意大利米蘭

建筑設(shè)計(jì)：Piuarch

設(shè)計(jì)小組：Alessandra Bertoli, Silvia Calzetti, Erica Cazzaniga, Davide Fascione, Niccolò Genesio, Gianluca Iannotta, Luca Lazzerotti, Alessandro Leanti, Mauro

Mandelli, Alessandro Marchesetti, Gianni Mollo,

Carlos Noriega, Enrico Pellegrini, Paola Sarcoli, Salvatore Seggio, Federico Simonetti, Jenny Spagnolatti,Santiago Trujillo, Beatrice Valle, Yun Xiao, Anna Zauli

攝影：Andrea Martiradonna

Architectural design: Piuarch

Team: Alessandra Bertoli, Silvia Calzetti, Erica Cazzaniga, Davide Fascione,Niccolò Genesio, Gianluca Iannotta, Luca Lazzerotti, Alessandro Leanti,Mauro Mandelli, Alessandro Marchesetti, Gianni Mollo, Carlos Noriega,Enrico Pellegrini, Paola Sarcoli, Salvatore Seggio, Federico Simonetti, Jenny Spagnolatti, Santiago Trujillo, Beatrice Valle, Yun Xiao, Anna Zauli Structural design: FV progetti

M&E design: Studio Tecnoprogetti

Images: Andrea Martiradonna

新古琦總部以20世紀(jì)20年代的Caproni工廠改造而成。主經(jīng)過(guò)翻新和重建工程，這座老舊工廠變身為著名時(shí)裝品牌古琦在米蘭的新辦公大樓。涵蓋辦事區(qū)域、展廳、時(shí)裝秀區(qū)、制圖工作區(qū)、食堂、餐廳等空間。改造的第一步，是將工廠棚式頂部進(jìn)行重建和翻新。設(shè)計(jì)為規(guī)則形狀，采用模塊化結(jié)構(gòu)開(kāi)間。廢棄舊廠房中裸露的磚塊棚頂，借助新的空間布局，實(shí)現(xiàn)了內(nèi)外無(wú)縫互動(dòng)。飛機(jī)庫(kù)的改造也是重點(diǎn)之一。大型飛機(jī)庫(kù)原用于Caproni飛機(jī)的最終組裝，經(jīng)過(guò)改造之后，于2017年開(kāi)始用于時(shí)裝表演。飛機(jī)庫(kù)內(nèi)部還設(shè)計(jì)了一個(gè)大型開(kāi)放式廣場(chǎng)，與面朝via Mecenate的行人步道相通。行人步道帶有頂棚，是整個(gè)步行空間（包括一個(gè)綠樹(shù)成蔭的廣場(chǎng)、公共花園、露臺(tái)、以及植物墻）的核心部分。改造工程中在工業(yè)風(fēng)格的倉(cāng)庫(kù)建筑群內(nèi)加入了一座六層的塔樓建筑，可以與老建筑進(jìn)行密切的互動(dòng)。新建筑四周以玻璃幕墻覆蓋，并設(shè)計(jì)有規(guī)則防曬遮陽(yáng)板，打破了其余部分的對(duì)稱(chēng)性，將多種功能集于一體。

新古琦總部采用全方位環(huán)保設(shè)計(jì)，獲得綠色建筑最高認(rèn)證（Leed Gold），注重在工作區(qū)打造品質(zhì)生活。在節(jié)能方面，項(xiàng)目能源成本平均降低25%。采用光伏系統(tǒng)，以地下水動(dòng)力熱泵進(jìn)行溫度調(diào)控。通過(guò)再生能源，節(jié)約部分年度能源成本。配備先進(jìn)水管理系統(tǒng)，將用戶(hù)管理用水降低20%。建筑內(nèi)部還有先進(jìn)的設(shè)備管理功能，可以監(jiān)測(cè)各個(gè)系統(tǒng)（例如：照明系統(tǒng)、供暖及制冷系統(tǒng)等）的耗電量。此外，施工期間，廢品回收率達(dá)到90%。

The redevelopment project of the old Caproni factory focuses on enhancing the stylistic features of the 1920s’ architecture and aims to transform this old plant into a large complex for Gucci, holding offices,showrooms and spaces for fashion shows and operations connected with graphics, as well as a canteen and restaurant. Recovery and enhancement of the characteristic shed buildings was thefirst element of the redevelopment project: set out in a regular pattern across the site and featuring modular structural bays,the abandoned industrial warehouses with exposed-brick facades generate, thanks to their spatial layout, a seamless interaction between the inside and outside. Particular attention was paid to the Hangar recovery,a volume of “exceptional” size, once intended for thefinal assembly of Caproni aircraft, that is now used to house the fashion shows from 2017. Moreover, the Hangar is enhanced by a large open and covered square connected with the main pedestrian axis facing to via Mecenate. This covered square acts as the core of the pedestrian system that includes a tree-lined square, common gardens, patios and green walls.Inside the regular layout of solid structures and empty spaces, a new six-storey tower closely interacts with the old construction: characterized by a glass fa?ade covered with a regular pattern of sunscreens, the new building breaks down the site’s symmetry and tends to draw together all the different functions.

The new Gucci Headquarters is a 100% sustainable project, with a Leed Gold certification, and considers as the main focus of the workspace the quality of life. In terms of energy performance, the project has allowed an average of 25% savings on energy costs and a share of the total annual energy cost is offset by renewable energy generated on site through the use of a photovoltaic system and the heating and cooling effectuated by heat pumps using the ground water. A highly advanced water management system allows saving 20% of water for the users management. The entire area also provides an advanced plant management to measure the power consumption of individual systems (such as lighting, heating and cooling). Finally, during the construction, over 90% of waste products were recycled.