CN114219570A - Online and offline combined steel waste and defective material full-process management system - Google Patents

Abstract

The invention relates to an online and offline combined steel waste and secondary material full-process management system, which comprises: the purchase management module is used for performing online and offline combined collaborative data interaction with a resource side to generate order information; the sorting and processing management module is used for carrying out online and offline combined sorting and processing on the steel products corresponding to the order information to obtain waste and secondary material information; the sales management module is used for generating corresponding bidding information and transaction information according to the waste secondary material information; and the block chain tracing module is used for receiving and storing the order information, the waste timber information, the bidding information and the transaction information by adopting a block chain technology. Compared with the prior art, the method has the advantages of high feasibility, effective improvement of working efficiency and the like.

Description

Online and offline combined steel waste and defective material full-process management system

Technical Field

The invention belongs to the technical field of internet operation management, relates to a steel data management system, and particularly relates to an online and offline combined steel waste and defective material all-growth-cycle management system.

Background

The gradient utilization of the steel waste and inferior materials is beneficial to realizing the utilization value of the waste and inferior materials to the maximum, and compared with the mode that the steel waste and inferior materials are directly recycled as scrap steel for smelting, the iron ore and the energy consumption can be greatly reduced. Sorting of steel scrap is typically accomplished by downstream intermediate merchants or end buyer users. The management links involved in the whole process from the initial purchasing of waste and defective materials to the final sale of production units such as iron and steel enterprises are more, but at present, a single operation management mode is generally adopted, the products are mainly sorted, sold and the like manually, the sale and the management are separated, time and labor are consumed, disputes are easily caused in the whole process, in addition, the labor cost is increased, the sale level of the products is influenced, and certain limitations exist in the actual operation. At present, no mature full-flow and high-efficiency management method exists.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide an online-offline combined steel waste and secondary material full-process management system which is high in feasibility and can effectively improve the working efficiency.

The purpose of the invention can be realized by the following technical scheme:

an online-offline combined steel waste secondary material full-process management system comprises:

the purchase management module is used for performing online and offline combined collaborative data interaction with a resource side to generate order information;

the sorting and processing management module is used for carrying out online and offline combined sorting and processing on the steel products corresponding to the order information to obtain waste and secondary material information;

the sales management module is used for generating corresponding bidding information and transaction information according to the waste secondary material information;

and the block chain tracing module is used for receiving and storing the order information, the waste timber information, the bidding information and the transaction information by adopting a block chain technology.

Further, the collaborative data interaction comprises purchase order data interaction, purchase contract data interaction, purchase warehousing data interaction and purchase settlement data interaction.

Further, the procurement management module comprises:

and the purchase contract management unit is used for generating a purchase contract based on the checked purchase order and realizing contract online signature based on the received verification information.

Furthermore, the sorting and processing management module is connected with the warehouse management module, the steel product information stored in the warehouse management module is called, a mechanical instruction is generated based on the steel product information, sorting and processing are achieved, and the waste and inferior material information is generated based on the steel product information and a sorting and processing result.

Further, the steel product information includes stacking coordinates and an original bundle number.

Further, the scrap secondary information is associated with the original bale number.

Further, the sorting processing treatment comprises the steps of waste secondary material appearance observation, waste secondary material component detection, classification and/or finished product processing.

Furthermore, the detection of the components of the waste defective materials is realized through a handheld spectrometer, a detection program is stored in the handheld spectrometer, and when the detection program is called, the components of the waste defective materials are identified through a spectral intensity and pre-trained spectral intensity type relation model.

Further, the sales management module includes:

and the bidding information accurate pushing unit is used for acquiring user operation information, forming a labeling model of each user access behavior habit and consumption behavior habit by utilizing big data and artificial intelligence technology, and pushing corresponding bidding information based on the labeling model.

Further, the transaction information is generated after the corresponding bidding information is processed, and includes sales contract information, ex-warehouse operation information, logistics information and sales settlement information.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention combines the internet technology with the off-line sorting processing technology and the management method, has high feasibility, can improve the sorting processing quality of the waste and inferior materials on the one hand, greatly reduces the labor cost on the other hand, and improves the scientific disposal efficiency of the waste and inferior materials to the greatest extent.

2. The waste and secondary material information is associated with the original bale number, so that the original product information is conveniently searched, and the product traceability is improved.

3. The sales management module provided by the invention is provided with a precise bidding information pushing unit, and can push the most suitable bidding information to the user according to the operation behavior of the user, thereby effectively improving the user experience.

4. The invention accurately detects the alloy components of the waste and defective materials by introducing the handheld spectrometer, and quickly identifies and classifies the alloy components by combining big data and a machine learning technology, thereby improving the accuracy and the scientificity of the sorting.

5. According to the invention, by introducing a block chain technology, the key information in the process is stored and verified, the source and the destination of each batch of waste and inferior wood can be traced, and the risk of operation and management is reduced.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Detailed Description

The invention is described in detail below with reference to the figures and specific embodiments. The present embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.

As shown in fig. 1, the embodiment provides an online-offline combined steel scrap full-process management system, which is deployed in an e-commerce platform of a cyclic resource, and includes a purchase management module 1, a sorting and processing management module 2, a sales management module 3, and a block chain traceability module 4, where the purchase management module 1 is configured to perform online-offline combined collaborative data interaction with a resource side to generate order information; the sorting and processing management module 2 is used for carrying out online and offline combined sorting and processing on the steel products corresponding to the order information to obtain waste and secondary material information; the sales management module 3 is used for generating corresponding bidding information and transaction information according to the waste secondary material information; the block chain traceability module 4 is configured to receive and store the order information, the waste lumber information, the bidding information, and the transaction information by using a block chain technology.

The purchasing management module 1 performs online and offline cooperative management on information flow, fund flow and logistics in the purchasing process, and the cooperative data interaction comprises purchasing order data interaction, purchasing contract data interaction, purchasing warehousing data interaction and purchasing settlement data interaction. The information in the purchase order includes, but is not limited to: seller name, buyer name, name of inferior waste, bundle number, weight, unit price, quantity, total amount, mode of transportation, time of shipment, time of receipt, place of shipment, place of receipt, contract status, settlement status. Information for the purchase contract includes, but is not limited to: name of both parties, sale content, settlement date and settlement mode. The process of purchasing and warehousing comprises weighing the weighbridge, manually checking goods, intelligently distributing stacking fields, mechanically dispatching and uploading warehousing information, wherein the warehousing information comprises a bundle number, stacking coordinates, warehousing time, warehousing weight, an associated order number and an associated contract number. The purchase settlement data comprises purchase invoices, purchase payment data, purchase settlement bill details and the like.

In a specific implementation manner, the purchase management module includes a purchase contract management unit, which is used for generating a purchase contract based on the approved purchase order, realizing contract online signature based on the received verification information, and automatically generating a contract pdf text for downloading and printing the purchase contract signed by both parties.

The sorting and processing management module 2 is used for performing online and offline cooperative management on the sorting and processing process, is connected with the warehouse management module, calls steel product information stored in the warehouse management module, including stacking coordinates, original bundle numbers and the like, generates mechanical instructions based on the steel product information, realizes sorting and processing, and generates scrap material information associated with the original bundle numbers based on the steel product information and sorting and processing results.

The sorting and processing management module can realize the functions of sorting and processing ex-warehouse management, off-line sorting and processing management, finished product in-warehouse management and the like. The sorting and delivery management is to record delivery operation of the sorted and delivered bales and to instruct the machine to deliver the bales from the storage coordinates. And the off-line sorting and processing management is to sort and process the waste secondary material bales dispatched and delivered out of the warehouse, wherein the sorting and processing comprises the appearance observation amount of the waste secondary material, the component detection of the waste secondary material, the classification and/or the finished product processing and the like, and the obtained various finished products are repacked and numbered to obtain the associated sub-bale numbers. And finished product warehousing management is to transfer each sub-bundle obtained after sorting processing to a specified position of a warehouse, and to perform warehousing operation again in a warehousing management system, wherein the recorded information comprises: a sub-bundle number, an original associated bundle number, an original vendor name, a process manufacturer name, a weight, a shape, a size, an alloy composition, a storage warehouse, location coordinates, and the like.

In a specific embodiment, alloy component detection of the waste defective material is realized through a handheld spectrometer, a detection program is stored in the handheld spectrometer, and when the detection program is called, the components of the waste defective material are identified through a spectral intensity and a pre-trained spectral intensity type relation model. The spectral intensity type relation model is a training set obtained by performing spectral detection on a large number of waste and inferior materials of known types before detection, and the model obtained by training with a machine learning method can be used for quickly identifying and sorting mixed waste and inferior materials of specific types.

The sales management module 3 is used for realizing functions of bid management, bid field accurate pushing management, contract management, sales delivery management, logistics management, sales settlement management and the like, and generating bid information and transaction information, wherein the transaction information is generated after the corresponding bid information is processed, and comprises the sales contract information, the delivery operation information, the logistics information and the sales settlement information.

The bidding management is to establish a corresponding bidding field for interested buyer users to trade on the platform in a public bidding mode. The bidding management comprises the following steps: a new establishment function, a payment/refund guarantee fund function, a buyer bidding function, a bid evaluation function and a traffic order function.

The accurate pushing management of the bidding occasion refers to the steps that in the platform operation process, data collection is carried out on operation information of users through data burying points, and large data and artificial intelligence technologies are utilized to form labeling models of access behavior habits and consumption behavior habits of the users. And primarily screening target customers of the bidding field of the platform based on the labeling model, and finally auditing a list of the screened customers in a transaction background by a service manager. And finally, carrying out accurate pushing to the target client.

The contract management means that after bidding succeeds, a sale contract is automatically generated in a buyer center and a seller center, the seller and the buyer can respectively carry out online electronic signature, the system tracks the signature state of the contract and provides a downloading function of a contract pdf file after signing.

The sale delivery management means that after contract signing is completed, the warehouse management module carries out delivery operation record on the package related to the sale contract, and meanwhile, the machine is instructed to transfer the package out of the warehouse from the storage coordinate.

The logistics management means that warehouse delivery personnel carry out loading/ship checking on the waste and defective materials associated with the contract and enter the number of the vehicle and the ship. The transport vehicle is provided with the GPS, and the vehicle position information in the transport process is transmitted to the logistics management system in real time and displayed on the E-commerce platform. The buyer receives the goods and then confirms the goods in the system.

The sale settlement management comprises functions of sale invoice management, sale-to-payment management, sale settlement bill detail and the like.

And the block chain traceability module 4 applies a block chain evidence storing technology to chain and store the evidence on the key information of the whole process of purchasing, sorting, processing and selling the waste inferior wood. The uplink certificate storing information comprises: original seller name, purchase waste inferior material name, waste inferior material original package picture, purchase unit price, purchase weight, purchase bundle number, purchase warehousing time, purchase order number, purchase contract text, purchase contract signature, sorting processing ex-warehouse time, sorting processing manufacturer name, sorting processing accountant, sub-bundle package number, sub-bundle weight, sub-bundle alloy composition, sub-bundle waste inferior material shape, sub-bundle waste inferior material dimension size, finished product warehousing time, bid price starting time, bid price record, bid price ending time, transaction buyer name, sales contract text, sales contract signature, sales ex-warehouse time, vehicle and ship number, GPS path, goods sign-in time and the like.

The whole process management system for the steel waste secondary materials combined online and offline is utilized to carry out the combined waste secondary material purchasing, sorting processing and selling management processes online and offline, and the whole process management system specifically comprises the following steps:

1. the purchase management module 1 receives order intention information of the e-commerce platform, receives order information fed back by the resource side, generates a purchase contract based on the checked purchase order, and completes purchase warehousing data interaction and purchase settlement data interaction based on the purchase contract. And the purchasing and warehousing data interaction comprises product quantity and quality inspection, goods warehousing registration and the like, and formed steel product information is stored in the warehouse management module.

2. The sorting and processing management module 2 carries out ex-warehouse operation on the waste and defective materials in the warehouse according to the steel product information stored in the warehouse management module, and makes out-warehouse records on line while scheduling and carrying on line. And receiving the waste secondary material information after finishing the sorting processing, wherein the waste secondary material information comprises waste secondary material classification and packaging information.

3. The sales management module 3 establishes a bidding field to bid the classified waste lumber based on the waste lumber information, and generates transaction information after confirmation.

4. The key transaction information and the sorting processing information of the whole process are stored and verified through a block chain technology, so that the source and the destination of each batch of waste and inferior wood can be traced.

The foregoing detailed description of the preferred embodiments of the invention has been presented. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.

Claims (10)

1. The utility model provides an online off-line combined steel scrap secondary material full-process management system which is characterized in that includes:

the purchase management module is used for performing online and offline combined collaborative data interaction with a resource side to generate order information;

the sorting and processing management module is used for carrying out online and offline combined sorting and processing on the steel products corresponding to the order information to obtain waste and secondary material information;

the sales management module is used for generating corresponding bidding information and transaction information according to the waste secondary material information;

and the block chain tracing module is used for receiving and storing the order information, the waste timber information, the bidding information and the transaction information by adopting a block chain technology.

2. The online-offline combined steel scrap full-process management system according to claim 1, wherein the collaborative data interaction comprises purchase order data interaction, purchase contract data interaction, purchase warehousing data interaction and purchase settlement data interaction.

3. The online-offline combined steel scrap complete-process management system according to claim 2, wherein the purchasing management module comprises:

and the purchase contract management unit is used for generating a purchase contract based on the checked purchase order and realizing contract online signature based on the received verification information.

4. The system for managing the whole flow of the steel scrap combined online and offline according to claim 1, wherein the sorting and processing management module is connected to a warehouse management module, calls steel product information stored in the warehouse management module, generates a mechanical instruction based on the steel product information, implements sorting and processing, and generates the scrap information based on the steel product information and a sorting and processing result.

5. The system for on-line and off-line combined steel scrap full-process management according to claim 4, wherein the steel product information includes stacking coordinates and an original bundle number.

6. The system for on-line and off-line combined steel scrap full process management according to claim 5 wherein the scrap secondary material information is associated with the original bale number.

7. The system for managing the whole process of waste steel products combined online and offline as claimed in claim 4, wherein said sorting process comprises waste product appearance measurement, waste product component detection, classification and/or finishing.

8. The on-line and off-line combined steel waste and scrap material full-process management system according to claim 7, wherein the waste and scrap material component detection is realized through a handheld spectrometer, a detection program is stored in the handheld spectrometer, and when the detection program is called, the waste and scrap material components are identified through a spectral intensity and pre-trained spectral intensity type relation model.

9. The system for managing the whole process of the waste steel materials combined online and offline according to claim 1, wherein the sales management module comprises:

and the bidding information accurate pushing unit is used for acquiring user operation information, forming a labeling model of each user access behavior habit and consumption behavior habit by utilizing big data and artificial intelligence technology, and pushing corresponding bidding information based on the labeling model.

10. The system for managing the whole process of the steel scrap according to claim 1, wherein the transaction information is generated after the corresponding bidding information is processed, and includes sales contract information, ex-warehouse operation information, logistics information and sales settlement information.

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