Internal-combustion engines – Charge forming device – Heating of combustible mixture
Reexamination Certificate
2002-11-12
2004-07-06
McMahon, Marguerite (Department: 3747)
Internal-combustion engines
Charge forming device
Heating of combustible mixture
C123S525000, C123S538000, C123S568110, C123S549000
Reexamination Certificate
active
06758194
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to a parallel vapor/liquid fuel system and a fuel vaporization apparatus for an internal combustion engine. More specifically, when the parallel vaporized fuel system is applied to vehicles, vaporized fuel is provided for general driving and liquid fuel is supplied as needed for immediate and heavy acceleration. In this manner the parallel vaporized fuel system provides the improved efficiency of a vapor fuel system and the throttle response of a liquid fuel system without the need to store large quantities of vaporized fuel.
BACKGROUND OF THE INVENTION
Since the invention of the gasoline engine various attempts aimed at improving the efficiency of fuel systems have been made. It is well known in the prior art to provide fuel in a liquid form to a moving air stream for delivery to an internal combustion engine.
Carburetors were once standard for internal combustion engines. Carburetors use atomizing nozzles or jets which at least partially atomize the liquid fuel supplied to the engine. The nozzles aim the fuel at the throat of a venturi which, due to the sudden drop of pressure in the venturi, causes the droplets to break into small particles of liquid fuel. The small droplets of liquid fuel are then drawn into the cylinders of the engine for combustion.
Fuel injection is the current standard for supplying liquid fuel to gasoline engines. Electrical pulses provided by the on board computer cause the injectors to force liquid fuel through a nozzle. The nozzle breaks up the liquid fuel into small droplets. Some injectors aim their spray at a venturi for further atomization, others directly inject their spray into the intake manifold or combustion chamber.
While fuel injectors are generally capable of atomizing liquid fuel better than a carburetor, they still create small droplets of fuel. Small droplets of fuel do not burn completely and unburned fuel is discharged into the atmosphere as a pollutant.
Devices of the prior art have attempted to overcome the problems discussed above by increasing the vaporization of the liquid fuel. Increased vaporization can be accomplished in a number of ways, including various mechanical means such as screens. Other devices use heat to vaporize the fuel. The prior art contains a substantial number of suggestions directed to vaporizing liquid fuels with heat for use in an internal combustion engine. These solutions have generally centered around using the exhaust gases of the engine as a source of heat for accomplishing vaporization.
When compared to an engine operating from liquid fuel, an engine operating on vaporized fuel offers increased fuel economy and lower emissions. To get maximum economy, the prior art generally concentrates on operating an engine entirely on a vaporized liquid fuel such as gasoline or methanol. However, there is an unavoidable delay associated with vaporizing a liquid fuel, a delay that can cause problems when immediate throttle response is required. Numerous situations occur when operating a vehicle that require an immediate response time, e.g., heavy acceleration. While these situations only account for a small amount of total driving time, the delay associated with vaporizing a liquid fuel requires vaporization systems to be overbuilt or maintain a relatively large reserve supply of fuel vapor for acceptable operation. Overbuilt systems rely on excessive heat or large vaporizing apparatus to reduce response times. Reserve supplies of vaporized gasoline mixed with air are extremely volatile and may result in dangerous explosions.
A further problem associated with the overbuilt systems that has not been adequately addressed by the prior art involves the recognition that gasoline can be expected to completely vaporize at temperatures above about 425° F. The temperature of exhaust gases can be substantially higher than this value. Overheating of the fuel may result in fractionation of the fuel which causes the formation of undesired gums and tars.
Accordingly, a cost effective and parallel vaporized fuel system capable of providing the economical and emission reduction benefits of a vapor fuel system and the throttle response of a liquid fuel system that can be easily installed on new as well as existing engines with minimal modification of the original fuel system would satisfy a long felt need in the art.
DESCRIPTION OF THE PRIOR ART
A number of prior art systems exist for vaporizing liquid fuel. Most of the systems utilize hot exhaust gases or electrical elements to vaporize the fuel while others use a combination of both exhaust and electrical elements.
U.S. Pat. No. 5,947,091 to Krohn et al. discloses a fuel injector having an internally mounted heating element. The device is aimed at reducing emissions during cold engine start and warm-up phases. During these phases fuel is vaporized or partially vaporized as it passes through the injector and directly into the combustion chamber. The patent also discloses the possibility of continuous operation by directing hot exhaust gases through an optional gas channel that surrounds the body of the injector. Fuel is vaporized only during low fuel flow, during high fuel flow the fuel is only partially vaporized or heated before entering the combustion chamber. The patent fails to teach or suggest a parallel fuel system; the phase of the fuel entering the combustion chamber is dependent on the quantity of fluid flowing through the device.
U.S. Pat. No.4,926,831 to Earl discloses a fuel vaporization apparatus in which fuel is vaporized before it enters the internal combustion engine by being fed through two combination vaporization chamber/exhaust manifolds through which engine exhaust passes. The device is aimed at providing vaporized fuel for normal and heavy acceleration. A single heat exchange plate separates the vaporization chamber and the exhaust manifold. An electric fuel pump provides liquid fuel to foggers that spray fuel into the vapor chambers. An air pump provides air to the vapor chambers so that upon depression of the accelerator pedal the vaporized fuel will flow through the carburetor of the engine. The engine is started on liquid fuel, but after the vaporizing chamber reaches a preset temperature the liquid fuel system is shut off from the fuel supply rendering it incapable of parallel operation as contemplated by the instant invention.
U.S. Pat. Nos. 4,538,583, 4,622,944, and 4,665,879 also to Earl disclose fuel vaporization apparatus in which the fuel vaporizes before it enters the internal combustion engine. The engine is started on liquid fuel, but after the vaporizing chamber reaches a preset temperature the liquid fuel system is shut off from the fuel supply rendering it incapable of parallel operation. After the vapor chamber reaches the desired temperature liquid fuel is fed through various amounts and configurations of heat conductive tubing, which is exposed to hot exhaust fumes and electrical heating elements. This design also fails to control the temperature of the apparatus and must maintain reserve vapors for peak demands. Due to the location of the fuel vapors an engine backfire could result in a serious explosion.
U.S. Pat. No. 4,606,319 to Silva discloses a dual fuel apparatus that operates entirely from vaporized fuel. The engine is started on a primary fuel such as methane, hydrogen, natural gas, propane, butane or acetylene. When the exhaust reaches an adequate temperature gasoline is allowed to flow into a vaporization apparatus. The primary fuel mixes with the vaporized gasoline and used to pushes the mixed fuel vapors to the carburetor. This configuration would require significant modification to install the system on a vehicle that is currently equipped with a liquid fuel system. No parallel liquid fuel system is suggested or disclosed.
U.S. Pat. No. 4,161,931 to Giardini et al. discloses an exhaust gas heat exchanger for vaporizing liquid fuel. The engine is started using vaporized fuel stored in an accumulator and thereafter uses the exhaust manifold to vaporize liquid fuel. The exhaust
Cooke Sydney
Shetley Michael
Emission Controls Corporation
McHale & Slavin P.A.
McMahon Marguerite
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