CN211776604U - A electron intelligence lock structure for case and bag - Google Patents

Abstract

The utility model provides an electronic intelligent lock structure for a case, which comprises at least one lock body arranged on the case and a controller connected with each lock body for controlling the unlocking of the lock body, wherein the controller comprises a box body arranged on a case cover, a main control module and a power supply connected with the main control module are arranged in the box body, and a fingerprint identifier and a password keyboard which are respectively connected with the main control module are arranged on the box body; every lock body is including locking the shell, installing the lower mount pad on a case lid and installing the last mount pad on another case lid, and lower mount pad is articulated through the round pin axle with locking the shell bottom, goes up to be equipped with the latch hook on the mount pad, is equipped with on the lock shell to be used for supplying latch hook male lockhole, is equipped with in the lock shell to be used for with latch hook complex spring bolt. Compared with the prior art, the electronic intelligent lock structure can be unlocked by a fingerprint or a password, and can also be unlocked by a key in emergency or customs; therefore, the unlocking mode is selected according to actual needs, and convenience is brought to a user.

Description

A electron intelligence lock structure for case and bag

Technical Field

The utility model relates to an electronic lock field, especially an electronic intelligence lock structure for case and bag.

Background

Existing luggage locks generally fall into two types: the first type is a hasp lock, an upper mounting seat and a lower mounting seat of the hasp lock are respectively arranged on two box covers, and when a hasp sheet hinged on the lower mounting seat is buckled with a hasp hook on the upper mounting seat, the two box covers of the box bag are buckled together, but the safety of the hasp lock is low; the second type is a dial coded lock, two box covers are linked by a zipper, two zipper pieces are arranged in the dial coded lock to be locked, and the coded disc is dialed during unlocking to enable the two zipper pieces to be withdrawn from the dial coded lock; the third type is the fingerprint lock, through two case lid locks of latch hook and spring bolt cooperation, reads the fingerprint when the unblock after, the motor drives spring bolt and latch hook separation and makes two case lids openable, however such fingerprint lock is inconvenient when using the case and bag to wrap at case and bag owner's inconvenient fingerprint or non-case and bag owner, can not carry out the unblock to case and bag, and each user brings inconvenience.

SUMMERY OF THE UTILITY MODEL

To the problem, the utility model provides an electronic intelligence lock structure for case and bag can adopt fingerprint unblock mode and password unblock mode to unblock, and the user can select the unblock mode as required to unblock, and is simple and convenient.

The utility model adopts the technical proposal that:

an electronic intelligent lock structure for a case comprises at least one lock body arranged on the case and a controller connected with each lock body and used for controlling unlocking of the lock body, wherein the controller comprises a box body arranged on a case cover, a main control module and a power supply connected with the main control module are arranged in the box body, and a fingerprint identifier and a password keyboard which are respectively connected with the main control module are arranged on the box body; every lock body is including locking the shell, installing the lower mount pad on a case lid and installing the last mount pad on another case lid, and lower mount pad is articulated through the round pin axle with locking the shell bottom, goes up to be equipped with the latch hook on the mount pad, is equipped with on the lock shell to be used for supplying latch hook male lockhole, is equipped with in the lock shell to be used for when locking with stretch into the lock shell latch hook complex spring bolt, still is equipped with in the lock shell to be used for driving spring bolt and latch hook separation to carry out the unblock and makes the lock shell be the subassembly of unblanking of open mode with lower mount pad, the subassembly of unblanking includes the spring bolt frame of being connected with the spring bolt, sets up and supplies the gliding spout of lock bolt frame in the lock shell and is connected with host system and is used for driving the gliding driver of spring bolt frame along the spout, still be equipped.

Preferably, the lock shell is internally provided with a customs lock, the customs lock comprises a customs lock body arranged in the lock shell, a lock core column which is arranged in the customs lock body and used for inserting a key, and a rotating block which is connected with the lock core column and used for pushing the lock tongue frame to slide along the sliding groove when the lock core column rotates, a rotating groove used for rotating the rotating block is formed in the customs lock body, and the lock tongue frame is provided with an extending block matched with the rotating block.

Preferably, still be equipped with in the lock shell with spring bolt frame complex jack-up frame, the driver slides along the spout through promoting jack-up frame and drives the spring bolt frame and remove, and a terminal surface of jack-up frame keeps laminating with a terminal surface of spring bolt frame, is equipped with on the jack-up frame to be used for jack-up latch hook when spring bolt and latch hook separation to make the latch hook withdraw from the kicking block of lock shell, forms the inclined plane that is used for promoting the latch hook tip on the kicking block.

More preferably, the driver comprises a motor connected with the main control module, a rotating seat is connected to a rotating shaft of the motor, an eccentric shaft used for driving the jacking frame to move along the sliding groove in the process that the motor drives the rotating seat to rotate is arranged on the rotating seat, and a driving groove used for allowing the eccentric shaft to extend into is arranged on the jacking frame.

Preferably, still be equipped with in the lock shell and be used for driving the lock shell around round pin pivoted promotion post and with promote the spring that the post is connected when latch hook and spring bolt separation, be equipped with the through-hole that supplies to promote the post and pass on the lock shell.

Preferably, the bottom of lock shell is equipped with protruding piece, is equipped with on the mount pad down to be used for supplying protruding piece to rotate in order to inject lock shell and mount pad open angle's spacing groove down.

Preferably, the lock shell includes the shell and with shell complex bottom, the lockhole sets up on the bottom, forms the first appearance chamber that is used for holding the subassembly of unblanking in the shell, the spout sets up on the shell inner wall, is equipped with the lock core hole that supplies the one end of lock core post to stretch out on the shell.

Preferably, the box body is further provided with an image acquisition module and a switch key, wherein the image acquisition module is respectively connected with the main control module, and the switch key is used for controlling the image acquisition module to be started.

Preferably, the box body is further provided with an interface slot, a charging interface which is connected with a power supply and used for charging the power supply and a power transmission interface which is used for transmitting power to other electronic products are arranged in the interface slot, and the interface slot is matched with an electrical interface cover body.

Preferably, the box body includes the base and with base complex panel, be equipped with the second that is used for holding power and host system in the base and hold the chamber, on password keyboard and the switch button setting panel, still be equipped with on the panel and supply fingerprint identification ware to lay mouthful.

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model provides an electronic intelligent lock structure for a case, which can select fingerprint unlocking or password unlocking, when a fingerprint recognizer reads a preset fingerprint or a password keyboard to input a correct password, a main control module sends a signal to a motor, the motor drives an eccentric shaft to rotate, the eccentric shaft drives a jacking frame to move, the jacking frame drives a spring bolt frame to move, the spring bolt is automatically separated from a lock hook, the jacking block jacks the lock hook, the lock shell and a lower mounting seat are in an open state, and the lock shell is separated from an upper mounting seat; in emergency or customs, the key can be used for unlocking; therefore, the unlocking mode can be selected according to actual needs, and convenience is brought to a user.

Drawings

Fig. 1 is a schematic view of an electronic intelligent lock structure for a suitcase provided by the present invention;

fig. 2 is a schematic locking diagram of a lock body in an electronic intelligent lock structure for a suitcase, according to the present invention;

fig. 3 is a schematic view of the lock case and the lower mounting seat in the lock body in the electronic intelligent lock structure for bags and suitcases provided by the present invention in an open state;

fig. 4 is an exploded view of a lock body in an electronic intelligent lock structure for a suitcase, provided by the present invention;

fig. 5 is a schematic locking diagram of a lock body in an electronic intelligent lock structure for a suitcase, according to the present invention;

fig. 6 is a schematic view of unlocking a lock body in an electronic intelligent lock structure for a luggage provided by the present invention;

fig. 7 is a schematic view of a lock tongue frame in an electronic intelligent lock structure for a luggage provided by the present invention;

fig. 8 is a schematic view of a jack-up frame in an electronic intelligent lock structure for a suitcase, provided by the present invention;

fig. 9 is an exploded view of the customs lock in the electronic intelligent lock structure for the luggage provided by the present invention;

fig. 10 is an exploded view of a lock case in the electronic intelligent lock structure for a suitcase, according to the present invention;

fig. 11 is a schematic view of a controller in an electronic intelligent lock structure for a luggage according to the present invention;

fig. 12 is an exploded view of a controller in an electronic intelligent lock structure for a luggage according to the present invention;

fig. 13 is a schematic diagram of a controller in an electronic intelligent lock structure for a luggage according to the present invention;

fig. 14 is a schematic locking diagram of the electronic intelligent lock structure applied to the bag;

fig. 15 is a schematic view of the electronic intelligent lock structure applied to unlocking the case.

Detailed Description

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 to fig. 13 illustrate a preferred embodiment of an electronic intelligent lock structure for a luggage. As shown in fig. 1 to 13, the electronic intelligent lock structure for a luggage includes at least one lock body 10 mounted on the luggage and a controller 20 connected to each lock body for controlling the unlocking of the lock body, each lock body 10 is mounted on two cover lids 100 of the luggage, and a user can control the unlocking of the lock body 10 through the controller 20 to open the two cover lids 100.

As shown in fig. 11 to 13, the controller 20 includes a box body 21 installed on a box cover 100, a main control module 22 and a power supply 23 connected to the main control module 22 are installed in the box body 21, a fingerprint identifier 24 and a password keyboard 25 connected to the main control module 22 are installed on the box body 21, and after the fingerprint identifier 24 reads a preset fingerprint or the password keyboard 25 inputs a correct password, the main control module 22 controls the lock body 10 to unlock. In a preferred embodiment, the password keyboard 25 includes numeric keys, # keys and # keys, and any combination of the numeric keys, # keys and # keys may be used to form the password.

The box body 21 is further provided with an image acquisition module 26 and a switch key 27, wherein the image acquisition module 26 is respectively connected with the main control module 22, the switch key 27 is used for controlling the start of the image acquisition module, and after a user presses the switch key 27, the image acquisition module 26 is started to acquire an image. According to a setting program on the main control module 22, the image acquisition module 26 can be used as a monitoring camera for monitoring, the image acquisition module 26 acquires an image and uploads the image to the main control module 22, the main control module 22 is also connected with a wireless data communication module, and the main control module 22 is connected with a mobile phone through the wireless data communication module, so that a user can conveniently monitor the surrounding environment of the luggage through the mobile phone; the image acquisition module 26 may also be used as a facial recognition camera, and the preset facial image is acquired and sent to the main control module 22, and the main control module 22 controls the lock body 10 to unlock.

The box body 21 is further provided with an interface slot 28, a charging interface 281 connected with a power supply and used for charging the power supply and a power transmission interface 282 used for transmitting power to other electronic products are arranged in the interface slot 28, the interface slot 28 is matched with the interface cover 29, the power supply 23 can be charged through the charging interface 281, the power supply 23 supplies power to each internal electronic component, and also can supply power to external electronic components through the power transmission interface 282.

The box body 21 comprises a base 2101 arranged on a box cover 100 and a panel 2102 matched with the base 2101, a second accommodating cavity 2103 used for accommodating a power supply 23 and a main control module is arranged in the base 2101, a password keyboard 25, a switch key 27 and an interface slot 28 are arranged on the panel 2102, and a placing port 2104 for placing a fingerprint identifier 24 is further arranged on the panel 2102. In a preferred embodiment, the keys in the combination keypad 25 are distributed around the mounting port 2104, and the image capture module 26 and the interface slot 28 are located at opposite ends of the faceplate 2102, respectively.

As shown in fig. 2 to 9, each lock body 10 includes a lock case 11, a lower mounting seat 12 installed on one cover, and an upper mounting seat 13 installed on the other cover, the lower mounting seat 12 is hinged to the bottom of the lock case 11 through a pin, the upper mounting seat 13 is provided with a locking hook 131, the lock case 11 is provided with a locking hole 111 for the locking hook to be inserted into, a locking tongue 112 is disposed in the lock case 11 and engaged with the locking hook 131 extending into the lock case 11 when locked, a first inclined surface is formed on the locking tongue 112, the lock case 11 is further provided with an unlocking assembly 113 for driving the locking tongue 112 to be separated from the locking hook 131 to unlock so that the lock case and the lower mounting seat are in an open state, the unlocking assembly 113 includes a locking tongue holder 1131 connected to the locking tongue 112, a sliding groove 1132 disposed in the lock case and used for the locking tongue holder to slide along the sliding groove, and a driver 1133 connected to the main control module and used for driving the locking tongue holder to slide along the sliding groove, a return spring 1134 for pushing the, when the lock is locked, the lock hook 131 is inserted into the lock hole 111, the lock hook 131 is attached to the first inclined surface of the lock tongue 112, when the lock hook 131 gradually enters the lock hole 111, the lock tongue 112 is pushed to the unlocking direction, the lock tongue frame 1131 is driven to move a certain distance in the unlocking direction, when the lock hook is completely placed in the lock case 11, the lock tongue frame 1131 returns to the original position under the action of the return spring 1134, the lock tongue 112 is inserted into the lock hook 131, that is, the lock hook 131 is matched with the lock tongue 112; when unlocking is performed, after the fingerprint identifier 24 reads a preset fingerprint or the password keyboard 25 inputs a correct password, the main control module 22 sends a signal to the driver 1133, the driver 1133 is started, the driver 1133 drives the bolt support 1131 to slide along the sliding groove 1132, the bolt support 1131 drives the bolt 112 to separate from the lock hook 131, the lock hook 131 can exit from the lock hole 111 to the lock case 11, the lock case 11 can rotate around the pin shaft, the lock case 11 is separated from the upper mounting seat 13, and the two case covers 100 can be opened conveniently; after the lock hook 131 exits the lock case 11, the driver 1133 stops driving, and under the action of the return spring 1134, the latch bolt holder 1131 drives the latch bolt 112 to return to the original position, so as to facilitate the next locking. Here, a sliding groove is provided in the lock case 11, and the latch bolt holder 1131 corresponds to a sliding rail engaged with the sliding groove, and the sliding groove is opposite to the sliding rail, as another preferred embodiment, a sliding groove may be provided on the latch bolt holder 1131, and a sliding rail engaged with the sliding groove for guiding is provided in the lock case 11.

As shown in fig. 4 and 8, a jacking frame 1135 matched with the latch bolt frame is further disposed in the lock case 11, the driver 1133 drives the latch bolt frame 1131 to move by pushing the jacking frame 1135 to slide along the sliding groove 1132, one end surface of the jacking frame 1135 is kept attached to one end surface of the latch bolt frame 1131, a jacking block 11351 for jacking the latch hook to make the latch hook exit the lock case when the latch bolt is separated from the latch hook is disposed on the jacking frame 1135, an inclined surface 113511 for pushing the end portion of the latch hook is formed on the jacking block 11351, when unlocking, actuator 1133 drives jack-up rack 1135 to move in the unlocking direction, jack-up rack 1135 pushes bolt rack 1131 to move synchronously, when the latch bolt 112 and the latch hook 131 gradually exit, the top block 11351 gradually abuts against the end of the latch hook 131, and the inclined surface on the top block 11351 gradually pushes the latch hook 131 to gradually exit from the lock hole 111 of the lock case 11 during the moving process towards the unlocking direction, so that during the unlocking process, the locking hook 131 is pushed by the top block 11351 on the jacking frame 1135 to automatically exit the locking hole 111.

The driver 1133 includes the motor 11331 of being connected with the main control module, is connected with the rotation seat 11332 in the pivot of motor, is equipped with the eccentric shaft 11333 that is used for driving the jack-up frame to move along the spout in the motor drives the rotation seat rotation process on the rotation seat 11332, is equipped with the drive groove 11352 that is used for supplying the eccentric shaft to stretch into on the jack-up frame 1135, and motor 11331 drives the eccentric shaft 11333 and rotates, and eccentric shaft 11333 and drive groove 11352 cooperate the drive jack-up frame 1135 and take place to move. A side wall of the driving slot 11352 forms a second inclined surface matched with the eccentric shaft 11333, and the eccentric shaft 11333 is attached to the second inclined surface to gradually drive the jacking frame to move.

The lock case 11 is further provided with a customs lock 114, and in an emergency or customs inspection, a key can be used to cooperate with the customs lock 114 to drive the bolt 112 to separate from the latch hook 131, so that the lock body 11 is unlocked.

As shown in fig. 4 and 9, the customs lock 114 includes a customs lock body 1141 disposed in the lock housing, a lock cylinder 1142 disposed in the customs lock body for inserting a key, and a rotating block 1143 connected to the lock cylinder 1142 for pushing the lock tongue frame to slide along the sliding slot when the lock cylinder rotates, a rotating slot 11411 for rotating the rotating block is formed on the customs lock body 1141, an extending block 11311 matched with the rotating block is disposed on the lock tongue frame 1131, when an emergency or customs inspection occurs, the key is inserted into the lock cylinder 1142 to rotate the key, the rotating block 1143 on the lock cylinder 1142 rotates along the rotating slot 11411, the rotating block 1143 pushes the extending block 11311 on the lock tongue frame 1131, so that the lock tongue frame 1131 moves toward an unlocking direction, and the lock tongue 112 is separated from the lock hook 131.

The rotation slot 11411 on the customs lock body 1141 can limit the rotation angle of the rotation block 1143, when the rotation block 1143 rotates to one end of the rotation slot 11411, the rotation block 1143 does not contact with the extension block 11311, the bolt holder 1131 drives the bolt 112 to return to the original position under the action of the return spring 1134, and the bolt 112 can be locked with the lock hook 131; when the rotating block 1143 rotates to the other end of the rotating slot 11411, the rotating block 1143 pushes the protruding block 11311 to move, and the latch bolt holder 1131 is driven, so that the latch bolt 112 is separated from the latch hook 131. The rotation slot 11411 may be formed by removing material from the customs lock body, or by providing two stop posts on the customs lock body.

The lock shell 11 is also internally provided with a pushing column 115 for driving the lock shell 11 to rotate around a pin shaft and a spring 116 connected with the pushing column when the lock hook 131 is separated from the bolt 112, the lock shell 11 is provided with a through hole 117 for the pushing column to pass through, when the lock hook 131 is matched with the bolt 112, the lock shell 11 is attached to the upper installation seat 13 and the lower installation seat 12, the lower installation seat 12 is pressed against the pushing column 115, so that the pushing column 115 is retracted into the through hole 117, and the spring 116 is pressed; when the locking hook 131 is disengaged from the locking tongue 112, the pushing post 115 is extended out of the through hole 117 by the spring 116, so that the lock case 11 is rotated around the pin by moving away from the upper or lower mounting seat 13 or 12.

The bottom of lock shell 11 is equipped with protruding piece 118, is equipped with on the mount pad 12 down and is used for supplying protruding piece to rotate in order to inject lock shell and the spacing groove 121 of mount pad open angle down, and under the effect that promotes post 115 and spring 116, when lock shell 11 took place to rotate around the direction that the round pin axial was kept away from last mount pad 13, the protruding piece 118 of lock shell 11 bottom rotated at spacing groove 121, when protruding piece 118 touched the one end of spacing groove 121, lock shell 11 rotated the maximum angle, be lock shell 11 promptly and be open mode with lower mount pad 12.

The lock case 11 comprises an outer case 1101 and a bottom cover 1102 matched with the outer case, a lock hole 111 and a through hole 117 are arranged on the bottom cover 1102, a first accommodating cavity 1103 for accommodating an unlocking assembly is formed in the outer case 11, a sliding groove 1132 is arranged on the inner wall of the outer case, a lock cylinder hole 11011 for extending one end of a lock cylinder 1142 is arranged on the outer case 11, and a protruding block 118 is arranged at the bottom of the outer case 1101.

As shown in fig. 14 to 15, the two cover lids 100 are divided into an upper cover lid and a lower cover lid, the upper mounting seat 13 is disposed on the upper cover lid, the lower mounting seat 12 is mounted on the lower cover lid, the lock case 11 is hinged to the lower mounting seat 12, when in an up-lock state, the lock hook 131 is engaged with the lock tongue 112, and the bottom lid 1102 of the lock case 11 is attached to the lower mounting seat 12; when the lock is opened, the locking hook 131 is separated from the locking tongue 112, and under the action of the pushing column 115 and the spring 116, the lock case 11 rotates to a maximum angle around the pin in the direction away from the upper mounting seat 13, that is, the lock case 11 and the lower mounting seat 12 are in an open state.

This a working process that is used for electronic intelligence lock structure of case and bag specifically is:

1) locking: rotating the lock case 11 around the pin shaft in the direction close to the upper mounting seat 13, gradually inserting the lock hook 131 on the upper mounting seat 13 into the lock hole 111, attaching the lock hook 131 to the first inclined surface on the lock tongue 112, pushing the lock tongue 112 to the unlocking direction, driving the lock tongue frame 1131 to move a certain distance in the unlocking direction, and extruding the return spring 1134, when the lock hook is completely placed in the lock case 11, returning the lock tongue frame 1131 to the original position under the action of the return spring 1134, inserting the lock tongue 112 into the lock hook 131, that is, matching the lock hook 131 with the lock tongue 112; meanwhile, the bottom cover 1102 of the lock shell 11 is attached to the upper mounting seat 13 and the lower mounting seat 12, and the lower mounting seat 12 presses the pushing column 115, so that the pushing column 115 retracts into the through hole 117 and presses the spring 116.

2) Unlocking: 2.1) fingerprint unlocking or password unlocking: after the fingerprint identifier 24 reads a preset fingerprint or a password input by the password keyboard 25, the main control module 22 sends a signal to the motor 11331, the motor 11331 starts, the motor 11331 drives the eccentric shaft 11333 to rotate in the forward direction, the eccentric shaft 11333 cooperates with the second inclined surface on the driving groove 11352 to drive the jacking frame 1135 to move in the unlocking direction, the jacking frame 1135 pushes the bolt frame 1131 to move synchronously, the return spring 1134 is squeezed, when the bolt 112 gradually withdraws from the lock hook 131, the jacking block 11351 gradually adheres to the end of the lock hook 131, the inclined surface on the jacking block 11351 gradually pushes the lock hook 131 to gradually withdraw from the lock hole 111 of the lock case 11 in the process of moving in the unlocking direction, until the bolt 112 separates from the lock hook 131, the lock hook 131 completely withdraws from the lock hole 111, and the motor 11331 drives the eccentric shaft 11333 to; meanwhile, under the action of the pushing column 115 and the spring 116, the lock case 11 rotates around the pin in the direction away from the upper mounting seat 13 until the protrusion 118 touches one end of the limiting groove 121, and the lock case 11 rotates to the maximum angle, that is, the lock case 11 and the lower mounting seat 12 are in an open state. 2.2) unlocking by a key: in emergency or customs inspection, the key is inserted into the lock cylinder 1142, the key is rotated, the rotating block 1143 on the lock cylinder 1142 rotates along the rotating slot 11411, the rotating block 1143 pushes the extending block 11311 on the bolt holder 1131, so that the bolt holder 1131 moves towards the unlocking direction, the return spring 1134 is pressed, and the bolt 112 is separated from the lock hook 131.

3) Resetting: after the latch bolt 112 is separated from the latch hook 131 and the latch hook 131 is withdrawn from the lock hole 111, the latch bolt holder 1131 drives the latch bolt 112 to return to the original position under the action of the return spring 1134, thereby facilitating the next locking.

To sum up, the technical scheme of the utility model can be fully effectual the above-mentioned utility model purpose of realization, just the utility model discloses a structure and functional principle all obtain abundant verification in the embodiment, can reach anticipated efficiency and purpose, do not deviating from the utility model discloses a under the prerequisite of principle and essence, can make multiple change or modification to the embodiment of utility model. Therefore, the present invention includes all the alternative contents within the scope mentioned in the claims, and all the equivalent changes made within the claims of the present invention are included in the claims of the present application.

Claims (10)

1. An electronic intelligent lock structure for a case is characterized by comprising at least one lock body arranged on the case and a controller connected with each lock body and used for controlling unlocking of the lock body, wherein the controller comprises a box body arranged on a box cover, a main control module and a power supply connected with the main control module are arranged in the box body, and a fingerprint identifier and a password keyboard which are respectively connected with the main control module are arranged on the box body; every lock body is including locking the shell, installing the lower mount pad on a case lid and installing the last mount pad on another case lid, and lower mount pad is articulated through the round pin axle with locking the shell bottom, goes up to be equipped with the latch hook on the mount pad, is equipped with on the lock shell to be used for supplying latch hook male lockhole, is equipped with in the lock shell to be used for when locking with stretch into the lock shell latch hook complex spring bolt, still is equipped with in the lock shell to be used for driving spring bolt and latch hook separation to carry out the unblock and makes the lock shell be the subassembly of unblanking of open mode with lower mount pad, the subassembly of unblanking includes the spring bolt frame of being connected with the spring bolt, sets up and supplies the gliding spout of lock bolt frame in the lock shell and is connected with host system and is used for driving the gliding driver of spring bolt frame along the spout, still be equipped.

2. An electronic intelligent lock structure for a luggage, according to claim 1, characterized in that: still be equipped with the customs lock in the lock shell, the customs lock is used for supplying key male lock stem and be connected with the lock stem and be used for promoting the lock tongue frame along the gliding rotor of spout when the lock stem rotates including setting up the customs lock body in the lock shell, being in the customs lock body, forms on the customs lock body and is used for supplying rotor block pivoted rotation groove, is equipped with on the lock tongue frame with rotor block complex stretch out the piece.

3. An electronic intelligent lock structure for a luggage, according to claim 1, characterized in that: the lock shell is also internally provided with a pushing column and a spring, wherein the pushing column is used for driving the lock shell to rotate around the pin shaft when the lock hook is separated from the lock tongue, the spring is connected with the pushing column, and the lock shell is provided with a through hole for the pushing column to pass through.

4. An electronic intelligent lock structure for a luggage, according to claim 1, characterized in that: the bottom of lock shell is equipped with the protruding piece, is equipped with on the mount pad down to be used for supplying the protruding piece to rotate in order to inject lock shell and mount pad open angle's spacing groove down.

5. An electronic intelligent lock structure for a case according to any one of claims 1 to 4, wherein: still be equipped with in the lock shell with spring bolt frame complex jack-up frame, the driver slides along the spout through promoting the jack-up frame and drives the spring bolt frame and remove, and a terminal surface of jack-up frame keeps laminating with a terminal surface of spring bolt frame, is equipped with on the jack-up frame to be used for jack-up latch hook when spring bolt and latch hook separation to make the latch hook withdraw from the kicking block of lock shell, forms the inclined plane that is used for promoting the latch hook tip on the kicking block.

6. An electronic intelligent lock structure for a luggage, according to claim 5, wherein: the driver comprises a motor connected with the main control module, a rotating seat is connected to a rotating shaft of the motor, an eccentric shaft used for driving the jacking frame to move along the sliding groove in the rotating process of the rotating seat driven by the motor is arranged on the rotating seat, and a driving groove used for allowing the eccentric shaft to stretch into is formed in the jacking frame.

7. An electronic intelligent lock structure for a luggage, according to claim 5, wherein: the lock shell comprises an outer shell and a bottom cover matched with the outer shell, the lock hole is formed in the bottom cover, a first containing cavity used for containing the unlocking assembly is formed in the outer shell, the sliding groove is formed in the inner wall of the outer shell, and a lock cylinder hole used for enabling one end of the lock cylinder column to extend out is formed in the outer shell.

8. An electronic intelligent lock structure for a case according to any one of claims 1 to 4, wherein: the box body is also provided with an image acquisition module and a switch key, wherein the image acquisition module is respectively connected with the main control module, and the switch key is used for controlling the start of the image acquisition module.

9. An electronic intelligent lock structure for a case according to any one of claims 1 to 4, wherein: the box body is further provided with an interface slot, a charging interface which is connected with a power supply and used for charging the power supply and a power transmission interface which is used for transmitting power for other electronic products are arranged in the interface slot, and the interface slot is matched with an electrical interface cover body.

10. An electronic smart lock structure for a luggage as claimed in claim 8, wherein: the box body includes the base and with base complex panel, is equipped with the second that is used for holding power and host system in the base and holds the chamber, on password keyboard and the switch button set up the panel, still be equipped with on the panel and supply fingerprint identification ware to lay mouthful.

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