WO2017092972A1

WO2017092972A1 - Method and device for controlling a fuel supply system

Info

Publication number: WO2017092972A1
Application number: PCT/EP2016/076790
Authority: WO
Inventors: Klaus Joos; Alexander Schenck Zu Schweinsberg; Joerg Kuempel; Achim Hirchenhein; Michael Bauer
Original assignee: Robert Bosch Gmbh
Priority date: 2015-11-30
Filing date: 2016-11-07
Publication date: 2017-06-08
Also published as: DE102015223703A1; CN108368792A; CN108368792B

Abstract

The invention relates to a method for controlling a fuel supply system, wherein it is determined whether the fuel supply system is currently in an operating state in which a pressure limiting valve might respond, a meter reading is modified if the fuel supply system is currently in said operating state, and an error state of the pressure limiting valve is identified if the meter reading reaches a predefined value.

Description

description

title

Method and device for controlling a fuel supply system Prior art

The invention is based on a method according to the preamble of the independent claims. The present invention also provides a computer program, a machine-readable storage medium, a control unit and a program code together with processing instructions.

From DE 199 13 477 Al a method for controlling a fuel supply system is already known. There, a method is described for operating a fuel supply device of an internal combustion engine, in particular of a motor vehicle, in which the fuel quantity supplied to the internal combustion engine is controlled and / or regulated by means of a quantity control valve and a downstream high-pressure pump. The quantity control valve is influenced as a function of a battery voltage with which the quantity control valve is acted upon, and / or in dependence on a coil resistance of the quantity control valve. The output of the high-pressure pump is returned to a low-pressure region via a pressure relief valve, which is also referred to below as a pressure relief valve.

Normally, high-pressure injection systems have such a pressure limiting valve in order to avoid an impermissibly high increase in pressure. Such an impermissible pressure increase can occur, for example, after switching off, when the fuel heats up and pressure builds up in the system. Furthermore, an impermissible pressure in case of error z. B. occur in permanent full promotion of the high-pressure pump. Normally, this pressure relief valve is structurally integrated into the high-pressure pump. This pressure relief valve controls the high pressure quantity either directly into the low pressure circuit or into the delivery chamber of the high pressure pump. The opening pressure of the pressure limiting valve is preferably selected so that, on the one hand, an opening during normal operation is prevented, and on the other hand, the high-pressure injection valves can still open without problems and with good metering accuracy. Among other things, the setting tolerances, aging, pressure control errors as well as pressure pulsations and their temperature dependence must be taken into account.

The pressure pulsations that occur increase at higher system pressures and higher quantities of fuel to be injected. In addition, at higher

System pressures typically lower the potential opening pressures of the injector relative to the desired pressure. Thus, the opening pressure of the pressure limiting valve would have to be set to comparatively low values.

This can mean that an ideal design of the pressure relief valve is no longer possible. For the injection valve to open safely, it is necessary to select such a low opening pressure of the pressure limiting valve that it can open at corresponding pressure pulsations. It can therefore happen that the pressure relief valve opens unintentionally in certain operating conditions. These opening operations can damage the pressure relief valve. The pressure relief valve must therefore be designed to be robust, so that no damage occurs. This leads to higher costs for the pressure relief valve and larger space of the high pressure pump. On the other hand, the pressure pulsations can be minimized by thicker, higher cable diameters. This also results in higher costs and it requires more space in the engine. Alternatively, the target pressure at high

Speeds are lowered. This has the disadvantage that increased particulate emissions can occur.

According to the invention, it has been recognized that these pressure pulsations occur only in certain operating states which, in the case of different driving modes of the vehicle

Motor vehicle or different operation of the internal combustion engine occur with varying frequency. In particular, these pressure pulsations occur at high speeds in combination with a low temperature. Disclosure of the invention

Advantages of the invention

The inventive method with the features of the independent claim has the advantage that the dimensioning of the fuel system and the

Components of an engine design no longer need to ensure the operating life of the pressure relief valve under multiple "worst case" conditions, ie, the fuel system does not have to be designed for a driver with frequent engine operation at high speeds and low fuel / engine temperatures - the few vehicles whose pressure relief valve is over-stressed The rare case that the high-pressure pump or that the pressure relief valve must be replaced occurs only in very few vehicles with correspondingly high engine load. That is, only for drivers who the

Vehicle very often operate at high speeds in cold start, if necessary, a replacement of the high-pressure pump or the pressure relief valve in the course of the vehicle life is necessary. It is particularly advantageous if it is determined whether an operating state exists by an increased load of the pressure relief valve occurs. If such an operating state exists, then a counter reading is changed. An error state of the pressure relief valve is detected when the count reaches a predetermined value.

In a first embodiment, an error condition is detected when a pressure value exceeds a threshold several times. For this purpose, a counter reading is changed if the pressure value exceeds the threshold value. If the counter reaches a preset value, an error condition is detected. In this case, the pressure value of the pressure in the delivery chamber of the high-pressure pump is preferably seeks. This is particularly advantageous because this pressure value characterizes the load on the high-pressure pump and the pressure-limiting valve.

In a second embodiment, a fault condition is detected when an operating condition exists several times in which the pressure relief valve is possibly responsive. For this purpose, a meter reading is changed when an operating condition exists in which the pressure relief valve may respond. If the counter reaches a preset value, an error condition is detected.

Such an operating state, in which the pressure relief valve possibly responds, is in particular present when a pressure or a pressure difference at the pressure limiting valve is greater than an opening pressure of the pressure limiting valve.

Alternatively, it can also be provided that the pressure at the pressure limiting valve or the pressure in the pumping chamber is not measured but is read from a characteristic field as a function of operating parameters. This has the advantage that no high-precision and rapid pressure measurement is necessary.

In a first advantageous embodiment, it is provided that an entry into an error memory occurs at a first counter reading.

In a second advantageous embodiment, it is provided that, in the case of a second meter reading, a setpoint value for a fuel pressure in the fuel supply system is reduced.

It is particularly advantageous if the pressure in the high-pressure region or in the delivery chamber of the high-pressure pump is read out from a characteristic field on the basis of at least one of the engine speed, load of the engine, fuel temperature, cooling water temperature or fuel grade. It is particularly advantageous if the content of the counter is changed if at least one of the variables internal combustion engine speed, internal combustion engine load, fuel temperature, cooling water temperature or fuel type assumes values at which pressure pulsations usually occur. In a further aspect, the invention relates to a new program code together with processing instructions for creating a computer program executable on a control device, in particular source code with compilation and / or linking instructions, the program code resulting in the computer program for performing all the steps of one of the described methods, if it is converted according to the processing instructions into an executable computer program, that is in particular compiled and / or linked. This program code can be given in particular by source code, which can be downloaded for example from a server on the Internet.

Brief description of the drawings

Embodiments of the invention are illustrated in the drawings and explained in more detail in the following description. Show it

Fig. 1 shows the essential elements of a fuel supply system and

2 shows a flow chart of the procedure according to the invention. Embodiments of the invention

In Fig. 1, the essential elements of a fuel supply system are shown. With 100 is designated a rail, in which by a high-pressure pump 110 fuel is conveyed. The fuel delivered by the high pressure pump 110 is provided by a low pressure pump 120, which removes this amount of fuel to a tank 130. The output of the high pressure pump 110 and the input of the high pressure pump can be connected via a pressure relief valve 140. If the pressure in the rail 100 rises above a pressure which corresponds to the opening pressure of the pressure-limiting valve 140, then this pressure-limiting valve 140 opens the connection between the rail and the rail

Low pressure range between the high pressure pump 110 and the low pressure pump 120. In an advantageous embodiment may also be provided that the pressure relief valve 140 connects the output of the high pressure pump with the delivery chamber of the high pressure pump. 2, an embodiment of the driving according to the invention is shown. In a first step 200, a counter I with the value 0 is initialized. Subsequently, in step 210, the fuel pressure P is determined at the pressure limiting valve. Preferably, this value is read from a map depending on various operating parameters that characterize the operating state of the internal combustion engine. As operating parameters that characterize the operating state, in particular the variables rotational speed, load, fuel temperature and / or fuel grade are used. One or more of these sizes can be used. Alternatively, the fuel pressure can also be measured by means of a suitable sensor.

The subsequent query 220 checks whether the fuel pressure P is greater than the opening pressure PÖ of the pressure relief valve. Recognizes the query 220 that this is not the case, then step 210 again. If the query 220 detects that the fuel pressure is greater than the opening pressure, the counter I is increased by the value 1 in step 230. The subsequent query 240 checks whether the counter content I is greater than a first threshold value Sl. If this is not the case, step 210 is carried out again. If this is the case, an entry in an error memory is made in step 250. The subsequent query 260 checks whether an exchange of the pressure relief valve or the entire high-pressure pump has been made in a workshop visit due to the set fault memory. If this is the case, the counter I is reset to zero in step 200. If this is not the case, it is checked in a further query 270 whether the counter I is greater than a second threshold value S2. If this is not the case, step 210 follows again. If this is the case, the setpoint PS for the rail pressure is reset to a low value in step 280.

In an alternative embodiment, it may be provided that in steps 210, 220 it is not checked whether the pressure is greater than an opening pressure, but whether there are operating states in which the opening pressure PÖ is usually exceeded due to pressure pulsations. For this purpose, preferably the same operating parameters are evaluated, which are used to determine the pressure. Ie. It is decided on the basis of at least one of the variables load, rotational speed fuel temperature and / or fuel grade, whether an operating condition exists, in which an exceeding of the opening pressure PÖ the pressure relief valve can occur. If this is the case, the counter I is also increased by one in step 230.

Furthermore, as an alternative, it may be provided that only a threshold value is checked, ie. H. It can be provided that when exceeding a

Threshold is a fault memory is set or that when a threshold value is exceeded, the setpoint PS for the pressure is reduced.

In a particularly advantageous embodiment, it is provided that the opening pressure PÖ at which the pressure limiting valve opens is occasionally redetermined. This happens, for example, in that the rail pressure is increased slowly until the opening pressure reaches PÖ and this is detected. This newly determined value for the opening pressure is then used for the further procedure.

In addition or as an alternative to determining the opening pressure excesses at a pressure limiting valve, an exceeding of the maximum permissible pressures in the delivery chamber of a high-pressure pump can be determined and processed in the corresponding manner. In this case, the pressure in the delivery chamber of the high-pressure pump can be measured by means of a sensor or determined from other variables, that is, calculated or read out from a characteristic field.

If the pressure value in the delivery chamber of the high-pressure pump exceeds a threshold value, then the counter reading is changed correspondingly as in the case of the opening pressure exceedance, and an error condition is detected based on the counter reading.

Claims

claims

A method of controlling a fuel supply system comprising a

High-pressure pump and a pressure limiting valve comprises that it is determined whether an operating condition is present by an increased load on the pressure relief valve that a count is changed when the operating condition exists and that a fault condition of the pressure relief valve is detected when the count reaches a predetermined value.

2. The method according to claim 1, characterized in that such an operating state is present when the pressure relief valve possibly responsive.

3. The method according to claim 1, characterized in that such operating state is present when a pressure value in a delivery chamber of the high-pressure pump exceeds a threshold value.

4. The method according to claim 1, characterized in that at an initial count an entry in an error memory.

5. The method of claim 1 or 4, characterized in that at a second count a setpoint for a fuel pressure in the fuel supply system is reduced.

6. The method according to claim 1, characterized in that for detecting whether the operating state is present by a pressure relief valve possibly responds, at least one of the variables rotational speed, load, fuel temperature or fuel grade is evaluated.

7. The method according to claim 1, characterized in that the presence of the operating condition by a pressure limiting valve may is recognized when a fuel pressure exceeds a threshold.

8. The method according to any one of the preceding claims, characterized in that the fuel pressure is determined, wherein the pressure relief valve opens.

A computer program configured to perform all the steps of one of the methods of any one of claims 1 to 8.

10. A machine-readable storage medium on which the computer program according to claim 9 is stored.

11. A control unit, which is designed to carry out all the steps of one of the methods according to one of claims 1 to 8.

12. Program code, along with processing instructions for creating a computer program executable on a controller, the program code providing the computer program of claim 9 when converted into an executable computer program according to the processing instructions.