FR3085999A1 - METHOD FOR PROTECTING AGAINST THE ENGAGEMENT OF A HEAT-CONDUCTIVE FLUID IN A COOLING SYSTEM OF A THERMAL ENGINE - Google Patents

Abstract

The invention relates to a method for protecting against the filling of a heat-transfer fluid in a cooling system of an engine comprising a radiator and a regulating element opening a passage of the fluid to the radiator from a first temperature ( T1) setpoint reached by the fluid, the passage effecting at least partial degassing of the fluid. A counting of the opening time (CDO) of the passage and a counting of the total filling time (CDE) of the fluid is carried out as soon as the heat engine is running counted as long as a predetermined at least partial degassing considered to be sufficient was not carried out during one or more taxiing (R, R + 1) of the vehicle. A first opening duration (D1) of the passage is predetermined as being sufficient to carry out said degassing, the opening duration (CDO) and degassing (CDO) counts being reset to zero (Ri) as soon as the first duration opening (D1) is reached.

Description

The present invention relates to a method for protecting against the gasing of a heat-transfer fluid in a cooling system of a heat-transfer fluid. motor vehicle heat engine.

The present invention also relates to a coolant cooling system of a heat engine of a motor vehicle for the implementation of the protection method according to the present invention.

A cooling system by heat transfer fluid of a thermal engine of a motor vehicle comprises an engine cooling circuit and a fluid temperature regulation circuit comprising a radiator opened or closed by a regulating element according to a temperature of the fluid in force. The cooling system includes a control unit comprising means for storing a first predetermined set fluid temperature and means for activating the regulating element.

We can thus regulate the coolant temperature. In practice, several regulation setpoints are defined to find the best compromise between, on the one hand, the reduction of friction and the reduction of the dilution of fuel in the oil, which implies high values of the setpoint of regulation and, on the other hand, the thermomechanical behavior of the motor, which requires low values of the regulation setpoint.

A small part of the combustion gases is found in the heat transfer circuit, in particular due to micro-leaks from the cylinder head gasket, all the more so as the engine ages, which causes micro-leaks to pass by a volume. from tens to hundreds of cm3 per hour.

These gases form bubbles or pockets of gas in the cooling fluid circuit, which can affect the operation of the engine, which can in particular cause cracks in the engine, defusing of the fluid pump, blockage of the opening of the regulation element, incorrect information on the coolant temperature, degraded cabin temperature and / or overflow of the degassing unit.

The degassing unit plays the role of an expansion tank. It constitutes a high point of the circuit or the gases can be evacuated if the pressure is sufficient. It can also constitute a liquid reserve and a circuit level display.

It has been proposed to use a degassing pipe present in the cooling system, which represents an effective solution but has a high cost.

These gases can be evacuated continuously by a pipe between a coolant outlet box and a degassing box and each time the regulating element opens, the gas is then evacuated to the radiator and then the degassing box.

In addition, the operation of the engine at a higher temperature than on previous generations means that the opening time of the regulating element is reduced.

When the motor vehicle is used on a short journey, at low load, the temperature set point will remain high and the coolant temperature will not reach or exceed the regulation set point. It follows that degassing by the circuit integrating the radiator will not take place. This is even more true in winter, when the engine has trouble heating up.

Document FR-A-2 949 509 describes an internal combustion engine provided with a cooling circuit which comprises two thermostatic valves, one of the two valves of which selectively blocks or releases the flow and the second of which valve comprises an expandable member thermally immersed in the coolant, with a temperature of the expandable member greater than a threshold releasing the flow. The first thermostatic valve releases the flow of coolant at a temperature above the threshold of the expandable member.

This document gives no teaching as to operate an effective degassing when the regulation setpoint temperature is too high and the regulation element prevents a passage of the heat transfer fluid towards the radiator.

Therefore, the problem underlying the invention is, in a coolant cooling system of a heat engine of a motor vehicle comprising a radiator opened or closed by a regulating element according to a temperature of the fluid in force, to allow efficient degassing of the heat transfer fluid even when the predetermined set temperature for the opening of the regulating element does not allow a passage of the fluid to the radiator for a sufficiently long period to degass the fluid.

To achieve this objective, there is provided according to the invention a method of protection against the gasing of a heat transfer fluid in a cooling system of a heat engine, the system comprising a radiator and an opening regulating element an at least partial passage of the fluid to the radiator from a first predetermined set temperature reached by the fluid, the passage to the radiator effecting at least partial degassing of the fluid, characterized in that it is carried out, on the one hand, a counting of the duration of opening of the passage to the radiator and, on the other hand, a counting of the duration of total filling of the fluid as soon as the heat engine is running counted as long as a predetermined at least partial degassing considered as being sufficient was not carried out during one or more consecutive runs of the motor vehicle, a first duration of opening of the passage as predetermined to be sufficient to effect degassing said at least predetermined part, counts times of opening and engazage being reset when the first open time is reached.

The gas meter is mainly used to lower the set temperature, in order to increase the possibilities of opening the passage.

In the case of an application to the automotive sector, for recent motor vehicles, the predetermined setpoint regulation temperature for opening by an element for regulating an at least partial passage of the heat transfer fluid of a system of engine cooling to the radiator is increasingly high, which makes it difficult to degass the fluid with the drawbacks mentioned above because the passage opens less frequently than in the past.

The present invention provides, on the one hand, to control the duration of gas filling of the fluid and, on the other hand, the duration of opening of the passage to the radiator. When the opening time exceeds a predetermined duration, this means that at least partial degassing may have taken place and the counts are reset. The present invention makes it possible to know whether this predetermined duration necessary for degassing has been effective or not and to take the necessary measures if this has not been the case.

The at least partial degassing is at least a minimum degassing of the heat transfer fluid and is determined by experience. One possible filling criterion is to never exceed a volume of 400ml.

Advantageously, the first predetermined set temperature is equal to 105 ° C with a range of 20% around this value.

Advantageously, when the total filling duration of the fluid has reached a second duration greater than the first duration of opening of the passage, the first predetermined set temperature reached by the fluid for opening the passage of the fluid at least partially. by the radiator is replaced by a second predetermined set temperature lower than the first set temperature.

It is then taken into consideration that the predetermined setpoint regulation temperature does not allow sufficient passage of the fluid to the radiator to effect its at least partial degassing. The solution proposed by this optional embodiment of the present invention is to lower the predetermined setpoint regulation temperature to allow a longer and more frequent opening for the passage of the fluid to the radiator and therefore a longer degassing time.

Advantageously, when the total filling time of the fluid has reached a third duration greater than the second duration of the passage, the second predetermined set temperature reached by the fluid for an opening of the at least partial passage of the fluid by the radiator is replaced by a third predetermined setpoint temperature lower than the second setpoint temperature, the downward replacement by a xth setpoint temperature of an x-1st setpoint temperature being effective when a xth total fill time has been reached in being greater than an x-1 th total filling time.

It follows that the drop in the predetermined regulation temperature can be done in stages if it is noticed that the drops already made have not been sufficient. This makes it possible to effect a drop in the predetermined regulation temperature calculated as accurately as possible.

Advantageously, the second and third predetermined set temperatures are respectively 85 ° C and 75 ° C with a range of 20% around each of these values.

Advantageously, the replacement of the predetermined set temperature is done continuously and gradually as a function of time. This can be done automatically without decreasing predetermined regulation temperature stages until a sufficient predetermined regulation temperature is obtained to carry out at least partial degassing deemed sufficient.

Advantageously, the counting of the total filling duration of the fluid taking place as soon as the heat engine is rotating does not take into account the opening times of the passage to the radiator having not been long enough to perform said predetermined at least partial degassing.

During these opening times of the passage to the radiator insufficiently long to perform said at least partial degassing, however, degassing was certainly limited but still present. It is therefore justified not to consider these limited degassing periods as fueling periods and therefore to subtract them from the total fueling time.

Advantageously, at each stop of the heat engine of the motor vehicle, there is a step of memorizing the duration of engasage for a completed run which is added to the preceding durations of engasage since a last predetermined at least partial degassing performed.

The invention relates to a coolant cooling system for a thermal engine of a motor vehicle, the system comprising an engine cooling circuit and a fluid temperature regulation circuit comprising a radiator opened or closed by an element for regulating according to a temperature of the fluid in force, a control unit comprising means for memorizing a first fluid temperature of predetermined setpoint and means for activating the regulating element, the cooling system implementing a such a protection method, characterized in that the control unit comprises means for counting respective durations of opening of the regulation circuit and total filling of the fluid, means for memorizing a first duration of opening of the regulation circuit predetermined as being sufficient to carry out at least partial degassing and means for resetting the respective durations.

The implementation of the method only involves software changes in the control unit which is more economical than the addition of an element such as a degassing pipe.

Advantageously, the regulating element is a controlled thermostat or a two or three-way controlled valve.

Other characteristics, aims and advantages of the present invention will appear on reading the detailed description which follows and with regard to the attached drawing given by way of non-limiting example and in which:

- Figure 1 is a schematic representation as a function of a running time t of a motor vehicle of the opening curves of the regulating element of a cooling system towards the radiator and of counting durations respectively of opening of the regulating and filling element as well as a modification of the predetermined set regulation temperature for the implementation of a method for protecting against cooling of a coolant from the cooling system according to the present invention.

It should be borne in mind that the figure is given by way of example and is not limitative of the invention.

Referring to Figure 1 which shows various curves as a function of a time t of operation of a heat engine, the present invention relates to a method of protection against the gassing of a heat transfer fluid in a system of cooling of the heat engine, this heat engine being preferably but not limited to a heat engine of a motor vehicle.

The system comprises a radiator and a regulating element opening an at least partial passage of the fluid towards the radiator from a first temperature T1 of predetermined setpoint reached by the fluid shown in the last curve of FIG. 1 for the setpoint control temperatures Trc.

The first curve of Figure 1 shows an open state of the Eer regulating element essentially during a rolling R, R + 1 of the motor vehicle between a start of the engine Dem Mot and a stop of the engine Ar Word of the motor vehicle, the instants of starting and stopping being symbolized by the intersection of the abscissa of times t with respectively a vertical dashed line. It is considered that the motor vehicle is essentially running between the start of the heat engine and its stop.

The open state of the regulating element Eer varies between an open position O and a closed position F. The open position O can be reached after a running time causing a rise in the temperature of the fluid au- above a setpoint control temperature Trc then in force. During driving, it can also be returned to the closed position F of the Eer control element.

It is known that the passage to the radiator of at least part of the fluid makes it possible to carry out at least partial degassing of the fluid but that this is effective only when the regulating element is open.

According to the invention, it is performed, on the one hand, a counting of the CDO opening time of the passage to the radiator. This is shown in the second curve starting from the top of FIG. 1. This counting of the CDO opening time is carried out only when the regulating element is in the open position O.

On the other hand, a count of total CDE gas filling time is carried out as soon as the heat engine is running. This counting of the total CDE fueling duration is continued as long as a predetermined at least partial degassing considered to be sufficient has not been carried out during one or more consecutive R, R + 1 runs of the motor vehicle.

For example, at the end of a first run R, there has been counted a count of total CDE engazing time of the fluid equal to 500, for example 500 seconds which is a non-limiting figure, which is reported at the next taxiing R + 1 and, if applicable, at the next taxiing (s).

The gas meter is mainly used to lower the set temperature, in order to increase the possibilities of opening the passage.

A first opening time D1 of the passage is predetermined as being sufficient to carry out said predetermined at least partial degassing. Following the reaching of this first opening time D1, the counts of CDO opening times and CDO fueling being reset to zero by a reset Ri of the counts of CDO opening times and total CDE fueling. It is considered that the degassing of the fluid then produced is sufficient.

The target at least partial degassing of the present invention may not be a total degassing but a partial degassing to maintain a rate of unbearable tolerable by the cooling system. This can be predetermined by prior routine testing and can also be calibrated. The same applies to the first opening period D1, which can be higher and higher with an increase in the age of the motor vehicle.

Without being limiting, the first predetermined set temperature T1 can be equal to 105 ° C with a range of 20% of this value and said at least partial degassing can be at least 50% of a total degassing of the fluid.

It may be that such degassing may not take place, the opening time or the consecutive opening times O counted CDO not having reached the first opening time D1 of the passage while the counting of total CDE filling duration exceeds this value, which requires degassing not made possible by retaining such a first predetermined set temperature T1.

In an optional embodiment of the present invention possible among others, it is possible to provide a blocking in the open position O of the regulating element for a period equal to the first opening time D1 of the passage towards the radiator in the open position O as the open state of the regulating element Eer. It is also possible to cause a forced opening of the regulating element and a maintenance of the opening during the first opening time D1.

In another optional embodiment of the present invention which is preferred, when the total filling time of the fluid has reached a second duration D2 greater than the first opening duration D1 of the passage without there being had a degassing, the first predetermined setpoint temperature T1 reached by the fluid for an opening of the at least partial passage of the fluid by the radiator can be replaced by a second predetermined setpoint temperature T2 lower than the first setpoint temperature T1.

This is shown in the last two curves at the bottom of FIG. 1. As the second predetermined setpoint temperature T2 is lower than the first setpoint temperature T1, the regulating element will more frequently be in an open position O of its state of opening of Eer regulating element and at least partial degassing will be easier to obtain.

Without being limiting, the first opening time D1 of the passage can be equal to 660 seconds and the second duration D2 greater than the first opening time Dl can be equal to 3600 seconds.

If this is not enough, when the total filling time of the fluid has reached a third duration greater than the second duration D2 of the passage, the second predetermined setpoint temperature T2 reached by the fluid for opening the passage at least partial of the fluid by the radiator can be replaced by a third predetermined setpoint temperature lower than the second setpoint temperature T2.

This is not shown in Figure 1 but can be extrapolated from this figure by a further drop in the setpoint control temperature Trc. Likewise, the downward replacement by a xth setpoint temperature of an x-1st setpoint temperature can be effective when a xth total fill time has been reached by being greater than an x-1st total fill time, this to allow at least partial degassing of the fluid of the cooling system with an x th set temperature lower than the x-1 th set temperature.

For the sake of idea, the second T2 and third predetermined set temperatures can be equal to 85 ° C and 75 ° C respectively with a range of 20% around each of these values.

It is possible that the replacement of the predetermined setpoint temperature Trc is done continuously and gradually as a function of time. It depends on the regulating element selected but can have the advantage of obtaining a faster reaction for the implementation of degassing.

For the counting of the total CDE filling duration of the fluid taking place as soon as the engine is running, this counting of the total filling duration may not take into account the states of opening of the element. Eer regulation for the opening O of the passage to the radiator not having been long enough to carry out said predetermined at least partial degassing but having caused a limited degassing which may have lowered the total gas filling of the fluid.

At each stop of the Ar Mot heat engine of the motor vehicle, that is to say when the heat engine stops, there may be is carried out a step of memorizing the duration of MCDE engazation for a run finished which is added to the preceding filling times since a last degassing at least partial predetermined carried out, this for a rolling ahead.

In Figure 1, the cumulative sum 500, for example 500 seconds, which is not limiting, is added at the end of the first run R for the next run R + 1 to the duration of engasage during this rolling according to R + 1.

The invention relates to a cooling system by heat transfer fluid of a thermal engine of a motor vehicle, the system comprising an engine cooling circuit and a fluid temperature regulation circuit comprising a radiator opened or closed by an element regulation according to a current fluid temperature.

The cooling system includes a control unit comprising means for memorizing a first temperature T1 of predetermined set fluid and means for activating the regulating element.

The cooling system implements a protection method as previously described, the control unit comprising means for counting respective durations of opening CDO of the regulation circuit and total gas filling CDE of the fluid and means for storing a first opening time D1 of the regulation circuit 5 predetermined as being sufficient to carry out at least partial degassing and means for resetting the respective times.

The regulating element can be a controlled thermostat or a two or three-way controlled valve. The internal combustion engine can be a compression-ignition engine, in particular a diesel or diesel engine, or a spark-ignition internal combustion engine, in particular a petrol or mixture fuel engine containing petrol.

The invention is in no way limited to the embodiments described and illustrated which have been given only by way of examples.

Claims (10)

1. A method of protection against the gasing of a heat transfer fluid in a cooling system of a heat engine, the system comprising a radiator and a regulating element opening an at least partial passage of the fluid to the radiator from a first predetermined set temperature (T1) reached by the fluid, the passage to the radiator effecting at least partial degassing of the fluid, characterized in that, on the one hand, an opening time counting is carried out ( CDO) of the passage to the radiator and, on the other hand, a total filling time counting (CDE) of the fluid as soon as the heat engine is running counted as long as a predetermined at least partial degassing considered to be sufficient n ' was not carried out during one or more consecutive runs (R, R + 1) of the motor vehicle, a first opening time (D1) of the passage being predetermined as being sufficient essential to carry out said predetermined at least partial degassing, the opening duration (CDO) and fueling (CDO) counts being reset to zero (Ri) as soon as the first opening duration (D1) is reached. 2. Method according to the preceding claim, in which the first predetermined set temperature (T1) is equal to 105 ° C with a range of 20% around this value. 3. Method according to any one of the two preceding claims, in which, when the total filling duration of the fluid has reached a second duration (D2) greater than the first opening duration (D1) of the passage, the first temperature (T1) of predetermined setpoint reached by the fluid for an opening of the at least partial passage of the fluid by the radiator is replaced by a second temperature (T2) of predetermined setpoint lower than the first temperature (T1) of setpoint. 4. Method according to the preceding claim, in which, when the total filling duration of the fluid has reached a third duration greater than the second duration (D2) of the passage, the second predetermined set temperature (T2) reached by the fluid for an opening of the at least partial passage of the fluid by the radiator is replaced by a third predetermined set temperature lower than the second set temperature (T2), the replacement decreases by a x th set temperature of an x-1st temperature setpoint being effective when a xth total fill time has been reached by being greater than an x-1st total fill time. 5. Method according to any one of the two preceding claims, in which the second (T2) and third predetermined set temperatures are equal to 85 ° C and 75 ° C respectively with a range of 0% around each of these values. . 6. Method according to any one of the three preceding claims, in which the replacement of the predetermined set temperature (Trc) is done continuously and gradually as a function of time. 7. Method according to any one of the preceding claims, in which the counting of the total filling time (CDE) of the fluid taking place as soon as the heat engine is running (Dem Mot) does not take into account the durations of opening of the passage towards the radiator not having been long enough to carry out said predetermined at least partial degassing. 8. Method according to any one of the preceding claims, in which, at each stop of the heat engine (Ar Mot) of the motor vehicle, there is a step of memorizing the duration of engasage (MCDE) for a completed run. which is added to the preceding filling times since a last predetermined at least partial degassing carried out. 9. A coolant cooling system for a thermal engine of a motor vehicle, the system comprising an engine cooling circuit and a fluid temperature regulation circuit comprising a radiator opened or closed by a regulating element according to a temperature of the fluid in effect, a control unit comprising means for memorizing a first temperature (T1) of predetermined set fluid and means for activating the regulating element, the cooling system implementing a protection method according to any one of the preceding claims, characterized in that the control unit comprises means for counting respective opening times (CDO) of the regulation and total gas filling circuit (CDE) of the fluid, means for memorization of a first opening time (D1) of the predetermined regulation circuit as being sufficient e to carry out at least partial degassing and means for resetting the respective durations to zero. 10. System according to the preceding claim, wherein the regulating element is a controlled thermostat or a two or three-way controlled valve.