CN107972984B

CN107972984B - But recycle's wireless express packaging box that charges of self-alert and receiving and dispatching system

Info

Publication number: CN107972984B
Application number: CN201711065710.2A
Authority: CN
Inventors: 黄榕; 刘成清
Original assignee: Changan University
Current assignee: Changan University
Priority date: 2017-11-02
Filing date: 2017-11-02
Publication date: 2024-03-12
Anticipated expiration: 2037-11-02
Also published as: CN107972984A

Abstract

The invention discloses a recyclable self-reminding wireless charging express packaging box and a receiving and dispatching system, wherein the packaging box comprises a box body, a box cover is movably arranged on the box body, a lock hole is formed in the upper part of the box body, and a mechanical electronic lock is arranged at the bottom of the box cover; the mechanical electronic lock comprises a containing groove arranged at the bottom of the box cover, and a lock cylinder, a clamping strip, a tooth sector, a return spring, a compression spring, a rotating arm and a motor are arranged in the containing groove. The invention realizes paperless whole express delivery of goods, reduces environmental pollution and improves the efficiency of the receiving and transmitting process; the mechanical electronic lock with special design is adopted, the lock can accurately control the opening and closing of the express box, has good stability, and can effectively ensure the safety of transported goods when the electronic control device does not work in the cargo transportation process and the lock becomes a pure mechanical structure.

Description

But recycle's wireless express packaging box that charges of self-alert and receiving and dispatching system

Technical Field

The invention belongs to the technical field of logistics express delivery, and particularly relates to a recyclable self-reminding wireless charging express delivery packaging box and a receiving and transmitting system.

Background

Express packaging box is currently very popular in the logistics field, but traditional express packaging box structure is simpler, most of the express packaging box is a common paper box, and the demands of intellectualization and high efficiency in the current logistics field can not be met gradually.

Chinese invention patent application: a multifunctional intelligent express box (application publication number: CN 105711934A, application number: 201610018702.1) comprises a box body, an upper cover, a mobile terminal, a plurality of rubber air bags, a camera, a touch display screen, an electronic scale with a weight sensor, a temperature control assembly, a lithium battery and other components, wherein intelligent receiving and dispatching express can be realized through the embedded mobile terminal and electronic equipment, and the functions of automatic weighing, constant temperature control and the like are performed on express goods. But has the following disadvantages: 1) the device adopts four rubber air bags to protect goods, can not fix the goods well when receiving great impact force, leads to the goods impaired easily, 2) install electronic equipment such as touch display screen, camera additional on the express delivery box, thereby increase the cost and the weight of express delivery box undoubtedly, and simultaneously, the cost of transportation is increased, the electric quantity that can make the express delivery box consumes excessively fast of these electronic equipment's increase, charging frequency is too high, 3) in addition, touch display screen itself is fragile, install very unsafe in the outside of express delivery box additional, in express delivery transportation, damage easily, change frequently, use cost is high, 4) the convenience when not taking the express delivery piece is taken into account, 5) adopt the structure lock of pin thread and box, in express delivery transportation, the express delivery box is opened by the effect of external force easily and automatically.

Disclosure of Invention

Aiming at the problems in the prior art, one of the purposes of the invention is to provide a recyclable self-reminding wireless charging express packaging box, which mainly solves the problems that the express box in the prior art cannot protect goods in place and the like. The second purpose of the invention is to provide a receiving and sending system matched with the packaging box provided by the invention for use so as to improve the receiving and sending efficiency of express delivery.

In order to realize the tasks, the invention adopts the following technical scheme:

the self-reminding wireless charging express packaging box capable of being recycled comprises a box body, wherein a box cover is movably arranged on the box body, a lock hole is formed in the upper part of the box body, and a mechanical electronic lock is arranged at the bottom of the box cover;

the mechanical electronic lock comprises a containing groove arranged at the bottom of the box cover, wherein a lock cylinder, a clamping strip, a tooth sector, a return spring, a compression spring, a rotating arm and a motor are arranged in the containing groove, one end of the lock cylinder is coaxially and sequentially connected with a rack and the return spring, and the end part of the return spring is connected to the inner wall of the containing groove; the sector comprises a lock disc with a gap with the rack, teeth matched with the rack are distributed on part of the circumference of the lock disc, and the lock disc and the rotating arm are coaxially arranged on an output shaft of the motor; the lock cylinder is provided with a locking groove, and one end of the clamping strip is provided with a plug matched with the locking groove; the clamping strip is perpendicular to the lock cylinder, the other end of the clamping strip is connected with the compression spring, and the compression spring is connected to the positioning block arranged on the inner wall of the accommodating groove; the clamping strip is provided with an L-shaped lifting arm, and the distance between the output shaft of the motor and the lifting arm is smaller than the length of the rotating arm;

the motor is powered by a battery arranged in the accommodating groove, and the battery is charged in a wireless charging mode.

Further, a sliding groove is formed in the outer wall of the lock cylinder along the axial direction of the lock cylinder, the locking groove is positioned at the end part of the sliding groove, which is close to one side of the rack, and the depth of the locking groove is larger than that of the sliding groove; the plug on the clamping strip is assembled in the chute or inserted into the locking groove under the elastic force of the compression spring.

Further, the outside cover of card strip be equipped with the sliding sleeve, the sliding sleeve is fixed on the holding tank inner wall.

Further, a lock table is arranged at the upper part of the box body, and the lock hole is arranged on the side surface of the lock table; the side of lid bottom holding tank be provided with lock platform complex recess, holding tank and recess pass through the guide way intercommunication, when the lid lock on the box body, lock core and lockhole coaxial.

Further, the inner wall of the box body and the bottom surface of the box body are provided with mutually communicated air bags, the top of the box body is provided with a positioning groove, a rotatable air charging nozzle is arranged in the positioning groove, and the air charging nozzle is connected with the air bags.

Further, a honeycomb interlayer is arranged in the side wall of the box body.

Further, the top of the box body is provided with a first magnetic rubber strip, and the bottom of the box cover is provided with a second magnetic rubber strip.

Further, the holding tank in be provided with control chip, motor connection control chip, still be connected with bee calling organ, LED lamp on the control chip, the lid on set up first through-hole, the second through-hole that suits with bee calling organ, LED lamp appearance.

A receiving and dispatching system for express packaging box, including CPU module and connect positioning module, lock control module, receipts/signaling module, warning module, power module and the storage module on the CPU module, wherein:

the positioning module is used for acquiring current position information in real time and providing the information to the CPU module;

the lock control module is used for receiving a control signal sent by the CPU module so as to control the opening and closing of the mechanical electronic lock;

the receiving/signaling module is used for interconnection with the wireless network, and the CPU module is communicated with the wireless network through the receiving/signaling module;

the reminding module assists an express delivery person or a receiver to search an express delivery packaging box in an acousto-optic reminding mode under the control of the CPU module;

the storage module is used for storing the position information transmitted to the CPU module by the positioning module;

the CPU module is used for receiving the position information provided by the positioning module, storing the position information in the storage module, and simultaneously communicating with the wireless network through the receiving/signaling module to receive an instruction, and controlling the mechanical electronic lock through the lock control module or carrying out acousto-optic reminding through the reminding module according to the instruction;

the power supply module is used for supplying power to the receiving and transmitting system.

The invention has the following technical characteristics:

1. the whole paperless express delivery of goods is realized, the environmental pollution is reduced, and the efficiency of the receiving and transmitting process is improved.

2. The airbag inflation technology is applied, so that one size of the express box can transport a plurality of cargoes with different sizes, and the size variety of the recyclable express box is reduced.

3. The sandwich honeycomb structure is adopted, so that the express box is ensured to have enough strength while the express box is light, and the honeycomb structure has the function of buffering and absorbing vibration, so that cargoes can be effectively protected; meanwhile, the inner surface of the express box is covered with the inflatable air bag, and the inflatable air bag can accurately and comprehensively protect goods in the process of transporting the goods, so that the goods can be ensured to be intact even if the goods are subjected to stronger external force;

4. the cost of the existing intelligent express box is reduced, unnecessary intelligent devices are eliminated, and therefore the power consumption of the intelligent devices is reduced, and the cost and resources are saved;

5. under the condition that paper express receipts are not available, a goods taker can enter a background by utilizing a two-dimensional code at an express point, after information is input, the background finds a corresponding express box and sends out a signal instruction, and after a signal receiving and sending device in the express box receives a signal, a buzzer and an LED lamp are controlled, so that the goods can be quickly and accurately found by the express taker and the goods taker, the goods taking efficiency is improved, the time of the express taker and the goods taker is saved, and the service level is improved;

6. the mechanical electronic lock with special design is adopted, the lock can accurately control the opening and closing of the express box, has good stability, and can effectively ensure the safety of transported goods when the electronic control device does not work in the cargo transportation process and the lock becomes a pure mechanical structure.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a front view and a partial enlarged view of a box portion;

FIG. 3 is a schematic cross-sectional view of B-B of FIG. 2;

FIG. 4 is an enlarged view of a portion of the cassette housing with an air bladder and a positioning slot;

fig. 5 (a) is a schematic view of the structure of the bottom of the box cover, (b) is a schematic view of the internal structure of the receiving groove, and (c) is a schematic view of the mating parts of the guide groove, the receiving groove and the groove;

fig. 6 (a) is a front view of the rack and tooth engaging portion, (b) is a top view of the rack and tooth engaging portion, and (c) is a side view of the rack and tooth engaging portion;

fig. 7 (a) is a schematic view of the clamping bar and the arm lifting portion, and (b) is a schematic view of the rotating arm;

FIG. 8 is a schematic diagram of the motor housing;

in fig. 9, (a) is a flowchart when a sender sends an express delivery, and (b) is a flowchart when a receiver takes the express delivery;

FIG. 10 is a block diagram of a transceiver system according to the present invention;

the reference numerals in the figures represent: 1-box body, 2-lockhole, 3-first magnetic rubber strip, 4-positioning groove, 5-positioning lug, 6-box cover, 7-first through hole, 8-second through hole, 9-hinge, 10-honeycomb interlayer, 11-gasbag, 12-charging connector, 13-second magnetic rubber strip, 14-inner cover plate, 15-positioning block, 16-mechano-electronic lock, 16-0-accommodation groove, 16-1-lock core, 16-2-clamping strip, 16-3-lock disk, 16-4-return spring, 16-5-compression spring, 16-6-rotating arm, 16-7-motor, 16-8-housing, 16-9-lifting arm, 16-10-tooth, 16-11-sliding sleeve, 16-12-guiding groove, 16-13-groove, 17-control chip, 18-battery, 19-buzzer and 20-LED lamp.

Detailed Description

As shown in the figure, the invention discloses a recyclable self-reminding wireless charging express packaging box, which comprises a box body, wherein a box cover 6 is movably arranged on the box body, a lock hole 2 is arranged at the upper part of the box body, and a mechanical electronic lock 16 is arranged at the bottom of the box cover 6; in the embodiment, the box body is of a hollow rectangular structure without a top surface, and the edge of the box cover 6 is arranged at the top edge of the box body through a hinge 9; the lock hole 2 at the upper part of the box body is matched with the mechanical electronic lock 16, and when the lock cylinder 16-1 of the mechanical electronic lock 16 is inserted into the lock hole 2, the box cover 6 is fixedly connected with the box body, so that the safety of transporting goods can be effectively ensured.

The scheme provides a mechanical electronic lock 16 structure, as shown in fig. 5 and 6, the mechanical electronic lock 16 comprises a containing groove 16-0 arranged at the bottom of a box cover 6, a lock cylinder 16-1, a clamping strip 16-2, a tooth sector, a return spring 16-4, a compression spring 16-5, a rotating arm 16-6 and a motor 16-7 are arranged in the containing groove 16-0, wherein one end of the lock cylinder 16-1 is coaxially and sequentially connected with a rack and the return spring 16-4, and the end part of the return spring 16-4 is connected to the inner wall of the containing groove 16-0; the side wall of the containing groove 16-0 is provided with a guide groove 16-12 with an arc-shaped cross section, and after the box cover 6 is buckled on the box body, the end part of the lock cylinder 16-1 stretches into and is inserted into the lock hole 2 positioned on the box body from the containing groove 16-0 so as to realize the locking of the packing box; the round hole also limits the movement of the lock cylinder 16-1, ensuring that the lock cylinder 16-1 can only move in the axial direction.

The sector comprises a lock disc 16-3 with a gap between the lock disc 16-3 and the rack, wherein the gap means that the circumference of the lock disc 16-3 is not contacted with the rack; teeth 16-10 matched with the racks are distributed on part of the circumference of the lock disk 16-3, the lock disk 16-3 can enable the teeth 16-10 to be meshed with the racks through rotation, and the racks drive the lock cylinder 16-1 to move along the axial direction of the lock cylinder under the driving of the teeth 16-10, so that the end part of the lock cylinder 16-1 is inserted into or pulled out of the self-locking hole 2. The teeth 16-10 are disposed only at partial positions on the circumference of the lock disk 16-3, for example, the range in which the teeth 16-10 are disposed corresponds to the central angle 90 DEG to 180 DEG of the lock disk 16-3, and the teeth 16-10 are not disposed on the rest of the circumference of the lock disk 16-3.

The lock disc 16-3 and the rotating arm 16-6 are coaxially arranged on the output shaft of the motor 16-7, and a space exists between the lock disc 16-3 and the rotating arm to avoid mutual influence; a locking groove is formed in the lock cylinder 16-1, and a plug matched with the locking groove is arranged at one end of the clamping strip 16-2; optionally, the locking groove and the plug are square structures. The clamping strip 16-2 is perpendicular to the lock cylinder 16-1, the other end of the clamping strip 16-2 is connected with the compression spring, and the compression spring is connected to the positioning block 15 arranged on the inner wall of the accommodating groove 16-0; the effect of the locking bar 16-2 is that the axial position of the lock cylinder 16-1 is limited after the plug on the locking bar 16-2 is inserted into the locking groove, whereby the mechatronic lock 16 is maintained in a locked state.

The clamping strip 16-2 is provided with an L-shaped lifting arm 16-9, and the lifting arm 16-9 is parallel to the lock cylinder 16-1; the distance between the output shaft of the motor 16-7 and the lifting arm 16-9 is smaller than the length of the rotating arm 16-6, which means that in the process that the rotating arm 16-6 rotates along with the output shaft of the motor 16-7, the length of the rotating arm 16-6 is larger than the distance between the output shaft and the lifting arm 16-9, so that the rotating arm 16-6 can be contacted with the lifting arm 16-9, the rotating arm 16-6 pushes the lifting arm 16-9 to move in a direction away from the lock core 16-1 along with the continuous rotation of the motor 16-7, the lifting arm 16-9 is fixedly connected with the clamping strip 16-2, the movement of the lifting arm 16-9 drives the movement of the clamping strip 16-2, the plug at the end part of the clamping strip 16-2 is pulled out of the locking groove, the clamping strip 16-2 is axially out of limit, the end part of the clamping strip 16-1 is reset under the action of the return spring 16-4, the end part of the lock core 16-1 is pulled out of the lock hole 2, and the mechanical electronic lock 16 can be opened relative to the shell.

The rotation phase of the rotating arm 16-6 lags behind the teeth 16-10, and when the lock disk 16-3 rotates until the teeth 16-10 are out of contact with the rack, the plug of the clamping strip 16-2 is inserted into the locking groove to lock the position of the lock cylinder 16-1; if the lock disk 16-3 continues to rotate, the contact between the rotary arm 16-6 and the lifting arm 16-9 is after the tooth 16-10 is separated from the rack, i.e. after the tooth 16-10 is separated from the rack, the lock cylinder 16-1 is already locked, and when the lock disk 16-3 continues to rotate, the rotary arm 16-6 gradually contacts with the lifting arm 16-9 and lifts the lifting arm 16-9 upwards, so as to contact and lock the lock cylinder 16-1. Thus, it is possible to set the motor 16-7 to rotate 180 ° every time, and lock cylinder 16-1 is locked after motor 16-7 rotates 180 ° for the first time, and lock cylinder 16-1 is unlocked after rotating 180 °. Thus, the motor 16-7 can realize the on-off alternating circulation of the mechanical electronic lock 16 when rotating in the same direction. The motor 16-7 is provided with a housing 16-8 at the outside thereof, as shown in fig. 8, to function as a mounting and fixing motor 16-7.

The accommodating groove 16-0 is provided with an inner cover plate 14 which is buckled on the accommodating groove 16-0 to protect components in the accommodating groove 16-0.

In this solution, the motor 16-7 is powered by the battery 18 disposed in the accommodating groove 16-0, and the battery 18 is charged in a wireless charging manner, so that the charging manner of the packaging box for supplementing the electric power is simplified.

Preferably, a chute is formed on the outer wall of the lock cylinder 16-1 along the axial direction of the lock cylinder 16-1, as shown in fig. 6 (c); the locking groove is positioned at the end part of the sliding groove, which is close to one side of the rack, and the depth of the locking groove is larger than that of the sliding groove; the plug on the clamping strip 16-2 is assembled in the sliding groove or inserted into the locking groove under the elastic force of the compression spring. The clamping strip 16-2 is perpendicular to the lock cylinder 16-1, under the action of the compression spring 16-5, the end part of the clamping strip 16-2 is always in elastic contact with the lock cylinder 16-1, in order to ensure that a plug at the end part of the clamping strip 16-2 can be accurately inserted into the locking groove, a sliding groove is arranged, namely, when the lock cylinder 16-1 moves axially, the sliding groove slides relative to the plug until the plug is inserted into the locking groove at the end part of the sliding groove, and the lock cylinder 16-1 cannot move continuously under the clamping action of the locking groove and the plug until the clamping strip 16-2 is lifted by the rotating arm 16-6, and the return spring 16-4 withdraws the lock cylinder 16-1.

Preferably, the outer part of the clamping strip 16-2 is sleeved with a sliding sleeve 16-11 for keeping the clamping strip 16-2 to move in the axial direction, and the sliding sleeve 16-11 is fixed on the inner wall of the accommodating groove 16-0. The clamping strip 16-2 is of a cylindrical structure, and the sliding sleeve 16-11 is a round hollow sleeve. The effect of the ferrule is that the locking bar 16-2 is only movable in its axial direction, and the spring force of the return spring 16-4 is also overcome by the sliding sleeve 16-11 when the plug is inserted into the locking groove.

Optionally, as shown in fig. 1, a lock stand is arranged at the upper part of the box body, the lock stand is a boss, and the lock hole 2 is arranged at the side surface of the lock stand; the side of the containing groove 16-0 at the bottom of the box cover 6 is provided with a groove 16-13 matched with the lock platform, when the box cover 6 is buckled on the box body, the lock platform enters the groove 16-13, and the lock cylinder 16-1 is coaxial with the lock hole 2 and parallel to the upper surface of the box body. The guide groove 16-12 is a passage for communicating the receiving groove 16-0 and the groove 16-13, and the end of the lock cylinder 16-1 is inserted into the lock hole 2 located on the lock base in the groove 16-13 through the guide groove 16-12.

In this scheme, box body 1 lateral wall in be provided with cellular intermediate layer 10, can improve the intensity of express delivery box effectively to have good buffering shock absorption function. Further, the scheme is that an air bag 11 which is mutually communicated is arranged on the inner wall of a box body 1 and the bottom surface of the box body 1, a positioning groove 4 is formed in the top of the box body 1, a rotatable charging connector 12 is arranged in the positioning groove 4, and the charging connector 12 is connected with the air bag 11. The air bag 11 is attached to the inner wall and the bottom surface of the box body when not inflated, and can wrap the goods in all directions when inflated; before inflation and deflation, the inflation nozzle 12 is rotated out of the positioning groove 4, and then inflation and deflation are carried out. When the charging nozzle 12 is not in use, the charging nozzle should be rotated into the positioning groove 4. The bottom edge of the box cover 6 is provided with a positioning lug 5 matched with the positioning groove 4, and when the box cover 6 is closed, the positioning lug 5 stretches into the positioning groove 4.

As shown in fig. 5, the top of the box body is provided with a first magnetic rubber strip 3, the bottom of the box cover 6 is provided with a second magnetic rubber strip 13, and when the box cover 6 is closed on the box body, the first magnetic rubber strip 3 and the second magnetic rubber strip 13 are attracted to each other, so that the box cover 6 and the box body are tightly buckled.

Further, as shown in fig. 5, a control chip 17 is disposed in the accommodating groove 16-0, the motor 16-7 is connected with the control chip 17, a buzzer 19 and an LED lamp 20 are further connected to the control chip 17, the box cover 6 is provided with a first through hole 7 and a second through hole 8 which are adapted to the shapes of the buzzer 19 and the LED lamp 20, that is, the parts of the buzzer 19 and the LED lamp 20 penetrate out of the first through hole 7 and the second through hole 8 so as to be convenient for observation.

Two-dimensional codes are arranged outside the box body and point to express information input webpages. As shown in fig. 9, when receiving the express, the sender enters the corresponding APP/webpage by scanning the two-dimensional code on the express box, the sender/receiver information is input, after the information is filled out, the sender checks and checks the information, and clicks a submit button after the confirmation is completed, the system automatically generates the express bill information on the mobile phone as a client certificate, and the processes of filling in or printing paper receipts are not performed; after the information is filled, a sender puts goods into the express box body 1, and injects a proper amount of air into the air bag 11 from the air charging connector 12 until the goods can be tightly wrapped in the box body 1 by the air bag 11, then the box cover 6 is closed, finally a confirmation key is pressed in the APP/webpage, a control chip 17 in the express box receives a user instruction, and the drive motor 16-7 automatically locks the express box, so that the whole express process is completed.

After the customer finishes the express delivery, the background identifies the information of the consignee and the consignee, after the path information is generated, the information of the consignee/consignee is stored into the background corresponding to the two-dimension code on the corresponding express delivery box through background operation, so that the information can be obtained when the automatic sorting equipment scans again, and the automatic sorting process is convenient.

In the delivery process, the express delivery person sends goods to appointed express delivery points, the receiver inputs goods taking information through scanning the two-dimensional code of the express delivery points, APP/webpage transmits goods taking information back to the background, the background compares the information input by the goods taking person, the comparison is unsuccessful, the current request of the goods taking person is cancelled, after the comparison is successful, the background sends control information, the corresponding sending/receiving device on the express delivery box receives signals, the control chip 17 drives the LED lamp 20 to be bright, the buzzer 19 rings so as to remind the goods taking person or the express delivery person, the specific position of the express delivery box is located, after the goods taking person or the express delivery person finds the express delivery, the goods taking person presses the goods taking key on the APP/webpage, the goods taking instruction is sent to the control chip 17 on the express delivery box through the background, the mechanical electronic lock 16 is automatically opened, the goods taking person releases air in the air bag 11 through the air nozzle 12, the express delivery and checking and receiving are carried out, the express delivery box is well closed after the express delivery box is clicked, the mechanical electronic lock 16 is automatically closed, the whole express delivery process is completed, and the express delivery process is completed again.

The invention further provides a receiving and transmitting system matched with the express packaging box, as shown in fig. 10, the system comprises a CPU module, and a positioning module, a lock control module, a receiving/signaling module, a reminding module, a power supply module and a storage module which are connected to the CPU module, wherein: the positioning module is used for acquiring current position information in real time and providing the information to the CPU module; the positioning module can be a GPS module or a Beidou satellite positioning module and the like, and can return the position information of the goods in real time in the express delivery transportation process, so that a sender or a receiver can inquire the transportation condition of the goods in real time, the defect that the existing express delivery only has logistics information update when reaching a site is greatly overcome, and the occurrence of express delivery loss events can be effectively reduced.

The lock control module is used for receiving a control signal sent by the CPU module so as to control the opening and closing of the mechanical electronic lock; when the lock control module receives an unlocking or locking signal, the driving motor rotates to open or close the mechanical electronic lock;

the reminding module assists an express delivery person or a receiver to search an express delivery packaging box in an acousto-optic reminding mode under the control of the CPU module; specifically, after the reminding module receives a reminding instruction sent by the CPU, the LED lamp is driven to be lightened, the buzzer sounds, and a receiver or an express delivery person is reminded of which position the express delivery box is in, so that the receiver or the express delivery person is assisted to quickly find the corresponding express delivery box.

the power supply module is used for supplying power to the receiving and transmitting system, namely each module; the power supply module comprises a battery and a charging assembly, when the electric quantity of the battery is about to be exhausted, the power supply module can send an early warning signal to the CPU module, the CPU module transmits the signal back to the background, and the background can acquire information of the express box needing to be charged, so that the sorting system can pick the express box needing to be charged in the recovery express box, and the battery in the express box is charged at night through the wireless charging equipment.

Claims

1. The utility model provides a recoverable self-reminding wireless express packaging box that charges, includes box body (1), box body (1) is gone up the movable lid (6) of installing, and the upper portion of box body (1) is provided with lockhole (2), its characterized in that, lid (6) bottom install mechano-electronic lock (16);

the mechanical electronic lock (16) comprises a containing groove (16-0) which is formed in the bottom of the box cover (6), a lock cylinder (16-1), a clamping strip (16-2), a tooth sector, a return spring (16-4), a compression spring (16-5), a rotating arm (16-6) and a motor (16-7) are arranged in the containing groove (16-0), one end of the lock cylinder (16-1) is coaxially and sequentially connected with a rack and the return spring (16-4), and the end part of the return spring (16-4) is connected to the inner wall of the containing groove (16-0); the sector comprises a lock disc (16-3) with a gap between the lock disc and the rack, teeth (16-10) matched with the rack are distributed on part of the circumference of the lock disc (16-3), and the lock disc (16-3) and the rotating arm (16-6) are coaxially arranged on an output shaft of the motor (16-7); a locking groove is formed in the lock cylinder (16-1), and a plug matched with the locking groove is arranged at one end of the clamping strip (16-2); the clamping strip (16-2) is perpendicular to the lock cylinder (16-1), the other end of the clamping strip (16-2) is connected with the compression spring (16-5), and the compression spring (16-5) is connected to the positioning block (15) arranged on the inner wall of the accommodating groove (16-0); the clamping strip (16-2) is provided with an L-shaped lifting arm (16-9), and the distance between an output shaft of the motor (16-7) and the lifting arm (16-9) is smaller than the length of the rotating arm (16-6);

the motor (16-7) is powered by a battery (18) arranged in the accommodating groove (16-0), and the battery (18) is charged in a wireless charging mode;

a sliding groove is formed in the outer wall of the lock cylinder (16-1) along the axial direction of the lock cylinder (16-1), the locking groove is positioned at the end part of the sliding groove, which is close to one side of the rack, and the depth of the locking groove is larger than that of the sliding groove; the plug on the clamping strip (16-2) is assembled in the chute or inserted into the locking groove under the elastic force of the compression spring (16-5);

the outside of the clamping strip (16-2) is sleeved with a sliding sleeve (16-11), and the sliding sleeve (16-11) is fixed on the inner wall of the accommodating groove (16-0).

2. The recyclable self-reminding wireless charging express packaging box according to claim 1 is characterized in that a lock stand is arranged at the upper part of the box body (1), and the lock hole (2) is formed in the side face of the lock stand; the side of the bottom containing groove (16-0) of the box cover (6) is provided with a groove (16-13) (16-13) matched with the lock platform, the containing groove (16-0) is communicated with the groove (16-13) through a guide groove (16-12), and when the box cover (6) is buckled on the box body (1), the lock cylinder (16-1) is coaxial with the lock hole (2).

3. The recyclable self-reminding wireless charging express packaging box according to claim 1, wherein the inner wall of the box body (1) and the bottom surface of the box body (1) are provided with mutually communicated air bags (11), the top of the box body (1) is provided with a positioning groove (4), a rotatable charging connector (12) is arranged in the positioning groove (4), and the charging connector (12) is connected with the air bags (11).

4. The recyclable self-reminding wireless charging express packaging box according to claim 1, wherein a honeycomb interlayer (10) is arranged in the side wall of the box body (1).

5. The recyclable self-reminding wireless charging express packaging box according to claim 1, wherein a first magnetic rubber strip (3) is arranged at the top of the box body (1), and a second magnetic rubber strip (13) is arranged at the bottom of the box cover (6).

6. The recyclable self-reminding wireless charging express packaging box according to claim 1 is characterized in that a control chip (17) is arranged in the accommodating groove (16-0), the motor (16-7) is connected with the control chip (17), a buzzer (19) and an LED lamp (20) are further connected to the control chip (17), and a first through hole (7) and a second through hole (8) which are matched with the buzzer (19) and the LED lamp (20) in shape are formed in the box cover (6).