High capacity magazine for spherical projectiles

What is claimed is: 1. A high capacity magazine apparatus for flexible spherical projectiles comprising: a generally hollow cylindrical housing having front and rear end portions and a shell forming helical and transition paths for flexible spherical projectiles to follow; a delivery and storage cylinder having multiple recesses extending parallel to a longitudinal axis of the delivery cylinder, the delivery cylinder being rotatably mounted in the hollow housing wherein flexible spherical projectiles are enabled to move along the recesses of the delivery cylinder and the path of the shell of the hollow housing from the rear end portion to the front end portion of the hollow housing; an elongated tubular housing mounted to the hollow housing, the tubular housing having an internal path for flexible spherical projectiles to enable movement of the spherical projectiles from the hollow housing to a launcher of spherical projectiles; a structure mounted to the hollow housing and connected to the delivery cylinder to enable the delivery cylinder to rotate; and a pusher having a surface of less flexibility than the flexible spherical projectiles movable along the helical, transition and internal paths to enable the flexible spherical projectiles to exit the tubular cylinder. 2. The high capacity magazine apparatus as claimed in claim 1 , wherein: the transition path enables moving spherical projectiles to smoothly change direction from the helical path to the internal path. 3. The high capacity magazine apparatus as claimed in claim 2 , wherein: the transition path includes a flange mounted to the hollow housing to guide spherical projectiles moving in the hollow housing. 4. The high capacity magazine apparatus as claimed in claim 1 , wherein: the structure to enable the delivery cylinder to rotate is a constant force spring. 5. The high capacity magazine apparatus as claimed in claim 1 , wherein: the pusher is a plurality of articulated rigid structures. 6. The high capacity magazine apparatus as claimed in claim 1 , including: a structure connected to the hollow housing to limit rotation of the delivery cylinder. 7. The high capacity magazine apparatus as claimed in claim 1 , including: a closure connected to the tubular housing for selectively blocking the tubular housing. 8. The high capacity magazine apparatus as claimed in claim 1 , including: front and rear covers connected to the front and rear end portions of the hollow housing; and wherein the structure to enable the delivery cylinder to rotate is a constant force spring. 9. The high capacity magazine apparatus as claimed in claim 8 , wherein: the pusher is a plurality of articulated rigid structures. 10. The high capacity magazine apparatus as claimed in claim 9 , including: a structure connected to the hollow housing and to the delivery cylinder to limit rotation of the delivery cylinder. 11. The high capacity magazine apparatus as claimed in claim 10 , including: a closure connected to the tubular housing for selectively blocking the tubular housing. 12. A high capacity magazine apparatus for flexible spherical projectiles comprising: a drum shaped housing having front and rear end portions and a helical shaped shell for forming helical and transition paths for flexible spherical projectiles to follow between the front and rear end portions; a fluted delivery cylinder, the delivery cylinder being rotatably mounted in the drum housing wherein flexible spherical projectiles moving between the front and rear end portions of the drum housing are enabled to move along the flutes of the delivery cylinder; an elongated clip housing mounted to the drum housing, the clip housing having an internal path contiguous with the helical and transition paths for flexible spherical projectiles to move from the drum housing to a launcher of spherical projectiles; a structure mounted to the delivery cylinder to enable the delivery cylinder to rotate; and a pusher of less flexibility than the flexible spherical projectiles movable along the helical, transition and internal paths to enable flexible spherical projectiles to exit the clip cylinder. 13. The high capacity magazine apparatus as claimed in claim 12 , wherein: the transition path enables moving spherical projectiles to change direction from the helical path to the internal path smoothly; and including a transition flange mounted to the drum housing. 14. The high capacity magazine apparatus as claimed in claim 13 , wherein: the structure is a constant force spring connected to the drum housing. 15. The high capacity magazine apparatus as claimed in claim 12 , wherein: the pusher includes a plurality of les flexible articulated structures having surfaces of less flexibility than the flexible spherical projectiles. 16. The high capacity magazine apparatus as claimed in claim 15 , including: a spiral groove in an end cover connected to the drum housing; and a slider mounted in a radially directed slot formed in the delivery cylinder and engaged with the spiral groove to limit rotation of the delivery cylinder. 17. A method for making a high capacity magazine apparatus for flexible spherical projectiles comprising the steps of: forming a generally hollow cylindrical housing having front and rear end portions and a helically shaped shell for forming helical and transition paths for resilient spherical projectiles to follow; rotatably mounting a fluted delivery cylinder in the hollow housing, wherein flexible spherical projectiles moving between the front and rear end portions of the hollow housing are enabled to move along longitudinally directed flutes of the delivery cylinder; connecting an elongated clip housing to the front end portion of the hollow housing, the clip housing having an internal path for spherical projectiles to enable movement of the spherical projectiles from the hollow housing to a launcher of spherical projectiles; mounting a structure to the delivery cylinder to enable the delivery cylinder to rotate; and mounting a pusher having a surface of less resilience than the spherical projectiles, the pusher being movable along the helical, transition and internal paths to enable spherical projectiles to exit the elongated cylinder. 18. The method as claimed in claim 17 , wherein: the transition path includes a flange connected to the hollow housing to provide a smooth pathway for moving spherical projectiles between the helical path and the internal path. 19. The method as claimed in claim 18 , wherein: the structure is a constant force spring. 20. The method as claimed in claim 19 , wherein: the pusher is a plurality of articulated structures having surfaces of less flexibility than the surfaces of the spherical projectiles. 21. A high capacity magazine apparatus for soft foam projectiles comprising: a first housing having a hollow cylindrical shape, and front and rear end portions, the first housing being divided into two parts; a second housing connected to the first housing, the second housing for mounting the magazine apparatus to a projectile launcher; a delivery and storage structure having a generally cylindrical shape for supporting the foam projectiles, the delivery and storage structure being rotatably mounted within the first housing; a spring connected to the first housing and to the delivery and storage structure, the spring to enable the delivery and storage structure to rotate; a pusher for moving the foam p