BudexHUB行政大楼/Perspektiv工作室

BudexHUB行政大楼/Perspektiv工作室
BudexHUB Administrative Building / Studio Perspektiv

可持续性与创新的完美结合：BudexHUB项目展现了可持续发展与创新设计的高度融合。投资者对光伏、机器人农业和电动汽车的浓厚兴趣，推动了该项目采用实木板结构这一创新选择。作为捷克最高的木制行政大楼，它不仅突破了建筑高度的限制，更在可持续性方面树立了标杆。木材作为一种可再生资源，具有最低的碳足迹，这使得BudexHUB在环保和创新上都达到了新的高度。

技术与设计的协同进步：该项目在设计和施工过程中充分运用了先进的技术手段。Autodesk Revit和BIM技术的使用，确保了项目开发的透明性和高效性，使得建筑的每一个细节都能被精准把控。此外，虚拟现实（VR）技术的应用，让客户能够以真实比例进入项目模型，提前感知空间关系和维度，极大地提高了设计审批的效率，体现了技术与设计的完美协同。

功能与美学的平衡艺术：BudexHUB的设计不仅注重功能性，更追求美学的极致。建筑的运营充分利用了可再生资源，如双面太阳能电池板和地热能，实现了能源的高效利用。同时，其被动式四层木结构设计，结合混凝土核心和CLT面板，不仅保证了建筑的稳定性，还赋予了建筑独特的视觉效果。这种功能与美学的平衡，是该项目的一大精髓。

建筑师提供的文字描述BudexHUB项目的投资者对可持续发展、创新和设计有着强烈的个人和商业兴趣。他们正在与该主题直接相关的领域开展业务，如光伏电池板或机器人农业，并且是电动汽车的铁杆粉丝。在我们看来，毫无疑问，使用实木板结构是正确的决定。BudexHUB办公楼达到了捷克共和国的最高高度限制，并于2024年下半年完工，成为捷克最高的木制行政大楼。
Text description provided by the architects. The investors of the BudexHUB project have a strong personal and business interest in sustainability, innovation and design. They are pursuing their businesses in areas that are directly related to the topic, such as photovoltaic panels or robotic agriculture, and are die-hard fans of electromobility. From our point of view, there was no doubt that using a solid wood panel construction was the right decision. The BudexHUB office building reached the maximum height limit in the Czech Republic and was completed in the second half of 2024 as the tallest Czech wooden administrative building.

Axonometry

客户最初只是向我们提出了一个要求，即为其位于一栋由预制木制部件建造的建筑中的办公空间提供室内解决方案。我们一起讨论了他们最初的概念，并就全新的建筑达成一致，这应该强调公司总部的重要性和代表性。作为创建文档的主要工作工具，我们使用了Autodesk Revit，这使我们能够透明地控制项目的开发。使用BIM技术，我们有效地管理了所有流程和施工阶段。
The client originally approached us only with a request for an interior solution for its office space in a building that was to be built from prefabricated wooden parts. Together, we discussed their original concept and agreed on the brand-new construction, which should underline the company's importance and representativeness of its headquarters. As the main working tool for creating documentation, we used Autodesk Revit, which allowed us to control the development of the project transparently. Using BIM technology, we have effectively managed all processes and construction phases.

Ground Floor Plan

BudexHub的设计被设想为一座被动式四层木结构建筑，其高度达到了我国此类建筑的最大允许极限。我们设计了这个综合体，以便客户可以将他的兴趣应用于技术开发以及清洁能源的生产和储存。因此，该建筑的运营利用了可再生资源。BudexHub木制办公楼及其结构设计由混凝土核心、木室天花板结构和NOVATOP墙体系统以及CLT面板组成。我们分析了预算，并考虑了客户希望如何影响周围的环境。可持续性被证明是重要的，这也是业务的重点。木材结构在这方面表现出色，因为它们的碳足迹最低，并且是由可再生资源制成的。创建粗糙结构的优势，在木结构建筑的情况下更快，也是决策的一个特定参数。
The design of the BudexHub was conceived as a passive four-story wooden building, whose height reaches the maximum permitted limit for this type of building in our country. We have designed the complex so that the client can apply his interest in the development of technology and the generation and storage of clean energy. Accordingly, the operation of the building draws on renewable resources. The BudexHub timber office building and its structural design consists of a concrete core, a timber chamber ceiling structure and NOVATOP wall systems as well as CLT panels. We analyzed the budget and considered how the client wanted to influence their surroundings. Sustainability proved to be important, which is also a focus of the business. Timber structures excel in this regard as they have the lowest carbon footprint and are created from renewable resources. The advantage of creating a rough construction, which is faster in the case of timber buildings, was also a certain parameter for decision-making.

为了尽可能高效地收集太阳能，我们选择了最新的双面太阳能电池板技术，形成停车场上方的顶棚。建筑物的冷却或地板下供暖的热能供应主要由地热井和热泵提供。我们把这个项目分为各个阶段。作为一名总建筑师，我们监督所有的规划和设计过程。我们允许客户使用虚拟现实（VR）中创建的模型以真实的比例进入项目，以便更好地定位空间关系、感知维度和深度。因此，客户在评论和设计审批过程中节省了时间。该建筑于2024年下半年完工。
To harvest solar energy as efficiently as possible, we chose the latest technology of bifacial solar panels forming the canopies over the car park. The supply of thermal energy for cooling or underfloor heating of the building is primarily provided by geothermal wells and heat pumps. We enshrined the project in all its phases. As a general architect, we oversaw all the planning and design processes. We allowed the client to enter the project on a real scale using a model created in virtual reality (VR) to orientate better in spatial relations, perceive dimensions, and depth. Thanks to this, the client saved time during comments and design approval. Completion of the construction happened during the second half of the year 2024.