Shenzhen Huaqiang North Road Commercial Street Night Lighting Planning and Design Concept

1 Overview In the urban night scene, the streets exist in a linear form, forming the context of the city. At night, the illuminating lighting and the architectural landscape lighting in the series make the commercial street have a dynamic and lively image.

Huaqiang North Road, Futian District, Shenzhen is a famous electronic communication package, jewellery and clothing department store in the country. After the first phase of the planning and renovation of the entire block in 1999, the municipal roads, green spots, stations and squares of the whole street have been comprehensively upgraded. It has become the golden shopping and leisure sightseeing place with the most modern metropolis features in the central area of ​​Shenzhen. Lighting planning and design includes carriageways, sidewalks, plazas, green spaces, buildings, shops, billboards, etc.

2 Lighting Planning and Design Principles 2.1 Unified urine emphasizes the integrity and unity of commercial streets. The street lighting design with uniform style regulates the entire street and requires unified management of this street.

2.2 People-oriented principle A pleasant lighting environment creates a relaxed, comfortable and unique leisure shopping environment.

2.3 Cultural Principles Efforts to improve cultural taste, carefully design small items and greenery, rectify the lighting effects of advertisements and storefronts, and display Huaqiang North Road through sculptures to increase cultural interest.

2.4 The simple method from the overall style to the detailed design follows the principles of modern, concise, and generous, avoiding the abuse of irritating lighting and advertising to create a commercial atmosphere, and requires the charm of Huaqiang North Road architecture and the environment itself.

3 Lighting Planning and Design Scheme On the design of the night lighting of Huaqiang North Road Commercial Street, the key points in the block area with the meaning of the district are used up, and the lights are marked in the order of the street arrangement to form the overall point and line combination design. The concept, while paying attention to the spatial design of the lighting design of each functional level.

The nodes of the whole street are selected from the south to the north by three main nodes: the SEG Plaza at the southern end of the commercial street; the Zhenhua intersection at the modern window building; and the Star Plaza at the northern end of the commercial street. On the re-façade in the block, the street lighting design is divided into four levels: the middle of the block is formed by a series of cross-street lighting arches with large scales; the pedestrian walkway level forms four levels from the street to the store, 1 outermost For 10 garden lights, 2 the second floor is the buried starlight, 3 the third floor is the characteristic garden light, 4 the floor closest to the entrance of the merchant shop can be installed with small wattage 暧 buried lights or light guide star array to increase The entrance brightness attracts visitors. Plan the lighting for the commercial street. Plan the effect for the east facade along the street and plan the effect for the west facade along the street.

The building in the commercial building is on the façade and is designed according to the method of 3 layers of lighting: large-scale lighting advertisements are arranged on the upper floor of the building, and the main scene of lighting is formed by large neon lights, light boxes or floodlighting. It is also a city view; the middle layer has its own characteristics. The signage lights, the light boxes, the neon lights or the string lights form the middle layer lighting, the bottom layer uses the bright small lighting and the window lighting to form the light body with the horizontal line of sight height. Through the point, line, and three-dimensional night lighting planning and design, to create a neon flashing, colorful, warm and prosperous, orderly commercial lighting, the night of Huaqiang North Commercial Street makeup into the most in Shenzhen Vibrant public space. Become an important place for foreign tourists to learn about Shenzhen style at night.

4 Lighting node planning and design SEG Plaza: The tower part is used as a city record building, focusing on the lighting effect at the top of the building.

The top mast uses a narrow beam angle metal halide lamp to illuminate the shaft from the roots, highlighting the building's sense of sensation and its position in the urban landscape.

At the top of the top equipment room, jewel-blue gold-tone point light source fixtures are installed outside the grille to create a starlight effect in the night sky. On the upper part of the tower, there are two layers on the colonnade. The computer uses a color-changing floodlight to project the column and the rear wall from the bottom to the outside of the column, creating a dynamic and sensitive image.

The tower body part of the tower has four wall parts in the octagonal plane, and the light beam of the third safety science and technology academic exchange meeting is uniformly placed from the pillar layer. In the side floor, each layer of the fluorescent light is used for internal light transmission to increase the volume of the building. In the main landscape direction of SEG Plaza, the high-power metal halide floodlights are used to cast light on the tower, and the brightness of the tower is described to describe the overall contour of the building. The group building enhances the lighting effect of the pillars under the light projection of the gold halide.

Considering the marketing characteristics of the electronic communication commercial building, the main color of the entire building is sapphire blue. Along the façade of Huaqiang North Street, the line light of the purple-red color cold cathode light-emitting tube is installed under the window sill, and the color difference can be increased by the color change of the computer program.

The corner part is mainly light-transmitting inside, and the roof shelf uses floodlights to brighten the shelf and provoke the bottom plate. A color-changing strip is installed above the entrance to enhance the bustling commercial effect.

The side of Zhenhua Road uses floodlights for paving light, and at the same time, it is composed of a warm color point light from the top to the bottom of the balcony. Group Building designed a large LED electronic screen to play advertisements on the side of Huaqiang North Road.

As the northernmost node building of the entire commercial street, the lighting design should be given a key characterization. The main façade of the building is just perpendicular to the commercial street, and it is easy to integrate into the entire neighborhood landscape from the perspective.

Top: Focus on the top round apron. The spot light of the halogen light source is installed on the outer edge of the apron, and the external light source of the protective net is illuminated.

Mast-type buildings are illuminated with high-power metal halide lamps.

Building main body: The top is fitted with gemstone blue metal halide floodlights on each side of each protruding vertical rib member to create a modern sense of the building with light and dark light effects. A narrow beam of metal halide lamp is mounted above the vertical ribs on the glass curtain to illuminate the corner of the rib building and illuminate the building outline with a narrow beam of metal halide lamps.

The north facade of the group house commercial building is illuminated by a flood of light, and the neon outlines the outline. The large light box advertisement is added to the window to increase the commercial atmosphere.

The building facade along Huaqiang North is rich, and the lighting design focuses on the entrance and the curved glass curtain. A gemstone blue LED strip is mounted on the curved cross rib on the glass curtain, and a gemstone blue metal halide floodlight is added to the center groove to form a sequence.

Along the street, there are 15 cross-street arches on Huaqiang North Commercial Street. The lighting design is very flexible. The V-shaped LED lighting array is used to intersperse each grid. Each arch is like a rainbow and is arranged on the whole street. Another example is the colorful light gallery.

Enhance the viewing effect and overall dynamics by placing electronic styles of dynamic lighting effects, electronic flower balls, and lighting decoration around the intersection at the intersection.

Test 1 Xiao Huigan. Urban night lighting planning and design. Beijing: China Building Industry Press, 2000.3 4 Zhao Haitian, Xiangdong. On the scientific definition and planning system of urban lighting environment. City planning. 2003. Dr. Lu Shouxiang, Professor, *973* Project Leader, Member of the First Subcommittee of the China Fire Protection Standardization Committee, the candidate for the provincial academic and technical leaders, won the second prize of the national teaching achievements, the provincial science and technology progress second-class laughter and the State Council Government allowance. Mainly engaged in fire risk assessment methodology, ship fire safety engineering, flammable cloud fire detonation dynamics and other research work. He currently presides over 973 projects, the National Natural Science Foundation and the Navy's commissioned projects, and has published more than 60 academic papers.

Chen Weizhen was born in 1957, Changzhou, Jiangsu.

The teacher, the academic leader, and the founder of the engineering doctoral program. Expert in soft science research of the Ministry of Communications. He has served as the director of the teaching and research section, the deputy dean of the Merchant Marine College, the outstanding scientific and technical papers of the National Marine Surveyor and the Ministry of Education, and 2 provincial and ministerial excellent textbook awards. The paper has won the national first-class society and the international three major search citations. Article. He has authored 6 books such as "Ship Safety and Management", "Captain's Business", "Ship Management", "Ship Management", and completed "Ship Collision Motion Simulation and Responsibility Judging System" and "Computer Intelligent Management Technology for Maritime Safety". "M", "Ship Transportation Safety Evaluation Technology Research", "Research on Comprehensive Implementation Mode of Traffic Administrative Law Enforcement" and other key provincial science and technology projects, and published more than 40 papers on "New Theory of Safety Science for Maritime Pre-Control". His research interests include safety science and technology, maritime management, and traffic administration law.

Wang Lixiong was born in November 1963. He is an associate professor of the Institute of Architecture and Technology of the School of Architecture of Tianjin University, a master's tutor, a deputy director of the Lighting and Lighting Committee of the Architectural Physics Branch of the Chinese Architectural Society, a secretary of the Science Education Committee of the China Lighting Society, and a Construction Physics Committee of the Tianjin Architectural Society. Chairman, Professional: Building Physics. In June 1993, he graduated from Tianjin University with a master's degree in architecture and technology. His main achievements: "Light Visual Design and Test System* (National Natural Science Foundation), 1999, Tianjin Science and Technology Progress Second Smile: "TV Lighting Effect Computer Aided Design application system*, won the third prize of Tianjin Science and Technology Progress Award in 2001, "Technical Guide for Microcomputer Creation of Color Building Difficulties" was published in 1998. He has published many papers in Journal of Lighting Engineering and National Academic Conference. Professor Jiang Juncheng, doctoral tutor. In 1995, he graduated from China University of Mining and Technology with a degree in Safety Technology and Engineering. From 1996 to 1997, he worked at the post-doctoral circulation station of Central South University of Technology. In 20002001, he went to the Canadian Academy of Sciences (NRC) to study and cooperate with him. The main research areas are: industrial disaster prevention and control. He has presided over the research work of a number of national, provincial and ministerial-level key projects including the National Natural Science Foundation's key projects and surface projects, and has achieved outstanding scientific research results. In 2001, he won the second prize of Jiangsu Science and Technology Progress Award and the first prize of outstanding teaching achievement of Jiangsu Province as a major member. In 1999, he was the third member of the Ministry of Education’s scientific and technological progress in 1999. He is the second level of the "333 Project" in Jiangsu Province. In 1998, he was awarded the title of “Blue Project” by the Jiangsu Provincial Education Commission.

As the first author or an overnight contact, he has published more than 60 professional academic papers at well-known academic journals or seminars at home and abroad, and more than 20 of them have been included in El (Engineering Index) and ISTP. Jiang Chenglin was born in February 1956. He is from Huangshan City, Anhui Province, and is an energy school of China University of Mining and Technology. Professor, Ph.D., member of the Gas Protection Professional Committee of the China Labor Protection Society, and the talents of the coal industry. The criteria for classification of mine dynamic phenomena according to "force and medium" are proposed. The theory of spherical shell loss and ear-sliding that created the mechanism of coal and gas outburst is a paradox that has been verified in many aspects in this field. The initial release of gas expansion can increase and increase the law, and proposes a new coal and gas outburst pre-technique. He has published 1 monograph, published more than 30 papers, and won 5 provincial and provincial scientific and technological progress awards.

He Kaiji graduated from the beginning of 1968. In January 1969, he went to the General Office of Hongya County, Sichuan Province, and set up a team (accountability). In November 1971, he worked in Chengdu Electric Power Fittings Factory and in 1982 worked in Chengdu Electric Power Machinery Factory.

He has worked in heat treatment, quality management, mechanics measurement, etc. In 1993, he served as the vice chairman of the factory union and began to work in the special trade union. He has served as a legal representative of a trade union and has presided over the work of the whole factory. It has been rated as a model and advanced trade union worker by the Sichuan Electric Power Trade Union for many times, and has been rated as an advanced producer and an excellent Communist Party member by the unit. Graduated from college, since August 2001, he has served as director of the factory union office.

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