A wastegate for a turbocharger wherein the valve is provided with a horn to provide a more progressive, optimally near linear, curve of turbocharger boost-to-valve opening than possible with the typical flat wastegate valve. The addition of a three-dimensional horn in the flow path is a far more cos
A wastegate for a turbocharger wherein the valve is provided with a horn to provide a more progressive, optimally near linear, curve of turbocharger boost-to-valve opening than possible with the typical flat wastegate valve. The addition of a three-dimensional horn in the flow path is a far more cost-effective solution to acquire linear flow than an approach involving very finite, accurate control of the valve position.
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1. A wastegate for a turbocharged internal combustion engine system, comprising a wastegate housing having a passage defining a path for the flow of exhaust gases from an inlet end of the passage to an outlet end of the passage, anda valve (31) mounted to the passage for movement between a closed po
1. A wastegate for a turbocharged internal combustion engine system, comprising a wastegate housing having a passage defining a path for the flow of exhaust gases from an inlet end of the passage to an outlet end of the passage, anda valve (31) mounted to the passage for movement between a closed position wherein said valve is seated in an orifice (32) and blocks the flow of exhaust gases through the passage and an open position that allows the flow of exhaust gases through the passage, andan actuator controlling the movement of the valve,wherein the valve (31) includes a horn (90) extending in the direction of valve closure, wherein said horn has a base diameter and an elevation measured from said base, wherein the elevation of the horn (90) measured in the direction of valve closure is equal to or greater than one-half the diameter of the base, and wherein movement of said horn from said closed toward said open position progressively de-restricts said orifice. 2. The wastegate as in claim 1, wherein said horn (90) tapers outward from said base. 3. The wastegate as in claim 1, wherein the elevation of the horn (90) measured in the direction of valve closure is equal to or greater than the diameter of the base. 4. The wastegate as in claim 1, wherein said horn (90) includes at least one through-going bore. 5. The wastegate as in claim 1, wherein said horn (90) includes grooves or ridges over at least a part of the surface of the horn oriented in the direction of movement of the horn. 6. The wastegate as in claim 1, wherein the cross-sectional area of flow measured at said orifice progressively increases as said valve progressively moves from said closed toward said open position. 7. The wastegate as in claim 1, wherein said horn progressively de-restricts said orifice as said valve is moved from said closed toward said open position. 8. The wastegate as in claim 1, wherein said wastegate housing inlet end is in communication with exhaust gas flow upstream of a turbocharger, and said outlet end of said housing is in communication with exhaust gas flow downstream of said turbocharger. 9. A wastegate for a turbocharged internal combustion engine system, comprising a wastegate housing having a passage defining a path for the flow of exhaust gases from an inlet end of the passage to an outlet end of the passage, anda swing gate pivotally mounted to the passage for movement between a closed position that blocks the flow of exhaust gases through the passage and an open position that allows the flow of exhaust gases through the passage, andan actuator connected to the wastegate housing for controlling the movement of the swing gate,wherein the swing gate includes a horn extending from said swing gate generally in the direction of valve closure, wherein said horn has a base diameter and an elevation measured from said base, wherein the elevation of the horn perpendicular to the base is equal to or greater than one-half the diameter of the base, and wherein movement of said horn from said closed toward said open position progressively de-restricts said orifice. 10. A wastegate exhaust gas control system for an internal combustion engine, said internal combustion engine including an intake manifold and an exhaust manifold and further comprising: an exhaust duct connected to said exhaust manifold and bifurcated at a branch point into a first and second branch;said first branch of said duct connected to a turbocharger;said second branch of said duct connected to atmosphere, optionally via an exhaust purifier;a wastegate disposed in said exhaust duct at said branch point; andmeans for controlling said wastegate for directing variable proportions of said exhaust between said first and second branches of said duct,wherein said wastegate comprises a valve (31) moveable between an open and a closed position, and an orifice defined by a seat (32) dimensioned to receive said valve when in the closed position, wherein said valve includes a horn (90) extending into said orifice when said valve is in the closed position. 11. The system as in claim 10, wherein said horn has a base diameter and an elevation measured from said base, and wherein said horn tapers outward from said base. 12. The system as in claim 10, wherein said horn has a base diameter and an elevation measured from said base, and wherein the elevation of the horn perpendicular to the orifice is equal to or greater than the diameter of the base. 13. The system as in claim 10, wherein said horn has a base diameter and an elevation measured from said base, and wherein the elevation of the horn perpendicular to the base is equal to or greater than one-half the diameter of the base. 14. The system as in claim 10, wherein the cross-sectional area of flow measured at said orifice progressively increases as said valve progressively moves from said closed to said open position. 15. The system as in claim 10, wherein said horn progressively de-restricts said orifice as said valve is moved from said closed toward said open position.
Hartman, Thomas A.; Hartman, Brian T., Fixed cone sleeve valve having ribs downstream of the gate for supporting the cone and other components of the valve.
Wang, Yue-Yun; Li, Xiaobin (Sharon); Gao, Hongxun; Haskara, Ibrahim, Model-based control of airpath pressure limits by modulating a turbo charger by-pass valve and a variable-geometry turbine.
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