PL11934S2 - Glass - Google Patents

Description

GLASS The subject of the industrial design are glasses with a high stem - with the trade name "Tango" - for champagne, wine, liqueur, martini, vodka and water. The subject of the industrial design is illustrated in the attached drawing, showing the glass in a vertical half-section and a half-view, in which Figs. 1 to 7 show varieties of the glass differing in shape, purpose and capacity. In the glass according to the industrial design shown in Fig. 1, the bowl has the shape of a paraboloid of revolution connected at the bottom to a high, thin, cylindrical stem that arcs into a foot. The height of the bowl is approximately 1.33 times greater than the height of the stem and foot and approximately 2.46 times greater than the outer diameter of the bowl's rim. The diameter of the cylindrical stem is approximately six times greater than the wall thickness at the rim of the bowl. This glass is designed for champagne. In the version shown in Fig. 2, the bowl has the shape of a paraboloid of revolution, connected at the bottom to a tall, thin cylindrical stem that arcs into a foot. The height of the bowl is equal to the height of the stem and foot and is approximately 1.27 times greater than the outer diameter of the rim of the bowl. The diameter of the cylindrical stem is approximately six times greater than the wall thickness at the rim of the bowl. This glass is designed for white wine. In another glass variant, shown in Fig. 3, the bowl has the shape of a spherical bowl connected at the bottom to a tall, thin, cylindrical stem that arcs into a foot. The bowl's height is approximately 2.5 times smaller than the height of the stem and foot and approximately 1.83 times smaller than the outer diameter of the bowl's rim. The diameter of the cylindrical part of the stem is approximately six times greater than the wall thickness at the rim of the bowl. The glass is intended for liqueur. In another glass variant, shown in Fig. 4, the bowl has the shape of a paraboloid of revolution connected at the bottom to a tall, thin, cylindrical stem that arcs into a foot. The height of the bowl is approximately 1.43 times smaller than the height of the stem and foot and approximately 1.67 times greater than the outer diameter of its rim. The diameter of the cylindrical part of the stem is approximately six times greater than the wall thickness at the rim of the bowl. The glass is designed for vodka. In the next version of the glass, shown in Fig. 5, the bowl has the shape of a paraboloid of revolution connected at the bottom to a tall, thin, cylindrical stem that arcs into the foot. The height of the bowl is approximately 1.13 times greater than the height of the stem and foot and approximately 1.31 times greater than the outer diameter of the rim. The diameter of the cylindrical stem is approximately six times greater than the wall thickness at the rim of the bowl. The glass is designed for water. In another variation of the glass, shown in Fig. 6, the bowl has the shape of a paraboloid of revolution, connected at the bottom to a tall, thin cylindrical stem that arcs into a foot. The height of the bowl is approximately 1.03 times less than the height of the stem and foot and approximately 1.08 times greater than the outer diameter of the rim of the bowl. The diameter of the cylindrical stem is approximately six times greater than the wall thickness at the rim of the bowl. The glass is designed for red wine. In the next glass variation, shown in Fig. 7, the bowl has the shape of an inverted cone, which is connected at the bottom to a tall, thin cylindrical stem that arcs into the foot. The height of the bowl is approximately 1.54 times smaller than the height of the stem and foot and approximately 1.88 times smaller than the outer diameter of the bowl rim. The diameter of the cylindrical part of the stem is approximately six times greater than the wall thickness at the rim of the bowl. The glass is designed for martini. Essential features of the industrial design In the first variant, the glass is characterized by the fact that the bowl has the shape of a paraboloid of revolution connected in the lower part to a high and thin cylindrical stem passing in an arc into a foot, wherein the height of the cup is approximately 1.33 times greater than the height of the stem with the foot and approximately 2.46 times greater than the external diameter of its rim, while the diameter of the cylindrical part of the stem is approximately 6 times greater than the wall thickness on the rim of the cup - as shown in Figure 1. In the second variant, the glass is characterized by the fact that the bowl has the shape of a paraboloid of revolution connected in the lower part to a high and thin cylindrical stem passing in an arc into a foot, wherein the height of the cup is equal to the height of the stem with the foot and approximately greater 1.27 times the external diameter of its rim, and the diameter of the cylindrical part of the stem is about 6 times greater than the wall thickness at the rim of the bowl - as shown in Figure 2. In the DI variety, the glass is characterized by the fact that the bowl has the shape of a spherical bowl connected in the lower part with a high and thin cylindrical stem passing by an arc into a foot, wherein the height of the bowl is about 2.5 times smaller than the height of the stem with the foot and about 1.83 times smaller than the external diameter of its rim, and the diameter of the cylindrical part of the stem is about 6 times greater than the wall thickness at the rim of the bowl - as shown in Figure 3. In the IV variety, the glass is characterized by the fact that the bowl has the shape of a paraboloid a rotating cup connected in the lower part to a high and thin cylindrical stem passing in an arc into a foot, wherein the height of the cup is about 1.43 times smaller than the height of the stem with the foot and about 1.67 times greater than the outer diameter of its rim, and the diameter of the cylindrical part of the stem is about 6 times greater than the wall thickness on the rim of the cup - as shown in Figure 4. In the fifth variant, the cup is characterized by the fact that the cup has the shape of a rotating paraboloid connected in the lower part to a high and thin cylindrical stem passing in an arc into a foot, wherein the height of the cup is about 1.13 times greater than the height of the stem with the foot and about 1.31 times greater than the outer diameter of its rim, and the diameter of the cylindrical part of the stem is about 6 times greater than the wall thickness at the rim of the bowl - as shown in Figure 5. In the VIth variety, the glass is characterized by the fact that the bowl has the shape of a paraboloid of revolution connected in the lower part to a high and thin cylindrical stem passing by an arc into a foot, wherein the height of the bowl is about 1.03 times smaller than the height of the stem with the foot and about 1.08 times greater than the outer diameter of the rim of the bowl, while the diameter of the cylindrical part of the stem is about 6 times greater than the wall thickness at the rim of the bowl - as shown in Figure 6. In the VIIth variety, the glass is characterized by the fact that the bowl has the shape of an inverted cone and is connected in the lower part to a high and thin cylindrical a leg passing in an arc into a foot, wherein the height of the bowl is approximately 1.54 times smaller than the height of the leg with the foot and approximately 1.88 times smaller than the outer diameter of the rim of the bowl, while the diameter of the cylindrical part of the leg is approximately 6 times greater than the wall thickness on the rim of the bowl - as shown in Fig. 7. Representative of HSG "Irena" Fig. 1 Fig. 2 Fig. 3 Fig. 4 Fig. 5 Fig. 6 Fig. 7 Fig. 1 Fig. 2 Fig. 3 Fig. 4 Fig. 5 Fig. 6 Fig. 7 PL