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    Home > Coatings News > Paints and Coatings Market > Industry | The Ministry of Industry and Information Technology released a three-year action plan for the digital transformation of intelligent manufacturing in the building materials industry

    Industry | The Ministry of Industry and Information Technology released a three-year action plan for the digital transformation of intelligent manufacturing in the building materials industry

    • Last Update: 2021-03-28
    • Source: Internet
    • Author: User
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    The Ministry of Industry and Information Technology issued the "Three-year Action Plan for the Digital Transformation of Intelligent Manufacturing in the Building Materials Industry (2020-2022)" and publicly solicited opinions.
    The plan proposes that through three years of hard work, the building materials industry's basic support for informatization will be significantly enhanced, a relatively complete industrial ecology and service system will be formed, innovative breakthroughs will be made in key common technologies of intelligent manufacturing, and significant results will be achieved in key areas of demonstration, leadership, and promotion and application.
    The level of digitalization, intelligence, and networking in the entire industry has been greatly improved, promoting the advanced and modernization of the entire industry chain of the building materials industry, and speeding up the entry into the advanced manufacturing industry.

    Three-year action plan for the digital transformation of intelligent manufacturing in the building materials industry (2020-2022) (Draft for comments) The current global new round of scientific and technological revolution and the accelerated evolution of industrial transformation, big data, cloud computing, The new generation of information and communication technologies such as artificial intelligence, 5G communications, and industrial Internet are booming, and the manufacturing industry is increasingly showing a trend of digital, networked, and intelligent development.
    The building materials industry (including inorganic non-metallic materials) is a basic industry for the development of the national economy and society, an indispensable support for infrastructure and construction projects, an important guarantee for the development of strategic emerging industries and national defense and military industries, as well as environmental governance and ecological An indispensable and important part of civilization construction.
    In order to further implement the strategy of a strong manufacturing country and a strong network, implement the "Guiding Opinions of the State Council on Deepening the "Internet + Advanced Manufacturing" and Develop Industrial Internet", and promote the realization of the building materials industry and information technology in a wider, deeper and higher level Integrate development, promote the transformation of the building materials industry's development mode, adjust the industrial structure, transform the growth momentum, and accelerate the development of high-quality, and formulate this action plan.
    1.
    General requirements 1.
    General requirements (1) Guiding ideology (1) Guiding ideologyGuided by Chairman Xi’s Thought on Socialism with Chinese Characteristics for a New Era, fully implement the spirit of the 19th National Congress of the Communist Party of China and the 2nd, 3rd and 4th Plenary Sessions of the 19th Central Committee, firmly establish and practice the new development concept, and take supply-side structural reforms as an example.
    The main line is to strengthen the basic support capabilities of the building materials industry informatization, focus on expanding the industry's digital transformation demonstration applications, focus on strengthening the in-depth integration of the new generation of information technology and the building materials industry, and strive to promote the integration of R&D and design, logistics procurement, production control, operation management, and professional services , The whole chain and the whole system informatization with marketing as a whole will accelerate the realization of intelligent production, networked collaboration, large-scale customization, and service-oriented extension, and promote the high-quality development of the building materials industry.
    (2) Basic principles (2) Basic principles adhere to demand-driven.
    Faced with the urgent need for the intelligent digital transformation of the building materials industry, it will take advantage of its large scale and rich scenes, fully grasp the characteristics of different fields and enterprises in the building materials industry, promote the first breakthrough in key areas, and significantly improve the overall level.
    Insist on innovation-driven.
    Establish and improve the innovation system, stimulate the innovation vitality of the industry, and promote the collaborative innovation of industry, university, research and application.
    Guide innovation resources to converge in the field of intelligent digitalization, give full play to the advantages of the new generation of information and communication technology, and drive technological innovation, product innovation, model innovation, management innovation and business format innovation in the building materials industry.
    Adhere to market leadership.
    Strengthen market orientation, highlight the main body of enterprises, give full play to the decisive role of market allocation of resources, promote the integration of the information industry and the building materials industry, the integration of the building materials industry with the upstream and downstream industries, the integration of the building materials manufacturing industry and the producer service industry, and realize the integrated application of the entire industry chain .
    Persist in government guidance.
    Coordinate and integrate resources, strengthen top-level design, clarify the direction of development, give full play to the government's active role in direction guidance, policy support, etc.
    , classify guidance, and orderly advance, forming a development environment conducive to the digital transformation of intelligent manufacturing in the building materials industry.
    (3) Main goals (3) Main goalsThrough three years of hard work, the building materials industry's basic support for informatization has been significantly enhanced, a relatively complete industrial ecology and service system has been formed, innovative breakthroughs have been made in key common technologies of intelligent manufacturing, demonstrations, leadership, and promotion and application in key areas have achieved significant results, and the entire industry has been digitized The level of intelligence and networking has been greatly improved, promoting the advanced and modernization of the entire industrial chain of the building materials industry, and accelerating its entry into advanced manufacturing.
    ——The supporting system is basically complete.
    Accumulatively formulated and revised more than 30 building materials industry intelligent manufacturing standards, cultivated 5 building materials industry informatization suppliers with an annual output value of more than 100 million yuan, and established 10 building materials segmented public service platforms to basically meet the needs of building materials industry informatization development.
    ——Innovative capabilities have been significantly enhanced.
    Establish 5 building materials industry smart manufacturing innovation centers, form 15 sets of building materials industry system solutions, break through 50 key common technologies for smart manufacturing in the building materials field, and innovate to form a number of new-generation technology use scenarios such as big data, cloud computing, 5G communications, and industrial Internet .
    ——The promotion and application have achieved remarkable results.
    Select 6 smart manufacturing benchmark companies, build 50 smart factories in the building materials industry, build 15 digital mines, and cultivate 100 typical projects that have achieved outstanding results in individual applications in R&D and design, manufacturing, supply chain management, and e-commerce.
    2.
    Key Tasks 2.
    Key Tasks (1) Actions for building an informatization ecosystem of the building materials industry (1) Actions for building an informatization ecosystem for the building materials industry 1.
    Improving the implementation system for the integration of the two technologies of building materials.
    Continue to guide building materials companies to carry out standard implementation work in accordance with the national standards of the integration of industrialization and industrialization management system, encourage qualified companies to apply for evaluation; organize standard implementation consulting service agencies to go deep into enterprises, and carry out infrastructure construction, single application, comprehensive integration, and collaborative innovation against national standards Establish a mechanism for implementing standards, annual evaluation and promotion, and tracking and feedback for building materials companies, and promote the integration of the two industrializations of the building materials industry to a higher level.
    2.
    Establish a standard system for intelligent manufacturing of building materials.
    Establish a standardization coordination and promotion team for smart manufacturing in the building materials industry, establish a smart manufacturing standard system for the building materials industry; organize the research and formulation of standards and procedures for smart factories, digital mines, etc.
    ; build a test and verification platform for smart manufacturing standards, and verify the actual work in related fields of the company The validity and enforceability of standards.
    3.
    Cultivate an information public service system.
    Promote close cooperation in different fields such as equipment, software, automation, instrumentation, system integrators, security protection, etc.
    , accelerate the cultivation of a group of system solution suppliers for the building materials industry, and regularly publish the list; meet the needs of the information development of the building materials industry, and promote the industry Each link of the chain will divide labor and cooperate and develop together, and establish a number of public service platforms for sub-industry of building materials.
    (2) Innovation action of intelligent manufacturing technology in building materials industry (II) Innovation action of intelligent manufacturing technology in building materials industry 4.
    Break through a batch of key core technologies.
    Relying on the backbone of the industry, create an open and shared intelligent manufacturing innovation platform for the building materials industry, carry out research and development of key common technologies, components and equipment; guide enterprises to increase R&D investment, breakthroughs in intelligent control and optimization, new sensor perception, data collection and analysis, and faults A batch of core technologies such as diagnosis and health maintenance, industry-specific software, and special craft manufacturing.
    Core 5.
    Form a batch of system solutions.
    According to the characteristics of different sub-industry of building materials, focusing on mining, raw material preparation, furnace control, logistics warehousing, online inspection, etc.
    , several sets of intelligence with functions such as automatic execution, intelligent perception, deep learning, and intelligent decision-making are refined and formed.
    , Digital and integrated system solutions.
    Column 1 System solutions for key subdivisions of building materials industry Column 1 System solutions for key subdivisions of building materials Cement industry: focus on the formation of intelligent mine drilling and blasting, optimized control of kilns, equipment inspection and operation and maintenance, intelligent quality control, energy and water consumption management , Clean packaging and shipping, safety and environmental protection management, solid waste co-processing and other integrated system solutions.
    Glass industry: Focus on the formation of integrated system solutions for the three major thermal control of glass melting furnace, tin bath and annealing furnace, cold end optimization control, online defect detection, and automatic cutting and slicing.
    Ceramic industry: focus on the formation of integrated system solutions such as raw material standard data, press control management, intelligent high-pressure grouting, green body drying control, unmanned material loading and unloading, kiln optimization control, product intelligent grinding and polishing, automatic quality inspection, three-dimensional warehouse logistics and other integrated system solutions Program.
    Refractory industry: focus on the formation of integrated system solutions such as raw material preparation, press control, furnace optimization, online monitoring, and automatic three-dimensional warehouse.
    Wall material industry: focus on the formation of integrated system solutions such as precise preparation of raw materials, blank shaping and cutting, drying (autoclaved) maintenance, kiln optimization control, automatic quality inspection, intelligent packaging logistics, and pollution emission control.
    Insulation materials industry: focus on the formation of integrated system solutions such as homogenization of raw materials and ingredients, automatic feeding and feeding, optimization and control of melting furnaces, online quality inspection, intelligent cutting (sorting) packaging, and digital storage of materials.
    Concrete industry: Focus on forming an integrated system solution that integrates manufacturing execution management, intelligent logistics and distribution, and online quality inspection, and is closely connected with upstream bulk materials and downstream construction projects.
    Waterproof material industry: focus on the formation of integrated system solutions such as automatic feeding and metering, process quality control, manufacturing execution management, packaging, warehousing and logistics.
    Non-metallic mining industry: focus on the formation of integrated system solutions such as integrated geological prospecting data management, fine raw material extraction, material weighing and homogenization, intelligent line selection control, mineral processing optimization, online parameter monitoring, and finished product packaging logistics.
    High-performance fiber and composite materials industry: focus on forming integrated system solutions such as pool kiln wire drawing control, intelligent online detection, automatic logistics transportation, injection molding pultrusion winding, and pressing equipment control.
    Machine-made sand and gravel industry: focus on the formation of integrated system solutions for online monitoring and intelligent control of various links such as sand and gravel aggregate crushing and shaping, grading adjustment, dust collection, wastewater treatment, and material storage and transportation.
    Wood building materials industry: focus on forming integrated system solutions for raw material sorting, intelligent drying, automatic production control, and online monitoring and testing.
    Inorganic non-metallic new materials: focus on the formation of materials R&D and design integrating calculation, experiment and data, as well as intelligent grading, purification, modification, growth, control, processing and other integrated system solutions.
    Innovate a batch of industrial Internet usage scenarios.
    Construct three major functional systems of network, platform, and security, encourage the building materials industry to actively explore "5G + Industrial Internet", and promote the continuous extension of 5G technology to the internal links of production.
    Promote the construction of secondary nodes for industrial Internet identification analysis in the building materials industry, and deepen the application of identification analysis.
    Vigorously develop the industrial Internet platform for the building materials industry, accelerate the development of the building materials industry APP, realize the interconnection of manufacturing resources and manufacturing capabilities, break through physical constraints, corporate constraints, and space constraints, and move toward the direction of collaboration between enterprises and extensive sharing of social resources.
    Column 2 New-generation ICT innovation scenario direction Column 2 New-generation ICT innovation scenario direction Big data: use big data collection, analysis, mining and other technologies to improve monitoring and traceability, predictive maintenance, quality control, supply chain prediction, energy Intelligent service capabilities such as management.
    Cloud platform: Promote enterprises to migrate infrastructure, business systems, and equipment products to the cloud, and establish an industrial cloud service platform for the building materials industry.
    5G communication: Guide enterprises to use 5G communication technology advantages such as high bandwidth, low latency, and large connections to achieve interconnection and interoperability, and encourage exploration of integrated and innovative applications in areas such as unmanned driving, remote blasting, and equipment operation and maintenance.
    Artificial Intelligence: Promote the application of advanced artificial intelligence algorithms, domestic artificial intelligence chips and equipment in the fields of intelligent production, intelligent decision-making, intelligent logistics, intelligent monitoring, and intelligent traceability in the building materials industry.
    BIM: Use Building Information Modeling (Building Information Modeling) technology to promote the seamless connection of building materials and buildings, and realize the traceability, predictability, maintenance, and recyclability of the whole life cycle of building materials.
    Digital twin: Make full use of computational modeling, real-time sensing, simulation technology and other means to realize the mapping of building materials factories in the virtual space, and promote the optimal management of the whole cycle of design, installation, operation and maintenance of complete sets of production equipment.
    (3) Promotion and application of intelligent manufacturing in the building materials industry (3) Promotion and application of intelligent manufacturing in the building materials industry7.
    Vigorously cultivate smart factories and digital mines.
    Among the enterprises that have achieved outstanding results in implementing intelligent manufacturing, they will play a role of demonstration and leading role of benchmarking enterprises, continue to improve, iterate and upgrade, and transplant and promote the experience and model formed in the industry on a large scale.
    In accordance with smart factory construction regulations and standards, cultivate a batch of smart factories in the building materials industry that integrate smart production, smart operation and maintenance, and smart management, and effectively improve operational efficiency, product quality, intrinsic safety, network security, equipment management, and green development.
    Use three-dimensional simulation, intelligent mining and selection, automatic mine distribution, unmanned driving and disaster monitoring and other means to create a group of safe, efficient and green digital mines.
    8.
    Focus on promoting typical applications in key links.
    Aiming at the characteristics of the combination of process and decentralization in the building materials industry, focusing on the key links of production and operation, accelerating the promotion and application of digital design, kiln control optimization, intelligent warehousing and logistics, personalized customization, network integration outsourcing, product quality traceability, online monitoring and testing , Industrial chain collaboration and other advanced intelligent digital technology, cultivate a batch of single application typical projects.
    In heavy and dangerous positions such as handling and palletizing, feeding and loading, polishing and glazing, painting and polishing, and high-temperature furnaces, as well as high-precision positions such as image recognition, cutting and sorting, and sampling and testing, the implementation of robot replacement is accelerated.
    9.
    Accelerate the improvement of the informatization level of small and medium-sized building materials enterprises.
    There are a large number of small and medium-sized building materials in a wide range of types, and it is necessary to establish a collaborative promotion mechanism for large-scale building materials enterprises and small and medium-sized smart manufacturing enterprises.
    Cultivate a group of solution providers and information technology products for small and medium-sized building materials companies, and build a number of public service platforms for informationization of small and medium-sized enterprises.
    Integrate and expand relevant resources, build cloud manufacturing and cloud service platforms for small and medium-sized building materials companies, provide online services such as industrial software, R&D and design, marketing, logistics and warehousing, and accelerate the development of intelligent digital transformation of small and medium-sized enterprises.
    3.
    Safeguard measures 3.
    Safeguard measures (1) Strengthen overall planning and coordinationAll local industry and information authorities should strengthen organization and coordination, establish and improve the digital transformation promotion mechanism of intelligent manufacturing in the building materials industry in the region, clarify the time schedule requirements, strengthen supervision and inspection, and ensure the completion of goals and the implementation of tasks.
    Industry associations, industry alliances, ministries, universities, backbone enterprises, and research institutes should strengthen communication and cooperation to form a joint force for advancement.
    Various sub-sectors of building materials and qualified enterprises shall formulate relevant development plans, set up promotion departments and institutions, and guarantee personnel and capital investment.
    Establish a committee of intelligent manufacturing experts in the building materials industry to provide consulting and advice on strategies, technologies, and policies.
    (2) Increase policy support and make good use of various government funds, increase support for intelligent manufacturing in the building materials industry, and focus on supporting the development of standards and specifications, the construction of public platforms, the research and development of key common technologies, diagnostic consulting services, system solutions and typical applications Promotion.
    Encourage the establishment of a digital transformation investment fund for intelligent manufacturing of building materials, focusing on the application and development of artificial intelligence, big data, 5G communications, industrial software, core devices, and industrial Internet in the field of building materials.
    Support qualified building materials intelligent technology equipment enterprises to apply for relevant tax incentives and insurance compensation.
    Encourage the flow of element resources such as finance, human resources, and land to enterprises that implement the standardization of the integration of the two management systems and advanced intelligent manufacturing enterprises.
    (3) Accelerate the training of talents and implement the "first-hand" responsibility system for the digital transformation of intelligent manufacturing of building materials enterprises, encourage the establishment of chief information officers, and form a group of leading talents leading the intelligent digital development of the building materials industry.
    Regularly hold training courses for intelligent manufacturing talents in the building materials industry, and develop a batch of compound talents for the deep integration of industrialization and informatization.
    Encourage qualified enterprises, universities, and institutes to jointly build intelligent manufacturing training bases and cultivate a group of high-quality technical and technical talents with the spirit of craftsmen.
    Innovate policies and methods for the introduction of talents, and strengthen the introduction and exchange of foreign high-end intelligent manufacturing talents.
    (4) Create a good environmentGive full play to the role of the building materials industry association and the intelligent manufacturing promotion alliance, strengthen the publicity and interpretation of national policies, earnestly summarize and promote advanced experience and practices, and continue to carry out the evaluation of the digital transformation level of building materials intelligent manufacturing.
    Build a public service platform for the industry, organize technology research and development and standard formulation, and carry out diagnostic consultation.
    Strengthen communication and publicity, explore advanced models, collect and sort relevant data and cases, and hold personnel training and promotion conferences.
    Strengthen international exchanges, promote open cooperation, and work with countries around the world to promote intelligent manufacturing and digital transformation of the building materials industry to achieve high-quality development.

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