EP1388660A1 - Device and method for increasing power of an internal combustion engine - Google Patents

Abstract

With engines having computer control the fuel supply can be increased from that required for normal power to a level which will increase the power. The invention proposes that under specific driving conditions, e.g. in first or reverse gear, the increased level is reduced or even cancelled. An independent claim is also included for equipment.

Description

The invention relates to a method for increasing the performance of an internal combustion engine a motor vehicle with a motor control, the input signals receives and generates control commands for a normal operation of the internal combustion engine, wherein the input signals and / or the control commands in the sense of an increase in performance be strengthened. Furthermore, the invention relates to a device to carry out such a method.

It is known that internal combustion engines, depending on the nature of their control different Show achievements. For example, a typical 2.0l Inline four-cylinder CommonRail diesel engine standard in different Power levels from about 85 kW (116 hp) / 265 Nm to 110 kW (150 hp) / 330 Nm offered. The different performance of the otherwise identical engines is thereby only by the vote of the engine control or the Calibration achieved.

Measures to increase the performance of an internal combustion engine are also from Tuners made, which is a vehicle delivered by the manufacturer subsequently change according to customer requirements. Because in this case in usually there is no access to the manufacturer's calibration of the engine control, simpler measures to increase performance must be used. Such measures are particularly simple in a common rail diesel However, in other types of diesel (such as distributor injection pump, Pump nozzle and the like) or in gasoline engines with charging principle can be proceeded similarly. In the period before and during the mixture ignition This is two to six times fuel into the combustion chamber of the diesel engine injected. Because the output of diesel engines not about the amount of fuel-air mixture supplied, but about the Amount of supplied fuel, which is supplied to the intake air controlled is, and since the soot limit in the range of an air-fuel ratio λ from 1.1 to 1.3 from the factory programmed motor controls usually with a clear distance can be maintained an increase in performance of the diesel engine by increasing the injected Fuel quantity can be achieved.

Furthermore, the boost pressure of the usual in modern diesel engines Turbocharger be increased. This will reduce the amount of engine in the engine Increase combustion available fuel-air mixture. from that also follows a larger power and torque output. The increase of Boost pressure can e.g. be achieved by that of the engine to the engine control supplied signals are changed.

In the implementation of the above principles is between the engine control and the individual engine components (eg injection valves, turbocharger incl. Overpressure control unit) of the internal combustion engine interposed a so-called black box, which by a "gain" of the normal input signals and / or engine control commands for extended and increased injection strokes and / or increased boost pressure and thus provides the desired magnification of the for the combustion available fuel-air mixture causes. The advantage of such a black box is that the function of the manufacturer given engine control must not be known and that in principle all characteristics of the manufacturer programming as well as the vehicle / engine behavior completely preserved. The exhaust behavior usually remains unchanged and expensive exhaust gas measurements can be dispensed with. The motor behaves only as if the series engine with its performance very far behind sprinkle above. The power and torque curve is characterized by such Measures approximately shifted upwards by a constant multiplication factor, typically torque increases from 260 Nm to 320 Nm can be achieved.

A disadvantage of the described subsequent performance increase consists in a increased load on the drive train of the motor vehicle, which itself makes noticeable especially in first gear and / or in reverse. typically, the forces in first gear are increased by more than 20%, so that it After a short transmission life can lead to violent breakages.

Against this background, it was an object of the present invention, a method and to provide a device for increasing the performance of an internal combustion engine, which while sparing the drive train improved utilization of the potential to increase performance.

This object is achieved by a method having the features of claim 1 as well solved by a device having the features of claim 9.

Advantageous embodiments are contained in the subclaims.

The inventive method is used to increase the performance of the internal combustion engine (preferably a diesel engine and / or a gasoline engine with charging) of a motor vehicle with a motor control, which is manufacturer-side designed such that these input signals i receives and generates control commands s for normal operation of the internal combustion engine. In order to achieve an increase in performance compared with normal operation, in the method the input signals i are "amplified" on their way to the motor control and / or the control commands s on their way from the engine control to the internal combustion engine in the sense of an increase in output. This means that from a given input signal i an "amplified" input signal i ^{* is} calculated and forwarded to the motor controller, which there (in normal further processing) leads to a control command which causes a higher power generation of the internal combustion engine than the original input signal i belonging control command , In a similar manner, a "boosted" control command s * is calculated from a given control command s and forwarded to the internal combustion engine, which generates a higher power there than the original control command s. In this sense, the term "amplification" of input signals or control commands is to be understood in the context of the present application, even if in individual cases such a "gain" should consist concretely in the reduction of a numerical value or a signal size. The inventive method is characterized in that the gain of the input signals and / or the control commands s is reduced in dependence on the operating condition of the motor vehicle, so that an overload of the drive train of the motor vehicle is avoided. In this case, a reduction of the gain includes in particular that the reduced-amplified control command s ** is closer to the original control command s than the amplified control command s *.

An amplification of the input signals i and / or the control commands s can be achieved in particular by the multiplication by a constant factor k , this factor having a value greater than or equal to one, if the input signal i and / or the control command s is a positive quantity and the power of the internal combustion engine monotonically increasing depends on this. In this case, the reduction of the gain can be done by reducing the said factor k.

With the method according to the invention, the available power potential in the control of an internal combustion engine by increasing the basic gain be better exploited, while the load limits of Motor vehicle adhered to by the situation-dependent reduction of the gain and thus normal life of the drive train can be achieved. It turns out that the load limits of the drive train depending on Operating state can be very different. In the usual orientation on a single, flat load limit therefore remained in many operating conditions of the motor vehicle, a performance increase potential unused and / or it was in other operating conditions, the respective load limit exceeded and thus reduces the life of the drive train. The invention In contrast, the result of the process is an improved one Adaptation of the power increase to the operating condition of the motor vehicle.

The type of control commands s or the amplified control commands s ^* or the reduced-amplified control commands s ^** may vary depending on the underlying motor type. In particular, these may be signals which predetermine the fuel quantity to be injected and / or the charge pressure, the boosted control commands s ^* or s ^** leading to the injection of a larger fuel quantity or to a higher charge pressure than the unamplified control commands s.

The input signals i, the amplified input signals i * and the reduced-amplified input signals i ** may, for. B. to the measured boost pressure of the engine, the amplified input signals i ^* or i ^** lead to a higher boost pressure than the unamplified input signals i .

According to a preferred embodiment of the method, the gain of the input signals i and / or the control commands s is reduced as a function of the engaged gear of a transmission gearbox of the motor vehicle. In particular, the amplification of the input signals i and / or the control commands s can be maximally reduced when the first gear is engaged and / or the reverse gear is engaged. In extreme cases, the gain of the input signals and / or the control commands in these cases can also be completely suppressed, so that the original input signals i and / or control commands s are forwarded to the engine control or internal combustion engine. With the consideration of the engaged gear and in particular the small gears can be ensured that in these critical cases, the permissible force and torque loads are not exceeded. The transmission gear is thereby spared and its normal life is maintained.

The gear currently engaged in the transmission is used in many motor vehicles immediately displayed by corresponding signals. If such signals not available, the gear can also from the driving speed of the motor vehicle and the engine speed are calculated if the im Gearbox adjustable gear ratios are known.

According to another embodiment of the method, the gain of the input signals i and / or the control commands s in certain speed ranges of the internal combustion engine can be reduced. Advantageously, this reduction is combined with the above-mentioned, dependent on the engaged gear reduction. Due to the additional consideration of the speed, it is possible to make finer distinctions within an engaged gear, since the load limit is usually speed-dependent. In this way, the performance enhancement potential can be exploited even better.

According to a development of the method, the amplification of the input signals i and / or of the control commands s is not reduced when the motor vehicle accelerates. An acceleration state of the motor vehicle can be detected in particular by observing the change in rotational speed of the internal combustion engine and / or the change in the vehicle speed. It has been found that in an acceleration state, the forces generated by the internal combustion engine are consumed mainly for accelerating the components of the internal combustion engine and therefore are not effective as loads on the subsequent drive train and the transmission gear. For this reason, the power increase in acceleration states can take on greater values without disadvantages, which is achieved by the suspension of the drive train's gentle reduction of the gain.

The method described above can be done in a particularly simple manner without changes on the hardware of the motor vehicle by a corresponding adjustment the programming of the engine control can be implemented. The reinforcement the input signals and / or the control commands takes place here by Conversions within the engine control.

The invention further relates to a device for increasing the performance of the internal combustion engine of a motor vehicle, preferably a diesel engine and / or a gasoline engine with charging, said device being arranged functionally between the engine control of the motor vehicle and the internal combustion engine. The device receives there input signals i directed to the engine control and / or control commands s coming from the engine control, which are designed for a normal operation of the internal combustion engine, and forwards these input signals / control commands as amplified input signals / control commands to the engine control / internal combustion engine, as above with reference to the method, a "gain" of the input signals / control commands is to be understood in the sense of a resulting increase in the output of the internal combustion engine. The device is characterized in that it is designed to carry out a method of the kind explained above. That is, the device is designed in particular to reduce the gain of the input signals i and / or the control commands s depending on the operating state of the motor vehicle so that an overload of the drive train of the motor vehicle is avoided and corresponding load limits are met.

The device may in particular signal inputs for the engine speed, the Motor vehicle speed and / or the currently engaged gear of a transmission of the motor vehicle. The presence of such Signal inputs allow to reduce the gain of the input signals and / or the control commands depending on the mentioned sizes or Calculate values calculated from this. In particular, the reduction be maximally designed with engaged first gear or reverse gear.

In the following, the invention will be explained in more detail with reference to the figure by way of example. The single figure shows schematically the components of a motor vehicle an inventive performance increase of the engine.

In the provided with the reference numeral 3 internal combustion engine may in particular to be a diesel engine, whose performance is injected by the Fuel quantity is controlled. The torque generated by the diesel engine 3 is in the subsequent drive train via a transmission gear. 4 passed to the wheels 5 of the motor vehicle.

A motor controller 1 configured in a conventional manner by the manufacturer of the motor vehicle generates (among other things) control commands s for the internal combustion engine 3, the value of which determines, for example, the length and size of the injection strokes and thus the quantity of fuel to be injected. In an unchanged after its production motor vehicle, the control commands s are forwarded directly to the internal combustion engine 3.

To increase the performance of the motor vehicle as part of a tuning, it is known to set a device 2 ("black box") in the signal transmission path between the engine controller 1 and the engine 3, said device 2 receives the normal control commands s of the engine controller 1 and amplified therefrom control signals s ^* calculated and forwarded to the internal combustion engine 3. The amplified control signals s ^* lead to the internal combustion engine to generate a higher power. For example, the injection strokes predetermined by the engine controller 1 may be lengthened and / or increased. The calculation of the amplified control signal s ^* takes place in the simplest case by the multiplication by a constant factor k according to FIG s * = k · s ( k ≥ 1 ).

Additionally or alternatively, the apparatus 2 may also determined for the engine controller 1 inputs i from the engine, such as the measured charging pressure, "amplify", that their (normal) processing in the engine controller 1 leads to an increased power of the internal combustion engine. 3 Also, the calculation of the amplified input signal i ^* can be carried out by multiplication by a factor k.

The performance increase described so far by the device 2 has the disadvantage that in certain operating conditions, the load limit of the drive train may be exceeded by the increased forces and torques or that in other operating conditions, the performance increase potential may not be exploited to the maximum. In order to avoid these disadvantages, the device 2 according to the invention is designed such that it reduces the gain of the input signals i and the control signal s depending on the operating state of the internal combustion engine. That is to say that a "reduced-amplified" input signal i ^{** is determined} from the input signal i and a "reduced-amplified" control signal s ^{** is} determined from the control signal s of the motor controller 1. This can be achieved, for example, by multiplying the above-mentioned amplified input signal i ^* or control signal s ^* by a reduction factor r ≦ 1 according to FIG i ** = r · i * = r * k * i (k ≥ 1) respectively. s ** = r · s * = r · k · s (k ≥ 1) ,

Since the introduced reduction factor r ensures compliance with the load limits of the drive train, the factor k can be chosen to be greater from the outset in order to exploit the maximum increase in performance in all conceivable operating states. Furthermore, the device 2 will generally calculate the input signal i ^** or the control signal s ^** directly (without the intermediate step via i ^* or s ^* ) from the signal i or s .

The reduction of the gain may depend, in particular, on the gear engaged in the transmission 4, in the simplest case the amplification in the first gear and / or in the reverse gear being omitted altogether, so that in this case r = 1 / k and * i ^** = i or s ^** = s is. In order to make a gear-dependent reduction, the device 2 must receive corresponding information about the currently engaged gear. This can for example be done via a directly from the transmission gear 4 (or another source of engine / vehicle management) coming gear signal g . G for the generation of the signal can be accessed on a contact switch for the reversing light, for example, because the lighting of the return lights indicating a reverse gear engaged. If further only the first gear is of interest, an additional contact switch in the gear 4 can be provided for this. Furthermore, it is possible to calculate the currently engaged gear from a signal indicative of the vehicle speed v and the engine speed n, wherein the transmission ratios available in the transmission 4 are to be assumed to be known.

A further improvement in performance is achieved by a Reduction of gain in first gear only over a certain speed range he follows. The maximum value of the torque is then one wider speed range available.

Furthermore, the device 2 may be designed so that in case of high acceleration of the motor vehicle no or only a very small reduction the reinforcement takes place. In the case of acceleration, a large part of the Energy and forces consumed to accelerate the parts of the engine 3, so that despite the accelerated pedal only uncritical torque values arrive in the transmission 4. On a reduction in performance can therefore be waived. The acceleration case may be from the device 2 for Example be detected by a large rate of change of the engine speed n.

The dependencies of the gain reduction of various operating parameters enumerated above and only to be understood as examples can be expressed by a corresponding functional dependency of the reduction factor r, ie r = r (n, g, v,...).

Furthermore, it is possible that the function of the device 2 by a corresponding Programming the motor control 1 is achieved, so that no interference are required in the hardware of the motor vehicle.

Claims (11)

Method for increasing the performance of an internal combustion engine (3) of a motor vehicle with a motor control (1) receiving input signals (i) and generating control commands (s) for normal operation of the internal combustion engine, wherein the input signals and / or the control commands are amplified in order to increase power,
characterized in that
the gain in dependence on the operating condition of the motor vehicle is reduced such that an overload of the drive train of the motor vehicle is avoided. Method according to claim 1,
characterized in that
the control commands (s) specify the amount of fuel to be injected and / or the boost pressure, and that the amplified control commands lead to the injection of a larger amount of fuel or to a higher charge pressure. Method according to claim 1 or 2,
characterized in that
the gain in dependence on the engaged gear of a transmission gear (4) of the motor vehicle is reduced. Method according to claim 3,
characterized in that
the gain in the first gear and / or in reverse is maximally reduced and / or completely suppressed. Method according to claim 3 or 4,
characterized in that
the engaged gear is calculated from the vehicle speed (v) and the engine speed (n). Method according to at least one of claims 1 to 5,
characterized in that
the gain in certain speed ranges of the internal combustion engine (3) is reduced. Method according to at least one of claims 1 to 6,
characterized in that
the gain during acceleration of the motor vehicle is not reduced. Method according to at least one of claims 1 to 7,
characterized in that
the gain is achieved by a corresponding programming of the engine control (1). Device (2) for increasing the performance of the internal combustion engine (3) of a motor vehicle, wherein the device is functionally arranged between the engine controller (1) and the internal combustion engine (3) and designed to be directed to the engine control input signals (i} and / or for normal operation the engine to boost certain control commands (s) of the engine control before their forwarding in the sense of increasing performance,
characterized in that
the device (2) is further adapted to perform a method according to at least one of claims 1 to 8. Device according to claim 9,
characterized in that
it has signal inputs for the engine speed (n), the vehicle speed (v) and / or the engaged gear (g) of a transmission gear (4) of the motor vehicle. Device according to claim 9 or 10,
characterized in that
the internal combustion engine is designed as a diesel engine (3) and / or as a gasoline engine with charging.

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