Internal-combustion engines – Combustion chamber means having fuel injection only – Using multiple injectors or injections
Reexamination Certificate
1999-11-23
2001-04-10
Solis, Erick (Department: 3747)
Internal-combustion engines
Combustion chamber means having fuel injection only
Using multiple injectors or injections
Reexamination Certificate
active
06213088
ABSTRACT:
This invention relates to a process and a device for operation of an internal combustion engine in which an increased exhaust gas mass flow acts at least temporarily on the exhaust gas stream.
A process such as this and a device for application of the process are disclosed in German publication DE 41 39 291 A1, for example. In this process, in order to achieve improved exhaust gas decontamination and faster acceleration of the exhaust gas turbine in the area of the exhaust gas manifold, an increased amount of fuel is delivered which is spark ignited a short distance upstream from the gas turbine. This process and the device applying it do, however, present the disadvantage that the additional fuel cannot be distributed in the exhaust gas with adequate efficiency and that costly mechanisms for delivery and ignition of the additional fuel must be provided in the exhaust gas stream.
In addition, publications WO 96/03572 and DE 196 22 832 A1 describe a process and a device for increasing the efficiency of a catalytic converter in a diesel engine in which secondary injection must be carried out in addition to the primary injection during the exhaust stroke of the engine. The additional fuel is introduced in this case by the engine fuel injection device into the cylinders and ignites spontaneously in the latter.
It is the object of this invention to develop the state-of-the-art processes so as to permit improved intermixture and simplified ignition of the fuel-exhaust gas mixture. An additional object is provision of a device for application of the process developed.
The object claimed for the process is attained by means of the features described in claim
1
. Better intermixture of additional fuel with residual gas is accomplished by supply of additional fuel during the exhaust cycle with the exhaust valve or valves open, directly into the combustion chamber of the internal combustion engine filled with residual gas, since the optimized geometries present in the combustion chamber may be used for this purpose. As a result of the improved intermixture, the pressure and the temperature of the exhaust gas of the additional fuel and the residual gas are improved in such a way that the response characteristic of an exhaust gas turbine is distinctly improved. In addition, a catalytic converter optionally provided in the exhaust gas stream can, as a result of increase in pressure and temperature of the exhaust gas, reach its operating temperature more quickly and retain this temperature even under unfavorable conditions. Such unfavorable conditions exist in particular during overrunning operation of the internal combustion engine, since normal fuel delivery is then discontinued, as a result of which there is a risk both of drop in the speed of the exhaust gas turbine and of lowering of the temperature of the catalytic converter. And, because the additional fuel is spark ignited, afterburning of the additional fuel is ensured in any event.
By preference delivery of additional fuel takes place before the piston of the internal combustion engine reaches the gas exchange upper dead center (OT=oberer Totpunkt). As a result, sufficient time still remains for intermixture of the additional fuel with the residual gas and for the mixture to leave the combustion chamber through the opened discharge valve. If, on the other hand, the additional fuel has already burned before the piston reaches the gas exchange OT, this even causes a slight delay of the piston stroke. In theory delivery of additional fuel in a crankshaft angle range of approximately 120 to 380 degrees beyond the ignition OT is conceivable.
Additional fuel should be delivered with intake valves closed. In this way the mixture of additional fuel and residual gas cannot reach the intake stream of the internal combustion engine, as a result of which the efficiency of the internal combustion engine would be impaired. In addition, the time of opening of the intake valves of the internal combustion engine may be displaced in the direction of “retarded” at least temporarily, that is, during delivery of additional fuel. The reason is that this has the effect of lengthening the interval between opening of the discharge valve and opening of the intake valve, so that more time is accordingly available for delivery of the additional fuel and intermixture of the additional fuel with the residual gas.
The additional fuel is injected in a suitable manner during the cold operation stages, the acceleration stages, and/or with the internal combustion engine under low load, that is, in overrunning operation as well. Improvement in the response characteristic of the exhaust gas turbine, as well as faster heating or constant heating of the exhaust gas catalytic converter, are, after all, desirable especially under these operating conditions.
The residual gas in the combustion chamber of the internal combustion engine should have excess air immediately before delivery of the additional fuel, so that additional fresh air need not be delivered by another route for afterburning of the mixture of additional fuel and residual gas. For example, the throttle valve, open during overrunning, could be closed on the basis of the speed of the internal combustion engine in order to obtain residual gas with sufficient excess air.
Additional fresh air could, of course, also be delivered by another route for the afterburning. For example, fresh air from the intake stream could be diverted and introduced into the exhaust gas stream as close as possible to the combustion chamber upstream from the closed throttle valve during overrunning operation. Delivery of additional fresh air could in the process be controlled on the basis of the intake pressure of the exhaust gas turbine, the speed of the internal combustion engine, and/or the time derivative of engine speed (acceleration or retardation).
The amount of additional fuel is determined in the process claimed for the invention on the basis of the excess air in the amount of residual gas and/or the amount of additional fuel delivered.
The object claimed for the device is attained by the features described in claim
9
. Through injection of the additional fuel by means of at least one injection nozzle mounted in the combustion chamber, the direct-injection nozzles by definition present in the combustion chamber of Otto internal combustion engines may be used, so that no additional mechanisms are required for delivery of the additional fuel. In addition, the electronic drive unit already present may be used for the injection nozzles.
Preferably at least one injection valve is mounted on the cylinder head side in the internal combustion engine for injection of additional fuel. Consequently, additional fuel may be delivered by an especially advantageous method also a short time before the piston of the internal combustion engine reaches the gas exchange OT.
It is claimed for the device that residual gas with a great amount of excess air can be provided and/or fresh air can be diverted from the intake upstream of a throttle valve and injected into the exhaust gas stream as close as possible to the combustion chamber so that reliable afterburning is ensured.
In an advantageous embodiment of this invention, external ignition of the mixture of additional fuel, residual gas, and/or additional fresh air is effected by means of at least one ignition plug mounted in the combustion chamber of the internal combustion engine. Consequently, at least the ignition plug by definition present in Otto internal combustion engines may be used, so that no other mechanisms are required for ignition of the additional fuel. In this instance as well the electronic triggering unit for the ignition plugs already present may be used.
It is especially preferable to have at least the single ignition plug mounted in the combustion chamber for external ignition of the mixture of additional fuel, residual gas, and additional fresh air on the cylinder head side.
REFERENCES:
patent: 5482017 (1996-01-01), Brehob et al.
patent: 6032641 (2000-03-01), Aket
Audi AG
Lalos & Keegan
Lau Michael N.
Solis Erick
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