阅读说明：本技术 箱包及其指纹机械智能锁 (Case and fingerprint mechanical intelligent lock thereof ) 是由 易海平 余俊 于 2019-04-30 设计创作，主要内容包括：本发明属于锁合设备技术领域,尤其涉及一种箱包及其指纹机械智能锁,指纹机械智能锁包括锁盒、锁舌、机械密码锁、锁止件和电子指纹锁,机械密码锁包括锁合机构和主锁体,限位块安装于锁盒内并能滑动至开锁位；主锁体用于驱动锁止件与限位块锁紧配合或解除配合；电子指纹锁包括安装于锁盒内的指纹识别模组、驱动模组和电源模组,指纹识别模组用于识别用户的指纹信息,驱动模组用于驱动锁止件与限位块锁紧配合或解除配合；电源模组包括供电电池和USB接口,USB接口与供电电池电连接。当出现供电电池缺电等紧急情况时,可通过USB接口接入外界电源,实现对供电电池的充电和指纹识别模组和驱动模组供电,保证了能够在电池耗尽时紧急开锁。(The invention belongs to the technical field of locking equipment, and particularly relates to a luggage and a fingerprint mechanical intelligent lock thereof, wherein the fingerprint mechanical intelligent lock comprises a lock box, a lock tongue, a mechanical coded lock, a locking piece and an electronic fingerprint lock, the mechanical coded lock comprises a locking mechanism and a main lock body, and a limiting block is arranged in the lock box and can slide to an unlocking position; the main lock body is used for driving the locking piece to be locked and matched with or unlocked from the limiting block; the electronic fingerprint lock comprises a fingerprint identification module, a driving module and a power supply module, wherein the fingerprint identification module, the driving module and the power supply module are installed in a lock box, the fingerprint identification module is used for identifying fingerprint information of a user, and the driving module is used for driving a locking piece to be in locking fit with a limiting block or to be out of fit with the limiting block; the power module comprises a power supply battery and a USB interface, and the USB interface is electrically connected with the power supply battery. When emergency such as the power supply battery lacks electricity appears, accessible USB interface inserts external power, realizes the charging and fingerprint identification module and the drive module power supply to power supply battery, has guaranteed to promptly unblank when the battery exhausts.)

1. The utility model provides a fingerprint machinery intelligence lock which characterized in that: the mechanical coded lock comprises a lock box, a lock tongue, a mechanical coded lock, a locking piece and an electronic fingerprint lock, wherein the mechanical coded lock comprises a locking mechanism and a main lock body which are arranged in the lock box, the locking mechanism comprises a limiting block, the limiting block is slidably arranged in the lock box and can slide to an unlocking position under the driving of external force, the position of the limiting block when the limiting block is not driven by the external force is a locking position, and the lock tongue extends into the lock box and is used for being in buckling fit with the limiting block when the limiting block is at the locking position;

the lock piece is slidably arranged in the lock box, and the main lock body is positioned on one side of the lock piece, which is far away from the limiting block, and is used for driving the lock piece to be locked and matched with or disengaged from the limiting block when the limiting block is matched with the lock tongue in a buckling manner;

the electronic fingerprint lock comprises a fingerprint identification module, a driving module and a power supply module which are arranged in the lock box, wherein the top of the lock box is provided with a through hole, the fingerprint identification module is arranged right opposite to the through hole and used for identifying fingerprint information of a user, and the driving module is arranged in the lock box and used for driving the locking piece to be locked and matched with or unlocked from the limiting block;

The power module includes power supply battery and USB interface, the fingerprint identification module with the drive module all with the power supply battery electricity is connected, the USB interface install in on the lateral wall of lock box and with the power supply battery electricity is connected.

2. The fingerprint mechanical intelligent lock of claim 1, characterized in that: stopper damping slidable mounting in the lock box, the stopper orientation the protruding joint portion that is formed with in one side of spring bolt, the spring bolt with joint portion buckle cooperation, the stopper orientation the one end of lock piece is formed with the joint breach, lock piece damping slidable mounting in the lock box, lock piece orientation the protruding joint lug that is formed with of one end of stopper, the joint lug inlays to be located in the joint breach in order to realize the lock piece with stopper locking cooperation.

3. The fingerprint mechanical intelligent lock of claim 2, characterized in that: the spring bolt includes connecting piece and trip spare, the trip spare install in on the connecting piece, just the trip spare stretches into in the lock box and be used for with joint portion buckle cooperation.

4. The fingerprint mechanical intelligent lock of claim 2, characterized in that: the lock body comprises a lock body and a core rod, wherein the lock body is provided with a plurality of code wheels in a sleeved mode, the lock body is installed in the lock box, and the core rod is elastically inserted into the lock body and used for driving the clamping convex block to be separated from the clamping notch.

5. The fingerprint mechanical intelligent lock of claim 4, characterized in that: the core bar orientation the operation piece is installed to the one end of lock piece, the protruding cooperation portion that is formed with of lower extreme of operation piece, one side of cooperation portion is formed with the scarf, the lock piece orientation one side of core bar is seted up and is used for the holding the wedge groove of cooperation portion, the wedge groove correspond one side inner wall of scarf be formed with be used for with the first guide face of scarf butt.

6. The fingerprint mechanical intelligence lock of claim 5, characterized in that: the upper end of the operation block is provided with a pull button in a protruding mode, the top of the lock box is provided with a long slot hole, and the pull button extends out of the long slot hole, extends to the outside and can move relative to the long slot hole under the driving of external force.

7. The fingerprint mechanical intelligent lock according to any one of claims 2-6, characterized in that: the driving module comprises a micro motor and a rotating block, the micro motor is installed in the lock box and corresponds to the arrangement of the locking piece, the rotating block is installed on an output shaft of the micro motor, the micro motor is used for driving the rotating block to rotate so as to stir the locking piece, and therefore the clamping convex block is driven to be separated from the clamping notch.

8. The fingerprint mechanical intelligence lock of claim 7, characterized in that: the locking piece is towards one side arch of turning block is formed with the cooperation lug, the cooperation lug is towards one side beveling of turning block is formed with the second guide face, the protruding stirring lug that is formed with in outward flange of turning block, stir the lug towards one side of turning block is formed with and is used for with the third guide face of second guide face butt.

9. The fingerprint mechanical intelligent lock according to any one of claims 1-6, characterized in that: the electronic fingerprint lock further comprises a GPS positioning module and a wireless communication module electrically connected with the GPS positioning module, the GPS positioning module and the wireless communication module are installed in the lock box, the wireless communication module is electrically connected with the electronic fingerprint lock, the GPS positioning module is used for sending position information to the wireless communication module, the wireless communication module is used for being connected with a mobile control end in a wireless communication mode, so that the mobile control end can control the electronic fingerprint lock to be opened and closed through the wireless communication module and enable the mobile control end to receive the position information sent by the wireless communication module.

10. A case, characterized in that: the fingerprint mechanical intelligent lock comprises a box body and a fingerprint mechanical intelligent lock arranged on the box body, wherein the fingerprint mechanical intelligent lock comprises a lock box, a lock tongue, a mechanical coded lock, a locking piece and an electronic fingerprint lock, the mechanical coded lock comprises a locking mechanism and a main lock body which are arranged in the lock box, the locking mechanism comprises a limiting block, the limiting block is slidably arranged in the lock box and can slide to an unlocking position under the driving of external force, the limiting block is positioned at a locking position when not driven by the external force, and the lock tongue extends into the lock box and is used for being in snap fit with the limiting block when the limiting block is positioned at the locking position;

the lock piece is arranged in the lock box in a damping sliding mode, and the main lock body is located on one side, away from the limiting block, of the lock piece and used for driving the lock piece to be in locking fit or disengaged from the limiting block when the limiting block is in buckling fit with the lock tongue;

the electronic fingerprint lock comprises a fingerprint identification module, a driving module and a power supply module which are arranged in the lock box, wherein the top of the lock box is provided with a through hole, the fingerprint identification module is arranged right opposite to the through hole and used for identifying fingerprint information of a user, and the driving module is arranged in the lock box and used for driving the locking piece to be locked and matched with or unlocked from the limiting block;

The power module includes power supply battery and USB interface, the fingerprint identification module with the drive module all with the power supply battery electricity is connected, the USB interface install in on the lateral wall of lock box and with the power supply battery electricity is connected.

Technical Field

The invention belongs to the technical field of locking equipment, and particularly relates to a luggage and a fingerprint mechanical intelligent lock thereof.

Background

The suitcase is taken as a common article in travel, the anti-theft safety of the suitcase is always generally regarded by the general attention in the industry, the main means for improving the anti-theft safety of the suitcase is to improve a suitcase lock, and at present, the suitcase lock mainly has lock types such as a mechanical coded lock, an electronic fingerprint lock and the like.

Disclosure of Invention

The invention aims to provide a case and a fingerprint mechanical intelligent lock thereof, and aims to solve the technical problem that a case lock in the prior art cannot give consideration to high safety and emergency unlocking when a battery is exhausted.

In order to achieve the purpose, the invention adopts the technical scheme that: a fingerprint mechanical intelligent lock comprises a lock box, a lock tongue, a mechanical coded lock, a lock locking piece and an electronic fingerprint lock, wherein the mechanical coded lock comprises a locking mechanism and a main lock body which are arranged in the lock box, the locking mechanism comprises a limiting block, the limiting block is slidably arranged in the lock box and can slide to an unlocking position under the driving of external force, the position of the limiting block when the limiting block is not driven by the external force is a locking position, and the lock tongue extends into the lock box and is used for being in buckling fit with the limiting block when the limiting block is in the locking position;

The lock piece is slidably arranged in the lock box, and the main lock body is positioned on one side of the lock piece, which is far away from the limiting block, and is used for driving the lock piece to be locked and matched with or disengaged from the limiting block when the limiting block is matched with the lock tongue in a buckling manner;

the electronic fingerprint lock comprises a fingerprint identification module, a driving module and a power supply module which are arranged in the lock box, wherein the top of the lock box is provided with a through hole, the fingerprint identification module is arranged right opposite to the through hole and used for identifying fingerprint information of a user, and the driving module is arranged in the lock box and used for driving the locking piece to be locked and matched with or unlocked from the limiting block;

the power module includes power supply battery and USB interface, the fingerprint identification module with the drive module all with the power supply battery electricity is connected, the USB interface install in on the lateral wall of lock box and with the power supply battery electricity is connected.

Further, stopper damping slidable mounting in the lock box, the stopper orientation one side arch of spring bolt is formed with joint portion, the spring bolt with joint portion buckle cooperation, the stopper orientation the one end of lock piece is formed with the joint breach, lock piece damping slidable mounting in the lock box, lock piece orientation the protruding joint lug that is formed with of one end of stopper, the joint lug inlays to be located in the joint breach in order to realize the lock piece with stopper locking cooperation.

Further, the spring bolt includes connecting piece and trip piece, the trip piece install in on the connecting piece, just the trip piece stretches into in the lock box and be used for with joint portion buckle cooperation.

Furthermore, the main lock body comprises a lock body and a core rod, wherein the lock body is provided with a plurality of code wheels in a sleeved mode, the lock body is installed in the lock box, and the core rod is elastically inserted into the lock body and used for driving the clamping convex block to be separated from the clamping notch.

Further, the core bar orientation the operation piece is installed to the one end of lock piece, the protruding cooperation portion that is formed with of lower extreme of operation piece, one side of cooperation portion is formed with the scarf, the lock piece orientation one side of core bar is seted up and is used for the holding the wedge groove of cooperation portion, the wedge groove correspond one side inner wall of scarf be formed with be used for with the first guide face of scarf butt.

Furthermore, the upper end of the operation block is convexly provided with a pulling button, the top of the lock box is provided with a long slot hole, and the pulling button extends out of the long slot hole, extends to the outside and can move relative to the long slot hole under the driving of external force.

Further, the drive module includes micro motor and turning block, micro motor install in the lock box and correspond the locking piece sets up, the turning block install in on micro motor's the output shaft, micro motor is used for the drive the turning block is rotatory in order to stir the locking piece, in order to drive the joint lug break away from in the joint breach.

Furthermore, the locking piece is towards one side of the rotating block is convexly provided with a matching convex block, one side of the matching convex block, which faces the rotating block, is obliquely provided with a second guide surface, the outer edge of the rotating block is convexly provided with a poking convex block, and one side of the poking convex block, which faces the rotating block, is provided with a third guide surface which is used for being abutted against the second guide surface.

Further, the electron fingerprint lock still include GPS location module and with the wireless communication module that GPS location module electricity is connected, GPS location module with the wireless communication module all install in the lock box, the wireless communication module with the electron fingerprint lock electricity is connected, GPS location module is used for sending positional information to the wireless communication module, the wireless communication module is used for being connected with mobile control end wireless communication, so that the mobile control end passes through the wireless communication module control opening and closing of electron fingerprint lock, and messenger the mobile control end can receive the positional information that the wireless communication module sent.

The invention has the beneficial effects that: when the fingerprint mechanical intelligent lock disclosed by the invention works, when the lock is required to be locked, force can be applied to the limiting block of the locking mechanism, the limiting block is pulled to move towards the unlocking position, the lock tongue can extend into the lock box at the moment, and after the lock tongue reaches the designated position, external force applied to the limiting block can be removed, so that the limiting block can return to the locking position under the action of elastic restoring force, the buckling fit with the lock tongue is realized, and the basic fit of the lock tongue and the limiting block is realized. And because the main lock body can drive the locking piece to be locked and matched with the limiting block when the limiting block is matched with the lock tongue buckle. Therefore, effective limitation on movement displacement of the limiting block is realized, the stability of the lock tongue and the limiting block in buckling fit is guaranteed, and the use safety of the fingerprint mechanical intelligent lock is obviously improved. And because fingerprint machinery intelligence lock still integrateed has the electronic fingerprint lock, the fingerprint identification module can discern the user fingerprint like this to realize locking or the unblock to locking piece and stopper through the drive module, thereby realize the fingerprint unblock. And because the power module of electron fingerprint lock has power supply battery and USB interface, when emergency such as the power supply battery lacks electricity appears, can insert external power through the USB interface so, realize the power supply to power supply battery charge and to power consumption components such as fingerprint identification module and drive module, so just guaranteed that fingerprint machinery intelligence lock can promptly unblank when the battery exhausts.

Another technical scheme adopted by the application is as follows: a case comprises a case body and a fingerprint mechanical intelligent lock arranged on the case body, wherein the fingerprint mechanical intelligent lock comprises a lock box, a lock tongue, a mechanical coded lock, a locking piece and an electronic fingerprint lock, the mechanical coded lock comprises a locking mechanism and a main lock body which are arranged in the lock box, the locking mechanism comprises a limiting block, the limiting block is slidably arranged in the lock box and can slide to an unlocking position under the driving of external force, the limiting block is positioned at a locking position when not driven by the external force, and the lock tongue extends into the lock box and is used for being in buckled fit with the limiting block when the limiting block is positioned at the locking position;

the lock piece is arranged in the lock box in a damping sliding mode, and the main lock body is located on one side, away from the limiting block, of the lock piece and used for driving the lock piece to be in locking fit or disengaged from the limiting block when the limiting block is in buckling fit with the lock tongue;

the electronic fingerprint lock comprises a fingerprint identification module, a driving module and a power supply module which are arranged in the lock box, wherein the top of the lock box is provided with a through hole, the fingerprint identification module is arranged right opposite to the through hole and used for identifying fingerprint information of a user, and the driving module is arranged in the lock box and used for driving the locking piece to be locked and matched with or unlocked from the limiting block;

The power module includes power supply battery and USB interface, the fingerprint identification module with the drive module all with the power supply battery electricity is connected, the USB interface install in on the lateral wall of lock box and with the power supply battery electricity is connected.

The utility model provides a case and bag, owing to including foretell fingerprint machinery intelligence lock, and foretell fingerprint machinery intelligence lock can realize the fingerprint and unblank when guaranteeing the safety in utilization, still can support promptly unblank when the battery exhausts, so just also promoted the whole security and the convenience in use of case and bag.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a fingerprint mechanical intelligent lock provided in an embodiment of the present invention;

fig. 2 is a schematic diagram of an explosion structure of the fingerprint mechanical intelligent lock according to the embodiment of the present invention;

Fig. 3 is a schematic structural diagram of a limiting block of the fingerprint mechanical intelligent lock provided by the embodiment of the invention;

fig. 4 is another schematic structural diagram of a limiting block of the fingerprint mechanical intelligent lock provided by the embodiment of the invention;

fig. 5 is a schematic structural diagram of a driving module of the fingerprint mechanical intelligent lock according to the embodiment of the present invention;

fig. 6 is a schematic structural diagram of a locking member of a fingerprint mechanical intelligent lock according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a core bar of the fingerprint mechanical intelligent lock according to the embodiment of the present invention.

Wherein, in the figures, the respective reference numerals:

10-lock box 11-through opening 12-avoidance gap

13-long slotted hole 14-cover 15-bottom plate

20-bolt 21-connecting piece 22-trip piece

30-mechanical coded lock 31-locking mechanism 32-main lock body

40-locking piece 41-clamping convex block 42-wedge-shaped groove

43-first guide surface 44-cooperating projection 45-second guide surface

50-electronic fingerprint lock 51-fingerprint identification module 52-drive module

53-power module 54-mounting plate 55-electronic limit switch

311-limit block 312-clamping part 313-clamping gap

314-toggle button 315-mounting port 316-resilient member

321-lock body 322-core rod 323-password wheel

324-operating block 325-engaging portion 326-chamfer

327-pulling button 328-dust cap 329-damping limiting piece

330-coding key 511-sealing washer 521-micro motor

522-rotating block 523-toggle bump 524-third guide surface

531-supply battery 532-USB interface.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to fig. 1-7 are exemplary and intended to be used to illustrate the invention, but are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

As shown in fig. 1 to 3, an embodiment of the present invention provides a fingerprint mechanical intelligent lock, which includes a lock box 10, a lock tongue 20, a mechanical coded lock 30, a lock locking member 40, and an electronic fingerprint lock 50, where the mechanical coded lock 30 includes a locking mechanism 31 and a main lock body 32 installed in the lock box 10, the locking mechanism 31 includes a limit block 311, the limit block 311 is installed in the lock box 10 in a damping sliding manner and can slide to an unlocking position under the driving of an external force, the position of the limit block 311 when not driven by the external force is a locking position, and the lock tongue 20 extends into the lock box 10 and is used for being in snap-fit with the limit block 311 when the limit block 311 is in the locking position. Specifically, the lock box 10 includes a cover 14 and a bottom plate 15, the cover 14 covers the bottom plate 15, and the mechanical combination lock 30, the locking member 40 and the electronic fingerprint lock 50 are all mounted on the bottom plate 15.

Further, the locking member 40 is installed in the lock box 10 in a damping sliding manner, and the main lock body 32 is located on one side of the locking member 40 departing from the limiting block 311 and is used for driving the locking member 40 to be locked or disengaged with the limiting block 311 when the limiting block 311 is in snap fit with the locking tongue 20. Electronic fingerprint lock 50 is including installing fingerprint identification module 51, drive module 52 and the power module 53 in lock box 10, and pass through mouth 11 has been seted up at the top of lock box 10, and fingerprint identification module 51 is just being used for discerning user's fingerprint information to pass through the setting of mouth 11, and drive module 52 is installed in lock box 10 and is used for driving locking piece 40 and stopper 311 locking cooperation or the decommissioning. Wherein, seal to be equipped with seal ring 511 between through mouthful 11 and the fingerprint identification module 51 to guarantee the leakproofness of lock box 10 opening part. The power module 53 includes a power supply battery 531 and a USB interface 532, the fingerprint identification module 51 and the driving module 52 are electrically connected to the power supply battery 531, and the USB interface 532 is installed on the sidewall of the lock box 10 and electrically connected to the power supply battery 531. The seam of the lock box 10, the joint of the relevant sensor and the lock box 10 and the USB interface 532 are all sealed by coating sealant, so as to realize water and dust prevention. Preferably, the USB rubber stopper port can be customized at the USB interface 532 for waterproof and dustproof treatment. It should be noted that, when the fingerprint is unlocked, the steps of setting the administrator fingerprint, registering the user fingerprint, deleting the user fingerprint, and the like are provided, and details are not described here.

The fingerprint mechanical intelligent lock provided by the embodiment of the invention is further explained as follows: when the fingerprint mechanical intelligent lock provided by the embodiment of the invention needs to be locked, force can be applied to the limiting block 311 of the locking mechanism 31, the limiting block 311 is pulled to move towards the unlocking position, at the moment, the lock tongue 20 can extend into the lock box 10, and after the lock tongue 20 reaches the designated position, external force applied to the limiting block 311 can be removed, so that the limiting block 311 can return to the locking position under the action of elastic restoring force generated by damping sliding, and the buckling fit with the lock tongue 20 is realized, and the basic matching of the lock tongue 20 and the limiting block 311 is realized. And the main lock body 32 can drive the locking piece 40 to be locked and matched with the limit block 311 when the limit block 311 is in snap fit with the bolt 20. Therefore, the effective limitation on the motion displacement of the limiting block 311 is realized, the stability of the buckling fit between the lock tongue 20 and the limiting block 311 is ensured, and the use safety of the fingerprint mechanical intelligent lock is obviously improved. And because fingerprint machinery intelligence lock still is integrated with electronic fingerprint lock 50, fingerprint identification module 51 can discern the user fingerprint like this to realize locking or the unblock to locking piece 40 and stopper 311 through drive module 52, thereby realize the fingerprint unblock. And because the power module 53 of electronic fingerprint lock 50 has power supply battery 531 and USB interface 532, when the emergency such as power supply battery 531 lacks the electricity appears, can insert external power through USB interface 532, realize the power supply to power supply battery 531 charge and to power consumption components such as fingerprint identification module 51 and drive module 52, so just guaranteed that fingerprint machinery intelligence lock can promptly unblank when the battery exhausts.

In another embodiment of the present invention, as shown in fig. 3, 4 and 6, the limiting block 311 is slidably mounted in the lock case 10 along the X-axis direction. The X-axis direction is the length direction of the limiting block 311, the Y-axis direction is the width direction of the limiting block 311, and the Z-axis direction is the height direction of the limiting block 311. Stopper 311 is protruding towards one side of spring bolt 20 and is formed with joint portion 312, spring bolt 20 and the cooperation of joint portion 312 buckle, and stopper 311 is formed with joint breach 313 towards the one end of locking piece 40, and locking piece 40 is installed in lock box 10 along Y axle direction damping sliding, and locking piece 40 is protruding towards the protruding joint lug 41 that is formed with of one end of stopper 311, and joint lug 41 inlays to be located in joint breach 313 in order to realize locking piece 40 and stopper 311 locking cooperation. Specifically, the limiting block 311 slides along the X-axis in a damping manner, the locking member 40 slides along the Y-axis in a damping manner, and the sliding tracks of the limiting block 311 and the locking member 40 are perpendicular and overlapped, so that the clamping convex block 41 and the clamping notch 313 can be efficiently and quickly embedded and matched when sliding.

In another embodiment of the present invention, as shown in fig. 3 and 4, the locking bolt 20 includes a connecting member 21 and a hook member 22, the hook member 22 is mounted on the connecting member 21, and the hook member 22 extends into the lock case 10 and is used for being snap-fitted with the snap portion 312. Specifically, the connecting member 21 is installed on one side of the zipper of the external luggage or the like, and the lock case 10 can be installed on the other side of the zipper of the external luggage or the like, and when the lock is required, only the hook member 22 needs to extend into the lock case 10 and be in snap fit with the snap portion 312.

In another embodiment of the present invention, as shown in fig. 2, the main lock body 32 includes a lock body 321 sleeved with a plurality of code wheels 323 and a core bar 322, the lock body 321 is installed in the lock box 10, and the core bar 322 is elastically inserted into the lock body 321 along the X-axis direction and is used for driving the locking protrusion 41 to disengage from the locking notch 313. Specifically, through inserting elasticity in locating lock body 321, when needs make core bar 322 drive joint lug 41 break away from in joint breach 313, only need along X axle direction stir core bar 322 can, convenient and fast. Specifically, the periphery of the lock body 321 is fitted with a damping limiting piece 329, and the damping limiting piece 329 wraps the lock body 321 and is used for generating a damping limiting effect when each password wheel 323 rotates. Meanwhile, one end of the core bar 322, which is away from the locking member 40, is provided with an encoding key 330, the encoding key 330 extends out of the lock box 10, and an operator can control the matching relationship of the lock body 321 of the core bar 322 by pulling the encoding key 330, and dial each password wheel 323, thereby completing the operation of arranging passwords. The specific steps of the password arrangement are not described herein.

In another embodiment of the present invention, as shown in fig. 6 and 7, an operating block 324 is mounted on one end of the core rod 322 facing the locking member 40, a mating portion 325 is convexly formed at a lower end of the operating block 324, a chamfered surface 326 is formed at one side of the mating portion 325, a wedge-shaped groove 42 for receiving the mating portion 325 is formed at one side of the locking member 40 facing the core rod 322, and a first guiding surface 43 for abutting against the chamfered surface 326 is formed on an inner wall of the wedge-shaped groove 42 corresponding to the chamfered surface 326. Specifically, when the core rod 322 moves in the X-axis direction, the engaging portion 325 moves relative to the wedge-shaped groove 42, so that the inclined plane 326 of the engaging portion 325 pushes the first guiding surface 43, and further pushes the locking member 40 to move in the X-axis direction, and thus the locking protrusion 41 can be disengaged from the locking notch 313. Optionally, the top of the lock box 10 is provided with a plurality of clearance gaps 12, and a portion of each password wheel 323 respectively passes through each clearance gap 12 and is exposed to the outside, so that an operator can conveniently roll the password wheel 323 to input a password.

In another embodiment of the present invention, as shown in fig. 7, a pull button 327 is formed protruding from an upper end of the operation block 324, a long slot hole 13 is formed in the top of the lock box 10 along the X-axis direction, and the pull button 327 extends out of the long slot hole 13 and extends to the outside and can move relative to the long slot hole 13 along the X-axis direction under the driving of an external force. Specifically, the pull button 327 is formed at the upper end of the operating block 324 in a protruding manner, so that the operator can control the movement of the pull button 327 to conveniently and quickly control the core rod 322.

In another embodiment of the present invention, as shown in FIG. 7, a dust cap 328 is disposed on a side of the operation block 324 facing away from the core pin 322, and the dust cap 328 is used for covering the aperture of the slot hole 13 when the pull button 327 moves relative to the slot hole 13. Specifically, due to the existence of the dust cover 328, when the pulling button 327 moves relative to the long slot 13, and the aperture of the long slot 13 is exposed to the outside, the dust cover 328 covers the aperture of the long slot 13 in time along with the movement of the pulling button 327, so as to prevent the external impurity dust from entering into the lock box 10 from the aperture.

In another embodiment of the present invention, as shown in fig. 2, 5 and 6, the driving module 52 includes a micro motor 521 and a rotating block 522, the micro motor 521 is installed in the lock box 10 and is disposed corresponding to the locking member 40, and the rotating block 522 is installed on an output shaft of the micro motor 521 and is used for shifting the locking member 40 along the Y-axis direction under the driving of the micro motor 521, so as to drive the engaging protrusion 41 to disengage from the engaging notch 313. Meanwhile, a matching lug 44 is formed on one side of the locking member 40, which faces the rotating block 522, in a protruding manner, a second guide surface 45 is formed on one side of the matching lug 44, which faces the rotating block 522, in a chamfered manner, a toggle lug 523 is formed on the outer edge of the rotating block 522 in a protruding manner, and a third guide surface 524 for abutting against the second guide surface 45 is formed on one side of the toggle lug 523, which faces the rotating block 522. Specifically, when the unlocking is required, the micro motor 521 can drive the rotating block 522 to rotate, so that the third guiding surface 524 of the toggle projection 523 can abut against the second guiding surface 45 of the matching projection 44 and push the locking member 40 to move along the Y-axis direction, thereby separating the clamping projection 41 from the clamping gap 313. When the locking is needed, the micro motor 521 can drive the rotating block 522 to rotate, so that the poking bump 523 rotates to a specified position, and the disengagement of the poking bump 523 and the matching bump 44 is ensured.

Further, the driving module 52 further includes an electronic limit switch 55, the electronic limit switch 55 is installed in the lock box 10 and is disposed corresponding to the limit block 311, the electronic limit switch 55 is used for being triggered by the hook 22 when the hook 22 and the limit block 311 are in snap fit, and sends an instruction to the micro motor 521, so as to drive the micro motor 521 to move, so that the toggle bump 523 rotates to a designated position, and the disengagement of the toggle bump and the mating bump 44 is ensured.

In another embodiment of the present invention, the electronic fingerprint lock 50 further includes a GPS positioning module (not shown) and a wireless communication module (not shown), both of which are installed in the lock box 10, the wireless communication module is electrically connected to the electronic fingerprint lock, wherein the electronic fingerprint lock 50 further includes a matching module, the matching module is electrically connected to the wireless communication module, the wireless communication module receives a command signal sent by the mobile control end and compares the command signal with a command preset in the matching module, if the command signal is consistent with the command signal, the signal is transmitted to the driving module 52 to unlock the electronic fingerprint lock, and if the command signal is inconsistent with the command signal, the unlocking action is not performed and an alarm signal is sent.

Further, the electronic fingerprint lock 50 further includes a storage module (not shown) electrically connected to the driving module 52 and the fingerprint identification module 51, and the storage module is used for storing unlocking information of the electronic fingerprint lock, such as fingerprint information. The GPS positioning module is used for sending the position information to the wireless communication module, and the wireless communication module is used for being in wireless communication connection with the mobile control end, so that the mobile control end controls the electronic fingerprint lock to be opened and closed through the wireless communication module, and the mobile control end can receive the position information sent by the wireless communication module. Specifically, through setting up GPS location module and wireless communication module, so alright realize unblanking to electronic fingerprint lock 50's remote location and wireless communication, further promoted the convenience of unblanking. And the wireless communication module still can bind with mobile terminal's application, can realize measuring mobile terminal distance simultaneously and install the distance of 50 electronic fingerprint locks on external case and bag, when the distance surpassed the default, can send alarm information to mobile terminal, the suggestion user protects the case and bag of managing oneself well. Meanwhile, the wireless communication module and the fingerprint identification module 51 are electrically connected, so that fingerprint unlocking on the mobile terminal can be realized, and the unlocking record can be inquired at the mobile terminal.

In another embodiment of the present invention, as shown in fig. 2, the electronic fingerprint lock 50 further includes a mounting plate 54, the mounting plate 54 is mounted in the lock box 10, the fingerprint identification module 51 is mounted on the mounting plate 54, an assembly gap is formed between the mounting plate 54 and the bottom of the lock box 10, and the power supply battery 531 is mounted in the assembly gap. Specifically, through setting up mounting panel 54, guaranteed fingerprint identification module 51's installation stability on the one hand, on the other hand has also realized the segmentation optimization to the assembly space in the lock box 10 for power supply battery 531 can receive mounting panel 54 and lock box 10 bottom plate 15's upper and lower duplicate protection.

In another embodiment of the present invention, as shown in fig. 2, the locking mechanism 31 further includes a toggle button 314, the limiting block 311 is provided with an assembling opening 315, one end of the toggle button 314 is inserted into the assembling opening 315, and the other end of the toggle button 314 extends out of the lock box 10. Specifically, by setting the toggle button 314, the operator can conveniently and quickly separate the limiting block 311 from the hook 22 by toggling the toggle button 314 along the X-axis direction.

In another embodiment of the present invention, as shown in fig. 2, the locking mechanism 31 further includes an elastic member 316, and the elastic member 316 is connected between the limiting block 311 and the inner sidewall of the lock box 10 along the X-axis direction. Specifically, by providing the elastic member 316, the damping sliding of the stopper 311 in the X-axis direction is realized. And the elastic member 316 may be specifically selected as a spring member, etc.

In another embodiment of the present invention, the locking mechanism 31 further includes a guide plate (not shown) disposed in the lock box 10 along the X-axis direction, and a guide space is formed between the guide plate and the inner side wall of the lock box 10 close to the limiting block 311, and the limiting block 311 is accommodated in the guide space. Specifically, by arranging the guide plate, the effective protection of the limiting block 311 is also realized on the premise of realizing the accurate guide of the motion track of the limiting block 311.

The embodiment of the invention also provides a case, which comprises a case body and the fingerprint mechanical intelligent lock arranged on the case body. The mechanical intelligent fingerprint lock comprises a lock box 10, a lock tongue 20, a mechanical coded lock 30, a locking piece 40 and an electronic fingerprint lock 50, wherein the mechanical coded lock 30 comprises a locking mechanism 31 and a main lock body 32 which are installed in the lock box 10, the locking mechanism 31 comprises a limiting block 311, the limiting block 311 can be installed in the lock box 10 in a damping sliding mode and can slide to an unlocking position under the driving of external force, the position where the limiting block 311 is located when not driven by the external force is defined as the locking position, and the lock tongue 20 extends into the lock box 10 and is used for being in snap fit with the limiting block 311 when the limiting block 311 is located at the locking position. Specifically, the lock box 10 includes a cover 14 and a bottom plate 15, the cover 14 covers the bottom plate 15, and the mechanical combination lock 30, the locking member 40 and the electronic fingerprint lock 50 are all mounted on the bottom plate 15.

Further, the locking member 40 is installed in the lock box 10 in a damping sliding manner, and the main lock body 32 is located on one side of the locking member 40 departing from the limiting block 311 and is used for driving the locking member 40 to be locked or disengaged with the limiting block 311 when the limiting block 311 is in snap fit with the locking tongue 20. Electronic fingerprint lock 50 is including installing fingerprint identification module 51, drive module 52 and the power module 53 in lock box 10, and pass through mouth 11 has been seted up at the top of lock box 10, and fingerprint identification module 51 is just being used for discerning user's fingerprint information to pass through the setting of mouth 11, and drive module 52 is installed in lock box 10 and is used for driving locking piece 40 and stopper 311 locking cooperation or the decommissioning. Wherein, seal to be equipped with seal ring 511 between through mouthful 11 and the fingerprint identification module 51 to guarantee the leakproofness of lock box 10 opening part. The power module 53 includes a power supply battery 531 and a USB interface 532, the fingerprint identification module 51 and the driving module 52 are electrically connected to the power supply battery 531, and the USB interface 532 is installed on the sidewall of the lock box 10 and electrically connected to the power supply battery 531. The seam of the lock box 10, the joint of the relevant sensor and the lock box 10 and the USB interface 532 are all sealed by coating sealant, so as to realize water and dust prevention. Specifically, the case and bag that this application embodiment provided, owing to including foretell fingerprint mechanical intelligence lock, and foretell fingerprint mechanical intelligence lock can realize the fingerprint and unblank when guaranteeing the safety in utilization, still can support promptly unblank when the battery runs out, so just also promoted the whole security and the convenience of use of case and bag.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.