Reducer sleeve with thru coolant flow and a cutting assembly using such reducer sleeve

What is claimed is: 1. A reducer sleeve comprising: a reducer sleeve body having an axial forward end and an axial rearward end, the reducer sleeve body having a flange at the axial forward end thereof and an axial rearward facing sleeve surface at the axial rearward end thereof; the flange containing a first nozzle; the reducer sleeve body containing a first trough extending from the axial rearward facing sleeve surface at the axial rearward end to the axial forward end, and the first trough is in communication with the first nozzle whereby coolant is able to enter the first trough and flow along the first trough and into the first nozzle wherein the coolant is ejected by the first nozzle, wherein the first trough is disposed on an external surface of the reducer sleeve body. 2. The reducer sleeve according to claim 1 wherein the first nozzle having a central longitudinal first nozzle axis, and the first trough having a central longitudinal first trough axis, and the central longitudinal first nozzle axis is disposed at a first angle with respect to the central longitudinal first trough axis. 3. The reducer sleeve according to claim 2 wherein the flange containing a second nozzle; the reducer sleeve body containing a second trough extending from the axial rearward end to the axial forward end, and the second trough is in communication with the second nozzle whereby coolant is able to enter the second trough and flow along the second trough and into the second nozzle wherein the coolant is ejected by the second nozzle; and the second nozzle having a central longitudinal second nozzle axis, and the second trough having a central longitudinal second trough axis, and the central longitudinal second nozzle axis is disposed at a second angle with respect to the central longitudinal second trough axis. 4. The reducer sleeve according to claim 3 wherein the first angle is not equal to the second angle. 5. The reducer sleeve according to claim 1 wherein the flange has a forward facing surface and a rearward facing surface, and the flange containing a recess in the rearward facing surface thereof. 6. The reducer sleeve according to claim 1 wherein the reducer sleeve body containing an elongate slot whereby the reducer sleeve body is movable in a radial direction. 7. The reducer sleeve according to claim 6 wherein the elongate slot is in the first trough. 8. The reducer sleeve according to claim 1 wherein the first trough has a spiral orientation. 9. A reducer sleeve-cutting tool assembly comprising: a cutting tool having a distal end and a proximate end, and a cutting portion intermediate of the distal end and the proximate end; a reducer sleeve body having an axial forward end and an axial rearward end, and the reducer sleeve body having a flange at the axial forward end thereof and an axial rearward facing sleeve surface at the axial rearward end thereof; the flange containing a first nozzle; the reducer sleeve body containing a first trough extending from the axial rearward facing sleeve surface at the axial rearward end to the axial forward end, and the first trough is in communication with the first nozzle whereby coolant is able to enter the first trough and flow along the first trough and into the first nozzle wherein the coolant is ejected by the first nozzle so as to impinge a first region of the cutting portion of the cutting tool, wherein the first trough is disposed on an external surface of the reducer sleeve body. 10. The reducer sleeve-cutting tool assembly according to claim 9 wherein the flange containing a second nozzle; the reducer sleeve body containing a second trough extending from the axial rearward end to the axial forward end, and the second trough is in communication with the second nozzle whereby coolant is able to enter the second trough and flow along the second trough and into the second nozzle wherein the coolant is ejected by the second nozzle so as to impinge a second region of the cutting portion of the cutting tool. 11. The reducer sleeve-cutting tool assembly according to claim 10 wherein the flange containing a third nozzle; the reducer sleeve body containing a third trough extending from the axial rearward end to the axial forward end, and the third trough is in communication with the third nozzle whereby coolant is able to enter the third trough and flow along the third trough and into the third nozzle wherein the coolant is ejected by the third nozzle so as to impinge a third region of the cutting portion of the cutting tool. 12. The reducer sleeve-cutting tool assembly according to claim 10 wherein the first nozzle having a central longitudinal first nozzle axis, and the first trough having a central longitudinal first trough axis, and the central longitudinal first nozzle axis is disposed at a first angle with respect to the central longitudinal first trough axis; and the second nozzle having a central longitudinal second nozzle axis, and the second trough having a central longitudinal second trough axis, and the central longitudinal second nozzle axis is disposed at a second angle with respect to the central longitudinal second trough axis. 13. The reducer sleeve-cutting tool assembly according to claim 12 wherein the third nozzle having a central longitudinal third nozzle axis, and the third trough having a central longitudinal third trough axis, and the central longitudinal third nozzle axis is disposed at a third angle with respect to the central longitudinal third trough axis; and the fourth nozzle having a central longitudinal fourth nozzle axis. 14. The reducer sleeve-cutting tool assembly according to claim 13 wherein the first angle and the second angle and the third angle are not equal to each other. 15. The reducer sleeve-cutting tool assembly according to claim 9 wherein the cutting tool is an elongate drill having an elongate cutting portion. 16. A cutting assembly comprising: a bushing having a bushing body with an axial forward bushing end and an axial rearward bushing end, a bushing flange at the axial forward bushing end, and the bushing flange having a forward facing bushing flange surface, the bushing body having a central bushing bore defined by a central bushing bore surface; a reducer sleeve body having an axial forward end and an axial rearward end, and the reducer sleeve body having a sleeve flange at the axial forward end thereof and an axial rearward facing sleeve surface at the axial rearward end thereof; the flange containing a first nozzle; the reducer sleeve body containing a first trough extending from the axial rearward facing sleeve surface at the axial rearward end to the axial forward end, and the first trough is in communication with the first nozzle whereby coolant is able to enter the first trough and flow along the first trough and into the first nozzle wherein the coolant is ejected by the first nozzle, wherein the first trough is disposed on an external surface of the reducer sleeve body. 17. The cutting assembly according to claim 16 wherein a first coolant passageway is defined by the first trough and the central bushing bore surface, and the first coolant passageway delivering coolant to the first nozzle. 18. The cutting assembly according to claim 16 wherein the first nozzle having a central longitudinal first nozzle axis, and the first trough having a central longitudinal first trough axis, and the central longitudinal first nozzle axis is disposed at a first angle with respect to the central longitudinal first trough axis. 19. The cutting asse