[1]王钟箐,胡 强,路 峻.基于Dynamo可视化编程的攒尖亭参数化设计[J].西安建筑科技大学学报(自然科学版),2021,(02):247-253.[doi:10.15986/j.1006-7930.2021.02.014]
 WANG Zhongqing,HU Qiang,LU Jun.Parametric design of Cuanjian pavilion based on dynamo programming[J].J. Xi’an Univ. of Arch. & Tech.(Natural Science Edition),2021,(02):247-253.[doi:10.15986/j.1006-7930.2021.02.014]
点击复制

基于Dynamo可视化编程的攒尖亭参数化设计()
分享到:

西安建筑科技大学学报(自然科学版)[ISSN:1006-7930/CN:61-1295/TU]

卷:
期数:
2021年02期
页码:
247-253
栏目:
出版日期:
2021-04-28

文章信息/Info

Title:
Parametric design of Cuanjian pavilion based on dynamo programming
文章编号:
1006-7930(2021)02-0247-07
作者:
王钟箐胡 强路 峻
(成都大学 建筑与土木工程学院,四川 成都 610106)
Author(s):
WANG Zhongqing HU Qiang LU Jun
(School of Architecture and Civil Engineering, Chengdu Univ., Chengdu 610106, China)
关键词:
Dynamo可视化编程 古建筑 亭子 参数化
Keywords:
Dynamo programming ancient buildings pavilion wood frame parameterization
分类号:
TU201
DOI:
10.15986/j.1006-7930.2021.02.014
文献标志码:
A
摘要:
亭子是中国古典建筑的一种重要形式,现今在仿古建筑和园林设计中仍有着广泛的应用.“以形求律,以律演算”,遵循从“形”(建筑外形)中寻找 “律”(尺寸权衡),继而进行“算”(参数设计)的原则,整理提炼出攒尖亭的尺寸权衡规则,在揭示亭子木构架通用法则的基础上,提供一种参数化设计方法,以亭子角面数N和檐柱径D为基本参数,将其木构架各构件的尺寸按照构成规则和权衡算例,转化为对应的函数变量.并以此为基础,使用Dynamo可视化编程平台和Revit软件,通过创建参数化的构件定位点模型和自适应构件,最终生成攒尖亭的木构架模型.使用此参数化设计方法,可生成建筑体量比例、构件尺寸大小等参数可控、范围可调,角面不同(四角、六角、八角),檐层各异(单檐、重檐)的攒尖亭构架,避免了重复设计,极大程度地提高了设计效率.
Abstract:
Pavilion is an important form of Chinese ancient architecture, which is still widely used today. "Finding the law by shape, calculating by law", following the principle of the "law"(dimension rule)from the "shape"(building shapes), and then taking "calculation"(parameter design), collating documents and refining the dimension rules of Cuanjian Pavilion, taking the plane edge number N of Pavilion and the diameter D of eaves column as the basic parameters, transforming the dimension of its frame design into the corresponding function variable according to the rules. On this basis, creating of parametric positioning point model and adaptive components by dynamo visual programming platform and Revit software, then the timber frame models of Cuanjian Pavilion are finally generated. With this model, the parameters of volume scale, size and so on can be automatically generated and controlled, and the Cuanjian Pavilion frame with different corner surfaces(four corners, six corners, eight corners)and different eaves layers(single eaves, double eaves)can greatly improve the design efficiency.

参考文献/References:

[1]石红超, 林锋, 黄滋. 江浙地区抬梁式构架参数化模型系统设计[J].新建筑, 2017(5):96-99.
SHI Hongchao, LIN Feng, HUANG Zi. Parametric model system of the raised-beam frame in Jiangsu and Zhejiang areas[J].New Architecture, 2017(5):96-99.
[2]陈晓卫, 王曦. 《营造法式》参数化:殿堂式大木作的算法生形[J].华中建筑, 2016(12):41-43.
CHEN Xiaowei, WANG Xi. Parameterization of Yingzaofashi: generating the palace style structural carpentry system based on algorithmic language[J].Huazhong Architecture, 2016(12):41-43.
[3]刘小虎, 冰河, 潘浩, 等. 《营造法原》参数化:基于算法语言的参数化自生成建筑模型[J].新建筑, 2012(1):16-20.
LIU Xiaohu, BING He, PAN Hao, et al. Parameterization of Yingzaofayuan: parameterized and self-generated architectural model based on algorithmic language[J].New Architecture, 2012(1):16-20.
[4]陈庆军, 王永琦, 汪洋, 等. 基于Revit及Revit API的应县木塔建模研究[J].西安建筑科技大学学报(自然科学版), 2017(3):374.
CHEN Qingjun, WANG Yongqi, WANG Yang, et al. Research on the modeling of Yingxian wooden tower based on Revit and Revit API[J].J. Xi’an Univ. of Arch. & Tech.(Natural Science Edition), 2017(3):374.
[5]王茹, 孙卫新, 张祥. 明清古建筑构件参数化信息模型实现技术研究[J].西安建筑科技大学学报(自然科学版), 2013(4):479-486.
WANG Ru, SUN Weixin, ZHANG Xiang. Research on parametric information model of ancient buildings of Ming and Qing dynasties[J].J. Xi’an Univ. of Arch. & Tech.(Natural Science Edition), 2013(4):479-486.
[6]WANG R, SUN W X, ZHANG X. Construction of the information model of ancient architecture components based on BIM - A case study of bracket sets[J].Applied Mechanics & Materials, 2013, 2307(601):323-326.
[7]JIA J, ZHENG Q, GAO H, et al. Research of ancient architectures in Jin-Fen area based on GIS&BIM technology[J].Journal of Physics Conference, 2017, 842(1):012035.
[8]JUNGDAE Park. BIM-based parametric design methodology for modernized Korean traditional buildings[J].Journal of Asian Architecture and Building Engineering, 2011, 10(2):327-334.
[9]JEONGHYUN Kim, BONG Hee Jeon. Design integrated parametric modeling methodology for Han-ok[J].Journal of Asian Architecture and Building Engineering, 2012, 11(2):239-243.
[10]DONGSEOB Yi, JEONGHYUN Kim, et al. Parametric modeling methodology for roof components of the traditional Korean house with focus on chu-nyeo, gal-mo-san-bang, and seon-ja-yeon[J].Journal of Asian Architecture and Building Engineering, 2013,12(2): 261-267.
[11]马炳坚. 传统园林建筑技术刊授讲座, 第一讲, 传统园林建筑的通则和权衡[J].古建园林技术, 1989(3):58-64,69.
MA Bingjian. Lectures on traditional garden architecture techniques, The first lecture, General principles and tradeoffs of traditional garden architecture[J].Traditional Chinese Architecture and Gardens, 1989(3):60-66,71.
[12]罗翔, 吉国华. 基于Revit Architecture族模型的古建参数化建模初探[J].中外建筑, 2009(8):42-44.
LUO Xiang, JI Guohua. On parametric modeling of traditional Chinese architecture based on family component of revit architecture[J].Chinese and Overseas Architecture, 2009(8):42-44.
[13]梁思成. 清式营造则例[M].北京: 清华大学出版社, 2006:151-153.
LIANG Sicheng. Rules for the construction of Qing style[M].Beijing: Tsinghua University Press, 2006:151-153.
[14]王璞子. 工程做法注释[M].北京: 中国建筑工业出版社, 1995:159-162.
WANG Puzi. Engineering practice Note[M].Beijing: China Construction Industry Publishing House, 1995:159-162.
[15]马炳坚. 中国古建筑木作营造技术[M].北京: 科学出版社, 2003:89-90.
MA Bingjian. Woodwork construction technology of ancient Chinese architecture[M].Beijing:Science Press, 2003:89-90.
[16]李永革, 郑晓阳. 中国明清建筑木作营造诠释[M].北京: 科学出版社, 2018:273-274.
LI Yongge, ZHENG Xiaoyang. Interpretation of Chinese architectural woodwork in Ming and Qing dynasties[M].Beijing: Science Press, 2018:273-274.
(编辑 桂智刚)

备注/Memo

备注/Memo:
收稿日期:2020-04-20 修改稿日期:2021-03-20
基金项目:成都市重点教学实验室研究项目(0318025)
第一作者:王钟箐(1973-),女,讲师,国家一级建筑师,主要研究古建筑与BIM技术应用.E-mail:wangzhongqing@cdu.edu.cn
通信作者:胡 强(1975-),男,副研究员,主要研究程序设计及算法.E-mail: georgehq@cdu.edu.cn
更新日期/Last Update: 2021-04-28