Claims
- 1. An engine intake system through which ambient air enters a combustion engine to be combusted with hydrocarbon fuel in combustion chamber space of the engine for running the engine and which comprises:
a walled main intake passageway having an upstream end communicated to ambient atmosphere and a downstream end communicated to the engine combustion chamber space; and an imperforate walled pit that encloses an interior space disposed at an elevation vertically below an imperforate wall of the main passageway, that has a first entrance communicating the interior space to ambient atmosphere, and that has a second entrance communicating the interior space to the main intake passageway through the imperforate wall of the main passageway for enabling gaseous hydrocarbon that is heavier than air to fall into the interior space upon encountering the second entrance of the pit when migrating upstream within the main intake passageway toward the second entrance of the pit from the downstream end of the main passageway.
- 2. An engine intake system as set forth in claim 1 wherein the first entrance communicates the interior space to ambient atmosphere through the imperforate wall of the main passageway at a location along the main passageway that is upstream of the location of the second entrance.
- 3. An engine intake system as set forth in claim 2 including a valve through which the first entrance communicates with the main passageway and which is operable to selectively restrict communication of the interior space to ambient atmosphere via the first entrance.
- 4. An engine intake system as set forth in claim 3 wherein the second entrance comprises an orifice that has an effective transverse area for flow through the second entrance chosen in relation to the volume of the interior space to be effective, when the valve is maximally restricting communication of the interior space to ambient atmosphere, to cause the pit to function as a Helmholtz resonator for flow through the main passageway when the engine is running.
- 5. An engine intake system as set forth in claim 4 including a medium disposed within the interior space for collecting gaseous hydrocarbon that has fallen into the pit.
- 6. An engine intake system as set forth in claim 3 including a medium disposed within the interior space for collecting gaseous hydrocarbon that has fallen into the pit.
- 7. An engine intake system as set forth in claim 2 including a medium disposed within the interior space for collecting gaseous hydrocarbon that has fallen into the pit.
- 8. An engine intake system as set forth in claim 1 including a medium disposed within the interior space for collecting gaseous hydrocarbon that has fallen into the pit.
- 9. An engine intake system as set forth in claim 1 including a valve through which the first entrance communicates with ambient atmosphere and which is operable to selectively restrict communication of the interior space to ambient atmosphere via the first entrance.
- 10. An engine intake system as set forth in claim 9 wherein the second entrance comprises an orifice that has an effective transverse area for flow through the second entrance chosen in relation to the volume of the interior space to be effective, when the valve is maximally restricting communication of the interior space to ambient atmosphere, to cause the pit to function as a Helmholtz resonator for flow through the main passageway when the engine is running.
- 11. An engine intake system as set forth in claim 10 including a medium disposed within the interior space for collecting gaseous hydrocarbon that has fallen into the pit.
- 12. An engine intake system as set forth in claim 9 including a medium disposed within the interior space for collecting gaseous hydrocarbon that has fallen into the pit.
- 13. An engine intake system through which ambient air enters a combustion engine to be combusted with hydrocarbon fuel in combustion chamber space of the engine for running the engine and which comprises:
a walled main intake passageway having an upstream end communicated to ambient atmosphere and a downstream end communicated to the engine combustion chamber space; an imperforate walled pit that encloses an interior space disposed at an elevation vertically below a bottom wall in the main passageway containing an entrance opening into the pit for enabling gaseous, heavier-than-air, hydrocarbon that is migrating upstream within the main intake passageway from the downstream end of the main passageway along the bottom wall toward the entrance opening to fall through the entrance opening into the pit upon encountering the entrance opening, and; and a medium disposed within the interior space for collecting gaseous hydrocarbon that has fallen through the entrance opening into the pit.
- 14. An engine intake system as set forth in claim 13 wherein the pit and the entrance opening are constructed and arranged to also function as a resonator for flow through the main passageway when the engine is running.
- 15. An engine intake system as set forth in claim 14 including an additional entrance opening into the pit and a valve that is operable to selectively restrict communication of the interior space to ambient atmosphere via the additional entrance opening.
- 16. An engine intake system as set forth in claim 13 including an additional entrance opening into the pit for communicating the interior space to ambient atmosphere via the additional entrance opening.
- 17. An engine intake system as set forth in claim 16 including a valve that is operable to selectively restrict communication of the interior space to ambient atmosphere via the additional entrance opening.
- 18. An engine intake system through which ambient air enters a combustion engine to be combusted with hydrocarbon fuel in combustion chamber space of the engine for running the engine and which comprises:
a walled main intake passageway having an upstream end communicated to ambient atmosphere and a downstream end communicated to the engine combustion chamber space; an imperforate walled resonator that is in communication with the main passageway for tuning the intake system to the engine and that includes an interior space disposed at an elevation vertically below a bottom wall in the main passageway containing an entrance opening into the interior space for enabling gaseous, heavier-than-air, hydrocarbon that migrates upstream within the main intake passageway from the downstream end of the main passageway along the bottom wall toward the entrance opening when the engine is not running to fall through the entrance opening into the interior space upon encountering the entrance opening, and; and a medium disposed within the interior space for collecting gaseous hydrocarbon that has fallen through the entrance opening into the interior space.
- 19. An engine intake system as set forth in claim 18 wherein the entrance opening comprises an orifice that has an effective transverse area for flow through the entrance opening chosen in relation to the volume of the interior space to be effective to allow the interior space to function as a Helmholtz resonator for flow through the main passageway when the engine is running.
- 20. An air intake module for a hydrocarbon-fueled combustion engine comprising:
a walled main intake passageway having an upstream end adapted to be communicated to ambient atmosphere and a downstream end adapted to be communicated to engine combustion chamber space; an imperforate walled pit that encloses an interior space disposed at an elevation vertically below a bottom wall in the main passageway containing an entrance opening into the pit for enabling gaseous, heavier-than-air, hydrocarbon that migrates upstream within the main intake passageway from the downstream end of the main passageway along the bottom wall toward the entrance opening when the engine is not running to fall through the entrance opening into the pit upon encountering the entrance opening, and; and a medium disposed within the interior space for collecting gaseous hydrocarbon that has fallen through the entrance opening into the pit.
- 21. An air intake module as set forth in claim 20 wherein the pit and the entrance opening are constructed and arranged to also function as a resonator for flow through the main passageway.
- 22. An air intake module as set forth in claim 21 including an additional entrance opening into the pit and a valve that is operable to selectively restrict communication of the interior space to ambient atmosphere via the additional entrance opening.
- 23. An air intake module as set forth in claim 22 wherein the additional entrance opening communicates the interior space to ambient atmosphere through a wall of the main passageway at a location along the main passageway that is upstream of the location of the first-mentioned entrance opening along the main passageway.
- 24. An air intake module as set forth in claim 20 including an additional entrance opening to the pit for communicating the interior space to ambient atmosphere via the additional entrance opening.
- 25. An air intake module as set forth in claim 24 including a valve that is operable to selectively restrict communication of the interior space to ambient atmosphere via the additional entrance opening.
REFERENCE TO A RELATED APPLICATION AND PRIORITY CLAIM
[0001] This application derives from the following commonly owned copending patent application, the priority benefit of which is expressly claimed: Provisional Application Ser. No. 60/294,519 filed on or about May 31, 2001 in the names of Gary M. Everingham and Andre Veionotte and entitled HYDROCARBON PIT FOR REMOVING HYDROCARBON EMISSIONS IN AN INDUCTION SYSTEM.
Provisional Applications (1)
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Number |
Date |
Country |
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60294519 |
May 2001 |
US |