The present invention pertains to a method for manufacturing a glass aggregate-containing design panel by using waste glass and fluorescent stones in order to maximize the aesthetic effect of the design panel. More specifically, the method comprises the steps of: 1) inserting a pattern film (50), which is made of retardation ink, and a base sheet (40), which has perforated through holes (40a), into a mold (30); 2) inserting fluorescent stones (F-S) into the through holes (40a); 3) pouring a concrete composition containing glass aggregate (G-A) into the mold (30), and then curing the concrete composition together with the fluorescent stones to obtain a concrete panel (20) to which the base sheet is fixed; and 4) obtaining a design panel (10) in which a pattern part (60), from which the pattern film has been peeled off so that the concrete panel (20) and the glass aggregate are exposed on the surface by spraying with water, and the fluorescent stores are exposed on the surface, wherein the concrete composition contains 0.6 parts by weight of a nylon fiber reinforcing agent, 40 parts by weight of white cement, 0.3 parts by weight of fumed silica, 0.5 parts by weight of metakaolin, 0.25 parts by weight of an admixture, 0.3 parts by weight of a polypropylene fiber, 0.4 parts by weight of an AE water-reducing agent, 0.4 parts by weight of a silica sol, 18 parts by weight of water, 5 parts by weight of wollastonite, and 4 parts by weight of a pigment per 120 parts by weight of the glass aggregate, and the height of the fluorescent stones is less than the height to which the concrete composition is poured into the mold.

La présente invention concerne un procédé de fabrication d'un panneau stylé contenant un granulat de verre en utilisant des déchets de verre et de pierres fluorescentes afin de maximiser l'effet esthétique du panneau stylé. Plus spécifiquement, le procédé comprend les étapes suivantes : 1) insertion dans un moule (30) d'un film à motif (50), qui est constitué d'encre retardatrice, et d'une feuille de base (40), qui comporte des trous débouchants perforés (40a) ; 2) insertion de pierres fluorescentes (F-S) dans les trous débouchants (40a) ; 3) coulée d'une composition de béton contenant un granulat de verre (G-A) dans le moule (30), puis durcissement de la composition de béton conjointement avec les pierres fluorescentes afin d'obtenir un panneau en béton (20) auquel est fixée la feuille de base ; et 4) obtention d'un panneau stylé (10) dans lequel une partie de motif (60), dont le film à motif a été décollé de sorte que le panneau en béton (20) et le granulat de verre sont exposés à la surface par pulvérisation d'eau, et les pierres fluorescentes sont exposées à la surface. La composition de béton contient 0,6 parties en poids d'un agent de renforcement en fibres de nylon, 40 parties en poids de ciment blanc, 0,3 parties en poids de silice pyrogénée, 0,5 parties en poids de métakaolin, 0,25 parties en poids d'un adjuvant, 0,3 parties en poids d'une fibre de polypropylène, 0,4 parties en poids d'un agent réducteur d'eau à effet d'anode, 0,4 parties en poids d'une silice colloïdale, 18 parties en poids d'eau, 5 parties en poids de wollastonite et 4 parties en poids d'un pigment pour 120 parties en poids du granulat de verre, et la hauteur des pierres fluorescentes est inférieure à la hauteur à laquelle la composition de béton est coulée dans le moule.

본 발명은 디자인패널의 심미감 효과를 극대화하기 위해 폐유리 및 형광석을 이용한 유리골재가 포함된 디자인패널의 제조방법에 관한 것으로, 더욱 상세하게는 1)지연잉크를 재료로 하는 문양필름(50)과 관통공(40a)이 천공 형성된 베이스시트(40)를 성형틀(30)에 삽입하는 단계와, 2)상기 관통공(40a)에 형광석(F-S)을 삽입하는 단계와, 3)상기 성형틀(30)에 유리골재(G-A)가 포함된 콘크리트 조성물을 타설 후, 상기 형광석과 함께 경화시켜 상기 베이스시트가 고착된 콘크리트패널(20)을 획득하는 단계 및 4)물분사를 통해 콘크리트패널(20)과 유리골재가 표면으로 노출되게 상기 문양필름이 박리된 문양부(60)와 상기 형광석이 표면으로 노출된 디자인패널(10)을 획득하는 단계를 포함하되, 상기 콘크리트 조성물은 유리골재 120 중량부에 대하여, 나일론 섬유보강제 0.6 중량부, 백색시멘트 40 중량부, 실리카흄 0.3 중량부, 메타카올린 0.5 중량부, 혼화제 0.25 중량부, 폴리프로필렌섬유 0.3 중량부, AE 감수제 0.4 중량부, 실리카졸 0.4 중량부, 물 18 중량부, 규회석 5 중량부, 안료 4 중량부가 혼합되며, 상기 형광석의 높이는 상기 콘크리트 조성물이 타설되는 상기 성형틀의 높이보다 더 작게 형성되는 것을 특징으로 한다.