Fuel nozzle for a rotary throttle valve carburetor

The invention claimed is: 1. A rotary throttle valve carburetor, comprising: a main body having a main bore with an inlet into which air enters the main bore and an outlet from which air and fuel exit the main bore, the main body also has a valve bore that intersects the main bore and a nozzle opening that communicates with the main bore; a throttle valve having a valve body received at least partially within the valve bore so that the valve body rotates about an axis and moves axially relative to the main body, the throttle valve having a valve passage therethrough which is more aligned with the main bore in one position of the throttle valve than in another position of the throttle valve; and a fuel nozzle extending through the nozzle opening and into the valve passage, the fuel nozzle having a fuel outlet received within the valve passage, an inner surface that defines part of a fuel passage through which fuel flows in the nozzle and to the fuel outlet, and the fuel nozzle has an outer surface that includes a discontinuous portion having a varying radial dimension within the portion of the fuel nozzle that is within the valve passage; and wherein the nozzle has a rear surface facing in the opposite direction or within 20 degrees of the opposite direction as the fuel outlet, where the rear surface is parallel or within 20 degrees of parallel to the direction of air flow through the main bore. 2. The carburetor of claim 1 wherein the discontinuous portion is located below the fuel outlet relative to the direction of the force of gravity. 3. The carburetor of claim 1 wherein at least a portion of the discontinuous portion is located between the fuel outlet and the outlet of the main bore relative to the direction of the flow of fluid through the main bore. 4. The carburetor of claim 1 wherein the nozzle includes at least one inclined side surface that extends from a first side near the fuel outlet to a second side joined to the rear surface, and wherein the at least one side surface is inclined at an angle of between 20 and 60 degrees relative to the direction of the flow of fluid through the main bore. 5. The carburetor of claim 4 wherein the discontinuous portion is formed on the at least one side surface. 6. The carburetor of claim 4 wherein the nozzle includes two side surfaces with a first side surface arranged with the second side upstream of the first side relative to the direction of air flow through the main bore, and a second side surface arranged with the first side upstream of the second side relative to the direction of air flow through the main bore. 7. The carburetor of claim 1 wherein the fuel outlet is oriented perpendicular to or within 30 degrees of perpendicular to a centerline of the main bore. 8. The carburetor of claim 1 wherein the discontinuous portion has at least a portion that is oriented at an angle of less than 60 degrees relative to a centerline of the main bore. 9. The carburetor of claim 1 wherein the discontinuous portion is within 45 degrees circumferentially of the fuel outlet. 10. The carburetor of claim 1 wherein a portion of the outer surface of the fuel nozzle is located within the valve passage and is cylindrical or frustoconical, and oriented perpendicular to or within fifteen degrees of perpendicular to the centerline of the main bore, and the discontinuous portion extends radially outwardly from the outer surface and covers less than ¼ of the circumference of the outer surface. 11. The carburetor of claim 1 wherein the discontinuous portion is formed in a piece of material that is formed separately from a main body of the nozzle, wherein the main body of the nozzle defines the fuel passage. 12. The carburetor of claim 5 wherein the at least one side surface is formed in a piece of material that is formed separately from a main body of the nozzle, wherein the main body of the nozzle defines the fuel passage. 13. A rotary throttle valve carburetor, comprising: a main body having a main bore with an inlet into which air enters the main bore and an outlet from which air and fuel exit the main bore, the main body also has a valve bore that intersects the main bore and a nozzle opening that communicates with the main bore; a throttle valve having a valve body received at least partially within the valve bore so that the valve body rotates about an axis and moves axially relative to the main body, the throttle valve having a valve passage therethrough which is more aligned with the main bore in one position of the throttle valve than in another position of the throttle valve; and a fuel nozzle extending through the nozzle opening and into the valve passage, the fuel nozzle having a fuel outlet received within the valve passage, an inner surface that defines part of a fuel passage through which fuel flows in the nozzle and to the fuel outlet, and the fuel nozzle has an outer surface that includes a discontinuous portion having a varying radial dimension within the portion of the fuel nozzle that is within the valve passage, and wherein the discontinuous portion is defined at least in part by a projection that extends outwardly from an adjacent portion of the outer surface of the nozzle wherein the projection has a side that extends radially from the fuel nozzle, relative to an axis of the fuel nozzle, and an angle between the side of the projection and the outer surface of the fuel nozzle is at least 60 degrees. 14. The carburetor of claim 13 wherein the angle between the side of the projection and the outer surface of the fuel nozzle is 90 degrees. 15. The carburetor of claim 13 wherein the discontinuous portion includes at least one projection that is angled circumferentially with a first portion of the projection located closer to the fuel outlet than a second portion of the projection spaced axially from the first portion.