Inlet assembly

The invention claimed is: 1. An inlet assembly for a burner, said inlet assembly comprising: a manifold having an inlet aperture and a coaxially aligned outlet aperture, said manifold having a nozzle bore which is linear, straight and cylindrical and extends along a longitudinal axis between said inlet aperture and said outlet aperture for conveying an effluent gas from an inlet pipe coupleable with said inlet aperture to said outlet aperture for delivery to a combustion chamber of said burner; a hollow nozzle bore scraper housed within said nozzle bore; and an actuator located off-center from either the inlet of the nozzle bore, the outlet of the nozzle bore or the longitudinal axis of the nozzle bore operable to reciprocate said nozzle bore scraper relative to said nozzle bore, said nozzle bore scraper reciprocating along said longitudinal axis within said nozzle bore between a rest position and an actuated position to reduce effluent gas deposits within said nozzle bore; wherein the nozzle bore is shaped to provide an unidirectional flow of the effluent gas from the inlet aperture to the outlet aperture to reduce the likelihood of deposits occurring within the nozzle bore. 2. The inlet assembly of claim 1 , wherein said nozzle bore scraper protrudes from said outlet aperture in said actuated position. 3. The inlet assembly of claim 1 , wherein the nozzle bore scraper is retained within the nozzle bore in the rest position at a distance which is at least a diameter of said nozzle bore. 4. The inlet assembly of claim 1 , wherein said nozzle bore scraper is one of a cylinder and a coil spring. 5. The inlet assembly of claim 1 , wherein said nozzle bore scraper comprises a shaped cutting end for dislodging effluent gas deposits within said nozzle bore when moving between said rest position and said actuated position. 6. The inlet assembly of claim 1 , wherein an external diameter of said nozzle bore scraper corresponds with an internal diameter of said nozzle bore. 7. The inlet assembly of claim 1 , wherein said nozzle bore scraper extends from said inlet aperture and slidingly couples with said inlet pipe. 8. The inlet assembly of claim 1 , wherein one of said nozzle bore scraper and said inlet pipe is slidingly received within the other. 9. The inlet assembly of claim 1 , further comprising a purge device operable to deliver a purge fluid between said nozzle bore scraper and said nozzle bore. 10. The inlet assembly of claim 1 , further comprising a secondary scraper housed within said nozzle bore and operable to reciprocate relative to said nozzle bore scraper to reduce effluent gas deposits within said nozzle bore scraper. 11. The inlet assembly of claim 10 , wherein said secondary scraper is retained within said nozzle bore, reciprocation of said nozzle bore scraper relative to said nozzle bore reciprocates said secondary scraper relative to said nozzle bore scraper to reduce effluent gas deposits within said nozzle bore scraper. 12. The inlet assembly of claim 10 , wherein said secondary scraper includes a coil spring. 13. The inlet assembly of claim 12 , wherein said coil spring has an internal diameter at a first end for retaining engagement with said lance and an external diameter at a second end which corresponds with an internal diameter of said nozzle bore scraper. 14. A method of reducing effluent gas deposits within a nozzle bore of an inlet assembly for a burner, said inlet assembly comprising a manifold having an inlet aperture and a coaxially aligned outlet aperture, said manifold having said nozzle bore which is linear, straight and cylindrical and extends along a longitudinal axis between said inlet aperture and said outlet aperture for conveying an effluent gas from an inlet pipe coupleable with said inlet aperture to said outlet aperture for delivery to a combustion chamber of said burner, said method comprising the steps of: housing a hollow nozzle bore scraper within said nozzle bore; and reciprocating said nozzle bore scraper relative to said nozzle bore using an actuator, located off-center from either the inlet of the nozzle bore, the outlet of the nozzle bore or the longitudinal axis of the nozzle bore, said nozzle bore scraper reciprocating along said longitudinal axis within said nozzle bore between a rest position and an actuated position to reduce effluent gas deposits within said nozzle bore; wherein the nozzle bore is shaped to provide an unidirectional flow of the effluent gas from the inlet aperture to the outlet aperture to reduce the likelihood of deposits occurring within the nozzle bore.