A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
To provide a balcony structure capable of improving the durability of a heat insulating material.SOLUTION: By changing the height of joists 46, 48, a water gradient S of a floor surface 19A of a balcony 16 is formed. Further, a heat insulating material 60 is provided on an upper surface 52A side of an upper flange part 52 of the joist materials 46, 48, and a floor substrate material 62 is provided on an upper surface 60A side of the heat insulating material 60. That is, in the present embodiment, the heat insulating material 60 is provided on a lower surface 62B side of the floor substrate material 62. Thus, by providing the heat insulating material 60 on the lower surface 62B side of the floor substrate material 62, the durability of the heat insulating material 60 against sunlight can be improved. Heat conduction from an indoor space 18 is suppressed by the heat insulating material 60, and generation of dew condensation can be suppressed on the lower surface 62B side of the floor substrate material 62.SELECTED DRAWING: Figure 3
【課題】断熱材の耐久性を向上させることが可能なバルコニー構造を得る。【解決手段】根太材46、48の高さを変えることによってバルコニー16の床面19Aの水勾配Sが形成されている。さらに、当該根太材46、48の上フランジ部52の上面52A側に断熱材60が設けられ、断熱材60の上面60A側に床下地材62が設けられている。つまり、本実施形態では、断熱材60は床下地材62の下面62B側に設けられている。このように、断熱材60を床下地材62の下面62B側に設けることで、太陽光に対して断熱材60の耐久性を向上させることができると共に、断熱材60により屋内空間18からの熱の伝導を抑制し、床下地材62の下面62B側において、結露の発生を抑制することが可能となる。【選択図】図3
To provide a balcony structure capable of improving the durability of a heat insulating material.SOLUTION: By changing the height of joists 46, 48, a water gradient S of a floor surface 19A of a balcony 16 is formed. Further, a heat insulating material 60 is provided on an upper surface 52A side of an upper flange part 52 of the joist materials 46, 48, and a floor substrate material 62 is provided on an upper surface 60A side of the heat insulating material 60. That is, in the present embodiment, the heat insulating material 60 is provided on a lower surface 62B side of the floor substrate material 62. Thus, by providing the heat insulating material 60 on the lower surface 62B side of the floor substrate material 62, the durability of the heat insulating material 60 against sunlight can be improved. Heat conduction from an indoor space 18 is suppressed by the heat insulating material 60, and generation of dew condensation can be suppressed on the lower surface 62B side of the floor substrate material 62.SELECTED DRAWING: Figure 3
【課題】断熱材の耐久性を向上させることが可能なバルコニー構造を得る。【解決手段】根太材46、48の高さを変えることによってバルコニー16の床面19Aの水勾配Sが形成されている。さらに、当該根太材46、48の上フランジ部52の上面52A側に断熱材60が設けられ、断熱材60の上面60A側に床下地材62が設けられている。つまり、本実施形態では、断熱材60は床下地材62の下面62B側に設けられている。このように、断熱材60を床下地材62の下面62B側に設けることで、太陽光に対して断熱材60の耐久性を向上させることができると共に、断熱材60により屋内空間18からの熱の伝導を抑制し、床下地材62の下面62B側において、結露の発生を抑制することが可能となる。【選択図】図3
BALCONY STRUCTURE
バルコニー構造
KANEKO SHOTA (author)
2020-08-06
Patent
Electronic Resource
Japanese
BALCONY STRUCTURE USING DRAIN PARTITION MEMBER OF BALCONY
| European Patent Office | 2016