Container, closure, and methods for manufacture

What is claimed is: 1. A closure cap for a container, the closure cap comprising: a base having, at least, an upper wall with an opening therethrough, an inner skirt, an outer skirt connected by a planar portion, and threads on the inner skirt, and an internal shaft inwardly depending from the upper wall, the internal shaft terminating at a non-planar end surface; a flip-top lid hingedly connected to the base, the flip-top lid having a projection and being movable between a first position where the projection blocks the opening and a second position where the projection does not obstruct the opening of the base; and a disk attached to an interior of the base, the disk secured about the internal shaft; and a mixing chamber defined by the disk, the upper wall, a mixing chamber wall, and the internal shaft, wherein at least one fluid channel is formed by the non-planar end surface of the internal shaft and the disk, wherein the at least one fluid channel permits fluid to move from the mixing chamber into the internal shaft; wherein the disk is stationary relative to the base once the disk is attached thereto. 2. The closure cap of claim 1 wherein the mixing chamber has a capacity of about 7 mL to about 11 mL and wherein the disk is attached to the base via a snap-fit engagement. 3. The closure cap of claim 1 wherein the non-planar end surface terminating the internal shaft opposite the central portion comprises a stepped configuration. 4. The closure cap of claim 1 wherein the non-planar end surface terminating the internal shaft opposite the central portion comprises has at least some arcuate surface portions forming one or more depressions. 5. The closure cap of claim 1 wherein the disk has a diameter of less than about 40 mm. 6. The closure cap of claim 1 wherein both the cap and the disk are comprised of a single food grade plastic. 7. The closure cap of claim 1 wherein the closure cap consists of only two separate components with the combination of the base and flip-top lid being a single, integral, unitary, one-piece structure and the disk being separately molded. 8. The closure cap of claim 1 wherein the internal shaft supports the disk when the disk is attached thereto. 9. The closure cap of claim 1 wherein the mixing chamber walls are formed via flanges extending from the disk. 10. A method of manufacturing a closure cap, the method comprising: forming, in a mold, a flip-top cap including: a base having, at least, an upper wall with an opening therethrough, an inner skirt, an outer skirt connected by a planar portions, threads and a retaining ring on the inner skirt, and an internal shaft inwardly depending from the upper wall, the internal shaft terminating at a non-planar end surface, and a flip-top lid hingedly connected to the base, the flip-top lid having an interior projection and being movable from a first position where the interior projection blocks the opening to a second position where the interior projection does not obstruct the opening of the base; and securing a disk onto the base of the flip-top cap, the disk positioned about the internal shaft; wherein the disk and the base form a mixing chamber defined by the disk, the upper wall, a mixing chamber wall, and the internal shaft, wherein at least one fluid channel is formed between the mixing chamber and the internal shaft via the non-planar end surface of the internal shaft; wherein the disk is stationary relative to the base once the disk is attached thereto. 11. The method of claim 10 wherein the closure cap is made from only two separate components, including the flip-top cap and the disk, and the flip-top cap comprises the base and flip-top lid formed in a single, integral, unitary, one-piece structure, and wherein the two separate components are made of the same material, and are assembled. 12. The method of claim 10 wherein the disk is snapped into the flip-top cap. 13. A closure cap comprising: a base having, at least, an upper wall with an opening therethrough, an inner skirt, an outer skirt connected by the upper wall, and threads on the inner skirt, and an internal shaft inwardly depending from the upper wall, the internal shaft terminating at a non-planar end surface; a flip-top lid hingedly connected to the base, the flip-top lid having a projection and being movable between a first position where the projection blocks the opening and a second position where the projection does not obstruct the opening of the base; and a disk attachable to an interior of the base, the disk secured about the internal shaft, wherein the internal shaft supports the disk when the disk is attached to the base; a mixing chamber formed via the disk, the upper wall, a mixing chamber wall, and the internal shaft; and at least one fluid channel formed between the mixing chamber and a space inside the internal shaft, wherein the at least one fluid channel is formed, in part, by the non-planar end surface of the internal shaft; wherein the disk is stationary relative to the base once the disk is attached thereto. 14. The closure cap of claim 13 wherein the non-planar end surface terminating the internal shaft opposite the central portion comprises a stepped configuration. 15. The closure cap of claim 13 wherein the mixing chamber wall is a flange that extends from the disk. 16. The closure cap of claim 15 wherein the mixing chamber wall is a substantially circular wall depending from the upper wall of the base. 17. The closure cap of claim 13 wherein at least a portion of the non-planar end surface of the internal shaft is spaced apart from the disk to form the at least one fluid channel therebetween. 18. The closure cap of claim 13 wherein the base and the disk form a winding fluid flowpath to the opening in the upper wall. 19. The closure cap of claim 13 where the disk engages at least a portion of the non-planar end surface of the internal shaft.