EP0953735A1 - Method for the temperature control of lubricant oil in a combustion engine - Google Patents

Abstract

Lubricating oil is pumped (12) from a sump (3) to a cylinder block (1) and a cylinder head (2) through heat exchangers (5,6) which are also traversed by engine cooling liquid (9). For a range of sump oil temperatures heat exchanger valves (7A,7B) and (8A,8B) are operated such as to either pass cooling liquid through particular exchangers or not and thus optimize oil protection of the engine for a range of operating conditions

Description

The invention relates to a device for regulating the temperature of the lubricating oil of the mechanical parts an internal combustion engine. The invention applies especially in the automotive field.

An internal combustion engine generally includes a cylinder block, cylinder head and oil pan. The oil is sucked into its housing by an oil pump and is distributed in the motor to ensure lubrication of mechanical parts contained in the cylinder block and in the breech.

The temperature of the engine lubricating oil constitutes an important parameter making it possible to decrease the friction or passive loss in the engine.

As such, it is known from document FR 2 544 793 a process for rapid warm-up and regulation of the engine lubricating oil. This process consists in sparing, at the level of the upper zones of the engine cylinders or liners, a heat exchange between the coolant in the cooling circuit of the engine and lubricating oil. Oil drawn into the sump oil comes in heat exchange with the liquid of cooling before lubricating the cylinder head. Part of the oil that has circulated in the cylinder head circulates in the cylinder block before returning to the oil pan. When the engine is started cold, the oil is put rapidly in temperature, by loop circulation at by means of a positive displacement pump and by heat exchange with the breech. So lubricating oil is used for capture the calories from the cylinder head whose temperatures may exceed those of the cylinders or shirts. During normal engine operation, the oil fails calories to the coolant which ensures the thermal oil regulation. This process allows on the one hand reduced friction in the engine and secondly the use of a low viscosity oil.

However, we note that despite the process of document FR 2 544 793, friction remains high in the engine.

Furthermore, we know that the lubrication at the top engine is of the "mixed" type, that is to say that the parts mechanical are in metal / metal contact in places and separated by a film of oil in other places; while the lubrication is of the "hydrodynamic" type in the lower engine, that is, the parts are separated by an oil film.

In addition, tests carried out by the applicant have revealed on the one hand that friction in the high engine (cylinder head) decrease when the Sommerfeld number S = µN / P increases (µ being the dynamic viscosity of the oil expressed in Pa.s, N the speed in revolutions / min. and P the load in N), and on the other hand that the friction increases at the bottom engine (cylinder block) when the Sommerfeld number increases. Thus, at constant speed and load, to reduce the friction in the upper engine, the temperature must be reduced oil, and to reduce friction in the lower engine the oil temperature must be increased.

An object of the present invention is to provide a oil temperature regulation process lubrication of the mechanical parts of a internal combustion overcoming all or part of the disadvantages of the prior art noted above. In particular, a goal of the present invention is to provide a method of regulation the temperature of the lubricating oil minimizing the friction in the engine compared to the prior art.

This object is achieved by the fact that in the process of regulating the temperature of the lubricating oil mechanical parts of an internal combustion engine; the engine comprising a cylinder block, a cylinder head, a casing oil, means for sucking the oil to a first and a second lubrication circuit for mechanical components contained respectively in the cylinder block and in the cylinder head; we regulate the temperatures independently lubricating oil circulating in the first and second lubrication circuits.

Another object of the present invention is to provide a oil temperature regulation device lubrication of the mechanical parts of a internal combustion process implementation.

This goal is achieved by the fact that the regulatory device the temperature of the lubricating oil of the organs mechanics of an internal combustion engine has first and second temperature regulation means oil respectively from the first lubrication circuit and the second lubrication circuit, means for measuring the oil temperature and control means automatic temperature control means the oil of the first and second lubrication circuits, in as a function of the measured oil temperature.

According to another particular feature, the first and second regulation means are each switchable by the control means between an inactive state and an active state, the active state the means of regulation being determined for provide either cooling or warming of the oil circulating in the concerned lubrication circuit.

According to another particular feature when the temperature of the oil is below a reference temperature, the first means of oil regulation are activated to warm the oil circulating in the first circuit of lubrication, the second regulation means being either deactivated or activated to cool the oil circulating in the second lubrication circuit.

According to another particular feature, the reference temperature is between about 80 and 120 degrees.

According to another particular feature when the temperature of the lubricating oil is between the temperature of reference and a limit temperature, the first means of regulation are deactivated while the second means of regulation are activated to cool the oil circulating in the second lubrication circuit.

According to another particular feature when the temperature of the lubricating oil is above a limit temperature, the first and second regulation means are activated to cool the oil circulating respectively in the first and second lubrication circuits.

According to another particular feature, the first and second means for regulating the oil temperature include each an exchanger and associated switching means, the exchangers being located respectively upstream of first and second lubrication circuits, the means of switching allowing to selectively or not select the oil lubrication in heat exchange with the liquid cooling of an engine cooling circuit.

According to another particular feature when the temperature of the lubricating oil is below the maximum temperature stabilized coolant when normal engine operation, switching means heat exchange the coolant and oil from the first lubrication circuit and deactivate heat exchange of coolant with oil of the second lubrication circuit.

According to another particular feature when the temperature of the lubricating oil is between the temperature maximum stabilized coolant and a limit temperature, the switching means set heat exchange the coolant and the oil second lubrication circuit and deactivate the exchange thermal of the coolant with the oil of the first lubrication circuit.

According to another particular feature when the temperature of the lubricating oil is above a limit temperature, the switching means exchange heat the first and second coolant and oil lubrication circuits.

According to another particularity, the limit temperature is between about 140 and 180 degrees.

According to another particularity maximum temperature stabilized coolant is a fixed value known by the control means, or a variable value measured in real time.

According to another particular feature the cooling circuit has two branches in parallel, each of the two tracks of the same branch have a valve constituting the switching means associated with the exchanger concerned.

• la figure 1 représente une vue en perspective, schématique et partielle, d'un moteur pourvu d'un dispositif de régulation de la température de l'huile de lubrification selon l'invention,
• la figure 2 représente schématiquement le principe de fonctionnement du dispositif de régulation de la température de l'huile de lubrification de la figure 1.

Other characteristics and advantages of the invention will appear on reading the detailed description which follows, for the understanding of which reference will be made to the appended drawings, in which:

• FIG. 1 represents a schematic and partial perspective view of an engine provided with a device for regulating the temperature of the lubricating oil according to the invention,
• FIG. 2 schematically represents the operating principle of the device for regulating the temperature of the lubricating oil of FIG. 1.

The invention will now be described with reference to Figures 1 and 2.

Figure 1 partially and schematically an internal combustion engine which includes a cylinder block 1, a cylinder head 2, an oil pan 3 and means 12 oil suction. The suction means 12 can be consist of an oil pump. Oil pump 12 sucks crankcase oil 3 through a strainer 13 to a first circuit 4A of lubrication of the mechanical organs contained in the cylinder housing 1 and to a second lubrication circuit 4B of the mechanical organs contained in the cylinder head 2. The mechanical parts intended to be lubricated in the block cylinder 1 include, for example, the bearings of the crankshaft, the big ends as well as the contacts pistons / liners. The mechanical parts intended to be lubricated in cylinder head 2 include bearings camshaft as well as the cam / tappet contacts or cam / rocker.

As shown in Figure 1, the first 4A and second 4B lubrication circuits can constitute two parts of a same lubrication circuit. That is, the oil sucked by the pump 12 is shared, at a branch, between the cylinder block 1 and the cylinder head 2.

The engine also has a circuit 9 of cooling in which a liquid circulates cooling. For the sake of simplification, circuit 9 of cooling is partially represented so schematic in Figure 1.

The oil temperature regulation device lubrication according to the invention comprises first means 5, 8A, 8B for regulating the temperature of the oil circulating in the first lubrication circuit 4A and second means 6, 7A, 7B for regulating the temperature of the oil circulating in the second lubrication circuit 4B.

As shown in Figure 2, the regulating device of the lubricating oil temperature also means 10 for measuring the temperature of lubricating oil. These measuring means 10 can be consist of a probe immersed in the oil sump 3 or by any other equivalent means. The device includes also means 11 for automatically controlling the means 6, 7A, 7B; 5, 8A, 8B for temperature regulation of first 4A and second 4B lubrication circuits depending on the oil temperature measured by means 10 of measured. The control means 11 comprise, by example, electronic data processing means of the calculator type or any other equivalent means.

In the example shown in Figure 1, the first and second means for regulating the oil temperature each consist of an exchanger 5, 6 associated with means 8A, 8B; 7A, 7B respective switching. These means 7A, 7B; 8A, 8B switching are intended to put or not the coolant in heat exchange with lubricating oil.

The exchangers 5, 6 are located upstream respectively first 4A and second 4B lubrication circuits, i.e. upstream of the cylinder block 1 and of the cylinder head 2.

The switching means associated with each exchanger 5, 6 consist of a pair of valves 8A, 8B; 7A, 7B whether or not to allow coolant circulation in the exchanger 9. That is to say that the circuit 9 of lubrication has two parallel branches allowing whether or not to carry out, in the lubrication circuit 4A, 4B concerned, the heat exchange between the oil and the liquid cooling.

Each of the two parallel paths of the same bypass comprises a valve 7A, 78; 8A, 8B respectively. So when a first 7A, 8A valve in the valve pair 7A, 7B; 8A, 88 is open and the second valve 78, 88 is closed, the coolant circulates in the exchanger 6, 5 concerned. When the second valve 78, 8B is open and the first valve 7A, 8A closed, the coolant does not circulate in the exchanger 6, 5 concerned.

According to the invention, when the means 10 for measuring the lubricating oil temperature measure a temperature below a reference temperature Tr, the control means 11 exchange heat the coolant and oil from the first 4A circuit lubrication, and deactivate the heat exchange of the oil cooling of the second 48 circuit lubrication (figure 2). In the nonlimiting example described below, the reference temperature Tr can be the temperature Stabilized maximum coolant ts in normal engine operation. This temperature Ts maximum stabilized coolant, which is known and / or measured for each type of engine, can be between about 80 and 120 degrees. Which means when the oil temperature is lower one temperature Ts equal, for example, to about 90, the cooling is heat exchanged with the oil in the exchanger of the crankcase lubrication circuit 4A cylinder 1, but not in exchanger 6 of circuit 4B of lubrication of the cylinder head 2.

In this way, the heating of the oil is accelerated. lubrication of the mechanical components of the cylinder block 1 without accelerate the heating of the lubricating oil mechanical components of the cylinder head 2. Indeed, in this first phase following the cold start of the engine, we have found that the coolant temperature increases faster than that of lubricating oil.

When the temperature of the lubricating oil is between the stabilized maximum temperature Ts of the coolant and a limit temperature Tmax between 140 and 180 degrees approximately, the means 7A, 78; 8A, 88 switching switch the heat exchange coolant and oil from the second 48 lubrication and deactivate heat exchange of water with the oil of the first (4A) lubrication circuit, so as not to cool the latter.

That is, when the oil temperature is between the stabilized maximum temperature Ts of the coolant and a limit temperature Tmax preferably equal to about 155 degrees, the liquid cooling is heat exchanged with the oil in the exchanger 6 of the cylinder head lubrication circuit 48 2, but not in the exchanger 5 of the lubrication circuit 4A of the cylinder block 1.

In this way, the oil circulating in the cylinder head 2, but not the oil intended to lubricate the cylinder block 1. Indeed, in this second phase, the temperature of the coolant stabilizes around a temperature, for example, about 90 degrees, while that the temperature of the lubricating oil continues to warm up well beyond 90 degrees.

This stabilized maximum temperature Ts of the cooling is either a fixed value known by the means 11 control, a value measured in real time. In in the latter case, the regulating device according to the invention includes means for measuring the temperature of the liquid cooling (not shown).

Finally, when the temperature of the lubricating oil is higher than a limit temperature Tmax between 140 and approximately 180 degrees, the control means 11 place the means 7A, 78; 8A, 8B switching so as to put in heat exchange the coolant and the oil first 4A and second 48 lubrication circuits.

Thus, the oil intended for circulate in the cylinder block 1 and in the cylinder head 2. This prevents certain mechanical components such as bearing bearings are damaged with oil too hot. Indeed, during this third phase, the coolant temperature is always stabilized around 90 degrees.

It can be seen that the device for regulating the temperature of the lubricating oil according to the invention reduced significantly the friction in the engine compared to prior art.

This reduction in passive losses in the motor can can be explained in particular by the fact that the temperatures of the oil in the top and in the bottom engine regulated according to the invention are better suited to the modes of lubrication lubricated mechanical parts.

Although the invention has been described in connection with particular embodiments, it includes all technical equivalents of the means described.

Claims (14)

Method for regulating the oil temperature of lubrication of the mechanical parts of a internal combustion, the engine comprising a cylinder block (1), a cylinder head (2), an oil pan (3), means (12) oil suction to a first (4A) and a second (48) lubrication circuit of the mechanical components contained respectively in the cylinder block (1) and in the cylinder head (2), characterized in that it consists in regulating so independent lubricating oil temperatures circulating in the first (4A) and second (48) circuits lubrication. Oil temperature regulation device lubrication of the mechanical parts of a internal combustion for implementing the process according to the claim 1, characterized in that it comprises first (5, 8A, 8B) and second means (6, 7A, 78) for regulating the oil temperature respectively, of the first circuit (4A) lubrication and the second lubrication circuit (48), means (10) for measuring the temperature of the oil and means (11) for automatic control of the means (5, 8A, 8B; 6 7A, 7B) for regulating the oil temperature of the first (4A) and second (4B) lubrication circuits, as a function of the measured oil temperature. Oil temperature regulation device lubrication of the mechanical parts of a internal combustion according to claim 2, characterized in that the first (5, 8A, 88) and second means (6, 7A, 7B) of regulation are each switchable by the means (11) of control between an inactive state and an active state, the active state means (5, 8A, 88, 6, 7A, 78) of regulation being determined to either cool or warm the oil circulating in the lubrication circuit (4A, 48) concerned. Oil temperature regulation device lubrication of the mechanical parts of a internal combustion according to claim 2 or 3 characterized in that when the oil temperature is below a reference temperature (Tr), the first means (5) of oil regulation are activated to heat the oil circulating in the first lubrication circuit (4A), the second regulation means (6) being either deactivated or activated to cool the oil circulating in the second (48) lubrication circuit. Oil temperature regulation device lubrication of the mechanical parts of a internal combustion according to claim 4 characterized in that the reference temperature (Tr) is between 80 and About 120 degrees. Oil temperature regulation device lubrication of the mechanical parts of a internal combustion according to any one of claims 2 to 5 characterized in that when the temperature of the oil of lubrication is between the reference temperature (Tr) and a limit temperature (Tmax), the first means (5) regulation are disabled while the second means (6) regulation are activated to cool the circulating oil in the second lubrication circuit (4A). Oil temperature regulation device lubrication of the mechanical parts of a internal combustion according to any one of claims 2 to 6 characterized in that when the temperature of the oil lubrication is above a limit temperature (Tmax), the first (5) and second (6) means of regulation are activated to cool the oil circulating respectively in the first (4A) and second (4A) lubrication circuits. Oil temperature regulation device lubrication of the mechanical parts of a internal combustion according to claim 2 characterized in that that the first and second means of regulating the oil temperature each have an exchanger (5, 6) and associated switching means (7A, 78; 8A, 8B), the exchangers (5, 6) being located respectively upstream of first (4A) and second (48) lubrication circuits, the switching means (7A, 7B; 8A, 8B) for switching selectively or not lubricating oil in exchange thermal with the coolant of a circuit (9) of engine cooling. Oil temperature regulation device lubrication of the mechanical parts of a internal combustion according to claim 8 characterized in that only when the temperature of the lubricating oil is below the maximum stabilized temperature (Ts) of the liquid cooling during normal operation of the motor, the switching means (7A, 7B; 8A, 88) put in heat exchange the coolant and the oil of the first (4A) lubrication circuit and deactivate the exchange temperature of the coolant with the oil of the second (4B) lubrication circuit. Oil temperature regulation device lubrication of the mechanical parts of a internal combustion according to claim 9 characterized in only when the temperature of the lubricating oil is between the stabilized maximum temperature (Ts) of the coolant and a limit temperature (Tmax), the switching means (7A, 7B; 8A, 8B) are used to heat exchange the coolant and the oil second (48) lubrication circuit and deactivate the exchange thermal of the coolant with the oil of the first (4A) lubrication circuit. Oil temperature regulation device lubrication of the mechanical parts of a internal combustion according to claim 10 characterized in that only when the temperature of the lubricating oil is higher than a limit temperature (Tmax), the means (7A, 7B; 8A, 8B) switching switch the heat exchange coolant and oil of the first (4A) and second (4B) lubrication circuits. Oil temperature regulation device lubrication of the mechanical parts of a internal combustion according to any one of claims 6, 7, 10 and 11, characterized in that the limit temperature (Tmax) is between 140 and 180 degrees approximately. Oil temperature regulation device lubrication of the mechanical parts of a internal combustion according to any one of claims 9 to 11 characterized in that maximum temperature (Ts) stabilized coolant is a fixed value known by the control means (11), or a value variable measured in real time. Oil temperature regulation device lubrication of the mechanical parts of a internal combustion according to any one of claims 8, 9, 10, 11 and 13, characterized in that the circuit (9) of cooling has two branches in parallel, each of the two channels of the same derivation has a valve (7A, 7B, 8A, 88) constituting the switching means associated with the exchanger (5, 6) concerned.

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