GB/T 44692.4-2026 Equipment integrity of hazardous chemicals enterprises—Part 4:Information technology specification English, Anglais, Englisch, Inglés, えいご
This is a draft translation for reference among interesting stakeholders. The finalized translation (passing through draft translation, self-check, revision and verification) will be delivered upon being ordered.
ICS
CCS
National Standard of the People's Republic of China
GB/T 44692.4-2026
Equipment integrity of hazardous chemicals enterprises - Part 4: Information technology specification
危险化学品企业设备完整性 第4部分:信息技术规范
Issue date: 2026-02-27 Implementation date: 2026-09-01
Issued by the General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China
the Standardization Administration of the People's Republic of China
Contents
Foreword
Introduction
1 Scope
2 Normative References
3 Terms, Definitions and Abbreviations
3.1 Terms and Definitions
3.2 Abbreviations
4 General
4.1 Purpose of Construction
4.2 General Principles to be Followed
4.3 Information Technology Architecture Design
4.4 Information Technology Development Content
5 System Architecture
5.1 General Provisions
5.2 Composition of the System Architecture
6 Technical Architecture
6.1 General Provisions
6.2 Composition of the Technical Architecture
7 Application Architecture
7.1 General Provisions
7.2 Composition of the Application Architecture
8 Functional Design
8.1 General Provisions
8.2 Asset Register Management Module
8.3 Hierarchical Management Module
8.4 Risk Management Module
8.5 Process Quality Management Module
8.6 ITPM Management Module
8.7 Operating Environment Management Module
8.8 Defect Management Module
8.9 Change Management Module
8.10 KPI Management Module
8.11 System Configuration
8.12 Inspection and Evaluation
9 AI+ Technology Application
9.1 General Provisions
9.2 Main Content
10 Smart Terminals
10.1 General Provisions
10.2 Core Design Objectives
10.3 Hardware Standards
10.4 Core Functional Modules
10.5 Human Computer Interaction Design
10.6 Mobile Terminals
10.7 Smart Acquisition Terminals
Bibliography
Equipment integrity of hazardous chemical enterprises — Part 4: Information technology specification
1 Scope
This document establishes the general principles for information technology for equipment integrity in hazardous chemical enterprises, and specifies the system architecture, technical architecture, application architecture, functional design, AI+ technology application and smart terminals.
This document applies to the information technology management of equipment integrity in hazardous chemical enterprises.
2 Normative references
The contents of the following documents constitute essential provisions of this document through normative reference. For dated references, only the edition cited applies. For undated references, the latest edition (including all amendments) applies.
GB/T 22081 Cyber security — Information security controls
GB/T 22239 Information security technology — Baseline for classified protection of cyber security
GB/T 23022 Integration of informatization and industrialization management system — Specification for production equipment operation management
GB/T 44692.1 Equipment integrity of hazardous chemical enterprises — Part 1: Management system requirements
GB/T 44692.2 Equipment integrity of hazardous chemical enterprises — Part 2: Technical implementation guide
3 Terms, definitions and abbreviations
3.1 Terms and definitions
For the purposes of this document, the terms and definitions given in GB/T 44692.1 and the following apply.
3.1.1 informationization operation mechanism
A dynamic process involving multiple stages such as data input, processing, output and feedback. These stages interact with each other to jointly constitute the operation mechanism of the information system, providing support and assistance for decision making and actions of organisations and individuals.
3.1.2 information silo
Computer application systems that are functionally unrelated and uncooperative, do not share or exchange information, and have information disconnected from business processes and applications.
3.2 Abbreviations
The following abbreviations apply to this document.
AI: Artificial Intelligence
App: Application
AR: Augmented Reality
EM: Equipment Management System
ERP: Enterprise Resource Planning
Exia: Explosion proof intrinsic safety type 'ia' rating
IaaS: Infrastructure as a Service
ITPM: Inspection, Testing and Preventive Maintenance
KPI: Key Performance Indicator
LDAP: Lightweight Directory Access Protocol
LIMS: Laboratory Information Management System
PaaS: Platform as a Service
PC: Personal Computer
PDCA: Plan Do Check Act
PLC: Programmable Logic Controller
RCA: Root Cause Analysis
SaaS: Software as a Service
SOAP: Simple Object Access Protocol
UX: User experience
WS: Web Service
XML: Extensible Markup Language
5G: 5th Generation Mobile Communication Technology
4 General
4.1 Purpose of construction
To build an information technology integration platform that supports the implementation and efficient operation of the equipment integrity management system. It shall carry the execution of standardised management processes, integrate related supporting technology applications, and ensure data compatibility and interoperability with other information systems of hazardous chemical enterprises (hereinafter referred to as "enterprises"). Through the deep integration of management, technology and data, the overall efficiency of enterprise equipment management shall be comprehensively improved.
4.2 General principles to be followed
The following general principles shall be followed:
a) Security: The architecture design shall comply with the information security requirements of GB/T 22081 and GB/T 22239.
b) Scientificity: The architecture shall be based on the elements of the equipment integrity management system and effectively support the achievement of management objectives.
c) Interoperability: On the basis of integrating the existing equipment management systems of the enterprise, develop or improve relevant functions, and rely on standardised interfaces to achieve data interoperability and sharing.
d) Flexibility: Component based and modular design should be adopted to build a configurable dynamic equipment management platform.
e) Intelligence: New generation information technologies such as big data, cloud computing, artificial intelligence (AI) and mobile interconnection should be integrated to support data driven intelligent analysis and decision making.
4.3 Information technology architecture design
It covers the system architecture, technical architecture, application architecture, functional design, AI+ technology application and smart terminals. Enterprises shall select appropriate development technologies and architecture solutions based on their actual needs and information technology development trends.
4.4 Information technology development content
It mainly includes functional modules such as equipment asset register management, hierarchical management, risk management, process quality management, ITPM management, operating environment management, defect management, change management, performance management, as well as AI+ technology application and smart terminals.
5 System architecture
5.1 General provisions
5.1.1 Based on the equipment integrity management system element architecture of GB/T 44692.1, the overall architecture shall be designed in accordance with the informationisation operation mechanism model shown in Figure 1.
5.1.2 It shall cover all stages of the equipment lifecycle management, including design, selection, procurement, manufacturing, installation, use, maintenance, servicing, inspection, testing, repair, modification, scrapping and replacement, and shall clarify the specific requirements for the condition awareness layer, basic data layer, business execution layer and business control layer.
GB/T 44692.4-2026 Equipment integrity of hazardous chemicals enterprises—Part 4:Information technology specification English, Anglais, Englisch, Inglés, えいご
This is a draft translation for reference among interesting stakeholders. The finalized translation (passing through draft translation, self-check, revision and verification) will be delivered upon being ordered.
ICS
CCS
National Standard of the People's Republic of China
GB/T 44692.4-2026
Equipment integrity of hazardous chemicals enterprises - Part 4: Information technology specification
危险化学品企业设备完整性 第4部分:信息技术规范
Issue date: 2026-02-27 Implementation date: 2026-09-01
Issued by the General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China
the Standardization Administration of the People's Republic of China
Contents
Foreword
Introduction
1 Scope
2 Normative References
3 Terms, Definitions and Abbreviations
3.1 Terms and Definitions
3.2 Abbreviations
4 General
4.1 Purpose of Construction
4.2 General Principles to be Followed
4.3 Information Technology Architecture Design
4.4 Information Technology Development Content
5 System Architecture
5.1 General Provisions
5.2 Composition of the System Architecture
6 Technical Architecture
6.1 General Provisions
6.2 Composition of the Technical Architecture
7 Application Architecture
7.1 General Provisions
7.2 Composition of the Application Architecture
8 Functional Design
8.1 General Provisions
8.2 Asset Register Management Module
8.3 Hierarchical Management Module
8.4 Risk Management Module
8.5 Process Quality Management Module
8.6 ITPM Management Module
8.7 Operating Environment Management Module
8.8 Defect Management Module
8.9 Change Management Module
8.10 KPI Management Module
8.11 System Configuration
8.12 Inspection and Evaluation
9 AI+ Technology Application
9.1 General Provisions
9.2 Main Content
10 Smart Terminals
10.1 General Provisions
10.2 Core Design Objectives
10.3 Hardware Standards
10.4 Core Functional Modules
10.5 Human Computer Interaction Design
10.6 Mobile Terminals
10.7 Smart Acquisition Terminals
Bibliography
Equipment integrity of hazardous chemical enterprises — Part 4: Information technology specification
1 Scope
This document establishes the general principles for information technology for equipment integrity in hazardous chemical enterprises, and specifies the system architecture, technical architecture, application architecture, functional design, AI+ technology application and smart terminals.
This document applies to the information technology management of equipment integrity in hazardous chemical enterprises.
2 Normative references
The contents of the following documents constitute essential provisions of this document through normative reference. For dated references, only the edition cited applies. For undated references, the latest edition (including all amendments) applies.
GB/T 22081 Cyber security — Information security controls
GB/T 22239 Information security technology — Baseline for classified protection of cyber security
GB/T 23022 Integration of informatization and industrialization management system — Specification for production equipment operation management
GB/T 44692.1 Equipment integrity of hazardous chemical enterprises — Part 1: Management system requirements
GB/T 44692.2 Equipment integrity of hazardous chemical enterprises — Part 2: Technical implementation guide
3 Terms, definitions and abbreviations
3.1 Terms and definitions
For the purposes of this document, the terms and definitions given in GB/T 44692.1 and the following apply.
3.1.1 informationization operation mechanism
A dynamic process involving multiple stages such as data input, processing, output and feedback. These stages interact with each other to jointly constitute the operation mechanism of the information system, providing support and assistance for decision making and actions of organisations and individuals.
3.1.2 information silo
Computer application systems that are functionally unrelated and uncooperative, do not share or exchange information, and have information disconnected from business processes and applications.
3.2 Abbreviations
The following abbreviations apply to this document.
AI: Artificial Intelligence
App: Application
AR: Augmented Reality
EM: Equipment Management System
ERP: Enterprise Resource Planning
Exia: Explosion proof intrinsic safety type 'ia' rating
IaaS: Infrastructure as a Service
ITPM: Inspection, Testing and Preventive Maintenance
KPI: Key Performance Indicator
LDAP: Lightweight Directory Access Protocol
LIMS: Laboratory Information Management System
PaaS: Platform as a Service
PC: Personal Computer
PDCA: Plan Do Check Act
PLC: Programmable Logic Controller
RCA: Root Cause Analysis
SaaS: Software as a Service
SOAP: Simple Object Access Protocol
UX: User experience
WS: Web Service
XML: Extensible Markup Language
5G: 5th Generation Mobile Communication Technology
4 General
4.1 Purpose of construction
To build an information technology integration platform that supports the implementation and efficient operation of the equipment integrity management system. It shall carry the execution of standardised management processes, integrate related supporting technology applications, and ensure data compatibility and interoperability with other information systems of hazardous chemical enterprises (hereinafter referred to as "enterprises"). Through the deep integration of management, technology and data, the overall efficiency of enterprise equipment management shall be comprehensively improved.
4.2 General principles to be followed
The following general principles shall be followed:
a) Security: The architecture design shall comply with the information security requirements of GB/T 22081 and GB/T 22239.
b) Scientificity: The architecture shall be based on the elements of the equipment integrity management system and effectively support the achievement of management objectives.
c) Interoperability: On the basis of integrating the existing equipment management systems of the enterprise, develop or improve relevant functions, and rely on standardised interfaces to achieve data interoperability and sharing.
d) Flexibility: Component based and modular design should be adopted to build a configurable dynamic equipment management platform.
e) Intelligence: New generation information technologies such as big data, cloud computing, artificial intelligence (AI) and mobile interconnection should be integrated to support data driven intelligent analysis and decision making.
4.3 Information technology architecture design
It covers the system architecture, technical architecture, application architecture, functional design, AI+ technology application and smart terminals. Enterprises shall select appropriate development technologies and architecture solutions based on their actual needs and information technology development trends.
4.4 Information technology development content
It mainly includes functional modules such as equipment asset register management, hierarchical management, risk management, process quality management, ITPM management, operating environment management, defect management, change management, performance management, as well as AI+ technology application and smart terminals.
5 System architecture
5.1 General provisions
5.1.1 Based on the equipment integrity management system element architecture of GB/T 44692.1, the overall architecture shall be designed in accordance with the informationisation operation mechanism model shown in Figure 1.
5.1.2 It shall cover all stages of the equipment lifecycle management, including design, selection, procurement, manufacturing, installation, use, maintenance, servicing, inspection, testing, repair, modification, scrapping and replacement, and shall clarify the specific requirements for the condition awareness layer, basic data layer, business execution layer and business control layer.
