1. The utility model provides a dangerous chemicals logistics park platform management system of wisdom which characterized in that includes:

a platform central control system;

a danger source monitoring and early warning system which is controlled by the platform central control system and is used for monitoring and early warning major danger sources;

the enterprise security risk zone management system is used for receiving the control of the platform central control system and managing enterprise security risk zones;

receiving the control of the platform central control system, and using the on-duty management system for the on-duty management of the personnel;

the enterprise production whole-process management system is used for receiving the control of the platform central control system and managing the enterprise production whole-process;

an access management system for receiving the control of the platform central control system and managing the access; and

and the database is connected with the platform central control system and used for storing data.

2. The intelligent hazardous chemicals logistics park platform management system of claim 1 wherein the hazard source monitoring and pre-warning system comprises: an operation parameter data acquisition unit, a combustible gas detection unit, a toxic gas detection unit, a video monitoring unit, an industrial data communication network, a timer, a hazard source central control unit, a data temporary storage unit, a toxic gas alarm unit, a combustible gas alarm unit, a flame detector and a smoke sensor,

the operation parameter data acquisition unit, the combustible gas detection unit, the toxic gas detection unit and the video monitoring unit are all connected with the hazard source central control unit through an industrial data communication network;

the operation parameter data acquisition unit acquires equipment operation parameter information;

the combustible gas detection unit acquires information on existence of combustible gas;

the toxic gas detection unit acquires information on whether toxic gas exists or not;

the video monitoring unit shoots scene information at each place;

the hazard source central control unit controls the combustible gas alarm unit to alarm or inhibit sound according to the existence information of the combustible gas;

the hazard source central control unit controls the toxic gas alarm unit to alarm or inhibit sound according to the toxic gas existence information;

the hazard source central control unit compares the equipment operation parameter information with a pre-stored parameter threshold value and sends a comparison result to the platform central control system;

the hazard source central control unit sends scene information of each place to the platform central control system;

the flame detector and the smoke sensor respectively perform flame detection and smoke detection, and send detection signals to the hazard source central control unit through the industrial data communication module; the hazard source central control unit sends a detection signal to the platform central control system;

the data temporary storage unit is used for storing equipment operation parameter information, combustible gas existence information, toxic gas existence information and scene information of each part;

the danger source central control unit patrols and examines the data in the data temporary storage unit according to the timing interval of the timer;

and the hazard source central control unit receives the instruction of the platform central control system and controls the operation parameter data acquisition unit, the combustible gas detection unit, the toxic gas detection unit and the video monitoring unit.

3. The intelligent hazardous chemicals logistics park platform management system of claim 2 wherein the operational parameter data comprises temperature, pressure, liquid level, interlock switching signals.

4. The intelligent hazardous chemicals logistics park platform management system of claim 1, wherein the enterprise security risk zone management system comprises: an enterprise drawing unit, an enterprise functional area defining unit, an enterprise type risk judging unit, an enterprise area risk evaluating unit, a risk analysis modeling unit and an enterprise area hidden danger determining unit, wherein,

the enterprise drawing unit stores an enterprise area plan;

the enterprise function area dividing unit divides each operation area according to an enterprise area plan and operation procedures;

the enterprise type risk judging unit determines an enterprise type risk level according to the enterprise type in the enterprise area plan;

the risk analysis modeling unit stores a risk analysis model;

the enterprise region hidden danger determining unit determines the operation region hidden danger according to the operation region equipment type;

and the enterprise regional risk evaluation unit inputs the enterprise type risk level, the hidden danger of the operation region and a prestored operation procedure risk index list into a risk analysis model, analyzes to obtain the risk level of each operation region, and sends the risk level to the platform central control system.

5. The intelligent hazardous chemicals logistics park platform management system of claim 1 wherein the personnel on duty on-site management system comprises: a face recognition unit, a personnel information storage unit, an entrance guard monitoring unit, a vehicle recognition unit, a vehicle information storage unit, a post center management unit, a personnel post matching unit, a vehicle activity area matching unit, a personnel positioning unit and a vehicle positioning unit, wherein,

the personnel information storage unit stores a personnel information list;

the face recognition unit carries out face recognition on the entering personnel according to the personnel information list to obtain a face recognition result;

the vehicle information storage unit stores a vehicle information list;

the vehicle identification unit identifies the entering vehicle according to the vehicle information list to obtain a vehicle identification result;

the entrance guard monitoring unit releases or blocks people or vehicles according to the face recognition result or the vehicle recognition result, and sends the face recognition result and the vehicle recognition result to the post center management unit;

the personnel positioning unit positions the entering personnel to obtain positioning information;

the personnel post matching unit judges whether the personnel is at a specified post according to the positioning information and the personnel information list and sends a post matching result to the post center management unit;

the vehicle positioning unit positions an entering vehicle to obtain a positioning track;

the vehicle activity area matching unit judges whether the vehicle is in a specified activity area according to the positioning track and the vehicle information list, and sends an activity area matching result to the post center management unit;

and the post center management unit sends a face recognition result, a vehicle recognition result, a post matching result and an activity area matching result to the platform central control system.

6. The intelligent hazardous chemicals logistics park platform management system of claim 1 wherein the enterprise production full-flow management system comprises: a production management center unit, and a safety production target responsibility management unit, a safety system management unit, an education training unit, a field management unit, an emergency management unit, an examination management unit, a safety risk management and control and hidden danger investigation and treatment unit, a major hazard source information management unit, an environment protection management unit and an occupational health management unit which are respectively connected with the production management center unit,

the production management center unit is communicated with the platform central control system; the safety production target responsibility management unit records and stores safety production target responsibility data; the safety system management unit records and stores safety system data; the education training unit records and stores education training data; the field management unit records and stores field management data; the emergency management unit records and stores emergency management data; the examination management unit records and stores examination record data; the safety risk management and control and hidden danger troubleshooting management and control unit records and stores safety risk management and control and hidden danger troubleshooting management and control data; the major hazard source information management unit records and stores major hazard source information data; the environment protection management unit records and stores environment protection system data; and the occupational health management unit records and stores occupational health system data.

7. The intelligent hazardous chemical logistics park platform management system of claim 1, wherein the access management system comprises: the system comprises an in-out warehouse monitoring unit, an in-out warehouse declaration unit, a distribution management unit, an inventory recording unit and a cargo monitoring unit;

the in-out monitoring unit acquires information of goods in storage or information of goods out of storage;

the personnel input warehouse entry declaration information or warehouse exit declaration information through the warehouse entry declaration unit;

the distribution management unit checks the information of the warehoused goods and the warehousing declaration information, and arranges the corresponding goods to be warehoused if the information of the warehoused goods and the warehousing declaration information are matched; the goods monitoring unit monitors the goods put in storage until reaching a preset place, and sends a storage completion signal to the goods distribution management unit; the distribution management unit controls the inventory recording unit to update the inventory record;

the goods allocation management unit arranges the corresponding goods to be delivered out of the warehouse according to the delivery declaration information; the goods monitoring unit monitors goods delivered from the warehouse until the goods leave the warehouse, and sends a delivery completion signal to the goods allocation management unit; the goods distribution management unit checks the ex-warehouse declaration information and the ex-warehouse goods information, and controls the inventory recording unit to update the inventory record if the ex-warehouse declaration information and the ex-warehouse goods information are matched;

the distribution management unit is communicated with the platform central control system.

8. The intelligent hazardous chemicals logistics park platform management system of claim 1 further comprising: an AGV system connected with the WMS system and used for transporting goods in and out of the warehouse; the system comprises an AGV system, a monitoring system, a dispatching system and an explosion-proof AGV, wherein the AGV system comprises a bar code scanning system, a remote calling system, the monitoring system, the dispatching system and the explosion-proof AGV;

the bar code scanning system scans cargo information and sends the cargo information to the WMS system;

the remote calling system sends a voice instruction to the WMS system;

the WMS system generates a command instruction according to the cargo information and the voice instruction and sends the command instruction to the dispatching system;

the dispatching system detects the idle explosion-proof AGV and sends a command instruction to an AGV control system of the explosion-proof AGV, and the AGV control system controls the explosion-proof AGV to carry goods to be delivered out of a warehouse or put in the warehouse, and the goods are automatically returned after the operation is finished;

the monitoring system monitors the explosion-proof AGV and feeds monitoring information back to the scheduling system;

the AGV control system sends the running state of the explosion-proof AGV to the dispatching system in real time;

when the AGV control system detects that the electric quantity of the explosion-proof AGV is too low, the AGV control system informs manual charging.

Background

The safety management responsibility of the hazardous chemical logistics park is important, and once the hazardous chemical logistics park is careless, relatively large safety accidents are easy to occur. Generally, a large amount of manpower and material resources are needed for management, and the cost is high. Also, for example: major hazard source monitoring, enterprise security risk, personnel post monitoring, warehousing and management and the like all need to arrange personnel for management respectively. Therefore, to improve management efficiency and reduce cost, it is necessary to design an effective platform management system.

Disclosure of Invention

The invention aims to provide an intelligent dangerous chemical logistics park platform management system, which improves the automation of park platform management and reduces the management cost.

The technical scheme for realizing the purpose is as follows:

a wisdom hazardous chemicals logistics park platform management system, includes:

a platform central control system;

a danger source monitoring and early warning system which is controlled by the platform central control system and is used for monitoring and early warning major danger sources;

the enterprise security risk zone management system is used for receiving the control of the platform central control system and managing enterprise security risk zones;

receiving the control of the platform central control system, and using the on-duty management system for the on-duty management of the personnel;

the enterprise production whole-process management system is used for receiving the control of the platform central control system and managing the enterprise production whole-process;

an access management system for receiving the control of the platform central control system and managing the access; and

and the database is connected with the platform central control system and used for storing data.

Preferably, the hazard source monitoring and early warning system includes: an operation parameter data acquisition unit, a combustible gas detection unit, a toxic gas detection unit, a video monitoring unit, an industrial data communication network, a timer, a hazard source central control unit, a data temporary storage unit, a toxic gas alarm unit, a combustible gas alarm unit, a flame detector and a smoke sensor,

the operation parameter data acquisition unit, the combustible gas detection unit, the toxic gas detection unit and the video monitoring unit are all connected with the hazard source central control unit through an industrial data communication network;

the operation parameter data acquisition unit acquires equipment operation parameter information;

the combustible gas detection unit acquires information on existence of combustible gas;

the toxic gas detection unit acquires information on whether toxic gas exists or not;

the video monitoring unit shoots scene information at each place;

the hazard source central control unit controls the combustible gas alarm unit to alarm or inhibit sound according to the existence information of the combustible gas;

the hazard source central control unit controls the toxic gas alarm unit to alarm or inhibit sound according to the toxic gas existence information;

the hazard source central control unit compares the equipment operation parameter information with a pre-stored parameter threshold value and sends a comparison result to the platform central control system;

the hazard source central control unit sends scene information of each place to the platform central control system;

the flame detector and the smoke sensor respectively perform flame detection and smoke detection, and send detection signals to the hazard source central control unit through the industrial data communication module; the hazard source central control unit sends a detection signal to the platform central control system;

the data temporary storage unit is used for storing equipment operation parameter information, combustible gas existence information, toxic gas existence information and scene information of each part;

the danger source central control unit patrols and examines the data in the data temporary storage unit according to the timing interval of the timer;

and the hazard source central control unit receives the instruction of the platform central control system and controls the operation parameter data acquisition unit, the combustible gas detection unit, the toxic gas detection unit and the video monitoring unit.

Preferably, the operation parameter data comprises temperature, pressure, liquid level and interlock switching signals.

Preferably, the enterprise security risk partition management system includes: an enterprise drawing unit, an enterprise functional area defining unit, an enterprise type risk judging unit, an enterprise area risk evaluating unit, a risk analysis modeling unit and an enterprise area hidden danger determining unit, wherein,

the enterprise drawing unit stores an enterprise area plan;

the enterprise function area dividing unit divides each operation area according to an enterprise area plan and operation procedures;

the enterprise type risk judging unit determines an enterprise type risk level according to the enterprise type in the enterprise area plan;

the risk analysis modeling unit stores a risk analysis model;

the enterprise region hidden danger determining unit determines the operation region hidden danger according to the operation region equipment type;

and the enterprise regional risk evaluation unit inputs the enterprise type risk level, the hidden danger of the operation region and a prestored operation procedure risk index list into a risk analysis model, analyzes to obtain the risk level of each operation region, and sends the risk level to the platform central control system.

Preferably, the on-duty personnel presence management system comprises: a face recognition unit, a personnel information storage unit, an entrance guard monitoring unit, a vehicle recognition unit, a vehicle information storage unit, a post center management unit, a personnel post matching unit, a vehicle activity area matching unit, a personnel positioning unit and a vehicle positioning unit, wherein,

the personnel information storage unit stores a personnel information list;

the face recognition unit carries out face recognition on the entering personnel according to the personnel information list to obtain a face recognition result;

the vehicle information storage unit stores a vehicle information list;

the vehicle identification unit identifies the entering vehicle according to the vehicle information list to obtain a vehicle identification result;

the entrance guard monitoring unit releases or blocks people or vehicles according to the face recognition result or the vehicle recognition result, and sends the face recognition result and the vehicle recognition result to the post center management unit;

the personnel positioning unit positions the entering personnel to obtain positioning information;

the personnel post matching unit judges whether the personnel is at a specified post according to the positioning information and the personnel information list and sends a post matching result to the post center management unit;

the vehicle positioning unit positions an entering vehicle to obtain a positioning track;

the vehicle activity area matching unit judges whether the vehicle is in a specified activity area according to the positioning track and the vehicle information list, and sends an activity area matching result to the post center management unit;

and the post center management unit sends a face recognition result, a vehicle recognition result, a post matching result and an activity area matching result to the platform central control system.

Preferably, the enterprise production overall process management system includes: a production management center unit, and a safety production target responsibility management unit, a safety system management unit, an education training unit, a field management unit, an emergency management unit, an examination management unit, a safety risk management and control and hidden danger investigation and treatment unit, a major hazard source information management unit, an environment protection management unit and an occupational health management unit which are respectively connected with the production management center unit,

the production management center unit is communicated with the platform central control system; the safety production target responsibility management unit records and stores safety production target responsibility data; the safety system management unit records and stores safety system data; the education training unit records and stores education training data; the field management unit records and stores field management data; the emergency management unit records and stores emergency management data; the examination management unit records and stores examination record data; the safety risk management and control and hidden danger troubleshooting management and control unit records and stores safety risk management and control and hidden danger troubleshooting management and control data; the major hazard source information management unit records and stores major hazard source information data; the environment protection management unit records and stores environment protection system data; and the occupational health management unit records and stores occupational health system data.

Preferably, the access management system includes: the system comprises an in-out warehouse monitoring unit, an in-out warehouse declaration unit, a distribution management unit, an inventory recording unit and a cargo monitoring unit;

the in-out monitoring unit acquires information of goods in storage or information of goods out of storage;

the personnel input warehouse entry declaration information or warehouse exit declaration information through the warehouse entry declaration unit;

the distribution management unit checks the information of the warehoused goods and the warehousing declaration information, and arranges the corresponding goods to be warehoused if the information of the warehoused goods and the warehousing declaration information are matched; the goods monitoring unit monitors the goods put in storage until reaching a preset place, and sends a storage completion signal to the goods distribution management unit; the distribution management unit controls the inventory recording unit to update the inventory record;

the goods allocation management unit arranges the corresponding goods to be delivered out of the warehouse according to the delivery declaration information; the goods monitoring unit monitors goods delivered from the warehouse until the goods leave the warehouse, and sends a delivery completion signal to the goods allocation management unit; the goods distribution management unit checks the ex-warehouse declaration information and the ex-warehouse goods information, and controls the inventory recording unit to update the inventory record if the ex-warehouse declaration information and the ex-warehouse goods information are matched;

the distribution management unit is communicated with the platform central control system.

Preferably, the method further comprises the following steps: an AGV (Automated Guided Vehicles) system connected with a WMS (warehouse management system) system and used for goods warehouse-in and warehouse-out transportation; the system comprises an AGV system, a monitoring system, a dispatching system and an explosion-proof AGV, wherein the AGV system comprises a bar code scanning system, a remote calling system, the monitoring system, the dispatching system and the explosion-proof AGV;

the bar code scanning system scans cargo information and sends the cargo information to the WMS system;

the remote calling system sends a voice instruction to the WMS system;

the WMS system generates a command instruction according to the cargo information and the voice instruction and sends the command instruction to the dispatching system;

the dispatching system detects the idle explosion-proof AGV and sends a command instruction to an AGV control system of the explosion-proof AGV, and the AGV control system controls the explosion-proof AGV to carry goods to be delivered out of a warehouse or put in the warehouse, and the goods are automatically returned after the operation is finished;

the monitoring system monitors the explosion-proof AGV and feeds monitoring information back to the scheduling system;

the AGV control system sends the running state of the explosion-proof AGV to the dispatching system in real time;

when the AGV control system detects that the electric quantity of the explosion-proof AGV is too low, the AGV control system informs manual charging.

The invention has the beneficial effects that: by integrating all subsystems, the invention can integrate all data while realizing major hazard source monitoring, enterprise safety risk partition management, personnel on-duty management, enterprise production full-flow management and in-out management respectively, and is convenient for overall management and maintenance. Meanwhile, the invention improves the automatic management level, effectively improves the management effect and reduces the cost.

Drawings

FIG. 1 is a block diagram of the intelligent hazardous chemicals logistics park platform management system of the present invention;

FIG. 2 is a block diagram of a hazard source monitoring and warning system according to the present invention;

FIG. 3 is a block diagram of an enterprise security risk partition management system of the present invention;

FIG. 4 is a block diagram of the personnel on duty on-duty management system of the present invention;

FIG. 5 is a block diagram of an enterprise production workflow management system of the present invention;

FIG. 6 is a block diagram of an access management system of the present invention;

FIG. 7 is a schematic block diagram of an AGV system according to the present invention.

Detailed Description

The invention will be further explained with reference to the drawings.

Referring to fig. 1 to 7, the intelligent dangerous chemical logistics park platform management system of the present invention comprises: the system comprises a platform central control system 1, a danger source monitoring and early warning system 2, an enterprise safety risk partition management system 3, a personnel on-duty on-site management system 4, an enterprise production full-process management system 5, an in-out library management system 6 and a database 7.

And the danger source monitoring and early warning system 2 is controlled by the platform central control system 1 and is used for monitoring and early warning major danger sources. Specifically, the hazard source monitoring and early warning system 2 includes: the system comprises an operation parameter data acquisition unit 21, a combustible gas detection unit 22, a toxic gas detection unit 23, a video monitoring unit 24, an industrial data communication network 25, a timer 26, a hazard source central control unit 27, a data temporary storage unit 28, a toxic gas alarm unit 29, a combustible gas alarm unit 210, a flame detector 211 and a smoke sensor 212.

The operation parameter data acquisition unit 21, the combustible gas detection unit 22, the toxic gas detection unit 23 and the video monitoring unit 24 are all connected with the hazard source central control unit 27 through an industrial data communication network 25.

The operation parameter data acquisition unit 21 acquires equipment operation parameter information; the combustible gas detection unit 22 collects information on whether combustible gas exists or not; the toxic gas detection unit 23 collects information on presence or absence of toxic gas; the video monitoring unit 24 shoots scene information of various places; the hazard source central control unit 27 controls the combustible gas alarm unit 210 to alarm or sound forbidden according to the existence information of the combustible gas.

The hazard source central control unit 27 controls the toxic gas alarm unit 29 to alarm or sound prohibited according to the toxic gas presence/absence information. The hazard source central control unit 27 compares the equipment operation parameter information with the pre-stored parameter threshold value and sends the comparison result to the platform central control system 1. The hazard source central control unit 27 transmits scene information of each place to the platform central control system 1. The flame detector 211 and the smoke sensor 212 respectively detect flame and smoke, and send detection signals to the hazard source central control unit 27 through the industrial data communication module 25; the hazard source central control unit 27 sends the detection signal to the platform central control system 1.

The data temporary storage unit 28 is used for storing equipment operation parameter information, combustible gas presence or absence information, toxic gas presence or absence information, and scene information of each place. The hazard source central control unit 27 polls the data in the data temporary storage unit 28 according to the timing interval of the timer 26. The hazard source central control unit 27 receives the instruction of the platform central control system 1, and controls the operation parameter data acquisition unit 21, the combustible gas detection unit 22, the toxic gas detection unit 23 and the video monitoring unit 24. The operation parameter data comprises temperature, pressure, liquid level, interlocking switching signals and the like.

And the enterprise safety risk partition management system 3 is controlled by the platform central control system 1 and is used for enterprise safety risk partition management. Specifically, the enterprise security risk partition management system 3 includes: the enterprise information management system comprises an enterprise drawing unit 31, an enterprise functional area defining unit 32, an enterprise type risk judging unit 33, an enterprise area risk evaluating unit 34, a risk analysis modeling unit 35 and an enterprise area hidden danger determining unit 36. The enterprise drawing unit 31 stores enterprise area plan views; an enterprise functional area defining unit 32 defines each operation area according to the enterprise area plan and the operation process; the enterprise type risk judging unit 33 determines an enterprise type risk level according to the enterprise type in the enterprise area plan; the risk analysis modeling unit 35 stores a risk analysis model; enterprise area hidden danger determining unit 36 determines an operation area hidden danger according to the operation area device type. The enterprise regional risk evaluation unit 34 inputs the enterprise type risk level, the operation regional hidden danger and the pre-stored operation procedure risk index list into the risk analysis model, analyzes the risk level to obtain the risk level of each operation region, and sends the risk level to the platform central control system 1.

The on-duty management system 4 is controlled by the platform central control system 1 and is used for on-duty management of the personnel. The personnel on duty management system 4 comprises: the system comprises a face recognition unit 41, a personnel information storage unit 42, an entrance guard monitoring unit 43, a vehicle recognition unit 44, a vehicle information storage unit 45, a post center management unit 46, a personnel post matching unit 47, a vehicle activity area matching unit 48, a personnel positioning unit 49 and a vehicle positioning unit 410.

The person information storage unit 42 stores a person information list; the face recognition unit 41 performs face recognition on the entering person according to the person information list to obtain a face recognition result. The vehicle information storage unit 45 stores a vehicle information list; the vehicle recognition unit 44 performs vehicle recognition on the entering vehicle according to the vehicle information list, and obtains a vehicle recognition result. The entrance guard monitoring unit 43 releases or blocks people or vehicles according to the face recognition result or the vehicle recognition result, and sends the face recognition result and the vehicle recognition result to the post center management unit 46. The person positioning unit 49 positions the entering person to obtain positioning information. The personnel position matching unit 47 judges whether the personnel is at the specified position according to the positioning information and the personnel information list, and sends the position matching result to the position center management unit 46. The vehicle positioning unit 410 positions the entering vehicle to obtain a positioning track; the vehicle activity area matching unit 48 determines whether the vehicle is in a predetermined activity area based on the positioning track and the vehicle information list, and sends the activity area matching result to the station center managing unit 46. The post center management unit 46 sends the face recognition result, the vehicle recognition result, the post matching result, and the activity area matching result to the platform central control system 1.

The enterprise production whole-process management system 5 is controlled by the platform central control system 1 and is used for enterprise production whole-process management. The enterprise production overall process management system 5 includes: the system comprises a production management center unit 51, and a safety production target responsibility management unit 52, a safety system management unit 53, an education training unit 54, a field management unit 55, an emergency management unit 56, an assessment management unit 57, a safety risk management and potential hazard investigation and management unit 58, a major hazard source information management unit 59, an environmental protection management unit 510 and an occupational health management unit 511 which are respectively connected with the production management center unit 51.

The production management center unit 51 communicates with the platform central control system 1 to transmit data. The safety production target responsibility management unit 52 records and stores safety production target responsibility data; the safety system management unit 53 records and stores safety system data; the educational training unit 54 records and stores educational training data; the site management unit 55 records and stores site management data; the emergency management unit 56 records and stores emergency management data; the examination management unit 57 records and stores examination record data; the safety risk management and control and hidden danger troubleshooting management and control unit 58 records and stores safety risk management and control and hidden danger troubleshooting management and control data. The major hazard source information management unit 59 records and stores major hazard source information data. The environmental protection management unit 510 records and stores environmental protection system data. The occupational health management unit 511 records and stores occupational health system data.

The warehouse management system 6 is controlled by the platform central control system 1 and used for warehouse management. The warehousing management system 6 includes: an in-out monitoring unit 61, an in-out declaration unit 62, a distribution management unit 63, an inventory recording unit 64, and a cargo monitoring unit 65. And adopting explosion-proof AGV operation when entering and exiting the warehouse.

The in-out monitoring unit 61 collects information of goods in storage or information of goods out of storage. The personnel input the warehouse-in declaration information or warehouse-out declaration information through the warehouse-in/warehouse-out declaration unit 62; the distribution management unit 63 checks the information of the warehoused goods and the warehousing declaration information, and if the information of the warehoused goods and the warehousing declaration information are matched, arranges the corresponding goods to be warehoused; the goods monitoring unit 65 monitors the warehoused goods until reaching a preset place, and sends a warehousing completion signal to the goods allocation management unit 63; the distribution management unit 63 controls the inventory record unit 64 to update the inventory record.

The distribution management unit 63 arranges the corresponding goods for delivery according to the delivery declaration information; the goods monitoring unit 65 monitors the goods leaving the warehouse until leaving the warehouse, and sends a goods leaving completion signal to the goods allocation management unit 63. The distribution management unit 63 checks the delivery declaration information and the delivery information, and if they match, controls the stock recording unit 64 to update the stock record. The distribution management unit 63 communicates with the platform central control system 1. The database 7 is connected with the platform central control system and used for storing data.

In another embodiment, as shown in fig. 7, the present invention further comprises an AGV system coupled to the WMS system for transporting cargo in and out of the warehouse. The AGV system comprises a bar code scanning system 81, a remote calling system 82, a monitoring system 83, a dispatching system 84 and an explosion-proof AGV 85, wherein an AGV control system 86 is arranged in the explosion-proof AGV 85.

The barcode scanning system 81 scans the cargo information and sends the cargo information to the WMS system. The remote call system 82 sends voice commands to the WMS system. The WMS system generates command instructions based on the cargo information and the voice instructions and sends the command instructions to the dispatch system 84. The dispatching system 84 detects the idle explosion-proof AGVs 85, sends the command to the AGV control system 86 of the explosion-proof AGVs 85, and the AGV control system 86 controls the explosion-proof AGVs 85 to carry the goods to be delivered from the warehouse or put in the warehouse, and the goods are automatically returned after the operation is completed. The monitoring system 83 monitors the explosion proof AGV 85 and feeds back the monitoring information to the dispatch system 84. The AGV control system 86 sends the operational status of the blast-resistant AGV 85 to the dispatch system 84 in real time. The scheduling system 84 performs corresponding scheduling by comprehensively considering the operation state and the monitoring information. The AGV control system 86 notifies the manual charging when detecting that the power amount of the explosion-proof AGV 85 is too low.

In conclusion, the invention can effectively improve the management effect and reduce the cost.

The above embodiments are provided only for illustrating the present invention and not for limiting the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, and therefore all equivalent technical solutions should also fall within the scope of the present invention, and should be defined by the claims.