CN113570753A - Intelligent key cabinet system for bus station - Google Patents

Abstract

The invention discloses an intelligent key cabinet system for a bus station, which comprises: the intelligent control system comprises a scheduling platform, an intelligent control terminal, a key authentication module, a CAN bus module and a key cabinet comprising a plurality of cabinet doors, wherein each cabinet door is provided with a lock, an RFID key identification module and an RFID key; the intelligent control terminal obtains a key getting request sent by a user through face recognition and IC card swiping, determines a cabinet door seat label needing to obtain a key, sends the cabinet door seat label to a key authentication module, the key authentication module sends the cabinet door seat label to an RFID key identification module corresponding to a cabinet door through a CAN bus, and the RFID key identification module opens the cabinet door with the current seat label; the intelligent control terminal is connected with the key authentication module through the serial port RS232 to obtain key information read by all the RFID key identification modules; the key authentication module acquires the key information read by all the RFID key identification modules through the CAN bus. The intelligent key cabinet management system can intelligently manage the key cabinet, and avoids management confusion and a plurality of potential safety hazards.

Description

Intelligent key cabinet system for bus station

Technical Field

The invention relates to the technical field of intelligent keys, in particular to an intelligent key cabinet system for a bus station.

Background

The key cabinet is proposed to be based on a safe and facilitate the centralized management and safety management of keys, the keys are centralized in a safe intelligent key cabinet, and the safety, the digitization and the intellectualization of the keys are managed. Aims to solve the problem of safe, intelligent and humanized management of keys of unit door parts with a large number of keys and key units. The key management system mainly solves the progress from the fact that the conventional key management is attended by personnel, a custodian registers information acquisition and key return of an applicant, and intelligent, information and scientific management is achieved.

The general key cabinet comprises a plurality of key hole sites, each key hole site is provided with a key, the traditional key cabinet only has a door with a lock, and all keys in the cabinet door can be taken back at will as long as the door is opened, so that the key management is disordered, and a plurality of potential safety hazards are brought; moreover, each key hole in the electronic key cabinet can only be provided with one fixed key, and the key information of the current hole is identified by manually writing a note.

Disclosure of Invention

In view of the above, the present invention provides an intelligent key cabinet system for a bus station. This intelligence key cabinet system adopts a lock of every cabinet door, opens according to user's authority and gets the different cabinet bodies, and ordinary driver acquires the key at every turn and issues for intelligent terminal through the dispatch platform, and corresponding cabinet body is opened to intelligent terminal receipt dispatch platform's instruction, also considers dispatcher, tractor worker, technical captain etc. to need to use many keys simultaneously, also supports to open a plurality of cabinet doors simultaneously. Each key module is provided with an RFID tag which can be written with information such as vehicle self-numbers and the like at will; each cabinet door is provided with an RFID read-write module for reading the information of the RFID key module; and each cabinet door is provided with a 0.96-inch OLED small display screen for displaying the vehicle self number of the current key.

In order to achieve the above object, the following solutions are proposed:

the invention provides an intelligent key cabinet system for a bus station, which comprises: the intelligent alcohol measuring system comprises a scheduling platform, an intelligent control terminal, a key authentication module, a CAN bus module, an infrared temperature measuring module, an alcohol measuring module and a key cabinet comprising a plurality of cabinet doors, wherein each cabinet door is provided with a lock and an RFID key identification module, and each cabinet door is internally provided with an RFID key;

the infrared temperature measurement module is used for measuring the human body temperature through an infrared signal and sending the measured human body temperature to the intelligent control terminal; the alcohol measuring module is used for carrying out alcohol test on the user and sending an alcohol test result to the intelligent control terminal;

the intelligent control terminal supports IC card swiping and face recognition functions; the intelligent control terminal obtains a key getting request sent by a user through IC card swiping and face recognition, determines a cabinet door seat number needing to obtain a key, sends a cabinet door coordinate number to a key authentication module when the intelligent control terminal passes alcohol test and the human body temperature is lower than a preset temperature value, sends the cabinet door seat number to an RFID key recognition module corresponding to a cabinet door through a CAN bus after the key authentication module passes authentication, and the RFID key recognition module opens the cabinet door with the current seat number so as to get the key;

the intelligent control terminal is in wireless communication with the dispatching platform through a network to obtain a scheduling plan of a driver on the same day, wherein the scheduling plan corresponds to a cabinet door seat number needing to obtain a key;

the intelligent control terminal is connected with the key authentication module through a serial port RS232 to acquire information of the RFID keys read by all the RFID key identification modules;

the key authentication module acquires the key information read by all the RFID key identification modules through the CAN bus;

the RFID key identification module is used for reading and writing key information in the RFID key stored in the cabinet door.

Furthermore, the intelligent key cabinet system is applied to a bus station.

Further, still include: and the power supply module is used for supplying power to each module.

Furthermore, the key cabinet adopts a main cabinet and auxiliary cabinet combination mode; the opening and closing of the cabinet door are controlled by the on-off control of the electromagnetic lock.

Further, the key state initialization process of the intelligent key cabinet system comprises the following steps:

the key authentication module acquires key information of a key through a CAN bus, wherein the key information at least comprises vehicle number information;

the intelligent control terminal accesses the key authentication module through the serial port to judge whether the key cabinet is started up or not;

if the starting is finished, the intelligent control terminal acquires the state information of all cabinet doors and the key information of all keys;

and the intelligent control terminal displays the state information and the vehicle number information of the cabinet door.

Further, the user data initialization process of the intelligent key cabinet system comprises the following steps:

after the intelligent key cabinet system is started, the latest user IC card information is downloaded at fixed time intervals, and the local data is updated according to preset conditions so as to be used for identity verification during key picking and returning.

Further, the key picking process of the intelligent key cabinet system comprises the following steps:

receiving a key getting request sent by a user selecting a key getting button;

receiving IC card swiping information of a user; popping up a face recognition interface after the card swiping passes, and carrying out face recognition on the user in real time;

judging the identity of the user based on the received face information;

if the user is a legal user, downloading the data associated with the face information from the scheduling platform;

judging the role of the user based on the data associated with the face information;

if the user is a person except a common driver, prompting the user to select key information to be retrieved, opening a corresponding cabinet door based on the key information, and waiting for retrieving the key;

and if the user is a common driver, executing the process of getting the key by the common driver so that the common driver can get the key.

Further, the process of getting keys by a common driver of the intelligent key cabinet system comprises the following steps:

receiving a key receiving request initiated by a common driver through a user IC card and face recognition;

acquiring a personnel number based on the received key getting request;

the wine measurement result is inquired in a dispatching database through the personnel number;

if the fruit wine passes the measurement, judging whether the body temperature of the user exceeds a preset temperature value;

if the body temperature of the user does not exceed the preset temperature value, inquiring the corresponding relation between the person and the vehicle from the real-time scheduling system through the personnel number;

if the person-vehicle pair exists, opening the corresponding cabinet door according to the vehicle number and recording key receiving information;

and if no person-vehicle pair exists, prompting that no shift schedule is available.

Further, the process of returning the key of the intelligent key cabinet system comprises the following steps:

receiving a key returning request sent by a user clicking a returning key button;

receiving face information or IC card swiping information of a user; popping up a face recognition interface after the card swiping passes, and carrying out face recognition on the user in real time;

receiving face information of a user, and judging the identity of the user according to the face information;

if the user is a legal user, downloading the data associated with the face information from the scheduling platform, and judging the role of the user according to the data associated with the face information;

if the user role is other than that of a common driver, prompting the user to select the number of the returned keys, opening the corresponding number of cabinet doors, and waiting for returning the keys; if the user role is a common driver, a cabinet door is opened to wait for returning the key.

According to the technical scheme, the intelligent key cabinet system for the bus station is based on the RFID accurate identification and face identification technology, one lock is adopted for each cabinet door, and the corresponding cabinet body is opened according to the IC card swiping information and the face information of a user to get the key, so that the safety of getting the key is ensured, a driver is prevented from getting the key, and the management confusion and many potential safety hazards are avoided. Moreover, each key in the intelligent key cabinet provided by the invention is provided with an RFID label, and information such as vehicle self-number and the like can be written at will; each cabinet door is provided with an RFID read-write module for reading the information of the RFID key module, so that the condition that only one fixed key can be placed in one cabinet and the key information is inconvenient to replace is avoided.

Meanwhile, the intelligent key cabinet system for the bus station integrates the key cabinet, user information management, temperature measurement and wine measurement, can ensure that a driver can get the key under the condition of good physical condition, can drive safely and has higher intelligent degree.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a block diagram of an intelligent key cabinet system for a bus station according to an embodiment of the present invention;

fig. 2 is a schematic view of a key cabinet for a bus station according to an embodiment of the present invention;

fig. 3 is a key state initialization flowchart of an intelligent key cabinet for a bus station according to an embodiment of the present invention;

fig. 4 is a flowchart illustrating user data initialization of an intelligent key cabinet for a bus station according to an embodiment of the present invention;

FIG. 5 is a key picking flow chart of an intelligent key cabinet for a bus station according to an embodiment of the present invention;

FIG. 6 is a flow chart of a key getting by a common driver of an intelligent key cabinet for a bus station according to an embodiment of the present invention;

fig. 7 is a key return flow chart of the intelligent key cabinet for the bus station according to the embodiment of the 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.

The invention discloses an intelligent key cabinet system for a bus station, which comprises a plurality of cabinet doors, wherein each cabinet door can store an RFID key and is provided with a lock. Moreover, every cabinet door still is provided with an RFID identification module and display module, and the RFID identification module is used for reading and writing the key information of the RFID key of depositing in this cabinet door, and the key information includes at least: vehicle number information; the display module is used for displaying key information of the RFID key stored in the cabinet door. The RFID (Radio Frequency Identification) technology, also called Radio Frequency Identification, is a communication technology, commonly called electronic tag. The specific target can be identified and the related data can be read and written by radio signals without establishing mechanical or optical contact between the identification system and the specific target. The RFID key in the invention refers to a key with an electronic tag; the RFID identification module, that is, the RFID reader/writer, can read and write data on the electronic tag.

Referring to fig. 1, a structural diagram of an intelligent key cabinet system for a bus station according to an embodiment of the present invention is shown, where the intelligent key cabinet system is applied to the bus station, and includes: the intelligent control system comprises a scheduling platform 1, an intelligent control terminal 2, a key authentication module 3, a CAN bus module 4, an RFID key identification module 5, an RFID key 6, an infrared temperature measurement module 8, an alcohol measurement module 9 and a power module 7.

The intelligent control terminal 2 can be an android touch 10-inch all-in-one machine for card swiping face recognition, and supports IC card swiping and face recognition functions. And the intelligent control terminal is provided with buttons for key getting, key returning and the like. The intelligent control terminal can press a key getting button when getting a key, then an IC card is swiped, the intelligent control terminal can compare information obtained by swiping the card with locally stored card number information, the comparison is successful, namely after the card is swiped, face information associated with the card number information is obtained from the dispatching platform 1, the driver is prompted to swipe the face, the intelligent control terminal compares the information obtained by swiping the face with the obtained face information, the comparison is successful, namely after the card is swiped, the intelligent control terminal can obtain the information associated with the face information from the dispatching platform 1, if the shift plan of the driver, the information such as a cabinet door seat label of the key is required to be obtained. In the embodiment of the invention, the key picking-up of the driver needs to be identified by two layers of card swiping and face swiping, so that the security of key picking-up is ensured, and the key picking-up by the driver and potential safety hazards which may occur when the driver falsely picks up the key are avoided. Meanwhile, the intelligent control terminal 2 only stores card number information locally, and does not store other information about a driver, so that on one hand, the IC card swiping operation can be quickly responded, on the other hand, the information of the driver, such as name, identity and the like, can be prevented from being leaked, and the safety of the information is ensured.

The infrared temperature measurement module 8 automatically measures the human body temperature through an infrared signal when a driver approaches, and sends the measured human body temperature to the intelligent control terminal; the alcohol measuring module 9 automatically tests the alcohol of the user after the user blows air, and sends an alcohol test result to the intelligent control terminal;

the intelligent control terminal 2 issues the cabinet door seat number obtained by the key to the key authentication module 3 under the condition that the body temperature of the driver is determined not to exceed the preset temperature value and the alcohol test result is passed, after the authentication of the key authentication module 3 is passed, the cabinet door seat number is issued to the RFID key identification module 5 of the specific cabinet door through the CAN bus 4, the RFID key identification module 5 opens the cabinet door with the current seat number, and the driver CAN use the key. The key and the collar are displayed on the android 10 inch screen, and are prompted by voice through a 2WX2 speaker.

The intelligent control terminal 2 is in wireless communication with the dispatching platform 1 through a network to obtain a scheduling plan of a driver on the same day, and the scheduling plan corresponds to a cabinet door seat number needing to obtain a key. Preferably, the scheduling platform 1 may be a cloud scheduling platform.

The intelligent control terminal 2 is connected with the key authentication module 3 through the serial port RS232, information of the RFID keys 6 read by the RFID key identification module 5 is acquired, all key information and cabinet door information are displayed through an android 10-inch screen, the cabinet door information comprises a cabinet door opening and closing state, and the key information comprises vehicle self-numbering.

The key authentication module 3 acquires the key information read by all the RFID key identification modules 5 through the CAN bus 4.

The RFID key identification module 5 is used to read the key information written into the RFID key 6 and is displayed by the OLED of each cabinet door.

The power module 7 is used for supplying power to each module.

Referring to fig. 2, a schematic diagram of an electronic key cabinet for a bus station according to an embodiment of the present invention is shown. The electronic key cabinet adopts a main cabinet and an auxiliary cabinet combination mode. The whole cabinet body adopts a cold plate sheet metal process and a plastic spraying process, each cabinet door stores a key, and the opening and closing of the cabinet doors are controlled by switching on and off the electromagnetic lock. This key cabinet adopts a lock of every cabinet door, opens according to user's authority and gets the different cabinet bodies, and ordinary driver obtains the key at every turn and issues for intelligent terminal through the dispatch platform, and intelligent terminal receives the instruction of dispatch platform and opens corresponding cabinet body, also considers dispatcher, trailer worker, technical captain etc. to need to use many keys once simultaneously, also supports to open a plurality of cabinet doors simultaneously. Management confusion and a plurality of potential safety hazards are avoided. Moreover, each key is provided with an RFID label, and information such as vehicle numbers and the like can be written at will; each cabinet door is provided with an RFID key identification module for reading the information of the RFID key; and each cabinet door is provided with a 0.96-inch OLED small display screen for displaying the vehicle number of the current key. The condition that only one fixed key can be placed in one cabinet and the key information is inconvenient to replace is avoided.

The intelligent key cabinet system for the bus station comprises a series of processes of key initialization, user data initialization, key getting, man-car matching and key returning. Referring to fig. 3-7, flow charts of various processes included in the intelligent key cabinet system for a bus station in the embodiment of the invention are shown.

Fig. 3 is a flowchart illustrating the initialization of the key status of the intelligent key locker system for the bus station according to the embodiment of the present invention.

The key state initialization process is that after the whole key cabinet system is started, the key authentication module acquires the vehicle number information of all the RFID keys read by the RFID key identification module through the CAN bus, the intelligent control terminal waits for the key cabinet to be prepared, then the states of each key and the cabinet door are read in a traversing manner, stored and displayed on a main interface, then the opening and closing of the key cabinet door and the taking and returning of the key CAN be monitored dynamically, and the main interface CAN be updated in real time.

The method specifically comprises the following steps:

s301, the key authentication module acquires key information of the key through the CAN bus; the key information at least comprises vehicle number information;

s302, the intelligent control terminal accesses the key authentication module through the serial port to judge whether the key cabinet is started up;

the key authentication module acquires key information of all keys, which means that the key cabinet is started up;

s303, if the starting is finished, executing the step S304; if the starting is not completed, returning to execute the step S302;

s304, the intelligent control terminal acquires state information of all cabinet doors and key information of all keys;

s305, the intelligent control terminal displays the state information and the vehicle number information of the cabinet door.

Fig. 4 is a flowchart illustrating user data initialization of the intelligent key cabinet system for the bus station according to the embodiment of the present invention.

After the key cabinet system is started, the latest user IC card data can be downloaded to the background system at fixed time intervals, and then the local data is updated according to conditions so as to be used for identity verification during key picking and returning.

As shown in fig. 5, it shows a flow chart of key picking up of the intelligent key cabinet system for the bus station in the embodiment of the present invention.

After a user clicks a key getting button on the intelligent control terminal, IC card swiping operation is firstly carried out, the intelligent control terminal can compare information obtained by swiping a card with card number information stored locally, the comparison is successful, namely after the card swiping is passed, a face recognition interface can be popped up on the intelligent control terminal, the face recognition of the user is carried out in real time, and the user can log in through the face recognition. And after the user identity is verified to be a legal user through double-layer identification, downloading data from the scheduling platform. Then, judging the role of the user, such as a dispatcher, a trailer worker and the like or a common driver, if the role is the dispatcher, the trailer worker and the like, prompting the user to select a specific key number to be taken, and opening a corresponding cabinet door for the user to take; if the driver is the driver, the information of the vehicle to be driven by the driver is inquired from the back desk, and the corresponding cabinet door is popped up for the driver to take. The method specifically comprises the following steps:

s501, receiving a key getting request sent by a user selecting a key getting button; s502, receiving IC card swiping information of a user; popping up a face recognition interface after the card swiping passes, and carrying out face recognition on the user in real time;

s503, receiving face information of the user, and judging the identity of the user according to the received face information;

s504, if the user is a legal user, downloading data related to the face information from the scheduling platform;

s505, judging the user role based on the data associated with the face information;

s506, if the user is a person except a common driver such as a dispatcher, a trailer and the like, prompting the user to select key information to be retrieved; opening a corresponding cabinet door based on the key information, and waiting for getting the key;

and S507, if the user is a common driver, executing a process of getting the key by the common driver so that the common driver can get the key.

Fig. 6 shows a flow chart of key acquisition by a general driver of the intelligent key cabinet system for the bus station in the embodiment of the invention.

A common driver initiates a key getting request to an intelligent control terminal through face recognition or a user IC card, after a background service of the intelligent control terminal obtains a user number, whether the user passes wine measurement or not is judged, if the user does not pass wine measurement, failure is directly prompted, if the user passes wine measurement, whether the body temperature of the user exceeds a preset temperature value or not is further judged, if the body temperature of the user exceeds the preset temperature value, failure is prompted, and user information that the body temperature exceeds the preset temperature value can be reported to a scheduling platform in a special period, such as an epidemic situation period, and then reported to related departments. If the body temperature of the user does not exceed the preset temperature value, the personnel number is transmitted to a scheduling service of the intelligent control terminal, the scheduling service inquires the corresponding relation between the personnel and the vehicle from the real-time scheduling system according to the personnel number, if the corresponding relation exists, the scheduling service returns corresponding vehicle information to a background service, the background service pushes a key cabinet to open a corresponding cabinet door and pick up the key, the background service records key pickup information, if the corresponding relation does not exist, the scheduling service feeds back error information to the background service, the background service pushes the key cabinet to prevent the cabinet door from being opened, and the user is prompted to have no scheduling plan.

The method specifically comprises the following steps:

s601, receiving a key receiving request initiated by a common driver through a user IC card and face recognition;

s602, acquiring a personnel number based on the received key getting request;

s603, dispatching a database to inquire a wine measurement result through the personnel number;

s604, judging whether the person passes the alcohol test based on the alcohol test result;

s605, if the wine is measured to pass, judging whether the body temperature of the user exceeds a preset temperature value;

s606, if the body temperature of the user does not exceed the preset temperature value, inquiring the corresponding relation between the person and the vehicle from the real-time scheduling system through the personnel number;

s607, if the person and the vehicle pair exist, opening the corresponding cabinet door according to the vehicle number and recording the key receiving information;

and S608, if no person-vehicle pair exists, prompting that no shift schedule is available.

Fig. 7 is a flowchart illustrating a key return process of the intelligent key cabinet system for a bus station according to the embodiment of the present invention.

After the user clicks the return button, similar to the process of getting a key, the IC card swiping operation is firstly needed, after the card swiping operation passes, a face recognition interface is popped up, and the face of the user is recognized in real time and compared. After the identity authentication is passed, the role of the user is judged, if the user is a dispatcher, the dispatcher inquires how many keys to be returned, if the dispatcher is a driver, the dispatcher returns the keys by default, and randomly opens a vacant cabinet door to wait for returning.

The method specifically comprises the following steps:

s701, receiving a key returning request sent by a user clicking a returning key button;

s702, receiving IC card swiping information of a user; popping up a face recognition interface after the card swiping passes, and carrying out face recognition on the user in real time;

s703, receiving face information of the user, and judging the identity of the user according to the face information;

s704, if the user is a legal user, downloading data associated with the face information from the scheduling platform, and judging the user role according to the data associated with the face information;

s705, if the user has the role of a dispatcher, a trailer and other people except common drivers, prompting the user to select the number of the returned keys, opening the corresponding number of cabinet doors, and waiting for returning the keys; if the user role is a common driver, a cabinet door is opened to wait for returning the key.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The utility model provides an intelligent key cabinet system that public transit station used which characterized in that includes: the intelligent alcohol measuring system comprises a scheduling platform, an intelligent control terminal, a key authentication module, a CAN bus module, an infrared temperature measuring module, an alcohol measuring module and a key cabinet comprising a plurality of cabinet doors, wherein each cabinet door is provided with a lock and an RFID key identification module, and each cabinet door is internally provided with an RFID key;

the infrared temperature measurement module is used for measuring the human body temperature through an infrared signal and sending the measured human body temperature to the intelligent control terminal; the alcohol measuring module is used for carrying out alcohol test on the user and sending an alcohol test result to the intelligent control terminal;

the intelligent control terminal supports IC card swiping and face recognition functions; the intelligent control terminal obtains a key getting request sent by a user through IC card swiping and face recognition, determines a cabinet door seat number needing to obtain a key, sends a cabinet door coordinate number to a key authentication module when the intelligent control terminal passes alcohol test and the human body temperature is lower than a preset temperature value, sends the cabinet door seat number to an RFID key recognition module corresponding to a cabinet door through a CAN bus after the key authentication module passes authentication, and the RFID key recognition module opens the cabinet door with the current seat number so as to get the key;

the intelligent control terminal is in wireless communication with the dispatching platform through a network to obtain a scheduling plan of a driver on the same day, wherein the scheduling plan corresponds to a cabinet door seat number needing to obtain a key;

the intelligent control terminal is connected with the key authentication module through a serial port RS232 to acquire information of the RFID keys read by all the RFID key identification modules;

the key authentication module acquires the key information read by all the RFID key identification modules through the CAN bus;

the RFID key identification module is used for reading and writing key information in the RFID key stored in the cabinet door.

2. The intelligent key cabinet system for the bus station as claimed in claim 1, wherein the intelligent key cabinet system is applied to the bus station.

3. The intelligent key cabinet system for a bus station as set forth in claim 1, further comprising: and the power supply module is used for supplying power to each module.

4. An intelligent key cabinet system for a bus station as claimed in claim 1, wherein the key cabinet is a combination of a main cabinet and an auxiliary cabinet; the opening and closing of the cabinet door are controlled by the on-off control of the electromagnetic lock.

5. The intelligent key cabinet system for the bus station as claimed in claim 1, wherein the key state initialization process of the intelligent key cabinet system comprises the steps of:

the key authentication module acquires key information of a key through a CAN bus, wherein the key information at least comprises vehicle number information;

the intelligent control terminal accesses the key authentication module through the serial port to judge whether the key cabinet is started up or not;

if the starting is finished, the intelligent control terminal acquires the state information of all cabinet doors and the key information of all keys;

and the intelligent control terminal displays the state information and the vehicle number information of the cabinet door.

6. The intelligent key cabinet system for the bus station as claimed in claim 1, wherein the user data initialization process of the intelligent key cabinet system comprises the steps of:

after the intelligent key cabinet system is started, the latest user IC card information is downloaded at fixed time intervals, and the local data is updated according to preset conditions so as to be used for identity verification during key picking and returning.

7. The intelligent key cabinet system for the bus station as claimed in claim 6, wherein the key picking process of the intelligent key cabinet system comprises the following steps:

receiving a key getting request sent by a user selecting a key getting button;

receiving IC card swiping information of a user; popping up a face recognition interface after the card swiping passes, and carrying out face recognition on the user in real time;

judging the identity of the user based on the received face information;

if the user is a legal user, downloading the data associated with the face information from the scheduling platform;

judging the role of the user based on the data associated with the face information;

if the user is a person except a common driver, prompting the user to select key information to be retrieved, opening a corresponding cabinet door based on the key information, and waiting for retrieving the key;

and if the user is a common driver, executing the process of getting the key by the common driver so that the common driver can get the key.

8. The intelligent key cabinet system for the bus station as claimed in claim 1, wherein the process of getting the key by the ordinary driver of the intelligent key cabinet system comprises the following steps:

receiving a key receiving request initiated by a common driver through a user IC card and face recognition;

acquiring a personnel number based on the received key getting request;

the wine measurement result is inquired in a dispatching database through the personnel number;

if the fruit wine passes the measurement, judging whether the body temperature of the user exceeds a preset temperature value;

if the body temperature of the user does not exceed the preset temperature value, inquiring the corresponding relation between the person and the vehicle from the real-time scheduling system through the personnel number;

if the person-vehicle pair exists, opening the corresponding cabinet door according to the vehicle number and recording key receiving information;

and if no person-vehicle pair exists, prompting that no shift schedule is available.

9. The intelligent key cabinet system for the bus station as claimed in claim 1, wherein the process of returning the key of the intelligent key cabinet system comprises the following steps:

receiving a key returning request sent by a user clicking a returning key button; popping up a face recognition interface, and carrying out user face recognition in real time;

receiving IC card swiping information of a user; popping up a face recognition interface after the card swiping passes, and carrying out face recognition on the user in real time;

receiving face information of a user, and judging the identity of the user according to the face information;

if the user is a legal user, downloading the data associated with the face information from the scheduling platform, and judging the role of the user according to the data associated with the face information;

if the user role is other than that of a common driver, prompting the user to select the number of the returned keys, opening the corresponding number of cabinet doors, and waiting for returning the keys; if the user role is a common driver, a cabinet door is opened to wait for returning the key.

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