FR2972488A1 - THERMAL ENGINE LUBRICATING SYSTEM COMPRISING A VARIABLE CYLINDER OIL PUMP - Google Patents

Abstract

A lubrication system of a heat engine, comprising an oil pump (6) producing different flow rates controlled by a control means (20) having a map which according to the pressure and the oil temperature, and the speed of rotation of the engine , determines a target pressure and a flow rate of the pump to obtain it, this system also supplying cooling nozzles (26) for the engine pistons, characterized in that the nozzle supply circuit (24) ( 26) comprises a regulating valve (22) opening above a pressure threshold, and in that the mapping of the control means (20) further takes into account the load of the engine, which in case of need cooling the engine pistons depending on this load, determines a target pressure greater than the threshold pressure of the valve (22), and the corresponding setting of the flow rate of the pump (6).

Description

THERMAL ENGINE LUBRICATING SYSTEM COMPRISING A VARIABLE CYLINDER OIL PUMP

The present invention relates to a lubrication system of a heat engine, and a motor and a motor vehicle comprising such a lubrication system. The thermal engines generally comprise an oil pump that rotates continuously, to supply pressurized oil to the crankshaft and various moving parts of the engine, in order to lubricate and cool the guide bearings of these elements. Control valves arranged in the oil circuit, comprising pressure regulating valves which open under a defined pressure, allow to obtain a certain regulation of the fluid flow supplying the various components. A known type of oil pump, presented in particular by the document EP-A1-1537335, comprises a variable displacement regulated by a piston, this displacement adjustment being adjusted according to different operating parameters of the engine, to reduce the mechanical power absorbed by the drive of this pump.

It is also known, as presented by the document US-B2-7823545, to have below each piston of the engine, a nozzle supplied with oil under pressure by the variable displacement oil pump of this engine, to send a oil jet under the piston head to cool, and avoid overheating in case of high power demand. For this motor, in the case of a low speed rotation generating a pump oil flow which is smaller, it increases the displacement of this pump to obtain a higher flow rate to feed

in pressurized oil the nozzles by a direct circuit not including a pressure regulating valve. Other types of known oil pressure circuits include pressure regulating valves on the cooling jet circuit, opening above a pressure threshold. However, it is difficult to obtain both by simple mechanical means, when the engine that delivers a high power is hot with a more fluid oil generally causing a drop in pressure, sufficient oil pressure to open the valves. nozzle supply, and when the engine that delivers a low power is cold with a less fluid oil generally causing an increase in pressure, oil pressure not too high to maintain the valves closed. Another known method for adjusting the oil flow of the piston cooling nozzles, uses a solenoid valve controlled by a control current in order to deliver an oil pressure to these nozzles only if necessary. This method makes it possible to limit the flow of oil delivered by the pump, and to reduce its displacement at certain times in order to reduce the driving torque of the rotor of this pump.

A problem with this method is that the engine oil circuit must be modified, and a solenoid valve comprising a power supply must be added, which entails costs. The present invention is intended in particular to avoid these drawbacks of the prior art, and to provide a simple and effective solution for cooling the pistons of a heat engine, while reducing the power absorbed by the oil pump .

It proposes for this purpose a lubrication system of a heat engine, comprising an oil pump realizing different flow rates controlled by a control means comprising a map that according to the pressure and the oil temperature, and the speed of rotation of the engine , determines a target pressure and a flow rate of the pump to obtain it, this system also supplying cooling nozzles for the engine pistons, characterized in that the nozzle supply circuit comprises a regulating valve opening above a pressure threshold, and in that the mapping of the control means further takes into account the load of the engine, which in case of need for cooling of the engine pistons depending on this load, determines a target pressure greater than the threshold pressure of the valve, and the corresponding setting of the pump flow. An advantage of the lubrication system according to the invention is that it is possible with only an additional mechanical valve, if necessary to control a larger flow to obtain a higher pressure, in order to open the valve to obtain engine cooling, and the rest of the time will be satisfied with a lower flow rate depending on the other needs of the engine, in order to reduce the mechanical power absorbed by the pump. In addition, the control method according to the invention can comprise one or more of the following characteristics, which can be combined with one another.

Advantageously, the threshold pressure of the regulating valve is greater than the usual target pressure necessary for an engine at its normal operating temperature. According to one embodiment, the oil pump 35 has a variable displacement to adjust its flow.

The variable displacement oil pump may comprise a rotor comprising radial vanes which slide outwards, to bear on the internal surface of a stator.

The stator can move to adjust the displacement of the oil pump by means of an oil pressure acting on a piston surface. The oil pressure can be controlled by a solenoid valve controlled by the control means.

Advantageously, the control means is integrated in the control computer of the heat engine. The subject of the invention is also a heat engine comprising a lubrication system comprising a variable flow oil pump, controlled by a control means having a mapping which, according to the pressure and the oil temperature, and the speed of the engine. rotation of the motor, determines a target pressure and a flow rate of the pump to obtain it, this system also supplying cooling nozzles for the engine pistons, characterized in that the nozzle supply circuit comprises a regulating valve opening above a pressure threshold, which is greater than the usual target pressure necessary for an engine at its normal operating temperature. The invention also relates to a motor vehicle having a heat engine comprising a lubrication system, which comprises any one of the preceding features.

The invention will be better understood and other features and advantages will appear more clearly on reading the following description given by way of example and in a nonlimiting manner, with reference to the appended FIG. 1 which is a diagram of FIG. a

oil circuit of a lubrication system according to the invention, equipping a heat engine. Figure 1 shows a heat engine 1 comprising a motor unit 2 receiving the cylinders, below which is an oil sump 4 containing the lubricating oil. An oil pump 6 which is variable displacement, sucks by a suction screen 8 the oil contained in the housing 4. The pressurized oil then passes into an oil filter 10 to be purified, then is distributed in various pipes. A first pipe 12 supplies the engine block 2 for lubricating the crankshaft bearings and the connecting rods, and an air turbocharger 14 in the case of a supercharged engine. A second pipe 16 feeds the cylinder head 18, to lubricate the bearings of the camshaft and the thrusters of the valves. A third pipe 24 receiving the oil under pressure by a regulating valve 22 comprising a setting spring, which opens only from a pressure threshold, supplies four nozzles 24 which inject the oil under the heads. each piston, to cool them.

A control computer 20 of the oil pump 6 controls by an actuator the adjustment of the displacement of this pump. Advantageously, the control computer 20 of the oil pump 6 is integrated in the control computer of the engine 1 which controls the ignition and fuel injection of the engine, which reduces costs. The variable displacement oil pump 6 may comprise in particular a rotor comprising radial vanes which slide outwardly to bear on the cylindrical internal surface of a stator

circular, comprising an axis offset from that of the rotor so as to obtain on a revolution of this rotor, a variation of the volume of each chamber located between two pallets.

For this vane pump 6, a simple means of controlling the displacement of the pump, is to move the stator to move away or closer to its center of the axis of the rotor, so as to respectively increase or reduce the displacement.

In general, the adjustment of the oil pump 6 can be carried out according to various known methods, for example by the control by means of a solenoid valve, an oil pressure acting in a chamber or on a piston control, to move the stator and reduce the displacement. The control computer 20 of the oil pump 6 comprises, in a known manner, a mapping which, according to the actual pressure and the oil temperature, and the rotation speed of the motor measured permanently, determines a target pressure as well as a pump flow to get it. Then, in order to adjust the pressure delivered as a function of the target pressure, the control computer 20 regulates, by its actuator, the displacement of the pump 6 so as to reach this target pressure, by increasing or reducing this displacement in the case where the pressure is respectively too weak or too strong. Advantageously, the opening threshold pressure of the valve 22 is greater than the usual target pressure necessary for a motor at its normal operating temperature, so as to leave this valve closed and not unnecessarily cool the pistons, which allows obtain a fairly high temperature favoring better combustion.

The method according to the invention implemented by the control computer 20, also takes into account information on the engine load delivered by the engine computer, to establish a need for additional cooling of the pistons in case of heavy load. In the case of operation where the oil pressure delivered by the pump 6 is lower than the opening threshold of the regulation valve 22, the process then requires an increase in the displacement of this pump, to deliver a pressure above this threshold opening. In this case, where there is a special need for cooling the pistons, the oil jets sent by the nozzles 26 are obtained.

In other cases, the displacement of the pump 6 may remain lower so as to maintain a lower pressure which allows the regulating valve 22 to close. In these cases, the lower cylinder capacity and the absence of loss of a volume of oil through the cooling nozzles 26, can limit the driving torque of the pump 6. This is obtained on a motor 1 already comprising a variable displacement oil pump 6 controlled by a control computer 20, disposing only a simple and economical oil pressure regulating valve 22, and without adding a component requiring electrical wiring, such as a solenoid valve, combustion optimization and a reduction in the mechanical power absorbed by this pump, which contribute to to reduce the emission of gaseous pollutants.

Claims (9)

CLAIMS1 - A lubrication system of a heat engine, comprising an oil pump (6) realizing different flow rates controlled by a control means (20) having a map that according to the pressure and the oil temperature, and the speed of rotation of the engine, determines a target pressure and a flow rate of the pump to obtain it, this system also supplying cooling nozzles (26) for the piston of the engine, characterized in that the supply circuit (24) of the sprinklers (26) comprises a regulating valve (22) opening above a pressure threshold, and in that the mapping of the control means (20) further takes into account the load of the engine, which in case the need for cooling the engine pistons depending on this load, determines a target pressure greater than the threshold pressure of the valve (22), and the corresponding setting of the flow rate of the pump (6). 2 - lubrication system according to claim 1, characterized in that the threshold pressure of the control valve (22) is greater than the usual target pressure necessary for an engine at its normal operating temperature. 3 - lubrication system according to claim 1 or 2, characterized in that the oil pump (6) has a variable displacement to adjust its flow. 4 - lubrication system according to claim 3, characterized in that the variable displacement oil pump (6) comprises a rotor comprising radial vanes which slide outwards, to bear on the internal surface of a stator . 5 - Lubrication system according to claim 4, characterized in that the stator can move to adjust the displacement of the oil pump (6) by means of an oil pressure acting on a piston surface. 6 - Lubrication system according to claim 5, characterized in that the oil pressure is controlled by a solenoid valve controlled by the control means (20). 7 - lubrication system according to any one of the preceding claims, characterized in that the control means (20) is integrated in the control computer of the engine (1). 8 - A heat engine (1) comprising a lubrication system comprising a variable-rate oil pump (6), controlled by a control means (20) having a map which according to the pressure and the oil temperature, and the rotational speed of the engine, determines a target pressure and a flow rate of the pump to obtain it, this system also supplying cooling nozzles (26) for the engine pistons, characterized in that the supply circuit ( 24) the nozzles (26) has a regulating valve (22) opening above a pressure threshold, which is greater than the usual target pressure necessary for an engine at its normal operating temperature. 9 - A motor vehicle having a heat engine (1) comprising a lubrication system, characterized in that said lubrication system is made according to any one of claims 1 to 7.