Claims
- 1. An apparatus for improving the fuel efficiency of an internal combustion engine, said engine having a plurality of cylinders with pistons housed therein, said pistons cooperating with the cylinders to define a plurality of combustion chambers, said engine having an intake valve opening into each of said combustion chambers and an intake port for each intake valve, said engine being operably connected to a vehicle having a gasoline tank with a fill pipe for admitting gasoline into the tank to a predetermined level, comprising:
- means for admitting a supply of air into said gasoline tank;
- a fuel supply line communicating at one end with said gasoline tank above said predetermined level to receive a flow of air-and-gasoline vapor mixture from the tank;
- a safety cannister in said fuel supply line for collecting liquid gasoline from said flow;
- valving communicating with said fuel supply line to receive said flow and operable to divide the flow into a plurality of separate flows for said plurality of cylinders; and
- a plurality of conduits directly connected to said valving to receive said separate flows, said conduits including nozzles positioned adjacent to said intake valves to deliver each of the flows directly to the intake port of the associated intake valve.
- 2. An apparatus for improving the fuel efficiency of an internal combustion engine, said engine having a plurality of cylinders with pistons housed therein, said pistons cooperating with the cylinders to define a plurality of combustion chambers, said engine having an intake valve opening into each of said combustion chambers and an intake port for each intake valve, said engine being operably connected to a vehicle having a gasoline tank with a fill pipe for admitting gasoline into the tank to a predetermined level, comprising:
- means for admitting a supply of air into said gasoline tank;
- a fuel supply line communicating at one end with said gasoline tank above said predetermined level to receive a flow of air-and-gasoline vapor mixture from the tank;
- valving communicating with said fuel supply line to receive said flow and operable to divide the flow into a plurality of separate flows for said plurality of cylinders; and
- a plurality of conduits directly connected to said valving to receive said separate flows, said conduits including nozzles positioned adjacent to said intake valves to deliver each of the flows directly to the intake port of the associated intake valve, wherein said valving comprises:
- at least one valve body having a main passage for receiving the air-and-gasoline vapor mixture from said supply line, a predetermined number of outlet ports each communicating with said main passage to receive separate flows of the mixture, conduits from the outlet ports to the nozzles, and means for individually adjusting and balancing the flows through the ports.
- 3. Apparatus for improving the fuel efficiency of a vehicle having a gasoline tank adapted to be filled with gasoline to a predetermined level, and an engine having at least one intake port for receiving an air-and-gasoline vapor mixture to power the vehicle, comprising:
- means for admitting air into the gasoline tank to form the air-and-gasoline vapor mixture in the ullage space in the tank above the gasoline;
- a fuel supply line communicating at one end with the ullage space to receive the vapor mixture therefrom and having an opposite end for delivering the vapor mixture to the engine, wherein said fuel supply line has a safety cannister therein for collecting liquid gasoline from said vapor mixture; and
- valve assembly means communicating with said opposite end of the fuel supply line to receive the vapor mixture therefrom and deliver the same to the engine, including a conduit terminating in an outlet adjacent to the intake port to deliver the mixture directly to the intake port.
- 4. Apparatus for improving the fuel efficiency of a vehicle having a gasoline tank adapted to be filled with gasoline to a predetermined level, and an engine having at least one intake port for receiving an air-and-gasoline vapor mixture to power the vehicle, comprising:
- means for admitting air into the gasoline tank to form the air-and-gasoline vapor mixture in the ullage space in the tank above the gasoline;
- a fuel supply line communicating at one end with the ullage space to receive the vapor mixture therefrom and having an opposite end for delivering the vapor mixture to the engine; and
- valve assembly means communicating with said opposite end of the fuel supply line to receive the vapor mixture therefrom and deliver the same to the engine, including a conduit terminating in an outlet adjacent to the intake port to deliver the mixture directly to the intake port;
- wherein the engine is of the type having a plurality of cylinders each having an intake valve including an intake port, and wherein said valve assembly means comprises valving for receiving the vapor mixture from the fuel supply line and dividing the mixture into a plurality of flows, one for each of the intake ports, and a plurality of conduits each terminating in a nozzle for directing the flow into the intake port of the associated cylinder;
- further including adjustable valves in said valving for balancing the flows to said conduits.
- 5. A method for increasing the fuel efficiency of an engine supplied with gasoline from a gasoline tank and having a plurality of cylinders each having an intake valve with an intake port, comprising the steps of:
- supplying air and gasoline to the tank and forming an air-and-gasoline vapor mixture in the tank above the gasoline therein;
- withdrawing the vapor mixture from the tank and carrying the mixture to the engine;
- dividing the vapor mixture into a plurality of flows, one for each cylinder;
- balancing the flows to each of said cylinders; and
- delivering the flows to the cylinders by releasing the flows close to the intake ports to be drawn directly therein.
- 6. An apparatus, comprising:
- a vehicle;
- a gasoline tank with a fill pipe for admitting gasoline into the tank to a predetermined level in said vehicle;
- an internal combustion engine operably connected to said vehicle, said engine having a plurality of cylinders with pistons housed therein, said pistons cooperating with the cylinders to define a plurality of combustion chambers, said engine having an intake valve opening into each of said combustion chambers and an intake port for each intake valve;
- a vent pipe for admitting a supply of air into said gasoline tank;
- a fuel supply line communicating at one end with said gasoline tank above said predetermined level to receive a flow of air-and-gasoline vapor mixture from the tank;
- a safety cannister in said fuel supply line for collecting liquid gasoline from said flow;
- valving communicating with said fuel supply line to receive said flow and operable to divide the flow into a plurality of separate flows for said plurality of cylinders; and
- a plurality of conduits directly connected to said valving to receive said separate flows, said conduits including nozzles positioned adjacent to said intake valves to deliver each of the flows directly to the intake port of the associated intake valve.
- 7. Apparatus as defined in claim 1 wherein said means for admitting air into said tank comprises a vent pipe communicating with the interior of said tank from the outside thereof.
- 8. Apparatus as defined in claim 7 wherein said vent pipe extends into said tank and has a lower end near the bottom of the tank.
- 9. Apparatus as defined in claim 8 further including an aerator on said vent pipe disposed in said tank below said predetermined level so as to be immersed in the gasoline therein.
- 10. Apparatus as defined in claim 1 wherein said cannister is a liquid container having a top with an inlet and an outlet for the fuel supply line.
- 11. Apparatus as defined in claim 2 wherein said adjusting and balancing means comprise adjustable needle valves for said ports.
- 12. Apparatus as defined in claim 2 wherein said nozzles comprise heat-resistant tubes having inner end portions directed toward the intake ports and positioned close to the ports to discharge the air-and-gasoline vapor mixture directly into the intake valve.
- 13. Apparatus as defined in claim 3 wherein the engine is of the type having a plurality of cylinders each having an intake valve including an intake port, and wherein said valve assembly means comprises valving for receiving the vapor mixture from the fuel supply line and dividing the mixture into a plurality of flows, one for each of the intake ports, and a plurality of conduits each terminating in a nozzle for directing the flow into the intake port of the associated cylinder.
- 14. Apparatus as defined in claim 13 wherein said conduits include tubes of heat-resistant material and having inner outlet ends positioned close to the intake ports.
- 15. Apparatus as defined in claim 3 further including a safety cannister in said supply line for collecting liquid gasoline.
- 16. The method defined in claim 5 wherein the delivering step is performed by conducting the flows into the engine and discharging each flow close to and in the direction of the intake port.
- 17. An apparatus according to claim 6, further comprising an aerator on said vent pipe disposed in said tank below said predetermined level so as to be immersed in the gasoline therein.
- 18. An apparatus according to claim 6, wherein said valving comprises:
- at least one valve body having a main passage for receiving the air-and-gasoline vapor mixture from said supply line, a predetermined number of outlet ports each communicating with said main passage to receive separate flows of the mixture, conduits from the outlet ports to the nozzles, and means for individually adjusting and balancing the flows through said outlet ports.
- 19. An apparatus according to claim 6, wherein said nozzles comprise heat-resistant tubes having inner end portions directed toward the intake ports and positioned close to the intake ports to discharge the air-and-gasoline vapor mixture directly into the intake valve.
CROSS-REFERENCE TO RELATED APPLICATION
This is a continuation-in-part of application Ser. No. 08/232,943, filed Apr. 22, 1994, which is incorporated herewith by reference, now U.S. Pat. No. 5,522,368.
US Referenced Citations (32)
Foreign Referenced Citations (1)
Number |
Date |
Country |
8301486 |
Apr 1983 |
WOX |
Non-Patent Literature Citations (1)
Entry |
Kirk-Othmer, "Gasoline and Other Motor Fuels", Encyclopedia of Chemical Technology, Third Edition, vol. 11, pp. 652-655, 682-685. |
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
232943 |
Apr 1994 |
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