Poppet valve having an aligning yoke

Internal-combustion engines – Charge forming device – Exhaust gas used with the combustible mixture

Reexamination Certificate

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Details

C123S568230

Reexamination Certificate

active

06758196

ABSTRACT:

TECHNICAL FIELD
The present invention relates to systems and apparatus for managing gas flow through internal combustion engines; more particularly, to one or more valving devices associated with the intake manifold of an internal combustion engine; and most particularly, to an intake manifold assembly for an internal combustion engine, such as a diesel engine or a variable valve lift gasoline engine, wherein an exhaust gas recirculation valve, a manifold vacuum control valve, and other gas-control valves as may be necessary, are integrated into the assembly, and further, wherein reciprocating alignment of the poppets of such valves is improved by addition of poppet yokes embracing an actuating camshaft.
BACKGROUND OF THE INVENTION
It is a characteristic of diesel engines and some variable valve lift gasoline engines that virtually no vacuum exists in the intake manifolds of such engines. The lack of vacuum creates problems in providing vacuum-assisted functions for applications such as automotive vehicles, marine vessels, and stationary power generators. A conventional gasoline-powered engine includes a throttle valve at the inlet to the intake manifold to control the flow of air into the engine and thereby to regulate the speed of the engine. Such throttling of the inlet variably creates a subatmospheric condition in the manifold. Recirculation of exhaust gas into the intake manifold uses a pressure drop between the exhaust manifold and the intake manifold to draw exhaust gas into the intake manifold. Such a pressure drop is virtually non-existent in an unmodified diesel engine and also in a gasoline engine wherein gas flow is controlled by varying the lift of the intake valves.
It is known to create manifold vacuum in a diesel intake manifold by providing an air control valve at the manifold inlet, typically a rotary butterfly-type valve. Such a valve is typically actuated by an electric motor and gear train or a stepper motor and is provided as a subassembly which must be attached to the manifold as by bolting and which requires its own power and control connections in a wiring harness. Disadvantageously, a rotary butterfly valve has a highly non-linear flow profile as a function of valve angle; is difficult to close completely without jamming; and typically passes significant air flow in the “closed” position.
It is further known to provide an exhaust gas recirculation (EGR) valve having its own actuator and valve body which also must be bolted to the intake manifold. EGR valves typically are actuated by an electric solenoid in either a position-modulated or time-modulated mode, requiring additional and separate power and control connections. Further, such solenoids are known to be vulnerable to failure from corrosion by permeated exhaust gas. Prior art EGR valves provide exhaust gas globally to the interior of the intake manifold which then distributes the gas along with intake air via runners to the individual cylinders.
It is further known to provide dual intake ports to each diesel cylinder, one such port being open at all times and the other such port being closable by a butterfly-type valve. The ports are off-axis of the cylinders such that when the valves are closed, as under low engine load conditions, air entering the cylinder is swirled advantageously to center the fuel charge in the cylinder. Typically, the individual valves are ganged on a common shaft which is actuated by an electrically-powered rotary actuator similar to that known for a throttle valve.
It is a principal object of the present invention to simplify an air intake manifold and associated control valving for a diesel engine, valve-lift controlled gasoline engine, or other gasoline engine, to reduce manufacturing cost, ease assembly, improve and integrate air control through an engine, and increase engine reliability.
It is a further object of the invention to mechanically link and actuate such valving.
It is a still further object of the invention to reduce side-loading of a valve poppet during actuation to reduce wear and increase the working life thereof.
SUMMARY OF THE INVENTION
Briefly described, an integrated intake manifold assembly in accordance with the invention includes a poppet valve (MVR valve) disposed at the air inlet to the manifold to regulate air flow into the manifold; a poppet valve (EGR valve) disposed on the manifold to regulate exhaust gas flow into the air intake system; and a bi-directional camshaft and cams for operating simultaneously the MVR valve and the EGR valve. The valve bodies are integrally formed in the wall of the intake manifold. The camshaft is driven by a single brush DC motor and gear train. The cams are arranged on the shaft to provide optimum synchronized opening and closing of the related valves. The cams may also be individually shaped as needed to optimize the actuation profile of each valve. When used on a diesel engine, the assembly may further include a swirl valve plate disposed between the manifold and the engine head and having a plurality of ganged swirl valves actuated by linkage connected to the camshaft for coordinated motion with the MVR and EGR valves. Preferably, the swirl valve plate is also ported as a distribution rail to receive exhaust gas from the EGR valve and distribute it to the individual cylinders, bypassing altogether the interior of the intake manifold and obviating soot deposits in the manifold.
The valve poppets of the MVR and EGR valves are modified as forked yokes which engage the camshaft as reciprocating struts to minimize side loading of the valve stems by the rotary action of the cams.
An integrated intake manifold assembly in accordance with the invention, when compared to prior art assemblies of stand-alone components, eliminates eight bolts and two gaskets; eliminates two actuators and related wiring; eliminates vacuum actuation and hoses; reduces soot in the air intake system, protecting air components; reduces electrical connections to two; simplifies manufacture and assembly; and reduces the overall size and mass of the air control system.


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