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Engineering construction standard full text information system
National Standard of the People's Republic of China
GB/T50314—2000
Standard for design of intelligent building
Standard for design of intelligent building
3 Release
200007—03
2000—10—01
State Administration of Quality and Technical Supervision
Ministry of Construction of the People's Republic of China
Engineering construction standard full text information system
Jointly released
Engineering construction standard full text information system
National Standard of the People's Republic of China
Standard for design of intelligent building
Standard for design of intelligent BuildingGB/T50314—2000
Editor department: Ministry of Construction of the People's Republic of ChinaApproval department: Ministry of Construction of the People's Republic of ChinaEffective date: October 1, 2000
Engineering construction standard full text information system
Engineering construction standard full text information system
Notice on the release of the national standard
"Intelligent building design standard"
Jianbiao [2000] No. 161
According to the requirements of the "1998 Engineering Construction Standard and Quota Formulation and Revision Plan" (Jianbiao [1998] No. 244) of the Ministry of Construction, the "Intelligent Building Design Standard" jointly formulated by the Ministry of Construction and relevant departments has been approved as a recommended national standard after review by relevant departments, with the number GB/T50314—2000, and will be implemented from October 1, 2000. The Ministry of Construction is responsible for the management of this standard, Shanghai Modern Architectural Design (Group) Co., Ltd. is responsible for the specific interpretation work, and the Standard and Quota Research Institute of the Ministry of Construction organizes China Planning Press to publish and distribute it.
Ministry of Construction of the People's Republic of China
July 3, 2000
Engineering Construction Standard Full Text Information System
Engineering Construction Standard Full Text Information System
According to the requirements of the Ministry of Construction's Document No. 1998244 "1998 Engineering Construction Standard Quota Formulation and Revision Plan" and the Ministry of Construction's Survey and Design Department (99) Construction Technology No. 4 "Notice on the Establishment of the Leading Group and Working Group for the Preparation of the Intelligent Building Design Standard", the drafting group of this standard carefully summarized practical experience, referred to relevant standards at home and abroad, fully solicited opinions, and gathered the strengths of various places to formulate this standard on the basis of unified thinking.
This standard takes functional requirements as the starting point and is a recommended standard. The main contents of this standard are: general principles, terms and symbols, communication network system, office automation system, building equipment monitoring system, automatic fire alarm system, security system, integrated wiring system, intelligent system integration, power supply and grounding, environment, and residential intelligence.
This standard is specifically interpreted by Shanghai Modern Architectural Design (Group) Co., Ltd. If there is a need for modification and supplementation during the application process, please send your opinions and relevant information to East China Architectural Design and Research Institute (No. 151, Hankou Road, Shanghai, Postal Code 200002, Tel. 021-63217420; Fax 021-63214301) for reference during revision.
The editor-in-chief, participating units and main drafters of this standard: Editor-in-chief: Shanghai Modern Architectural Design (Group) Co., Ltd. East China Architectural Design and Research Institute
Shanghai Architectural Design and Research Institute
Deputy editor-in-chief: Beijing Architectural Design Institute China Electronics Engineering Design Institute
Expert Committee of Building Intelligent System Engineering of the Ministry of Construction Participating units: Architectural Design and Research Institute of the Ministry of Construction 1
Engineering Construction Standard Full Text Information System
Engineering Construction Standard Full Text Information System System
China Building Standard Design Institute
China Building Northeast Design Institute
Xinjiang Building Design Institute
Beijing Design Institute of Ministry of Posts and Telecommunications
Jiangsu Civil Engineering and Architecture Society
Science and Technology Bureau of Ministry of Public Security
Main drafters: Wen Boyin
Cheng Hongwen
Xu Xingsheng
Huang Yuqun
Li Xuepei
Engineering Construction Standard Full Text Information System
Shen Yuxiang||t t||Shao Minjie
Liu Xiqing
Xue Songshi
Xu Zhongfang
Chen Zhongli
Pu Rongsheng
Guo Xikun
Li Tianen
Lu Weiliang
Qu Erlan
Hong Yuanyi
Chen Chongguang
Zhang Wencai
Guo Xiaoyan
Zhao Ji'an
Zhang Niuhui
Wu Yanfang
Pan Yungang
Zhu Fuquan
Engineering Construction Standard Full Text Information System
Terms and Symbols
Communication Network System
General Provisions
3.2 Design Elements
3.3 Design Standards
4 Office Automation System
General Provisions
Design Elements
Design Standards
China Electric Power
Building Equipment Monitoring System·
General Provisions
Design Elements
Design Standards||tt ||Automatic fire alarm system·
Security protection system
General provisions
7.2 Design elements
Design standards
8 Integrated wiring system
General provisions
Design elements
Design standards
Intelligent system integration
General provisions
Engineering construction standard full text information system
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Engineering Construction Standard Full-text Information System
Design Elements
Design Standards
Power Supply and Grounding
General Rules Determine
Design elements
Design standards:
General provisions
Design elements
Design standards
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Design elements
Basic requirements
Terms used in this specification
Engineering construction standard full text information system
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Engineering construction standard full text information system
1.0.1 This standard is formulated to standardize the design of intelligent building projects and improve the design quality of intelligent buildings.
1.0.2 This standard is applicable to the construction, expansion and reconstruction of intelligent office buildings, complex buildings and residential buildings, and can also be used as a reference for other engineering projects. 1.0.3 The intelligent systems in intelligent buildings should be divided into three levels: A, B and C (except residential buildings) according to their use functions, management requirements and construction investment, and all levels are expandable, open and flexible. The level of intelligent buildings is determined according to relevant evaluation standards. 1.0.4 Intelligent building design must comply with relevant national guidelines and be technologically advanced, economically reasonable, practical and reliable.
1.0.5 In addition to implementing this standard, the design of intelligent building projects should also comply with the provisions of relevant current national standards.
Engineering Construction Standards Full Text Information System
Engineering Construction Standards Full Text Information System
2 Terms and Symbols
2.0.1 Intelligent Building (B) Intelligent Building It is based on the building as a platform, combining building equipment, office automation and communication network systems, integrating structure, system, service, management and the optimal combination between them, to provide people with a safe, efficient, comfortable and convenient building environment. 2.0.2 Building Automation System (BAS) Building Automation System
The power, lighting, air conditioning, water supply and drainage, disaster prevention, security, garage management and other equipment or systems in a building or building complex are used for centralized monitoring, control and management to form an integrated system.
) Communication Network System
2.0.3 Communication Network System (QNS)
It is the basis for voice, data and image transmission in the building, and is connected to external communication networks (such as public telephone network, integrated business digital network, computer Internet, data communication network and satellite communication network, etc.) to ensure smooth information flow. 2.0.4 Office Automation System (OAS) Office Automation System The office automation system is an application of advanced technologies such as computer technology, communication technology, multimedia technology and behavioral science, so that part of people's office business can be done with the help of various office equipment, and these office equipment and office personnel constitute a human-computer information system that serves a certain office goal.
Generic Cabling System
2.0.5 Generic Cabling System (GCS)
Generic Cabling System is the transmission network between buildings or building complexes. It can connect voice, data communication equipment, information exchange equipment, building property management and building automation management equipment and other systems within the building or building complex, and can also connect the communication network equipment in the building with the external communication network.
Engineering Construction Standard Full Text Information System
Engineering Construction Standard Full Text Information System
2.0.6 System Integration (SI)
Systems Integration
It connects the intelligent subsystems with different functions in the intelligent building physically, logically and functionally to achieve information integration and resource sharing. Engineering Construction Standard Full Text Information System
Engineering Construction Standard Full Text Information System
3 Communication Network System
3.1 General Provisions
3.1.1 The communication network system should be able to provide effective information services for the owners (managers) of buildings or building complexes and the various users in the buildings. 3.1.2 The communication network system should be able to receive, store, process, exchange, transmit and provide decision support for various information from inside and outside the building or building complex. 3.1.3 The various services and service interfaces provided by the communication network system should be able to be led to each user terminal through the wiring system in the building. 3.2 Design Elements
3.2.1 The optical cable, copper cable line system or optical cable digital transmission system on the public communication network should be introduced into the building, and the optical cable can be extended to the user's work area according to the needs of the users in the building.
3.2.2 Digital, broadband, integrated and intelligent user access network equipment should be set up.
It is advisable to set up a communication equipment room on the ground floor or underground floor (when the building has multiple underground floors) in the building.
3.2.4 According to the type of the building itself and the conditions for users to access the public communication network, the corresponding communication system should be configured appropriately and in advance, and its interface should comply with the relevant regulations of the communication industry.
3.2.5 A small cellular digital regional cordless telephone system can be set up in the building or in the building complex area. Provide two-way communication within the coverage of the system. 3.2.6 When there is a mobile communication blind spot in the underground floor and other upper areas of the building due to the shielding effect, a mobile communication relay system shall be set up with the consent of the industry competent department. 3.2.7 The corresponding parts of the building should be set up or reserved for the VSAT satellite communication system antenna and outdoor unit equipment installation space and the location of the communication equipment room. 3.2.8 A cable television system (including a closed-circuit television system) and a radio and television satellite system should be set up in the building. The design of the television system should be based on the two-way transmission of television images and can be networked using a hybrid fiber-coaxial cable (HFC) network. 3.2.9 A conference television room should be set up or reserved in the building according to actual needs. A two-way transmission conference television system can be configured, and a communication route connected to a public or private conference television network can be provided.
3.2.10 According to actual needs, a multi-functional conference room can be set up in the building. A multi-language simultaneous interpretation sound reinforcement system or a desktop conference sound reinforcement system can be configured, and a large-screen projection television system with an interface for computer interconnection can be configured. 3.2.11
The public broadcasting system installed in the building should be connected to the building's emergency broadcasting system.
Multiple public direct telephones and internal telephones should be installed in the lobby and public areas on the ground floor of the building.
3.2.13 A comprehensive wiring system should be set up in the building to provide users with a physical link for broadband information transmission.
3.2.14 The communication equipment installed in the building, in addition to providing users with analog telephone Z interfaces, should also provide transmission channels with transmission rates of 64Kbit/s, nX64Kbit/s, 2048Kbit/s and above 2048Kbit/s. 3.3 Design standards
3.3.1 Class A standards should meet the following conditions: 1 The optical cable line system or optical cable digital transmission system on the public communication network is introduced into the building. And according to the actual needs of the user, the optical cable can be extended to the user's work area.
2 The optical cable should enter the building from two different routes. 3 The access network and its configured communication system should meet the requirements for the capacity of the optical cable digital transmission system equipment required to carry various information services. The digital circuits, dedicated circuits and their transmission lines, and are determined by the number of channels of the 2048Kbit/s port. The design should be based on 5
Engineering Construction Standard Full Text Information System4 According to the type of building itself and the conditions for users to access the public communication network, the corresponding communication system should be configured in a moderately advanced manner, and its interface should comply with the relevant regulations of the communication industry.
3.2.5 A small cellular digital regional cordless telephone system can be installed in the building or in the building complex area. Provide two-way communication within the coverage of the system. 3.2.6 When there is a mobile communication blind spot in the basement and other upper areas of the building due to the shielding effect, a mobile communication relay system shall be installed with the consent of the industry competent department. 3.2.7 The corresponding parts of the building shall be equipped with or reserved for the VSAT satellite communication system antenna and outdoor unit equipment installation space and the location of the communication equipment room. 3.2.8 A cable television system (including a closed-circuit television system) and a broadcasting and television satellite system shall be installed in the building. The design of the television system shall be based on the two-way transmission of television images and can adopt a hybrid network of optical fiber and coaxial cable (HFC) for networking. 3.2.9 A conference TV room should be set up or reserved in the building according to actual needs. A two-way transmission conference TV system can be configured, and a communication route connected to a public or private conference TV network can be provided.
3.2.10 A multifunctional conference room can be set up in the building according to actual needs. A multilingual simultaneous interpretation sound reinforcement system or a desktop conference sound reinforcement system can be configured, and a large-screen projection TV system with an interface for computer interconnection can be configured. 3.2.11
The public broadcasting system installed in the building should be connected to the building's emergency broadcasting system.
Several public direct telephones and internal telephones should be installed in the lobby and public areas on the ground floor of the building.
3.2.13 A comprehensive wiring system should be set up in the building to provide users with a physical link for broadband information transmission.
3.2.14 The communication equipment installed in the building, in addition to providing users with analog telephone Z interfaces, should also provide transmission channels with transmission rates of 64Kbit/s, nX64Kbit/s, 2048Kbit/s and above 2048Kbit/s. 3.3 Design standards
3.3.1 Class A standards should meet the following conditions: 1 The optical cable line system or optical cable digital transmission system on the public communication network is introduced into the building. And according to the actual needs of the user, the optical cable can be extended to the user's work area.
2 The optical cable should enter the building from two different routes. 3 The access network and its configured communication system should meet the requirements for the capacity of the optical cable digital transmission system equipment required to carry various information services. The digital circuits, dedicated circuits and their transmission lines, and are determined by the number of channels of the 2048Kbit/s port. The design should be based on 5
Engineering Construction Standard Full Text Information System4 According to the type of building itself and the conditions for users to access the public communication network, the corresponding communication system should be configured in a moderately advanced manner, and its interface should comply with the relevant regulations of the communication industry.
3.2.5 A small cellular digital regional cordless telephone system can be installed in the building or in the building complex area. Provide two-way communication within the coverage of the system. 3.2.6 When there is a mobile communication blind spot in the basement and other upper areas of the building due to the shielding effect, a mobile communication relay system shall be installed with the consent of the industry competent department. 3.2.7 The corresponding parts of the building shall be equipped with or reserved for the VSAT satellite communication system antenna and outdoor unit equipment installation space and the location of the communication equipment room. 3.2.8 A cable television system (including a closed-circuit television system) and a broadcasting and television satellite system shall be installed in the building. The design of the television system shall be based on the two-way transmission of television images and can adopt a hybrid network of optical fiber and coaxial cable (HFC) for networking. 3.2.9 A conference TV room should be set up or reserved in the building according to actual needs. A two-way transmission conference TV system can be configured, and a communication route connected to a public or private conference TV network can be provided.
3.2.10 A multifunctional conference room can be set up in the building according to actual needs. A multilingual simultaneous interpretation sound reinforcement system or a desktop conference sound reinforcement system can be configured, and a large-screen projection TV system with an interface for computer interconnection can be configured. 3.2.11
The public broadcasting system installed in the building should be connected to the building's emergency broadcasting system.
Several public direct telephones and internal telephones should be installed in the lobby and public areas on the ground floor of the building.
3.2.13 A comprehensive wiring system should be set up in the building to provide users with a physical link for broadband information transmission.
3.2.14 The communication equipment installed in the building, in addition to providing users with analog telephone Z interfaces, should also provide transmission channels with transmission rates of 64Kbit/s, nX64Kbit/s, 2048Kbit/s and above 2048Kbit/s. 3.3 Design standards
3.3.1 Class A standards should meet the following conditions: 1 The optical cable line system or optical cable digital transmission system on the public communication network is introduced into the building. And according to the actual needs of the user, the optical cable can be extended to the user's work area.
2 The optical cable should enter the building from two different routes. 3 The access network and its configured communication system should meet the requirements for the capacity of the optical cable digital transmission system equipment required to carry various information services. The digital circuits, dedicated circuits and their transmission lines, and are determined by the number of channels of the 2048Kbit/s port. The design should be based on 5
Engineering Construction Standard Full Text Information System
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