Method of converting bone stock into bone chips

What is claimed is: 1. A mill head for converting bone stock into bone chips and for use with a base unit, said mill head comprising: a housing having: an inlet opening into which bone stock is introduced into said housing; an outlet opening spaced away from said inlet opening; and a cutting device mounted in said housing between said inlet opening and said outlet opening; and a plunger moveably mounted in said inlet opening to push bone stock against said cutting device to convert bone stock into bone chips and discharge bone chips through said outlet opening; wherein said cutting device is further defined as a cutting disc having a plurality of cutting scallops, each scallop being monolithic with said cutting disc and each scallop defining an opening and having a scallop top surface and a scallop bottom surface which meet at a cutting edge of said scallop; and wherein said cutting disc has a plurality of equangularly spaced apart openings that are centered around and spaced outwardly from a center of said cutting disc, with said equangularly spaced apart openings configured to engage the base unit such that rotational force from the base unit results in the like rotation of said cutting device, the equangularly spaced apart openings being configured to engage complimentary teeth on a drive spindle of the base unit. 2. The mill head of claim 1 , wherein said plunger is slidably mounted to the top of said housing so that a bottom surface of said plunger is directed towards said cutting device. 3. The mill head of claim 1 , wherein said plunger comprises a top plate dimensioned to subtend an area larger than a cross-sectional area of said inlet opening. 4. The mill head of claim 1 , further including a tray removably attached to said housing adjacent said outlet opening for receiving bone chips discharged through said outlet opening. 5. The mill head of claim 1 , wherein said cutting edge of each of said scallops is located in said housing between said inlet opening and said outlet opening such that said cutting device strikes the bone stock and chips are cut from the bone stock with said cutting edge and subsequently move through said opening defined by said scallop. 6. The mill head of claim 1 , wherein said cutting disc is further formed to have an opening in the center of said disc. 7. A system for converting bone stock into bone chips, said system comprising: a mill head comprising: a housing having an inlet opening into which bone stock is introduced into the housing and an outlet opening spaced away from the inlet opening; a cutting device mounted in the housing between the inlet opening and the outlet opening; and a plunger moveably mounted in the inlet opening to push bone stock against the cutting device to convert bone stock into bone chips and the discharge of bone chips through the outlet opening; and a base unit having a motor and a drive spindle configured to transfer torque developed by the motor to the cutting device; wherein the cutting device is further defined as a cutting disc formed to have a plurality of equangularly spaced apart openings that are centered around and spaced outwardly from the center of the cutting disc that function to couple the cutting disc with the drive spindle, and wherein the equangularly spaced apart openings are configured to engage complimentary teeth on the drive spindle of the base unit so that rotation of the drive spindle results in the like rotation of the cutting device. 8. The system of claim 7 , further including a tray removably attached to the housing adjacent the outlet opening for receiving bone chips discharged through the outlet opening. 9. The system of claim 7 , wherein the cutting device has at least one cutting edge located in the housing between the inlet opening and the outlet opening such that the cutting device strikes the bone stock and chips are cut from the bone stock with the cutting edge and subsequently move through the outlet opening and are discharged. 10. The system of claim 7 , wherein the cutting disc has a plurality of cutting scallops, each scallop defining the opening and having a scallop top surface and a scallop bottom surface which meet at a cutting edge of the scallop. 11. The system of claim 7 , wherein the base unit comprises a spring that places a force on the drive spindle and the seating of the mill head results in at least some retraction of the spindle towards into the base unit until the teeth on the drive spindle spring into the equangularly spaced apart openings in the cutting disc. 12. The system of claim 7 , wherein the cutting disc is further formed to have an opening in the center of the disc that functions to align the cutting disc with the drive spindle. 13. The system of claim 11 , wherein the drive spindle has an alignment pin located to engage the opening so that the engagement of the alignment pin results in the lateral positioning of the cutting device so that the at least one tooth on the drive spindle can engage the at least one opening on the cutting device and rotate the cutting device. 14. The system of claim 7 , further including a locking assembly for releasably holding the housing of the mill head to the base unit. 15. The system of claim 14 , wherein pedestal teeth on the base unit seat in notches in the mill head, wherein as a consequence of the pedestal teeth seating in the mill head notches, the pedestal teeth inhibit the transfer of the rotational movement of the cutting device to the rest of the mill and thus perform rotation-stopping effect. 16. A system for converting bone stock into bone chips, said system comprising: a mill head comprising: a housing having an inlet opening into which bone stock is introduced into the housing and an outlet opening spaced away from the inlet opening; a cutting device mounted in the housing between the inlet opening and the outlet opening; and a plunger moveably mounted in the inlet opening to push bone stock against the cutting device to convert bone stock into bone chips and the discharge of bone chips through the outlet opening; a base unit having a motor and a drive spindle configured to transfer torque developed by the motor to the cutting device; and a locking assembly for releasably holding the housing of the mill head to the base unit; wherein pedestal teeth on the base unit seat in notches in the mill head, wherein as a consequence of the pedestal teeth seating in the mill head notches, the pedestal teeth inhibit the transfer of rotational movement of the cutting device to the rest of the mill and thus perform rotation-stopping effect.