自然采光设计形式

Heifer International Headquarters
Polk Stanley Wilcox Architects
One World Avenue, Little Rock, Arkansas, United States
Credit: Timothy Hursley
Heifer International Headquarters
Polk Stanley Wilcox Architects
One World Avenue, Little Rock, Arkansas, United States
Credit: Timothy Hursley
University of Washington Medical Center - Montlake Tower
NBBJ
Seattle, Washington, United States
Credit: Benjamin Benschneider
Chesapeake Bay Foundation: Brock Environmental Center
SmithGroup JJR
Virginia Beach, VA
Credit: © Prakash Patel
Los Angeles County Museum of Art
Renzo Piano
5905 Wilshire Blvd, Los Angeles, California, United States
Credit: Cazayoux
Day Care Centre
Dorte Mandrup Architects
Naestvedgade, 2100 Copenhagen, Denmark
Credit: Jens Markus Lindhe
Aldo Leopold Legacy Center
The Kubala Washatko Architects, Inc.
Baraboo, Wisconsin, United States
Credit: The Kubala Washatko Architects, Inc. / Mark F. Heffron
Floreac Administrative Headquarters
EVR-Architecten BVBA
Lochristi, Belgium
Credit: EVR-Architecten BVBA
Aerial View of Vienna, Austria
Rabengasse, 1030 Vienna, Austria
Credit: Imagery (c)2013 Google.
Matthew Hillyard Animal Teaching and Research Center, Utah State University
Jacoby Architects
Wellsville, Utah, United States
Credit: Jacoby Architects
Leuven Train Station
Philippe Samyn and Partners
16 Martelarenplein, Leuven, Belgium
Credit: Marie-Françoise Plissart
Leuven Train Station
Philippe Samyn and Partners
16 Martelarenplein, Leuven, Belgium
Credit: Marie-Françoise Plissart
Kensington Creative and Performing Arts High School
SMP Architects / SRK Architects
1901 N. Front St., Philadelphia, Pennsylvania, United States
Credit: Barry Halkin Photography
M&G Ricerche
Philippe Samyn and Partners
25 Viale dell'Industria, Pozzilli, Italy
Credit: Matteo Piazza
M&G Ricerche
Philippe Samyn and Partners
25 Viale dell'Industria, Pozzilli, Italy
Credit: Matteo Piazza
NASA Ames Sustainability Base
AECOM, William McDonough + Partners
Ames Research Center, Moffett Field, California, United States
Credit: NASA/Eric James
Truro Residence
ZeroEnergy Design
Truro, Massachusetts, United States
Credit: Eric Roth Photography
Smithkline Beecham Biologicals, S.A.
Philippe Samyn and Partners
89 Rue de l'Institut, Rixensart, Belgium
Credit: Marc Detiffe
Stanford University Graduate School of Business - Knight Management Center
Boora Architects
655 Knight Way, Stanford, California, United States
Credit: Skyhawk

选用较窄进深楼面的建筑物形状可使外墙面积加大，并有助于利用玻璃来增加室内空间的自然采光。

建筑形状的设计应考虑如何将自然光最有效地引入建筑室内空间。

使用4.5 / 9米的经验法则来选用设计建筑的形状和楼板:

沿周长4.5米（ 15英尺）深的区域深度作为专用自然采光区;
与相邻外围区4.5米（ 15英尺）的区域作为环境采光区。

建筑物楼面可以加长、弯曲或组织成不同形状。在东西走向加长的建筑物有助于增强南北向的自然采光控制；而较高的天花板和窗户也可加大南北两侧室内的自然采光。具有较大楼面的建筑可通过中庭和庭院引入更多的自然光。低层和单层楼的建筑结构可以采用任何形状，因为室内空间可通过其屋顶得到自然光。

工具和资源

书籍

出版物

工具

cove.tool [cove. 工具]

网站

Advanced Buildings: Daylighting Pattern Guide [高级建筑：采光格局指南]

相关色板

C_Daylighting from Multiple Sides-01

C_Side Daylighting-01

C_Form for Heating-01

C_Form for Cooling-01

C_Top Daylighting-01