CN117933901A - Platform based on production elements - Google Patents

Abstract

The invention relates to the technical field of Internet, in particular to a platform based on production elements, which comprises: data center unit: for providing technical support for other units; basic model unit: the platform is used for providing guidance support for structural design, modules, functions and processes of the platform; element unit: the platform is used for integrating and optimizing various platforms, and improving the fluidity of production elements by providing transactions and services; an application layer unit: for providing personalized solutions for different industries, fields and user needs; supply chain unit: and the digital model is used for supporting interaction between enterprises and realizing seamless connection with the enterprises. The invention supports the application layer and the data center platform, which includes analysis of OT technology, and the business of the application layer can share more support modules and tools, thereby reducing the cost and time for establishing the enterprise IIoT platform, reducing the operation and maintenance cost and further facilitating the interaction with other IIoT platforms.

Description

Platform based on production elements

Technical Field

The invention relates to the technical field of Internet, in particular to a platform based on production elements.

Background

The manufacturing digital platform, namely the industrial internet platform and the IIoT platform, is a core system for manufacturing digital application, and any manufacturing enterprise needs the platform system to communicate all aspects related to convergent production, so that the digital value is realized on the platform, such as accident reduction, efficiency improvement, equipment operation and maintenance reduction, emission reduction and the like. IIoT is a combination of IT informatization and OT manufacturing technologies, and in the prior art, the characteristics of each enterprise are different due to the difference of subdivision industries, so that the IIoT platform is difficult to generalize. Often, each enterprise customizes and develops a platform, and the generic product is implemented based on more or less framework products with a certain versatility, but most of the generic products only integrate knowledge in IT technology. There is little generalization of OT technology, not to mention integration into the underlying IIoT platform product. In view of the above, the present invention proposes a production element-based platform to solve the above problems.

Disclosure of Invention

The main object of the present invention is to provide a platform based on production elements to solve the problems posed in the related art.

To achieve the above object, according to one aspect of the present invention, there is provided a production element-based platform comprising:

data center unit: for providing technical support for other units;

basic model unit: the platform is used for providing guidance support for structural design, modules, functions and processes of the platform;

element unit: the platform is used for integrating and optimizing various platforms, and improving the fluidity of production elements by providing transactions and services;

an application layer unit: for providing personalized solutions for different industries, fields and user needs;

supply chain unit: and the digital model is used for supporting interaction between enterprises and realizing seamless connection with the enterprises.

Further, the base model unit includes:

The product model module is used for defining static and dynamic properties and basic execution functions of the product;

The device model module is used for inheriting product attributes and methods, defining static and dynamic attributes of the manufacturing field device and providing basic execution functions for supporting the operation and maintenance of the device;

The talent model module is used for configuring the hierarchical encryption information and realizing the software abstraction of enterprise personnel;

the currency model module is used for realizing software abstraction of enterprise funds and circulation states thereof;

The map model module is used for realizing abstraction of the physical layout of the enterprise;

A relation model module: the relationship model module is used for describing software classes of relationships between other model modules.

Further, the relation model module comprises two basic relations of a factory process and a transfer process, wherein the factory process refers to a process that an element I input is changed into an element II output through a node process; the transfer process refers to a process in which an element is transmitted or communicated from the first node to the second node.

Further, the element units include a product platform, a device platform, an organization platform, a talent platform, a currency platform, and a contract platform.

Further, the implementation of the application layer unit is based on a basic model unit and an element platform, and the application layer unit comprises a production execution layer, a management operation layer and a support decision layer.

Further, the production execution layer acquires production information through the data center unit, and manages each business department through unified standard management.

Further, the unified standard management comprises system standard management, unified provider identification, unified client identification, unified material identification and unified organization management.

Further, the management and management layer comprises manpower resource management, financial management, material management and control, sales management and control and project management and control.

Further, the supply chain units include product merchandise markets, capital markets, talent markets, supply chain platforms.

Further, the supply chain platform comprises a raw material purchasing process, a product production process and a product selling process.

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

The invention supports the OT technology between the application layer and the data center table, designs a basic model and an element platform, and realizes the commonality part of the OT technology by software. Thus, the business of the application layer can share more supporting modules and tools, thereby reducing the cost and time for establishing the enterprise IIoT platform, reducing the operation and maintenance cost and further facilitating the interaction with other IIoT platforms. And (3) constructing IIoT basic OT modules of the platform based on the commonality of production elements of the manufacturing industry, precipitating as many OT modules as possible in the universal platform, and constructing subdivided platforms based on the basic modules, so that repeated development is reduced.

Drawings

FIG. 1 is a system block diagram of the overall invention;

FIG. 2 is a system block diagram of a base model element of the present invention;

Illustration of:

1. a data center unit;

2. a basic model unit;

21. a product model module; 22. an equipment model module; 23. talent model module; 24. a money model module; 25. a map model module; 26. a relationship model module;

3. An element unit;

4. An application layer unit;

5. a supply chain unit.

Detailed Description

In order to further describe the technical means and effects adopted by the present invention for achieving the intended purpose, the following detailed description will refer to the specific implementation, structure, characteristics and effects according to the present invention with reference to the accompanying drawings and preferred embodiments.

Referring to fig. 1-2, the present invention provides a production element based platform comprising:

data center unit 1: for providing technical support for other units;

Base model unit 2: the platform is used for providing guidance support for structural design, modules, functions and processes of the platform;

Element unit 3: the platform is used for integrating and optimizing various platforms, and improving the fluidity of production elements by providing transactions and services;

Application layer unit 4: for providing personalized solutions for different industries, fields and user needs;

Supply chain unit 5: and the digital model is used for supporting interaction between enterprises and realizing seamless connection with the enterprises.

The basic model unit 2 includes:

A product model module 21, said product model module 21 for defining static and dynamic properties and basic execution functions of a product;

A device model module 22, the device model module 22 for inheriting product properties and methods, defining static and dynamic properties of the manufacturing field device, providing basic execution functions supporting the device's operation and maintenance;

the talent model module 23, the talent model module 23 is used for configuring hierarchical encryption information, and implementing software abstraction for enterprise personnel;

A money model module 24, wherein the money model module 24 is used for implementing software abstraction of enterprise funds and circulation states thereof;

A map model module 25, wherein the map model module 25 is used for implementing abstraction of the physical layout of the enterprise;

Relationship model module 26: the relational model module 26 is used to describe software classes of relationships between other model modules.

The relationship model module 26 includes two basic relationships of a factory process and a transfer process, wherein the factory process refers to a process that an element I input is changed into an element II output through a node process; the transfer process refers to a process in which an element is transmitted or communicated from the first node to the second node.

The element unit 3 includes a product platform, an equipment platform, an organization platform, a talent platform, a currency platform, and a contract platform.

The implementation of the application layer unit 4 is based on the basic model unit 2 and the element platform 3, and the application layer unit 4 comprises a production execution layer, a management operation layer and a support decision layer.

The production execution layer acquires production information through the data center unit 1, and manages each business department through unified standard management.

The unified standard management comprises system standard management, unified provider identification, unified client identification, unified material identification and unified organization management.

The management and management layer comprises manpower resource management, financial management, material management and control, sales management and control and project management and control.

The supply chain unit 5 comprises a product commodity market, a capital market, a talent market, a supply chain platform.

The supply chain platform comprises a raw material purchasing process, a product production process and a product selling process.

In this embodiment, the base model unit 2 and the element unit 3 are added between the data center platform unit 1 and the application layer unit 4 of the main stream IIoT platform, so that the services of the application layer unit 4 can share more support modules and tools, thereby reducing the cost and time for establishing the enterprise IIoT platform, reducing the operation and maintenance cost, and further facilitating the interaction with other IIoT platforms. The operation of any manufacturing enterprise includes various production elements of equipment, products, physical layout, personnel, funds, etc., and relationships between them. As with other IIoT platforms, the data of the physical world is converged to the data center unit 1, and the invention builds a model and a platform of all production elements above the data center unit 1, and all enterprise operations are realized on the platform. The specific method comprises the following steps:

The data center station unit 1 is provided with a distributed disaster recovery structure, and the distributed disaster recovery structure mainly relates to three aspects of data storage and management, disaster recovery system design and data transmission architecture. The data storage and management adopts a distributed storage architecture, and the data is stored on a plurality of independent storage nodes in a scattered way, so that the reliability and the expandability of the data are improved. Meanwhile, a distributed management architecture is adopted to perform unified management and scheduling on the storage nodes, so that functions of automatic data backup, recovery, migration and the like are realized; the disaster recovery system design is based on a distributed disaster recovery model, and is designed to realize the functions of data backup, recovery and disaster recovery. The disaster recovery system needs to have the characteristics of automation, intelligence, reliability and the like, can quickly respond to faults and recover data, and ensures the continuity and stability of the service; the data transmission architecture adopts a distributed transmission architecture to transmit data from the central machine room to the disaster recovery machine room, and simultaneously realizes synchronization and backup of the data. The transmission architecture needs to have the characteristics of high efficiency, stability, reliability and the like, can meet the requirement of large-scale data transmission, and ensures the integrity and consistency of data.

Secondly, a basic model unit 2 is built according to the data in the data center unit 1, the basic model unit 2 comprises a product model module 21, an equipment model module 22, a talent model module 23, a currency model module 24, a map model module 25 and a relation model module 26, wherein the product model in the product model module 21 is an abstraction of a tradable object, a consumer product, an energy product, equipment used by manufacturing industry and the like are all products provided by suppliers, and the management of the whole life cycle of the products is from design to scrapping or consumption, so that the products are basic classes, the product model can define the static and dynamic properties of the products, such as components, raw materials, prices and the like, and some basic execution functions, any physical product can be represented by the class, and all software corresponding to the products is used by the class or subclasses led out by the class when a specific IIoT platform is built. The device model module 22 is a special software class derived from a product model that defines, in addition to inheriting product properties and methods, static and dynamic properties of the manufacturing field device, as well as basic execution functions that support the device's operation and dimensions. Any physical device may be represented by this class. When a specific IIoT platform is built, all software corresponding to the equipment uses the class or subclasses led out by the class. The equipment model is used for supporting the use and maintenance functions of the equipment in production. Talent model module 23 is a software abstraction for enterprise personnel. The system comprises configurable personal information, position information, authority information and talent full-period information, wherein the information comprises learning education information, history information, skill information and authentication information, and the information is encrypted in a grading manner and can be used under the authorization permission of the user. The money model module 24 is a software abstraction for enterprise funds and circulation status for business applications, investment applications, financing applications, exchange applications, futures underwriting, and the like. The map model module 25 is an abstraction of the physical layout of the enterprise, and can be realized by referring to a geographic information system, a hundred-degree map and a warehouse model. The relationship model in the relationship model module 26 defines a software class describing the relationships between the model modules, including two basic relationships, the first being a plant relationship, a plant process being a process in which an element one input is changed to an element two output through a node process; the second is a transfer relationship, where a transfer process refers to a process that an element is transferred or communicated from node one to node two, and by using these two basic relationship models, a tangential relationship class can be derived, for example: BOM, chemical reactions, information chains, process chains, supply chains, etc.

Furthermore, the platforms in the element unit 3 are all based on the models in the basic model unit 2, and the element unit 3 comprises a product platform, an equipment platform, an organization platform, a talent platform, a currency platform and a contract platform, wherein the product platform is mainly based on the product model and is a general product production and management platform, and the special products of enterprises can be built on the IIoT platform according to the product platform; the equipment platform is a universal equipment operation and maintenance platform which takes the equipment model as the main part. Support is provided for organizing all devices of an enterprise in a tree structure. Any IIoT platform device operation and maintenance management can be configured on this platform. The organization platform is mainly based on a talent model and a relation model and is used for supporting personnel management and personnel arrangement of various departments in the IIoT platform. Talent platform is based on talent model, and the skills of staff are combed in IIoT platform. The currency platform is based on a currency model and a relation model and is used for supporting a plurality of businesses related to funds in the IIoT platform. The contract platform is mainly based on a currency model and a relation model and is used for supporting a plurality of businesses related to contracts in the IIoT platform.

Further, with support of the base model module 2 and the element unit 3, services in the application layer unit 4 may share more support modules and tools. The application layer unit 4 includes a production execution layer, an operation management layer, and a decision support layer. The production execution layer acquires production data from the data center unit 1, and then performs unified management standards on services through system standard management, unified provider identification, unified customer identification, unified material identification and unified organization management, wherein specific service management comprises provider and purchase management, production management, inventory management, equipment management, safety management, labor protection management, quality management, environmental protection management, production execution management, energy management, statistical analysis, innovation management, knowledge management, investment project management, sales and customer management; and then, transmitting the data information of the business management of the production execution layer to a management layer, carrying out further management on the management, financial management, material management and control, sales management and project management, and finally, supporting the decision-making layer to comprehensively plan the data and providing personalized solutions for the requirements of different industries, fields and users.

Further, the supply chain unit 5 supports interaction between enterprises through the decision of the application layer unit 4, and enables seamless connection with the enterprises, the supply chain unit 5 comprises a product commodity market, a capital market, a talent market and a supply chain platform, each node of the supply chain platform is a manufacturing enterprise, the manufacturing enterprise comprises a raw material purchasing process, a product production process and a product selling process, a large group enterprise generally has several nodes on a supply chain, and the internal platform also needs to have elements of the supply chain platform.

The present invention is not limited to the above embodiments, but is capable of modification and variation in detail, and other modifications and variations can be made by those skilled in the art without departing from the scope of the present invention.

Claims (10)

1. A production element-based platform, comprising:

Data center unit (1): for providing technical support for other units;

basic model unit (2): the platform is used for providing guidance support for structural design, modules, functions and processes of the platform;

Element unit (3): the platform is used for integrating and optimizing various platforms, and improving the fluidity of production elements by providing transactions and services;

Application layer unit (4): for providing personalized solutions for different industries, fields and user needs;

Supply chain unit (5): and the digital model is used for supporting interaction between enterprises and realizing seamless connection with the enterprises.

2. The production element based platform according to claim 1, characterized in that the basic model unit (2) comprises:

A product model module (21), the product model module (21) being configured to define static and dynamic properties and basic execution functions of a product;

A device model module (22), the device model module (22) for inheriting product properties and methods, defining static and dynamic properties of the manufacturing field device, providing basic execution functions supporting the device's operation and maintenance;

the talent model module (23), the said talent model module (23) is used for disposing the information encrypted in grades, realize the software abstraction to the personnel of enterprises;

A money model module (24), the money model module (24) being configured to implement software abstraction of enterprise funds and their circulation status;

-a map model module (25), the map model module (25) being for enabling abstraction of an enterprise physical layout;

Relationship model module (26): the relational model module (26) is used to describe software classes of relationships between other model modules.

3. The production element based platform of claim 1, wherein the relationship model module (26) comprises two basic relationships of a factory process and a transfer process, the factory process being a process in which an element one input is changed into an element two output by a node process; the transfer process refers to a process in which an element is transmitted or communicated from the first node to the second node.

4. The production element-based platform according to claim 1, wherein the element unit (3) comprises a product platform, an equipment platform, an organization platform, a talent platform, a currency platform and a contract platform.

5. The production element based platform according to claim 1, characterized in that the implementation of the application layer unit (4) is based on a base model unit (2) and an element platform (3), the application layer unit (4) comprising a production execution layer, a management administration layer and a support decision layer.

6. The production element-based platform according to claim 5, wherein the production execution layer acquires production information through the data center unit (1) and manages each business department through unified standard management.

7. The production element-based platform of claim 6, wherein the unified standards management comprises a hierarchy of standards management, a unified vendor identification, a unified customer identification, a unified materials identification, and a unified organization management.

8. The production element-based platform of claim 5, wherein the management business layer comprises human resource management, financial management, material management, sales management, and project management.

9. The production element based platform according to claim 1, characterized in that the supply chain unit (5) comprises a product commodity market, a capital market, a talent market, a supply chain platform.

10. The production element-based platform of claim 9, wherein the supply chain platform includes a raw material purchasing process, a product production process, and a product sales process.