Patent ID: 6116207
Filing Date: 2000-09-12
Classification: F02B,F02M,Y02T

Abstract:
In a piston internal combustion engine comprising: at least one combined means for compressing and expanding gases, each said combined means comprising an internal combustion engine mechanism comprising a variable volume chamber for compressing and expanding gases, and drive means for driving said internal combustion engine mechanism and varying the volume of said chamber through repeated cycles; said variable volume chamber comprising a combustion chamber end at the minimum volume portion of said variable volume;each said variable volume cycle comprising a compression time interval, when said variable volume is sealed and decreasing, followed by an expansion time interval, when said variable volume is sealed and increasing, these two time intervals together being a compression and expansion time interval;each said combined means for compressing and expanding further comprising intake means for admitting reactant gases into said variable volume chamber prior to each said compression time interval, exhaust means for removing reacted gases from said variable volume chamber after each said expansion time interval; and ignition means for igniting fuel air mixtures within said variable volume chamber;each said variable volume cycle further comprising an exhaust time interval when said variable volume is opened to said exhaust means, followed by an intake time interval when said variable volume is opened to said intake means, these two time intervals being an exhaust and intake time interval; said exhaust and intake time interval following after a preceding expansion time interval and preceding a next following compression time interval; said piston internal combustion engine further comprising a source of supply of reactant gas containing appreciable oxygen gas, to each said intake means for admitting reactant gases into said variable volume chamber, each cycle of said variable volume chamber further comprising a potential combustion time interval comprising that portion of said compression and expansion time interval during which fuel form any source, and reactant gas containing appreciable oxygen gas, are both present within said variable volume chamber; each cycle of said variable volume chamber further comprising a combustion time interval during which the fuel and oxygen contents of the variable volume chamber are ignited and burned therein;wherein the improvement comprises adding to said piston internal combustion engine at least one fuel in air mixer and proportioner apparatus for each said variable volume chamber of said piston internal combustion engine;each said fuel in air mixer and proportioner apparatus comprising:a displacer piston sealably operative within a displacer cylinder;a displacer volume enclosed between said displacer cylinder and said displacer piston;at least one flow passage between said displacer volume and said variable volume chamber and connecting into said variable volume chamber at the combustion chamber end thereof;combination retraction and injection means for retracting said displacer piston, and for injecting fuel concurrently into the air mass flow from said variable volume into the displacer volume created by said retraction, said combination retraction and injection means comprising:a source of fuel;fuel injector means for transferring fuel from said source, and injecting it into said displacer volume, and comprising; injector adjustment means for adjusting the rate and quantity of fuel injection, into said displacer volume, during each engine cycle, said fuel quantity being adjusted in response to required engine torque output;displacer piston retraction means for retracting said displacer piston to create a displacer volume, and comprising retraction adjuster means for adjusting the rate and extent of said displacer piston retraction;said displacer piston retraction means and said fuel injector means, operating in combination, so that each air portion is admixed with a fuel portion, while being transferred from said variable volume chamber into said displacer volume; each fuel portion is admixed with an air portion being transferred while being injected into said displacer volume; said displacer piston retraction and concurrent fuel injection commence during the latter portion of said compression time interval and end prior to the end of said compression time interval;said concurrent mixing of air and fuel within the mixer portion of said displacer volume where air and fuel enter, creates a displacer air fuel mixture;delivery means for driving said displacer piston fully into said displacer volume and displacing said displacer mixture out of said displacer volume and into said combustion chamber end of said variable volume chamber, via said flow passage, so that said driving commences after completion of said displacer piston retraction and ends at latest during the early portion of the following expansion time interval;and so that said delivery means drives said displacer piston into said displacer volume at a sufficient rate to achieve unidirectional flow of said displacer mixture, out of said displacer volume and into said engine combustion chamber via said flow passage;said displacer piston retraction means and said fuel injector, further operating in combination, so that the instantaneous ratio of the mass rate of transfer of air from said variable volume chamber into said displacer volume to the instantaneous mass rate of injection of fuel into said air mass undergoing transfer, is always fuel richer than the stoichiometric mixture ratio for the fuel being used;whereby a stratified air fuel mixture can be created in the engine combustion chamber which can be ignited and burn only therein, with low combustion violence and low exhaust smoke.