BIM与装配式,两种技术结合和应用的典范——深圳·清华大学研究生院创新中心
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2020年08月27日 14:35:29
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深圳·清华大学研究生院创新中心 CAPOL华阳国际设计集团 该项目位于深圳南山西丽大学城主轴线的西侧。矗立在南山高新科技开发区,是校园新科研试验区的起点。 该建筑集教育,科研,产学研结合和国际交流功能于一体。它是BIM与装配式这两种新兴技术完美结合和应用的典范。 致力于打造一个开放,活跃的第三代实验楼,并鼓励学科交流和共享。 The project is located on the west side of the main axis of Xi Li University Town in Nanshan, Shenzhen. It is located in the Nanshan High-tech Development Zone and is the starting point of the new scientific research experimental area on campus. The architecture integrates the functions of education, research, industry-university-research integration, and international exchanges. It is a model of the perfect combination and application of two emerging technologies of BIM and assembly. It is committed to creating a third-generation laboratory building that is open and active, and encourages subject exchange and sharing.


深圳·清华大学研究生院创新中心

CAPOL华阳国际设计集团


该项目位于深圳南山西丽大学城主轴线的西侧。矗立在南山高新科技开发区,是校园新科研试验区的起点。

该建筑集教育,科研,产学研结合和国际交流功能于一体。它是BIM与装配式这两种新兴技术完美结合和应用的典范。

致力于打造一个开放,活跃的第三代实验楼,并鼓励学科交流和共享。


The project is located on the west side of the main axis of Xi Li University Town in Nanshan, Shenzhen. It is located in the Nanshan High-tech Development Zone and is the starting point of the new scientific research experimental area on campus. The architecture integrates the functions of education, research, industry-university-research integration, and international exchanges. It is a model of the perfect combination and application of two emerging technologies of BIM and assembly. It is committed to creating a third-generation laboratory building that is open and active, and encourages subject exchange and sharing.



在产品研究的指引下,该建筑分为办公和实验两大功能形体,既不打破现有的空间尺度,又合理地划分了平面功能。

塔楼被进一步分为高低两部分,低区临宜人的湖畔景观,高区旋转90度使景观面向南侧,视野开阔。

东南角和西北角的两处退让设计削弱了高层建筑带来的压迫感,并使建筑更好地融入校园。


Under the guidance of product research, the building is divided into two major functional forms: office and experiment, which neither breaks the existing spatial scale, but also reasonably divides the plane functions. The tower is further divided into high and low areas, the low area is adjacent to the pleasant lakeside landscape, and the high area rotates 90° to face the landscape to the south to obtain a broad view. The two retreat designs in the southeast and northwest corners weaken the sense of oppression brought by high-rise buildings and make the buildings better integrate into the campus.




在空间设置上,简约,有序,开放和多样化的设计体系贯穿始终。

该设计引入了贯穿所有科研空间的中央共享空间系统,每三层一单元都有不同的主题,以形成最具活力的社交场所。

此外,简洁的形体,立面元素巧妙地从清华大学的红砖和白墙中提取,并适应了南方气候。标识性的建筑语言已成为了学子记忆。


In the space setting, a simple, orderly, open and diverse design system has always been run through. The design introduces the central shared space system, which runs through all scientific research spaces, and each three-story unit is given different themes to form the most dynamic social place. In addition, in the concise form, the facade elements are cleverly extracted from the red brick and white walls of Tsinghua University over the past century, and are adapted to the southern climate. The iconic architectural language has become the memory of students.



为了满足科研工作的多变性需求,实现建筑的高度灵活性,设计自规划阶段就与建造效果相结合,并引入了模块化设计体系和新的装配式技术。

零标准层,54个预制构件连接点,构件设计图5倍于常规项目,无数次模型预演,材料选择以及建筑工地沟通。每一处细节的打磨都致力于重塑秩序之美。


In order to meet the changeable characteristics of scientific research work and realize the high flexibility of the building, the design has been combined with construction effects from the planning stage, and the modular design system and new assembly technology have been introduced. Zero standard floor, 54 prefabricated component connection points, component design drawings are 5 times the conventional project, countless model previews, material selection, and construction site communication. Perseverance in every detail is dedicated to reshaping the beauty of order.



借助BIM正向设计,该建筑实现了结构体系,机电系统和建筑的一体化创新设计。最大程度地创造了对科研空间的适应性,并最终实现了高品质的构造,功能与美感的完美结合。成就了深圳首个应用PC技术的实验楼,这也是第一个实现全生命周期BIM设计与应用的高层教育建筑。


With the help of BIM forward design, the building realizes the integrated innovative design of structural system, electromechanical system and building. It creates adaptability for scientific research space to the greatest extent, and finally realizes high-quality construction, the perfect meeting of function and beauty. The achievement of Shenzhen's first application of PC technology This is also the first high-rise educational building to achieve full life cycle BIM design and application.



设计概念一


设计概念二


总平面图


二层平面图


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四层平面图


东立面


西立面


南立面


北立面


平面模式


共享空间系统


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模数化


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