Recirculation systems for engine intake air are disclosed having a turbocharger compressor with an inlet and an outlet, a recirculation pathway connecting fluid flow from the outlet of the turbocharger compressor to fluid flow into the inlet of the turbocharger compressor, and a recirculation valve
Recirculation systems for engine intake air are disclosed having a turbocharger compressor with an inlet and an outlet, a recirculation pathway connecting fluid flow from the outlet of the turbocharger compressor to fluid flow into the inlet of the turbocharger compressor, and a recirculation valve assembly controlling fluid flow through the recirculation pathway. The recirculation valve assembly includes an actuator operating a valve coupled to an aspirator assembly that produces vacuum when the fluid flows through the recirculation pathway from the inlet to the outlet and when fluid flows through the recirculation pathway from the outlet to the inlet. Fluid flows through the recirculation pathway from the outlet to the inlet when the turbocharger generates boost. The vacuum generated by the aspirator assembly is in fluid communication with the actuator to move the valve between two or more positions.
대표청구항▼
1. A system comprising: a turbocharger compressor having an inlet and an outlet;a recirculation pathway connecting fluid flow from the outlet of the turbocharger compressor to fluid flow into the inlet of the turbocharger compressor;an aspirator assembly positioned in the recirculation pathway, wher
1. A system comprising: a turbocharger compressor having an inlet and an outlet;a recirculation pathway connecting fluid flow from the outlet of the turbocharger compressor to fluid flow into the inlet of the turbocharger compressor;an aspirator assembly positioned in the recirculation pathway, wherein the aspirator assembly produces vacuum when the fluid flow is through the recirculation pathway from the inlet to the outlet and when the fluid flow is through the recirculation pathway from the outlet to the inlet; anda recirculation valve assembly controlling fluid flow through the recirculation pathway and the aspirator assembly, the recirculation valve assembly comprising: an electropneumatic actuator operating a valve coupled to the aspirator assembly, wherein the valve is a three-way valve having a first open position to direct fluid flow through the aspirator assembly when the fluid flow is through the recirculation pathway from the inlet to the outlet, a second open position to direct fluid flow through the aspirator assembly when the fluid flow is through the recirculation pathway from the outlet to the inlet, and a closed position;wherein the vacuum generated by the aspirator assembly is ire fluid communication with a device requiting vacuum. 2. The system of claim 1, wherein the fluid flow through the recirculation pathway from the outlet to the inlet occurs when the turbocharger compressor generates boost. 3. The system of claim 2, wherein the vacuum produced during boost actuates the electropneumatic actuator to move the valve to a closed position. 4. The system of claim 1, wherein the device requiring vacuum is the electropneumatic actuator. 5. The system of claim 1, wherein the electropneumatic actuator is actuated by less than 1 ampere of current. 6. The system of claim 1, wherein the aspirator assembly further comprises a first selectable portion having a first aspirator and a second selectable portion having a second aspirator, wherein the first aspirator creates vacuum for fluid flow through the recirculation pathway from the outlet to the inlet and the second aspirator creates vacuum for fluid flow through the recirculation pathway from the inlet to the outlet. 7. The system of claim 6, further comprising: a first check valve in the first selectable portion of the recirculation pathway to prevent fluid flow into the first selectable portion when the valve directs flow through the second selectable portion; anda second check valve in the second selectable portion of the recirculation pathway to prevent fluid flow through the second selectable portion when the valve directs flow through the first selectable portion. 8. A system comprising: a turbocharger compressor having an inlet and an outlet;a recirculation pathway connecting fluid flow from the outlet of the turbocharger compressor to fluid flow into the inlet of the turbocharger compressor; anda recirculation valve assembly controlling fluid flow through the recirculation pathway, the recirculation valve assembly comprising an electropneumatic actuator operating a valve coupled to an aspirator assembly that produces vacuum when the fluid flows through the recirculation pathway from the inlet to the outlet and when the fluid flows through the recirculation pathway from the outlet to the inlet, wherein the vacuum generated by the aspirator assembly is in fluid communication with a device requiring vacuum;a reservoir in fluid communication with the aspirator assembly and the electropneumatic actuator, wherein the reservoir stores vacuum for selective activation of the electropneumatic actuator; anda control valve disposed between the reservoir and the electropneumatic actuator, wherein the control valve is activatable by an engine computer on demand to apply vacuum to the electropneumatic actuator to operate the valve. 9. A system comprising: a turbocharger compressor having an inlet and an outlet;a recirculation pathway connecting fluid flow from the outlet of the turbocharger compressor to fluid flow into the inlet of the turbocharger compressor: anda recirculation valve assembly controlling fluid flow through the recirculation pathway, the recirculation valve assembly comprising: an electropneumatic actuator operating a valve coupled to an aspirator assembly that produces vacuum when the fluid flows through the recirculation pathway from the inlet to the outlet and when the fluid flows through the recirculation pathway from the outlet to the inlet:wherein the vacuum generated by the aspirator assembly is in fluid communication with a device requiring vacuum; andwherein the valve is integrated into the aspirator assembly and is translatable between at least a first position and a second position that each provide a Venturi effect, but in opposite directions of flow through the aspirator assembly. 10. The system of claim 9, Wherein the valve comprises: a gate having a first bore and a second bore, wherein the first bore has a Venturi opening that produces vacuum when the fluid flows from the inlet to the outlet, wherein the second bore has a Venturi opening that produces vacuum when the fluid flows from the outlet to the inlet; andwherein the electropneumatic actuator operates to move the gate to place the first bore or the second bore, as selected, into alignment with the recirculation pathway to define the first position and the second position of the valve. 11. The system of claim 10, wherein the first bore and the second bore of the gate taper to be part of a Venturi tube of the aspirator assembly. 12. A system comprising: a turbocharger compressor having an inlet and an outlet;a recirculation pathway connecting fluid flow from the outlet of the turbocharger compressor to fluid flow into the inlet of the turbocharger compressor;a recirculation valve assembly controlling fluid flow through the recirculation pathway, the recirculation valve assembly comprising: a housing defining a fluid passageway therethrough, the fluid passageway comprising:a first tapering portion gradually tapering from a larger internal opening to a smaller internal opening;a second tapering portion gradually tapering from a larger internal opening to a smaller internal opening;wherein the first tapering portion and the second tapering portion converge toward one another with their smaller internal openings facing one another;a gate positioned between and in fluid communication with the first tapering portion and the second tapering portion of the housing, the gate having a first bore therethrough that includes a Venturi opening within a portion of the first bore that creates vacuum when fluid flows through the first bore and a second bore therethrough that includes a Venturi opening within a portion of the second bore that creates vacuum when fluid flows through the second bore; andan electropneumatic actuator coupled to the gate, the actuator operable to move the gate to place the first bore or the second bore, as selected, into alignment with the smaller internal openings of the first and second tapering portions, wherein the vacuum generated by the recirculation valve assembly is in fluid communication with a device requiring vacuum. 13. The system of claim 12, wherein the Venturi opening in the first bore creates a vacuum when fluid flows from the first tapering portion to the second tapering portion of the fluid passageway and the Venturi opening in the second bore creates a vacuum when fluid flows from the second tapering portion to the first tapering portion of the fluid passageway. 14. The system of claim 13, wherein the fluid flows through the recirculation pathway from the outlet to the inlet when the turbocharger compressor generates boost, and the vacuum produced during boost actuates the electropneumatic actuator to move the valve to a closed position. 15. The system of claim 12, wherein the electropneumatic actuator is actuated by less than 1 ampere of current. 16. A valve assembly for creating vacuum comprising: a first flow path having a first aspirator that creates vacuum for fluid flow through the first flow path;a second flow path having a second aspirator that creates vacuum for fluid flow through the second flow path;a valve in fluid communication with an inlet, the first flow path, and the second flow path; andan actuator coupled to the valve and operable to actuate the valve to place the first flow path or the second flow path, as selected, in fluid communication with the inlet, wherein the vacuum generated by the valve assembly is in fluid communication with a device requiring vacuum;wherein the valve comprises: a housing having a first inlet, a second inlet, a first outlet in fluid communication with the first flow path, a second outlet in fluid communication with the second flow path, and a gate passageway; anda gate translatable within the gate passageway, the gate having a bore therethrough, and wherein the actuator is coupled to the gate to translate the gate between a first position, in which the bore fluidly connects the first inlet to the first outlet, and a second position, in which the bore fluidly connects the second inlet to the second outlet. 17. The valve assembly of claim 16, wherein the first aspirator creates vacuum for fluid flow through the first flow path in a first direction relative to the valve, and the second aspirator creates vacuum for fluid flow through the second flow path in a second direction opposite the first direction. 18. The valve assembly of claim 16, further comprising: a first check valve disposed in the first flow path to prevent fluid flow therethrough when the valve is positioned for fluid flow through the second flow path; anda second check valve disposed in the second flow path to prevent fluid flow therethrough when the valve is positioned for fluid flow through the first flow path. 19. The valve assembly of claim 16, wherein the actuator actuates the gate to a third position in which the bore is not aligned with either the first flow path or the second flow path. 20. The valve assembly of claim 16, wherein the device requiring vacuum is the actuator.
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