Rotary molding system

What is claimed is: 1. A rotary molding system configured to mold food products comprising: a fill plate having an inlet surface and an outlet surface, the fill plate having at least one hole therethrough through which food product is configured to pass; a support structure; a cylindrical drum having an inner surface, an outer surface and mold cavities into which food product is configured to be received from the fill plate, the outer surface of the drum being proximate to the outlet surface of the fill plate; and a platen mounted on the support structure and mounted within the drum, the platen being fixed in position relative to the support structure, the drum being rotatable relative to the platen and to the support structure, the platen having an inner surface and an outer surface, the outer surface being proximate to the inner surface of the drum, the platen comprising a body having holes therethrough, wherein a plurality of the holes are in communication with each mold cavity when each mold cavity passes between the fill plate and the platen, the platen providing a back surface of each mold cavity when each mold cavity is rotated into position over the platen, and wherein each mold cavity does not have a back surface when not in into position over the platen, the holes in the platen providing an air management system configured to allow air to escape each mold cavity as food product fills each mold cavity and displaces the air in each mold cavity without an application of a vacuum. 2. The rotary molding system of claim 1 , wherein the outer surface of the platen is curved. 3. The rotary molding system of claim 1 , wherein the body of the platen has a plurality of fins in the inner surface which alternate with recesses formed in the inner surface, wherein each recess has a plurality of the holes extending therefrom and to the outer surface of the platen. 4. The rotary molding system of claim 3 , wherein the holes associated with each recess are in a column. 5. The rotary molding system of claim 4 , wherein the holes in adjacent columns are offset from each other. 6. The rotary molding system of claim 3 , wherein each hole comprises a first portion extending from the outer surface and a second portion extending from the first portion to the associated recess, wherein the first portion of each hole has a smaller diameter than a diameter of the second portion of the respective hole. 7. The rotary molding system of claim 3 , further comprising an opening through the platen in communication with the recesses. 8. The rotary molding system of claim 1 , wherein the platen has drum roller supports provided thereon, and a roller mounted within each drum roller support, the rollers extending partially outwardly from the outer surface of the platen and being in contact with the inner surface of the drum. 9. The rotary molding system of claim 8 , wherein the drum roller supports seat within roller mounting apertures in the platen. 10. The rotary molding system of claim 1 , further comprising: a stripper plate having an inlet surface and an outlet surface, the inlet surface being in communication with a feed source, the stripper plate having a plurality of holes therethrough through which food product is configured to pass; a wear plate having a first surface and a second surface, the first surface of the wear plate being proximate to the outlet surface of the stripper plate, the stripper plate being movable relative to the wear plate, the wear plate having a plurality of holes therethrough through which food product is configured to pass; and the inlet surface of the fill plate being proximate to the second surface of the wear plate, the fill plate having a plurality of holes therethrough through which food product is configured to pass, the wear plate being releasably attached to the fill plate. 11. The rotary molding system of claim 8 , wherein each drum roller support including a curved race in which the respective roller is seated. 12. The rotary molding system of claim 11 , wherein each roller has a cylindrical body section. 13. The rotary molding system of claim 8 , wherein each drum roller support is positioned outside of an area in which the plurality of holes are provided. 14. A rotary molding system configured to mold food products comprising: a fill plate having an inlet surface and an outlet surface, the fill plate having at least one hole therethrough through which food product is configured to pass; a support structure; a cylindrical drum having an inner surface, an outer surface and mold cavities into which food product is configured to be received from the fill plate, the outer surface of the drum being proximate to the outlet surface of the fill plate; and a platen mounted on the support structure and mounted within the drum, the platen being fixed in position relative to the support structure, the drum being rotatable relative to the platen and to the support structure, the platen having an inner surface and an outer surface, the outer surface being proximate to the inner surface of the drum, the platen comprising a body having drum roller supports provided thereon, each drum roller support including a curved race, the body of the platen providing a back surface of each mold cavity when each mold cavity is rotated into position over the platen as food product fills each mold cavity, and wherein each mold cavity does not have a back surface when not in into position over the platen; and a roller seated within the curved race of each drum roller support and rotatable relative thereto, the rollers extending partially outwardly from the outer surface of the platen and being in contact with the inner surface of the drum. 15. The rotary molding system of claim 14 , wherein each roller has a cylindrical body section. 16. The rotary molding system of claim 14 , wherein the drum roller supports seat within roller mounting apertures in the platen. 17. The rotary molding system of claim 14 , wherein each roller comprises a central cylindrical body section having reduced cylindrical end sections at ends thereof. 18. The rotary molding system of claim 14 , wherein each roller is formed of one of plastic and metal. 19. The rotary molding system of claim 14 , wherein the outer surface of the platen is curved. 20. The rotary molding system of claim 14 , further comprising: a stripper plate having an inlet surface and an outlet surface, the inlet surface being in communication with a feed source, the stripper plate having a plurality of holes therethrough through which food product is configured to pass; a wear plate having a first surface and a second surface, the first surface of the wear plate being proximate to the outlet surface of the stripper plate, the stripper plate being movable relative to the wear plate, the wear plate having a plurality of holes therethrough through which food product is configured to pass; and the inlet surface of the fill plate being proximate to the second surface of the wear plate, the fill plate having a plurality of holes therethrough through which food product is configured to pass, the wear plate being releasably attached to the fill plate.