Supplementary air assembly for an engine

What is claimed is: 1. An internal combustion engine comprising: a crankcase including a crankshaft; at least one cylinder coupled to the crankcase and defining an internal combustion chamber; an air intake system comprising an air inlet and an intake port of the at least one cylinder; a throttle body assembly having a throttle valve coupled to the air inlet and including a throttle plate; a supplementary air inlet fluidly coupled to the intake port, and configured to receive a flow of air from the air intake system from a location downstream of the throttle plate of the at least one cylinder, and the flow of air is directed into the intake port of the at least one cylinder for combustion within the combustion chamber and the flow of air is controlled and modulated by the position of the throttle plate; wherein the throttle body having a plurality of apertures extending through a wall of the throttle body, wherein at least a portion of the plurality of apertures are positioned downstream from the throttle plate when the throttle plate is in the fully closed position, and wherein a portion of the apertures are configured to receive air when the throttle plate is in a first position and each of the apertures receives air when the throttle plate is in a second position. 2. The engine of claim 1 , wherein the flow of air is received through a supplementary air tube having first and second ends. 3. The engine of claim 2 , wherein the first end of the supplementary air tube is positioned to direct air flow into the intake port and a second end is positioned adjacent to the throttle valve. 4. The engine of claim 3 , wherein the supplementary air tube is positioned on a single cylinder. 5. The engine of claim 1 , wherein at least a portion of the plurality of apertures are positioned upstream from the throttle plate when the throttle plate is in the fully closed position. 6. The engine of claim 1 , wherein the at least one cylinder includes a plurality of cylinders, and a first supplementary air tube extends between a supplementary air inlet of one of the cylinders and an air inlet of another cylinder, and a second supplementary air tube extends between a supplementary air inlet of one of the cylinders and an air inlet of another cylinder. 7. The engine of claim 6 , further comprising a third supplementary air tube which extends between a supplementary air inlet of one of the cylinders and an air inlet of another cylinder. 8. The engine of claim 1 , further comprising a one-way valve positioned for directional flow of air. 9. The engine of claim 1 , wherein operation of the throttle body assembly is electronically controlled by an engine control unit. 10. The engine of claim 1 , wherein the at least one cylinder includes a plurality of cylinders, and a first end of a first supplementary air tube is fluidly coupled to a supplementary air inlet of one cylinder and a second end of the first supplementary air tube is fluidly coupled to a supplementary air inlet of another cylinder. 11. The engine of claim 10 , wherein the first and second ends of the first supplementary air tube are positioned in respective intake ports of the two cylinders. 12. The engine of claim 11 , wherein the engine is a V-twin configuration. 13. The engine of claim 11 , wherein the at least one cylinder further includes at least a third cylinder and a fourth cylinder, and a first end of a second supplementary air tube is fluidly coupled to a supplementary air inlet of the third cylinder and a second end of the second supplementary air tube is fluidly coupled to a supplementary air inlet of the fourth cylinder. 14. The engine of claim 13 , wherein the first and second ends of the second supplementary air tube are positioned in respective intake ports of the third and fourth cylinders. 15. The engine of claim 14 , wherein a length of the second supplementary air tube is greater than a length of the first supplementary air tube. 16. An internal combustion engine, comprising: a crankcase including a crankshaft; at least one cylinder coupled to the crankcase and having an intake port and the at least one cylinder defining an internal combustion chamber; a throttle body assembly having a throttle valve coupled to an air inlet of the at least one cylinder and including a throttle plate; a supplementary air inlet fluidly coupled to the intake port, wherein the supplementary air inlet is configured to receive a flow of air from a location downstream of the throttle plate of the at least one cylinder, and the flow of air is directed into the intake port of the at least one cylinder for combustion within the combustion chambers wherein the throttle body includes a plurality of apertures extending through a wall of the throttle body and open into the air inlet adjacent to the throttle plate, and wherein at least a portion of the plurality of apertures are positioned downstream from the throttle plate when the throttle plate is in the fully closed position, and wherein a portion of the apertures are configured to receive air when the throttle plate is in a first position and each of the apertures receives air when the throttle plate is in a second position. 17. The engine of claim 16 , wherein the flow of air is received through a supplementary air tube having first and second ends. 18. The engine of claim 17 , wherein the first end of the supplementary air tube is positioned to direct air flow into the intake port and a second end is positioned adjacent to the throttle valve. 19. The engine of claim 18 , wherein the first and second ends of the first supplementary air tube are positioned in respective intake ports of the two cylinders. 20. The engine of claim 19 , wherein the engine is a V-twin configuration. 21. The engine of claim 17 , wherein the supplementary air tube is positioned on a single cylinder. 22. The engine of claim 16 , wherein the flow of air received within the supplementary air inlet is controlled by movement of the throttle plate. 23. The engine of claim 16 , wherein operation of the throttle body assembly is electronically controlled by an engine control unit. 24. The engine of claim 16 , wherein the at least one cylinder includes a plurality of cylinders and a first supplementary air tube extends between a supplementary air inlet of one of the cylinders and an air inlet of another cylinder, and a second supplementary air tube extends between a supplementary air inlet of one of the cylinders and an air inlet of another cylinder. 25. The engine of claim 24 , further comprising a third supplementary air tube which extends between a supplementary air inlet of one of the cylinders and an air inlet of another cylinder. 26. The engine of claim 16 , further comprising a one-way valve positioned for directional flow of air. 27. The engine of claim 16 , wherein the at least one cylinder includes a plurality of cylinders, and a first end of a first supplementary air tube is fluidly coupled to a supplementary air inlet of one cylinder and a second end of the first supplementary air tube is fluidly coupled to a supplementary air inlet of another cylinder. 28. The engine of claim 16 , wherein the at least one cylinder further includes at least a third cylinder and a fourth cylinder, and a first end of a second supplementary air tube is fluidly coupled to a supplementary air inlet of the third cylin