Separation machine having powered separator gap control

What is claimed is: 1. A powered separation machine comprising: a housing; a separation chamber mounted to the housing, the separation chamber configured to receive and process a food product therethrough, the separation chamber having a cylindrical screen including a plurality of apertures; a feed tube configured to provide the food product to an input end of the separation chamber; a rotating auger disposed within the separation chamber and defining an annular space and a volume between the auger and the screen; a restrictor ring mounted to an output end of the separation chamber, the restrictor ring configured to be linearly and reciprocally displaceable, wherein linear displacement of the restrictor ring varies a size of the volume between the auger and the screen; a hydraulic cylinder having a reciprocating ram; a proportional hydraulic valve operatively coupled to the hydraulic cylinder; a pivoting adjustment bracket operatively coupled between the ram and the restrictor ring; wherein extension of the ram causes pivoting movement of the adjustment bracket so as to linearly translate the restrictor ring in a first direction to reduce the size of the volume, and wherein retraction of the ram causes pivoting movement of the adjustment bracket to linearly translate the restrictor ring in a second direction so as to increase the size of the volume; and a controller operatively coupled to the proportional hydraulic valve so as to control the hydraulic cylinder in a closed-loop manner. 2. The powered separation machine of claim 1 , wherein the proportional hydraulic valve and the hydraulic cylinder comprise a hydraulic subsystem, the hydraulic subsystem physically located with the housing and is physically isolated from the separation chamber to avoid contamination. 3. The powered separation machine of claim 2 , wherein the hydraulic subsystem includes a position sensor that provides a varying electrical signal proportional to a position of the ram relative to the cylinder. 4. The powered separation machine of claim 2 , wherein the controller receives a signal from a position sensor operatively coupled to the hydraulic subsystem. 5. The powered separation machine of claim 2 , wherein the hydraulic subsystem operates in a first mode used during initialization of the separator, and used in a second mode during operational processing the food product. 6. The powered separation machine of claim 5 , wherein the first mode is a low pressure mode and the second mode is a high pressure mode. 7. The powered separation machine of claim 1 , wherein the hydraulic cylinder is disposed in a horizontal position parallel to a longitudinal axis of the separation chamber. 8. The powered separation machine of claim 1 , wherein the ram reciprocally extends and retracts in a horizontal direction parallel to the separation chamber. 9. The powered separation machine of claim 1 , further including a driving rod operatively coupled between the ram and pivoting adjustment bracket. 10. The powered separation machine of claim 9 , wherein the driving rod is disposed externally relative to the housing and external relative to the separation chamber. 11. The powered separation machine of claim 9 , further including an external pressure gauge operatively coupled to the driving rod configured to provide a visual indication of a level of pressure exerted by the ram. 12. The powered separation machine of claim 9 , wherein the pivoting adjustment bracket is operatively coupled to the driving rod at a first end, and operatively coupled to the restrictor ring at a second end, the second end disposed opposite the first end, the pivoting adjustment bracket further including a fulcrum point between the first and second ends about which the adjustment bracket pivots. 13. The powered separation machine of claim 12 , wherein the fulcrum point is located at a position closer to the second end of the adjustment bracket than to the first end of the adjustment bracket. 14. The powered separation machine of claim 12 , wherein a distance from the fulcrum point to the first end of the adjustment bracket is about twice the distance compared to a distance from the fulcrum point to the second end of the adjustment bracket, so as to provide a mechanical force advantage of about 3 : 1 . 15. The powered separation machine of claim 13 , wherein the proportional hydraulic valve and the hydraulic cylinder comprise a hydraulic subsystem, and the hydraulic subsystem operates in a first mode used during initialization of the separator, and used in a second mode during operational processing the food product, wherein the restrictor ring is moved to a position that is a minimum distance from the auger without contacting the auger while in the first mode of operation. 16. A powered separator comprising: a separation chamber configured to receive and process a food product therethrough, the separation chamber having a cylindrical screen including a plurality of apertures; a rotating auger disposed within the separation chamber and defining an annular space and a volume between the auger and the screen; a restrictor ring mounted at an output end of the separation chamber, the restrictor ring configured to be linearly and reciprocally displaceable, wherein linear displacement of the restrictor ring varies a size of the volume between the auger and the screen; a hydraulic cylinder having a reciprocating ram; a proportional hydraulic valve operatively coupled to the hydraulic cylinder; wherein extension of the ram causes pivoting movement of the restrictor ring in a first direction to reduce the size of the volume, and wherein retraction of the ram causes movement of the restrictor ring in a second direction so as to increase the size of the volume; and a controller operatively coupled to the proportional hydraulic valve so as to control the hydraulic cylinder in a closed-loop manner. 17. The powered separator of claim 16 , further including a pivoting adjustment bracket operatively coupled between the ram and the restrictor ring. 18. The powered separator of claim 16 , wherein the proportional hydraulic valve and the hydraulic cylinder comprise a hydraulic subsystem, the hydraulic subsystem physically located with a housing, wherein the housing is physically isolated from the separation chamber to avoid contamination.