Internal EGR for an internal combustion engine
First Claim
1. For use in a four-stroke, internal combustion, compression-ignition engine having at least one engine cylinder, at least one combustion chamber and a crankshaft, an internal exhaust gas recirculation (EGR) system for reducing oxides of nitrogen (NOx), for each combustion chamber the system comprising:
- at least one intake valve disposed to admit air into the combustion chamber; and
at least one exhaust gas intake valve;
a rocker arm shaft fixedly supported by the engine;
an intake rocker arm assembly having a driven end portion and a driving end portion and being pivotally supported at a generally central location between the two end portions by the rocker arm shaft, the at least one intake valve being opened in response to an intake-valve-actuating force that emanates from the driving end portion when the intake rocker arm assembly is pivoted in a first angular direction, the at least one exhaust gas intake valve being opened in response to an exhaust-gas-intake-valve-actuating force that emanates from a point between the driven end portion and the rocker arm shaft when the intake rocker arm assembly is pivoted in the first angular direction;
a force transfer assembly fixedly disposed relative to the engine for communicating the exhaust-gas-intake-valve-actuating force from the intake rocker arm assembly to the at least one exhaust gas intake valve; and
a cam mounted on and rotatable with a camshaft to pivot the intake rocker arm assembly in the first angular direction,the configurations and relative orientations of the intake rocker arm assembly and the force transfer assembly being such that the exhaust gas intake valve is opened during at least a portion of an engine intake stroke when the intake valve is open and the pressure of exhaust gas is greater than the pressure of gas in the combustion chamber, thus allowing exhaust gas to flow into the combustion chamber to establish internal exhaust gas recirculation.
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Accused Products
Abstract
An exhaust gas recirculation (EGR) system for use in a four-stroke, internal combustion, compression-ignition engine having at least one engine cylinder, at east one combustion chamber, at least one intake valve and a crankshaft. The EGR system includes at least one exhaust gas intake valve that is opened during at least a portion of an engine intake stroke when the exhaust gas pressure is greater than the pressure of gas in the combustion chamber, thus allowing exhaust gas to flow into the combustion chamber to establish internal EGR. A cam-operated intake rocker arm assembly has the form of both a first class lever and a second class lever. The first class lever directly communicates motion of the intake rocker arm assembly to open the intake valve, and the second class lever communicates motion of the intake rocker arm assembly through a hydraulic transfer assembly to open the exhaust gas intake valve.
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Citations
26 Claims
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1. For use in a four-stroke, internal combustion, compression-ignition engine having at least one engine cylinder, at least one combustion chamber and a crankshaft, an internal exhaust gas recirculation (EGR) system for reducing oxides of nitrogen (NOx), for each combustion chamber the system comprising:
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at least one intake valve disposed to admit air into the combustion chamber; and at least one exhaust gas intake valve; a rocker arm shaft fixedly supported by the engine; an intake rocker arm assembly having a driven end portion and a driving end portion and being pivotally supported at a generally central location between the two end portions by the rocker arm shaft, the at least one intake valve being opened in response to an intake-valve-actuating force that emanates from the driving end portion when the intake rocker arm assembly is pivoted in a first angular direction, the at least one exhaust gas intake valve being opened in response to an exhaust-gas-intake-valve-actuating force that emanates from a point between the driven end portion and the rocker arm shaft when the intake rocker arm assembly is pivoted in the first angular direction; a force transfer assembly fixedly disposed relative to the engine for communicating the exhaust-gas-intake-valve-actuating force from the intake rocker arm assembly to the at least one exhaust gas intake valve; and a cam mounted on and rotatable with a camshaft to pivot the intake rocker arm assembly in the first angular direction, the configurations and relative orientations of the intake rocker arm assembly and the force transfer assembly being such that the exhaust gas intake valve is opened during at least a portion of an engine intake stroke when the intake valve is open and the pressure of exhaust gas is greater than the pressure of gas in the combustion chamber, thus allowing exhaust gas to flow into the combustion chamber to establish internal exhaust gas recirculation. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. An internal exhaust gas recirculation (EGR) system for reducing oxides of nitrogen (NOx) in a four-stroke, internal combustion, compression-ignition engine having at least one engine cylinder, at least one combustion chamber, and a crankshaft, for each engine cylinder the system comprising:
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at least one intake valve; at least one exhaust gas intake valve; a rocker arm shaft fixedly supported by the engine; an intake rocker arm assembly having a driven end portion and a driving end portion and being pivotally supported at a generally central location between the two end portions by the rocker arm shaft, the at least one intake valve being opened in response to an intake-valve-actuating force that emanates from the driving end portion when the intake rocker arm assembly is pivoted in the first angular direction, the at least one exhaust gas intake valve being opened in response to an exhaust-gas-intake-valve-actuating force that emanates from a point between the driven end portion and the rocker arm shaft when the intake rocker arm assembly is pivoted in the first angular direction; a force transfer assembly fixedly disposed relative to the engine and having a hydraulic fluid housing including therein a follower piston cylinder and a driven piston cylinder that communicate with each other via a hydraulic fluid passage containing hydraulic fluid, a follower piston slidably disposed at least partially within the follower piston cylinder and being forced farther into the follower piston cylinder by the driven end portion of the intake rocker arm assembly when the intake rocker arm assembly is pivoted in a first angular direction, and a driven piston slidably disposed at least partially within the driven piston cylinder and being forced outwardly from the driven piston cylinder when the follower piston is forced inwardly into the follower piston cylinder; and a cam mounted on and rotatable with a camshaft to pivot the intake rocker arm assembly in the first angular direction, the at least one intake valve being opened by the driving end portion of the intake rocker arm assembly when the driven end portion is pivoted in the first angular direction, the at least one exhaust gas intake valve being opened when the driven piston is forced outwardly from the driven piston cylinder as a result of the intake rocker arm assembly being pivoted in the first angular direction, and the configurations and relative orientations of the intake rocker arm assembly and the force transfer assembly being such that the exhaust gas intake valve is opened during at least a portion of an engine intake stroke when the pressure of exhaust gas is greater than the pressure of gas in the combustion chamber, thus allowing exhaust gas to flow into the combustion chamber to establish internal exhaust gas recirculation. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
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18. A four-stroke, internal combustion, compression-ignition engine comprising:
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at least one engine cylinder; at least one combustion chamber; a rocker arm shaft fixedly supported by the engine; a crankshaft; an internal exhaust gas recirculation system, for each engine cylinder comprising; at least one intake valve; at least one exhaust gas intake valve an intake rocker arm assembly having a driven end portion and a driving end portion and being pivotally supported at a generally central location between the two end portions by the rocker arm shaft, the at least one intake valve being opened in response to an intake-valve-actuating force that emanates from the driving end portion when the intake rocker arm assembly is pivoted in the first angular direction, the at least one exhaust gas intake valve being opened in response to an exhaust-gas-intake-valve-actuating force that emanates from a point between the driven end portion and the rocker arm shaft when the intake rocker arm assembly is pivoted in the first angular direction; a force transfer assembly fixedly disposed relative to the engine and having a hydraulic fluid housing including therein a follower piston cylinder and a driven piston cylinder that communicate with each other via a hydraulic fluid passage containing hydraulic fluid, a follower piston slidably disposed at least partially within the follower piston cylinder and being forced farther into the follower piston cylinder by the driven end portion of the intake rocker arm assembly when the intake rocker arm assembly is pivoted in a first angular direction, and a driven piston slidably disposed at least partially within the driven piston cylinder and being forced outwardly from the driven piston cylinder when the follower piston is forced inwardly into the follower piston cylinder; and a cam mounted on and rotatable with a camshaft to pivot the intake rocker arm assembly in the first angular direction, the at least one intake valve being opened by the driving end portion of the intake rocker arm assembly when the intake rocker arm assembly is pivoted in the first angular direction, the at least one exhaust gas intake valve being opened when the driven piston is forced outwardly from the driven piston cylinder as a result of the intake rocker arm assembly being pivoted in the first angular direction, and the configurations and relative orientations of the intake rocker arm assembly and the force transfer assembly being such that the exhaust gas intake valve is opened during at least a portion of an engine intake stroke when the pressure of exhaust gas is greater than the pressure of gas in the combustion chamber, thus allowing exhaust gas to flow into the combustion chamber to establish internal exhaust gas recirculation. - View Dependent Claims (19, 20, 21, 22, 23, 24, 25)
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26. In a four-stroke, internal combustion, compression-ignition engine having at least one engine cylinder, at least one combustion chamber, at least one intake valve, and a crankshaft, a method of reducing NOx, the method comprising the steps of:
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a. providing at least one exhaust gas intake valve; b. providing a force transfer assembly fixedly disposed relative to the engine and having a hydraulic fluid housing including therein a follower piston cylinder and a driven piston cylinder that communicate with each other via a hydraulic fluid passage containing hydraulic fluid; c. providing a follower piston slidably disposed at least partially within the follower piston cylinder and being forcible deeper into the follower piston cylinder by the driven end portion of the intake rocker arm assembly when the intake rocker arm assembly is pivoted in the first angular direction; d. providing a driven piston slidably disposed at least partially within the driven piston cylinder and being forced outwardly from the driven piston cylinder when the follower piston is forced inwardly into the follower piston cylinder; e. providing a rocker arm shaft fixedly supported by the engine; f. providing an intake rocker arm assembly having a driven end portion and a driving end portion and being pivotally supported at a generally central location between the two end portions by the rocker arm shaft; g. providing a cam mounted on and rotatable with a camshaft to pivot the intake rocker arm assembly in a first angular direction, the at least one intake valve being opened by the driving end portion of the intake rocker arm assembly when the intake rocker arm assembly is pivoted in the first angular direction, the at least one exhaust gas intake valve being opened when the driven piston is forced outwardly from the driven piston cylinder as a result of the intake rocker arm assembly being pivoted in the first angular direction, the at least one intake valve and the at least one exhaust gas intake valve subsequently closing when the intake rocker arm assembly is pivoted in a second angular direction, the timing of the opening and closing of both the intake and exhaust gas intake valves being functions of the pivoting of the intake rocker arm assembly; and h. configuring and orienting the crankshaft, the cam, the intake rocker arm assembly, the follower piston and the driven piston such that, during a period when the pressure of the exhaust gas is greater than the pressure of the gas in the combustion chamber and the at least one exhaust gas intake valve is open, exhaust gas flows into the combustion chamber and internal exhaust gas recirculation occurs.
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Specification