EP1090221B1 - Method for operating an internal combustion engine, especially of an automobile - Google Patents

Abstract

The invention relates to an internal combustion engine (1), especially for an automobile, said engine being fitted with an injection valve (9) enabling direct injection of fuel to be injected for combustion into a combustion chamber (4) during an intake phase and during a compression phase. A control device (12) is provided for controlling and/or regulating the mass of fuel injected into the combustion chamber (4). A pressure sensor is provided to measure the pressure with which fuel is injected into the combustion chamber (4). Fuel is injected by means of the control device (12) during the intake phase when pressure is lower than a predetermined minimum pressure.

Description

State of the art

The invention relates to a method for starting a Internal combustion engine, in particular of a motor vehicle, at which is the fuel to be injected for combustion during a suction phase and during a Compression phase injected directly into a combustion chamber and at which the pressure is determined with which the Fuel is injected into the combustion chamber. Furthermore The invention relates in particular to an internal combustion engine for a motor vehicle, with an injection valve, with the the fuel to be injected for combustion during during a suction phase and during a compression phase can be injected directly into a combustion chamber, and with a Control device for controlling and / or regulating the start the internal combustion engine, and with a pressure sensor Measurement of the pressure with which the fuel enters the combustion chamber is injected.

A system for the direct injection of fuel into the Combustion chamber of an internal combustion engine is, for example, from DE-A-197 39 786 known.

In such systems, a so-called shift operation and a so-called homogeneous operation. The Shift operation is particularly important for smaller loads used during the homogeneous operation at larger, at the Internal loads applied to the internal combustion engine.

In shift operation, the fuel is used during the Compression phase of the internal combustion engine in the combustion chamber injected in such a way that a Cloud of fuel in the immediate vicinity of a spark plug located. This injection can be different Way. So it is possible that the injected Fuel cloud is already during or immediately after the injection is at the spark plug and from this is ignited. It is also possible that the injected cloud of fuel through a charge movement the spark plug is led and then ignited. at the two combustion processes are not uniform Fuel distribution before, but a stratified charge.

The advantage of shift operation is that there a very small amount of fuel smaller loads carried out by the internal combustion engine can be. However, larger loads cannot the shift operation can be fulfilled.

In homogeneous operation intended for such larger loads the fuel is during the intake phase of the Internal combustion engine injected so that a swirl and thus a distribution of the fuel in the combustion chamber can still be done easily. To that extent corresponds to Homogeneous operation such as the operation of Internal combustion engines in the conventional way Fuel is injected into the intake pipe. If necessary can operate even with smaller loads be used.

So that an injection of fuel in the Compression phase of the internal combustion engine, i.e. in Shift work can take place, it is very general required a high pressure for this injection is available. If this is not the case, there is Possibility of blowing back burned Mixture of previous combustion as well as of sucked in combustion air from the combustion chamber back in the accumulator.

After the internal combustion engine has come to a standstill usually the high one required for shift operation No pressure. For this reason, when starting the internal combustion engine does not immediately start in shift operation be switched, although for reasons of particular Saving fuel would be desirable.

The object of the invention is a method for starting an internal combustion engine and an internal combustion engine create with which the described blowing back completely is generally avoided, and with which in particular a as fuel-saving as possible starting the Internal combustion engine is possible.

This task is initiated in a procedure mentioned type according to the invention solved in that Start the pressure that builds up the fuel is injected during the priming phase when the pressure is smaller than a predeterminable minimum pressure and that the Fuel is injected during the compression phase, if the pressure is greater than the predefinable minimum pressure. In an internal combustion engine of the type mentioned The object is achieved in that when Start the pressure that is built up by the control unit the fuel is injected during the induction phase, if the pressure is less than a predefinable one Minimum pressure, and that by the control unit of the fuel is injected during the compression phase when the Pressure is greater than the specifiable minimum pressure.

This ensures that if the pressure is too low is not switched to shift operation, but that in in this case the internal combustion engine in homogeneous operation is operated. In general and in particular with Starting the internal combustion engine is done in this way achieves a blow back of burned mixture the combustion chamber back into the pressure accumulator safely avoided becomes. At the same time, however, when starting the internal combustion engine due to the injections in the Intake phase and the resulting first ignitions the internal combustion engine the pressure in the pressure accumulator further enlarged so that the pressure mentioned is relative grows quickly and for shift work required high pressure reached.

Has the pressure in the engine when starting the engine Pressure accumulator reaches the high value, so the Internal combustion engine operated in shift operation. This brings the advantage of saving fuel and Pollutant reduction.

It is advantageous if the fuel again during the Intake phase is injected when the pressure is lower as a predeterminable hysteresis pressure, the Hysteresis pressure is less than the minimum pressure. To this A hysteria is built up in a way that constantly successive switching back and forth between the Shift and homogeneous operation in the area of Avoids minimum pressure safely.

In an advantageous development of the invention the pressure at which the fuel enters the combustion chamber is injected, controlled to a maximum pressure and / or regulated. This represents a pressure control of the Pressure in the pressure accumulator with which this pressure the maximum pressure is limited.

It is important that the process according to the invention is general be used in the operation of the internal combustion engine can. The use of the is particularly advantageous inventive method when starting the Internal combustion engine, especially if the speed of the Internal combustion engine is smaller than a specifiable Start End threshold. By using this inventive method while starting the Internal combustion engine can be an initial Homogeneous operation and subsequent shift operation combined startup process are generated, which has the disadvantages of homogeneous operation, especially its high level Fuel consumption, reduced to a minimum, and the at the same time, the advantages of shift operation if possible early on.

The realization of the inventive method in the form of a Control for a control unit one Internal combustion engine, in particular a motor vehicle, is provided. Doing so is on the control Program for executing the method according to the invention, which is stored on a computing device, particularly executable on a microprocessor is. In this case, the invention is based on a Control stored program realized so that this control provided with the program in the same The invention represents how the method for its Execution the program is suitable. As a control can in particular be an electrical storage medium for Use, for example, a read-only memory.

Figur 1

zeigt ein schematisches Blockschaltbild eines Ausführungsbeispiels einer erfindungsgemäßen Brennkraftmaschine,

Figur 2

zeigt ein schematisches Blockschaltbild eines Kraftstoffversorgungssystems für die Brennkraftmaschine der Figur 1, und

Figur 3

zeigt eine schematische Darstellung eines Ablaufdiagramms entsprechend einem Ausführungsbeispiel des erfindungsgemäßen Verfahrens.

Further features, possible applications and advantages of the invention result from the following description of exemplary embodiments of the invention, which are shown in the figures of the drawing. All of the described or illustrated features, alone or in any combination, form the subject matter of the invention, regardless of their summary in the patent claims or their relationship, and regardless of their wording or representation in the description or in the drawing.

Figure 1

shows a schematic block diagram of an embodiment of an internal combustion engine according to the invention,

Figure 2

shows a schematic block diagram of a fuel supply system for the internal combustion engine of Figure 1, and

Figure 3

shows a schematic representation of a flow chart according to an embodiment of the inventive method.

In FIG. 1, an internal combustion engine 1 is one Motor vehicle shown, in which a piston 2 in one Cylinder 3 can be moved back and forth. The cylinder 3 is with a combustion chamber 4 provided, inter alia, by the Piston 2, an inlet valve 5 and an outlet valve 6 is limited. With the inlet valve 5 is an intake pipe 7 and an exhaust pipe 8 is coupled to the exhaust valve 6.

In the intake pipe 7 there is a rotatable throttle valve 9 housed, through which the intake pipe 7 air can be supplied is. The amount of air supplied depends on the Throttle valve angular position 9.

An injector 10 is associated with the cylinder 3, with the fuel into the combustion chamber 4 of the internal combustion engine 1 can be injected. There is also a spark plug 11 assigned to the cylinder 3 with which the injected Fuel can be ignited.

In a so-called shift operation of the internal combustion engine 1, the throttle valve 9 is opened wide. The fuel is from the injector 10 during a through the Piston 2 caused compression phase in the combustion chamber 4 injected, locally into the immediate Environment of the spark plug 11 and in time in a suitable Distance before the ignition point. Then with the help of Spark plug 11 ignites the fuel so that the piston 2 in the work phase that now follows due to the expansion of the ignited fuel is driven.

In a so-called homogeneous operation of the internal combustion engine 1, the throttle valve 9 is dependent on the desired, supplied air mass partially opened or closed. The fuel is supplied from the injection valve 10 during one caused by the piston 2 Intake phase injected into the combustion chamber 4. Through the air that is sucked in at the same time becomes injected Fuel swirls and thus in the combustion chamber 4 in essentially evenly distributed. After that it will Air / fuel mixture during the compression phase compressed to then ignited by the spark plug 11 become. Due to the expansion of the ignited fuel the piston 2 is driven.

The in the shift operation and in the homogeneous operation of the Injection valve 10 injected into the combustion chamber 4 Fuel mass is in particular from a control unit 12 with a view to low fuel consumption and / or controlled low pollutant development and / or regulated. For this purpose, the control device 12 is equipped with a Microprocessor provided in a storage medium, a program in particular in a read-only memory has saved, which is suitable for the named Control and / or regulation to perform.

The control device 12 is acted upon by input signals, the operating variables measured by sensors Represent internal combustion engine 1. For example, that is Control unit 12 with an air mass sensor, a lambda sensor and connected to a speed sensor. Furthermore is the control unit 12 is connected to an accelerator pedal sensor which generates a signal indicating the position of a driver actuatable accelerator pedal indicates. The control device 12 generates Output signals with which the behavior of the Internal combustion engine 1 according to the desired control and / or regulation can be influenced. For example is the control unit 12 with the injection valve 10, the Spark plug 11 and the throttle valve 9 connected and generated the signals required to control them.

FIG. 2 shows a fuel supply system 13 shown for use in Internal combustion engine 1 is provided. In which Fuel supply system 13 is a so-called common rail system, which is particularly in one Internal combustion engine with direct injection for use comes.

The fuel supply system 13 has one Pressure accumulator 14 on with a pressure sensor 15 and a pressure control valve 16 is provided. The accumulator 14 is via a pressure line 17 with a high pressure pump 18 connected. In the pressure line 17 is a changeover valve 19 interposed, the in a normal state High pressure pump 18 connects to the pressure accumulator 14. The High pressure pump 18 is connected to the via a pressure line 20 Pressure control valve 16 is connected. Over a Pressure line 21 and a filter is the pressure control valve 16 and thus also the high pressure pump 18 with a Fuel pump 22 connected, which is suitable Suck fuel from a fuel tank 23. about a line 24 is the switching valve 19 with the Fuel tank 23 connected.

The fuel supply system 13 has four Injectors 10 on the pressure lines 25 with the Pressure accumulator 14 are connected. The injectors 10 are suitable for fuel in the combustion chambers 4 of the Inject internal combustion engine 1. There the Fuel ignited by means of the spark plugs 11.

The pressure sensor 15 is connected by means of a signal line 26 connected to the control unit 12, to which further one A plurality of signal lines other than input lines are connected. By means of a signal line 27 Fuel pump 22 and via a signal line 28 is that Pressure control valve 16 connected to the control unit 12. Alternatively or additionally, the high pressure pump 18 can also be used be connected to the control unit 12. Furthermore are the injection valves 10 by means of signal lines 29 to the Control unit 12 connected. After all, it is Switch valve 19 via a signal line 30 with the Control unit 12 connected.

The measured with the pressure sensor 15 and on the Signal line 26 applied pressure in the pressure accumulator 14 is denoted by pr in FIG. At this pressure pr is the pressure at which the fuel injected into the combustion chamber 4 of the internal combustion engine 1 becomes.

The fuel is from the fuel pump 2 from the Fuel tank 23 pumped to the high pressure pump 18. With The high-pressure pump 18 is used in the pressure accumulator 14 generates the pressure pr measured by the pressure sensor 15 is and by a corresponding actuation of the Pressure control valve 16 and / or control of Fuel pump 22 or high pressure pump 18 on one desired value is set. About the Injectors 10, the fuel in the combustion chamber 4th the internal combustion engine 1 injected.

For the dimensioning of the injected into the combustion chamber 4 Fuel quantity or fuel mass is, among others, the Pressure pr in the pressure accumulator 14 is essential. The bigger the Pressure pr in the pressure accumulator 14, the more fuel is in the combustion chamber 4 during the same injection time injected. For example, to meet one of the Internal combustion engine 1 required full load is the called high pressure pr in the pressure accumulator 14 a essential requirement.

A high pressure pr in the pressure accumulator 14 is also required if the internal combustion engine 1 in Shift operation is to be carried out when fuel injected into the combustion chamber 4 in the compression phase shall be. If the pressure is not sufficiently high pr in the pressure accumulator 14, so-called occurs Blow back on, due to the compression phase and the resulting pressure in the combustion chamber 4 there burned from the last burn Mixture of previous combustion as well as of sucked combustion air from the combustion chamber 4 in the Pressure accumulator 14 is pushed back. Only if the pressure pr in the pressure accumulator 14 is greater than that in the Compression phase resulting pressure in the combustion chamber 4, actually finds an injection of fuel from the Pressure accumulator 14 in the combustion chamber 4 of the internal combustion engine 1 instead.

Such a high pressure pr is especially after The internal combustion engine 1 is usually not at a standstill the pressure accumulator 14 available. For this reason, when At least not without starting the internal combustion engine 1 be switched to shift operation immediately.

From the control unit 12, this is subsequently based on the Figure 3 described method for operating the Internal combustion engine 1 performed, which is provided to control and / or to start the internal combustion engine regulate. It is assumed that the Internal combustion engine 1 is at a standstill and Pressure pr in the pressure accumulator 14 is low.

After the ignition is switched on in a block 31, in a block 32, the pressure control valve 16 of the Control unit 12 is closed and the fuel pump 18 is switched on. The switch valve 19 is also such controlled that the fuel delivered by the High-pressure pump 18 arrives at the pressure accumulator 14. this has overall result in the pressure pr in the pressure accumulator 14 increases. As long as the ignition is switched on and the Starter of internal combustion engine 1 has not yet been actuated, this so-called lead 33 is maintained.

According to a block 34 of the starter Internal combustion engine 1 is actuated, the aforementioned lead 33 canceled, and the pressure pr measured in the pressure accumulator 14. Then in one Block 36 the pressure pr with a minimum pressure prmin compared.

The minimum pressure prmin is a pressure the minimum necessary for the Internal combustion engine 1 are operated in the shift operation can. The minimum pressure prmin is at least equal to or greater than the pressure at which blowing back out the combustion chamber 4 would take place in the pressure accumulator. The Minimum pressure prmin is approximately in a range of approximately 8 bar to about 15 bar. The min pressure prmin can be fixed in advance be specified. It is also possible to use the Minimum pressure prmin every time the Internal combustion engine 1 depending on the control unit 12 to determine the operating variables of the internal combustion engine 1.

If the pressure pr in the pressure accumulator 14 is lower than that Minimum pressure prmin, so is the fuel for starting of the internal combustion engine 1 during the intake phase in the Combustion chamber 4 injected. The internal combustion engine 1 is thus corresponding to two blocks 37 in homogeneous operation operated. For this purpose, the injection timing and the injection amount for the homogeneous operation of that Control unit 12 is determined and the injection valves 10 and the spark plugs 11 correspondingly from the control unit 12 controlled.

In a block 38, the speed of the internal combustion engine 1 compared to a starting threshold. Is the speed is greater than the starting threshold, so the starting of the Internal combustion engine 1 ended with a block 39. is on the other hand, the speed is lower than the starting threshold, so in a block 40 the pressure pr in the Pressure accumulator 14 measured, and then the process with block 36 continued.

It is possible that in an extreme case Internal combustion engine 1 completely in homogeneous operation is started. Usually, however, only during one initial period, especially only during less Revolutions of the internal combustion engine 1 the homogeneous operation maintained since thereafter the pressure pr in the pressure accumulator 14 has risen such that the internal combustion engine 1 as described below in shift operation can.

If control unit 12 determines in block 36, that the pressure pr in the pressure accumulator 14 is greater than that Minimum pressure prmin, it means that the fuel is in the compression phase injected into the combustion chamber 4 can be. Thereupon the procedure will be in a Loop 41 continued.

In the loop 41, the pressure is first in a block 42 pr in the pressure accumulator 14 with a so-called Hysteresis pressure compared to prhys. The hysteresis pressure prhys is less than the minimum pressure prmin. It serves one Install hysteresis in loop 41. If the pressure drops pr in a multiple pass through loop 41 again below the minimum pressure prmin, the comparison in block 42 with the hysteresis pressure prhys for this is recognized by the control device 12.

Thus, the control unit 12 within the loop 41 recognized that the pressure pr in the pressure accumulator 14 is smaller If prhys is the hysteresis pressure, then the Fuel in the intake phase in the combustion chamber 4 injected. It will then become the internal combustion engine 1 corresponding to blocks 37 ff. in homogeneous operation operated.

However, the pressure pr in the pressure accumulator 14 is greater than the hysteresis pressure prhys, the Pressure pr compared with a maximum pressure prmax. In which Maximum pressure prmax is the pressure that should be maximally present in the pressure accumulator 14.

If the pressure pr in the pressure accumulator 14 is lower than that Maximum pressure prmax, so the pressure control valve 16 through a block 44 controlled so that the pressure pr in the Pressure accumulator 14 continues to rise. In particular, it will Pressure control valve 16 continues to be closed to the Build up pressure pr in the pressure accumulator 14.

If the pressure pr in the pressure accumulator 14 is greater than that Maximum pressure prmax is then determined by a block 45 a pressure control carried out, the pressure pr on the Maximum pressure prmax limited. With this pressure control is it is possible that excess pressure in the pressure accumulator 14 is reduced in that the pressure control valve 16 is opened and / or that the fuel pump 22 and / or the high pressure pump 18 can be reduced in performance and / or that the changeover valve 19 switches over in this way is that the fuel delivered by the high pressure pump not in the pressure accumulator 14, but back in the Fuel tank 23 arrives.

After passing through block 44 or block 45 the fuel through the controller 12 during the Compression phase injected into the combustion chamber. It will the internal combustion engine 1 thus corresponds to two blocks 46 operated in shifts. For this, the Injection timing and the injection quantity of that Control unit 12 is determined and the control unit 12 the injection valves 10 and the spark plugs 11 controlled accordingly.

In a block 47 the speed of the internal combustion engine 1 compared with the starting threshold mentioned above. If the speed is greater than the starting threshold, then starting engine 1 with block 39 completed. On the other hand, the speed is lower than that Starting threshold, the block is again in a block 48 Pressure pr in the pressure accumulator 14 is measured, and it is then the process with block 42 of loop 41 continued.

The starting threshold mentioned is a speed at which starting the Internal combustion engine 1 in normal operation Internal combustion engine 1 is transferred. This speed can be predefined in advance. For example, the Speed is 500 revolutions per minute. Is also it is possible that this speed if necessary each time the Internal combustion engine 1 depending on the control unit 12 is determined by operating variables of the internal combustion engine 1.

By means of the loop 41 it is thus possible to This starts internal combustion engine 1 in shift operation there is a combined starting of the internal combustion engine 1 first in homogeneous operation and then in shift operation. At the same time, it is guaranteed that if one is too small Pressure pr in the pressure accumulator 14 immediately on the Homogeneous operation is switched back.

Is the same after operation of the internal combustion engine 1 brought to a standstill again, so it is possible that Control switch valve 19 so that no connection there is more between the pressure accumulator 14 and the High pressure pump 18 or the fuel tank 23. Des the pressure control valve 16 can then be closed become. In this way, the pressure accumulator 14 sealed off or closed. That leaves him with that Operation of the internal combustion engine 1 resulting high pressure pr in the pressure accumulator 14 for a long time, possibly up to receive a next start of the internal combustion engine 1.

The described method, in particular the operation of the Internal combustion engine 1 in homogeneous operation when the pressure pr in the pressure accumulator 14 is less than the minimum pressure prmin is not on starting the engine 1 limited, but can be very general in the operation of the Internal combustion engine 1 are applied. In particular all steps from block 36 in FIG. 3 can also during normal operation of internal combustion engine 1, if necessary be carried out continuously.

Claims (6)

1. Method for starting an internal combustion engine (1), in particular of a motor vehicle, in which the fuel which is to be injected for a combustion process is injected directly into a combustion chamber (4) during an intake phase and during a compression phase, and in which the pressure (pr) with which the fuel is injected into the combustion chamber (4) is determined, characterized in that when starting occurs the abovementioned pressure (pr) is built up, in that the fuel is injected during the intake phase if the pressure (pr) is lower than a predefinable minimum pressure (prmin), and in that the fuel is injected during the compression phase if the pressure (pr) is higher than the predefinable minimum pressure (prmin).
2. Method according to Claim 1, characterized in that the fuel is injected again during the intake phase if the pressure (pr) is lower than a predefinable hysteresis pressure (prhys), the hysteresis pressure (prhys) being lower than the minimum pressure (prmin).
3. Method according to one of Claims 1 or 2, characterized in that the pressure (pr) with which the fuel is injected into the combustion chamber (4) is controlled and/or regulated to a maximum pressure (prmax).
4. Method according to one of Claims 1 to 3, characterized in that it is used when the internal combustion engine (1) is started if the rotational speed of the internal combustion engine (1) is lower than a predefinable start-end threshold.
5. Electrical storage medium, in particular read-only memory for application in a controller (12) of an internal combustion engine (1), in particular of a motor vehicle, a program for carrying out a method according to one of Claims 1 to 4, which can run on a computing unit, in particular a microprocessor, being stored on the electrical storage medium.
6. Internal combustion engine (1), in particular for a motor vehicle, having an injection valve (9) with which the fuel which is to be injected for a combustion process can be injected directly into a combustion chamber (4) during an intake phase and during a compression phase, having a controller (12) for controlling and/or regulating the starting of the internal combustion engine, and having a pressure sensor (15) for measuring the pressure (pr) with which the fuel is injected into the combustion chamber (4), characterized in that when starting occurs the abovementioned pressure is built up, in that the controller (12) injects the fuel during the intake phase if the pressure (pr) is lower than a predefinable minimum pressure (prmin), and in that the controller (12) injects the fuel during the compression phase if the pressure (pr) is higher than the predefinable minimum pressure (prmin).

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