[1]张兵,赖冠华,杜媛媛,等.低灯位多维道路照明技术[J].深圳大学学报理工版,2021,38(6):658-663.[doi:10.3724/SP.J.1249.2021.06658]
 ZHANG Bing,LAI Guanhua,DU Yuanyuan,et al.Multi-dimentional road lighting technology with fixed low-mounting height luminaires[J].Journal of Shenzhen University Science and Engineering,2021,38(6):658-663.[doi:10.3724/SP.J.1249.2021.06658]
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低灯位多维道路照明技术()
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《深圳大学学报理工版》[ISSN:1000-2618/CN:44-1401/N]

卷:
第38卷
期数:
2021年第6期
页码:
658-663
栏目:
土木建筑工程
出版日期:
2021-11-15

文章信息/Info

Title:
Multi-dimentional road lighting technology with fixed low-mounting height luminaires
文章编号:
202106014
作者:
张兵1赖冠华2杜媛媛1李田茵1赵海天1
1)深圳大学建筑与城市规划学院,广东深圳 518060
2)深圳高维照明技术有限公司,广东深圳 518058
Author(s):
ZHANG Bing1 LAI Guanhua2 DU Yuanyuan1 LI Tianyin1 and ZHAO Haitian1
1)School of Architecture and Urban Planning, Shenzhen University, Shenzhen 518060, Guangdong Province, P.R.China
2)Shenzhen Gaowei Lighting Technology Limited Company, Shenzhen 518058, Guangdong Province, P.R.China
关键词:
公路运输道路照明分布式低灯位节能出光效率
Keywords:
road transport road lighting distribution low-mounting height lighting energy saving light output efficiency
分类号:
U491.5+3
DOI:
10.3724/SP.J.1249.2021.06658
文献标志码:
A
摘要:
低位照明中眩光强烈程度与灯具出光效率呈正相关,消除眩光的截光板会降低灯具出光效率.从照明方式与灯具结构两个方面展开研究,通过分析路面反射模型,论证路灯出光角度与照明效率的关系.利用软件模拟灯具结构,探讨透镜出光面光线分布、结构中垂直角、出光面高度与灯具长度等因素对灯具出光效率的影响.结果表明,粗糙路面采用正向照明,光滑路面采用逆向照明,可以提高路面反射效率;提升灯具出光效率的关键在于降低透镜出光面高度,当透镜出光面高度为7 mm时,灯具出光效率达到极限值的67%,灯具能耗比国家标准1 W/m2降低了88%.
Abstract:
The intensity of glare in low-level lighting is positively correlated with the light output efficiency of lamps.The light intercepting plate to eliminate glare will decrease the light output efficiency of lamps.In this paper, we investigate the road lighting efficiency from the lighting mode and the lamp structure.Through the analysis of the road reflection model, we demonstrate the relationship between the different light-emitting angles of street lamps and the lighting efficiency.Using software to simulate the structure of the lamp, we discuss the influence of the light distribution of the light-emitting surface of the lens, the vertical angle in the structure, the optical surface height of lens and the length of the lamp on the light-emitting efficiency of the lamp.We find that the use of forward lighting on rough roads and the use of reverse lighting on smooth roads can greatly improve the reflection efficiency of the road. The key to improve the light output efficiency of lamps is to reduce the optical surface height of lens.When the optical surface height of lens is 7 mm, the light output efficiency of lamps reaches the limit value of 67%, and the energy consumption of lamps is 88% lower than the national standard of 1 W/m2.

参考文献/References:

[1] CJJ 45—2015城市道路照明设计标准[S].
CJJ 45—2015 Urban road lighting design standard[S].(in Chinese)
[2] ANSI/IESNA RP-8-2000 American national standard practice for roadway lighting[S].
[3] 王启汶.LED路灯和车灯的二次光学设计[D].镇江:江苏大学,2018.
WANG Qiwen.Secondary optical design of LED streetlights and car lights[D].Zhenjiang: Jiangsu University,2018.(in Chinese)
[4] 赵海天,姚其,邝志斌,等.基于视网膜照度的路面照明效率分析[J].深圳大学学报理工版,2013,30(2):186-189.
ZHAO Haitian,YAO Qi, KUANG Zhibin,et al.Road lighting efficiency analysis based on retinal illuminance[J].Journal of Shenzhen University Science and Engineering,2013,30(2):186-189.(in Chinese)
[5] 张兵,赖冠华,李田茵,等.高位路灯眩光本质分析与眩光消除技术[C]// 半导体照明创新应用暨智慧照明发展论坛论文集.[S.l.]:中国照明学会,2020:57-66.
ZHANG Bing,LAI Guanhua,LI Tianyin,et al.High-mounted street lamp glare analysis and glare elimination technology[C]// Proceedings in Semiconductor Lighting Innovation Application and Smart Lighting Development Forum,[S.l.]: China Illuminating Society, 2020: 57-66.(in Chinese)
[6] 王振祥,漆志军,于群松,等.低位照明技术在山区峡谷悬索桥上的应用[J].公路,2020,65(12):204-207.
WANG Zhenxiang,QI Zhijun,YU Qunsong,et al.Application of Low position illumination technology on suspension bridge in mountain canyon[J].Highway,2020,65(12):204-207.(in Chinese)
[7] CHEN Shenfei,LI Weisheng,YANG Songbai,et al.Evaluation method and reduction measures for the flicker effect in road lighting using fixed low mounting height luminaires[J].Tunneling and Underground Space Technology,2019,93.
[8] 王晓喜.护栏照明失能眩光及闪烁频率问题的研究[J].建筑电气,2018,37(7):59-63.
WANG Xiaoxi.Research on disability glare and flicker frequency of guardrail lighting[J].Electrical Building,2018,37(7):59-63.(in Chinese)
[9] 杨松柏,李玮晟,陈神飞,等.基于瞳孔相关实验的等主观亮度下消减路灯眩光的节能效应[J].照明工程学报,2019,30(4):65-69, 136.
YANG Songbai,LI Weisheng,CHEN Shenfei,et al.Energy-saving effect of reducing street lamp glare under equal subjective brightness based on pupil correlation experiment[J].Journal of Illuminating Engineering,2019,30(4):65-69,136.(in Chinese)
[10] Science-Applied Sciences.Investigators from university of pisa have reported new data on applied sciences (space syntax analysis applied to urban street lighting: relations between spatial properties and lighting levels)[J].Science Letter,2019, 9(16): 3331.
[11] JOANNE M W.Nighttime driving: visual,lighting and visibility challenges[J].Ophthalmic and Physiological Optics,2020,40(2):187-201.
[12] PAUL M.Do brighter,whiter street lights improve road safety[J].Significance,2019,16(5):8-9.
[13] 贺岩松,陈奎,潘罗,等.驾驶舱眩光仿真分析与实车评价[J].中国公路学报,2019,32(8):183-190.
HE Yansong,CHEN Kui,PAN Luo,et al.Glare analysis and evaluation of a cockpit based on visual simulation[J].Journal of China Highway Engineering,2019,32(8):183-190.(in Chinese)
[14] 关烨锋,陈泳竹.路面反射系数对LED道路配光的影响及其优化研究[J].广东技术师范学院学报,2016,37(2):33-36.
GUAN Yefeng,CHEN Yongzhu.Influence of road reflection coefficient on LED road light distribution and its optimization[J].Journal of Guangdong Polyeechnic Normal University,2016,37(2):33-36.(in Chinese)
[15] 潘怡蕾,刘超博,王洪波,等.LED道路照明“灯下黑”问题的分析[J].照明工程学报,2018,29(1):67-71,81.
PAN Yilei,LIU Chaobo,WANG Hongbo.Analysis of LED road lighting “black under the lamp” problem[J].Journal of Illuminating Engineering,2018,29(1):67-71,81.(in Chinese)
[16] 张航,严金华.非成像光学设计[M].北京:科学出版社,2016:26-27.
ZHANG Hang,YAN Jinhua.Design with non-imaging optical[M].Beijing:Science Press,2016:26-27.(in Chinese)
[17] 周彦辰,郭亮,陈志涛,等.基于全内反射结构的多自由曲面准直透镜设计[J].光学学报,2021,41(4):186-194.
ZHOU Yanchen,GUO Liang,CHEN Zhitao,et al.Design of multi-free-form collimating lens based on total internal reflection structure[J].Acta Optica Sinica,2021,41(4):186-194.(in Chinese)

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备注/Memo

备注/Memo:
Received:2020-06-23;Accepted:2020-12-20;Online(CNKI):2021-09-01
Foundation:National Natural Science Foundation of China(51778367);Shenzhen Science and Technology Plan (JCJY20170818 141507055,JSGG20170411140639558)
Corresponding author:Professor ZHAO Haitian.E-mail:arphlb@szu.edu.cn
Citation:ZHANG Bing,LAI Guanhua,DU Yuanyuan,et al.Multi-dimentional road lighting technology with fixed low-mounting height luminaires[J]. Journal of Shenzhen University Science and Engineering, 2021, 38(6): 658-663.(in Chinese)
基金项目:国家自然科学基金资助项目(51778367);深圳市科技计划资助项目(JCJY20170818141507055,JSGG201704 11140639558)
作者简介:张兵(1995—),深圳大学硕士研究生.研究方向:道路照明.E-mail:727499623@qq.com
引文:张兵,赖冠华,杜媛媛,等.低灯位多维道路照明技术[J]. 深圳大学学报理工版,2021,38(6): 658-663.
更新日期/Last Update: 2021-11-30