CN112347752A - Autonomous drawing management method and device for industrial chain - Google Patents

Abstract

The invention discloses an independent drawing management method and device of an industrial chain, wherein the method comprises the following steps: independently drawing an industrial chain; forming atlas drawing, and drawing the forming link data of the industrial chain in a structured way; drawing a manufacturing process map, and structurally drawing the manufacturing process map of products in each link in an industrial chain; drawing an enterprise supply relation map, and structurally drawing and managing enterprises related to products in each link in an industrial chain and supply relations formed among the enterprises through the products; and managing the dimension development data of the industrial chain, and performing structured unified warehousing on the dimension development data of each link of the industrial chain. By the method and the device, the problems that the existing industrial chain information is dispersed and various types of industrial chain information cannot be effectively gathered are solved; the invention combines the characteristics of each industrial chain to form a uniform industrial chain information management standard; various management scenes of industrial chain data are integrated, and a one-stop industrial chain data management tool is formed.

Description

Autonomous drawing management method and device for industrial chain

Technical Field

The invention relates to the technical field of industrial chain charts, in particular to an autonomous drawing management method and device of an industrial chain.

Background

With the rapid development of manufacturing industries, the related data of each industry is greatly increased, and the characteristics of scattered data distribution and opaque information among industries are presented. In the field of the existing industrial chain map, most industrial chain research results serve a specific certain type of industry, are not universal to various industrial chains, do not form a uniform management standard to gather information of each industrial chain, and cannot meet the requirement of industrial uniform planning, development and research. Therefore, based on the research on the characteristics of various types of industrial chains, a unified data management standard of the industrial chains is formed, and the relevant data of the industrial chain links are drawn and managed autonomously according to the standard, so that various industrial information can be effectively gathered, and the problem to be solved in a centralized manner at present is solved.

Disclosure of Invention

In view of the above technical problems in the related art, the present invention provides an autonomous rendering management method and apparatus for an industrial chain, which can overcome the above disadvantages in the prior art.

In order to achieve the technical purpose, the technical scheme of the invention is realized as follows:

an autonomous drawing management method of an industrial chain, the method comprising the steps of:

s1: the method comprises the steps that an industrial chain is drawn autonomously, wherein drawn contents comprise management industrial chain data;

the step S1 includes the steps of:

s11: classifying the industrial chain, wherein if the industrial chain needs to be classified into a new type, a new classification is directly created on the current page, and then the classification type is selected;

s12: filling in an industrial chain name to identify different industrial chains and verifying the industrial chain name, wherein if the industrial chain name exists in the current user authority, the industrial chain name cannot be repeatedly created;

s13: automatically uploading pictures to perform identification display or modify the sequencing of display positions of an industrial chain;

s2: forming atlas drawing, and drawing the forming link data of the industrial chain in a structured way;

the step S2 includes the steps of:

s21: the method comprises the steps of decomposing an industrial chain into unified construction links, wherein the links comprise raw materials, sub-components, finished products, key technologies, key equipment and a rear-end market, the raw materials are the composition contents of an industrial chain base layer, the sub-components are industrial chain intermediate layer products, the finished products are final representative products of the industrial chain and belong to downstream products of the sub-components, the key equipment is an equipment name playing an important role in the industrial chain, the key technologies are technologies playing an important role in the industrial chain, and the rear-end market is the description of the application market field of the industrial chain;

s22: using personnel to draw link data of each component of the industrial chain according to the standard, wherein the tool is divided into one-level product management and two-level product management when drawing products of each link, adding one product classification to the products needing further classification in the one-level management, and adding the two-level products again after adding the classification;

s3: drawing a manufacturing process map, and structurally drawing the manufacturing process map of products in each link in an industrial chain;

the step S3 includes the steps of:

s31: selecting any element and dragging the element to canvas, wherein the element comprises a product, equipment, a technology, an auxiliary material and a working procedure;

s32: modifying the elements into component names of actual components in the manufacturing process, and corresponding the elements through relationship symbols;

s4: drawing an enterprise supply relation map, and structurally drawing and managing enterprises related to products in each link in an industrial chain and supply relations formed among the enterprises through the products;

the step S4 includes the steps of:

s41: acquiring the relation between an enterprise and a product, the supply relation between the enterprise and the enterprise when the product is generated and the supplied product information;

s42: forming an enterprise supply relation map through the association of multilayer enterprise information and product information;

s43: related supply products are associated by selecting a main production product, any one or more supply products are selected, and enterprise supply relation maps of all links of an industrial chain are displayed visually according to conditions;

s5: managing dimension development data of an industrial chain, and performing structured unified warehousing on the dimension development data of each link of the industrial chain, wherein the independent addition of the dimension data of each link of the industrial chain is divided into two steps:

s51: implementing an autonomic data dimension;

s52: and managing and warehousing dimension data of each link of the industrial chain.

Further, the step S51 further includes the following steps:

s511: setting a newly added industrial chain dimension through an industrial chain dimension template, and autonomously setting a dimension name, a collected data field name and an uploading Excel collection template according to individual requirements;

s512: after the industrial chain dimension related information is successfully added, synchronizing the dimension and the related information to be acquired to the industrial chain dimension data management function;

s513: and uniformly collecting the development data of each dimension of the warehousing industrial chain by a data management function, wherein the industrial chain dimension data management function provides an online filling and offline importing mode, and the two modes need to pass data verification when being warehoused.

Further, the step S52 includes the following steps:

s521: synchronizing data to an industrial chain dimension data management function according to the product classification information of each link drawn in the step S2;

s522: after the products of all links in the selected industrial chain are classified, selecting the dimension type to be managed;

s523: and managing the dimension data, and automatically associating the data with the product classification of the selected link when the data are put in storage.

There is also provided an autonomous drawing management apparatus of an industrial chain, the apparatus including:

the system comprises an industrial chain management module, a data processing module and a data processing module, wherein the industrial chain management module is used for autonomously drawing an industrial chain, the drawn content comprises industrial chain data, and the industrial chain management module comprises an industrial chain classification management module, an industrial chain adding verification module and an industrial chain display module, wherein the industrial chain classification management module is used for classifying the industrial chain, if the industrial chain needs to be classified into a new type, the new classification is directly created on a current page, and then the classification type is selected; the industry chain adding module is used for filling industry chain names to identify different industry chains; the industry chain adding verification module is used for verifying the industry chain name, wherein if the industry chain name exists in the current user authority, the industry chain adding verification module cannot be repeatedly created; the industrial chain display module is used for automatically uploading pictures to perform identification display or modifying the sequencing of industrial chain display positions;

the industrial chain constitutes an atlas drawing management module, the industrial chain constitutes an atlas drawing management module used for structurally drawing the constituent link data of the industrial chain, the industrial chain constitutes an atlas drawing management module comprising an industrial chain constituent link classification module and an industrial chain constituent link product management module, wherein the industrial chain constituent link classification module is used for decomposing the industrial chain into unified constituent links, the links comprise raw materials, sub-components, finished products, key technologies, key equipment and a rear end market, the raw materials are the constituent content of an industrial chain base layer, the sub-components are industrial chain intermediate layer products, the finished products are final representative products of the industrial chain and belong to downstream products of the sub-components, the key equipment is the equipment name playing an important role in the industrial chain, and the key technologies are technologies playing an important role in the industrial chain, the back-end market is the description of the application market field of the industrial chain, the product management module of each component link of the industrial chain is used for drawing the data of each component link of the industrial chain according to the standard, wherein, the tool is divided into one-level product management and two-level product management when drawing each link product, adds one product classification to the products needing to be further classified in one-level management, and adds the two-level products after adding the classification;

the industrial chain manufacturing process map drawing management module is used for structurally drawing a manufacturing process map of products in each link in an industrial chain, and comprises a manufacturing process map element management module and a manufacturing process map drawing module, wherein the manufacturing process map element management module is used for selecting any element and dragging the element to canvas, the element comprises a product, equipment, a technology, auxiliary materials and a process, and the manufacturing process map drawing module is used for modifying the element into a component name actually formed in the manufacturing process and corresponding the element through a relation symbol;

an industry chain enterprise supply relation map drawing and managing module, which is used for drawing and managing enterprises related to products in each link in an industry chain in a structured manner and supply relations formed by the products among the enterprises, and comprises a product supply enterprise management module, a product supply enterprise management module and an enterprise supply relation map checking module, wherein the product supply enterprise management module is used for acquiring the relation between the enterprises and the products, the supply relations between the enterprises when the products are generated and the supplied product information, the product supply enterprise management module is used for forming an enterprise supply relation map by the association of multi-layer enterprise information and product information, and the enterprise supply relation map checking module is used for associating the related supply products by selecting main production products, then any one or more supply products are selected, and enterprise supply relation maps of all links of the industrial chain are displayed in a visualized mode according to conditions;

the industrial chain dimension development data management module is used for managing industrial chain dimension development data and performing structured unified warehousing on dimension development data of each link of an industrial chain, and comprises a dimension import template setting module and an industrial dimension data management module, wherein dimension data are added in each link of the industrial chain independently in two steps, the dimension import template setting module is used for realizing independent data dimension, and the industrial dimension data management module is used for managing and warehousing the dimension data of each link of the industrial chain.

Furthermore, the dimension import template setting module is further used for adding a new industry chain dimension, automatically setting a dimension name, acquiring a data field name and uploading an Excel acquisition template according to personalized requirements, synchronizing the dimension and related information to be acquired to an industry chain dimension data management function after the industry chain dimension related information is successfully added, and uniformly acquiring development data of each dimension of the warehousing industry chain by the data management function, wherein the industry chain dimension data management function provides an online filling and offline import mode, and data verification is required when the two modes are warehoused.

Further, the industry dimension data management module comprises an industry dimension data management associated product module and an industry dimension data management data storage module; the industry dimension data management associated product module is used for synchronizing data to the industry chain dimension data management function according to the product classification information of each link drawn in the step S2, and is also used for selecting the dimension type to be managed after selecting the product classification of each link in the industry chain; the industrial dimension data management data storage module is used for managing the dimension data, and automatically associating the data with the product classification of the selected link when the data is stored in the data storage module.

The invention has the beneficial effects that: by the method and the device, the problems that the existing industrial chain information is dispersed and various types of industrial chain information cannot be effectively gathered are solved; the tool provides industrial chain development dimension data management, and development core data of each industry can be managed in a centralized manner; the tool realizes the convergence of various types of industrial chain information through a uniform link structure, and simultaneously provides mining drawing, enterprise supply relation drawing and development dimension data management to meet the requirement of industrial chain core data management, so that industrial chain forming links are standardized in a real sense, and industrial chain development core data are centralized; the method combines the characteristics of each industrial chain, forms a uniform industrial chain information management standard, is suitable for the management of most industrial chain information, and is beneficial to the integration of various types of industrial chain information; various management scenes of industrial chain data are integrated, such as industrial chain forming links, manufacturing processes, industrial dimension development status situations and the like, and a one-stop industrial chain data management tool is formed.

Drawings

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

Fig. 1 is a block flow diagram of an autonomous rendering management method of an industrial chain according to an embodiment of the present invention;

fig. 2 is a schematic view of the process flow of autonomous addition and drawing of the industrial chain in step S1;

FIG. 3 is a schematic diagram of the mapping process of step S2;

fig. 4 is a schematic view of the manufacturing process map drawing process of step S3;

fig. 5 is a schematic diagram illustrating the enterprise supply relationship mapping process of step S4;

FIG. 6 is a schematic flow chart illustrating the process of adding dimension data by the industry chain in step S5;

fig. 7 is a schematic block diagram of an autonomous rendering management apparatus of an industrial chain according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present invention.

As shown in fig. 1 to 6, an autonomous drawing management method for an industrial chain according to an embodiment of the present invention includes the following steps:

s1: the method comprises the steps that an industrial chain is drawn autonomously, wherein drawn contents comprise management industrial chain data;

step S1 includes the following steps:

s11: classifying the industrial chain, wherein if the industrial chain needs to be classified into a new type, a new classification is directly created on the current page, and then the classification type is selected;

s12: filling in an industrial chain name to identify different industrial chains and verifying the industrial chain name, wherein if the industrial chain name exists in the current user authority, the industrial chain name cannot be repeatedly created;

s13: automatically uploading pictures to perform identification display or modify the sequencing of display positions of an industrial chain;

s2: forming atlas drawing, and drawing the forming link data of the industrial chain in a structured way;

step S2 includes the following steps:

s21: the method comprises the steps of decomposing an industrial chain into unified construction links, wherein the links comprise raw materials, sub-components, finished products, key technologies, key equipment and a rear-end market, the raw materials are the composition contents of an industrial chain base layer, the sub-components are industrial chain intermediate layer products, the finished products are final representative products of the industrial chain and belong to downstream products of the sub-components, the key equipment is an equipment name playing an important role in the industrial chain, the key technologies are technologies playing an important role in the industrial chain, and the rear-end market is the description of the application market field of the industrial chain;

s22: using personnel to draw link data of each component of the industrial chain according to the standard, wherein the tool is divided into one-level product management and two-level product management when drawing products of each link, adding one product classification to the products needing further classification in the one-level management, and adding the two-level products again after adding the classification;

s3: drawing a manufacturing process map, and structurally drawing the manufacturing process map of products in each link in an industrial chain;

step S3 includes the following steps:

s31: selecting any element and dragging the element to canvas, wherein the element comprises a product, equipment, a technology, an auxiliary material and a working procedure;

s32: modifying the elements into component names of actual components in the manufacturing process, and corresponding the elements through relationship symbols;

s4: drawing an enterprise supply relation map, and structurally drawing and managing enterprises related to products in each link in an industrial chain and supply relations formed among the enterprises through the products;

step S4 includes the following steps:

s41: acquiring the relation between an enterprise and a product, the supply relation between the enterprise and the enterprise when the product is generated and the supplied product information;

s42: forming an enterprise supply relation map through the association of multilayer enterprise information and product information;

s43: related supply products are associated by selecting a main production product, any one or more supply products are selected, and enterprise supply relation maps of all links of an industrial chain are displayed visually according to conditions;

s5: managing dimension development data of an industrial chain, and performing structured unified warehousing on the dimension development data of each link of the industrial chain, wherein the independent addition of the dimension data of each link of the industrial chain is divided into two steps:

s51: implementing an autonomic data dimension;

s52: and managing and warehousing dimension data of each link of the industrial chain.

Step S51 further includes the steps of:

s511: setting a newly added industrial chain dimension through an industrial chain dimension template, and autonomously setting a dimension name, a collected data field name and an uploading Excel collection template according to individual requirements;

s512: after the industrial chain dimension related information is successfully added, synchronizing the dimension and the related information to be acquired to the industrial chain dimension data management function;

s513: and uniformly collecting the development data of each dimension of the warehousing industrial chain by a data management function, wherein the industrial chain dimension data management function provides an online filling and offline importing mode, and the two modes need to pass data verification when being warehoused.

Step S52 includes the following steps:

s521: synchronizing data to an industrial chain dimension data management function according to the product classification information of each link drawn in the step S2;

s522: after the products of all links in the selected industrial chain are classified, selecting the dimension type to be managed;

s523: and managing the dimension data, and automatically associating the data with the product classification of the selected link when the data are put in storage.

As shown in fig. 7, there is provided an autonomous drawing management apparatus of an industrial chain, the apparatus including:

the system comprises an industrial chain management module, a data processing module and a data processing module, wherein the industrial chain management module is used for autonomously drawing an industrial chain, the drawn content comprises industrial chain data, and the industrial chain management module comprises an industrial chain classification management module, an industrial chain adding verification module and an industrial chain display module, wherein the industrial chain classification management module is used for classifying the industrial chain, if the industrial chain needs to be classified into a new type, the new classification is directly created on a current page, and then the classification type is selected; the industry chain adding module is used for filling industry chain names to identify different industry chains; the industry chain adding verification module is used for verifying the industry chain name, wherein if the industry chain name exists in the current user authority, the industry chain adding verification module cannot be repeatedly created; the industrial chain display module is used for automatically uploading pictures to perform identification display or modifying the sequencing of industrial chain display positions;

the industrial chain constitutes an atlas drawing management module, the industrial chain constitutes an atlas drawing management module used for structurally drawing the constituent link data of the industrial chain, the industrial chain constitutes an atlas drawing management module comprising an industrial chain constituent link classification module and an industrial chain constituent link product management module, wherein the industrial chain constituent link classification module is used for decomposing the industrial chain into unified constituent links, the links comprise raw materials, sub-components, finished products, key technologies, key equipment and a rear end market, the raw materials are the constituent content of an industrial chain base layer, the sub-components are industrial chain intermediate layer products, the finished products are final representative products of the industrial chain and belong to downstream products of the sub-components, the key equipment is the equipment name playing an important role in the industrial chain, and the key technologies are technologies playing an important role in the industrial chain, the back-end market is the description of the application market field of the industrial chain, the product management module of each component link of the industrial chain is used for drawing the data of each component link of the industrial chain according to the standard, wherein, the tool is divided into one-level product management and two-level product management when drawing each link product, adds one product classification to the products needing to be further classified in one-level management, and adds the two-level products after adding the classification;

the industrial chain manufacturing process map drawing management module is used for structurally drawing a manufacturing process map of products in each link in an industrial chain, and comprises a manufacturing process map element management module and a manufacturing process map drawing module, wherein the manufacturing process map element management module is used for selecting any element and dragging the element to canvas, the element comprises a product, equipment, a technology, auxiliary materials and a process, and the manufacturing process map drawing module is used for modifying the element into a component name actually formed in the manufacturing process and corresponding the element through a relation symbol;

an industry chain enterprise supply relation map drawing and managing module, which is used for drawing and managing enterprises related to products in each link in an industry chain in a structured manner and supply relations formed by the products among the enterprises, and comprises a product supply enterprise management module, a product supply enterprise management module and an enterprise supply relation map checking module, wherein the product supply enterprise management module is used for acquiring the relation between the enterprises and the products, the supply relations between the enterprises when the products are generated and the supplied product information, the product supply enterprise management module is used for forming an enterprise supply relation map by the association of multi-layer enterprise information and product information, and the enterprise supply relation map checking module is used for associating the related supply products by selecting main production products, then any one or more supply products are selected, and enterprise supply relation maps of all links of the industrial chain are displayed in a visualized mode according to conditions;

the industrial chain dimension development data management module is used for managing industrial chain dimension development data and performing structured unified warehousing on dimension development data of each link of an industrial chain, and comprises a dimension import template setting module and an industrial dimension data management module, wherein dimension data are added in each link of the industrial chain independently in two steps, the dimension import template setting module is used for realizing independent data dimension, and the industrial dimension data management module is used for managing and warehousing the dimension data of each link of the industrial chain.

In a specific embodiment of the present invention, the dimension import template setting module is further configured to add a new industry chain dimension, autonomously set a dimension name, a data field name, and upload an Excel acquisition template according to a personalized requirement, synchronize the dimension and information to be acquired after information related to the industry chain dimension is successfully added to an industry chain dimension data management function, and uniformly acquire data of development of each dimension of a warehousing industry chain by the data management function, where the industry chain dimension data management function provides a mode of online filling and offline import, and both the two modes of warehousing require data verification.

In a specific embodiment of the present invention, the industry dimension data management module includes an industry dimension data management associated product module and an industry dimension data management data storage module; the industry dimension data management associated product module is used for synchronizing data to the industry chain dimension data management function according to the product classification information of each link drawn in the step S2, and is also used for selecting the dimension type to be managed after selecting the product classification of each link in the industry chain; the industrial dimension data management data storage module is used for managing the dimension data, and automatically associating the data with the product classification of the selected link when the data is stored in the data storage module.

In order to facilitate understanding of the above-described aspects of the present invention, the above-described aspects of the present invention will be described in detail below.

The technical solutions of the embodiments will be described in detail below with reference to the accompanying drawings of the embodiments of the present invention, and the following described examples are main part embodiments, but not all embodiments of the present invention. All embodiments that can be derived by one skilled in the art from the disclosed embodiments without inventive step are intended to be encompassed by the present invention.

The inventor finds that data collection of various industrial chains is difficult when industrial chain planning development research is carried out, on one hand, information of various industrial fields is distributed in the respective fields, and a large amount of time is needed for collecting the industrial fields; on the other hand, the collected information has inconsistent data dimensions due to research characteristics in various fields, and the composition and development conditions of various industrial chains cannot be directly observed.

In order to solve the above problems, the present invention analyzes each industrial chain, standardizes the industrial chain configuration data, makes the development data dimensional, and renders and manages the industrial chain configuration data and the development data in a structured manner.

In the embodiment of the present invention, as shown in fig. 1, a schematic diagram of relationship between functional modules of an industrial chain drawing tool in embodiment 1 is shown:

the independent drawing management tool of the industrial chain comprises the steps of independent drawing of the industrial chain, drawing of an industrial chain forming map, drawing of a product manufacturing process map of each link of the industrial chain, drawing of an industrial chain forming link enterprise supply relation map, and data management of each dimension development condition of each industrial chain forming link.

The L0 industrial chain is drawn independently, any industrial chain can be added independently, and the industrial chain data can be drawn and managed after the industrial chain is added;

the L1 forms a map for drawing, and can structurally draw the forming link data of an industrial chain;

the L2 manufacturing process map is drawn, and the manufacturing process map of products in each link in an industrial chain can be drawn in a structured manner;

the L3 enterprise supply relationship map drawing can structurally draw and manage enterprises related to products in each link in an industrial chain and supply relationships among the enterprises formed by the products;

and managing the dimension development data of the L4 industrial chain, and performing structured unified warehousing on the dimension development data of each link of the industrial chain.

Description of the overall relationship between the functional modules:

add an industry chain type at L0; according to the added industrial chain of L0, drawing the construction links of the industrial chain at the layer L1, and adding products of each link; according to the added products of the L1 layer, the product can be set to drill down to the L2 layer to draw a product manufacturing flow chart; according to the products added at the L1 level, the enterprise supply relationship of the added products can be managed at the L3 level; according to the products added at the L1 level, the product dimension development data of each link of the industrial chain can be managed at the L4 level. The method realizes one-stop management of the industrial chain data through close association of each hierarchy, and effectively integrates the industrial chain data through the same standard through the specification of the hierarchy.

In the embodiment of the present invention, as shown in fig. 2, a schematic diagram of an autonomous addition drawing process of an L0-layer industrial chain in the embodiment 2:

the industrial chain automatic drawing management tool aims at gathering data of each industrial chain, supports any newly added industrial chain and can classify the industrial chain.

The specific technical scheme for realizing the autonomous drawing of the industrial chain is as follows:

the industrial chain is generally divided into different types according to different properties, the tool can classify the industrial chain when the industrial chain is newly added, and if the industrial chain needs to be classified into a new type, a new classification can be directly created on the current page and then the classification type is selected; filling in the industry chain name to identify different industry chains, verifying the industry chain name, if the industry chain name exists in the current user authority, the industry chain name can not be repeatedly created, and the uniqueness of data is ensured; the tool is added with personalized settings, can automatically upload pictures as the identification display of the industrial chain, and can also modify the sequencing of the display positions of the industrial chain.

In the embodiment of the invention, as shown in fig. 3, a schematic drawing flow diagram of the L1 layer composition map of the embodiment 3 is as follows:

the industrial chain is decomposed into uniform constituent links, and users draw data of each constituent link of the industrial chain according to the standard, so that the structured integration of the constituent data of the industrial chain is realized.

The specific technical scheme for realizing the unified and structured management of the industrial chain composition data is as follows:

the industrial chain is divided into 6 forming links of raw materials, parts, finished products, key technologies, key equipment and a rear-end market, the forming conditions of the industrial chain are managed from 6 aspects, and products in all links or product classifications can be added independently. The products related to each link of the industrial chain have a lot of situations, so that the tool is divided into one-level product management and two-level product management when drawing the products of each link, one product classification can be added to the products needing further classification in the one-level management, and the two-level products can be added again after the classification is added. For the related products of the industrial chain needing deep excavation and detailed analysis, the function of drawing the product composition map or the manufacturing process map by drilling is provided, the drawing of the product composition map by drilling is consistent with the embodiment, and the detail of the drawing of the manufacturing process map is shown in the embodiment 4.

The following explains the links constituting the industrial chain:

the raw materials are the composition content of an industrial chain base layer;

the sub-components are intermediate layer products of an industrial chain, are mainly produced and processed from a raw material layer and belong to downstream products of raw materials;

the finished product is a representative final product of the industrial chain and belongs to a downstream product of the sub-components;

the key equipment is the name of equipment playing an important role in the industrial chain, and the equipment can act on a raw material link, a component link or a finished product link;

the key technology is a technology playing an important role in an industrial chain, and the technology can act on a raw material link, a component link or a finished product link;

the back-end market is a description of the industry chain application market domain.

The uniqueness of the product needs to be noticed by the industry chain forming map, and the product plays different roles for different industry chains, so that the tool needs to pay attention to the verification of data when adding each link forming product, distinguish the products of each industry chain, and simultaneously control the repeated addition of a single product in the current forming map.

Some humanized designs are added into the tool, for example, the product can be dragged to modify sequencing in the current link, the product can be directly modified to correspond to a new link by dragging the product to other links, different constituent links are directly distinguished through colors, the product is automatically typeset, and the like, the added humanized design enables the tool to be more flexible and convenient to operate, and the data of the constituent map is more attractive and clear in presentation.

In the embodiment of the invention, as shown in fig. 4, a drawing flow diagram of a manufacturing flow map of the layer L2 in the embodiment 4 is as follows:

positioning products in each link of the industrial chain, drawing a production and manufacturing flow chart of the products, and enriching data of the products formed by the industrial chain.

The specific technical scheme for realizing the autonomous drawing of the manufacturing process map comprises the following steps:

the manufacturing flow chart is drawn in a unified way, a product, equipment, a technology, auxiliary materials and a process are used as important components of the manufacturing flow, and the corresponding relation among the elements is represented by combination, or processing formation, a process flow, common correspondence and the like.

Selecting any element and dragging the element to a canvas, modifying the element into a component name actually formed in the manufacturing process, and corresponding the element through a relation symbol to finally present a process map for manufacturing the product. The tool adds humanized design, one-key adjustment is carried out on element layout through multiple selections, and differences and the like between elements and relation symbols are reflected through colors and forms, so that a finally presented manufacturing process map is clearer, more attractive and easier to identify.

In the embodiment of the invention, as shown in fig. 5, a schematic drawing flow chart of the manufacturing process map of the L3 layer of the embodiment 5 is as follows:

products in each link of the industrial chain are associated with enterprises, and the product-associated enterprises and the enterprise supply relationship data can be structurally put in storage in an online filling mode and an offline importing mode.

The specific technical scheme for drawing and forming the enterprise supply relationship map comprises the following steps:

the method comprises the steps of obtaining the relation between enterprises and products, the supply relation between the enterprises and the supplied product information when the products are generated, and finally obtaining which enterprises are produced in each link, which enterprises are supplied and supplied by the enterprises producing the products at the upstream of an industrial chain, and which enterprises are supplied and supplied by the products at the downstream of the industrial chain through the correlation between multilayer enterprise information and the product information, so as to finally form an enterprise supply relation map. Related supply products are associated by selecting main production products, and then any one or more supply products are selected, so that the enterprise supply relation map of each link of the industrial chain can be visually displayed according to conditions

Enterprise supply concerns require control of product uniqueness. For different industrial chains, products and enterprises are in different links and roles in various industrial chains, and the products and enterprise supply data need to be distinguished between the industrial chains.

Data verification is needed before all data are put in storage, the standard data have high usability, and misleading of analysis results due to data problems is avoided in the subsequent analysis process. The data verification contents are as follows: the main product and the main enterprise can not be empty, the filling states of the supply enterprise and the supply product need to be consistent, whether data is repeated or not, and the requirement of not passing the verification is prompted or processed.

In the embodiment of the present invention, as shown in fig. 6, a schematic flow diagram of autonomous addition of dimension data in each link of the L4 industrial chain in the embodiment 6:

the industrial chain automatic drawing tool can automatically increase the dimension of the industrial chain, and the data is filled in and put in storage of the related dimension development data of the industrial chain, so that the acquisition and the storage of various dimension data are met.

The independent addition of dimension data in each link of the industrial chain is realized by two steps: the first step is to realize autonomous data dimension, and the second step is to realize dimension data management and storage of each link of the industrial chain.

The specific technical scheme for realizing the autonomous data dimension is as follows:

the newly added industrial chain dimension is set through the industrial chain dimension template, the dimension name, the name of the acquired data field, the uploaded Excel acquisition template and the like can be set according to individual requirements, after the information related to the industrial chain dimension is added successfully, the dimension and the related information needing to be acquired can be synchronized to the industrial chain dimension data management function, and the data management function acquires the development data of each dimension of the warehousing industrial chain in a unified mode. The industrial chain dimension data management function provides an online filling and offline importing mode, data verification is required when the two modes are put in storage, and the standard data has high availability.

The specific technical scheme for realizing the management and storage of the dimension data of each link of the industrial chain is as follows:

according to product (classification) information of each link drawn by the L1 layer, data is synchronized to the industrial chain dimension data management function, after products (classification) of each link in the industrial chain are selected, dimension types needing to be managed are selected, then dimension data are managed, and when the data are stored in a warehouse, the data are automatically associated with the products (classification) of the selected link, so that the association of the dimension data and each link in the industrial chain is realized.

In summary, by means of the above technical solution of the present invention, the method and the apparatus solve the problems that the existing industrial chain information is dispersed and various types of industrial chain information cannot be effectively aggregated; the tool provides industrial chain development dimension data management, and development core data of each industry can be managed in a centralized manner; the tool realizes the convergence of various types of industrial chain information through a uniform link structure, and simultaneously provides mining drawing, enterprise supply relation drawing and development dimension data management to meet the requirement of industrial chain core data management, so that industrial chain forming links are standardized in a real sense, and industrial chain development core data are centralized; the method combines the characteristics of each industrial chain, forms a uniform industrial chain information management standard, is suitable for the management of most industrial chain information, and is beneficial to the integration of various types of industrial chain information; various management scenes of industrial chain data are integrated, such as industrial chain forming links, manufacturing processes, industrial dimension development status situations and the like, and a one-stop industrial chain data management tool is formed.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (6)

1. An autonomous drawing management method of an industrial chain is characterized by comprising the following steps:

s1: the method comprises the steps that an industrial chain is drawn autonomously, wherein drawn contents comprise management industrial chain data;

the step S1 includes the steps of:

s11: classifying the industrial chain, wherein if the industrial chain needs to be classified into a new type, a new classification is directly created on the current page, and then the classification type is selected;

s12: filling in an industrial chain name to identify different industrial chains and verifying the industrial chain name, wherein if the industrial chain name exists in the current user authority, the industrial chain name cannot be repeatedly created;

s13: automatically uploading pictures to perform identification display or modify the sequencing of display positions of an industrial chain;

s2: forming atlas drawing, and drawing the forming link data of the industrial chain in a structured way;

the step S2 includes the steps of:

s21: the method comprises the steps of decomposing an industrial chain into unified construction links, wherein the links comprise raw materials, sub-components, finished products, key technologies, key equipment and a rear-end market, the raw materials are the composition contents of an industrial chain base layer, the sub-components are industrial chain intermediate layer products, the finished products are final representative products of the industrial chain and belong to downstream products of the sub-components, the key equipment is an equipment name playing an important role in the industrial chain, the key technologies are technologies playing an important role in the industrial chain, and the rear-end market is the description of the application market field of the industrial chain;

s22: using personnel to draw link data of each component of the industrial chain according to the standard, wherein the tool is divided into one-level product management and two-level product management when drawing products of each link, adding one product classification to the products needing further classification in the one-level management, and adding the two-level products again after adding the classification;

s3: drawing a manufacturing process map, and structurally drawing the manufacturing process map of products in each link in an industrial chain;

the step S3 includes the steps of:

s31: selecting any element and dragging the element to canvas, wherein the element comprises a product, equipment, a technology, an auxiliary material and a working procedure;

s32: modifying the elements into component names of actual components in the manufacturing process, and corresponding the elements through relationship symbols;

s4: drawing an enterprise supply relation map, and structurally drawing and managing enterprises related to products in each link in an industrial chain and supply relations formed among the enterprises through the products;

the step S4 includes the steps of:

s41: acquiring the relation between an enterprise and a product, the supply relation between the enterprise and the enterprise when the product is generated and the supplied product information;

s42: forming an enterprise supply relation map through the association of multilayer enterprise information and product information;

s43: related supply products are associated by selecting a main production product, any one or more supply products are selected, and enterprise supply relation maps of all links of an industrial chain are displayed visually according to conditions;

s5: managing dimension development data of an industrial chain, and performing structured unified warehousing on the dimension development data of each link of the industrial chain, wherein the independent addition of the dimension data of each link of the industrial chain is divided into two steps:

s51: implementing an autonomic data dimension;

s52: and managing and warehousing dimension data of each link of the industrial chain.

2. The autonomous rendering management method of an industrial chain according to claim 1, wherein said step S51 further comprises the steps of:

s511: setting a newly added industrial chain dimension through an industrial chain dimension template, and autonomously setting a dimension name, a collected data field name and an uploading Excel collection template according to individual requirements;

s512: after the industrial chain dimension related information is successfully added, synchronizing the dimension and the related information to be acquired to the industrial chain dimension data management function;

s513: and uniformly collecting the development data of each dimension of the warehousing industrial chain by a data management function, wherein the industrial chain dimension data management function provides an online filling and offline importing mode, and the two modes need to pass data verification when being warehoused.

3. The autonomous rendering management method of an industrial chain according to claim 1, wherein said step S52 includes the steps of:

s521: synchronizing data to an industrial chain dimension data management function according to the product classification information of each link drawn in the step S2;

s522: after the products of all links in the selected industrial chain are classified, selecting the dimension type to be managed;

s523: and managing the dimension data, and automatically associating the data with the product classification of the selected link when the data are put in storage.

4. An autonomous drawing management apparatus of an industrial chain, comprising:

the system comprises an industrial chain management module, a data processing module and a data processing module, wherein the industrial chain management module is used for autonomously drawing an industrial chain, the drawn content comprises industrial chain data, and the industrial chain management module comprises an industrial chain classification management module, an industrial chain adding verification module and an industrial chain display module, wherein the industrial chain classification management module is used for classifying the industrial chain, if the industrial chain needs to be classified into a new type, the new classification is directly created on a current page, and then the classification type is selected; the industry chain adding module is used for filling industry chain names to identify different industry chains; the industry chain adding verification module is used for verifying the industry chain name, wherein if the industry chain name exists in the current user authority, the industry chain adding verification module cannot be repeatedly created; the industrial chain display module is used for automatically uploading pictures to perform identification display or modifying the sequencing of industrial chain display positions;

an industrial chain constitutes an atlas drawing management module, the industrial chain constitutes the atlas drawing management module and is used for drawing the constituting link data of the industrial chain in a structural manner, the industrial chain constitutes the atlas drawing management module and comprises an industrial chain constituting link classification module and an industrial chain constituting link product management module, wherein the industrial chain constituting link classification module is used for decomposing the industrial chain into unified constituting links, the links comprise raw materials, sub-components, finished products, key technologies, key equipment and a rear end market, the raw materials are the constituting contents of an industrial chain basic layer, the sub-components are industrial chain intermediate layer products, the finished products are final representative products of the industrial chain and belong to downstream products of the sub-components, the key equipment is the equipment name playing an important role in the industrial chain, and the key technology plays an important role in the industrial chain, the back-end market is the description of the application market field of the industrial chain, the product management module of each component link of the industrial chain is used for drawing the data of each component link of the industrial chain according to the standard, wherein, the tool is divided into one-level product management and two-level product management when drawing each link product, adds one product classification to the products needing to be further classified in one-level management, and adds the two-level products after adding the classification;

the industrial chain manufacturing process map drawing management module is used for structurally drawing a manufacturing process map of products in each link in an industrial chain, and comprises a manufacturing process map element management module and a manufacturing process map drawing module, wherein the manufacturing process map element management module is used for selecting any element and dragging the element to canvas, the element comprises a product, equipment, a technology, auxiliary materials and a process, and the manufacturing process map drawing module is used for modifying the element into a component name actually formed in the manufacturing process and corresponding the element through a relation symbol;

an industry chain enterprise supply relation map drawing and managing module, which is used for drawing and managing enterprises related to products in each link in an industry chain in a structured manner and supply relations formed by the products among the enterprises, and comprises a product supply enterprise management module, a product supply enterprise management module and an enterprise supply relation map checking module, wherein the product supply enterprise management module is used for acquiring the relation between the enterprises and the products, the supply relations between the enterprises when the products are generated and the supplied product information, the product supply enterprise management module is used for forming an enterprise supply relation map by the association of multi-layer enterprise information and product information, and the enterprise supply relation map checking module is used for associating the related supply products by selecting main production products, then any one or more supply products are selected, and enterprise supply relation maps of all links of the industrial chain are displayed in a visualized mode according to conditions;

the industrial chain dimension development data management module is used for managing industrial chain dimension development data and performing structured unified warehousing on dimension development data of each link of an industrial chain, and comprises a dimension import template setting module and an industrial dimension data management module, wherein dimension data are added in each link of the industrial chain independently in two steps, the dimension import template setting module is used for realizing independent data dimension, and the industrial dimension data management module is used for managing and warehousing the dimension data of each link of the industrial chain.

5. The device for autonomous drawing management of an industrial chain according to claim 4, wherein the dimension import template setting module is further configured to add a new dimension of the industrial chain, autonomously set a dimension name, a data field name and upload an Excel acquisition template according to personalized requirements, synchronize the dimension and information to be acquired after information related to the dimension of the industrial chain is successfully added to an industrial chain dimension data management function, and uniformly acquire dimension development data of the industrial chain to be warehoused by the data management function, wherein the industrial chain dimension data management function provides online filling and offline import modes, and both modes require data verification when warehousing.

6. The autonomous drawing management apparatus of an industrial chain according to claim 4, wherein the industrial dimension data management module includes an industrial dimension data management associated product module, an industrial dimension data management data storage module; the industry dimension data management associated product module is used for synchronizing data to the industry chain dimension data management function according to the product classification information of each link drawn in the step S2, and is also used for selecting the dimension type to be managed after selecting the product classification of each link in the industry chain; the industrial dimension data management data storage module is used for managing the dimension data, and automatically associating the data with the product classification of the selected link when the data is stored in the data storage module.

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