A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
GLASS BUILDING MATERIAL
To achieve an increase in a power generation amount at a light-receiving surface on an interior side.SOLUTION: The glass building includes: a solar battery array including a first double-side light-receiving solar battery with a shape extending in a first direction; a second double-side light-receiving solar battery which is arranged in line with the first solar battery in a second direction crossing in the first direction and has a shape extending in the first direction; a first glass substrate covering a first main surface side of the solar battery array; a reflection coating which is at least partially arranged on a second main surface side of the solar battery array and which has a higher transmission factor than a reflection factor in a visible light area and a higher reflection factor than a transmission factor in a near infrared area; and an air space interposed between the solar battery array and the reflection coating in a specific direction.SELECTED DRAWING: Figure 2
【課題】室内側の受光面での発電量を増加させる。【解決手段】本開示に係るガラス建材は、第1の方向に延伸する形状を有する両面受光型の第1の太陽電池と、前記第1の方向に交差する第2の方向に前記第1の太陽電池と並べて配置され、前記第1の方向に延伸する形状を有する両面受光型の第2の太陽電池と、を含む太陽電池アレイと、前記太陽電池アレイの第1の主面側を覆う第1のガラス基板と、前記太陽電池アレイの第2の主面側において少なくとも部分的に配置され、可視光領域において透過率が反射率よりも高く、近赤外領域において反射率が透過率よりも高い反射膜と、前記太陽電池アレイと、前記反射膜と、の間に介在する空気層と、を含む。【選択図】図2
GLASS BUILDING MATERIAL
To achieve an increase in a power generation amount at a light-receiving surface on an interior side.SOLUTION: The glass building includes: a solar battery array including a first double-side light-receiving solar battery with a shape extending in a first direction; a second double-side light-receiving solar battery which is arranged in line with the first solar battery in a second direction crossing in the first direction and has a shape extending in the first direction; a first glass substrate covering a first main surface side of the solar battery array; a reflection coating which is at least partially arranged on a second main surface side of the solar battery array and which has a higher transmission factor than a reflection factor in a visible light area and a higher reflection factor than a transmission factor in a near infrared area; and an air space interposed between the solar battery array and the reflection coating in a specific direction.SELECTED DRAWING: Figure 2
【課題】室内側の受光面での発電量を増加させる。【解決手段】本開示に係るガラス建材は、第1の方向に延伸する形状を有する両面受光型の第1の太陽電池と、前記第1の方向に交差する第2の方向に前記第1の太陽電池と並べて配置され、前記第1の方向に延伸する形状を有する両面受光型の第2の太陽電池と、を含む太陽電池アレイと、前記太陽電池アレイの第1の主面側を覆う第1のガラス基板と、前記太陽電池アレイの第2の主面側において少なくとも部分的に配置され、可視光領域において透過率が反射率よりも高く、近赤外領域において反射率が透過率よりも高い反射膜と、前記太陽電池アレイと、前記反射膜と、の間に介在する空気層と、を含む。【選択図】図2
GLASS BUILDING MATERIAL
ガラス建材
UMEDA KAZUHIKO (author) / KOBAYASHI SHINGO (author) / KINOSHITA SEIICHI (author) / KADOTA NAOKI (author) / MATSUO HIDEKI (author) / MAKINO TSUKASA (author) / OTA NOBUHISA (author) / NAKAJIMA AKIHIKO (author)
2019-09-26
Patent
Electronic Resource
Japanese
IPC:
C03C
Chemische Zusammensetzungen für Gläser, Glasuren oder Emails
,
CHEMICAL COMPOSITION OF GLASSES, GLAZES, OR VITREOUS ENAMELS
/
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
/
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