A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Heat-insulating member and heat-insulating window
This heat-insulating window is provided with: a pair of panels; a space sandwiched between the pair of panels; a thermal insulation material capable of filling the space; and a means capable of filling and removing the heat insulating material into and from the space. The heat insulation material is characterized by containing fine particles having a three-dimensional mesh structure in which a skeleton is formed from primary particles, the fine particles having, as a raw material, an aerogel having a three-dimensional mesh structure in which a skeleton is formed from the primary particles. Such a heat-insulating material has extremely high fluidity, and can be moved by a liquid, thereby being able to fill and remove a space sandwiched between the pair of panels. Furthermore, the heat-insulating member according to the present invention is provided with a cavity capable of changing the shape, and a heat-insulating material housed in the cavity, the heat-insulating material being a powder, having fluidity, having a volume-retaining property capable of retaining the volume before and after the change in the shape of the cavity, and moving within the cavity in accordance with the change in the shape of the cavity.
本发明的隔热窗具备:一对面板;被夹持在一对面板之间的空间;能够填充该空间的隔热材料;以及能够将上述隔热材料相对于上述空间填充与除去的机构。上述隔热材料的特征在于,包含微粒,该微粒以具有由一次粒子的集合体的集群形成骨架的三维网孔构造的气凝胶为原料,具有由该一次粒子形成骨架的三维网孔构造。这样的隔热材料具有极高的流动性,能够借助液体使其移动,从而能够相对于被一对面板夹持的空间进行填充与除去。另外,本发明的隔热部件具备能够使形状发生变化的空腔、和收容于该空腔的隔热材料,隔热材料为粉状体,具有流动性且具有能够在空腔的形状的上述变化的前后保持体积的体积保持性能,伴随着空腔的形状的变化而在空腔内移动。
Heat-insulating member and heat-insulating window
This heat-insulating window is provided with: a pair of panels; a space sandwiched between the pair of panels; a thermal insulation material capable of filling the space; and a means capable of filling and removing the heat insulating material into and from the space. The heat insulation material is characterized by containing fine particles having a three-dimensional mesh structure in which a skeleton is formed from primary particles, the fine particles having, as a raw material, an aerogel having a three-dimensional mesh structure in which a skeleton is formed from the primary particles. Such a heat-insulating material has extremely high fluidity, and can be moved by a liquid, thereby being able to fill and remove a space sandwiched between the pair of panels. Furthermore, the heat-insulating member according to the present invention is provided with a cavity capable of changing the shape, and a heat-insulating material housed in the cavity, the heat-insulating material being a powder, having fluidity, having a volume-retaining property capable of retaining the volume before and after the change in the shape of the cavity, and moving within the cavity in accordance with the change in the shape of the cavity.
本发明的隔热窗具备:一对面板;被夹持在一对面板之间的空间;能够填充该空间的隔热材料;以及能够将上述隔热材料相对于上述空间填充与除去的机构。上述隔热材料的特征在于,包含微粒,该微粒以具有由一次粒子的集合体的集群形成骨架的三维网孔构造的气凝胶为原料,具有由该一次粒子形成骨架的三维网孔构造。这样的隔热材料具有极高的流动性,能够借助液体使其移动,从而能够相对于被一对面板夹持的空间进行填充与除去。另外,本发明的隔热部件具备能够使形状发生变化的空腔、和收容于该空腔的隔热材料,隔热材料为粉状体,具有流动性且具有能够在空腔的形状的上述变化的前后保持体积的体积保持性能,伴随着空腔的形状的变化而在空腔内移动。
Heat-insulating member and heat-insulating window
隔热部件以及隔热窗
WU ZEQING (author) / LI GUANYI (author) / KONUMA KAZUO (author)
2024-03-08
Patent
Electronic Resource
Chinese
IPC:
E06B
Feste oder bewegliche Abschlüsse für Öffnungen in Bauwerken, Fahrzeugen, Zäunen oder ähnlichen Einfriedungen allgemein, z.B. Türen, Fenster, Läden, Tore
,
FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES, OR LIKE ENCLOSURES, IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
HEAT INSULATING WINDOW FILM, HEAT INSULATING WINDOW GLASS, AND WINDOW
| European Patent Office | 2017