CN111173382B - Intelligent lock structure - Google Patents

Abstract

The invention relates to the technical field of locks, in particular to an intelligent lock structure which comprises a lock shell, a bottom plate, a side plate, a panel, a buckle, a pulling plate, a fixing plate, a clamping plate, a pushing plate, a clamping groove plate, a lock tongue plate, a motor fixing part, a rack plate, an oblique tongue, a fixing part, a fixing pin, a motor buffer pin, a shifting fork, a shifting sleeve, an electromagnetic block, a clamping plate pin, a circuit board, a motor, an electromagnetic induction part, a helical gear, a gear pushing block, a coil spring and a torsional spring, wherein the lock shell, the bottom plate and the side plate can enclose a cavity, the middle part in the cavity is provided with a four-layer structure, the position of a step on the fixing plate is a first layer, the position of the clamping plate is a second layer, the position of the lock tongue plate is a third layer, the position of the clamping groove plate and the rack plate is a fourth layer, a door is locked through electromagnetic induction, a finger vein recognition head is used for opening, the direct connection of the motor and the door bolt is avoided, the service life of the lock is prolonged, and the safety of the intelligent lock is improved.

Description

Intelligent lock structure

Technical Field

The invention relates to the technical field of locks, in particular to an intelligent lock structure which controls the on-off of a motor through a finger vein technology and drives a bolt telescopic mechanism through a gear.

Background

The current tool to lock mainly has traditional mechanical lock and novel intelligent lock, and the intelligent lock on the present market mainly has trick lock and fingerprint lock. The inner rotary shaft of the traditional mechanical lock is provided with a row of holes, small copper cylinders are placed in the holes, a lock body matched with the inner rotary shaft is also provided with a corresponding row of small holes, and a row of copper cylinders are also placed, the copper cylinders on the inner rotary shaft are short, so that copper casting on the inner wall is inserted into the inner rotary shaft, the inner rotary shaft cannot rotate, when a corresponding key is inserted, the copper cylinders are in contact with teeth on the key to form a regular curve, the small copper cylinders are jacked up according to different heights, the copper cylinders on the inner wall just leave the inner rotary shaft, the inner rotary shaft can rotate, if the key is not correctly inserted, all the copper cylinders cannot be jacked up to the rotary position at the same time, as long as one does not reach the designated position, the inner rotary shaft is inevitably clamped to rotate, the inner rotary shaft cannot be opened, and the bayonet can be.

Novel intelligence lock only need type fingerprint, people's face and password, and the data of typeeing can be recorded well to the procedure of novel intelligence lock the inside, and when sensing the external world and having data input, the procedure can be automatic to be compared, if compare then correctly to the motor send instruction in the intelligence lock, open the intelligence lock. The program in the household intelligent lock can record well-entered data, when the data is input when the data is sensed outside, the program can be automatically compared, and if the data is compared correctly, an instruction is sent to a motor in the intelligent lock, so that the intelligent lock is opened.

The fingerprint coded lock has the defects that the fingerprint characteristics of some people or groups are few, and imaging is difficult; each time a fingerprint is used, fingerprints of the user are left on the fingerprint acquisition head, and the fingerprints have the possibility of being used for copying the fingerprint; the stability and the durability are not strong than mechanical codes; many fingerprint identifications cannot achieve wet-hand unlocking due to technical and cost limitations. The password unlocking has the defect that the password needs to be changed frequently to ensure the safety, but the password cannot be remembered frequently; even a dummy password, if it is input as it is, the door can be opened.

The existing intelligent lock structure mainly adopts a motor to drive a bolt mode, has the technical defect that a driving system of the motor is always connected with the bolt, has higher failure rate, influences the use of a lock on the one hand, has shorter service life on the other hand, and can solve the problem.

Disclosure of Invention

In order to solve the problems, the invention provides an intelligent lock structure, the switch of a motor is controlled by a finger vein technology, the motor drives a bolt telescoping mechanism, the direct connection of the motor and a door bolt is avoided, the service life of a lockset is prolonged, and the safety of the intelligent lock is improved.

The technical scheme adopted by the invention is as follows:

the intelligent lock structure comprises a lock shell, a bottom plate, side plates, a panel, a buckle, a pulling plate, a fixing plate, a clamping plate, a pushing plate, a clamping groove plate, a lock tongue plate, a motor fixing part, a rack plate, an oblique tongue, a fixing part, a fixing pin, a motor buffer pin, a shifting fork, a shifting sleeve, an electromagnetic block, a clamping plate pin, a circuit board, a motor, an electromagnetic induction part, a helical gear, a gear pushing block, a coil spring and a torsional spring, wherein the electromagnetic block is arranged at the edge of a door frame, a finger vein recognition head is also arranged on the door, the motor is a direct current motor, the electromagnetic induction part, the finger vein recognition head and the circuit board are connected through wires, the lock shell, the bottom plate and the side plates are respectively provided with a plurality of mounting holes or grooves, positioning columns or positioning pins, the lock shell and the bottom plate can enclose a cavity, the side plates are vertically attached to the left, the latch bolt can extend out of the side plate, and four lock bolts extend out of the side plate when the lock bolt plate moves leftwards and retract into the cavity when the lock bolt plate moves rightwards; the fixing plate is positioned and fixed by a positioning pin on the bottom plate, the fixing plate is in a step shape of an upper step and a lower step, the fixing plate is used for fixing, the lower step of the fixing plate extends to the lower part in the cavity, the lower part in the cavity is provided with a buckle, a fixing part, a motor fixing part, a fixing pin, a motor buffer pin, a motor, an electromagnetic induction part, a helical gear, a gear push block and a torsional spring, the motor buffer pin is provided with a spring, the gear push block consists of a gear and a push block and is provided with a central shaft, the push block is connected to the upper surface of a gear width, the electromagnetic induction part is positioned close to the position of an electromagnetic block on a door frame, the motor buffer pin and the motor are arranged on the upper surface of the motor fixing part, the fixing pin is connected to the lower step of the fixing plate and can buffer the movement caused, the buckle is positioned above the fixed motor output shaft and the fixed pin; the upper part in the cavity is provided with a shifting fork, a shifting sleeve and a clamping plate pin, the shifting sleeve is provided with a spring, and the clamping plate pin is provided with a spring; the panel is arranged above the shifting fork and the shifting sleeve and is connected with the fixing plate, two ends of the torsion spring are respectively abutted against the pulling plate and the fixing piece, and the circuit board is positioned above the fixing pin and the buckle; the shifting fork is connected with the door handle, the shifting fork is provided with a rotating shaft I, the shifting fork can rotate around the rotating shaft I, the shifting sleeve is provided with a rotating shaft II, the shifting sleeve can rotate around the rotating shaft II, the push plate is provided with a fixed shaft, the push plate can rotate around the fixed shaft, and the bottom of the lock tongue plate is provided with square positioning columns on one sides of opposite sides of the four lock tongues; the middle part of the cavity is provided with a four-layer structure, the position of the ladder on the fixed plate is a first layer, the position of the clamping plate is a second layer, the position of the lock tongue plate is a third layer, and the positions of the clamping plate and the rack plate are fourth layers; the two ends of the clamp plate pin are respectively connected with the clamp plate and the lock tongue plate, one end of the coil spring is arranged on the square positioning column at the bottom of the lock tongue plate, the other end of the coil spring is connected with the rack plate, one end of the pulling plate is hinged to the root of the oblique tongue, the other end of the pulling plate is provided with a limiting block, the pulling plate is positioned above the gear push block, a through groove is formed in the upper surface of the pulling plate, and the through groove is vertically connected with a central; the clamping plate is provided with a through hole I which is matched with the positioning pin on the bottom plate, and the clamping plate is provided with a plurality of clamping grooves which can be matched with the pushing block of the gear pushing block; the lock tongue plate is provided with a through hole II which is matched with the positioning pin on the bottom plate, one side of the lock tongue plate is provided with a plurality of tooth grooves, and the tooth grooves can be matched with the pushing block of the gear pushing block; the slot plate and the tongue plate are connected through three countersunk head screws, the slot plate and the rack plate are both provided with a plurality of holes and clamping teeth, the rack plate is connected to the bottom of the tongue plate through a positioning pin and a slot, the clamping teeth of the rack plate can be matched with a pushing block of a gear pushing block, one end of the rack plate is provided with a baffle plate and can be matched with a push plate, so that the push plate drives the inclined tongue to move rightwards together and reset under the action of a coil spring; the lower surface of the clamping groove plate is provided with a push plate, one end of the push plate is provided with two heads, one head is abutted to the shifting fork, the other head is a push plate column, and the other end of the push plate is connected with one end of a pull plate hinged to the root part of the latch tongue.

When locking the door, when closing the door, the latch bolt stretches out to lock, electromagnetic induction spare senses the electromagnetic block on the door frame, the rotatory 1 rings of motor realize the second grade locking, its concrete process is electromagnetic induction spare signals, when the rotatory 1/4 rings of preset program trigger motor in the circuit board system, the motor drives the helical gear and rotates, order about the rotation of gear ejector pad, the jack catch of gear ejector pad is touch the cardboard of second floor earlier and is backed up it and open, the jack catch of gear ejector pad is mated again in the tooth's socket of third layer lock tongue board, then the rotatory 3/4 rings of motor again, make the lock tongue board remove left, four spring bolts divide the second grade to stretch out the curb plate completely outside, when the jack catch of gear ejector pad and the tooth's socket contactless of lock tongue board, the cardboard resets under the effect of cardboard round pin spring.

When the door is opened electrically, a finger is put into a finger vein recognition head on the door, the finger vein recognition head obtains a finger vein signal, the driving motor rotates for 1 circle to realize two-stage retraction of four lock tongues, the motor rotates for 1/4 circles again, the latch bolt retracts, when the electromagnetic block is separated from the electromagnetic induction part, the motor rotates for 1/4 circles again, the latch bolt 14 extends out to restore the normal state, the specific process is that the finger vein signal is compared with a sample stored in a circuit board system, 99.999 percent of sample characteristics are consistent, the circuit board provides a signal for driving the motor to rotate reversely, the motor drives the bevel gear to rotate reversely, the gear push block is driven to rotate, the motor rotates for 1 circle first, the lock tongue plate moves rightwards, the four lock tongues retract completely, the motor rotates for 1/4 circles again, the push block of the gear push block is matched with the latch teeth of the rack plate, the rack plate moves right, the push plate drives the pull plate and the latch bolt to move rightwards, the latch bolt retracts, when the push block of the gear push block is not in contact with the latch of the rack plate, the pull plate resets under the action of the torsion spring, the latch bolt resets simultaneously, and the rack plate resets under the action of the coil spring.

When the door is opened by the handle, the door handle is twisted to drive the shifting fork to rotate, the shifting fork rotates around the rotating shaft I under the action of the shifting sleeve and the spring, the other end of the shifting fork is abutted against the push plate, the push plate rotates around the fixed shaft, the other end of the push plate drives the pull plate, and the pull plate drives the latch bolt to move rightwards together to open the door.

The invention has the beneficial effects that:

the invention has novel and practical design, locks the door through electromagnetic induction, opens the door through the finger vein recognition head, controls the switch of the motor through the finger vein technology, and the motor drives the spring bolt telescopic mechanism, thereby avoiding the direct connection of the motor and the door bolt, prolonging the service life of the lockset and improving the safety of the intelligent lock.

Drawings

The following is further illustrated in connection with the figures of the present invention:

FIG. 1 is a schematic external view of the present invention;

FIG. 2 is a schematic side view of a four-layer structure;

FIG. 3 is one of the schematic views of the interior of the chamber;

FIG. 4 is a second schematic view of the interior of the chamber;

FIG. 5 is a third schematic view of the interior of the chamber;

FIG. 6 is a fourth schematic view of the interior of the chamber;

FIG. 7 is a fifth schematic view of the interior of the chamber;

FIG. 8 is a sixth schematic view of the interior of the chamber;

FIG. 9 is one of four-ply structural axonometric views;

FIG. 10 is a second isometric view of the four-ply structure;

FIG. 11 is a third isometric view of a four-ply structure;

FIG. 12 is a four-part isometric view of a four-ply structure.

In the drawing, 1, a lock shell, 2, a bottom plate, 3, side plates, 4, a panel, 5, a buckle, 6, a pulling plate, 7, a fixing plate, 7-1, an upper step, 7-2, a lower step, 8, a clamping plate, 9, a pushing plate, 10, a clamping groove plate, 11, a lock tongue plate, 11-1, a lock tongue, 12, a motor fixing part, 13, a rack plate, 14, an oblique tongue, 15, a fixing part, 16, a fixing pin, 17, a motor buffer pin, 18, a shifting fork, 19, a shifting sleeve, 20, an electromagnetic block, 21, a clamping plate pin, 22, a circuit board, 23, a motor, 24, an electromagnetic induction part, 25, a helical gear, 26, a gear pushing block, 27, a coil spring and 28 are arranged.

Detailed Description

As shown in fig. 1, which is an appearance schematic diagram of the present invention, it reflects that a lock case 1, a bottom plate 2, a side plate 3, a latch 14, an electromagnetic block 20, and four parallel lock tongues 11-1 connected to the lock tongue 11 are provided, the lock case 1, the bottom plate 2, and the side plate 3 are respectively provided with a plurality of mounting holes or slots, positioning posts or positioning pins, the lock case 1 and the bottom plate 2 can enclose a cavity, the side plate 3 is vertically attached to the left side of the cavity, a panel 4, a buckle 5, a pull plate 6, a fixing plate 7, a clamping plate 8, a push plate 9, a clamping plate 10, the lock tongues 11, a motor fixing member 12, a rack plate 13, a fixing member 15, a fixing pin 16, a motor buffer pin 17, a shift fork 18, a shift sleeve 19, a clamping plate pin 21, a circuit board 22, a motor 23, an electromagnetic induction member 24, a helical gear 25, a gear push block 26, a, the four lock tongues 11-1 can extend out of the side plate 3 at the same time, the oblique tongues 14 can extend out of the side plate 3, the electromagnetic block 20 is installed at the edge of the door frame, and the door is also provided with a finger vein recognition head, so that the four lock tongues 11-1 extend out of the side plate 3 when the lock tongue plate 11 moves leftwards and the four lock tongues 11-1 retract into the cavity when the lock tongue plate 11 moves rightwards.

As shown in fig. 2, which is a schematic side view of a four-layer structure, the four-layer structure reflects the sequential position relationship of the fixing plate 7, the snap-gauge 8, the tongue-locking plate 11 and the snap-gauge plate 10, the fixing plate 7 is in a step shape of an upper step 7-1 and a lower step 7-2, the fixing plate 7 is used for fixing, the four-layer structure is arranged at the upper position of the middle part in the cavity, the position of the upper step 7-1 on the fixing plate 7 is a first layer, the position of the snap-gauge 8 is a second layer, the position of the tongue-locking plate 11 is a third layer, and the positions of the snap-gauge plate 10 and the rack plate 13 are.

As shown in fig. 3, which is one of the schematic diagrams of the interior of the cavity, the first layer reflecting the location of the step 7-1 on the fixing plate 7 and the second layer where the visible snap-gauge 8 is located, the fixing plate 7 is located and fixed by the positioning pin on the bottom plate 2, the four-layer structure is located at the position above the middle part in the cavity, the lower step 7-2 of the fixing plate 7 extends to the lower part in the cavity, the lower part in the cavity is provided with a buckle 5, a fixing member 15, a motor fixing member 12, a fixing pin 16, a motor buffer pin 17, a motor 23, an electromagnetic induction member 24, a helical gear 25, a gear push block 26 and a torsion spring 28, the motor 23 is a direct current motor, the motor buffer pin 17 is provided with a spring, the gear push block 26 is composed of a gear and a push block and has a central shaft, the push block is connected to the upper surface of the gear width, the electromagnetic induction, the fixed pin 16 is connected to the upper surface of the lower step 7-2 of the fixed plate 7 and can buffer the movement caused by small axial displacement of the motor, the fixed piece 15 is positioned at the output shaft of the motor 23, the top end of the output shaft is connected with the helical gear 25, the helical gear 25 can be meshed with the gear of the gear push block 26, and the buckle 5 is positioned above the output shaft of the fixed motor 23 and the fixed pin 16; the upper portion in the cavity has shift fork 18, dials cover 19 and cardboard round pin 21, and shift fork 18 connects the door handle, and shift fork 18 has rotation axis I, and shift fork 18 can rotate around rotation axis I, dials cover 19 and has rotation axis II, dials cover 19 and can rotate around rotation axis II, dials cover 19 and has the spring, and cardboard round pin 21 has the spring, and the both ends of cardboard round pin 21 are connected respectively in cardboard 8 and tongue-locking plate 11.

Fig. 4 is a second schematic diagram of the inside of the cavity, which reflects the situation when the panel 4, the pulling plate 6 and the circuit board 22 are installed on the basis of fig. 3, the motor 23, the electromagnetic induction component 24, the finger vein recognition head and the circuit board 22 are connected by wires, the panel 4 is installed above the shifting fork 18 and the shifting sleeve 19 and connected to the fixing plate 7, two ends of the torsion spring 28 are respectively abutted against the pulling plate 6 and the fixing component 15, the circuit board 22 is located above the fixing pin 16 and the buckle 5, one end of the pulling plate 6 is hinged to the root of the latch 14, the other end of the pulling plate 6 is provided with a limiting block, the pulling plate 6 is located above the gear pushing block 26, the upper surface of the pulling plate 6 is provided with a through groove, and the through groove.

Fig. 5 is a third schematic diagram of the inside of the cavity, which reflects the second layer where the snap-gauge 8 is located, i.e. the schematic diagram is shown after the panel 4, the pulling plate 6, the fixing plate 7, the latch 14 and the circuit board 22 are removed on the basis of fig. 4, the snap-gauge 8 is provided with a through hole I, the through hole I is matched with a positioning pin on the bottom plate 2, the snap-gauge 8 is provided with a plurality of clamping grooves, and the clamping grooves can be matched with a pushing block of the gear pushing block 26.

As shown in fig. 6, which is a fourth schematic view of the inside of the cavity, and reflects the third layer where the tongue plate 11 is located, i.e., the schematic view after removing the snap plate 8 on the basis of fig. 5, the tongue plate 11 has four parallel lock tongues 11-1, and the four lock tongues 11-1 can simultaneously extend out of the side plate 3; the lock tongue plate 11 is provided with a through hole II which is matched with a positioning pin on the bottom plate 2, one side of the lock tongue plate 11 is provided with a plurality of tooth grooves, and the tooth grooves can be matched with a pushing block of the gear pushing block 26.

As shown in fig. 7, which is a schematic diagram of the interior of the cavity, the diagram reflects the fourth layer where the slot plate 10 is located, i.e., the schematic diagram is shown after the tongue locking plate 11 is removed on the basis of fig. 6, the slot plate 10 is connected with the tongue locking plate 11 through three countersunk screws, the slot plate 10 and the rack plate 13 both have a plurality of holes and latches, the latches of the rack plate 13 can be matched with the pushing blocks of the gear pushing block 26, one end of the rack plate 13 has a baffle, and the push plate 9 is arranged below the slot plate 10.

As shown in fig. 8, which is a sixth schematic view of the inside of the cavity, the push plate 9 is reflected under the slot plate 10, one end of the push plate 9 has two heads, one head is abutted to the shifting fork 18, the other head is a push plate column, the other end of the push plate 9 is connected with one end of the pull plate 6 hinged to the root of the latch bolt 14, the push plate 9 has a fixed shaft, and the push plate 9 can rotate around the fixed shaft; one end of the pulling plate 6 is hinged to the root of the latch bolt 14, the other end of the pulling plate is provided with a limiting block, a through groove is formed in the pulling plate 6, and the through groove is vertically connected with a central shaft of the gear pushing block 26 in a sliding mode.

Fig. 9 is one of four-layer structural isometric views, reflecting the fixing plate 7 of the first layer, the catch plate 8 of the second layer and the latch plate 11 of the third layer, reflecting the positions of the push plate 9 and the catch plate pins 21.

Fig. 10 is a second isometric view of the four-layer structure, reflecting the position of the second layer of catch plates 8, the third layer of tongue plates 11 and the fourth layer of notch plates 10, reflecting the position of the push plate 9 and the catch plate pins 21.

As shown in fig. 11, which is a third isometric view of a four-layer structure, the bottom of the tongue-locking plate 11 at the third layer is reflected, the rack plate 13 is connected to the bottom of the tongue-locking plate 11 through a positioning pin and a clamping groove, the bottom of the tongue-locking plate 11 is provided with square positioning columns at one side of opposite sides of four locking tongues 11-1, one end of the rack plate 13 is provided with a baffle plate and can be matched with the push plate 9, so that the push plate 9 drives the latch 14 to move rightwards together and reset under the action of the coil spring 27.

Referring to fig. 12, which is a four-layer perspective view showing the third-layer tongue plate 11, the fourth-layer catch plate 10, and the rack plate 13, one end of the coil spring 27 is mounted on the square positioning column at the bottom of the tongue plate 11, and the other end is connected to the rack plate 13.

The intelligent lock structure comprises a lock shell 1, a bottom plate 2, a side plate 3, a panel 4, a buckle 5, a pulling plate 6, a fixing plate 7, a clamping plate 8, a pushing plate 9, a clamping groove plate 10, a locking tongue plate 11, a motor fixing part 12, a rack plate 13, an oblique tongue 14, a fixing part 15, a fixing pin 16, a motor buffer pin 17, a shifting fork 18, a shifting sleeve 19, an electromagnetic block 20, a clamping plate pin 21, a circuit board 22, a motor 23, an electromagnetic induction part 24, a helical gear 25, a gear pushing block 26, a coil spring 27 and a torsion spring 28, wherein the electromagnetic block 20 is arranged on the edge of a door frame, a finger vein recognition head is also arranged on the door, the motor 23 is a direct current motor, the motor 23, the electromagnetic induction part 24, the finger vein recognition head and the circuit board 22 are all connected by leads, a plurality of mounting holes or grooves, positioning columns or positioning pins are respectively arranged on the lock shell 1, the bottom plate, the side plate 3 is vertically clung to the left side surface of the cavity, the lock tongue plate 11 is connected with four parallel lock tongues 11-1, the four lock tongues 11-1 can simultaneously extend out of the side plate 3, the oblique tongues 14 can extend out of the side plate 3, and the four lock tongues 11-1 are defined to extend out of the side plate 3 when the lock tongue plate 11 moves leftwards and retract into the cavity when the lock tongue 11 moves rightwards; the fixing plate 7 is positioned and fixed by a positioning pin on the bottom plate 2, the fixing plate 7 is in a step shape of an upper step 7-1 and a lower step 7-2, the lower step 7-2 of the fixing plate 7 extends to the lower part in the cavity, the lower part in the cavity is provided with a buckle 5, a fixing piece 15, a motor fixing piece 12, a fixing pin 16, a motor buffer pin 17, a motor 23, an electromagnetic induction piece 24, a helical gear 25, a gear push block 26 and a torsion spring 28, the motor buffer pin 17 is provided with a spring, the gear push block 26 consists of a gear and a push block and is provided with a central shaft, the push block is connected to the upper part of a gear spoke, the electromagnetic induction piece 24 is positioned at a position close to the electromagnetic block 20 on the door frame, the motor buffer pin 17 and the motor 23 are arranged on the motor fixing piece 12, the fixing pin 16 is connected, the top end of the output shaft is connected with a helical gear 25, the helical gear 25 can be meshed with a gear of a gear push block 26, and the buckle 5 is positioned above the output shaft of the fixed motor 23 and the fixed pin 16; the upper part in the cavity is provided with a shifting fork 18, a shifting sleeve 19 and a clamping plate pin 21, the shifting sleeve 19 is provided with a spring, and the clamping plate pin 21 is provided with a spring; the panel 4 is arranged above the shifting fork 18 and the shifting sleeve 19 and is connected with the fixing plate 7, two ends of the torsion spring 28 are respectively abutted against the pulling plate 6 and the fixing piece 15, and the circuit board 22 is positioned above the fixing pin 16 and the buckle 5; the shifting fork 18 is connected with the door handle, the shifting fork 18 is provided with a rotating shaft I, the shifting fork 18 can rotate around the rotating shaft I, the shifting sleeve 19 is provided with a rotating shaft II, the shifting sleeve 19 can rotate around the rotating shaft II, the push plate 9 is provided with a fixed shaft, the push plate 9 can rotate around the fixed shaft, and the bottom of the lock tongue plate 11 is provided with square positioning columns on one sides of opposite sides of the four lock tongues 11-1.

The middle part in the cavity is provided with a four-layer structure, the position of a step 7-1 on the fixed plate 7 is a first layer, the position of the snap-gauge 8 is a second layer, the position of the lock tongue plate 11 is a third layer, and the positions of the slot plate 10 and the rack plate 13 are fourth layers; the two ends of the clamp plate pin 21 are respectively connected with the clamp plate 8 and the tongue locking plate 11, one end of the coil spring 27 is arranged on the square positioning column at the bottom of the tongue locking plate 11, the other end of the coil spring is connected with the rack plate 13, one end of the pulling plate 6 is hinged to the root of the oblique tongue 14, the other end of the pulling plate is provided with a limiting block, the pulling plate 6 is positioned above the gear push block 26, a through groove is formed in the upper surface of the pulling plate 6, and the through groove is vertically connected with the central shaft; the clamping plate 8 is provided with a through hole I which is matched with a positioning pin on the bottom plate 2, the clamping plate 8 is provided with a plurality of clamping grooves, and the clamping grooves can be matched with a pushing block of the gear pushing block 26; the lock tongue plate 11 is provided with a through hole II which is matched with a positioning pin on the bottom plate 2, one side of the lock tongue plate 11 is provided with a plurality of tooth grooves, and the tooth grooves can be matched with a pushing block of the gear pushing block 26; the slot plate 10 is connected with the tongue plate 11 through three countersunk head screws, the slot plate 10 and the rack plate 13 are both provided with a plurality of holes and clamping teeth, the rack plate 13 is connected with the bottom of the tongue plate 11 through a positioning pin and a slot, the clamping teeth of the rack plate 13 can be matched with a pushing block of a gear pushing block 26, one end of the rack plate 13 is provided with a baffle plate and can be matched with the pushing plate 9, so that the pushing plate 9 drives the oblique tongue 14 to move rightwards together and reset under the action of a coil spring 27; a push plate 9 is arranged below the slot plate 10, one end of the push plate 9 is provided with two heads, one head is abutted with the shifting fork 18, the other head is a push plate column, and the other end of the push plate 9 is connected with one end of a pull plate 6 hinged at the root part of the oblique tongue 14.

When the door is locked, when the door is closed, the latch bolt 14 extends out of the lock, the electromagnetic induction piece 24 induces the electromagnetic block 20 on the door frame, the motor 23 rotates 1 circle to realize the two-stage locking of the four latch bolts 11-1, the specific process is that the electromagnetic induction piece 24 sends out a signal, when the motor 23 is triggered to rotate 1/4 times through a preset program in the circuit board 22 system, the motor 23 drives the helical gear 25 to rotate, drives the gear push block 26 to rotate, the push block of the gear push block 26 firstly touches and pushes open the snap-gauge 8 of the second layer, the push block of the gear push block 26 is matched with the tooth groove of the tongue locking plate 11 of the third layer, then the motor 23 rotates 3/4 circles again, so that the bolt plate 11 moves leftwards, the four bolt 11-1 extends out of the side plate 3 completely in two stages, when the pushing block of the gear pushing block 26 is not in contact with the tooth groove of the lock tongue plate 11, the clamping plate 8 is reset under the action of the spring of the clamping plate pin 21.

When the door is opened electrically, a finger is put into a finger vein recognition head on the door, the finger vein recognition head obtains a finger vein signal, the driving motor 23 rotates for 1 circle to realize two-stage retraction of the four lock tongues 11-1, the motor 23 rotates for 1/4 circles again, the oblique tongue retracts, after the electromagnetic block 20 is separated from the electromagnetic induction piece 24, the motor 23 rotates for 1/4 circles again, the oblique tongue 14 extends out to restore the normal state, the specific process is that the vein signal is compared with a sample stored in a circuit board 22 system, 99.999 percent of the characteristics of the sample are consistent, the circuit board 22 gives a signal for driving the motor 23 to rotate reversely, the motor 23 drives the helical gear 25 to rotate reversely, the gear push block 26 is driven to rotate, when the motor 23 rotates for 1 circle, the lock tongue plate 11 is moved rightwards, the four lock tongues 11-1 are completely retracted, the motor 23 rotates for 1/4 circles again, the push block of the gear, the rack plate 13 moves rightwards, so that the baffle of the rack plate 13 is matched with the push plate column of the push plate 9, the push plate 9 drives the pull plate 6 and the latch 14 to move rightwards, the latch 14 retracts, when the push block of the gear push block 26 is not in contact with the latch of the rack plate 13, the pull plate 6 resets under the action of the torsion spring 28, the latch 14 resets simultaneously, and the rack plate 13 resets under the action of the coil spring 27.

When the door is opened by the handle, the door handle is twisted to drive the shifting fork 18 to rotate, under the action of the shifting sleeve 19 and the spring, the shifting fork 18 rotates around the rotating shaft I, the other end of the shifting fork 18 is abutted against the push plate 9, so that the push plate 9 rotates around the fixed shaft, the other end of the push plate 9 drives the pull plate 6, and the pull plate 6 drives the latch bolt 14 to move rightwards together to open the door.

The invention locks the door through electromagnetic induction, opens the door through the finger vein recognition head, controls the switch of the motor through the finger vein technology, and the motor drives the bolt telescoping mechanism, thereby avoiding the direct connection of the motor and the door bolt, prolonging the service life of the lock and improving the safety of the intelligent lock.

Claims (1)

1. An intelligent lock structure comprises a lock shell (1), a bottom plate (2), side plates (3), a panel (4), a buckle (5), a pulling plate (6), a fixing plate (7), a clamping plate (8), a pushing plate (9), a clamping groove plate (10), a lock tongue plate (11), a motor fixing part (12), a rack plate (13), an oblique tongue (14), a fixing part (15), a fixing pin (16), a motor buffer pin (17), a shifting fork (18), a shifting sleeve (19), an electromagnetic block (20), a clamping plate pin (21), a circuit board (22), a motor (23), an electromagnetic induction piece (24), a helical gear (25), a gear pushing block (26), a coil spring (27) and a torsion spring (28), wherein the electromagnetic block (20) is arranged at the edge of a door frame, a finger vein recognition head is also arranged on the door, the motor (23) is a direct current motor, the motor (23), the electromagnetic induction piece (24), the finger vein recognition head and the circuit board (, the lock shell (1), the bottom plate (2) and the side plate (3) are respectively provided with a plurality of mounting holes or grooves, positioning columns or positioning pins, the lock shell (1) and the bottom plate (2) can enclose a cavity, the side plate (3) is vertically attached to the left side surface of the cavity, the lock tongue plate (11) is connected with four parallel lock tongues (11-1), the four lock tongues (11-1) can simultaneously extend out of the side plate (3), the oblique tongues (14) can extend out of the side plate (3), and the four lock tongues (11-1) are defined to extend out of the side plate (3) when the lock tongue plate (11) moves leftwards and to retract into the cavity when the lock tongues (11-1) move rightwards; the fixed plate (7) is positioned and fixed through a positioning pin on the bottom plate (2), the fixed plate (7) is in a step shape of an upper step (7-1) and a lower step (7-2), the lower step (7-2) of the fixed plate (7) extends to the lower part in the cavity, a buckle (5), a fixing part (15), a motor fixing part (12), a fixing pin (16), a motor buffer pin (17), a motor (23), an electromagnetic induction part (24), a helical gear (25), a gear push block (26) and a torsion spring (28) are arranged at the lower part in the cavity, the motor buffer pin (17) is provided with a spring, the gear push block (26) consists of a gear and a push block and is provided with a central shaft, the push block is connected to the upper surface of a gear width, the electromagnetic induction part (24) is positioned close to the position of an electromagnetic block (20) on the door frame, the motor buffer pin (17) and the motor, the fixing pin (16) is connected to the upper surface of the lower step (7-2) of the fixing plate (7), the fixing piece (15) is positioned at the output shaft of the motor (23), the top end of the output shaft is connected with the helical gear (25), the helical gear (25) can be meshed with the gear of the gear push block (26), and the buckle (5) is positioned on the output shaft of the fixing motor (23) and the fixing pin (16); the upper part in the cavity is provided with a shifting fork (18), a shifting sleeve (19) and a clamping plate pin (21), the shifting sleeve (19) is provided with a spring, and the clamping plate pin (21) is provided with a spring; the panel (4) is arranged above the shifting fork (18) and the shifting sleeve (19) and connected to the fixing plate (7), two ends of the torsion spring (28) are respectively connected to the pulling plate (6) and the fixing piece (15), and the circuit board (22) is positioned above the fixing pin (16) and the buckle (5); the shifting fork (18) is connected with the door handle, the shifting fork (18) is provided with a rotating shaft I, the shifting fork (18) can rotate around the rotating shaft I, the shifting sleeve (19) is provided with a rotating shaft II, the shifting sleeve (19) can rotate around the rotating shaft II, the push plate (9) is provided with a fixed shaft, the push plate (9) can rotate around the fixed shaft, the bottom of the lock tongue plate (11) is provided with a square positioning column at one side of the opposite sides of the four lock tongues (11-1),

the method is characterized in that: the middle part in the cavity is provided with a four-layer structure, the position of a ladder (7-1) on the fixing plate (7) is a first layer, the position of the snap-gauge (8) is a second layer, the position of the lock tongue plate (11) is a third layer, and the positions of the snap-gauge plate (10) and the rack plate (13) are a fourth layer; the two ends of a clamp plate pin (21) are respectively connected to a clamp plate (8) and a lock tongue plate (11), one end of a coil spring (27) is installed on a square positioning column at the bottom of the lock tongue plate (11), the other end of the coil spring is connected to a rack plate (13), one end of a pull plate (6) is hinged to the root of a latch bolt (14), the other end of the pull plate is provided with a limiting block, the pull plate (6) is located above a gear push block (26), a through groove is formed in the upper surface of the pull plate (6), and the through groove is vertically connected with a central shaft of the gear push block (; the clamping plate (8) is provided with a through hole I which is matched with a positioning pin on the bottom plate (2), the clamping plate (8) is provided with a plurality of clamping grooves, and the clamping grooves can be matched with a pushing block of the gear pushing block (26); the lock tongue plate (11) is provided with a through hole II which is matched with a positioning pin on the bottom plate (2), one side of the lock tongue plate (11) is provided with a plurality of tooth grooves, and the tooth grooves can be matched with a pushing block of the gear pushing block (26); the slot plate (10) is connected with the tongue plate (11) through three countersunk screws, the slot plate (10) and the rack plate (13) are provided with a plurality of holes and clamping teeth, the rack plate (13) is connected to the bottom of the tongue plate (11) through a positioning pin and a slot, the clamping teeth of the rack plate (13) can be matched with a pushing block of a gear pushing block (26), one end of the rack plate (13) is provided with a baffle and can be matched with the pushing plate (9), so that the pushing plate (9) drives the oblique tongue (14) to move rightwards together and reset under the action of the coil spring (27); a push plate (9) is arranged below the slot plate (10), one end of the push plate (9) is provided with two heads, one head is abutted against the shifting fork (18), the other head is a push plate column, and the other end of the push plate (9) is connected with one end of a pull plate (6) hinged at the root of the latch bolt (14).

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