GLASS BODY
A glass body (100) comprises a first glass plate (1) having a first surface and a second surface (12) which is on the opposite side to the first surface. At least one of the first surface or the second surface (12) includes a radio wave transmission region (43) through which radio waves having a str...
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| Main Authors | , , , |
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| Format | Patent |
| Language | English French Japanese |
| Published |
09.03.2023
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| Subjects | |
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| Abstract | A glass body (100) comprises a first glass plate (1) having a first surface and a second surface (12) which is on the opposite side to the first surface. At least one of the first surface or the second surface (12) includes a radio wave transmission region (43) through which radio waves having a straight wavelength can pass. The radio wave transmission region (43) comprises: a plurality of radio wave passage sections (43A) through which radio waves pass and which are separated from each other; and a conductive film section (43B) in which is formed, between adjacent radio wave passage sections (43A), a conductive film having radio wave blocking capabilities. The radio wave passage region (43) is configured from a radio wave scattering structure, in which a portion of radio waves that have passed through the plurality of radio wave passage sections (43A) are diffracted and overlap in a space opposing the conductive film section (43B).
Corps en verre (100) comprenant une première plaque de verre (1) ayant une première surface et une seconde surface (12) qui est sur le côté opposé à la première surface. La première surface et/ou la seconde surface (12) comprend une région de transmission d'ondes radio (43) à travers laquelle des ondes radio ayant une longueur d'onde linéaire peuvent passer. La région de transmission d'ondes radio (43) comprend : une pluralité de sections de passage d'ondes radio (43A) à travers lesquelles passent des ondes radio et qui sont séparées les unes des autres ; et une section de film conducteur (43B) dans laquelle est formé, entre des sections de passage d'ondes radio adjacentes (43A), un film conducteur ayant des capacités de blocage d'ondes radio. La région de passage d'ondes radio (43) est configurée à partir d'une structure de diffusion d'ondes radio, dans laquelle une partie des ondes radio qui ont traversé la pluralité de sections de passage d'ondes radio (43A) sont diffractées et se chevauchent dans un espace opposé à la section de film conducteur (43B).
ガラス体(100)は、第1面と、第1面とは反対側の第2面(12)と、を有する第1ガラス板(1)を備え、第1面及び第2面(12)の少なくとも一方の板面は、直進性のある波長を有する電波が透過可能な電波透過領域(43)を含んでおり、電波透過領域(43)は、電波を通過させる互いに離間した複数の電波通過部(43A)と、隣り合う電波通過部(43A)の間で電波の遮断性がある導電膜が形成された導電膜部(43B)と、を有しており、電波透過領域(43)は、複数の電波通過部(43A)を通過した電波の一部が回折して導電膜部(43B)と対向する空間で重なり合う電波拡散構造で構成されている。 |
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| AbstractList | A glass body (100) comprises a first glass plate (1) having a first surface and a second surface (12) which is on the opposite side to the first surface. At least one of the first surface or the second surface (12) includes a radio wave transmission region (43) through which radio waves having a straight wavelength can pass. The radio wave transmission region (43) comprises: a plurality of radio wave passage sections (43A) through which radio waves pass and which are separated from each other; and a conductive film section (43B) in which is formed, between adjacent radio wave passage sections (43A), a conductive film having radio wave blocking capabilities. The radio wave passage region (43) is configured from a radio wave scattering structure, in which a portion of radio waves that have passed through the plurality of radio wave passage sections (43A) are diffracted and overlap in a space opposing the conductive film section (43B).
Corps en verre (100) comprenant une première plaque de verre (1) ayant une première surface et une seconde surface (12) qui est sur le côté opposé à la première surface. La première surface et/ou la seconde surface (12) comprend une région de transmission d'ondes radio (43) à travers laquelle des ondes radio ayant une longueur d'onde linéaire peuvent passer. La région de transmission d'ondes radio (43) comprend : une pluralité de sections de passage d'ondes radio (43A) à travers lesquelles passent des ondes radio et qui sont séparées les unes des autres ; et une section de film conducteur (43B) dans laquelle est formé, entre des sections de passage d'ondes radio adjacentes (43A), un film conducteur ayant des capacités de blocage d'ondes radio. La région de passage d'ondes radio (43) est configurée à partir d'une structure de diffusion d'ondes radio, dans laquelle une partie des ondes radio qui ont traversé la pluralité de sections de passage d'ondes radio (43A) sont diffractées et se chevauchent dans un espace opposé à la section de film conducteur (43B).
ガラス体(100)は、第1面と、第1面とは反対側の第2面(12)と、を有する第1ガラス板(1)を備え、第1面及び第2面(12)の少なくとも一方の板面は、直進性のある波長を有する電波が透過可能な電波透過領域(43)を含んでおり、電波透過領域(43)は、電波を通過させる互いに離間した複数の電波通過部(43A)と、隣り合う電波通過部(43A)の間で電波の遮断性がある導電膜が形成された導電膜部(43B)と、を有しており、電波透過領域(43)は、複数の電波通過部(43A)を通過した電波の一部が回折して導電膜部(43B)と対向する空間で重なり合う電波拡散構造で構成されている。 |
| Author | OSHIMA Hideaki FUJISAWA Akira OKA Hidetoshi INAOKA Daisuke |
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| RelatedCompanies | NIPPON SHEET GLASS COMPANY, LIMITED |
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| Snippet | A glass body (100) comprises a first glass plate (1) having a first surface and a second surface (12) which is on the opposite side to the first surface. At... |
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| SubjectTerms | CHEMICAL COMPOSITION OF GLASSES, GLAZES, OR VITREOUSENAMELS CHEMISTRY DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL FIXED CONSTRUCTIONS FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES,FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS,BLINDS, GATES GLASS JOINING GLASS TO GLASS OR OTHER MATERIALS LADDERS METALLURGY MINERAL OR SLAG WOOL SURFACE TREATMENT OF FIBRES OR FILAMENTS MADE FROM GLASS,MINERALS OR SLAGS SURFACE TREATMENT OF GLASS |
| Title | GLASS BODY |
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