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GB/T 32235.1-2024: Industrial-process measurement, control and automation - Digital factory framework - Part 1: General principles
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Industrial-process measurement, control and automation - Digital factory framework - Part 1: General principles
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GB/T 32235.1-2024
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Basic data | Standard ID | GB/T 32235.1-2024 (GB/T32235.1-2024) | | Description (Translated English) | Industrial-process measurement, control and automation - Digital factory framework - Part 1: General principles | | Sector / Industry | National Standard (Recommended) | | Classification of Chinese Standard | N10 | | Classification of International Standard | 25.040 | | Word Count Estimation | 32,321 | | Date of Issue | 2024-08-23 | | Date of Implementation | 2024-08-23 | | Issuing agency(ies) | State Administration for Market Regulation, China National Standardization Administration | GB/T 32235.1-2024: Industrial-process measurement, control and automation - Digital factory framework - Part 1: General principles
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ICS 25.040
CCSN10
National Standard of the People's Republic of China
Replace GB /Z 32235-2015
Industrial process measurement, control and automation
Digital factory framework Part 1.General requirements
(IEC 62832-1.2020,IDT)
Released on 2024-08-23
2025-03-01 Implementation
State Administration for Market Regulation
The National Standardization Administration issued
Table of Contents
Preface III
Introduction IV
1 Scope 1
2 Normative references 1
3 Terms, definitions and abbreviations 1
3.1 Terms and Definitions 1
3.2 Abbreviations 4
4 DF Framework Overview 5
4.1 Overview 5
4.2 DF Reference Model 6
4.3 Use of Digital Factory 6
5 DF reference model 7
5.1 Concept Identifier 7
5.2 Concept dictionary entries 8
5.3 Concept Dictionary 9
5.4 Data Elements 10
5.5 Data element set 10
5.6 DF Asset Class 10
5.7 View Elements 11
5.8 Library 12
5.9 DF Assets 12
5.10 Model elements of relationships 14
5.11 Digital Factory15
6 Rules of DF Framework 15
6.1 Representation of production systems 15
6.2 Integration rules in DF library 16
6.3 Rules for using DF assets in digital factories 17
6.4 Reuse of digital factory structures 17
Reference 18
Foreword
This document is in accordance with the provisions of GB/T 1.1-2020 "Guidelines for standardization work Part 1.Structure and drafting rules for standardization documents"
Drafting.
This document is Part 1 of GB/T 32235.GB/T 32235 has been published in the following parts.
--- Part 1.General requirements;
--- Part 2.Model elements.
This document replaces GB /Z 32235-2015 "Reference model for the representation of industrial process measurement, control and automation production facilities (Digital Process
Compared with GB /Z 32235-2015, in addition to structural adjustments and editorial changes, the main technical changes are as follows.
--- Added the use of DF reference model and digital factory (see 4.2 and 4.3);
--- Changed the reference model concepts and reference model activities, concept identifiers, concept dictionary entries, concept dictionaries, data elements,
The contents of data element collection, DF asset class, view element, library, etc. are refined (see 5.2, 5.3, 5.4, 5.5, 5.6, 5.7 and
5.8, 5.1, 5.2 and 5.3 of the.2015 edition).
This document is equivalent to IEC 62832-1.2020 "Industrial process measurement, control and automation digital factory framework Part 1.Communication
"Requirements for Use".
Please note that some of the contents of this document may involve patents. The issuing organization of this document does not assume the responsibility for identifying patents.
This document was proposed by the China Machinery Industry Federation.
This document is under the jurisdiction of the National Industrial Process Measurement, Control and Automation Standardization Technical Committee (SAC/TC124).
This document was drafted by. Mechanical Industry Instrumentation Comprehensive Technical and Economic Research Institute, China University of Metrology, Southwest Jiaotong University, Shaanxi Yanchang University
PetroChina (Group) Co., Ltd., Zhejiang Sci-Tech University, SUPCON Technology Co., Ltd., Zhejiang Technology Innovation Service Center, Anhui Industry
University, Hebei University of Technology, Shenzhen Lanyang Technology Co., Ltd., Electric Power Planning and Design Institute Co., Ltd., Tianjin University, Siemens (China) Co., Ltd.
Company, Schneider Electric (China) Co., Ltd., Rockwell Automation (China) Co., Ltd. Beijing Branch, Shenyang University of Technology, Chongqing Sichuan
Instrument Automation Co., Ltd., COAS Industrial Intelligence Research Institute (Qingdao) Co., Ltd., MCC Huatian Engineering Technology Co., Ltd., CITIC Dai
Card Co., Ltd., Zhejiang Mobile Information System Integration Co., Ltd., Donghua Engineering Technology Co., Ltd., Shenyang Hongyu Technology Co., Ltd.
Co., Ltd., Jiangsu Quality and Standardization Research Institute, and Hangzhou Wolei Intelligent Technology Co., Ltd.
The main drafters of this document are. Wang Chengcheng, Huang Yu, Chen Zhengsheng, Huang Jing, Yu Wenguang, Liu Jing, Wang Chunxi, Xu Yuzhen, Guo Qing, Wang Jing, Zhang Jinbin,
Dong Feng, Shen Hao, Li Bin, Zhu Guoliang, Yan Xinhua, Gao Jingmei, Wang Yu, Fang Tian, Meng Xiangyin, Zhang Xiaoling, Tian Yingming, Qian Lili, Ye Dong, Xia Yuhuan,
Gao Guoping, Lü Wentao, Wei Xinyuan, Zhao Jia, Ji Haipeng, Gui Feng, Xu Bin, Zhang Jian, Lin Ning, Guo Bin, and Li Laishi.
This document was first published in.2015 and this is the first revision.
Introduction
0.1 Market demand and environment
High performance, flexible dynamic processes and agile equipment and production systems are important to meet product quality, delivery and cost requirements.
These requirements will increase the complexity of factory life cycle management. In addition, all product and production system information is transmitted through the
The entire life cycle of products and production systems is described and modified, for example during the planning, development or operation of products and production systems.
This situation has prompted companies to adopt electronic data to exchange data about products and production systems.
However, each enterprise and each department within each enterprise often uses different terminology, structure, and
and media to describe products and production systems.
Examples. Examples of data management solutions include paper-based, database-based, disk-based, electronic directory, and cloud-based.
Therefore, it is impossible to find (establish) a seamless information exchange between all units involved in the life cycle of products and production systems.
Efficient data exchange between and within enterprises can only be achieved when the syntax (format) and semantics (meaning) of the relevant information are unified.
1.Sharing can only be realized after the method is stipulated.
0.2 History of standardization in this field
The basic purpose of early work on electronic product data was to replace paper with electronic descriptions of electronic components in products.
Data list, also used in software tools to describe electronic circuits and components (for example, when designing electronic circuit boards).
In addition, this concept is further used in the equipment configuration of production systems, with the aim of better describing the relevant parameters and the impact of behavior.
factors to facilitate integration and reduce engineering costs, and provide guidance for standard developers.
Note 1.See Equipment Configuration Guide (GB/T 34064-2017).
GB/T 20818.10-2017 specifies the basic principles by creating a list of properties (LOPs).
These properties are compiled into a modular form.
Subsequent parts of GB/T 20818 and other relevant standards (such as GB/T 35743-2017)
Defines a list of reference properties for electronic/electrical components and materials in electrotechnical equipment and systems, such as for measuring flow, pressure, temperature, potential
And density equipment.
Note 2.Although the name of GB/T 35743 is "Product data and characteristics for information exchange of low-voltage switchgear and controlgear", GB/T 35743
The purpose of this specification is to enable coordination between devices through the exchange of information when describing the devices used in the production system.
GB/T 38984.1-2020, IEC 61360-2 and ISO 13584-42 clearly define the basic principles of component type characteristics and their attributes.
The database developed on this basis is named IEC Common Data Dictionary (IEC CDD), which is a database of various types of components and their attributes.
A reference collection of documents. ISO 22745 (all parts) specifies Open Technical Dictionaries (OTDs) and their use in master data. ISO /IEC
Guide 77 provides recommendations for describing products and their characteristics for use in creating these classifications, catalogues, and reference dictionaries.
Note 3.The term "product" used in ISO /IEC Guide No. 77 includes equipment, process, system and facility.
ISO 15704 specifies requirements for enterprise reference architectures and methods to support collaborative and integrated applications, as well as the requirements for supporting system
Requirements for enterprise architecture applied across the entire lifecycle and supply chain.
A series of efforts in the development of business and manufacturing enterprise models are aimed at helping companies better understand the role of enterprises in improving their own operations.
In addition, enterprise and control system models for production systems have also been developed, but further development is needed to improve
There is still a gap in model development from the production system design environment to the production operation environment, especially for the sharing of process, instrument and equipment information.
In terms of.
Note 4.GB/T 20720 (all parts) specifies the functional models of the production domain and the control domain and the information exchanged with the enterprise domain.
0.3 Purpose and significance of GB/T 32235 (all parts)
The above standards provide a method for describing the characteristic attributes of a given device, while GB/T 32235 (all parts) provides a method for describing the characteristic attributes of a given device by providing a typical
This approach is extended by defining a reference model of the production system (including related equipment).
In order to effectively manage the entire life cycle of the production system, it is necessary to have a digital representation and adaptively combine the evolution of the life cycle
It is very important to maintain the relevant content. Production system related activities access, update and use these digital representations of the content.
These digital representations provide continuous communication between the relevant processes and components of the production system.
Information interaction, and making this information understandable, reusable and modifiable throughout the entire life cycle.
Dictionaries and models help create digital representations by describing elements of production systems, such as equipment and instruments.
Obtaining the expected digital representation of the production system requires more additional information, such as a description of the relationships between elements.
GB/T 32235 provides a framework for establishing and maintaining a digital representation of a production system, including elements, relationships between elements,
The framework aims to reduce the interoperability barriers between the different activities of the production system.
The main advantage is that all information related to the production system can be described in a standardized way and can be used throughout the entire life cycle.
The methods defined in GB/T 32235 are as general as possible so that they can be applied in different industrial fields.
It consists of parts.
--- Part 1.General requirements. The purpose is to specify the general requirements of the digital factory framework such as production system asset model, relationship model, information flow, etc.
Use aspect.
--- Part 2.Model elements. The purpose is to specify the data element types, templates, model elements and other related requirements of the digital factory framework.
--- Part 3.Digital factory application for full life cycle management of production systems. The purpose is to standardize the digital factory application for managing the full life cycle of production systems.
Digital factory framework rules for cycle information.
Industrial process measurement, control and automation
Digital factory framework Part 1.General requirements
1 Scope
This document specifies the common requirements for the Digital Factory Framework (DF Framework). The Digital Factory Framework is a set of models for modeling production systems.
Elements (DF framework) and rules.
The DF framework specifies.
--- Model of production system assets;
--- Models of relationships between different production system assets;
---Information flow of production system assets.
The DF framework does not include building structures, input resources (such as raw materials, assembly parts), consumables, workpieces in production, or final products.
express.
This standard applies to the three production processes (continuous control,
batch control and discrete control).
Note. Due to the different methods of describing production systems in GB/T 18975 (all parts), this document does not provide application based on GB/T 18975 (all parts).
scene.
The production system representation method specified in this document is used throughout all stages of the production system life cycle (e.g. design, construction, operation or
Maintenance). Requirements and specifications for software tools supporting the DF framework are outside the scope of this document.
2 Normative references
The contents of the following documents constitute essential clauses of this document through normative references in this document.
For referenced documents without a date, only the version corresponding to that date applies to this document; for referenced documents without a date, the latest version (including all amendments) applies to
This document.
GB/T 32235.2-2024 Digital factory framework for industrial process measurement, control and automation Part 2.Model elements
(IEC 62832-2.2020,IDT)
ISO /T S29002-5 Industrial automation systems and integrated characteristic data exchange Part 5.Authentication scheme (Industrial
3 Terms, definitions and abbreviations
3.1 Terms and Definitions
The following terms and definitions apply to this document.
3.1.1
activity
A grouping of tasks organized into groups with a common goal.
Examples. electrical wiring design, PLC programming, installation, wiring, drive configuration, modeling, simulation, monitoring.
[Source. GB/T 20720.1-2019, 3.1.1, modified]
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