EP0272290A1

EP0272290A1 - Fuel metering process.

Info

Publication number: EP0272290A1
Application number: EP87903861A
Authority: EP
Inventors: Helmut Gross; Wolfgang Hoptner; Gunther Kaiser
Original assignee: Robert Bosch GmbH
Current assignee: Robert Bosch GmbH
Priority date: 1986-07-09
Filing date: 1987-06-23
Publication date: 1988-06-29
Anticipated expiration: 2007-06-23
Also published as: JPH01500209A; EP0272290B1; JP2711543B2; DE3623041A1; EP0272290B2; US4893602A; KR880701819A; DE3761579D1; KR970007390B1; WO1988000285A1

Abstract

Procédé de dosage de carburant, pendant les accélérations, dans une pluralité de cylindres d'un moteur à combustion interne à injection séquentielle. La quantité de carburant à injecter est calculée en fonction du régime, et après détermination du niveau d'accélération, des injections supplémentaires de carburant sont effectuées. Un perfectionnement de ce procédé doit permettre un dosage plus rapide de la quantité accrue de carburant dans le moteur pendant le processus d'accélération. A cet effet, la quantité de carburant calculée est injectée dans au moins un, et de préférence dans chaque cylindre dont la quantité injectée n'a pas encore été aspirée et dont la soupape d'admission n'a pas encore été fermée ou dont le cycle d'admission n'est pas encore terminé. Cela intervient notamment au moment de la production d'un signal de déclenchement (TS) correspondant à la quantité supplémentaire de carburant déterminée en vue de l'accélération.Method for metering fuel, during acceleration, in a plurality of cylinders of an internal combustion engine with sequential injection. The amount of fuel to be injected is calculated according to the speed, and after determining the acceleration level, additional fuel injections are made. An improvement in this process should allow faster dosing of the increased amount of fuel in the engine during the acceleration process. To this end, the calculated quantity of fuel is injected into at least one, and preferably into each cylinder, the injected quantity of which has not yet been aspirated and the inlet valve of which has not yet been closed or the admission cycle is not yet complete. This occurs in particular when a trigger signal (TS) is produced corresponding to the additional quantity of fuel determined for acceleration.

Description

Fuel Allocation Procedure

State of the art

The invention relates to a method for fuel allocation during acceleration processes according to the preamble of the main claim.

DE-OS 34 18 387 describes a method for allocating fuel to a plurality of cylinders of an internal combustion engine with sequential injection during acceleration. The amount of fuel supplied to the machine is set to a value suitable for the determined operating state after the generation of a trigger signal, and the sequential injections of the amount of fuel set in this way are determined in a predetermined manner Sequence in sync with the trigger signal. When the acceleration state is recognized, an additional fuel injection is carried out during a trigger signal. If a fuel increase is determined at the time of generation of an instantaneous trigger signal, then the additional injection of the set fuel increase into the cylinder is carried out, in which one of the sequential injections was carried out with the preceding trigger signal. The fuel increase in acceleration is preferably set to the value which corresponds to the difference between a fuel injection quantity set at the time of generation of the current trigger signal and a fuel injection quantity supplied during a previous trigger signal. The fuel injections take place synchronously and always at the same times as the pulse of a trigger signal is generated. There is no adaptation to the operating state.

Advantages of the invention

The method according to the invention for fuel allocation during acceleration processes with the characterizing features of the main claim has the advantage that the fuel quantity corresponding to the acceleration state is allocated immediately and quickly. With the detection of the acceleration state and the new calculation or new determination of the fuel quantity, the difference quantity to the fuel quantity determined in the previous work cycle is determined. This excess is supplied to the cylinders shares whose regular fuel injection has been started and whose intake stroke has not yet been completed. This takes place on the one hand in the form of additional fuel injections for cylinders, the fuel allocation of which has been completed, or by extending ongoing fuel injection by the calculated additional quantity. Furthermore, the injection valves for all fuel injections, the start of which has shifted into the past due to the newly calculated fuel quantity, are opened immediately. During the acceleration process, special emphasis is placed on quickly allocating the increased fuel quantity; According to the invention, this takes place primarily of the termination of a fuel injection predetermined by the advance angle. The sequential injections of the set amount of fuel take place in a predetermined sequence at a point in time dependent on the operating state of the internal combustion engine within the work cycle specified by the trigger signal. Additional fuel injections are carried out in all those cylinders whose amount of fuel injected has not yet been drawn in and whose inlet valve has not yet been closed. The fuel injections which are already running at the time of the execution of additional force injections are increased by the required additional quantity. Furthermore, the fuel injections, the beginning of which was still in the future before the acceleration state was recognized, are expediently started earlier than stationary or immediately in order to ensure the end of the injection process even before the inlet valve closes. drawing

The method according to the invention is shown in the drawing and is explained in more detail in the following description. The drawing shows a time diagram of the fuel allocation after detection of an acceleration condition.

Description of the invention

In the drawing, an internal combustion engine with four cylinders is assumed, the trigger signals TS being shown in the top line. This trigger signal TS is shifted early by an application-specific angle with respect to the top dead centers of the individual cylinders. The time period TK corresponds to a crankshaft rotation of 180 °. The opening times of the inlet valves V1 to V4 are shown for each of the cylinders 1 to 4. The operating state of the internal combustion engine is detected synchronously with the trigger signal TS. The definition of the acceleration state is carried out on the basis of the current operating state and the data from previous operating states, in particular the load, load changes, speed, etc. being recorded. If the acceleration state is defined and ascertained in the manner not to be explained further here, the fuel allocation is adjusted by one corresponding to the respective acceleration state during the acceleration state of the internal combustion engine Additional quantity increased. According to the invention, the allocation takes place for all the cylinders whose regular fuel allocation has started and whose intake process has not yet ended, ie the inlet valve has not yet been closed. It is assumed below that the acceleration state is recognized at time t.

After this time t, the inlet valve V2 is just opened by the cylinder 2. On the basis of the recognized acceleration state, an additional fuel injection, called an intermediate spray, takes place immediately into the cylinder 2, as represented by the signal a. In the next working cycle, the on-time fuel injection, which is represented by the signal d, takes place again in the same cylinder, adapted to the new load. In the context of this invention, the on-schedule sequential fuel injection takes place in accordance with the amount of fuel, the battery voltage, the advance angle and the speed. The advance angle determines the position of the end of the sequential injection with respect to the opening of the associated intake valve. After each trigger signal, the fuel injection to be triggered is initiated within the subsequent work cycle.

In cylinder 3, fuel injection would end shortly after time t. Due to the detected acceleration state, however, the fuel injection still running in the cylinder 3 is extended, as represented by the signal b. Because of this invention When the fuel injection is extended, an increased amount of fuel is therefore immediately available.

Finally, the next fuel injection, which is indicated by the signal c, is started immediately in the cylinder 4. For this cylinder 4, the injection would normally only have started at a later point in time, ie without the acceleration state having been recognized and without the method according to the invention becoming effective. Due to the illustrated immediate start of fuel injection according to the invention there is a rapid allocation of the amount of fuel corresponding to the sole condition.

It is essential that the newly calculated amount of fuel at time t is decisive for all fuel injections whose start of injection must be initiated on or after this trigger signal TS and for all cylinders in which the timely injection has already been completed but whose inlet valve is still open is.

Claims

Expectations

1. A method for fuel allocation during acceleration processes in a plurality of cylinders of an internal combustion engine with sequential injection, in which method the fuel quantity to be injected is determined in accordance with the operating state and the acceleration state is determined, with an additional quantity of fuel being injected after determining the acceleration state, characterized in that the determined amount of fuel is injected into at least one of those cylinders, preferably into all those whose injected fuel amount has not yet been drawn in and whose inlet valve has not yet been closed or whose intake stroke has not yet been completed, in particular at the time a trigger signal TS is generated, corresponding to the amount corresponding to the detected acceleration fuel increase.

2. The method according to claim 1, characterized in that the fuel injections which are already running at the time of executing the additional fuel injections, in particular when the acceleration state is detected, are extended in accordance with the calculated additional quantity (b).

3. The method according to claim 1 or 2, characterized in that such fuel injections, the beginning of which was still in the future before the detection of the acceleration state, earlier than without acceleration, and in particular are started immediately in order to vent read before closing the inlet relevant cylinder to be able to safely end the injection.

4. The method according to claim 1 to 3, characterized in that the fuel injections, namely the sequential and / or the additional fuel quantities, take place in a time dependent on the operating state of the internal combustion engine within the operating cycle determined by the trigger signal (TS).