GB/T 32036-2015 English PDF

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GB/T 32036-2015: Technical requirements on communication interface of energy-saving optimized controlling for public institution
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Basic data

Standard ID: GB/T 32036-2015 (GB/T32036-2015)
Description (Translated English): Technical requirements on communication interface of energy-saving optimized controlling for public institution
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: N10
Classification of International Standard: 25.040
Word Count Estimation: 58,53
Date of Issue: 2015-09-11
Date of Implementation: 2016-04-01
Quoted Standard: GB/Z 20177.1-2006; GB/Z 20177.2-2006; GB/Z 20177.3-2006; GB/Z 20177.4-2006; GB/T 20965-2013; GB/T 28847.1-2012; GB/T 28847.2-2012; ANSI/ASHRAE 135-2012; IEEE 754-1985
Regulation (derived from): National Standard Announcement 2015 No.25
Issuing agency(ies): General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China
Summary: This Standard specifies the data model for public sector energy efficiency optimization control of the application system, and the mapping of typical building communication protocol. This Standard applies to public bodies cold (hot) water and cooling water systems, heat source and heat exchange systems, air conditioning and ventilation systems, water supply and drainage to the communication systems, lighting systems and other energy-optimized application integration.

GB/T 32036-2015: Technical requirements on communication interface of energy-saving optimized controlling for public institution

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(Public sector energy efficiency optimization control communication interface technology requirements) ICS 25.040 N10 National Standards of People's Republic of China Public sector energy efficiency optimization control communication interface technology requirements Issued on. 2015-09-11 2016-04-01 implementation Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China Standardization Administration of China released

Table of Contents

Introduction Ⅲ Introduction Ⅳ 1 Scope 1 2 Normative references 1 3 Terms, Definitions and Abbreviations 1 3.1 Terms and definitions 3.2 Abbreviations 2 4 Public sector energy efficiency optimization control interface Overview 2 4.1 Application Overview 2 4.2 Data Model 2 5 public sector energy efficiency optimization control of the data model 9 5.1 Data Model air conditioning and ventilation systems 9 Data Model 5.2 cold water and cooling water system 15 5.3 Data Model heat and heat exchange system 23 5.4 Data Model 36 water supply and drainage system 5.5 Data Model illumination system 41 6 public institutions related to energy-saving control process data encoding 42 6.1 Public sector energy efficiency-related process control data overview 42 6.2 Coding of process data 43 7 mapping between the typical building control protocol 45 7.1 mapping between BACnet protocol 45 Lonworks protocol mapping between 7.2 and 47 KNX protocol mapping between 7.3 and 49 References 53 Figure 1 Public sector energy efficiency optimization control communication interface 2 Figure 3 data model structure 2 3 Figure 3 attribute structure Figure 4 attribute data transfer format 5 5 Property ID (Property_ID) structure 5 Table 1 System/Device Common attributes set 4 Table 2 System/Device Type 4 Table 3 sets relevant data/property type 6 Table 4 Data Unit (DataUnit) 7 Table 5 data type (DataType) 9 Table 6 device properties constant air volume air conditioning unit 9 Table 7 device properties VAV unit 11 Device properties Table 8 new wind unit 13 Table 9 Device Properties exhaust unit 15 Table 10 System Properties chilled water system 16 Table 11 System Properties cooling water system 17 Table 12 refrigeration unit device attributes 19 Table 13 chilled water pump device attributes 20 Table 14 cooling water pump device attributes 22 Table 15 device properties of the cooling tower 23 System Properties 24 Table 16 Heat Source System Table 17 System Properties heat exchange system 26 18 air-conditioning system heat source system attribute table 28 Device properties Table 19 gas boiler 31 Table 20 device properties of the heat exchanger 32 Table 21 chiller device attributes 34 Table 22 of the pump device properties 35 Table 23 device properties of the electric valve 36 Table 24 makeup tank device attributes 37 Table 25 Water Supply System System Properties 37 Table 26 System Properties drainage systems 39 Table 27 Water System 40 System Properties Table 28 System Properties illumination system 41 Table 29 Overview of process data 42 Table 30 and BACnet protocol mapping unit 45 Table 31 BACnet protocol and process data mapping 46 Table 32 Lonworks protocol mapping unit 47 Table 33 Lonworks protocol and process data mapping 48 Table 34 KNX protocol mapping unit 50 Table 35 KNX protocol and process data mapping 51

Foreword

This standard was drafted in accordance with GB/T 1.1-2009 given rules. This standard by the National Standardization Technical Committee for Energy and Management (SAC/TC20) and national industrial process measurement and automatic control Standardization Technical Committee (SAC/TC124) centralized. This standard was drafted. Machinery Industrial Instrumentation Technology and Economy Institute, Beijing Times Technology Co., Ltd. Shuo people, Shanghai Dragon Year Energy Saving System Co., Ltd., Beijing Jingyi Group automation system complete engineering company, Beijing Siemens Cerberus Electronics Co., Division, the China National Institute of Standardization, Nanjing Automation System Co., Ltd.-day abduction. The main drafters of this standard. Wang Linkun, Zhangchun Ting, Shi Dengfeng, Qiu Jun, Zhaojiang Tao, Lihui Jiang, high mirror Mei, Li Lin, Zhu Chunyan, Lu Jin, Zheng Qiuping, Liang Xiuying, Sun Liang.

Introduction

This standard specifies the technical requirements for the implementation of the communication interface of public sector energy efficiency optimization control, the main contents include the achievement of public sector energy efficiency Data model optimization control, and the mapping of typical building communication protocol. This standard can be used for cold (hot) water and cooling water system of public institutions EC, the heat source and heat exchange systems, air conditioning and ventilation systems, water supply and drainage to the communication systems, lighting systems and other energy-optimized application integration. Public institutions to achieve optimal control of energy-saving energy-related data in addition to obtaining outside, the need to obtain a large number of on-site measurement, control and status Energy-related data. In view of the communication and control technologies used by different public agencies or equipment system is inconsistent, such as BACnet, Lonwork, KNX, Modbus, etc., increasing the difficulty with the upper energy management and energy optimization applications to implement energy-related data integration. This standard specifies Energy optimization control communication interface from the underlying energy-efficient building control systems (such as air conditioning systems, ventilation systems, lighting systems, etc.) related to the number of It is, according to the unified data model underlying the energy efficiency of data into a unified data format, as an upper layer data integration tools (such as OPC Etc.) data source interface for the upper energy management and energy optimization applications. This standard consists of the following parts. --- Common Data Model Structure Describes the data model based on object structure, attributes and attribute specifies the composition and other details of the property ID attribute information attributes, comb Data type and data processing units used in this standard. --- Public bodies of the application of energy-optimized data model control subsystem The definition of public bodies of the application of energy-optimized data model control subsystem, respectively, for air conditioning and ventilation systems (including constant air volume air conditioning Units, VAV units, the new wind generating units, ventilation units), cold water and cooling water systems (including cold water systems, cooling water systems, refrigeration units, Chilled water pumps, cooling water pumps, cooling towers), a heat source and a heat exchange system (including heat systems, heat exchange system, air conditioning system, heat, gas boilers, Heat exchangers, chillers, pumps, electric valves, fill the tank), water supply and drainage system (including water supply systems, drainage systems, water systems), lighting system Conventional data model definition. --- Saving optimization of process control related data encoding Optimization of energy-saving control of public institutions each application subsystem related processes to sort and categorize data, and provides a different encoding the way. --- Typical building control protocol mapping This standard specifies the definition of the mapping of the data model and typical building control protocol. For BACnet, Lonworks and KNX this Three typical building control protocol, as defined in this standard mapping. Public sector energy efficiency optimization control communication interface technology requirements

1 Scope

This standard specifies the data model of public sector energy efficiency optimization control of application systems, and communication protocols used to implement a typical building with Mapping. This standard applies to public bodies cold (hot) water and cooling water systems, heat source and heat exchange systems, air conditioning and ventilation systems, water supply and drainage system Integrated communications systems, lighting systems and other energy-optimized applications.

2 Normative references

The following documents for the application of this document is essential. For dated references, only the dated version suitable for use herein Member. For undated references, the latest edition (including any amendments) applies to this document. GB /Z20177-2006 (all parts) control network LONWORKS technology specification GB/T 20965-2013 Technical Specification Control network HBES home and building control systems GB/T 28847.1-2012 building automation and control systems - Part 1. Overview GB/T 28847.2-2012 building automation and control systems - Part 2. Hardware ANSI/ASHRAE135-2012 building automation and control network data communication protocol IEEE754-1985 binary floating point calculation standards KNX Association Standard 3/7/2KNX system specification data point type LONMARK SNVTMasterList, Version14,2012 LONMARK SCPTMasterList, Version14,2012 3 Terms, definitions and abbreviations The following terms, definitions and abbreviations apply to this document. 3.1 Terms and Definitions 3.1.1 Public sector energy efficiency optimization control communication interface communicationinterfaceofoptimizedcontrolforenergysaving ofpublicinstitutions Public sector energy efficiency optimization control common data model associated with the system or apparatus, from the bottom of the can, based on different communication technologies And control and energy-related process data in a uniform data format to the upper energy-saving applications such as energy management, energy efficiency optimization. 3.1.2 Public institutions related to energy-saving control process data processdatarelativewithpublicinstitutionsenergysavingcontrol Various types of measurement data to achieve the required energy efficiency of public institutions, general control data and status data and the like. 3.1.3 Measurement data measurementdata Various types of data associated with the public sector energy efficiency obtained by sensors or measuring instruments, such as temperature, humidity, flow, etc. ......

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