FR2958882A1 - HYBRID MOTORIZATION SYSTEM - Google Patents

Abstract

A motor vehicle system (1) comprises: a first electric drive machine (3), a second electric drive machine (4), a heat engine (5), a differential (2), ) capable of driving a pair of driving wheels of the vehicle. - a first clutch system (53-49a) or pinion (48) and walkman (52) allowing itself to couple or uncouple the engine (5) and the second electric machine (4), -a second clutch or pinion system (46) and walkman (26) for coupling or uncoupling the second electric machine (4) and the differential (2). The system comprises a third system of pinions (34,35) and walkman (24), allowing alternatively, by the displacement of a third single walkman (24), to couple the first electric machine (3) with the differential (2). ), and to couple the first electric machine (3) with the differential (2) in a different gear ratio.

Description

B09-4884 - AxC / JK / EVH

Simplified joint-stock company known as: RENAULT s.a.s Hybrid engine system

The present invention relates to hybrid drive systems. BACKGROUND OF THE INVENTION In order to prolong the running time of an electric vehicle, it is known to provide the vehicle with a "range extender" consisting of a heat engine and an electric generator, thereby charging the battery and to increase the level of performance when the battery is weakly charged.

The implementation and sizing of this type of system, which is sometimes called "hybrid series", often lead to a conflict between the power required and the space available under the bonnet. One proposed solution is to use two electric motors, one of which can be used alternately to provide additional energy to the wheels, and to operate as a generator to recharge the battery. Such a system is proposed in the patent application WO 2008/077 346. This document proposes to align on the same axis a heat engine, a first electric machine and a second electric machine, both of which can operate either as a motor or in electric generator. A first clutch is arranged between the heat engine and the first electric machine, a second clutch is arranged between the first electric machine and a pinion meshing with the differential, and a third clutch is disposed between the pinion meshing with the differential and the second machine. electric. This system has a large axial size due to the alignment of the engine and the two electric machines. In addition, this system is expensive because of the use of three clutches and two voltage inverters adapted to be able to operate the two electrical machines both in propulsion mode and in generator mode. The object of the invention is to provide a system for improving the autonomy of the electric vehicle while maintaining reasonable electrical machine sizes and a controlled cost of the system. According to one embodiment, a motorization system for a motor vehicle, comprises: a first electric driving machine, connected to an accumulator battery via a voltage inverter and able to provide power to the vehicle; mechanical drive energy from an electric current delivered by the battery, a second electric drive machine, connected to the accumulator battery by means of a voltage inverter alternately allowing the second machine delivering mechanical drive energy from the electrical energy of the battery, and converting a mechanical energy transmitted to the second drive machine into electrical energy sent to the battery, - a heat engine, - a differential system capable of driving a pair of driving wheels of the vehicle, - a first clutch system or pinion and walkman allowing himself to mate or disconnect the heat engine and the second electric machine, - a second clutch system or pinion and walkman alone to couple or uncouple the second electric machine and the differential.

The system comprises a third gear and sliding clutch system, alternatively allowing, by the movement of a third single walkman, to couple the first electric machine with the differential according to a first gear ratio, and to couple the first gear. first electric machine with the differential following a second gear ratio different from the first gear. Here, the term "clutch system" designates a system for securing or detaching in rotation two axes, the clutch system may be in particular, a dry or wet clutch friction, or a pinion system, solidarisable by jaw with a mobile sliding axially along the same axis, and itself integral in rotation of this axis by splines. The first and the second clutch system can both be of the type with dog clutch.

The first clutch system may be a torque-controllable clutch, and the second clutch system may be of the dog clutch type. Advantageously, the third system of gears and walkman is of the sliding dog type, and has a neutral position for which the first electrical machine is decoupled from the differential, the second electric machine and the engine. Preferably, the second electrical machine is dimensioned so as to be able to propel the vehicle alone at a speed of at least 5km / h.

Preferably, the first electrical machine is sized to be able to propel the vehicle alone at a speed of at least 50km / h. Advantageously, the power of the first electrical machine is between 1.5 and 4 times the power of the second electric machine. Advantageously, the power of the heat engine is between 0.5 and 1.5 times the power of the first electric machine. Advantageously, the configuration of the axes, gears and walkmans gives the possibility of not placing the electrical machines in the immediate vicinity of the engine. The heat engine may be non-coaxially mounted with the first electric machine. The heat engine may be non-coaxially mounted with the second electric machine. The heat engine and the second electric machine may for example be at a first axial end relative to the axes of the gears and walkers, and the first electrical machine may be at the other axial end of the axes of the gears and walkers. According to a preferred embodiment, the motorization system further comprises an electronic control unit able to control a power delivered by the second electric machine to the differential, and / or able to control a power delivered by the engine to the differential during a period of time. gear ratio change of the first electrical machine, so that the torque delivered to the differential always remains greater than a minimum value strictly positive. The present invention will be better understood on reading the detailed description of an embodiment taken by way of nonlimiting example, and illustrated by the accompanying drawings in which: - Figure 1 schematically shows a motorization system according to the invention, and - Figure 2 schematically shows another motorization system according to the invention. As illustrated in FIG. 1, a motorization system 1 for a motor vehicle comprises a first electrical machine 3 connected via a voltage inverter (not shown) to an accumulator battery (not represented). capable of supplying mechanical energy from the electrical energy delivered by the battery. The system further comprises a second electrical machine 4 connected to the same battery and also capable of supplying mechanical energy, by rotating a shaft 41, from the electrical energy delivered by the battery. The driving energy thus delivered by the electric machine can be used to advance the vehicle by traction or propulsion, depending on the position of the drive wheels.

The second electrical machine 4 is connected to the battery via a voltage inverter (not shown) which also allows the second electrical machine to convert mechanical energy transmitted to the shaft 41 into electrical energy stored in the battery. . In other words, the second electrical machine 4 is configured to be able to operate alternately in a mechanical drive machine and in a current generator. The motorization system also comprises a heat engine 5 which may be of mechanical power comparable to the second electric machine 4 or lower. The system comprises a first group of axes 23, 25 and gears 21, 22 integral with these axes and permanently meshing with a differential 2 for transmitting mechanical energy between this group of axes and gears and a pair of driving wheels (not shown) of the vehicle. This first group of axes and pinions comprises a first axis 23 integral in rotation with a pinion 21 meshing with the differential 2 and a sliding member 24 integral in rotation with the axis 23 by means of splines which allow it to move axially along this axis 23. The first axis system also comprises a second axis 25 integral in rotation with a pinion 22 meshing with the differential 2 and carrying a sliding member 26 integral in rotation with the axis 25 by the intermediate grooves that allow it to move axially along this axis 25. An output shaft 31 of the first electrical machine 3 carries two fixed gears 32 and 33 meshing respectively with two idler gears 34 and 35 mounted around the axis 23 of the first axis system. The idle gears 34 and 35 are provided with a jaw system that allows one or other of these two gears to be secured to the player 24 as a function of the axial position of the player 24 along the axis. 23. The player 24 can also be placed in a neutral position where it does not interact with the pinion 34 or with the pinion 35. According to the axial position of the player 24, the first electric machine 3 can be made independent of the first system of axes and pinions or can be secured to the axis 23 according to two different gear ratios and pinions or can mesh with the axis 23, according to two different gear ratios, a first gear ratio that we designate for example "short report" and a second gear ratio that we will refer to for example by "long report". The shaft 41 of the second electric machine 4 carries a fixed gear 42 meshing with an intermediate gear 43 meshing in turn with a pinion 44 integral with a hollow shaft 45 mounted around the axis 25 of the first axis system and free in rotation around this one. The hollow shaft 45 also carries a second fixed gear 46 and a dog clutch system 47 which, as a function of the axial position of the sliding device 26, secures or detaches in rotation the axis 25 of the first axis system and the axis Hollow 45. The heat engine 5 is rotatably connected to an output shaft 51 carrying a sliding device 52 integral in rotation with the axis 51 by means of splines which enable it to move axially along this axis 51. pin 51 further carries a pinion gear 48 meshing with the pinion 46 and provided with a dog clutch system 49 allowing, according to the axial position of the player 52, to join or disengage in rotation the idler gear 48 and the axis 51 As an exemplary embodiment, the numbers of teeth of the different gears may be as follows: 25 teeth for the pinion 42; 44 teeth for the gear 44, 37 teeth for the gear 46, 17 teeth for the gear 22, 17 teeth for the gear 21, 65 teeth for the differential, 41 teeth for the gear 48, 17 teeth for the gear 33, 25 teeth for the pinion 32, 43 teeth for the pinion 34, 48 teeth for the pinion 35 (the number of teeth of the pinion 43 has no influence on the gear ratio).

As an example of sizing of the electrical machines and the engine, it is possible for example to use a thermal engine of nominal power 78 kilowatts, a first electrical machine of nominal power 75 kilowatts and a second electric machine of nominal power 38 kilowatts.

Many modes of operation are possible thanks to the configuration described above. For example, the vehicle can be driven solely by means of the first electric machine according to two different gear ratios, depending on the driving situations, by solidarisant in rotation one or the other of the idle gears 34 and 35 with the axis 23 of the first axis system. In this case, the positions of the players 52 and 26 may be such that the pinions 48 and 46 are idling around respectively the axis 51 and 25. It is possible, to drive the drive wheels, to add to the power of the first electrical machine 3, the power of the heat engine 5. To do this is secured with the help of the player 52 and the dog clutch system 47, the idler gear 48 with the axis 51. Simultaneously, it is secured with the player 26 and of the dog clutch system 47, the pinions 46, 44 and their hollow axis 45 with the axis 25 of the first axis system. If the second electric machine 4 is left in an electrically inactive configuration, the vehicle is then powered simultaneously by the power of the first electric machine 3, the power of which is transmitted by means of the shaft 31 and the axis 23, and by the power of the heat engine 5 whose power is transmitted through the shaft 51 by the pinions 48, 46 to the shaft 25 and the differential. By modifying the electrical configuration of the second electric machine 4, it is also possible to provide the differential 2, in addition to the energy supplied by the heat engine 5, a driving energy of the second electric machine 4. The torque drive of the second electrical machine is then transmitted by the shaft 41 and by the pinions 42, 43 and the pinion 44 secured to the axis 25 by the dog clutch system 47 and the player 26. It is also possible, for the same positions of the players 24, 52 and 26, to put the second electric machine 4 in a generator configuration, so as to recover the kinetic energy of the vehicle during the phases of "deceleration" of the vehicle, that is to say during phases where it is desired to reduce the kinetic energy of the vehicle faster than this energy would decrease spontaneously by the influence of the friction forces developed during a drive e without braking, and by the influence of the profile of the road. It is possible, in another configuration of the system, to leave the heat engine 5 at rest and to position the sliding device 52 so that the pinion 48 rotates idly about the axis 51. The heat engine 5 is then decoupled from the differential 2, of the second electric machine 4 and the first electric machine 3. Simultaneously, one can place the player 26 so as to secure by the clutch system 47 the pinions 44, 46 and their axis 45, with the shaft 25 of the first system axes. The second electric machine is then coupled with the differential 2. The player 24 can then be placed either to secure the first electrical machine 3 with the axis 23 according to the first gear ratio, or so as to secure the first machine 3 with the axis 23 according to the second gear ratio. In this configuration, the vehicle is powered by the power of the first electric machine 3, to which can be added, depending on the needs, the power of the second electric machine 4 driven electrically so as to operate in motor mode. 'training. With the same positions of the players 24, 52 and 26, it is possible, in the phases of "deceleration" of the vehicle, to change the electrical configuration of the first electrical machine 3 or the second electrical machine 4, so as to operate these generators, and thus recover some of the kinetic energy of the vehicle. In addition, when it becomes advisable to move the player 24 so as to change the gear ratio of the first electric machine 3, the second electric machine 4 can be driven so as to deliver to the first system of axes a power of driving from the second electric machine 4, according to a particular curve of power over time allowing the driver and passengers of the vehicle not to feel a break in torque at the drive of the vehicle, and thus benefit from good driving comfort. Preferably, this energy is controlled to increase temporarily during the period when the player 24 passes through its neutral position, where no drive energy is no longer transmitted from the first electrical machine 3 to the shaft 23 of the first system. axes. The second electrical machine 4 thus makes it possible to mask the break in torque that would occur otherwise during the gear ratio change of the first electric machine 3.

It is also conceivable, in configurations where the player 52 secures by means of the dog clutch system 49 the idler gear 48 with the shaft 51, to use the torque transmitted by the heat engine 5 to the differential 2 to contribute in part to mask the breaking of torque during a gear change of the first electric machine 3. Outside the gearshift moments of the first electric machine 3, the heat engine 5 and the second electric machine 4 can be simultaneously decoupled from the differential 2 by placing the player 26 in a position for which the hollow shaft 45 rotates freely about the axis 25. It is then possible to actuate the heat engine 5 to transmit a driving torque to the shaft 41 of the second electric machine 4 placed electrically in current generating mode, and recharge the vehicle battery from 15 energy supplied by the engine 5. By placing the gearbox da In the same configuration as for recharging the battery from the energy of the heat engine 5, it is also possible to operate the second electric machine 4 as a driving motor when starting the heat engine 5. The second electric machine 4 then transmits a driving torque to the engine 5, the engine and the machine being both decoupled from the differential 2. The second electrical machine 4 can alternatively be used to provide a differential drive torque 2, to act as a starter motor 5, and to serve as a current generator, either from a mechanical energy transmitted from the differential 2, or from a mechanical energy transmitted from the heat engine 5. In case of failure of the first 3 electric machine or the associated gear, it is possible to place the player 24 in the neutral position which leaves the pinions 34 and 35 all lunge around the shaft 23, and place the player 26 in the position where it solidarises in rotation the hollow shaft 45 and the shaft 25. It is then possible to transmit a drive torque to the differential 2 from either simultaneously with the engine 5 and the second electric machine 4 (by placing the player 52 in the position where it rotates the idle gear 48 and the shaft 51), or only the engine 5 (with the same positions of the engines). walkmans, but leaving the second electrical machine 4 inactive), or only the second electric machine 4 (placing the player 52 in the position it leaves the idler 48 crazy turn around the shaft 51, so that the engine does not put resistance on the rotation of the differential). It is therefore particularly possible to propel the vehicle only with the aid of the engine 5 in case of battery failure. 2 illustrates a variant of the invention derived from that described in Figure 1, wherein the player 52 and the idler gear 48 are replaced by a clutch 53, for securing or detaching a flywheel (49a) integral with rotation of the output shaft 51 of the heat engine 5, and a shaft 45a coaxial with the shaft 51 and integral with a pinion 48a meshing with the pinion 46, itself integral with the hollow shaft 45 coupled in rotation to the 41 of the second electrical machine 4. The other elements of Figure 2 are common to the elements of Figure 1 and are designated by the same references. The number of teeth of the different gears may be identical to that of Figure 1, with, in this case, 41 teeth for the pinion 48a. An advantage of this second embodiment is that it can progressively drive the value of the torque transmitted from the thermal engine 5 to the shaft 45a when the heat engine 5 is started. This progressivity may be desirable for example when it is desired to introduce the heat engine 5 in the driveline connected to the differential 2 during the rolling of the vehicle, or during the masking phases of the torque failure during gear ratio changes. of the first electrical machine 3. The object of the invention is not limited to the embodiment described and can be declined in many variants, particularly in terms of gear ratios between the different gears, and relative dimensioning powers of the two electric machines and the engine. It is of course necessary to understand the figures given in the disclosure of the invention as schematic diagrams representing in two dimensions a three-dimensional device, the axes 23, 51 and 25 being a priori non-coplanar.

It is of course possible to envisage alternative embodiments in which the heat engine 5 is provided with a separate starter distinct from the second electric machine 4. The described embodiment proposes to group on one side axle systems, the group main electric power train, and on the other side of the axis systems, a block of electrical energy generation from thermal energy (the heat engine and the second electric machine). Both systems can thus be developed, manufactured and delivered independently, for example by two different suppliers.

With the invention, it is possible to use a hybrid electric-thermal propulsion vehicle that can operate either in parallel hybrid mode, ie the electrical machine (s) transmitting a driving torque to the wheels simultaneously with the heat engine, or which can operate in series mode, ie the first electrical machine transmitting a torque to the wheels of the vehicle while the second electrical machine operates as a current generator to recharge the battery from a mechanical energy that is transmitted to it by the engine 5. I1 it is possible to modulate the power and the torque transmitted to the wheels of the vehicle, on the one hand by varying the number of electrical machines and heat engines coupled to the differential, and on the other hand, by varying the gear ratio of the first electric machine. The second electric machine can, by itself, alternatively perform three different functions, that of a booster drive motor, that of a generator for converting mechanical energy from the wheels or mechanical energy coming from the heat engine. electricity to recharge the battery and that of starter to start the engine 5. It thus wins both on the cost price and on the size of the system. The coupling and disconnection systems by gears and players, used in particular for the player 24 and the player 26, are less bulky and less expensive than conventional clutch systems proposed in the prior art. In addition, thanks to the system of referrals provided, the architecture of the system eliminates coaxial constraints between the engine and electrical machines and constraints coaxiality between the two electrical machines.

Claims (10)

REVENDICATIONS1. Motorization system (1) for a motor vehicle, comprising: - a first electric drive machine (3), connected to an accumulator battery and capable of supplying mechanical drive energy from an electric current delivered by the battery, - a second electric drive machine (4), connected to the storage battery via a voltage inverter alternately allowing the second machine (4) to deliver mechanical energy driving from the electrical energy of the battery, and converting a mechanical energy transmitted to the second drive machine (4) into electrical energy sent to the battery, - a heat engine (5), - a differential (2) capable of driving a pair of driving wheels of the vehicle. - a first clutch system (53-49a) or pinion (48) and walkman (52) allowing itself to couple or uncouple the engine (5) and the second electric machine (4), -a second clutch or pinion system (46) and walkman (26) which alone allows coupling or uncoupling the second electric machine (4) and the differential (2), characterized in that it comprises a third system of pinions (34,35) and walkman (24), allowing alternatively, by the movement of a third single walkman (24), to couple the first electric machine (3) with the differential (2) in a first gear ratio , and coupling the first electric machine (3) with the differential (2) in a second gear ratio different from the first gear. 2. System (1) of motorization according to claim 1, wherein the first (48,52) and the second (46,26) clutch system are of the type with sliding dog. 3. System (1) for motorization according to claim 1, wherein the first clutch system (53,49a) is a torque-controllable clutch, and the second clutch system (46,26) is of the type walkman to claw. 4. System (1) motorization according to one of the preceding claims, wherein the third system of pinions (34,35) and walkman (24) is of the walkman type jaw, and has a neutral position for which the first machine electric (3) is decoupled from the differential (2), the second electric machine (4) and the heat engine (5). 5. System (1) motorization according to one of the preceding claims, wherein the power of the first electrical machine (3) is between 1.5 and 4 times the power of the second electric machine (4). 6. System (1) motorization according to one of the preceding claims, wherein the power of the engine (5) is between 0.5 and 1.5 times the power of the first electric machine (3). 7. System (1) motorization according to one of the preceding claims, wherein the heat engine (5) is mounted non-coaxially with the first electric machine (3). 8. System (1) for motorization according to one of the preceding claims, wherein the heat engine (5) is mounted non-coaxially with the second electric machine (4). 9. System (1) for motorization according to one of the preceding claims, wherein the heat engine (5) and the second electric machine (4) are at a first axial end relative to the axes (23, 25, 51). walkmans, and the first electrical machine (3) is at the other axial end relative to the axes (23, 25, 51) of the players. 10. System (1) for motorization according to one of the preceding claims, further comprising an electronic control unit adapted to control a power delivered by the second electrical machine (4) to the differential (2), and / or capable of driving a power delivered by the heat engine (5) to the differential (2) during a gear ratio change of the first electric machine (3), so that the torque delivered to the differential (2) always remains greater than a value strictly positive minimum.