A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
HEAT COLLECTION MEMBER AND HEAT COLLECTION SYSTEM
PROBLEM TO BE SOLVED: To provide a heat collection member capable of improving a photovoltaic heat collection efficiency.SOLUTION: A heat collection member 2 comprises: a thermal storage member 21, which is installed on a vent layer 3 formed between a multiple-staged solar battery panel 1 disposed on a roof 41 along a gradient direction X1 and the roof 41; and a heat insulation member 22, which partly covers the thermal storage member 21. The vent layer 3 communicates to an indoor space through an aperture 42 formed on the roof 41 at a position facing the uppermost stage of the solar battery panel 1 in the gradient direction X1 among multiple-staged solar battery panel 1. The thermal storage member 21 is installed at a position lower than the aperture 42 in the gradient direction X1 leaving a part of the vent layer 3. The heat insulation member 22 comprises: a first covering part 221, which covers a part facing the solar battery panel 1 on the thermal storage member 21; and a second covering part 222, which covers an upper side of the thermal storage member 21 in the gradient direction X1.SELECTED DRAWING: Figure 1
【課題】太陽光の集熱効率を向上させることができる集熱部材を提供する。【解決手段】集熱部材2は、屋根41の勾配方向X1に沿って配置された複数段の太陽電池パネル1と屋根41との間に形成された通気層3に設けられる蓄熱部材21と、蓄熱部材21の一部を覆う断熱部材22とを備える。また、通気層3は、複数段の太陽電池パネル1のうち勾配方向X1における最上段の太陽電池パネル1と対向する箇所の屋根41に形成された開口部42を介して、屋内の空間に繋がっている。蓄熱部材21は、通気層3の一部を残して勾配方向X1における開口部42よりも下側の位置に設けられる。断熱部材22は、蓄熱部材21における太陽電池パネル1と対向する箇所を覆う第1被覆部221と、蓄熱部材21における勾配方向X1の上側を覆う第2被覆部222とを有する。【選択図】図1
HEAT COLLECTION MEMBER AND HEAT COLLECTION SYSTEM
PROBLEM TO BE SOLVED: To provide a heat collection member capable of improving a photovoltaic heat collection efficiency.SOLUTION: A heat collection member 2 comprises: a thermal storage member 21, which is installed on a vent layer 3 formed between a multiple-staged solar battery panel 1 disposed on a roof 41 along a gradient direction X1 and the roof 41; and a heat insulation member 22, which partly covers the thermal storage member 21. The vent layer 3 communicates to an indoor space through an aperture 42 formed on the roof 41 at a position facing the uppermost stage of the solar battery panel 1 in the gradient direction X1 among multiple-staged solar battery panel 1. The thermal storage member 21 is installed at a position lower than the aperture 42 in the gradient direction X1 leaving a part of the vent layer 3. The heat insulation member 22 comprises: a first covering part 221, which covers a part facing the solar battery panel 1 on the thermal storage member 21; and a second covering part 222, which covers an upper side of the thermal storage member 21 in the gradient direction X1.SELECTED DRAWING: Figure 1
【課題】太陽光の集熱効率を向上させることができる集熱部材を提供する。【解決手段】集熱部材2は、屋根41の勾配方向X1に沿って配置された複数段の太陽電池パネル1と屋根41との間に形成された通気層3に設けられる蓄熱部材21と、蓄熱部材21の一部を覆う断熱部材22とを備える。また、通気層3は、複数段の太陽電池パネル1のうち勾配方向X1における最上段の太陽電池パネル1と対向する箇所の屋根41に形成された開口部42を介して、屋内の空間に繋がっている。蓄熱部材21は、通気層3の一部を残して勾配方向X1における開口部42よりも下側の位置に設けられる。断熱部材22は、蓄熱部材21における太陽電池パネル1と対向する箇所を覆う第1被覆部221と、蓄熱部材21における勾配方向X1の上側を覆う第2被覆部222とを有する。【選択図】図1
HEAT COLLECTION MEMBER AND HEAT COLLECTION SYSTEM
集熱部材、集熱システム
MURO NAOKI (author)
2016-06-20
Patent
Electronic Resource
Japanese
IPC:
E04D
ROOF COVERINGS
,
Dacheindeckungen
/
F24J
/
H02S
GENERATION OF ELECTRIC POWER BY CONVERSION OF INFRA-RED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, E.G. USING PHOTOVOLTAIC [PV] MODULES
,
Erzeugung elektrischer Energie durch Umwandlung von Infrarot-Strahlung, sichtbarem Licht oder ultraviolettem Licht, z.B. unter Verwendung von Photovoltaik [PV]-Modulen