CN111160589A - Coal-fired vehicle scheduling management system and method based on digital accurate matching - Google Patents

Coal-fired vehicle scheduling management system and method based on digital accurate matching Download PDF

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CN111160589A
CN111160589A CN201911379839.XA CN201911379839A CN111160589A CN 111160589 A CN111160589 A CN 111160589A CN 201911379839 A CN201911379839 A CN 201911379839A CN 111160589 A CN111160589 A CN 111160589A
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杨金娃
樊增礼
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Henan Yunmeiwang Network Technology Co ltd
Huaneng Zuoquan Coal Power Co Ltd
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Huaneng Zuoquan Coal Power Co Ltd
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Abstract

The invention provides a coal-fired vehicle dispatching management system and method based on digitized accurate matching, the system comprises a dispatching platform and a user side, the user side comprises an operator side, a mineral point side and a manufacturer side, the operator side, the mineral point side and the manufacturer side are respectively in communication connection with the dispatching platform, and a corresponding relation table of a demand manufacturer and a supply mineral point is prestored in the dispatching platform; at least one supply mineral point corresponding to each demand manufacturer, and at least one demand manufacturer corresponding to each supply mineral point; according to the invention, each link of coal supply is organically scheduled through the scheduling platform, the driver end, the mine point end and the manufacturer end, so that the digital accurate matching of the required quantity with the supply of the mine points, the coal conveying quantity and the coal conveying vehicles, the quantity of the vehicles entering the factory, the type of the coal entering the factory and the quantity of the coal entering the factory is realized, the workload of workers is reduced, and the accuracy is improved.

Description

Coal-fired vehicle scheduling management system and method based on digital accurate matching
Technical Field
The invention relates to the technical field of vehicle scheduling management, in particular to a coal-fired vehicle scheduling management system and method based on digital accurate matching.
Background
The power plant needs continuous coal to ensure continuous production, which requires the power plant to maintain higher inventory or requires a coal supplier to transport the coal required the next day to the power plant every day; however, the high inventory increases the storage cost and risk of the power plant, the coal transportation in each day requires the manufacturer to actively contact the coal suppliers to determine coal feeding items, and since each manufacturer has at least one coal supplier and each coal supplier supplies at least one coal type, the manufacturer staff is required to manually and comprehensively coordinate the coal supply type and the coal supply amount of each coal supplier, so that the efficiency is low, errors are easy to occur, and the production of the power plant is influenced.
In order to solve the above problems, people are always seeking an ideal technical solution.
Disclosure of Invention
The invention aims to overcome the defects of the prior art, and provides a coal-fired vehicle dispatching management system and method based on digital accurate matching.
In order to achieve the purpose, the invention adopts the technical scheme that: a coal-fired vehicle dispatching management system based on digital accurate matching comprises a dispatching platform and a user side, wherein the user side comprises an operator side, a mine site side and a manufacturer side, the operator side, the mine site side and the manufacturer side are respectively in communication connection with the dispatching platform, and a corresponding relation table of a demand manufacturer and a supply mine site is prestored in the dispatching platform; at least one supply mineral point corresponding to each demand manufacturer, and at least one demand manufacturer corresponding to each supply mineral point;
the system comprises a manufacturer end, a dispatching platform and a monitoring system, wherein the manufacturer end is used for uploading a coal-fired demand plan and real-time coal-fired efficiency of a demand manufacturer to the dispatching platform, and the coal-fired demand plan comprises demand coal types and the demand quantity of each type of demand coal types;
a site end for performing the following operations: uploading a coal supply plan for supplying a mine point to the dispatching platform, wherein the coal supply plan comprises coal supply types and the coal supply amount of each type of coal supply type; obtaining a coal feeding plan related to a supply mine point from the dispatching platform, wherein the coal feeding plan comprises a supply mine point name, a coal feeding type and a coal feeding amount; a coal transportation plan is made according to the coal feeding plan and the mine vehicle information and uploaded to the dispatching platform, wherein the mine vehicle information comprises the total number of vehicles, the license plate number and the rated load capacity of each vehicle; the coal transporting plan comprises the number of planned vehicles, license plate number, coal transporting type and loading capacity of each vehicle;
the system comprises a driver terminal, a dispatching platform and a server terminal, wherein the driver terminal is used for sending the factory entering reservation information of the vehicles to the dispatching platform, and the factory entering reservation information comprises supply mine points, license plate numbers, coal types and carrying capacity;
the scheduling platform is used for executing the following operations: making a coal feeding plan according to the coal burning demand plan and the coal supply plan of the supply mining points corresponding to the demand factories; checking the reservation information of entering the factory according to the reservation information of entering the factory and the coal plan, acquiring the position information of the vehicle according to the license plate number after the reservation information of entering the factory passes the checking, distributing a corresponding queuing sequence number for the vehicle according to the transportation coal types of the vehicle when the vehicle enters the electronic fence area of the required factory, and pushing the queuing sequence number to the terminal of the driver, wherein each transportation coal type corresponds to one queuing sequence; and dynamically calculating the number of vehicles entering the plant, the type of coal entering the plant and the amount of coal entering the plant according to the coal inventory, the power generation load, the environmental protection emission and the operation index of the power plant in real time, and automatically calling the number.
Based on the above, the system further comprises a factory entrance guard mechanism located at the entrance of the requirement factory and a factory entrance guard mechanism located at the exit of the requirement factory, wherein the factory entrance guard mechanism and the factory entrance guard mechanism all comprise license plate recognition devices, and the factory entrance guard mechanism are connected with the dispatching platform.
Based on the above, the vehicle-mounted weighing system further comprises a first weighing device and a second weighing device, wherein the first weighing device and the second weighing device respectively comprise a wagon balance and a license plate recognition device; the first weighing device is arranged at an inlet of an unloading area of a demand manufacturer, and the second weighing device is arranged at an outlet of the unloading area of the demand manufacturer; the first weighing device and the second weighing device are connected with the dispatching platform.
A coal-fired vehicle dispatching management method based on the coal-fired vehicle dispatching management system comprises the following steps:
a demand factory uploads a fire coal demand plan to the dispatching platform through a factory end, wherein the fire coal demand plan comprises demand coal types and the demand of each type of demand coal types;
supplying a mine point and uploading a coal supply plan to the dispatching platform through the mine point end, wherein the coal supply plan comprises coal supply types and the coal supply amount of each type of coal supply type;
the scheduling platform makes a coal feeding plan according to a coal-fired demand plan and a coal supply plan of a supply mine point corresponding to a demand manufacturer, wherein the coal feeding plan comprises the name of the supply mine point, the type of coal fed and the amount of coal fed;
a coal feeding plan is obtained from the dispatching platform by a supplying mine point through a mine point end, a coal transporting plan is made according to mine point vehicle information and uploaded to the dispatching platform, and the mine point vehicle information comprises the total number of vehicles, the license plate number and the rated load capacity of each vehicle; the coal transporting plan comprises the number of planned vehicles, license plate number, coal transporting type and loading capacity of each vehicle;
a driver sends factory-entering reservation information to the dispatching platform through a driver terminal, wherein the factory-entering reservation information comprises supply mine points, license plate numbers, coal types and carrying capacity;
the scheduling platform management platform checks the reservation information of entering the factory according to the reservation information of entering the factory and the coal entering plan;
after the check of the reservation information of the factory entrance is passed, the dispatching platform judges whether the vehicle enters an electronic fence area of a demand factory or not according to the license plate number, if so, a queuing number is distributed to the vehicle according to the coal type corresponding to the vehicle, and the queuing number is pushed to the terminal of the driver;
the dispatching platform dynamically calculates the number of vehicles entering the plant, the type of coal entering the plant and the amount of coal entering the plant according to the coal inventory, the power generation load, the environmental protection emission and the operation indexes of the power plant on demand in real time, and calls the number automatically.
Based on the above, after the supply mining points acquire the coal feeding plans of the demand manufacturers, the coal feeding plans of each supply mining point are updated by combining the coal production plans of the supply mining points and the coal feeding plans of other demand manufacturers related to the supply mining points, and the coal feeding plans are uploaded to the dispatching platform.
Based on the above, if the demand manufacturer has the demand for number allocation according to the actual situation, the manufacturer end can access the management platform to adjust the existing reserved vehicle queuing number.
Based on the above, after the check of the reservation information of the entering factory is passed, the dispatching platform pushes a queuing signal at the door of the current required factory to the driver end APP so as to guide the driver to adjust the driving speed and time and provide a transportation route corresponding to the supply mine point;
in the running process of the vehicle, the dispatching platform acquires the position information of the vehicle from the Beidou/GPS positioning system in real time according to the license plate number to monitor the vehicle on the way, marks the vehicle as an abnormal vehicle when the deviation value of the position of the vehicle and the transportation route exceeds a preset distance threshold value or the parking time of the vehicle exceeds a preset time threshold value, and pushes the abnormal information to a manufacturer end, a driver end and a mining point end.
Compared with the prior art, the invention has outstanding substantive characteristics and remarkable progress, and particularly, the dispatching platform of the invention makes a coal feeding plan according to a coal burning plan of a demand manufacturer and a supply plan of a supply mine point, thereby realizing the digital accurate matching of the demand quantity and the supply mine point; the coal transporting plan is made by the supply mining points according to the coal feeding plan and the vehicle information, so that the digital accurate matching of the coal transporting quantity and the coal transporting vehicle is realized; the dispatching platform calls numbers according to the coal inventory, the power generation load, the environmental protection emission and the operation index of the power plant, so that the digital accurate matching of the number of vehicles entering the plant, the type of coal entering the plant and the amount of coal entering the plant is realized; the intelligent coordination and universalization of the coal supply type and the coal supply amount of each coal supplier are realized through the digital accurate matching of each link, and the workload of workers is reduced, and the mistakes are not easy to make.
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FIG. 1 is a schematic flow diagram of the present invention.
Detailed Description
The technical solution of the present invention is further described in detail by the following embodiments.
Example 1
A coal-fired vehicle dispatching management system based on digital accurate matching comprises a dispatching platform and a user side, wherein the user side comprises an operator side, a mine site side and a manufacturer side, the operator side, the mine site side and the manufacturer side are respectively in communication connection with the dispatching platform, and a corresponding relation table of a demand manufacturer and a supply mine site is prestored in the dispatching platform; at least one supply mineral point corresponding to each demand manufacturer, and at least one demand manufacturer corresponding to each supply mineral point;
the system comprises a manufacturer end, a dispatching platform and a monitoring system, wherein the manufacturer end is used for uploading a coal-fired demand plan and real-time coal-fired efficiency of a demand manufacturer to the dispatching platform, and the coal-fired demand plan comprises demand coal types and the demand quantity of each type of demand coal types;
a site end for performing the following operations: uploading a coal supply plan for supplying a mine point to the dispatching platform, wherein the coal supply plan comprises coal supply types and the coal supply amount of each type of coal supply type; obtaining a coal feeding plan related to a supply mine point from the dispatching platform, wherein the coal feeding plan comprises a supply mine point name, a coal feeding type and a coal feeding amount; a coal transportation plan is made according to the coal feeding plan and the mine vehicle information and uploaded to the dispatching platform, wherein the mine vehicle information comprises the total number of vehicles, the license plate number and the rated load capacity of each vehicle; the coal transporting plan comprises the number of planned vehicles, license plate number, coal transporting type and loading capacity of each vehicle;
the system comprises a driver terminal, a dispatching platform and a server terminal, wherein the driver terminal is used for sending the factory entering reservation information of the vehicles to the dispatching platform, and the factory entering reservation information comprises supply mine points, license plate numbers, coal types and carrying capacity;
the scheduling platform is used for executing the following operations: making a coal feeding plan according to the coal burning demand plan and the coal supply plan of the supply mining points corresponding to the demand factories; pushing a coal conveying plan to a driver end; checking the reservation information of entering the factory according to the reservation information of entering the factory and the coal plan, acquiring the position information of the vehicle according to the license plate number after the reservation information of entering the factory passes the checking, distributing a corresponding queuing sequence number for the vehicle according to the transportation coal types of the vehicle when the vehicle enters the electronic fence area of the required factory, and pushing the queuing sequence number to the terminal of the driver, wherein each transportation coal type corresponds to one queuing sequence; and dynamically calculating the number of vehicles entering the plant, the type of coal entering the plant and the amount of coal entering the plant according to the coal inventory, the power generation load, the environmental protection emission and the operation index of the power plant in real time, and automatically calling the number.
The dispatching platform of the invention makes a coal feeding plan according to the coal burning plan of a demand manufacturer and the supply plan of a supply mine point, thereby realizing the digital accurate matching of the demand quantity and the supply mine point; the coal transporting plan is made by the supply mining points according to the coal feeding plan and the vehicle information, so that the digital accurate matching of the coal transporting quantity and the coal transporting vehicle is realized; the dispatching platform calls numbers according to the coal inventory, the power generation load, the environmental-friendly emission and the operation indexes of the power plant, realizes the digital accurate matching of the quantity of vehicles entering the plant, the type of coal entering the plant and the quantity of coal entering the plant, realizes the intelligent coordination and overall arrangement of the coal supply type and the coal supply quantity of each coal supplier through the digital accurate matching of each link, and reduces the workload of workers and is not easy to make mistakes.
Specifically, the coal-fired vehicle dispatching management system further comprises a factory entrance guard mechanism located at an entrance of a demand factory and a factory entrance guard mechanism located at an exit of the demand factory, the factory entrance guard mechanism and the factory entrance guard mechanism all comprise license plate recognition devices, and the factory entrance guard mechanism are connected with the dispatching platform.
Specifically, the coal-fired vehicle dispatching management system further comprises a first weighing device and a second weighing device, wherein the first weighing device and the second weighing device respectively comprise a wagon balance and a license plate recognition device; the first weighing device is arranged at an inlet of an unloading area of a demand manufacturer, and the second weighing device is arranged at an outlet of the unloading area of the demand manufacturer; the first weighing device and the second weighing device are connected with the dispatching platform.
Example 2
A coal-fired vehicle dispatching management method of a coal-fired vehicle dispatching management system, as shown in fig. 1, comprising the steps of:
a demand factory uploads a fire coal demand plan to the dispatching platform through a factory end, wherein the fire coal demand plan comprises demand coal types and the demand of each type of demand coal types;
supplying a mine point and uploading a coal supply plan to the dispatching platform through the mine point end, wherein the coal supply plan comprises coal supply types and the coal supply amount of each type of coal supply type;
the scheduling platform makes a coal feeding plan according to a coal-fired demand plan and a coal supply plan of a supply mine point corresponding to a demand manufacturer, wherein the coal feeding plan comprises the name of the supply mine point, the type of coal fed and the amount of coal fed;
a coal supply point obtains the coal feeding plan from the scheduling platform through a mine point end, and a coal transporting plan is made according to mine point vehicle information and uploaded to the scheduling platform, and the coal transporting plan is pushed to a driver end by the scheduling platform; the mining site vehicle information comprises the total number of vehicles, the license plate number and the rated load capacity of each vehicle; the coal transporting plan comprises the number of planned vehicles, license plate number, coal transporting type and loading capacity of each vehicle;
a driver sends factory-entering reservation information to the dispatching platform through a driver terminal, wherein the factory-entering reservation information comprises supply mine points, license plate numbers, coal types and carrying capacity;
the scheduling platform management platform checks the reservation information of entering the factory according to the reservation information of entering the factory and the coal entering plan;
after the check of the reservation information of the factory entrance is passed, the dispatching platform judges whether the vehicle enters an electronic fence area of a demand factory or not according to the license plate number, if so, a queuing number is distributed to the vehicle according to the coal type corresponding to the vehicle, and the queuing number is pushed to the terminal of the driver;
the dispatching platform dynamically calculates the number of vehicles entering the plant, the type of coal entering the plant and the amount of coal entering the plant according to the coal inventory, the power generation load, the environmental protection emission and the operation indexes of the power plant on demand in real time, and calls the number automatically.
If the demand manufacturer has the demand of number allocation according to the actual situation, the manufacturer end can access the management platform to adjust the queuing number of the existing reserved vehicles, the temporary sudden situation of the factory area should be dealt with, and the flexible operation capacity of the factory area is improved.
It can be understood that after the supply site obtains the coal intake plan of the demand manufacturer, the coal supply plan of each supply site is updated and uploaded to the dispatching platform by combining the coal production plan of the supply site and the coal intake plans of other demand manufacturers related to the supply site. Taking the first supply mine point as an example, if the first supply mine point has a supply relationship with the first, second and third demand manufacturers and the first supply mine point receives the coal feeding plan of the first demand manufacturer, after the first supply mine point obtains the coal feeding plan of the second demand manufacturer, the coal feeding plan of the supply mine point is updated by combining the coal production plan of the supply mine point and the coal feeding plan of the first demand manufacturer and is uploaded to the dispatching platform, so that the dispatching platform can make the coal feeding plan of the third demand manufacturer.
Specifically, a first weighing device is arranged at an inlet of an unloading area in a demand manufacturer, a second weighing device is arranged at an outlet of the unloading area of the demand manufacturer, and the first weighing device and the second weighing device respectively comprise a wagon balance and a license plate recognition device; the first weighing device and the second weighing device are connected with the second weighing device through the dispatching platform, the dispatching platform calculates the actual load capacity corresponding to the license plate according to the license plate number and the weight difference uploaded by the first weighing device and the second weighing device, compares the actual load capacity with the reserved load capacity corresponding to the license plate number, pushes alarm information to a manufacturer end, a driver end and a supply mine point end if the actual load capacity and the reserved load capacity are not consistent, and negotiates by the manufacturer end, the supply mine point end and the driver end to perform subsequent processing and compensation; if the number plate number is consistent with the number plate number, the actual coal supply quantity of the corresponding coal supply type of the supply mining point to which the number plate number belongs is accumulated.
Specifically, a factory entrance guard mechanism and a factory exit guard mechanism are respectively arranged at an entrance and an exit of a demand factory, the factory entrance guard mechanism and the factory exit guard mechanism both comprise license plate recognition devices, and the factory entrance guard mechanism and the factory exit guard mechanism are both connected with the dispatching platform;
when vehicles enter a factory, the factory entrance guard mechanism identifies license plate numbers of the vehicles entering the factory, judges whether the queuing serial numbers corresponding to the vehicles entering the factory belong to called queuing serial numbers according to the license plate numbers of the vehicles entering the factory, further judges whether the called queuing serial numbers are still in the valid period if the called queuing serial numbers belong to the called queuing serial numbers, releases the vehicles if the called queuing serial numbers are still in the valid period, and simultaneously adds 1 to the number of the vehicles entering the factory corresponding to the vehicles in the coal type by the dispatching platform and subtracts 1 from the number of the remaining vehicles entering the factory in the coal type; otherwise, the release is not performed;
the step of judging whether the sequence number of the called queuing is still in the validity period specifically comprises the following steps: calculating a time difference value between the current time and the called number of the queuing serial number, judging whether the time difference is smaller than a preset time threshold, if so, judging that the called queuing serial number is still in the valid period, otherwise, judging that the called queuing serial number is not in the valid period;
when the vehicle leaves the factory, the factory entrance guard mechanism identifies the factory vehicle and releases the factory vehicle when the factory vehicle belongs to the factory entering vehicle.
Furthermore, after the check of the reservation information of the entering factory is passed, the dispatching platform pushes a queuing signal at the door of the current required factory to the driver end APP so as to guide the driver to adjust the driving speed and time and provide a transportation route corresponding to the supply mine point;
in the running process of the vehicle, the dispatching platform acquires the position information of the vehicle from the Beidou/GPS positioning system in real time according to the license plate number to monitor the vehicle on the way, marks the vehicle as an abnormal vehicle when the deviation value of the position of the vehicle and the transportation route exceeds a preset distance threshold value or the parking time of the vehicle exceeds a preset time threshold value, and pushes abnormal information to a manufacturer end, a driver end and a mine point end so as to supply the requirement manufacturer, the driver and a supply mine point to solve the abnormal condition in time.
It can be understood that the transportation condition of the vehicle can be known in time through the on-road monitoring of the vehicle, and the occurrence of supply delay or default in the emergency of the vehicle can be avoided.
Finally, it should be noted that the above examples are only used to illustrate the technical solutions of the present invention and not to limit the same; although the present invention has been described in detail with reference to preferred embodiments, those skilled in the art will understand that: modifications to the specific embodiments of the invention or equivalent substitutions for parts of the technical features may be made; without departing from the spirit of the present invention, it is intended to cover all aspects of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a coal-fired vehicle scheduling management system based on accurate matching of digitization which characterized in that: the system comprises a dispatching platform and a user side, wherein the user side comprises an operator side, a mineral point side and a manufacturer side, the operator side, the mineral point side and the manufacturer side are respectively in communication connection with the dispatching platform, and a corresponding relation table of a demand manufacturer and a supply mineral point is prestored in the dispatching platform; at least one supply mineral point corresponding to each demand manufacturer, and at least one demand manufacturer corresponding to each supply mineral point;
the system comprises a manufacturer end, a dispatching platform and a monitoring system, wherein the manufacturer end is used for uploading a coal-fired demand plan and real-time coal-fired efficiency of a demand manufacturer to the dispatching platform, and the coal-fired demand plan comprises demand coal types and the demand quantity of each type of demand coal types;
a site end for performing the following operations: uploading a coal supply plan for supplying a mine point to the dispatching platform, wherein the coal supply plan comprises coal supply types and the coal supply amount of each type of coal supply type; obtaining a coal feeding plan related to a supply mine point from the dispatching platform, wherein the coal feeding plan comprises a supply mine point name, a coal feeding type and a coal feeding amount; a coal transportation plan is made according to the coal feeding plan and the mine vehicle information and uploaded to the dispatching platform, wherein the mine vehicle information comprises the total number of vehicles, the license plate number and the rated load capacity of each vehicle; the coal transporting plan comprises the number of planned vehicles, license plate number, coal transporting type and loading capacity of each vehicle;
the system comprises a driver terminal, a dispatching platform and a server terminal, wherein the driver terminal is used for sending the factory entering reservation information of the vehicles to the dispatching platform, and the factory entering reservation information comprises supply mine points, license plate numbers, coal types and carrying capacity;
the scheduling platform is used for executing the following operations: making a coal feeding plan according to the coal burning demand plan and the coal supply plan of the supply mining points corresponding to the demand factories; pushing a coal conveying plan to a driver end; checking the reservation information of entering the factory according to the reservation information of entering the factory and the coal plan, acquiring the position information of the vehicle according to the license plate number after the reservation information of entering the factory passes the checking, distributing a corresponding queuing sequence number for the vehicle according to the transportation coal types of the vehicle when the vehicle enters the electronic fence area of the required factory, and pushing the queuing sequence number to the terminal of the driver, wherein each transportation coal type corresponds to one queuing sequence; and dynamically calculating the number of vehicles entering the plant, the type of coal entering the plant and the amount of coal entering the plant according to the coal inventory, the power generation load, the environmental protection emission and the operation index of the power plant in real time, and automatically calling the number.
2. The coal-fired vehicle dispatching management system based on accurate matching of digitization according to claim 1, characterized in that: the system comprises a dispatching platform, a factory entrance guard mechanism and a factory entrance guard mechanism, wherein the factory entrance guard mechanism is positioned at an entrance of a requirement factory, the factory entrance guard mechanism is positioned at an exit of the requirement factory, the factory entrance guard mechanism and the factory entrance guard mechanism are positioned at an exit of the requirement factory, the factory entrance guard mechanism and the factory entrance guard mechanism all comprise license plate recognition devices, and the factory entrance guard mechanism are connected with the dispatching platform.
3. The coal-fired vehicle dispatching management system based on accurate matching of digitization according to claim 1, characterized in that: the weighing device comprises a first weighing device and a second weighing device, wherein the first weighing device and the second weighing device respectively comprise a wagon balance and a license plate recognition device; the first weighing device is arranged at an inlet of an unloading area of a demand manufacturer, and the second weighing device is arranged at an outlet of the unloading area of the demand manufacturer; the first weighing device and the second weighing device are connected with the dispatching platform.
4. The coal-fired vehicle dispatching management system based on accurate matching of digitization according to claim 1, characterized in that: the system further comprises a display arranged at the door of the required factory area, and the display is connected with the scheduling server and used for displaying the vehicle information in the queue.
5. A coal-fired vehicle scheduling management method based on the coal-fired vehicle scheduling management system according to any one of claims 1 to 4, characterized in that:
a demand factory uploads a fire coal demand plan to the dispatching platform through a factory end, wherein the fire coal demand plan comprises demand coal types and the demand of each type of demand coal types;
supplying a mine point and uploading a coal supply plan to the dispatching platform through the mine point end, wherein the coal supply plan comprises coal supply types and the coal supply amount of each type of coal supply type;
the scheduling platform makes a coal feeding plan according to a coal-fired demand plan and a coal supply plan of a supply mine point corresponding to a demand manufacturer, wherein the coal feeding plan comprises the name of the supply mine point, the type of coal fed and the amount of coal fed;
a coal supply point obtains the coal feeding plan from the scheduling platform through a mine point end, and a coal transporting plan is made according to mine point vehicle information and uploaded to the scheduling platform, and the coal transporting plan is pushed to a driver end by the scheduling platform; the mining site vehicle information comprises the total number of vehicles, the license plate number and the rated load capacity of each vehicle; the coal transporting plan comprises the number of planned vehicles, license plate number, coal transporting type and loading capacity of each vehicle;
a driver sends factory-entering reservation information to the dispatching platform through a driver terminal, wherein the factory-entering reservation information comprises supply mine points, license plate numbers, coal types and carrying capacity;
the scheduling platform management platform checks the reservation information of entering the factory according to the reservation information of entering the factory and the coal entering plan;
after the check of the reservation information of the factory entrance is passed, the dispatching platform judges whether the vehicle enters an electronic fence area of a demand factory or not according to the license plate number, if so, a queuing number is distributed to the vehicle according to the coal type corresponding to the vehicle, and the queuing number is pushed to the terminal of the driver;
the dispatching platform dynamically calculates the number of vehicles entering the plant, the type of coal entering the plant and the amount of coal entering the plant according to the coal inventory, the power generation load, the environmental protection emission and the operation indexes of the power plant on demand in real time, and calls the number automatically.
6. The coal-fired vehicle schedule management method according to claim 5, characterized in that: and after the supply mining points acquire the coal feeding plans of the demand manufacturers, updating the coal feeding plan of each supply mining point by combining the coal production plan of the supply mining points and the coal feeding plans of other demand manufacturers related to the supply mining points, and uploading the updated coal feeding plans to the dispatching platform.
7. The coal-fired vehicle schedule management method according to claim 5, characterized in that: if the demand manufacturer has the demand of number allocation according to the actual situation, the manufacturer end can access the management platform to adjust the existing reserved vehicle queuing serial number.
8. The coal-fired vehicle schedule management method according to claim 5, characterized in that: a first weighing device is arranged at an inlet of an unloading area in a requirement factory, a second weighing device is arranged at an outlet of the unloading area of the requirement factory, and the first weighing device and the second weighing device respectively comprise a wagon balance and a license plate recognition device; the first weighing device and the second weighing device are both connected with the scheduling platform, the scheduling platform calculates the actual load capacity corresponding to the license plate number according to the license plate number and the weight difference uploaded by the first weighing device and the second weighing device, compares the actual load capacity with the reserved load capacity corresponding to the license plate number, and pushes alarm information to a manufacturer end, a driver end and a supply mine point end if the actual load capacity and the reserved load capacity are not consistent; if the number plate number is consistent with the number plate number, the actual coal supply quantity of the corresponding coal supply type of the supply mining point to which the number plate number belongs is accumulated.
9. The coal-fired vehicle schedule management method according to claim 5, characterized in that: the factory entrance guard mechanism and the factory exit guard mechanism are respectively provided with a factory entrance guard mechanism and a factory exit guard mechanism, the factory entrance guard mechanism and the factory exit guard mechanism respectively comprise license plate recognition devices, and the factory entrance guard mechanism and the factory exit guard mechanism are both connected with the dispatching platform;
when vehicles enter a factory, the factory entrance guard mechanism identifies license plate numbers of the vehicles entering the factory, judges whether the queuing serial numbers corresponding to the vehicles entering the factory belong to called queuing serial numbers according to the license plate numbers of the vehicles entering the factory, further judges whether the called queuing serial numbers are still in the valid period if the called queuing serial numbers belong to the called queuing serial numbers, releases the vehicles if the called queuing serial numbers are still in the valid period, and simultaneously adds 1 to the number of the vehicles entering the factory corresponding to the vehicles in the coal type by the dispatching platform and subtracts 1 from the number of the remaining vehicles entering the factory in the coal type; otherwise, the release is not performed;
when the vehicle leaves the factory, the factory entrance guard mechanism identifies the factory vehicle and releases the factory vehicle when the factory vehicle belongs to the factory entering vehicle.
10. The coal-fired vehicle schedule management method according to claim 5, characterized in that: after the check of the reservation information of the entering factory is passed, the dispatching platform pushes a queuing signal at the door of the current demand factory to the driver end APP so as to guide the driver to adjust the driving speed and time and give a transportation route corresponding to the supply mine point;
in the running process of the vehicle, the dispatching platform acquires the position information of the vehicle from the Beidou/GPS positioning system in real time according to the license plate number to monitor the vehicle on the way, marks the vehicle as an abnormal vehicle when the deviation value of the position of the vehicle and the transportation route exceeds a preset distance threshold value or the parking time of the vehicle exceeds a preset time threshold value, and pushes the abnormal information to a manufacturer end, a driver end and a mining point end.
CN201911379839.XA 2019-12-27 2019-12-27 Coal-fired vehicle scheduling management system and method based on digital accurate matching Pending CN111160589A (en)

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Application publication date: 20200515