DE4213807C2 - Method for recording operating variables of an internal combustion engine - Google Patents

Description

The invention relates to a method for detection solution and processing of company sizes of a facility, esp special of operating parameters of an internal combustion engine and / or an exhaust gas purification device connected downstream of an internal combustion engine tung.

There are procedures for capturing and Processing of company sizes of a facility, in particular of Operating variables of an internal combustion engine, known, one elec tronic control unit fed the recorded operating variables and are only processed in this for control purposes. The disadvantage of permanent recording is that an off evaluation of the recorded operating variables is complex. With a sub A distinction between faultless and faulty company size is one Statement (assessment) of the circumstances leading to a faulty loading drive size lead, not possible.

DE 41 12 588 A1, which comes closest to the subject matter of the invention, contains a device for fault diagnosis of vehicle engines. From this document, method steps for representing the mode of operation of the diagnostic device are known, which have the following measures:

• - Acquisition and processing of operating parameters of an internal combustion engine machine;  
• - The recorded operating parameters are an electronic tax Unit supplied, the operation of the internal combustion engine in Ab controls dependency on the recorded operating variables;
• - The operating variables are stored in a memory of the control unit saved.

The invention has for its object a method for detection solution and processing of company sizes of a facility, esp special of operating parameters of an internal combustion engine and / or an exhaust gas purification device connected downstream of an internal combustion engine to indicate by means of which the data collected is recorded and verified can be worked, whereby an evaluation of the data is possible.

This task is solved by recording company sizes and an electronic control unit that operates the facility in Controls or regulates the dependency of the recorded operating variables leads where they are saved in a memory of the control unit be saved and the storage of at least one company size depending on a predefinable operating state of the on direction is carried out. This procedure (in the following on Example of an internal combustion engine shown) has the advantage that with large amounts of data, such as those used to control the Operation of an internal combustion engine are required, the spoke tion is only carried out when a specifiable or a certain operating state of the internal combustion engine is present. The Ab Storage or processing of at least two company sizes the device (internal combustion engine) has the advantage that a loading evaluation of the stored data or the operating variables possible is. For example, a value assigned to a speed (at for example, an oil pressure value) correctly while at this speed present higher or lower value represents an error. In addition, it is possible due to the storage and the Evaluation of at least two company variables, a diagnosis or  carry out early fault detection. With the sizes of the Internal combustion engines are essentially sizes such as Speed, oil pressure, oil temperature, coolant temperature, a fuel Air ratio (with a petrol engine) or by one position Control rod of an injection pump (in a diesel engine) or all common to sizes that are on an internal combustion engine itself and / or on their components (e.g. exhaust gas turbocharger, catalytic converter or particle filter) are measurable. That of the electronic control unit supplied operating quantities can be processed in the tax unit are checked for plausibility or errors (e.g. De defect of a sensor, interruption or short circuit of a supply line of a sensor). The process variables are saved if a predeterminable value of a first company variable is available the internal combustion engine and is preselected with the presence of a ren value of a further operating variable of the internal combustion engine ends, at least the predeterminable value of the first operating variable represents the operating status. It is therefore possible that in Dependence of the area of application or the application of the Internal combustion engine different start and end conditions for the Storage of the company variables can be specified. That's how it works revolve around the speed, for example, for a first operating variable the internal combustion engine. If after the start of the internal combustion engine ne the speed a predeterminable value (for example idling speed), the storage of the data (both the storage of the speed as well as the storage at least at least one other company size). If e.g. B. the power supply the control unit as a further operating variable of the internal combustion engine is defined, the storage of the operating parameters is then ended det when the power is turned off. So it is possible that large amounts of data can be collected because only such data are saved that are important and are meaningful. It is also conceivable that the first and the further farm size by a single farm size delt. For example, the storage is above the idling speed  performed while below idle speed no storage takes place. If the specifiable values before data (company variables) are recorded (continuously or discontinuous), with the discontinuous recording the Sampling rate is constant or can be specified. Thereby the registration and Storage as well as the sampling rate especially from a pro process dynamics, the function of the control unit and the capacity of the Saving dependent. Process dynamics mean that company sizes that change quickly over time (such as the Speed) recorded and stored in smaller, predefinable time intervals are saved as such company variables that are only ge change the ring (such as the oil temperature). The storage of such Company sizes can take place in longer periods. The Operating variables to be saved are stored in one memory each place one at least two-dimensional  Storage with a predetermined number of storage locations saves. This ensures that every single recorded operation size is stored in a memory location so that at a late Ren evaluation on the recorded farm sizes can be used can. These saved operating variables can then be in a late linked evaluation and related be, so that a statement about an error-free or faulty Operation of a system, in particular an internal combustion engine, possible is. Depending on the tendency of the saved quantities (e.g. continuous Rise or fall during system operation) is also early error detection possible. So when using the Method on an internal combustion engine or a particle filter system a diesel internal combustion engine in time for maintenance wear can be detected and the fault can be prevented. In addition, the method according to the invention leads to a needs-based maintenance by using only such components exchanged or repaired, which leads to an impairment or lead to an error.

In a further development of the invention, at least partially Occupancy of the memory locations a predefinable number of occupied memories put together and abge in an unused memory location saves. This procedure has the advantage that - in addition to the process Processing and storage of large amounts of data - data on one large period recorded and in a memory with predetermined and limited storage capacity can be saved. The Summary of storage locations or the summary of  Sizes that are stored in these storage locations are such that the summarized data remain meaningful. As an example called that when using the method according to the invention an internal combustion engine the operating variables such as speed, pressures or Temperatures by averaging or by minimal / Maximum value formation can be summarized. Such a from for example, two values of the same size combined is then saved to an unused storage location.

In a further embodiment of the invention, when all are occupied Storage locations at least partially use the occupied storage locations storage of the following and recorded operating variables Approved. This ensures that when the Storage capacity of both a variety of summarized data (whereby the summary can be repeated several times) as well a set of current farm sizes is available with which one Evaluation of the recorded and stored data is possible.

In a further development of the invention, the operating variables in the detection checked for plausibility and when leaving a permissible Value range generates a signal representing an error. At this signal is a value instead of the detected one incorrect size of the operation (e.g. due to the failure of a sensor or other interference) is stored in a storage location. In order to it can be determined whether the recording of a company size is only temporary suspended or whether there is a permanent failure to record. In addition, it is conceivable that the  Acquisition of a company size of the value based on the previous one Acquisition of the company size is interpolated. It is also conceivable display the stored value directly or as part of a Read maintenance work from memory. Because of the generation The value ensures that, for example, if a Sensors for the acquisition of a company variable the acquisition of the other Company sizes is feasible. The review has the advantage that only error-free signals of the operating variables are recorded and stored become. Due to the generation of a fault Signals is an early indication of a defect in the Given internal combustion engine, so that, for. B. maintenance work can be carried out as quickly as possible to avoid damage.

In a further development of the invention, the stored Operating variables at least partially with specified target values compared and a signal representing the comparison result is generated. This has - analogous to the procedure described so far The advantage that if a permissible value range is exceeded with With the help of the generation of the signal representing the comparison result additional company variables are saved (especially in one further memory) to evaluate whether the exceeding of the permissible value range represents an error or a certain correct condition of the internal combustion engine corresponds.

In a development of the invention, the operating state of the Internal combustion engine divided into sections and the detection and Storage of the company sizes for the individual sub-areas  performed separately. In the partial areas of the operating state of the Internal combustion engines are areas such as No load, partial load or full load or even idle or overrun (e.g. with a vehicle). To evaluate the present Farm sizes in the individual sub-areas are the recorded Operating variables, for example, stored in separate memories, so that an evaluation for these separate areas is possible. Alternatively this also includes the assignment of a time variable (for example using a Counter or a real time clock) possible so that ascertainable and how long the internal combustion engine can be evaluated in which Subareas has been operated. This is a far-reaching and differentiated evaluation of the operating states of the internal combustion engine guaranteed.

In a continuing embodiment of the invention, the stored operating parameters via an interface of the read electronic control unit and for maintenance of Internal combustion engine used. Due to the reading of the Stored operating variables can, for example, be one Operator in case of maintenance (inspection) Notes on faulty Components are given. When using an expert system It is especially with the help of an appropriately designed Software possible, the saved operating parameters graphically to represent and a logical link of the company sizes make so that defects are recognized and also due to the Evaluation evidence of an abnormal condition of the Internal combustion engine or one of its components are given.  

It should also be pointed out that the method is generally for Collection and processing of data in the event of wear underlying device, applicable. A preferred one The field of application of the method according to the invention is detection and processing of operating sizes of internal combustion engines, wherein it can be both petrol and diesel engines. On Another special area of application of the method is detection and processing of operating parameters that are required for a burner, especially in a burner of a diesel particle filter system or with the entire system. The application of the The method according to the invention in particular enables unattended operation, convenient maintenance, an increase in shutdown reliability as well as a reduction in maintenance costs and the Avoiding total failures on one system or on one Facility.

An exemplary device on the the method according to the invention is applicable, and a preferred one Execution of the method according to the invention are detailed below described and shown in the figures.

Show it:

Fig. 1 A device for detecting operating parameters of an internal combustion engine,

Fig. 2 shows a memory organization,

Fig. 3 shows a process of storing an operating variable.

Fig. 1 shows an apparatus for detecting operating parameters of an internal combustion engine, wherein the apparatus is applicable to the inventive method. An electronic control unit 1 detects the operating variables of the internal combustion engine, not shown, via a plurality of sensor inputs 2 (sensors). The signals detected at the sensor inputs 2 are fed to a computing unit 4.0 via an interface 3 (for example an A / D converter). A memory 4.1 is assigned to the computing unit 4.0 , the memory organization of the memory 4.1 being explained in more detail using a preferred exemplary embodiment in FIG. 2. The electronic control unit 1 with the sensor inputs 2 is part of a complex control device which is assigned to the internal combustion engine (and / or a diesel particle filter system). In addition, an independent (module-like) design of the electronic control unit 1 for recording and storing the operating variables is also conceivable. The electronic control unit 1 is permanently or, if necessary, assigned an evaluation unit 5 via a further interface 6 . The evaluation unit 5 is, for example, an expert system that can be connected, for example, as part of normal maintenance. In addition, in a preferred embodiment, the electronic control unit 1 is connected to an output unit 8 with the interposition of a comparison unit 7 . This arrangement has the advantage that when at least one operating variable leaves a permissible value range, the comparison unit 7 detects this leaving (comparison with predefinable limit values or limit ranges) and the output unit 8 emits a warning signal. This can be done in particular in optical or acoustic form.

Fig. 2 shows a memory organization showing the memory 4.1. The memory 4.1 is designed in particular as a ring or matrix memory. Such a ring or matrix memory is provided for each storage of a recorded operating variable. The respective lines of the memory 4 , 1 are designated with the index m and the respective columns of the memory (memory locations) 4.1 with the index n. Because of the choice of the memory rows m and the memory columns n, the capacity of the memory 4.1 can be selected within wide limits.

Fig. 3 shows a storing process an operating variable. For the simultaneous storage of further operating variables, the memory 4.1 is provided in multiple or multi-dimensional form. Depending on a predeterminable operating state of the internal combustion engine (for example, the detected speed is above an idling speed value), at least one further operating variable of the internal combustion engine is recorded and stored. The further operating variable detected at predefinable time intervals is stored one after the other on the zero to third memory location of the first memory line of the memory 4.1 . After the zero memory line is occupied, a predeterminable number of occupied memory locations is combined and stored in an unused memory location. In Fig. 3 is shown in a zero-th line of memory that the zeroth and first memory location pooled and stored as the combined value to the zero-th memory location of the first memory line (Step A). The zeroth and first memory location of the zeroth memory line are thus free, so that further recorded data relating to the operating size can be stored thereon. The second and third memory locations of the zero memory line are then combined, the combined value being stored in the first memory location of the first memory line. The zero memory line is thus free and further operating variables can be recorded and stored. If the zeroth memory line is occupied after a new run, the storage locations are summarized analogously to steps A and B, the combined values being stored in the second storage location (step C) and in the third storage location (step D) of the first storage line. If memory line 1 is occupied, an analog summary and storage of the summarized values takes place according to steps E and F in the next memory line (memory line 2 ). The memory 4.1 shown in FIG. 3 has three memory rows and four memory columns (memory locations). In the process described, two storage locations are always combined in a suitable manner. The number of memory rows and memory columns and the number of memory locations to be summarized is arbitrary and can be adapted to the circuitry and existing conditions. The capacity (storage duration) of a memory line can be calculated from the acquisition time of the operating variables, ie the time after which a further operating variable is recorded, and from the number of memory columns. The capacity of the entire memory 4.1 can be calculated from this storage period using the number of memory columns.

In addition, it is conceivable that not only a single operating variable is stored on each memory location, but that several operating variables can be stored in one memory location in a correspondingly coded form (for example in a bit structure). This can be done, for example, in such a way that the analogue measured operating variables are converted into digital data, the converted data being combined in a bit word, the individual bit words being able to be stored in the individual memory locations of the appropriately configured memory 4.1 . The method according to the invention can also be applied to this.

Claims (8)

1. A method for detecting and processing operating parameters of a device, in particular operating parameters of an internal combustion engine and / or an exhaust gas purification device connected downstream of an internal combustion engine, wherein operating parameters are recorded and supplied to an electronic control unit which controls the operation of the device as a function of the recorded operating parameters , where they are stored in a memory ( 4.1 ) of the control unit ( 1 ) in such a way that the storage of the operating variables in the presence of a predeterminable value of a first operating variable of the device begins and ends with the presence of a predefinable value of a further operating variable of the device , wherein at least the predeterminable value of the first operating variable represents the operating state and that the operating variables to be stored are each in a memory location of an at least two-dimensional memory with a predetermined number of memory locations can be saved. 2. The method according to claim 1, characterized in that the company sizes continuously captures or scanned and saved at predeterminable time intervals be saved.   3. The method according to any one of the preceding claims, characterized in that at least partial Bele a predefinable number of used memories put together and stored in an unoccupied memory location get saved. 4. The method according to any one of the preceding claims, characterized in that when all memory locations are occupied, the occupied memory locations at least partially for storing the following recorded operating variables are released. 5. The method according to any one of the preceding claims, characterized in that the farm sizes when recording are checked for plausibility and if one is exceeded a signal representing an error is fathered. 6. The method according to any one of the preceding claims, characterized in that the recorded operating parameters at least at least partially compared with predetermined target values and a signal representing the comparison result is generated, wherein store a value or structure corresponding to the signal is cash. 7. The method according to any one of the preceding claims, characterized in that the operating state of the internal combustion engine machine is divided into sub-areas and the acquisition and ab storage of the operating parameters for the individual sub-areas is carried out separately. 8. The method according to any one of the preceding claims, characterized in that the stored operating variables are read out via an interface ( 6 ) of the electronic control unit ( 1 ) and used for maintenance of the device.