GBZ32235-2015 English PDF

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GBZ32235-2015: Industrial-process measurement, control and automation -- Reference model for representation of production facilities (digital factory)
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Basic data

Standard ID: GB/Z 32235-2015 (GB/Z32235-2015)
Description (Translated English): Industrial-process measurement, control and automation -- Reference model for representation of production facilities (digital factory)
Sector / Industry: National Standard
Classification of Chinese Standard: N10
Classification of International Standard: 25.040
Word Count Estimation: 35,341
Date of Issue: 2015-12-10
Date of Implementation: 2016-07-01
Quoted Standard: IEC 62683
Adopted Standard: IEC/TR 62794-2012, IDT
Regulation (derived from): National Standard Announcement 2015 No.38
Issuing agency(ies): General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China
Summary: This standard specifies a reference model that includes some abstract descriptions: automated assets; structural and operational relationships. The reference model is the basis for an electronic representation of some aspect of the plant. It includes systems for producing products (excluding facilities), but it does not include raw materials, work in process and final products. The corresponding information stored in the digital factory depot represents all aspects of the digital factory. This information can be used throughout the plant life cycle. The reference model can be applied to process plants, manufacturing plants, or building automation.

GBZ32235-2015: Industrial-process measurement, control and automation -- Reference model for representation of production facilities (digital factory)

---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Industrial-process measurement, control and automation. Reference model for representation of production facilities (digital factory) ICS 25.040 N10 People's Republic of China national standardization of technical guidance documents Industrial Process Measurement, Control and Automation Production facility presentation reference model (digital factory) Industrial-processmeasurement, controlandautomation-Reference modelforrepresentationofproductionfacilities (digitalfactory) (IEC /T R62794.2012, IDT) Posted on.2015-12-10 2016-07-01 implementation General Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China China National Standardization Administration released Directory Foreword Ⅲ Introduction IV 0.1 Digital Factory Reference Model Background Ⅳ 0.2 Digital Factory Approach IV 1 Scope 1 2 Normative references 1 3 Terms, definitions, symbols and abbreviations 1 3.1 Terms and definitions 1 3.2 Symbols and Abbreviations 3 3.3 agreement 3 4 Digital Factory Model and Data Warehouse Overview 5 5 Reference Model Concept 6 5.1 Features 6 5.2 The basic elements 8 5.3 The relationship between the basic elements (BE relationship) 9 6 Reference Model Activities 15 6.1 Digital Factory Warehouse and Activities 15 6.2 Life Cycle Perspective Filtering of Data 16 6.3 Lifecycle Workflow Activities 17 Appendix A (informative) the relationship between terms 20 Appendix B (Informative) Characteristic Database Standard Reference 23 References 25 Figure 1 Digital Factory and Related Standards Activities Ⅴ Figure 2 Conversion from traditional system to new electronic method 5 Figure 3 Digital Factory Depot, Automation Asset and Activity Overview 6 Figure 4 Example of automated asset characteristics 7 Figure 5 Automation Asset Perspectives 8 Figure 6 Automated Asset Properties Grouping 9 Figure 7 the relationship between the basic elements 9 Figure 8 a separate PLC structure relationship view example 10 Figure 9 Distributed Function Running Relationship View Example 11 Figure 10 Example of structural relationship types (permanent and temporary) 11 Figure 11 Examples of types of operational relationships (permanent and temporary) 12 Figure 12 Example of timing properties 13 Figure 13 Relationship Example 15 Figure 14 Part of Engineering Activities 16 Figure 15 Life Cycle Activity Data Filtering 17 Figure 16 Lifecycle Workflow 18 Figure 17 Production Process and Application Performance Requirements 18 Figure 18 Digital Factory Performance Simulation 19 Figure A.1 The relationship between terms (1) 21 Figure A.2 Relationship between terms (2) 22 Figure B.1 Overview of IEC 61987 Series 23 Figure B.2 Overview of the IEC 62683 standard Table 1 shows the basic elements of the agreement 3 Table 2 Structural Relationships Optional Attributes Representation Conventions 4 Table 3 Run Relationships Optional Attributes Representation Conventions 4 Table 4 List of valid combinations of relationship attributes 13

Foreword

This instructional document has been drafted in accordance with the rules given in GB/T 1.1-2009. The guidance of technical documents using the translation method is equivalent to using IEC /T R62794.2012 "industrial process measurement, control and automation Production facility presentation reference model (Digital Factory) "(in English). Its technical content, text structure and expression and IEC /T R62794. 2012 is exactly the same. This guidance document is proposed by China Machinery Industry Federation. This Guidance Document is governed by the National Technical Committee for Measurement, Control and Automation of Industrial Processes (SAC/TC124). The guidance of technical documents drafting unit. Machinery Industry Instrumentation Technology Institute of Economics, Systems Engineering Co., Ltd. Beijing and Belgium Division, Rockwell Automation (China) Co., Ltd., Shenyang Institute of Automation, Chinese Academy of Sciences, Chongqing Chuan Yi Automation Co., Ltd., South Beijing You Times Electric Co., Ltd., China National Tobacco Corporation staff training college, Zhejiang University, Siemens (China) Co., Ltd., Southwest Electric Power The hospital. Wang Chunxi, Wang Deji, Tian Yingming, Hua Rong, Luo An, Liu Yang, Dong Jian, Feng Dongqin, Xu Bin, Zhang Jinbin, Liu Xiaojing, Zhang Chunting.

Introduction

0.1 Digital Factory Reference Model Background To help understand different aspects of business to improve business operations, a great deal of research has been conducted on business and manufacturing models of business. another In addition, although the enterprise control system model has been developed to support the production operation, in terms of model development, There is still a gap between the environment and the process, equipment and equipment used in production and operation. In the business model, by mapping the different domains, dimensions, views, and more that relate to the people, processes, and resources that perform the business mission The move aims to address the complexities of manufacturing and business modeling. For different concerns, efforts to identify various aspects of the activity is said For "digital business modeling." The result of the work was the development of a general discourse that provided generic terms and structures to describe manufacturing and business Industry enterprises. By using a similar modeling approach, the "Digital Factory" model was conceived. Depending on the scope of the work, the way in which activities are modeled varies. However, modeling methods have some common features that can be used to speed up modeling Conceptual understanding. Interoperability in digital factories is a major area of focus for the conceptual development of digital enterprise activity subsets. These concepts are to digital factory system It is important to create and deliver products and services. NOTE The concept of business modeling is further described in the standards referenced in the literature (eg ISO 15704, ISO 11354-1). Some entities in a digital enterprise may exchange information with digital factory entities or may need information to automate assets and their relationships. 0.2 digital factory to achieve ways For the automation of assets and their relationships, and their relationship with other assets, come up with a common concept as a digital factory The basis of the reference model. The automated asset concept model supports a design for process plants, manufacturing plants or building automation Electronic representation. The work started more than a decade ago when the idea was to replace the paper number with an electronic description of the electronic component (as a list of attributes) According to the table, and in software tools for electronic wiring and assembly (for example, in the design of circuit boards). In addition, the concept of equipment regulations was developed Describes its parameters and behaviors, facilitates integration and reduces engineering costs, and provides guidelines for standard setters. Notes 1. See Equipment Guideline (IEC /T R62390). These efforts address the design process or manufacturing plant, as described in the deployment of facilities in those automated asset information And data inconsistencies encountered the interoperability barrier. In order to overcome these obstacles, we need to solve the business, process, service, information (number According to) the specific program. Proposed a method for these concepts to develop an automated asset model. The digital factory warehouse will hold an electronic description of these automated assets and more, as well as a digital factory that uses automated assets In the process-related technical expertise. Digital Factory-related activities (such as engineering, configuration, maintenance) will be accessed, updated and used in these libraries In the master data to support the entire plant life cycle. This allows for a consistent exchange of information between all related processes. Figure 1 shows an example of a digital factory, as well as IEC , ISO , ISA and other committees involved in the relevant standards. Note 2. In the digital enterprise, ISO TC184 focuses on the design, manufacturing, process application, life cycle and supply chain aspects of the system. These systems Support for applications, especially application interoperability, integration and architecture, as well as support systems and environments (for example, see the ISO 15704 Enterprise Reference System Structure and method requirements. ) Note 3. Some IEC and ISO standards provide methods for describing master data and information exchange for automated assets in manufacturing applications. These standards involved And to different levels of the automation life cycle, from procurement to installation and operation. Examples of these standards are IEC 61360-1 and IEC 61360-2, ISO 22745 and ISO 8000, they can be used to characterize electrical and automation equipment. Note 4. The actual characteristics of automation equipment are already specified in the IEC 61987 series of standards and IEC 62683 (Low Voltage Switchgear and Control Cabinet) standards. At TC 65 Other TCs that are responsible for the automation of assets (eg the SC22G "Speed Control Drive System with Semiconductor Power Converters") are available outside of their scope Apply this framework within the framework. Figure 1 Digital Factory and related standards activities Industrial Process Measurement, Control and Automation Production facility presentation reference model (digital factory)

1 Scope

This guidance document describes a reference model that includes some abstract descriptions. --- Automated assets; --- Structure and operation of the relationship. Note. Examples of automated assets are machines, fixtures, equipment, and software. The reference model is the foundation of an electronic representation of some aspects of a plant. It includes the system used to produce the product (excluding facilities), however It does not include raw materials, work in progress, and final products. The corresponding information stored in the digital factory warehouse represents all aspects of the digital factory. This information can be used throughout the plant life cycle Period of use. The reference model can be applied to process plants, manufacturing plants or building automation.

2 Normative references

The following documents for the application of this document is essential. For dated references, only the dated version applies to this article Pieces. For undated references, the latest edition (including all amendments) applies to this document. IEC 62683 Low-voltage switchgear and control cabinet information exchange product data and features (Low-voltageswitchgearand controlgear-Productdataandpropertiesforinformationexchange) 3 Terms, definitions, symbols and abbreviations 3.1 Terms and definitions The following terms and definitions apply to this document. Note. Refer to Appendix A for the relationship between definitions. 3.1.1 Activity activity Lifecycleactivity A series of tasks for a specific purpose. Examples. The related automation activities are design, asset selection or asset allocation. Examples of life-cycle activities are engineering or maintenance. 3.1.2 Asset asset A physical or logical object owned or held by an organization that has a perceived or actual value to the organization. Note. For industrial automation and control systems, physical assets with the greatest direct measurable value may be controlled devices. [IEC /T S62443-1-1.2009, Definition 3.2.6] 3.1.3 Attribute Characteristics or characteristics of the BE relationship. Example. A unit is a property of the width property. ......

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