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JGJ/T 16-1992 Civil Building Electrical Design Code

Basic Information

Standard ID: JGJ/T 16-1992

Standard Name: Civil Building Electrical Design Code

Chinese Name: 民用建筑电气设计规范

Standard category:Construction industry industry standards (JG)

state:Abolished

Date of Release1993-02-26

Date of Implementation:1993-08-01

Date of Expiration:2008-08-01

standard classification number

Standard ICS number:Energy and Heat Transfer Engineering >> 27.100 Power Plant General

Standard Classification Number:Engineering Construction>>Electric Power, Nuclear Industry Engineering>>P60 Comprehensive Electric Power Engineering

associated standards

alternative situation:Replaced JGJ 16-1983; Superseded by JGJ 16-2008

Publication information

publishing house:China Architecture & Building Press

Publication date:1993-08-01

other information

drafter:Li Tianen, Pan Yanhai, Wang Qianfu, Zhou Weihua, Hu Dunhui, etc.

Drafting unit:China Architecture Northeast Design Institute

Publishing department:Ministry of Construction of the People's Republic of China

Introduction to standards:

This standard specifies the type, basic parameters, technical requirements, test methods, inspection rules and marking, packaging, transportation, storage, etc. of long-term stall torque electric cable reels. This standard applies to long-term stall torque electric cable reels. This specification applies to the electrical design of single and group civil buildings newly built, rebuilt and expanded in towns. JGJ/T 16-1992 Civil Building Electrical Design Specification JGJ/T16-1992 Standard download decompression password: www.bzxz.net

Some standard content:

Engineering Construction Standard Full Text Information System
Industry Standard of the People's Republic of China
Code for Electrical Design of Civil Buildings
JGJ/T16—92
1993Beijing
Engineering Construction Standard Full Text Information System
W Engineering Construction Standard Full Text Information System
Industry Standard of the People's Republic of China
Code for Electrical Design of Civil Buildings
CivilBuildingsJGJ/T16—92
Editor: Northeast China Architecture Design InstituteApproval department: Ministry of Construction of the People's Republic of ChinaEffective date: August 1, 1993
Engineering Construction Standard Full Text Information System
Engineering Construction Standard Full Text Information System
Notice on the Release of Industry Standard
《Design Code for Electrical Engineering of Civil Buildings》Jianbiao [1993] No. 139
According to the requirements of the Ministry of Construction (87) Chengkezi No. 276, the 《Design Code for Electrical Engineering of Civil Buildings》 edited by Northeast China Architecture Design Institute has been reviewed and approved as a recommended industry standard, numbered JGJ/T16—92, and will be implemented on August 1, 1993. The former ministry standard 《Technical Code for Electrical Engineering of Buildings》 (JGJ16—83) will be abolished at the same time. This standard is managed by the China Building Technology Development Research Center (Building Standard Design Institute), the technical unit responsible for building design standards of the Ministry of Construction. The editor-in-chief is responsible for specific interpretations and other work. The Standard and Quota Research Institute of the Ministry of Construction organizes the publication. Ministry of Construction of the People's Republic of China
February 26, 1993
Engineering Construction Standards Full-text Information System
Engineering Construction Standards Full-text Information System
2 Terms, Symbols, Codes
3 Power Supply System
3.1 Load Classification and Power Supply Requirements
3.2 Power Supply and High-voltage Power Supply and Distribution System
Voltage Selection and Power Quality
Load Calculation
Reactive Power Compensation
Substation
General Specifications Site selection
Distribution transformer selection
Type and layout of distribution substation
High voltage distribution device
Low voltage distribution device
Control mode and operating power supply
Phase-shifting capacitor device
Requirements for related specialties·
5 Relay protection and electrical measurement
Relay protection
5.2 Electrical measurement
Secondary circuit
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6 Self-provided power supply and uninterruptible power supply
6.1 Self-provided emergency diesel generator set
Telephone
6.2 Self-provided emergency gas turbine generator set
Uninterruptible power supply system
Outdoor line
General provisions
Overhead lines..
Cable lines·
Low-voltage power distribution
General provisions
Low-voltage power distribution system
Extra-low-voltage power distribution
Choice of conductors
Choice of low-voltage electrical appliances
Protection of low-voltage power distribution lines
Indoor wiring
General provisions
Wiring with porcelain (plastic) wire clamps, drum insulators, and pin insulators.9.3
Direct wiring
Metal pipe wiring
Hard plastic pipe wiring||tt ||Wiring in semi-rigid plastic pipes and concrete slab holes
Wiring in metal ducts.
Wiring in plastic ducts
Wiring in concealed metal ducts in the ground
Wiring in cable ducts..
Wiring in cable trays
Wiring in closed busbars…
Wiring in shafts
10 Commonly used electrical equipment
General provisions·
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10.2 Electric Motors
10.3 Transmission and Transportation Systems
10.4 Elevators, Escalators and Moving Walkways10.5
Voltage Stabilizing and Rectifying Equipment
Household Electrical Appliances
Stage Electrical Equipment
Medical Radiological Equipment.
Gymnasium (Field) Equipment:
Gas Lighting
General Provisions
Lighting Quality
Lighting Methods and Types
Lighting Sources and Lamps
Illumination Level
Illumination Calculation
Lighting Energy Saving
Lighting Power Supply
Design Requirements for Lighting of Various Buildings
Construction Lightning protection for buildings
General provisions
Lightning protection classification for buildings
Protection measures for first-level lightning protection buildings
Protection measures for second-level lightning protection buildings
Protection measures for third-level lightning protection buildings…
12.6 Other lightning protection measures
127 Lightning arrester
12.9 Grounding device
13 Lightning protection for power equipment…|| tt||Engineering Construction Standard Full-text Information System
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General Provisions
13.2 Protection of Overhead Lines of 10kV and Below
13.3 Protection of Distribution Substations and Distribution Transformers and Switchgear Connected to Overhead Lines
Protection of Rotating Electrical Machines
14 Grounding and Safety
General Provisions·
Grounding types and basic requirements for low-voltage power distribution systems Protection against electric shock of low-voltage distribution systems
Scope of protective grounding
Grounding requirements and grounding resistance
14.6 Grounding device
Grounding of general power equipment and electrical facilities
Safety protection of special installations or places
15 Shared antenna television system
General provisions
System composition
Receiving antenna
Electric power supply
Transmission and distribution network
Lines and laying
Installation requirements
Power supply, lightning protection and grounding
Closed-circuit television application·
General provisions·
16.2 Closed-circuit television system...
16.3 Selection of equipment and devices.
16.4 Transmission and lines.
16.5 Power supply and grounding.
17 Sound and video program production
17.1 Scope of application and functional requirements
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17.2 System Composition and Technical Requirements
17.3 Equipment Configuration Quantity and Equipment Selection…
17.4 Technical Room and Equipment Layout
*+*+++*
17. 5 Line laying
17.6 Power supply and grounding
17.7 Requirements for other disciplines
18 Response (call) signal and public display device18.1
General provisions
18.2 Calling method and system composition of response (call) signal18.3 Equipment selection and line laying of response (call) signal18.4
Principles for setting up public display device
Choice of display scheme of public display device
Control of public display device
Equipment selection and line laying of public display deviceClock system
General provisions
Relay method for urban telephone exchange
Site selection of telephone station
Equipment layout of telephone station
Conference phone, dispatch Telephone
Power supply, grounding, lighting
Buildings
Communication lines
Communication line network
Cable pipeline lines
Direct buried cable lines
Overhead cables
Outdoor wall cables
20.6 Bracket cables laid along power cable trenches 20.7 Overhead lines
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20.8 Cable inflation maintenance
20.9 Indoor wiring in buildings
20.10 Grounding protection
Wired broadcasting
Setting principles of wired broadcasting
Wired broadcasting network
Equipment selection and setting
Wired broadcasting control room
Line laying
Power supply and grounding
22 Sound reinforcement and simultaneous interpretation
Determination of sound reinforcement system
Technical indicators of sound reinforcement system
Sound reinforcement design and calculation
Selection of sound reinforcement equipment
Sound reinforcement control room
Layout and installation of loudspeakers
Microphone layout and suppression of acoustic feedback
Sound reinforcement network and line layingbZxz.net
Simultaneous interpretation
Power supply and grounding
Instrument automatic control·
Detection and control instruments
Instrument Power supply and gas source
Instrument panel and instrument room
Instrument pipeline laying…
Air conditioning automatic control
23.6 Thermal measurement and automatic control of boiler room 23.7 Automatic control of cold storage
23.8 Automatic control of water supply and drainage
23.9 Application of microcomputers
Engineering construction standard full text information system
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24 Fire Alarm and Fire Linkage Control
General Provisions
24.2 Determination of Protection Level and Protection Scope24.3
System Design
Fire accident broadcast
Selection and setting of fire detectors
Fire linkage control
Fire emergency lighting
Wire selection and line laying
System power supply
Fire duty room and fire control room
Special fire communication:
Burglar alarm:
Combustible gas and flammable liquid vapor alarm·24.14
25 Computer operation and management system for public buildings 25.1
General provisions
25.2 Hotel and restaurant operation and management system
25.3 Library retrieval system·
25.4 Commercial operation and management system
25.5 Parking lot (garage) billing management system
2.. Bank operation management system
Railway passenger station, airport ticketing system
25.8 Office automation system...
26 Building automation system (BAS)
General provisions
System service functions and network structure***
26.3 Preparation of monitoring master table
26.4 Provisions on BA system hardware and its configuration26.5 Principle provisions on BA system software26.6 Signal transmission and data communication
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26.8 Line laying
Monitoring center
Appendix A
Outdoor lines
Applicable areas in typical meteorological zones
Overhead line pollution classification standards
Appendix B
Common equipment and electrical devices
Characteristics of the reduced voltage starting method of squirrel cage motors B.1
B.2 Characteristics of AC voltage stabilizer types
B.3 Wiring coefficients of various rectifiers
B.4 Reference value of rectifier ncosΦ
B.5 Calculation of fixed lead-acid battery capacity
Appendix C
Electrical lighting.
c.1 Luminaire brightness limit curve and its use methodC.2 Shading angle of direct luminaires
C.3 Design regulations for emergency lighting
Mixing ratio of light source
C.5 Classification of luminaires
Lighting load requirement coefficient for civil buildings
Determination of the number of ultraviolet germicidal lamps
C.8 Measurement method of gymnasium (field) lighting
Appendix D
Lightning protection for buildings
National Number of thunderstorm days in major cities and towns
Empirical formula for calculating the number of lightning strikes per year for buildingsD.2
D.3 Parts of buildings susceptible to lightning strikes
D.4 Minimum cross-section of equipotential bonding conductors
D.5 Conversion of power frequency grounding and impulse grounding resistance Appendix E Grounding and safety
E.1 Grounding type of low-voltage power distribution system
E.2 Division of bathtub and shower tray (room) areasE.3 Division of swimming pool and wading pool areas
Engineering 8 Standard Full Text Information System
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Appendix F Shared Antenna Television System
Conversion formula between system index allocation coefficient and decibel value F.2 Estimation formula for antenna receiving signal field strength F.3 Receiving antenna Calculation of output level value F.4 Frequency configuration of radio and television channels in my country Appendix G
Closed-circuit television application
5-level damage standard assessment
Relationship between illumination and camera selection
G.3 Calculation formula of camera lens focal length
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Appendix H
Audio and video program production
"Technical requirements for video systems and pulse systems in television centers" Reference indicators for equipment configuration of various program production systems H.2
H.3 Reference indicators for room areas of various program production systems H.4 Design requirements for related disciplines
Appendix K
Appendix L
Related calculation formulas for sound reinforcement and simultaneous interpretation Fire alarm and fire linkage control||tt ||Determine the limit curves of detectors a and b by A and R.1
L.2 The influence of room height and beam height on detector setting: (587)
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L.3 Determine the number of inter-beam areas that a detector can protect according to Q (601) Building Automation System
Appendix M| |tt||M.1 Functions and technical requirements of BA system central softwareM.2 Functions and technical requirements of BA system substation software.M.3 Examples of various description phrases
Appendix p
: Explanation of terms used in this specification.
Additional explanation
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