DE102015211571A1 - Method for diagnosing a function of an internal combustion engine - Google Patents

Abstract

There is described a method of diagnosing a function of an internal combustion engine (12) having an injector (26a-26d) of a port injection (20), a direct injection injector (30a-30d), and a cylinder (18a-18d) , The cylinder (18a-18d) can be acted upon by means of the injector (26a-26d) of the intake manifold injection (20) and / or by means of the injector (30a-30d) of the direct injection (22) with fuel. The method includes the steps of determining an operating condition of the cylinder (18a-18d) characterized by a used injection (20, 22) or injections (20, 22), capturing (S4) a ratio between an injection quantity of the fuel into the cylinder (18a-18d) by means of the injector (26a-26d) of the port injection (20) and an injection amount of the fuel into the cylinder (18a-18d) by means of the injector (30a-30d) of the direct injection (22), for the particular operating condition and Performing (S6) the diagnosis for the cylinder (18a-18d) at a fixed ratio.

Description

Technical area

The invention relates to a method for diagnosing a function of an internal combustion engine, a control device for controlling a diagnosis of a function of an internal combustion engine, a computer program and a machine-readable storage medium.

State of the art

It is known in practice that an internal combustion engine in an injection pure operation in which a cylinder of the internal combustion engine during a working cycle of the cylinder can be acted upon exclusively with an injector of a port injection or with a direct injection fuel injector, or in an injection Mixed operation can be operated in which a cylinder of the internal combustion engine can be acted upon during its working cycle with both the injector of the intake manifold injection and the injector of the direct injection with fuel. A relationship between an injection amount of the fuel by means of the injector of the intake manifold and an injection amount of the fuel by means of the injector of the direct injection is adjustable depending on engine-specific properties for different load points. The engine-specific properties must be set and controlled as accurately as possible and taking into account boundary conditions such as emission legislation, performance, starting behavior and also diagnoses for functions of the internal combustion engine for different driving situations of the internal combustion engine.

Disclosure of the invention

According to a first aspect of the invention, there is provided a method of diagnosing a function of an internal combustion engine having a port injection injector, a direct injection injector, and a cylinder, the cylinder via the injector injection injector and / or the direct injection fuel injector be acted upon, and the steps of determining an operating condition of the cylinder, which is characterized by a used injection or injections, holding a relationship between an injection amount of the fuel into the cylinder by means of the injector of the intake manifold injection and an injection amount of the fuel into the cylinder by means of the injector the direct injection for the particular operating condition and performing the diagnosis for the cylinder at a fixed ratio includes.

According to the invention, a control method is provided in which the ratio with which the cylinder applies fuel to it using manifold injection and direct injection, which may typically be referred to as a split factor, can be kept constant during a diagnostic run for the cylinder, such that a Switching the injection or injections during a certain operating state of the cylinder is inhibited. In particular, control information that may lead to a change in the ratio is no longer output to components of the internal combustion engine. Such switching could, on the one hand, result in moment-neutral operation of the internal combustion engine and equal fuel calculation, but require a different selection of diagnostics to be made due to compensation of the injections and other injection quantities of fuel for the injection or injections used.

For example, an operating condition of the cylinder may be characterized by exclusive use of the port injector injector, exclusive use of the direct injection injector, or parallel use of the port injector injectors and direct injection to inject fuel into the cylinder during one cylinder operating stroke. In this case, the ratio in an injection pure operation can correspond exactly to 100% or exactly 0% and in an injection mixed operation to a value between 0% and 100%.

Since the diagnosis is performed without switching the ratio, that is, in the same operating state and additionally in the constant ratio injection mixing mode, the reproducibility of the diagnosis can be significantly increased because the control of the fuel injection during the diagnosis and error detection and assignment of the error to the respective injection is simplified and also error-free.

The function of the internal combustion engine may relate to the mode of operation of the injections. The diagnosis can be an on-board diagnosis, that is, run during an operation of the internal combustion engine. Depending on the operating status and the ratio, the diagnosis may have a separate diagnostic function. The diagnosis or diagnostic function can determine a running noise of the internal combustion engine as a function of a deviation of a fuel-air mixture injected into the cylinder, and the diagnosis or diagnosis function can be, for example, a cylinder imbalance diagnosis (English: Cylinder Imbalance Diagnosis) , Implemented comparative values of the diagnosis or diagnosis function can be found in this Case concern at least one of the following parameters: Deviation of the fuel-air mixture from the expected fuel-air mixture in current driving behavior, speed of the internal combustion engine, load range of the internal combustion engine, etc.

In one embodiment, the method may include releasing the stalled ratio when the diagnosis, particularly successful, is completed or after a lapse of a predetermined time. A timeout can be realized by means of a time counter. As a result, the ratio can be kept as short as possible so that it can not interfere with the operation of the internal combustion engine.

In an embodiment, the method may include adjusting the ratio based on the diagnostic performed so that a detected error is considered for the corresponding injection. For this purpose, corresponding control information concerning the values of operating parameters of the injector or of the injectors of the relevant injection can be supplied to the corresponding affected injection. Such operating parameters may be, for example, an opening or closing time, a pressure of the fuel to be injected or a stroke position of the injector.

In one embodiment, the retention of the ratio may be accomplished by setting a bit to a predetermined value that may inhibit a change in the ratio. By setting the bit to another, different predetermined value, the ratio can be released again, so that the ratio can be readjusted. When the ratio is enabled, the diagnosis can not expire. This allows a particularly simple implementation of the method.

In one embodiment, the diagnostic may be performed when the operating condition of the cylinder is characterized by exclusive use of manifold injection or exclusive use of direct injection. Since both the port injection and the direct injection are active for the cylinder in an injection mixed mode, error detection in this operation may be difficult. Therefore, performing the diagnostics in an injection clean mode may allow a simple and direct location of the error with respect to the injection or injections used.

According to a second aspect of the invention, there is provided an electronic control apparatus for diagnosing a function of an internal combustion engine having a port injection injector, a direct injection injector and a cylinder, the cylinder being driven by the port injector and / or the injector Direct injection is acted upon with fuel, wherein the control device is adapted to determine an operating condition of the cylinder, which is characterized by a used injection or injections, a ratio between an injection amount of the fuel into the cylinder by means of the injector of the injection port and an injection amount of Fuel in the cylinder by means of the direct injection injector for the specific operating state hold, and perform the diagnosis of the cylinder at a fixed ratio.

The controller may be configured to perform the steps of the method according to the first aspect. For this purpose, the control unit may have one or more units which perform one or more of the method steps.

According to a third aspect of the invention, there is provided a computer program adapted to carry out steps of a method according to the first aspect.

According to a fourth aspect of the invention, a machine-readable storage medium is provided on which a computer program according to the fourth aspect is stored.

Brief description of the drawings

Embodiments are explained below with reference to the accompanying drawings.

1 shows a schematic view of an engine system, the function of which can be diagnosed by means of a method according to an embodiment of the invention.

2 shows a schematic view of a control unit of the engine system in 1 ,

3 schematically shows a method according to an embodiment of the invention when operating the engine system in 1 ,

Description of embodiments

An in 1 shown engine system 10 has an internal combustion engine 12 and an electronic control unit 14 which are electronically linked. The internal combustion engine 12 has an engine bank 16 with four cylinders 18a - 18d , a port injection 20 and a direct injection 22 on. The intake manifold injection 20 has a suction tube 24 on, with injectors 26a - 26d the intake manifold injection 20 is in fluid communication. Every injector 26a - 26d stands with one another each of the cylinders 18a - 18d in fluid communication. The direct injection 22 has a high-pressure accumulator 28 on that with injectors 30a - 30d the direct injection 22 is in fluid communication. Each of the injectors 30a - 30d stands with another of the cylinders 18a - 18d in fluid communication. The control unit 14 is with the intake manifold injection 20 and the direct injection 22 electronically coupled, so that the control unit 14 is set up to injectors 26a - 26d . 30a - 30d head for.

As in 2 shown points the controller 14 for each of the cylinders 18a - 18d identical units 40 - 46 on. For clarity's sake is in 2 an implementation of the controller 14 for only the cylinder 18a shown. The unit 40 serves to determine an operating condition of the cylinder 18a - 18d that by using the injection 20 . 22 or injections 20 . 22 for the cylinder 18a - 18d is characterized. An edition of the unit 40 indicating the particular operating condition becomes the unit 42 for holding a relationship between an injection amount of the fuel into the cylinder 18a - 18d by means of the injector 26a the intake manifold injection 20 and an injection amount of the fuel into the cylinder 18a - 18d by means of the injector 30a - 30d the direct injection 22 performed for the specific operating condition. This is the unit 42 configured to set a bit at a unique operating state to a predetermined value, for example "1", and to the unit 44 then issue the diagnosis for a function of the internal combustion engine 12 performs. The unit 44 can send diagnostic information to the unit after completion of the diagnosis 42 that indicates whether the diagnosis is complete. The unit 44 simultaneously outputs a diagnostic result to the unit 46 which is used to set the ratio based on the diagnosis result. The unit 42 is also set up to release the recorded relationship. For this, the bit is set to another predetermined value, for example "0", when the diagnostic information about the diagnostic completion of the unit 44 is supplied. The unit 42 can also implement a time counter, at the end of which the bit is set to the next value. The bit is sent to the unit 46 output. The unit 46 may then determine a suitable ratio based on the diagnostic result and appropriate control information to the cylinder 18a - 18d output. In other words, the bit with the value only becomes the unit 44 and the bit with the further value only to the unit 46 output.

As in 3 is shown during operation of the engine system 10 in 1 in a first method step S0 of a method for operating the internal combustion engine 12 an operating condition of the cylinder 18a - 18d by means of the unit 40 certainly. Depending on the detected operating state is in a step S2 by means of the unit 42 the relationship recorded. For this purpose, the bit is set to the predetermined value and to the unit 44 output. The bit is set only when the operating state of the cylinder 18a - 18d indicates that the cylinder 18a - 18d is acted upon in an injection pure operation with fuel. In a further method step S4, the diagnosis is carried out and after completion of the diagnosis, the diagnostic information to the unit 42 and parallel the diagnostic result to the unit 46 output. In a further method step S6 is by means of the unit 44 determines if the diagnosis by means of the unit 46 completely done. For this purpose, the supplied diagnostic information is processed. If this is the case, the ratio in a step S8 by means of the unit 42 enabled by setting the bit to the next value and to the unit 46 will spend. Otherwise, the step S2 is executed again. In a method step S10, by means of the unit 46 the ratio based on that of the unit 46 supplied diagnosis result and a corresponding control information for adjusting the ratio to the cylinder 18a - 18d output.

In the determination in step S6 negative, so the diagnosis is not completed, so the unit 42 in a method step S12 determine whether a predetermined time has expired. For this purpose, it is determined whether the time counter has expired. If this is the case, the steps S8, S10 are performed. Otherwise, the ratio is still recorded in step S2. The steps S6, S12 may occur at the same time or in a reverse order. At least one of the steps S6, S12 may optionally be performed.

Claims (8)

Method for diagnosing a function of an internal combustion engine ( 12 ), which has an injector ( 26a - 26d ) of a port injection ( 20 ), an injector ( 30a - 30d ) a direct injection ( 22 ) and a cylinder ( 18a - 18d ), wherein the cylinder ( 18a - 18d ) by means of the injector ( 26a - 26d ) of the intake manifold injection ( 20 ) and / or by means of the injector ( 30a - 30d ) of the direct injection ( 22 ) is fueled, comprising the steps of: - determining (S0) an operating condition of the cylinder ( 18a - 18d ) injected by a used injection ( 20 . 22 ) or injections ( 20 . 22 ), - holding (S2) a relationship between an injection quantity of the fuel into the cylinder ( 18a - 18d ) by means of the injector ( 26a - 26d ) of the intake manifold injection ( 20 ) and an injection quantity of the fuel into the cylinder ( 18a - 18d ) by means of the injector ( 30a - 30d ) of the direct injection ( 22 ) for the specific operating condition and - Performing (S4) the diagnosis for the cylinder ( 18a - 18d ) at fixed ratio. The method of claim 1, wherein the method comprises: - releasing (S8) the latched ratio when the diagnosis is completed or after a lapse of a predetermined time. The method of claim 1 or 2, wherein the method comprises: - setting (S10) the ratio based on the diagnosis made. Method according to one of the preceding claims, wherein the retention (S4) of the ratio by setting a bit to a predetermined value. Method according to one of the preceding claims, wherein the diagnosis is carried out when the operating state of the cylinder ( 18a - 18d ) by an exclusive use of the intake manifold injection ( 20 ) or by the exclusive use of direct injection ( 22 ) is characterized. Electronic control unit ( 14 ) for controlling a diagnosis of a function of an internal combustion engine ( 12 ), which has an injector ( 26a - 26d ) of a port injection ( 20 ), an injector ( 30a - 30d ) a direct injection ( 22 ) and a cylinder ( 18a - 18d ), wherein the cylinder ( 18a - 18d ) by means of the injector ( 26a - 26d ) of the intake manifold injection ( 20 ) and / or by means of the injector ( 30a - 30d ) of the direct injection ( 22 ) can be acted upon with fuel, wherein the control unit ( 14 ) is arranged to - an operating state of the cylinder ( 18a - 18d ) injected by a used injection ( 20 . 22 ) or injections ( 20 . 22 ), to determine - a ratio between an injection quantity of the fuel into the cylinder ( 18a - 18d ) by means of the injector ( 26a - 26d ) of the intake manifold injection ( 20 ) and an injection quantity of the fuel into the cylinder ( 18a - 18d ) by means of the injector ( 30a - 30d ) of the direct injection ( 22 ) for the specific operating condition, and - the diagnosis for the cylinder ( 18a - 18d ) at fixed ratio. Computer program adapted to carry out steps of a method according to one of claims 1 to 5. Machine-readable storage medium on which a computer program according to claim 8 is stored.

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