CN-122022616-A - Intelligent control method, system, equipment and medium for coal logistics information

Abstract

The invention provides an intelligent management and control method, a system, equipment and a medium for coal logistics information, which belong to the technical field of coal logistics management, wherein coal logistics is managed through a full-flow data closed loop, real-time data acquisition of links such as ore point delivery, on-transit transportation, port receiving and unloading, shipment delivery and the like is covered, delivery right transfer is automatically touched based on contract terms, an out-of-warehouse entry is generated, inventory is dynamically updated by combining shipping data, a coal blending scheme is optimized by utilizing quality and inventory data, multi-scene scheduling of gas transportation, iron transportation and shipping is cooperated, rollback correction of inventory and bill state is executed in abnormal conditions, settlement price is completed and synchronized to ERP (Enterprise resource planning) to realize financial posting, and end-to-end service traceability is finally realized. And the automatic settlement period shortening of the goods right transfer is realized, the account consistency is improved by real-time inventory updating, the supply chain toughness is enhanced by multi-scene cooperation, the abnormal rollback guarantee data can be traced, and the logistics efficiency is integrally improved.

Inventors

• ZHANG YUQIANG
• QI GUANGPENG
• TIAN MING
• WAN LILI

Assignees

• 浪潮云洲工业互联网有限公司

Dates

Publication Date

20260512

Application Date

20251211

Claims (10)

1. 1. The intelligent control method for the coal logistics information is characterized by comprising the following steps: S101, collecting coal logistics whole flow data; s102, generating an in-out ticket among a production unit, a sales company and a client based on the acquired data and predefined contract terms so as to realize the transfer of the goods right; S103, updating the stock according to the generated in-out warehouse bill and the acquired shipping delivery data, including pre-buckling the stock after shipping and adjusting the stock balance after the water gauge is input; s104, calculating an optimal coal blending scheme based on updated real-time inventory and coal quality data, wherein the coal quality data comprises a heat value and sulfur content; S105, cooperatively processing a multi-transportation scene according to the acquired in-transit data and the generated in-out warehouse entry; S106, when the shipping abnormality is detected, executing rollback operation to correct the stock state and the receipt state based on the generated in-out stock list and the updated real-time stock; s107, associating the acquired shipping delivery data with the purchase order and the sales order, and synchronizing the completion settlement price to an ERP system to realize financial posting; s108, based on the collected whole flow data and the generated warehouse entry and exit list, realizing end-to-end service tracing from mining site purchasing to customer delivery.
2. 2. The intelligent control method for coal logistics information according to claim 1, wherein, S102 specifically comprises the following steps: Analyzing predefined contract clauses, extracting cargo right transfer triggering conditions, relating to main bodies and cargo identification information, and storing the cargo right transfer triggering conditions and the cargo right transfer triggering conditions into a contract information table; Matching the shipping identification in the shipping delivery data acquired in the step S101 with the cargo identification in the contract information table, and associating corresponding contract clauses; acquiring shipping operation state information in real time, and triggering cargo right transfer condition verification when a shipping completion signal is detected; Based on contract clauses passing the verification, extracting the information of the quantity of cargoes and the coal types from the acquired shipping delivery data, calling a built-in warehouse entry and exit bill template of the system, and generating a warehouse entry bill from a production unit to a sales company, a warehouse entry bill from the sales company to a client and a corresponding warehouse entry bill; synchronizing the generated input and output warehouse-in bill to an ERP system, and recording the bill generation time, the associated contract number and the state in a log.
3. 3. The intelligent control method for coal logistics information according to claim 1, wherein, S103 specifically comprises the following steps: Establishing an inventory data warehouse, performing data interaction with a shipping module, a port module and a shipping delivery module, acquiring shipping data and water gauge data, establishing a data communication link with an ERP system, and ensuring real-time interaction of inventory data; when shipping, acquiring the quantity information of shipping coal in real time, deducting the corresponding quantity of coal from the current inventory data according to a preset inventory pre-deduction rule to form a pre-deduction inventory record, storing the record in an inventory data warehouse, and sending a notification of the pre-deduction inventory to an ERP system; Setting a water gauge data input module, calling a water gauge calculation program to calculate the actual shipping coal quantity according to the draft parameters of the ship after the water gauge data is input through the water gauge data input module, and comparing the actual shipping coal quantity with the pre-deducted inventory quantity to obtain an inventory difference, and updating the inventory difference into an inventory data warehouse in real time; Synchronizing the updated inventory data to an ERP system in real time to ensure that the inventory information in the ERP system is consistent with the actual coal inventory state; And carrying out backup storage on the data in the inventory data warehouse.
4. 4. The intelligent control method for coal logistics information according to claim 1, wherein, S104 specifically comprises the following steps: Mapping each coal information in the real-time inventory data updated in the step S103 with coal quality data one by one through a coal type coding field to form a real-time inventory data set; extracting target constraint conditions of coal blending from a predefined contract term library and customer order data; Based on a real-time inventory data set with quality attributes, enumerating all coal types meeting the total quantity according to the total quantity requirement of coal blending; Calculating a weighted average heat value based on the sum of the heat value x the number of the respective coal types, calculating a weighted average sulfur content based on the sum of the sulfur content x the number of the respective coal types, and calculating a combined total purchase cost based on the sum of the purchase value x the number of the respective coal types for each combination in the candidate combination list; Filtering the combinations which do not meet the constraint in the candidate combinations, sorting the rest combinations according to the lowest cost, and selecting the optimal combinations to output to the port coal blending operation system and the customer order system.
5. 5. The intelligent control method for coal logistics information according to claim 1, wherein, S105 specifically comprises the following steps: Based on the on-transit transportation data acquired in the step S101, respectively storing the railway transportation information, the steam transportation information and the shipping information into corresponding data sub-tables by identifying the transportation type field, and associating order numbers; Aiming at a steam-operated scene, calling a car networking platform interface to acquire a vehicle identification code and driver information, matching the vehicle identification code and the driver information with customer information and a pick-up address in an access ticket generated in the step S102, generating a release instruction after a self-lifting scene verifies the self-lifting certificate, calculating an optimal route in a distribution scene, and pushing the optimal route to a driver mobile terminal; aiming at a railway scene, identifying the departure, arrival and cargo weight information in a railway ticket through an OCR technology, associating with the order number and the coal type in the departure and arrival ticket, merging multiple orders into a transportation batch according to a preset rule, generating a transportation plan and synchronizing the transportation plan to a railway dispatching system; aiming at a shipping scene, a ship position and expected arrival time are acquired by a ship docking communication network interface, and are associated with a ship name and a ship loading schedule in ship loading delivery data, a ship tracking billboard is generated, forecast information is pushed to a moving end of a port operator, and cargo information is confirmed by an associated entry-exit list; and integrating the data sub-tables and the entry and exit list information of the air transportation, the railway transportation and the shipping, triggering the capacity supplement prompt when the capacity delay is detected, and recording the dispatching adjustment log.
6. 6. The intelligent control method for coal logistics information according to claim 1, wherein, S106 specifically comprises the following steps: Detecting an abnormal event from the shipping delivery data acquired in the step S101 and the real-time inventory adjustment data in the step S103 through an abnormal judgment rule comprising a ship dynamic delay time threshold, a water gauge input quantity difference threshold and a coal quality index exceeding threshold, and marking an abnormal type; Based on the event ID carried by the abnormal event, searching a database through key value association, and positioning to the corresponding out-in warehouse entry generated in S102 and the real-time inventory account associated in S103; calling a preset rollback policy template in a policy engine according to the identified abnormal type to generate a corresponding rollback action instruction; According to the generated rollback action instruction, an inventory adjustment interface of an inventory data warehouse is called, the number of the pre-deducted accounts of the shipper is reversely restored according to the difference value, and the inventory state is updated; Based on a rollback strategy, switching the states of an input and output bill and related bills through a bill state machine, changing the generated effective input bill into a rollback bill, or canceling an unfinished coal blending job bill, and ensuring that the bill state is consistent with the corrected inventory state; And feeding back the result of the rollback operation to a sales company business system or related personnel, and recording detailed information of the rollback event in a log database.
7. 7. The intelligent control method for coal logistics information according to claim 1, wherein, S107 specifically comprises the following steps: Acquiring shipment delivery data from a shipment operating system interface; Extracting a purchase order and a sales order from a business order database; Associating, by an order matching engine, the shipment delivery data with a purchase order and a sales order, wherein the associating is based on an order number, a cargo lot number, and a shipment voyage identifier; Calculating a settlement price according to price terms and actual shipping weight through a settlement calculation module based on the correlation result; and synchronizing the calculated settlement price data to an ERP system, and executing the posting operation in the ERP system.
8. 8. An intelligent control system for coal logistics information, which is characterized in that the system is used for realizing the intelligent control method for the coal logistics information according to any one of claims 1 to 7; the system comprises: the data acquisition and integration module is used for acquiring the whole flow data of the coal logistics; the warehouse-in and warehouse-out generation transfer module is used for generating a warehouse-in and warehouse-out list among a production unit, a sales company and a client based on the collected data and predefined contract clauses so as to realize the transfer of goods right; The inventory updating synchronization module is used for updating the inventory according to the generated in-out inventory list and the acquired shipping delivery data, and comprises pre-buckling the inventory after shipping and adjusting the inventory difference after the water gauge is input; The optimal coal blending calculation module is used for calculating an optimal coal blending scheme based on updated real-time inventory and coal quality data, wherein the coal quality data comprises a heat value and sulfur content; the transportation scene coordination module is used for cooperatively processing multiple transportation scenes according to the acquired in-transit transportation data and the generated in-out warehouse entry bill; The shipping rollback processing module is used for executing rollback operation to correct the stock state and the receipt state based on the generated in-out stock list and the updated real-time stock when the shipping abnormality is detected; The settlement price posting module is used for associating the acquired shipping delivery data with the purchase order and the sales order, and synchronizing the completion settlement price to the ERP system to realize financial posting; and the service tracing module is used for realizing end-to-end service tracing from mining site purchasing to customer delivery based on the collected full-flow data and the generated warehouse entry and exit list.
9. 9. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor performs the steps of the intelligent coal logistics information management method of any one of claims 1 to 7 when the program is executed.
10. 10. A storage medium having stored thereon a computer program which when executed by a processor performs the steps of the intelligent coal logistics information management method of any one of claims 1 to 7.

Description

Intelligent control method, system, equipment and medium for coal logistics information Technical Field The invention belongs to the technical field of coal logistics management, and particularly relates to an intelligent management and control method, system, equipment and medium for coal logistics information. Background The coal logistics industry is a key link in the energy supply chain, and is responsible for transporting coal from a production place to a consumption place. The industry has the characteristics of long chain, multiple links, complex participants and various transportation modes. Such as coal mines, gas or rail, ports, shipping, marine, customer terminals, power plants, steel plants, etc. In a coal logistics management system, the overall process of coal delivery from a mine site to a customer involves multiple participants and complex links, including production units, transportation companies, ports, ships, sales companies, and end customers. In the related art, coal blending is matched with the stock coal types according to the client demands, and high-quality coal is excessively used in the process of blending, for example, 5800 large-calorie coal is used for meeting 5500 large-calorie demands, so that high-value resources are wasted, and the quality of the blended coal is not up to standard in the later period. If the stock of a certain coal is too much, the coal is still blended according to the original proportion, so that the coal is insufficient in the subsequent shipment, and the shipment progress is delayed. In addition, data anomalies often occur in the shipping process, such as short shipping quantity, unqualified coal quality, temporary ship alteration of port, and the like, which easily lead to a chaotic state of stock and bill states, such as reduced shipping quantity, pre-buckled stock but not corrected, and bill still displays the original planning quantity, so that subsequent sales orders are issued according to wrong stock data, and the problem of overdriving is caused. The related technology of gas transportation, iron transportation and shipping belongs to different transportation modes, and generally needs to be processed independently, the gas transportation needs to distinguish self-lifting orders and distribution orders, the iron transportation needs to combine batches, and the shipping needs to track the ship dynamics. If the shipping ship does not arrive at the port in time after the shipping coal arrives at the port, the port temporary storage needs to be coordinated, and if the temporary storage information is not synchronized to the steam transportation link, no stock position exists after the steam transportation coal arrives at the port, so that congestion is caused. Conversely, arrival of a ship at the port but not arrival of iron-carrying coal can result in a ship harbor. Disclosure of Invention The invention provides an intelligent management and control method for coal logistics information, which realizes automatic collection of full-flow data, automatic transfer of goods right, dynamic update of stock, intelligent coal blending, cooperation of multiple transportation scenes, abnormal automatic rollback, settlement synchronization and end-to-end service tracing, and improves accuracy of coal logistics. The method comprises the following steps: S101, collecting coal logistics whole flow data; s102, generating an in-out ticket among a production unit, a sales company and a client based on the acquired data and predefined contract terms so as to realize the transfer of the goods right; S103, updating the stock according to the generated in-out warehouse bill and the acquired shipping delivery data, including pre-buckling the stock after shipping and adjusting the stock balance after the water gauge is input; s104, calculating an optimal coal blending scheme based on updated real-time inventory and coal quality data, wherein the coal quality data comprises a heat value and sulfur content; S105, cooperatively processing a multi-transportation scene according to the acquired in-transit data and the generated in-out warehouse entry; S106, when the shipping abnormality is detected, executing rollback operation to correct the stock state and the receipt state based on the generated in-out stock list and the updated real-time stock; s107, associating the acquired shipping delivery data with the purchase order and the sales order, and synchronizing the completion settlement price to an ERP system to realize financial posting; s108, based on the collected whole flow data and the generated warehouse entry and exit list, realizing end-to-end service tracing from mining site purchasing to customer delivery. Preferably, S102 specifically includes the following steps: Analyzing predefined contract clauses, extracting cargo right transfer triggering conditions, relating to main bodies and cargo identification information, and storing the cargo right transfer triggerin