CN111815873B

CN111815873B - High-safety locker management method and system

Info

Publication number: CN111815873B
Application number: CN202010907390.6A
Authority: CN
Inventors: 刘军
Original assignee: Shenzhen Mini Warehouse Storage Co ltd
Current assignee: Shenzhen Mini Warehouse Storage Co ltd
Priority date: 2020-09-02
Filing date: 2020-09-02
Publication date: 2020-12-22
Anticipated expiration: 2040-09-02
Also published as: CN111815873A

Abstract

The invention provides a high-security locker management method and a high-security locker management system, wherein the method comprises the following steps: carrying out primary verification; preparing for opening the storage cabinet: the first server issues a movement stopping instruction and secondary verification reminding information to the storage cabinet after confirming that the user identity is correct, wherein the movement stopping instruction is used for enabling a driving mechanism of the storage cabinet to stop driving a plurality of cabinets of the storage cabinet to circulate in different storage spaces; performing secondary verification; opening the cabinet door; closing the cabinet door; the storage cabinet operates in a standby mode: the first server sends a motion starting instruction to the storage cabinet after receiving the cabinet door closing information, the motion starting instruction is used for enabling a driving mechanism of the storage cabinet to drive a plurality of cabinet bodies of the storage cabinet to flow in different storage spaces, and limited conditions and stopping conditions exist in the flowing process of the cabinet bodies. According to the method, through the mode that the cabinet body is dynamically circulated in the storage cabinet, after a user finishes using the cabinet, a fixed corresponding relation does not exist between the cabinet door and the cabinet body, and the safety is good.

Description

High-safety locker management method and system

Technical Field

The invention relates to the field of internet communication, in particular to a high-security locker management method and system.

Background

Along with the development of intelligent technology, more and more locker equipment is used for each aspect of life, if have the express delivery cabinet that is used for express delivery circulation, the locker that is used for valuables to deposit, the heat preservation cabinet that is used for takeaway fresh-keeping etc. current locker equipment adopts fixed cabin structure usually, and the user relies on authentication modes such as scanning the sign indicating number to open and use, still has not enough in the in-service use, if the cabinet door and the cabinet body correspond to set up and make the theft can be directed to the commodity of certain user to steal easily.

Disclosure of Invention

Aiming at the defects of the existing storage cabinet, the invention provides a high-safety storage cabinet management method and system.

Correspondingly, the invention provides a high-safety locker management method, which comprises the following steps:

primary verification: inputting first user data by a user through a man-machine interaction module of the storage cabinet, and uploading the first user data to a first server to confirm the identity of the user based on a communication module of the storage cabinet;

preparing for opening the storage cabinet: the first server issues a motion stopping instruction and secondary verification reminding information to the storage cabinet after confirming that the user identity is correct, the motion stopping instruction is used for enabling a driving mechanism of the storage cabinet to stop driving a plurality of cabinets of the storage cabinet to circulate in different storage spaces, and the secondary verification reminding information is used for enabling the man-machine interaction module to display specific secondary verification reminding information for the user;

and (4) secondary verification: inputting second user data by a user through a man-machine interaction module of the storage cabinet according to the secondary verification reminding information, and uploading the second user data to the first server to verify the identity of the user based on a communication module of the storage cabinet;

opening a cabinet door: the first server issues opening information of a cabinet door corresponding to the user identity to the storage cabinet after the user identity is verified to be correct, the storage cabinet opens the corresponding cabinet door after receiving the opening information, and the cabinet door corresponding to the user identity is a cabinet door corresponding to a storage space where a cabinet body corresponding to the user identity is located in real time;

and (3) closing the cabinet door: after the user closes the cabinet door, the cabinet door is closed to trigger a communication module of the storage cabinet to upload cabinet door closing information to a first server;

the storage cabinet operates in a standby mode: the first server sends a motion starting instruction to the storage cabinet after receiving the cabinet door closing information, wherein the motion starting instruction is used for enabling a driving mechanism of the storage cabinet to drive a plurality of cabinet bodies of the storage cabinet to flow in different storage spaces;

in the process that the plurality of cabinets circulate in different storage spaces, the limiting conditions are as follows: the cabinet body used by the user for the last time cannot flow into the storage space used for the last time;

the in-process that a plurality of cabinet body circulated in different storing space, the stop condition is: counting the corresponding conditions of the storage space of each cabinet body in the plurality of cabinet bodies when the current storage space is used for the last time, wherein the number of the cabinet bodies corresponding to the storage space of each cabinet body in the plurality of cabinet bodies when the current storage space is used for the last time is a, the total number of the cabinet bodies is s, and the corresponding rate is

And when the corresponding rate u is smaller than a preset value, stopping the movement of the driving mechanism.

In an optional embodiment, before the locker is in standby operation, the method further comprises:

track transmission: the first server requests and acquires the circulation tracks of the cabinets from the second server, the circulation tracks are loaded in motion starting instructions, and the motion starting instructions comprising the circulation tracks are used for enabling a driving mechanism of the locker to drive a plurality of cabinets of the locker to circulate in different storage spaces according to the circulation tracks.

In an optional embodiment, when the storage cabinet is in standby operation, the method further includes:

cabinet body circulation recording: the real-time circulation position of each cabinet body in the storage cabinet is recorded in real time based on a cabinet body position recording module of the storage cabinet and uploaded to a second server;

cabinet body circulation monitoring: and the second server judges whether the real-time circulation position is correct or not based on the circulation track, and generates warning information when the real-time circulation position is wrong.

In an optional embodiment, the cabinet marks information of the cabinet based on the marking information; the high-safety locker management method further comprises the following steps:

change of cabinet mark: the cabinet body is updated once after the cabinet door is closed, the updated cabinet body mark is uploaded to a second server based on a cabinet body mark recording module of the storage cabinet, and the second server updates the cabinet body mark of the cabinet body in real time;

before the cabinet door is opened, the high-safety locker management method further comprises the following steps:

cabinet label transmission: the first server requests and acquires a cabinet mark corresponding to the user identity information from the second server based on the user identity information, and the cabinet mark information is loaded and then is transmitted to the storage cabinet after the opening information is loaded.

In an optional implementation manner, after receiving the cabinet door closing information, the first server sends modification permission information to the second server;

and the second server allows the updated cabinet mark uploaded by the cabinet mark recording module to be received and updated within the preset time after the modification permission information is received.

In an optional embodiment, the cabinet marking change further comprises:

triggering the updating of the cabinet body mark of the cabinet body based on a light sensor arranged on the inner side of the cabinet door.

In an optional embodiment, in a preset time period after the second server receives the modification permission information, the second server generates a warning message when receiving the updated cabinet mark uploaded by the cabinet mark recording module.

Correspondingly, the invention provides a high-security locker management system for realizing any one of the high-security locker management methods.

In conclusion, the invention provides a high-security locker management method and system, which realize risk management on a locker through management means in three aspects of client execution, security execution and security monitoring, improve the storage security of the locker and ensure the security of user property.

Drawings

FIG. 1 is a schematic diagram of a high security locker management system according to an embodiment of the invention.

FIG. 2 illustrates a front view of a high security locker management apparatus according to an embodiment of the invention.

Figure 3 shows a rear view of a first layer of a stowage bin of an embodiment of the invention.

Figure 4 shows a front view of a second level of the cabinet according to an embodiment of the invention.

Figure 5 shows a rear view of a second level of the cabinet according to an embodiment of the invention.

Figure 6 shows a front view of a third tier of a stowage bin of an embodiment of the present invention.

FIG. 7 is a flowchart illustrating a method for managing a high security locker according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

FIG. 1 is a schematic diagram of a high security locker management system according to an embodiment of the invention. For the convenience of the following description of the method, the present invention first describes an embodiment of a high security locker management system.

Basically, the high security locker management system of the embodiment of the present invention includes three object devices, namely, a locker, a first server and a second server, wherein the locker includes:

a human-computer interaction module: for presenting specific contents to a user and receiving input information of the user;

a communication module: the server is used for uploading the information of the user received by the human-computer interaction module to the first server;

a driving mechanism: the cabinet door is used for driving a plurality of cabinet doors to circulate in a plurality of preset storage spaces;

a plurality of cabinet body: a storage article for storing a user;

a plurality of cabinet doors: the storage spaces are arranged correspondingly to the plurality of storage spaces;

cabinet body position record module: the system comprises a plurality of cabinets, a first server and a second server, wherein the cabinets are used for storing the real-time positions of the cabinets in the storage cabinet;

cabinet body mark record module: the cabinet marks used for recording the plurality of cabinets are uploaded to a second server;

a light sensor: a change in a cabinet flag for triggering a cabinet;

an alarm module: and the warning device is used for receiving the warning information sent by the second server and sending out a preset warning based on the real-time warning information.

It should be noted that, the above-mentioned processes related to data transmission and processing need the locker controller to perform coordinated regulation and control, and the description related to the locker controller needs to be implemented in combination with an actual data processing manner, which can be implemented by referring to an implementation manner in the prior art specifically, and the embodiment of the present invention is not limited additionally.

Specifically, the basic operation principle of the system comprises an execution flow of three aspects of client execution, security execution and security monitoring.

The client execution refers to the use process of the user side on the storage cabinet, the user carries out primary verification and secondary verification according to the prompt of the man-machine interaction module based on the man-machine interaction module, the storage cabinet carries out information transmission with the first server through the communication module, the interactive verification result of verifying the user identity is carried out, and the user identity opens the cabinet door corresponding to the user identity for the user to access objects in the cabinet body of the user.

The security execution means security measures executed by the storage cabinet side for the property safety of users, and specifically, after the users use the cabinet body and close the cabinet door, the cabinet body immediately starts to circulate in a plurality of storage spaces of the storage cabinet under the driving of the driving mechanism.

The security monitoring means that the server side carries out intrusion monitoring and the measure of sending out the police dispatch newspaper to the cabinet body, and is concrete, utilizes the circulation position condition of a plurality of cabinet body position record module to carry out real time monitoring and supplies the second server to carry out real time check, and on the basis of the mode that optical sensor triggered the cabinet body mark change of the cabinet body, monitor the in service behavior of a plurality of cabinet body and supply the second server to carry out real time check through cabinet body mark record module, warns through alarm module when discovering unusually.

In order to facilitate understanding, the embodiment of the invention provides a high-security locker management device constructed based on the high-security locker management system.

FIG. 2 illustrates a front view of a high security locker management apparatus according to an embodiment of the invention. Specifically, the embodiment of the invention provides high-security locker management equipment, which is of a cabinet type structure as a whole, wherein one side of a cabinet door of the high-security locker management equipment is arranged as a front side, and the high-security locker management equipment is spatially divided into three layers from the front side to the back side.

Specifically, a front view of the first layer structure referring to fig. 2, fig. 3 shows a rear view of the first layer structure of the cabinet according to the embodiment of the present invention.

The first layer structure comprises a front panel 10, a plurality of cabinet doors 101 (the cabinet doors 101 swing around a rotating shaft 102, and whether the cabinet doors 101 are opened or not is controlled by a door lock 103), a man-machine interaction module, a communication module, a light sensor 205, a storage cabinet controller 106 and a proximity sensor 104. Basically, the front panel 10 refers to a front panel of the storage cabinet, and a plurality of cabinet doors 101 are distributed on the front panel 10 in a ring shape (corresponding to the arrangement position of the storage space); in specific implementation, electronic component devices such as a human-computer interaction module, a communication module, a storage cabinet controller 106 and the like can be integrated in an integrated module 100, and the integrated module 100 is embedded in the front panel 10, wherein the human-computer interaction module is arranged on the front side of the integrated module 100 and is used for human-computer interaction of a user, and optionally, the human-computer interaction mode can be one or more combination modes of a touch screen, a display screen, an entity key, a virtual key, NFC interaction, a camera and the like; the modules of the integrated module 100 except the human-computer interaction module are all arranged on the back or inside of the integrated module, so that external invasion is avoided. A proximity sensor 104 and an illuminating lamp 105 are arranged on the back of the front panel 10 at a position corresponding to each cabinet door 101, specifically, the proximity sensor 104 is used for sensing opening and closing of the cabinet doors 101 and feeding back opening and closing information of the cabinet doors, when the cabinet doors are closed, the proximity sensor 104 is triggered, when the cabinet doors are opened, the proximity sensor 104 loses an inductive object, and the proximity sensor 104 is in an un-triggered state; meanwhile, the proximity sensor 104 is also used to control the on/off of the illumination lamp 105 (without being controlled by a processor or the like).

Specifically, the proximity sensor 104 generates different signals (generally, a signal 1 is generated when the door is triggered and a signal 2 is generated when the door is not triggered) when the door is triggered, and controls on/off (power on/off) of the illumination lamp 105 based on the trigger signals, specifically, when the door is opened, the state change of the proximity sensor 104 triggers power on (on) of the illumination lamp 105, and when the door is closed, the state change of the proximity sensor 104 triggers power off (off) of the illumination lamp 105. There are various ways to control the power on/off of the circuit through the digital signals (1 and 0), and the embodiments of the present invention are not necessarily described. It should be noted that the power supply of the illumination lamp 105 according to the embodiment of the present invention is directly controlled by the proximity sensor 104, and is not related to the rest of the modules.

In addition to the description of the information related to the actual invention content of the embodiment of the present invention, the power supply embodiments of the other devices may refer to the prior art.

Specifically, FIG. 4 shows a front view of a second level structure of a cabinet according to an embodiment of the present invention, and FIG. 5 shows a rear view of the second level structure of the cabinet according to an embodiment of the present invention. Specifically, the second layer structure is arranged inside the storage cabinet and is positioned between the first layer structure and the third layer structure. The second layer of structure comprises a drive mechanism (drive chain 203, drive element 202, drive controller 201) and a number of cabinets 204. Specifically, the transmission chain 203 of the embodiment of the invention is a closed-loop chain, the plurality of cabinets 204 are fixed on the transmission chain 203 according to preset positions, and the plurality of cabinets 204 can circulate in different storage spaces by controlling the movement of the transmission chain 203 through the driving element 202. Specifically, the driving of the driving element 202 is driven by the driving controller 201, and the control logic of the driving controller 201 is controlled by the locker controller, specifically, the control logic of the driving controller 201 is substantially issued through the first server.

Specifically, corresponding to each cabinet 204, an optical sensor is arranged on the inner wall of the cabinet 204, and the rear end of the optical sensor 205 is sequentially connected with a microprocessor 206, a display screen driving mechanism 207 and a two-dimensional code display screen 208, wherein the two-dimensional code display screen 208 is arranged on the back of the cabinet 204.

Specifically, the two-dimensional code display screen 208 is configured to display information of a cabinet mark of a corresponding cabinet, and specifically, the update of the information of the cabinet mark of the embodiment of the present invention is triggered and generated by the optical sensor 205. Specifically, when the light sensor 205 is triggered (only when the cabinet door is opened or the locker is intruded by violence, light irradiates the light sensor 205 to trigger the light sensor 205 to generate a trigger signal), the microprocessor 206, when receiving the trigger signal of the light sensor 205, may enable the microprocessor 206 to generate a new cabinet mark according to a preset algorithm, and the microprocessor 206 drives the two-dimensional code display 208 through the display driving mechanism 207 to display the new cabinet mark, so as to record by the cabinet mark recording module and the cabinet position recording module. Specifically, if the light sensor 205 is not triggered, the microprocessor 206 always drives the two-dimensional code display 208 to display the implemented two-dimensional code (cabinet label) through the display screen driving mechanism 207.

Fig. 6 shows a front view of a third layer structure of a storage cabinet according to an embodiment of the present invention, specifically, the third layer structure includes a back plate 300 and a two-dimensional code scanning head 301, specifically, the back plate 300 refers to the back plate 300 of the storage cabinet, and the two-dimensional code scanning head 301 is respectively disposed on the front surface of the back plate 300 corresponding to a plurality of storage spaces. Specifically, the two-dimensional code scanning head 301 is used for scanning the two-dimensional code displayed on the two-dimensional code display screen 208 on the back of the cabinet body, so that the cabinet body mark recording module and the cabinet body position recording module acquire information and upload the information.

Specifically, the operation principle of the high-security locker management refers to the following description of the high-security locker management method.

FIG. 7 is a flowchart illustrating a method for managing a high security locker according to an embodiment of the present invention. Correspondingly, the embodiment of the invention provides a high-security locker management method of a human-computer interaction module, which comprises the following steps:

s101: carrying out primary verification;

the user inputs first user data through the man-machine interaction module of the storage cabinet, and uploads the first user data to the first server to confirm the user identity based on the communication module of the storage cabinet.

Specifically, the first user data refers to the representation information of the user, such as a mobile phone number, an identification number, and the like, and the first user data is only used for identifying the user identity, does not indicate that the user can use the subsequent storage cabinet, and can use the storage cabinet after secondary verification.

S102: preparing for opening the storage cabinet;

the first server issues a movement stopping instruction and secondary verification reminding information to the storage cabinet after confirming that the user identity is correct, the movement stopping instruction is used for enabling a driving mechanism of the storage cabinet to stop driving a plurality of cabinets of the storage cabinet to circulate in different storage spaces, and the secondary verification reminding information is used for enabling the man-machine interaction module to display specific secondary verification reminding information for the user. Specifically, the cabinet body in the embodiment of the invention circulates in each storage space in the unused state, and after a user verifies through first user data, the cabinet body temporarily stops running to fix the position of the cabinet body, so that the corresponding cabinet door is fixed; and the secondary verification reminding information is used for further verifying the identity of the user.

S103: performing secondary verification;

inputting second user data by a user through a man-machine interaction module of the storage cabinet according to the secondary verification reminding information, and uploading the second user data to the first server to verify the identity of the user based on a communication module of the storage cabinet;

specifically, the secondary verification reminding information may be of various types, and the secondary verification information is input by the user according to the specific reminding information and requirements, and is confirmed by specific equipment of the human-computer interaction module, such as face recognition, fingerprint authentication, entity password verification, NFC verification, wechat code scanning verification and the like.

S104: opening the cabinet door;

the first server issues opening information of a cabinet door corresponding to the user identity to the storage cabinet after the user identity is verified to be correct, the storage cabinet opens the corresponding cabinet door after receiving the opening information, and the cabinet door corresponding to the user identity is a cabinet door corresponding to a storage space where the cabinet body corresponding to the user identity is located in real time. The first server records the cabinet body of the user and the position of the cabinet body, and the cabinet door corresponding to the cabinet body in real time is the cabinet door to be opened.

S105: closing the cabinet door;

after the user closes the cabinet door, the cabinet door is closed to trigger the communication module of the cabinet to upload cabinet door closing information to the first server, and the first server acquires the cabinet door closing information and then performs subsequent operation processes.

S106: the storage cabinet operates in a standby mode;

the first server sends a motion starting instruction to the storage cabinet after receiving the cabinet door closing information, and the motion starting instruction is used for enabling a driving mechanism of the storage cabinet to drive a plurality of cabinet bodies of the storage cabinet to flow in different storage spaces. After the user uses the locker, the cabinet body in the locker recovers circulation in each storage space under the driving of the driving mechanism, so that the outside cannot acquire the cabinet body used by the user who just operates the locker, and the safety of the user for storing articles is ensured.

It should be noted that, because the number of the storage spaces is limited, in the process of circulating the cabinet in different storage spaces, the cabinet may be circulated to the position of the storage space in the last use, and therefore, in view of safety, the embodiment of the present invention provides a limitation condition for circulating the cabinet in different storage spaces, where the limitation condition is that when the cabinet is in standby operation, the cabinet used by the user in the last use is not circulated to the storage space in the last use.

In addition, another problem that is caused by the above limiting conditions is that the plurality of cabinets of the embodiment of the present invention adopt a closed-loop chain type driving structure, and when the driving structure drives the cabinet to move around the closed-loop chain, the last cabinet used in the last time can not avoid returning to the last storage space, so that, based on the consideration of the aspect, the driving mechanism drives the cabinet without considering the problem of energy consumptionThe stop condition still exists with circulation in the storing space, and when actuating mechanism once circulated the action, at least one cabinet body produced position change (at least one cabinet body removed to another storing space from a storing space in), circulated the action back each time at actuating mechanism, carried out the judgement of a stop condition. Specifically, the stop condition is: the corresponding condition of the current storage space of each cabinet body in the plurality of cabinet bodies and the storage space in the last use is counted, the number of the cabinet bodies corresponding to the current storage space in the last use is a, the total number of the cabinet bodies is s, and the corresponding rate is obtained

When the corresponding rate is

When the value is less than the preset value (generally set to 0.4), the driving mechanism stops moving. Specifically, since the driving logic of the driving mechanism is controlled by the second server, in essence, the judgment of the stop condition is one of the calculation bases of the second server when generating the cabinet track.

In a specific implementation, by determining the stop condition of the corresponding rate, there may be a calculated dead cycle (that is, the cabinet cannot meet the stop condition all the time in the circulation process under a certain condition), and specifically, because there is a limit condition before the stop condition of the embodiment of the present invention, under the condition that the limit condition is ensured to be met, whether the stop condition is met or not does not belong to a necessary technical limit condition, and if there is a calculated dead cycle, the result is that the driving mechanism always drives the cabinet to circulate, so that the storage safety of the cabinet can be ensured from another aspect, the effect is approximately equivalent to the determination of the stop condition, the extra loss is the increase of the consumption of the energy consumption, but the extra consumption of the energy consumption is acceptable for the safety of the cabinet.

In addition, it should be noted that the driving mechanism related to the circulation of the cabinet bodies provided in the embodiment of the present invention employs a closed-loop chain structure, the circulation of each cabinet body between different storage spaces is ordered, in a specific implementation, the driving mechanism may further employ other circulation driving structures, such as a waffle type square moving structure, specifically, as shown in fig. 4, in a current state, the middle portion has two vacant positions for movement (when the waffle type square moving structure is employed, the driving mechanism no longer occupies the middle position), and the cabinet bodies can realize the purpose of circulation between different storage spaces through transition of the vacant positions. Specifically, steps S101 to S106 describe a method for implementing the opening of the locker at the user side, and specifically, the locker management method provided by the embodiment of the present invention further includes contents of security execution and security monitoring of the locker.

Specifically, before the locker is in standby operation, the method further comprises the following steps:

track transmission: the first server requests and acquires the circulation tracks of the cabinets from the second server, the circulation tracks are loaded in motion starting instructions, and the motion starting instructions comprising the circulation tracks are used for enabling a driving mechanism of the locker to drive a plurality of cabinets of the locker to circulate in different storage spaces according to the circulation tracks. Specifically, the step is aimed at physically separating a server of the circulation track of the cabinet from a server which transmits information to the outside, and the specific circulation track of the cabinet cannot be acquired by invading the first server; specifically, the second server only has a function of outputting a track (cannot be queried, read, or written) in the function, and the track generation logic is only formed inside the second server, and specifically, the second server may be set independently of the first server in a physically isolated manner.

Specifically, when the storage cabinet is in standby operation, the method further comprises the following steps:

In the step, the second server also has a function of verifying the circulation track of the cabinet body in real time, the cabinet body position recording module records and uploads the change condition of the cabinet body in each storage space, the second server receives and monitors the change condition in real time, and if the change condition is inconsistent with the preset circulation track, warning information is sent out.

Specifically, in this step, the second server is used only for receiving information (not involving addition, deletion, or rewriting of its own content), and collates the received information. The step is set to prevent the circulation track of the cabinet body from being changed through one side of the storage cabinet so as to ensure the safety of the cabinet body.

Further adjacent to the cabinet, the cabinet marking information of the cabinet based on the marking information; the high-safety locker management method further comprises the following steps:

Specifically, in the embodiment of the present invention, the second server further has a function of updating the cabinet mark of the user, and specifically, each cabinet has its own independent cabinet mark for identifying the identity of the cabinet; if constant cabinet body marking information is adopted, cabinet body identification data of the cabinet body can be acquired in the communication process of the first server and the cabinet body through monitoring and other modes, and safety risks are easily caused. Therefore, the embodiment of the invention updates the cabinet mark once after the cabinet is used by the user every time. When a user uses the cabinet body, the first server firstly requests the second server to acquire the cabinet body mark of the cabinet body for issuing, then after the user uses the cabinet body, the cabinet body mark is immediately modified and uploaded to the second server for recording, and the effect that one cabinet body mark only takes effect once is equivalent to, so that the possibility of secondary use can be avoided. The updating of the cabinet mark is independently generated by each cabinet according to the internal processing logic and then uploaded to the second server for recording, and the cabinet mark between different cabinets does not have contrast and reference, so that the use safety of the cabinet can be further improved.

Specifically, after receiving the cabinet door closing information, the first server sends modification permission information to the second server; and the second server allows the updated cabinet mark uploaded by the cabinet mark recording module to be received and updated within the preset time after the modification permission information is received. In order to avoid the external theft or forgery of the cabinet mark information from the aspect of uploading the updated cabinet mark, the step limits the time for the second server to allow the cabinet mark to be modified, only allows the content of the cabinet door to allow the cabinet mark to be rewritten at a specific time after the cabinet door is closed, and particularly, the limited time range is extremely short, so that the external is difficult to intervene in the processing process, and the cabinet mark updating instruction outside the non-allowed time is invalid and gives an alarm.

Further, the cabinet mark change further includes: triggering the updating of the cabinet body mark of the cabinet body based on a light sensor arranged on the inner side of the cabinet door. The step is set to aim at enabling external light to enter the cabinet body and enabling the lighting lamp on the inner side of the cabinet door to be turned on and irradiate the cabinet body if the cabinet door is cracked by external violence, the cabinet body mark is triggered to be changed after the light sensor in the cabinet body receives the light, the cabinet body position recording module monitors cabinet body mark information of the cabinet body at any time, and if the cabinet body mark information is changed, the cabinet body mark information is uploaded to the second server; since the second server is not in the time range of the modification allowed by the cabinet mark, the second server judges that the modification is in risk, and the sound field warning information is also generated.

Namely, in the preset time after the second server receives the modification permission information, the second server generates warning information when receiving the updated cabinet mark uploaded by the cabinet mark recording module.

The generation of the warning information can ensure the safety of the locker by the following security means, such as calling police, notifying a local service provider in real time, sending warning sound at one side of the locker, and the like.

In summary, the embodiment of the invention provides a high-security locker management method and system, which realize risk management on a locker through management means in three aspects of client execution, security execution and security monitoring, improve the storage security of the locker and ensure the security of user property.

The method and the system for managing the high-security locker provided by the embodiment of the invention are described in detail, a specific example is applied in the method to explain the principle and the implementation mode of the invention, and the description of the embodiment is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims

1. A high-safety locker management method is characterized by comprising the following steps:

When the corresponding rate u is smaller than the preset value, the driving mechanism stops conveyingAnd (6) moving.

2. The method of claim 1, further comprising, prior to the standby operation of the locker:

3. The method for managing a high security locker of claim 2 further comprising, during standby operation of the locker:

4. The high security locker management method of claim 3 wherein the cabinet labels information for the cabinet based on label information; the high-safety locker management method further comprises the following steps:

5. The high-security locker management method of claim 4 wherein the first server sends the permission modification information to the second server after receiving the cabinet door closing information;

6. The high security locker management method of claim 5 wherein the cabinet label change further comprises:

7. The high security locker management method of claim 6 wherein the second server generates a warning message upon receiving the updated cabinet label uploaded by the cabinet label recording module within a predetermined time after the non-second server receives the modification permission message.

8. A high-security locker management system for implementing the high-security locker management method of any one of claims 1 to 7.