Cover cap with fitted gasket designed for sealing a metallic bottle

Having described the invention as above, the content of the following claims is claimed as proprietary: 1. A metallic cover cap for sealing a metallic bottle, the cover cap being formed by a laminated piece with a circular inner- and outer-face layout, from whose edge a peripheral skirt extends in a descending manner and to which a safety ring is attached by a series of bridges, the cover cap comprising: a gasket attached to the inner face of the circular layout and provided with a flat central zone and an annular zone, the annular zone including an outer rim and an inner rim separated by a notch; the outer rim extending axially and circumferentially continuous and adjacent to the skirt and including a first flat surface adjacent to the skirt, a second surface with a flat portion and a concave portion facing radially toward the notch, and a third flat surface extending between the first and the second flat surfaces; and the inner rim extending axially and circumferentially continuous and spaced radially inward from the outer rim and including a first flat surface facing and perpendicular to the flat central zone, a second concave surface facing radially toward the notch, and a third flat surface inclined toward the notch between the first and the second surfaces; and wherein the inner rim has a base of greater thickness than the thickness of a base of the outer rim. 2. The metallic cover cap according to claim 1 , wherein the first flat surface of the outer rim has a height of 1.65 mm to 2.35 mm. 3. The metallic cover cap according to claim 1 , wherein the concave portion of the second surface of the outer rim has a radius of 0.589 mm to 0.838 mm. 4. The metallic cover cap according to claim 1 , wherein the third flat surface of the outer rim measures from 0.80 mm to 1.139 mm. 5. The metallic cover cap according to claim 1 , wherein the second surface and the third flat surface of the outer rim are joined by a convex surface facing radially toward the notch. 6. The metallic cover cap according to claim 5 , wherein the convex surface has a radius of 0.247 mm to 0.352 mm. 7. The metallic cover cap according to claim 1 , wherein the first flat surface of the inner rim has a height of 1.15 mm to 1.85 mm. 8. The metallic cover cap according to claim 1 , wherein the second concave surface of the inner rim has a height of 3.3 mm to 4.7 mm. 9. The metallic cover cap according to claim 1 , wherein the third flat surface of the inner rim has an angle of inclination of 9.9 degrees to 14.1 degrees. 10. The metallic cover cap according to claim 1 , wherein the third flat surface of the inner rim measures from 0.65 mm to 0.95 mm. 11. The metallic cover cap according to claim 1 , wherein the first flat surface of the inner rim is joined to the flat central zone by a concave surface facing radially toward the flat central zone. 12. The metallic cover cap according to claim 11 , wherein the concave surface has a radius of 1.965 degrees to 2.035 degrees. 13. The metallic cover cap according to claim 1 , wherein the notch has a depth of 1.097 mm to 1.562 mm. 14. The metallic cover cap according to claim 1 , wherein the flat central zone has a thickness of 0.198 mm to 0.282 mm. 15. The metallic cover cap according to claim 1 , wherein the gasket has a droplet weight of thermoformable material of 0.350 grams to 0.440 grams. 16. The metallic cover cap according to claim 1 , wherein the gasket has an inner diameter of 17.5 mm to 18.5 mm measured at the inner edge of the annular zone and an outer diameter of 25 mm to 26.5 mm, measured at the outer edge of the annular zone. 17. The metallic cover cap according to claim 1 , wherein the base of the inner rim of the annular zone measures from 1.683 mm to 2.397 mm. 18. The metallic cover cap according to claim 1 , wherein the concave portion of the second surface of the outer rim is joined to the second concave surface of the inner rim by a flat surface. 19. A metallic cover cap in use in combination with a metallic bottle having an opening with an outer thread, a sealing surface, and a gripping ring, the metallic cover cap is formed by a laminated piece with a circular inner- and outer-face layout, from whose edge a peripheral skirt extends in a descending manner and to which a safety ring is attached by a series of bridges and attached to the gripping ring of the opening of the metallic bottle, the cover cap comprising: a gasket attached to the inner face of the circular layout of the metallic cover cap and coupled to the sealing surface of the opening of the metallic bottle, the gasket being provided with a flat central zone and an annular zone that includes an outer rim and an inner rim separated by a notch; the outer rim extending axially and circumferentially continuous and adjacent to the skirt and including a first flat surface adjacent to the skirt, a second surface with a flat portion and a concave portion facing radially toward the notch, and a third flat surface extending between the first and the second flat surfaces; the inner rim extending axially and circumferentially continuous and spaced radially inward from the outer rim and including a first flat surface facing and perpendicular to the flat central zone, a second concave surface facing radially toward the notch, and a third flat surface inclined toward the notch between the first and the second surfaces; and wherein the inner rim has a base of greater thickness than the thickness of a base of the outer rim. 20. A method for making a metallic cover cap for sealing a metallic bottle, the method comprising the steps of: (a) providing a laminated piece with a circular inner- and outer-face layout, from whose edge a peripheral skirt extends in a descending manner and to which a safety ring is attached by a series of bridges, and (b) molding, by in situ pressing on the inner face of the circular layout, a droplet of thermoformable material to configure a gasket provided with a flat central zone and an annular zone, including an outer rim and an inner rim separated by a notch, wherein the outer rim extends axially and circumferentially continuous and adjacent to the skirt and includes a first flat surface adjacent to the skirt, a second surface with a flat portion and a concave portion facing radially toward the notch, and a third flat surface that extends between the first and second surfaces; the inner rim extends axially and circumferentially continuous and spaced radially inwardly from the outer rim and includes a first flat surface facing and perpendicular to the flat central zone, a second concave surface radially facing the notch, and a third flat surface inclined toward the notch between the first and second surfaces; and wherein the inner rim has a base of greater thickness than the thickness of the base of the outer rim.