Tederic国际中心/米兰

Tederic国际中心/米兰
Tederic International Center / milanesi | paiusco

创新设计理念：Tederic国际中心的设计灵感源自电动机，这一设计不仅体现了制造业的核心精神，还将员工的日常工作比作能量转换的过程，为整个建筑群注入了活力。通过红桥连接总部与智能工厂，象征能量流动，这种设计巧妙地将功能与美学结合，创造出独特的工业建筑新表达。

建筑美学与功能：该项目突破了聚碳酸酯面板的传统应用界限，赋予建筑新的身份意义。它不仅在功能上满足了工业需求，还在外观上成为了城市的标志性地标。这种设计不仅提供了工业建筑的新形式，还通过材料的创新使用，提升了建筑的视觉和能源效率。

技术创新与能源效率：Tederic国际中心的高科技设计风格强化了技术创新社区的身份，同时通过双层幕墙系统和精细的玻璃选择，实现了能源效率的最大化。建筑的热性能和视觉深度得到了显著提升，而智能工厂的结构优化和材料选择则进一步减少了能源消耗，展现了项目在技术创新和可持续发展方面的精髓。

建筑师提供的文字描述该项目作为Tederic国际中心，位于中国浙江省杭州市钱塘区（杭州经济技术开发区），汇集了世界级的智能制造产业集群。校园总占地面积33335平方米，总建筑面积75117平方米。它由三栋建筑和一座智能工厂组成。它集成了各种功能，包括办公空间、酒店和商业设施，能够容纳数千人工作和日常生活。该项目旨在在开放式商业空间和封闭式制造工厂之间取得新的平衡。
Text description provided by the architects. This project serves as the Tederic International Center, located in Qiantang District, Hangzhou, Zhejiang Province, China (Hangzhou Economic and Technological Development Zone), bringing together a world-class cluster of smart manufacturing industries. The campus spans a total site area of 33,335 square meters, with a total built-up area of 75,117 square meters. It comprises three buildings and a smart factory. It integrates various functions, including office spaces, hotels, and commercial facilities, capable of accommodating thousands of people for work and daily life. The project aims to strike a new balance between open commercial spaces and enclosed manufacturing factories.

设计理念-该项目的设计灵感来自制造业的核心部件之一——电动机，它将电能转化为动能，驱动交通、工业、技术和现代社会其他部门的基本设备。Tederic员工的日常协作工作反映了校园内移动和相互作用的粒子，不断为Tederic的产品提供能量。
Design Concept - The design of the project is inspired by one of the core components of manufacturing — the electric motor, which converts electrical energy into kinetic energy to drive essential equipmentin transportation, industry, technology, and other sectors of modern society. The daily collaborative work of Tederic's employees mirrors particles moving and interacting within the campus, continuously providing energy to Tederic's products.

Diagram

这一概念反映在建筑设计中，Tederic的总部通过红桥与智能工厂相连，象征着能量的持续流动。工厂的形式和光影的相互作用就像一个电池，为制造系统的永久运行提供动力。
This concept is reflected in architectural design, where Tederic's headquartersis connected to the smart factory through the Red Bridge, symbolizing a continuous flow of energy. The factory's form and the interplay of light and shadow resemble a battery, powering the perpetual operation of the manufacturing system.

这种独特的设计不仅为工业建筑提供了一种新的表现形式，还突破了聚碳酸酯面板的美学和功能界限。它赋予了新的身份意义，使这家工厂在功能和外观上都成为了标志性的城市地标。
This unique design not only offers a new expressive form for industrial buildings but also pushes the boundaries of the aesthetics and functionality of polycarbonate panels. It imparts a fresh identitysignificance, turning this factory into an iconic urban landmark, both in function and appearance.

建筑语言-该项目的高科技设计风格强化了技术创新社区和客户高端制造形象的身份。简洁的线条形成简单而有力的轮廓，强调标准化的几何单位和现代材料的使用，营造出轻盈有序的结构感。双层幕墙和向外突出的翼片不仅产生了立体与虚空之间动态相互作用的分层效果，还增强了建筑的视觉深度和运动感。幕墙是建筑热性能的关键组成部分，约占总能耗的40%，对于实现能源效率至关重要。双层幕墙系统基于铝型材预制单元，大大缩短了施工时间，提高了效率。
Architectural Language - The high-tech design style of the project reinforces the identity of both the technology innovation community and the client's high-end manufacturing profile. Clean lines form a simple yet powerful silhouette, emphasizing standardized geometric units and the use of modern materials, creating a sense of lightness and orderly structure. The double-layered curtain walls and outward-protruding wings not only produce a layered effect with a dynamic interplay between solid and void but also enhance the building's visual depth and sense of motion.The curtain wall is a critical component of a building's thermal performance, accounting for approximately 40% of overall energy consumption, making it essential for achieving energy efficiency. The double-layer curtain wall system is based on an aluminum profile prefabricated unit, significantly reducing construction time and improving efficiency.

Axo

-玻璃幕墙-Low-E镀膜夹层玻璃有效阻隔红外线和紫外线，确保优异的热性能。此外，经过多轮采样、模拟和测试，该项目最终选择了12种玻璃，以适应不同立面上不同的光线条件。这种方法不仅确保了整个校园内一致的反射视觉效果，还有助于客户最大限度地控制和降低成本。
- Glass curtain wall - The Low-E coated laminated glass effectively blocks infrared and ultraviolet rays, ensuring excellent thermal performance. In addition, after multiple rounds of sampling, simulation, and testing, the project ultimately selected 12 types of glass to account for varying light conditions on different facades. This approach not only ensures a consistent reflective visual effect across the entire campus but also helps the client control and reduce costs to the greatest extent possible.

© Arch-Exist

-遮光层-经过对穿孔板、编织网和膨胀铝网的比较研究，选择了经济高效的膨胀铝网作为轻质遮光层。这种材料不仅保持了最佳的透光率，而且有效地降低了建筑物的表面反射率，最大限度地减少了眩光，提高了视觉舒适度。此外，膨胀铝网的结构设计促进了空气流通，进一步提高了建筑的能源效率。
- Shadow layer - After a comparative study of perforated panels, woven mesh, and expanded aluminum mesh, the cost-effective expanded aluminum mesh was selected as the lightweight shading layer. This material not only maintains an optimal light transmission rate but also effectively reduces the surface reflectivity of the building, minimizing glare and enhancing visual comfort. Additionally, the structural design of the expanded aluminum mesh promotes air circulation, further improving the building's energy efficiency.

© Arch-Exist

-阴影盒-反光背板和玻璃的组合巧妙地将消防系统和结构部件隐藏在阴影盒内，实现了最佳的层次感和阴影效果。这种设计确保了透明度和视觉一致性，使建筑立面外观更加精致和现代。
- Shadow box - The combination of reflective backing panels and glass cleverly conceals fire protection systems and structural components within the shadow box, achieving an optimal sense of layering and shadow effects. This design ensures transparency and visual consistency, giving the building façade a more refined and modern appearance.

© Arch-Exist

-建筑翼楼-此外，建筑翼楼内还集成了可操作的窗户，以增强自然通风和室内舒适度。通过改变传统的开窗机制，每个全高玻璃面板都提供了额外的净宽，在保持功能的同时提供了广阔的视野。
- Architectural wing - In addition, operable windows were integrated within the building's wings to enhance natural ventilation and indoor comfort. By altering the traditional window-opening mechanism, each full-height glass panel offers an extra-wide clear width, providing expansive views while maintaining functionality.

© Arch-Exist

Detail

© Arch-Exist

智能工厂-智能工厂采用三角形特拉斯结构，所有连接接头在设计过程中都进行了结构优化。这不仅增强了视觉效果，还将钢材使用量减少了约20%。为了满足在顶层嵌入访客通道的功能要求，该设计巧妙地添加了倾斜柱，绕过起重机梁支架，在工厂顶层创建了访客通道，同时最大限度地减少了地面占地面积。此外，访客通道通过Tederic Orange（品牌颜色）桥连接到总部的接待大厅，实现了无缝和完整的访客流。
Smart Factory - The smart factory features a triangular truss structure, with all connection joints structurally optimized during the design process. This not only enhances the visual effect but also reduces steel usage by approximately 20%. To accommodate the functional requirement of embedding a visitor pathway on the top level, the design cleverly added inclined columns to bypass the crane beam brackets, creating a visitor pathway on the factory's top floor while minimizing the ground-level footprint. Additionally, the visitor pathway is connected to the headquarters' reception hall via the Tederic Orange (the brand color) Bridge, achieving a seamless and complete visitor flow.

© Arch-Exist

Courtesy of milanesi | paiusco

此外，聚碳酸酯面板的轻质和半透明特性减少了对人工照明的需求，并减少了所需的钢材量，从而为项目节省了大量成本。通过多轮测试和研究，包括模型模拟和原型实验，设计了定制的连接接头组件，并增加了排水坡度，以有效解决极端天气和温度波动引起的材料变形风险。这种设计显著提高了结构的稳定性和耐用性，确保了在各种气候条件下的安全性和可靠性。
Additionally, the lightweight and translucent nature of the polycarbonate panels reduces the need for artificial lighting and decreases the amount of steel required, leading to substantial cost savings for the project.Through multiple rounds of testing and research, including model simulations and prototype experiments, customized connection joint components were designed, and the drainage slope was increased to effectively address the risk of material deformation caused by extreme weather and temperature fluctuations. This design significantly improves the structure's stability and durability, ensuring safety and reliability under various climatic conditions.