Carapacks 展馆:六边形创新
The Carapacks Pavilion: A Hexagonal Innovation
Carapacks Pavilion是一项六边形创新,是建筑进步的典范。它是Simon Vorhammer、Jonas Schikore博士、Christina Jeschke博士和David Ott领导的合作努力的结果。该项目是在比伯拉赫大学建筑学院的多个学期中精心打造的,体现了创造力、技术和实用性的融合。
The Carapacks Pavilion, a hexagonal innovation, exemplifies architectural advancement. It resulted from collaborative efforts led by Simon Vorhammer, Dr. Jonas Schikore, Dr. Christina Jeschke, and David Ott. This project, meticulously crafted over multiple semesters at the Architecture Faculty of Biberach University, exemplifies the fusion of creativity, technology, and practicality.
Carapacks Pavilion 的构思和设计阶段专注于将任意弯曲的自由曲面实现为双壳联锁系统。没有曲率和扭转的六边形系统可通过 2.5 轴 CNC 激光或水射流切割技术实现高效且具有成本效益的制造。该团队采用数字参数化建模来定义各种输入参数,从而能够为不同的几何形状快速生成可制造的套件。
The ideation and design phase of Carapacks Pavilion focused on implementing arbitrarily curved freeform surfaces as double-shell interlocking systems. The hexagonal system, devoid of curvature and torsion, enables efficient and cost-effective manufacturing through 2.5-axis CNC laser or water jet cutting technology.The team employed digital parametric modeling to define various input parameters, allowing for the rapid generation of manufacturing-ready kits for diverse geometries.
Carapacks Pavilion的一个主要特点是其简单的组装过程,不需要重型机械。每个组件都经过精心标记和定位,以便于组装,类似于解决难题。这种方法简化了结构并有助于节省空间的堆垛,所有部件都适合两个旅行车的后备箱。该项目面临挑战,例如确定装配顺序和解决与CNC激光切割相关的问题,例如切割边缘上形成烟灰。为了克服这些障碍,该团队使用了混合组装方法和后处理技术(如打磨和底漆)来提高耐用性和美感。
A key feature of Carapacks Pavilion is its straightforward assembly process, requiring no heavy machinery. Each component is meticulously labeled and positioned for easy assembly, similar to solving a puzzle. This approach simplifies construction and facilitates space-saving stacking, with all parts fitting into the trunks of two station wagons. The project faced challenges, such as determining the assembly sequence and addressing issues related to CNC laser cutting, such as soot formation on cut edges. To overcome these obstacles, the team used a hybrid assembly method and post-processing techniques like sanding and priming to improve durability and aesthetic appeal.
Carapacks Pavilion 的成功完成依赖于使用 Rhino 和 Grasshopper 等软件工具,以及 Elefront、Human、Pufferfish 和 Karamba3D 等插件。这些数字平台支持了全面的规划、结构分析和在统一数字环境中进行的数据推导制造。此外,OpenNest 优化了 CNC 切割的零件分配,简化了制造过程。
The successful completion of Carapacks Pavilion relied on utilizing software tools like Rhino and Grasshopper, alongside plugins such as Elefront, Human, Pufferfish, and Karamba3D.These digital platforms enabled comprehensive planning, structural analysis, and fabrication of data derivation within a unified digital environment. Additionally, OpenNest optimized part distribution for CNC cutting, streamlining the manufacturing process.
Carapacks Pavilion的结构行为展示了其创新的设计方法。晶格结构主要通过压缩力在其平面内承载载荷,无论载荷情况如何,它都会促进壳的行为。通过静态分析对杆宽度进行参数化组织的尺寸标注,确保在响应外力的同时实现最佳结构完整性。
The structural behavior of Carapacks Pavilion showcases its innovative design approach. The lattice structure, primarily carrying loads within its plane through compressive forces, encourages shell behavior regardless of the loading situation. Parametrically organized dimensioning of rod widths, informed by static analysis, ensures optimal structural integrity while responding to external forces.
Carapacks Pavilion 超越了其建筑意义,展示了其设计的多功能性,不仅适用于木制凉亭,也适用于屋顶和立面。材料的耐用性和耐候性是最重要的考虑因素,从户外级木材到耐候性板状材料,应有尽有。
Carapacks Pavilion extends beyond its architectural significance to demonstrate the versatility of its design, applicable not only to wooden pavilions but also to roofs and facades. Material durability and weather resistance are paramount considerations, with options ranging from outdoor-grade wood to weather-resistant sheet-like materials.
视频链接:https://youtu.be/QydS-b6I5wE
