Cutting tooth for a rotary cutter

We claim: 1. A cutting tooth adapted to be rotated about a rotary axis comprising: a tooth body having a leading face , a trailing, generally planar, face , a radially outer face and a radially inner, generally planar, face; a radially outer part of the leading face having a cutting surface on it; a mounting bore disposed in the tooth body having a longitudinal axis oriented such that a vector extending generally from the leading face towards the trailing face along the longitudinal axis can be broken into: a component perpendicular to and directed towards the trailing face and a corresponding component parallel to the trailing face that is directed towards the radially inner face; and a component perpendicular to and directed towards the inner face and a corresponding component parallel to the radially inner face that is directed towards the trailing face . 2. A cutting tooth of claim 1 wherein the angle between the trailing face and the radially inner face is of not more than 90°. 3. The cutting tooth of claim 1 further comprised in combination with: a rotor configured for rotating in the first direction around the rotary axis; and a tooth mounting structure disposed on an outer portion of the rotor, the tooth mounting structure having a first wall disposed along the first plane in abutment with the trailing face of the cutting tooth and a second wall disposed along the second plane in abutment with the radially inner face of the tooth. 4. The cutting tooth combination of claim 3 further comprising a bore in the tooth mounting structure centrally disposed along the longitudinal axis of the bore in the cutting tooth. 5. The cutting tooth combination of claim 4 further comprising a fastener disposed in both the mounting bore in the cutting tooth and the bore in the tooth mounting structure, the fastener being configured for holding the cutting tooth in place. 6. The cutting tooth combination of claim 5 wherein the fastener is a threaded fastener, and the mounting bore in the cutting tooth is matingly threaded, whereby rotation of the threaded fastener in one direction pulls the trailing face of the tooth in abutment with the first wall of the tooth mounting structure, while at the same time that same rotation pulls the radially inner face of the cutting tooth against the second wall of the tooth mounting structure; and whereby rotation of the threaded fastener in an opposite direction causes loosening of the tooth with respect to the tooth mounting structure. 7. The cutting tooth of claim 3 wherein the rotor is a chipper drum. 8. A cutting tooth adapted to be rotated about a rotary axis comprising: a tooth body having a leading face , a trailing, generally planar, face , a radially outer face and a radially inner, generally planar, face , the trailing face and the inner face defining an angle of not more than 90° therebetween; a radially outer part of the leading face having a cutting surface on it; and a mounting bore disposed in the tooth body having a longitudinal bore centerline, the bore centerline being positioned at an acute angle with respect to the inner face and being oriented along a slope that can be broken into: 1) a rise component directed downward and perpendicular to the inner face; and 2) a run component parallel to the inner face and generally directed towards the trailing face. 9. A cutting tooth of claim 8 wherein the angle between the trailing face and the radially inner face is acute. 10. The cutting tooth of claim 8 further comprised in combination with: a rotor configured for rotating in the first direction around the rotary axis; and a tooth mounting structure disposed on an outer portion of the rotor, the tooth mounting structure having a first wall disposed along the first plane in abutment with the trailing face of the cutting tooth and a second wall disposed along the second plane in abutment with the radially inner face of the tooth. 11. The cutting tooth combination of claim 10 further comprising a bore in the tooth mounting structure centrally disposed along the longitudinal axis of the bore in the cutting tooth. 12. The cutting tooth combination of claim 11 further comprising a fastener disposed in both the mounting bore in the cutting tooth and the bore in the tooth mounting structure, the fastener being configured for holding the cutting tooth in place. 13. The cutting tooth combination of claim 12 wherein the fastener is a threaded fastener, and the mounting bore in the cutting tooth is matingly threaded, whereby rotation of the threaded fastener in one direction pulls the trailing face of the tooth in abutment with the first wall of the tooth mounting structure, while at the same time that same rotation pulls the radially inner face of the cutting tooth against the second wall of the tooth mounting structure; and whereby rotation of the threaded fastener in an opposite direction causes loosening of the tooth with respect to the tooth mounting structure. 14. The cutting tooth of claim 10 wherein the rotor is a chipper drum. 15. A cutting tooth adapted to be rotated about a rotary axis comprising: a tooth body having a leading face , a trailing face , a radially outer face and a radially inner face; a radially outer part of the leading face having a cutting surface on it; the trailing face being disposed generally in a first plane; the radially inner face being disposed generally in a second plane; a mounting bore disposed in the tooth body and extending at least through the trailing face, the mounting bore being centrally located along a longitudinal axis of the mounting bore, the longitudinal axis extending through the first plane; and the mounting bore axis defining an acute bore angle relative to the radially inner face, the mounting bore axis inclining away from the radially inner face while approaching the leading face. 16. The cutting tooth of claim 15 wherein the cutting tooth further defines a bevel face, the bevel face extending between the trailing face and the radially inner face , the bevel face being at a respective bevel angle relative to each of the back face and the bottom face. 17. The cutting tooth of claim 15 wherein the mounting bore defines at least one bore opening. 18. The cutting tooth of claim 17 wherein the mounting bore has a first bore opening defined in the leading face and a second bore opening in the trailing face. 19. The cutting tooth of claim 18 wherein the first bore opening is vertically spaced at a first bore opening distance from the radially inner face and the second bore opening is spaced at a second bore opening distance from the radially inner face, the first bore opening distance being greater than the second bore opening distance. 20. The cutting tooth of claim of claim 15 wherein the acute angle is 2 to 15 degrees. 21. The cutting tooth of claim of claim 15 wherein the second plane intersects the first plane at an acute angle as measured through the tooth body from the trailing face to the radially inner face. 22. The cutting tooth of claim 15 further comprised in combination with: a rotor configured for rotating in the first direction around the rotary axis; and a tooth mounting structure disposed on an outer portion of the rotor, the tooth mounting structure having a first wall disposed along the first plane in abutment with the trailing face of the cutting tooth and a second wall disposed along the second plane in abutment with the radially inner face of the tooth.