FR2568630A1 - Control method for combustion engine - Google Patents

Abstract

Incandescent plugs one in each combustion space are divided into two groups and the two groups are alternately supplied with energy. The switching between the two groups depends on the energy required by the incandescent plugs and on other factors. The switching between the groups depends at least on the temp. of at least one incandescent plug and on the range over which energy supplied to the plugs fluctuates. Only one group is ever switched in or out at one time. The method only applies to the running engine.

Description

"Method for controlling and / or regulating a motor
internal combustion. "
The invention starts from a method for controlling and / or regulating an internal combustion engine by means of a hot spot in each of the combustion chambers of this internal combustion engine.

 Document DE-OS 28 29 700J discloses a process for preheating incandescent candles, a process allowing a very short preheating time. An incandescent candle is then found in each combustion chamber of the internal combustion engine, all these candles as a whole being supplied with energy according to a determined period of time. In order to limit the supply of energy to incandescent candles, provision is made in this known method for a supply resistor.

 The disadvantage of this known method is that in the case of limiting the supply of energy to incandescent candles, energy is unnecessarily converted into heat on the supply resistor, and thus, at total there is a loss of energy. If the method is carried out in relation to motor vehicles, this may result in an undesirable premature discharge of the battery of the motor vehicle.

 The invention aims to remedy these drawbacks and relates> to this end a method of the type initially mentioned characterized in that all of the hot spots is subdivided into at least two groups and that the groups of hot spots, at least two in number, are alternately supplied with energy.

 the method according to the invention for controlling and / or regulating internal combustion engines with the characteristics defined above, has the advantage over the known state of the art that, in order to limit the contribution of Energy to incandescent candles, no supply resistance is necessary, so that there is no loss of energy. This is achieved in that the incandescent candles are divided into groups and then these different groups are supplied with energy alternately.

 It is particularly advantageous to make the alternation over time between the individual groups depend on the energy which it is desired to bring to the incandescent candles, or else on the temperature of at least one of the incandescent candles, or else on a oscillation as small as possible of the total energy supply to the incandescent candles.

 Other advantages of the invention arise, in correlation with other characteristics of the invention, from the description which follows of the embodiments shown in the attached drawings.

Examples of embodiments of the invention are shown in the accompanying drawings and will be explained in more detail in the description below:
FIG. 1 shows by way of example an embodiment of the method according to the invention,
- Figure 2 shows time diagrams for different total heating energies made to incandescent candles.

In the case of the exemplary embodiments, these are devices with the aid of which the inflammation and
fuel combustion in combustion chambers
of the internal combustion engine are influenced. Say
positive described are preferably preferable, likely
to be implemented in correlation with motors
internal combustion Diesel. But, it is also possible
to implement the object of the invention in a completely
general for the control and / or regulation of a
internal combustion engine. In the case of devices
represented in the following embodiment, we use
reads to influence the combustion of fuel,
incandescent lights housed in the combustion chambers.

It is also possible instead of incandescent candles
cence of hot spots, in a fully accepted
general, are found in the combustion chambers of the
internal combustion engine.

Figure 1 shows, as an example Xune one
carrying out the process according to the invention. On this
Figure 1, references 30, 31, 33 and 34 denote four
incandescent candles. the incandescent candles 30 and
31 are then gathered into a first group of candles
ignition indicated by 32, while the spark plugs 33 and 34
are gathered in a second group of spark plugs
designated by reference 35. Two switches carry the
references 36 and 37. In addition, there is provided a
control bearing the reference 38.The entire device is supplied with energy from the battery voltage
UB. For this reason, each of the two switches 36 and
37 is connected by a voltage connection point
of Ug battery, while the connection point respec
tively still free is connected respectively to a group
of incandescent candles. Switch 36 is then
connected to the group of incandescent candles 32, that is
tell the two candles 30 and 31 connected in parallel,
while switch 37 is connected to the spark plug group
incandescent 35, that is to say the two incandescent candles 33 and 34 connected in parallel. All the spark plugs are earthed by a connection point. The control unit 38 receives, on the one hand, a signal T which represents the temperature of at least one of the spark plugs, while 'it receives on the other hand, other quantities specific characteristics of the operating state of the internal combustion engine, such as for example the battery voltage UB. These operating characteristic quantities can be obtained either directly by measurements or indirectly by any reproductions. As a function of the characteristic operating variables, the control device 38 generates two output signals, namely the signal A and the signal B. With signal A, the control device 38 determines the switching state of the switch 36 , while with signal B the control unit 38 controls the switch 37.

 If in the case of the known state of the art, the limitation of the energy supply to the incandescent candles was achieved using a supply resistor, this limitation in the case of the embodiment given as example in Figure 1 of the method according to the invention, is obtained in that the four incandescent candles 30, 31, 33 and 34 are divided into two groups of incandescent candles 32 and 35, and are supplied alternately with energy by means of the two switches 36 and 37 by the control unit 38. This means that the energy which it is wished to bring to the incandescent candles is conveyed to the two incandescent candles 30 and 31 so that these two candles are constantly connected to the battery voltage Ug until, precisely, two spark plugs have on average captured the desired energy over time. the switching times of the two switches 36 and 37 are then determined by the control unit 38 and depend at least on the energy which it is desired to bring to the incandescent candles. Taking into account other operating characteristic quantities of the internal combustion engine, such as, for example, the battery voltage U3, the control unit 38 can, for example, compensate in good time for drops in the battery voltage Ug.

FIG. 2 shows diagrams as a function of time for different heating energies H supplied in total to the incandescent candles. The reference
A designates in this FIG. 2, the signal A already mentioned, controlling the switch 36, and the reference B the signal B switching the switch 37. If the signal A or the signal B is equal to zero, this means that the switch is open , if, on the other hand, this signal is equal to 1, the switch is closed.H designates, in FIG. 2,1, the heating energy actually supplied to all the incandescent candles0
The total energy made available from the battery voltage Ug, by means of which the incandescent candles must be heated when the switches 36 and 37 are simultaneously closed, is indicated, in Figure 2 by Rmaxo A period of time determined repeating bears, in Figure 2 the reference TP.

 If now 75%, for example, the maximum heating energy that can be supplied, i.e. 75%. Evil is now brought to the incandescent candles, this means that the two switches 36 and 37 can be controlled with the signals A and B indicated in Figure 2.

The heating energy H actually supplied to the incandescent candles then presents the evolution indicated in FIG. 2. With the aid of the command corresponding to the diagrams as a function of time of FIG. 2, it is thus possible to control the switches 36 and 37 so that certain quantities of energy capable of being predefined are supplied to the incandescent candles.

Of course, intermediate total values of the energy quantities indicated in FIG. 2 are also achievable.

 The embodiment indicated by way of example in FIG. 1 of the process according to the invention, and the corresponding time diagrams in FIG. 2, relate to an internal combustion engine with four cylinders and also comprising four spark plugs. incandescence. These four incandescent candles are divided into two groups. This division determines in the diagrams as a function of time, the signals A and B of FIG. 2 because these two signals are precisely offset by half of a duration of period TP. By generalizing, this means that by dividing any number of incandescent candles into z groups, the control signals of the individual switches assigned to each group are precisely offset from each other by 1 / z by a period likely to be Of course, it is also possible, in correlation with the offset thus described of the different control signals, to define this offset by means of other correlations or else to control the different groups of incandescent candles completely independently of each other. others. the order sequence for the different groups of incandescent candles normally remaining the same can also be modified or even completely suspended.

 The only important point (in the case of the process according to the invention) is that all of the incandescent candles are divided into groups and that these groups are alternately supplied with energy.

 it is therefore particularly advantageous to ensure the control of the switches 36 and 37 of FIG. 1, therefore the amounts of energy to be brought to the incandescent candles, not only on values capable of being defined beforehand, and possibly to take into account in this case, the battery voltage, but, using the signal X relating to the temperature of at least one of the incandescent candles, to adjust the temperature of the incandescent candles to determined values likely to be By means of carrying out the method according to the invention shown by way of example in FIG. 1, it is also possible to precisely regulate, by means of the signal I, the supply of energy to the incandescent candles so that these incandescent candles maintain a certain operating temperature.

 As can be seen in FIG. 2, the heating energies H actually supplied to the incandescent candles oscillate by a value determined for example at 75 96 to 25% of the maximum heating energy likely to be supplied. it is therefore particularly advantageous, by virtue of other provisions, to keep this fluctuation value as low as possible.

This can be obtained between, in the case of the process according to the invention) thanks to the distribution of incandescent candles in groups. If, for example, the method according to the invention is implemented in correlation with a motor vehicle, it is necessary that the creep value; abovementioned tution goes down below a determined threshold.

This threshold can be defined by tests and it is precisely of such a value that the fluctuations of the energy supply to the incandescent candles have absolutely no influence on the clarity of the headlights. By means of a sufficiently fine distribution of the spark plugs according to groups, it is then possible to keep the fluctuations in the energy supply to these spark plugs below the aforementioned threshold. Of course, it is also also possible by appropriate commands from the switches 36 and 37, from the control device 38, to reduce the fluctuations in the supply of energy to the incandescent candles. it is therefore particularly advantageous to connect or disconnect a group of incandescent candles as much as possible.

 In total, it is thus possible, using the method according to the invention, by virtue of the distribution of the incandescent candles into groups, and the alternating supply of energy to these groups, to regulate the temperature of the candles to incandescence on determined values likely to be defined beforehand, and simultaneously to keep the fluctuations in the energy supply to the incandescent candles below a predefined threshold.

Claims (6)

RESELL I CATI ON S  1.- Method for controlling and / or regulating an internal combustion engine by means of a hot spot in each of the combustion chambers of this internal combustion engine, process characterized in that all of the hot spots is subdivided into at least two groups and the hot spot groups, at least two in number, are alternately supplied with energy0  2.- Method according to claim 1, characterized in that the alternation in time between the groups, at least two in number, depends on the energy that I 'we want to bring to hot spots.  3.- Method according to any one of claims 1 or 2, characterized in that the alternation in time between the groups, at least two in number, depends on the temperature of at least one hot spot.  4.- Method according to any one of claims 1 to 3, characterized in that the alternation in time between the groups, at least two in number, depends on an amplitude of oscillation to be exceeded at the bottom of the energy supply of all the hot spots.  5.- Method according to any one of re vendications i to 4, characterized in that there is always, at most) a group of hot spots which is turned on or off.  6.- Method according to any one of claims 1 to 5, characterized in that the method is implemented only when the internal combustion engine is operating.