Classification Evaluation Method of smart building system in Shenzhen

1. General provisions
1.1 These Measures are formulated to meet the needs of Shenzhen informatization development.
1.2 These measures apply to all types of intelligent building systems.
1.3 The implementation of these Measures shall be based on the management regulations and technical requirements of competent authorities in the construction, fire control, public security, and other industries.
1.4 The Intelligent Building System should be composed of the following subsystems integrated:

1) Integrated Wiring System;

2) networks and communication systems;

3) construction equipment control system;

4) fire alarm and fire control linkage control;

5) security technical defense system;

6) manage the information system;

7) Central integration system;

8) power supply system.
1.5 In accordance with the functions and management requirements of various projects and the investment standards for project construction, these measures are classified as Level 2 for building intelligent systems:
Class A: Applicable to systems with complete sub-system configurations and integrated implementation. Such systems can be called advanced intelligent systems.
Level B: Applicable to systems with basic subsystems and centralized monitoring and management of mechanical and electrical equipment in hot summer. Such systems can be called intelligent systems.
Grade C: Applicable to systems with major subsystems under great heat and considering expansion and system integration. Such systems can be referred to as quasi-intelligent systems.
1.6 In the construction of intelligent systems, advanced, mature and practical technologies should be adopted: unified management and monitoring of integrated subsystems should be implemented as much as possible: the systems and equipment used should meet the requirements of standardization and openness, and have flexibility and scalability.
1.7 The intelligent system applied for evaluation should ensure the complete implementation of the design objectives, provide sound technical performance, and ensure stable and reliable operation of the system for more than half a year and generate proper operation benefits.
2. General provisions
2.1 Integrated Wiring System
2.1.1 Basic Requirements

L) The Integrated Wiring System should be an open structure that supports signal transmission in voice, data, images, monitoring, and other systems.
2) The Integrated Wiring System should be considered and implemented separately with other subsystems. Based on actual needs, we should consider integration with each other without forcing integration. In accordance with the transmission requirements of various types of information, we should make the best use of things, make economic and reasonable, and comply with relevant standards.
3) The Integrated Wiring System must select products that meet the relevant technical standards. The devices and main materials that have not been certified by the product quality supervision and inspection agencies shall not be used in the project.
2.1.2 integrated cabling system of system elements should select the system type as needed.
1) Basic Type: Suitable for low configuration standards, copper core cable networking. Basic Integrated Wiring System Configuration: (1) Each workstation (Zone) has an information outlet; (2) Each workstation (Zone> has a horizontal wiring cable; (3) the maximum transmission frequency of each horizontal basic connection is no less than 100 MHZ; (4) the trunk cable of each workstation (Zone) is no less than two pairs of twisted pair cables.
2) Enhanced type: Suitable for medium-standard configuration scenarios, with flexible scalability, networking with copper core cables.
Enhanced cabling system configuration: (l) no less than two information Sockets for each workstation (zone); (2) Each workstation (zone) each information outlet has an independent horizontal distribution cable directed to the floor distribution frame. (3) The maximum transmission frequency of each horizontal basic connection is no less than 100 MHz. (4) Each workstation (zone) the trunk cable (that is, the floor distribution frame to the total distribution frame of the equipment room vertical trunk cable) is not less than 3 pairs of twisted pair wires;
3) Comprehensive: suitable for high configuration standards, copper core Cables and optical fiber cables are used for hybrid networking. An optical cable system should be added on the basis of basic and enhanced generic cabling.
2.2 network and communication system
2.2.1 Basic Requirements
1) the network and communication system should be able to provide fast and effective information transmission services for users in various aspects of the building.

2) networks and communication systems should be able to collect and transmit various information from inside and outside the building.

3) the network and communication system should fully consider all aspects of the intelligent building system and system, and provide support for network interconnection and information sharing.
2.2.2 system elements
1) The program-controlled switching system and system equipment with corresponding capacity (number of doors) should be set according to the user's needs. A program-controlled switch system can be a remote module of an end Bureau, a branch office, or a commercial business exchange office in the city's telephone network. If necessary, a small user switch can be set up. The user's small switch system should adopt a digital model, and should have functions of the Computer Operator Service, sub-leasing user service, electronic number Book Service, and automatic billing functions. It should also be able to adapt to the development needs, supports Optical Fiber interfaces, E-l interfaces, and I SDN interfaces.
2) A cordless communication (telephone) system in a tiny area (inside a building) is used when a caller (called or called) is not in the office and is deployed elsewhere in the tiny area, two-way communication can be implemented through the system.
3) videophone and teleconference systems can use devices with video compression technology to display close-to-nearest or distant observed images to users for Synchronous calls.
4) satellite communication systems should have the ability to provide images and data communications to users.
5) The shared antenna television system (including closed-circuit television system) should adopt the network structure of HFCs, with centralized provision of local TV programs to users and closed-circuit (self-made) in buildings) television programs and connected satellite communication systems provide users with TV programs and encrypted data that are not encrypted or encrypted at home and abroad.

6) The public broadcasting system should provide elegant and comfortable open-circuit multi-source signal programs for public places in buildings, and work with the emergency broadcasting system to implement emergency broadcasting and calling when necessary.
7) information transmission networks and network management systems inside and outside the building shall comply with the following requirements: (1) computer network systems within the building shall adopt equipment adapted to the Integrated Wiring structure; (2) there should be information transmission networks in buildings; (3) broadband and exchange technologies should be used for the construction of computer network systems in buildings; (4) the network management system should have the basic network management functions defined by the International Organization for Standardization (ISO); (5) relay cables connected to peripheral telephone networks and data networks should use a single optical fiber or high-quality communication cable, to meet the requirements of various communication services.
2.3 Construction Equipment Control System
2.3.1 Basic Requirements
The construction equipment control system should ensure reliable operation, safety, energy saving and manpower saving for various types of equipment in buildings.
2.3.2 system elements
L) The power supply management system shall be able to monitor changes, distribution equipment, Self-supplied power supply equipment and lighting equipment.

2) the air conditioning system shall be able to monitor heating and cooling source equipment, ventilation equipment, air conditioning equipment and environmental testing equipment.

3) The water supply and drainage system shall be able to monitor supplies, drainage equipment, drinking water equipment and sewage treatment equipment.

4) The thermal system shall be able to monitor, measure and control the heat source equipment.

5) there is a vertical elevator, escalator operation monitoring device.

6) The building automation and equipment integrated management system should integrate the management system and console, and have a series of network protocols and open interfaces jointly complied by the industry, with report preparation and management fee distribution, calculation of Water and Electricity Fee distribution, equipment maintenance, operation records, and other functions.
2.4 fire alarm and fire linkage control
2.4.1 Basic Requirements
1) The composition of the fire alarm and fire control linkage system should be determined based on the classification of the Set object, functional requirements, management system and economics.
2) ensure the reliability and security of the system, and fully reflect the advanced technology and ease of use of the system.
3) the system shall comply with the technical requirements of the fire safety department.
2.4.2 system elements
1) the fire alarm system should be based on smoke, temperature and combustible gas detectors.
2) The system should be able to display the status signals of various alarm areas and points and the status of basic fire-fighting devices.
3) The system should set up the entire monitoring range of manual alarms and fire fighting equipment monitoring.
4) The system should be able to monitor and associate facilities such as fire pump, spray pump, smoke prevention and smoke exhaust.
5) elevator operation control should be able to automatically or manually control the elevator from the first floor after the fire is confirmed, so that the passenger ladder is out of service and the fire elevator is on standby.
6) in the specified fire prevention area, set the manual alarm button and display it in the Area display.
7) in the fire prevention area, an emergency broadcast and alarm system should be set up. The start of the two systems should first be the fire layer (area) and its adjacent upper and lower layers (areas) in the case of fire ), the Emergency Broadcast System should be directly monitored by the fire control center, and the public broadcasting system in the building can be used to implement emergency broadcast.
8) fire control rooms should be set up in buildings. The host and control panel of the fire alarm control system should be located in the fire control room. The fire control room shall have functions such as accepting fire alarms, Accurately distinguishing fire alarms and fault alarms, issuing fire signals and safety evacuation instructions in a timely manner, controlling fire-fighting linkage equipment and displaying power supply operation conditions.
2.5 security technical defense system
2.5.1 Basic Requirements

1) The system should determine the overall model of the system, the corresponding configuration combinations of the system, and the corresponding levels of the system functions according to the functions, construction standards, and public security defense management of various buildings.

2) system combinations and device configurations are structured and standardized, and can adapt to the needs of changing needs and technological development.
3) system installation must comply with the technical requirements of the security technical defense authority.
2.5.2 system elements
1) Basic Security Technology defense system model: (l) A subsystem-based security technology defense system should be set separately for each subsystem. (2) The Computer Integrated Security Technology of subsystems should be used to prevent management systems. subsystems should be networked and the same software platform should be used for centralized and unified management.
2) Main subsystems of the security technology defense system: (1) TV monitoring system. The system should be able to reproduce on-site images and effectively monitor and record the main public activity places, passages and important parts in various buildings according to the needs of security management. (2) anti-theft alarm system. The system should be able to install various types of alarm detectors, such as infrared or microwave, in accordance with the requirements of public security management in various buildings and the specific conditions of the protected areas and locations, provides timely, reliable, and correct alerts for illegal intrusion into the protected area. (3) Portal control system. The system should be able to meet the needs of public security management for all types of buildings, effectively control and manage the location, object, and time of access doors, access channels, and elevators in some areas of the building. (4) security personnel patrol system. The system can monitor the patrol status of security personnel in all types of buildings, record the status and generate alarms in a timely manner. (5) Visitor and alarm system. In a high-rise apartment building (high-rise and high-occupancy), the system should provide two-way calls or communication between visitors and the residents in the building, as well as the ability of residents to report to security personnel in a timely manner, and networking the buildings. (6) garage integrated management system. The system should be able to comprehensively manage the self-exit access control, traffic signal indication and parking billing of vehicles in the garage (farm) according to the management requirements of various buildings.
2.6 Management Information System
2.6.1 a complete management information system should be provided with a property management subsystem, a comprehensive service management subsystem, a shared information database management subsystem, and an office automation system.
2.6.2 system elements

1) The property management subsystem shall have the functions of material management for various facilities in the building, displaying and maintaining the operation status of various facilities.

2) The Integrated Service Management Subsystem shall have the kinetic energy of various types of shopping, catering, entertainment management, leasing and billing management of various service facilities in buildings, and management of the status of rental companies or personnel.

3) The shared information database subsystem shall have the collection, classification, inventory, and functions of providing public information services at home and abroad. 4) The Office Automation System in buildings should set up system functions as needed by users, and be capable of personal, office, and specialized database services.
2.7 central Integration System
2.7.l the central integration system should have the function of collecting information of various subsystems and comprehensively processing all types of information.
2.7.2 system elements

1) The system has the ability to collect various information inside and outside the building.

2) The system can comprehensively manage subsystems in buildings.
2.8 Power Supply System
2.8.1 the power supply and distribution systems of intelligent systems and equipment must provide safe and stable power supply in all types of smart buildings.
2.8.2 system elements

1) Power Supply in smart buildings, intelligent system equipment must be equipped with backup power in addition to common power supplies.

2) Power Supply Capacity: reserve the backup capacity or reserve the plane position of the power distribution equipment.

3) Quality of Power Supply: A regulated (or fixed frequency) device and UPS power supply shall be set for the intelligent system equipment.

4) trunk system: there are independent pipelines, and the power system and the weak current system should be laid separately.