Separator for a grinding machine

We claim: 1. A grinding machine comprising: a grinding head defining an opening; a rotatable advancement member contained within the grinding head; an orifice plate located within the opening of the grinding head, wherein the orifice plate defines an upstream surface and a downstream surface, and includes a plurality of outer grinding openings extending between the upstream surface and the downstream surface for discharging soft material through the orifice plate upon rotation of the rotatable advancement member, and one or more collection passages extending between the upstream surface and the downstream surface for discharging a mixture of soft material and hard material through the orifice plate upon rotation of the rotatable advancement member; and a separator assembly located downstream of the orifice plate, wherein the separator assembly includes an upstream inlet that receives the mixture of soft material and hard material from the one or more collection passages; a separator chamber having a wall that defines an axially extending separator passage, wherein the separator passage receives the mixture of soft material and hard material from the upstream inlet, and wherein the wall of the separator chamber includes a plurality of perforations that communicate between the separator passage and an outer surface defined by the wall; and a separator screw disposed within the separator passage of the separator chamber, wherein the separator screw is interconnected with the rotatable advancement member and is rotatable within the separator passage in response to rotation of the rotatable advancement member, wherein rotation of the separator screw causes separation of soft material from the mixture of soft material and hard material and forces the soft material through the plurality of perforations in the wall of the separator chamber, wherein the separator chamber defines a downstream end that includes an outlet for discharging hard material; wherein each of the plurality of perforations includes a reduced dimension inlet portion and an expanded dimension outer portion. 2. The grinding machine of claim 1 , wherein the wall of the separator chamber has a generally conical configuration. 3. The grinding machine of claim 1 , wherein the downstream end of the separator chamber defines a constant diameter portion adjacent the outlet, wherein the plurality of perforations are located upstream of the constant diameter portion. 4. The grinding machine of claim 1 , wherein the separator passage is tapered. 5. A grinding machine comprising: a grinding head defining an opening; a rotatable advancement member contained within the grinding head; an orifice plate located within the opening of the grinding head, wherein the orifice plate defines an upstream surface and a downstream surface, and includes a plurality of outer grinding openings extending between the upstream surface and the downstream surface for discharging soft material through the orifice plate upon rotation of the rotatable advancement member, and one or more collection passages extending between the upstream surface and the downstream surface for discharging a mixture of soft material and hard material through the orifice plate upon rotation of the rotatable advancement member; a separator assembly located downstream of the orifice plate, wherein the separator assembly includes an upstream inlet that receives the mixture of soft material and hard material from the one or more collection passages; a separator chamber having a wall that defines an axially extending separator passage, wherein the separator passage receives the mixture of soft material and hard material from the upstream inlet, and wherein the wall of the separator chamber includes a plurality of perforations that communicate between the separator passage and an outer surface defined by the wall; and a separator screw disposed within the separator passage of the separator chamber, wherein the separator screw is interconnected with the rotatable advancement member and is rotatable within the separator passage in response to rotation of the rotatable advancement member, wherein rotation of the separator screw causes separation of soft material from the mixture of soft material and hard material and forces the soft material through the plurality of perforations in the wall of the separator chamber, wherein the separator chamber defines a downstream end that includes an outlet for discharging hard material; and an open support extending outwardly from the grinding head, wherein the separator chamber is engaged with and supported by the open support at a location downstream of the orifice plate. 6. The grinding machine of claim 5 , wherein each of the plurality of perforations includes a length and has a constant diameter throughout the length. 7. The grinding machine of claim 5 , wherein the wall of the separator chamber has a generally conical configuration. 8. The grinding machine of claim 5 , wherein the downstream end of the separator chamber defines a constant diameter portion adjacent the outlet, wherein the plurality of perforations are located upstream of the constant diameter portion. 9. The grinding machine of claim 5 , wherein the separator passage is tapered. 10. The grinding machine of claim 5 , wherein at least one of the plurality of perforations includes a reduced dimension inlet portion and an expanded dimension outer portion. 11. A separator arrangement for a grinding machine that includes a grinding head, a rotatable advancement auger located within the grinding head, an orifice plate located within an opening defined by the grinding head, and a knife arrangement driven by the auger, the separator arrangement comprising: a support arrangement adapted for interconnection with the grinding head and defining a support area positioned outwardly of the orifice plate; a separator chamber having a wall that defines an axially extending separator passage, wherein the separator chamber defines an upstream end adapted for engagement with the orifice plate and a downstream end adapted for engagement with the support area of the support arrangement, wherein the axially extending separator passage is adapted to receive a mixture of soft material and hard material discharged by the orifice plate, wherein the wall of the separator chamber includes a plurality of perforations that communicate between the axially extending separator passage and an outer surface defined by the wall; and a separator screw disposed within the axially extending separator passage of the separator chamber, wherein the separator screw is adapted for interconnection with the rotatable advancement auger and is rotatable within the axially extending separator passage in response to rotation of the rotatable advancement auger, wherein rotation of the separator screw causes separation of soft material from the mixture of soft material and hard material and forces the soft material through the plurality of perforations in the wall of the separator chamber, wherein the downstream end of the separator chamber includes an outlet for discharging hard material from the axially extending separator passage; wherein each of the plurality of perforations includes a reduced dimension inlet portion and an expanded dimension outer portion. 12. The separator arrangement of claim 11 , wherein the wall of the separator chamber has a generally conical configuration. 13. The separator arrangement of claim 11 , wherein the axially extending separator passage is tapered. 14. A separator arrangement for a grinding machine that includes a grinding head, a rotatable advancement