Self-rotating tube cleaning nozzle assembly

We claim: 1. A self-rotating tube cleaning nozzle assembly comprising: (a) a main body defining an internal fluid passageway; (b) a nozzle mounted to the main body; (c) a sleeve rotatably disposed about the main body, the sleeve having at least one discharge port in fluid communication with the main body internal fluid passageway for discharging a spray and rotating the sleeve about the main body; and (d) a debris exclusion feature defined between the main body and the sleeve, the debris exclusion feature including a stepped portion on an exterior surface of the main body that faces and overlaps with a complementarily shaped stepped portion on an interior surface of the sleeve. 2. The self-rotating nozzle assembly of claim 1 , wherein the main body stepped portion includes a first outer surface having a first diameter and a second outer surface having a second diameter greater than the first diameter, and wherein the sleeve interior surface overlaps with both the first and second outer surfaces. 3. The self-rotating nozzle assembly of claim 2 , wherein the sleeve stepped portion includes a first inner surface having a third diameter and a second inner surface having a fourth diameter greater than the first diameter, and wherein the first inner surface overlaps with the first outer surface and the second inner surface overlaps with the second outer surface. 4. The self-rotating nozzle assembly of claim 1 , further including a second debris exclusion feature defined between the nozzle and the sleeve, the second debris exclusion feature including a stepped portion on an exterior surface of the nozzle that faces and overlaps with a complementarily shaped second stepped portion on an interior surface of the sleeve. 5. The self-rotating nozzle assembly of claim 4 , wherein the nozzle stepped portion includes a first outer surface having a first diameter and a second outer surface having a second diameter greater than the first diameter, and wherein the sleeve interior surface overlaps with the first outer surface. 6. The self-rotating nozzle assembly of claim 5 , wherein the sleeve second stepped portion includes a first inner surface having a third diameter and a second inner surface having a fourth diameter greater than the first diameter, and wherein the second inner surface overlaps with the nozzle first outer surface. 7. The self-rotating nozzle assembly of claim 4 , wherein the main body stepped portion includes a first outer surface having a first diameter and a second outer surface having a second diameter greater than the first diameter, and wherein the sleeve interior surface overlaps with both the first and second outer surfaces. 8. The self-rotating nozzle assembly of claim 7 , wherein the sleeve stepped portion includes a first inner surface having a third diameter and a second inner surface having a fourth diameter greater than the first diameter, and wherein the first inner surface overlaps with the first outer surface and the second inner surface overlaps with the second outer surface. 9. The self-rotating nozzle assembly of claim 8 , wherein the nozzle stepped portion includes a first outer surface having a first diameter and a second outer surface having a second diameter greater than the first diameter, and wherein the sleeve interior surface overlaps with the first outer surface. 10. The self-rotating nozzle assembly of claim 9 , wherein the sleeve second stepped portion includes a first inner surface having a third diameter and a second inner surface having a fourth diameter greater than the first diameter, and wherein the second inner surface overlaps with the nozzle first outer surface. 11. The self-rotating nozzle assembly of claim 1 , wherein: (a) the main body has a first landing and a second landing each having a first diameter, and the main body has a third landing having a second diameter greater than the first diameter, wherein the first, second, and third landings are parallel to a longitudinal axis of the main body; (b) the sleeve is rotatably disposed about the main body first, second, and third landings; and (c) the debris exclusion feature is defined between the main body third landing and the sleeve. 12. The self-rotating tube cleaning nozzle assembly of claim 11 , wherein the third landing is proximate the first landing. 13. The self-rotating tube cleaning nozzle assembly of claim 12 , wherein the third landing is separated from the first landing by a shoulder. 14. The self-rotating tube cleaning nozzle assembly of claim 13 , wherein the third landing is further separated from the first landing by an undercut portion having a smaller outside diameter than the first diameter. 15. The self-rotating nozzle assembly of claim 11 , further including a second debris exclusion feature defined between the nozzle and the sleeve, the second debris exclusion feature including a stepped portion on an exterior surface of the nozzle that faces and overlaps with a complementarily shaped second stepped portion on an interior surface of the sleeve. 16. The self-rotating nozzle assembly of claim 15 , wherein the nozzle stepped portion includes a first outer surface having a first diameter and a second outer surface having a second diameter greater than the first diameter, and wherein the sleeve interior surface overlaps with the first outer surface. 17. The self-rotating nozzle assembly of claim 16 , wherein the sleeve second stepped portion includes a first inner surface having a third diameter and a second inner surface having a fourth diameter greater than the first diameter, and wherein the second inner surface overlaps with the nozzle first outer surface.