FR2907985A1 - Reversible alternator's rotating shaft coupling controlling method for motor vehicle, involves decoupling alternator from heat engine if one rest situation is detected to reduce energy losses caused by operation of alternator - Google Patents

Abstract

The method involves detecting rest situations e.g. situation in which a motor vehicle is in acceleration phase, where the operation of a reversible alternator (12) is unnecessary. The alternator is decoupled from a heat engine (10) if one of the rest situations is detected to reduce energy losses caused by operation of the alternator. Operational situations e.g. situation in which the vehicle is in a deceleration phase, where the operation of the alternator is necessary, is detected. Coupling of the alternator with the engine is maintained when one of the operational situations is detected.

Description

1 Method of controlling the coupling of an alternator of a vehicle

  The present invention relates to a method of controlling the coupling or decoupling of an alternator with the crankshaft of a heat engine. In a conventional manner, the rotation shaft of an alternator (rotation shaft which forms part of the alternator rotor) of a motor vehicle is provided at its end with a pulley, which is rotated with the aid of a drive belt, itself connected to a pulley integral with the crankshaft of the engine. As soon as the engine is started, the belt drives the alternator, which generates an electric current used to recharge one or more storage devices (batteries, supercapacitors, etc.) of the vehicle and to supply various equipment 15 consumers of electrical energy . Some vehicles are currently equipped with a reversible alternator that can operate as an electric motor. The reversible alternator (rotor and stator) is supplied with electric current by means of the battery, which rotates the rotor and thus the pulley fixed to the rotor shaft, which drives the belt and the crankshaft. The mechanical energy provided by the alternator can be used to start the engine, for example in a system for stopping and restarting the engine automatically (Stop & Start system) or to provide additional torque to the engine. When the electrical energy storage device (battery, supercapacitor ...) is sufficiently charged, the alternator can be cut off, that is to say it no longer generates electric current. The electrical consumers of the vehicle are then fed directly by the storage member. The main disadvantage of the existing systems is that the alternator is permanently connected to the crankshaft of the engine, even when the alternator does not deliver current, which generates mechanical losses related to the bearings of the alternator and its cooling system such as a fan and unnecessary wear of the alternator. Decoupling devices of the rotation shaft of an alternator with the crankshaft of an engine have already been proposed. For example, patent EP 0 980 479 B1 describes such a device consisting of a spring system and unidirectional clutch interposed between the shaft and the pulley of the alternator. The spring and the unidirectional clutch are connected in series. The spring transmits the rotational movement of the pulley to the alternator shaft, the pulley and the shaft rotating in the same direction, allowing small rotational movements of the shaft in the opposite direction to the movement of the pulley . The one-way clutch allows the alternator shaft to rotate at a higher rotational speed than the pulley when the rotational speed of the crankshaft decreases. The purpose of this system is to prevent abrupt changes in the engine's rpm from having an effect on the alternator, which would cause the belt to slip on the alternator pulley and thus the wear or even breakage of the engine. belt. Note that the clutch is unidirectional: it allows the decoupling of the rotation shaft of the alternator with the pulley only to allow a rotational speed of the shaft greater than that of the pulley.

  The patent application FR 2 727 902 describes a device for air conditioning a vehicle. When the engine of the vehicle is stopped, the alternator (reversible) is decoupled from the crankshaft of the engine and the air conditioning compressor is actuated by the reversible alternator operating in electric motor. The decoupling of the alternator is achieved by means of a free wheel interposed between the crankshaft and the crankshaft pulley. This decoupling occurs only when the engine is stopped. The patent application EP 0 441 212 A2 relates to a device for charging a battery connected to an alternator driven by the crankshaft of an engine, using a system with two pulleys connected by a belt. According to one embodiment, one of the two pulleys is of the electromagnetic type, which makes it possible to optimize the charge of the battery by decoupling the alternator from the crankshaft when the battery is charged. Although the documents cited above allow decoupling of the alternator with the crankshaft of the engine, they do not concern the problem of reducing the fuel consumption of the engine. The present invention proposes a method for reducing the consumption of the engine of a vehicle by decoupling the rotation shaft of the alternator with the crankshaft of the engine during certain operating phases.

More specifically, the invention relates to a method of controlling the coupling of an alternator with a heat engine of a vehicle, the alternator being intended to supply electrical current to at least one current-consuming device and means for storing electrical energy, the alternator and the motor being generally coupled and the coupling being effected by a coupling / decoupling device. The method consists in detecting so-called rest situations for which the operation of the alternator is unnecessary and, if at least one of the idling situations is detected, decoupling the alternator from the heat engine in order to reduce the energy losses generated by the operation of the alternator. So-called operating situations for which the operation of the alternator is useful can also be detected and, if at least one of the operating situations is detected, the coupling of the alternator to the engine is maintained so that the Alternator 25 provides power. The operating situations include at least one of the following circumstances in which the alternator supplies electrical power to said apparatus and / or the storage means: the load of the storage means is less than a predetermined threshold; The load of the storage means is not sufficient to supply electrical energy to the apparatus (es); If it is also desired to recover kinetic energy during deceleration phases of the vehicle, the alternator must also be coupled in the following situations: - the vehicle is in the deceleration phase; and 5 - the vehicle is in the braking phase. The rest situations comprise at least one of the following circumstances in which the alternator is decoupled from the engine: the vehicle is in the acceleration phase; the fuel consumption of the vehicle exceeds a predetermined consumption threshold; - The storage means of the electrical energy are in a high charge state greater than a certain threshold; and there is a need to limit the mechanical power supplied by the heat engine.

When the alternator is of the reversible type, the operating situations include one of the following circumstances for which the alternator is powered by the storage means and supplies mechanical energy to the heat engine: starting the heat engine at the help of the alternator; and 20 - providing additional torque to the heat engine. The alternator can advantageously be controlled so as to modulate the power generated by the alternator. Other advantages and features of the invention will become apparent from the following description of several embodiments of the invention, given by way of non-limiting examples, with reference to the appended drawings and in which: FIG. 1 represents the architecture of a minimal system for generating and storing electrical energy of a motor vehicle; FIGS. 2 and 3 illustrate the operation according to the invention of a system for generating and storing electrical energy of the hybrid micro-type, the alternator being respectively coupled and decoupled from the heat engine. In FIG. 1, a heat engine 10 is coupled to an alternator 12 via a coupling / decoupling device 14.

The alternator supplies electricity to electric power storage means 16, such as a battery or a supercapacitor (capacitor of large capacity), and various devices 18 that consume electrical energy, such as, for example, wipers. windows and the headlights of the vehicle. The motor is coupled to the alternator by a drive belt system connecting two pulleys, one attached to the crankshaft of the engine and the other to the rotator shaft of the alternator rotor. This can be controlled to adjust the control voltage as needed. It can also be reversible, that is to say, in addition to its operation as a current generator, be supplied with electric current by the energy storage means and thus operate as an electric motor supplying mechanical energy. . The alternator is usually coupled to the engine. According to the invention, the alternator is decoupled from the heat engine by means of the coupling / decoupling device 14 when the operation of the alternator is not useful. With the help of sensors (not shown), so-called rest situations are detected, situations for which the operation of the alternator is not useful. When one (or more) of these situations is (are) detected, the alternator is decoupled from the engine. It is also possible to detect so-called operating situations for which the operation of the alternator is useful or even necessary. When such a situation is detected, it is ensured that the alternator is well coupled to the heat engine, if necessary by tilting the coupling / decoupling device from the decoupled position to the coupled position.

In quiescent situations, the alternator is electrically shut off (it does not deliver any current) and it is also decoupled mechanically from the heat engine in order to limit losses due to unnecessary drive of the alternator rotor. During these rest situations, the electrical devices 18 are powered by the storage means 16 of electrical energy.

These situations may correspond to a situation where the cost of the energy generated is significant (for example in the acceleration phase of the vehicle or in the case of fuel consumption exceeding a predetermined threshold of consumption), to a state of charge of the means. high electrical energy storage justifying a discharge of these means 10 or a need to limit the mechanical power taken from the engine. In operating situations, the alternator is coupled to the motor and it delivers a current for powering the consumer electrical energy devices and possibly to recharge the electrical energy storage means. The power level generated may vary depending on whether it is only desired to power the electrical appliances while maintaining the state of charge of the stable storage means, or that it is also desired to recharge the storage means. The operating situations generally correspond to states of charge of the weak electrical energy storage means (charge level lower than a predetermined threshold or deemed not sufficient to power the electrical apparatus), or to situations where the generation of Electrical energy is considered profitable (in the energy recovery phase, for example in the deceleration phase with the driver's foot 25 raised by the accelerator pedal or in the braking phase). In addition, if the alternator can be controlled, the power generated by the alternator can be modulated and ideally maximized when one is in a situation where the cost of the energy is low (for example when braking the vehicle) or where there is a significant need for electrical energy (e.g., low level of the storage means).

If the alternator is reversible, additional operating situations may be considered. Thus, in the starting phase of the engine, the reversible alternator drives the engine to start it. The alternator is then coupled to the motor via the transmission belt. In addition, in case of a need for traction assistance, the alternator can operate in mechanical engine mode and provide additional torque to the engine. In this operating situation, the alternator is also coupled to the heat engine via the belt.

Figures 2 and 3 relate more particularly to the operation of a micro-hybrid system with a reversible alternator 20 driven by a heat engine 22 by means of a belt 24. A micro-hybrid system is an intermediate system between a system only Stop & Start and a hybrid system, which can operate alternately in the engine mode and the electric motor mode. The system comprises first and second electrical energy storage means, respectively 26 and 28, separated by a DC / DC type power converter 30. One or more electrical apparatus (s) 32 is (are) supplied with electric current by the alternator 20 or by the storage means 26 and / or 28. The coupling or decoupling of the alternator at the The heat engine 22 is produced by a coupling / decoupling device 34. This device can take various forms, for example: an electromagnetic clutch system integrated into the alternator pulley (for example a clutch of the type conventionally fitted to air conditioning compressors). The clutch can be single-disk or multi-disk depending on the available space and the torque to be transmitted from the engine to the alternator, and vice versa. The disc may for example be attached to the end of the rotation shaft of the alternator and be moved by electromagnetic coils to come to rest firmly on the pulley or on the contrary to move away. 2907985 8 - a system of freewheels of which at least one is driven. In this type of system, a wheel is attached to the rotation shaft of the alternator, between this shaft and the drive pulley. By moving in housings, balls, rollers or rollers make it possible to secure the wheel with the pulley of the alternator. - an indexing system (interconnection) or epicyclic gear train. In general, the coupling / decoupling device is located between the rotation shaft of the alternator and the crankshaft of the engine. It may for example be located between the rotation shaft of the alternator and the alternator pulley so as to couple or decouple the shaft and pulley. It can also be located at the exit of the crankshaft, between the crankshaft and the crankshaft pulley, the essential being to be able to couple or decouple the axis of rotation of the alternator and the crankshaft and, more generally, the alternator and the engine.

In the operating mode shown in FIG. 2, the coupling / decoupling device 34 is closed, that is to say the alternator 20 is coupled to the heat engine 22. The power generated by the alternator 20 is supplying the electrical device (s) 32 via the current converter 30 and recharging the electrical energy storage means 26 and 28. This is what is symbolized in FIG. the dashed arrows. In the case of operation illustrated in Figure 3, the coupling / decoupling device 34 is open, that is to say that the alternator 20 is decoupled from the engine 22. The alternator no longer rotates, so as to 25 limit energy losses. The electrical apparatus 32 and, if necessary, the second storage means 28 (if their load is below a certain predetermined threshold) are fed by the first storage means 26 via the current converter 30. The dashed arrows symbolize this mode of operation.

The control of the decoupling of the alternator according to the method of the invention makes it possible to significantly reduce the energy losses due to uncontrolled operation of the alternator and to reduce pollution. Embodiments other than those described and shown may be devised by those skilled in the art without departing from the scope of the present invention.

Claims (6)

  1. A method for controlling the coupling of an alternator (12, 20) with the heat engine (10, 22) of a vehicle, the alternator being intended to supply electrical power to at least one consumer device (18, 32) current and means (16, 26, 28) for storing electrical energy, the alternator and the motor being generally coupled and the coupling being effected by a coupling / decoupling device (14, 34), the method being characterized in that it consists in: - detecting rest situations for which the operation of the alternator is unnecessary; and - if at least one of the rest situations is detected, uncouple the alternator (12, 20) of the engine (10, 22) to reduce the energy losses generated by the operation of the alternator.   2. Method according to claim 1, characterized in that operating situations are also detected for which the operation of the alternator (12, 20) is useful and, if at least one of the operating situations is detected. , maintain the coupling of the alternator (12, 20) to the engine so that the alternator provides energy.   3. Method according to claim 2 characterized in that said operating situations comprise at least one of the following circumstances for which the alternator (12, 20) supplies electric power to said apparatus (18, 32) and / or the means storage (16, 26, 28): the load of the storage means is less than a predetermined threshold; the charge of the storage means is not sufficient to supply electrical power to said apparatus; the vehicle is in the deceleration phase; and 2907985 11 - the vehicle is in the braking phase.   4. Method according to one of the preceding claims characterized in that said rest situations comprise at least one of the following 5 circumstances for which the alternator (12, 20) is decoupled from the engine (10, 22): the vehicle is in the acceleration phase; the fuel consumption of the vehicle exceeds a predetermined consumption threshold; The means for storing the electrical energy are in a high state of charge; and there is a need to limit the mechanical power supplied by the heat engine.   5. Method according to one of the preceding claims characterized in that, the alternator (12, 20) being reversible, said operating situations include one of the following circumstances for which the alternator (12, 20) is powered by the storage means (16, 26, 28) and supplies mechanical energy to the heat engine (10, 22): - starting of the engine with the aid of the alternator; - Addition of a complement of torque to the engine.   6. Method according to one of the preceding claims characterized in that the alternator (12, 20) is controlled so as to modulate the power generated by the alternator. 25