly locks the lock cylinder assembly.

9. The fully automatic lock body of claim 8, wherein the main bolt self-locking assembly is connected with a reset torsion spring, one end of the reset torsion spring is connected to the inner side wall of the lock body, and the other end of the reset torsion spring is connected with the end of the main bolt self-locking assembly.

10. The fully automatic lock body of claim 8, wherein the electrically controlled self-locking mechanism further comprises a latch bolt locking assembly, the latch bolt locking assembly is locked by the latch bolt locking assembly near one end of the latch bolt, the latch bolt locking assembly is linked with the first gear set and the lock cylinder assembly, and the first gear set drives the latch bolt locking assembly to move away from the latch bolt when rotating to release the locked state of the latch bolt; when the lock core assembly rotates, the clamping state of the latch bolt clamping assembly is released by pulling the unlocking plate.

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