FR2962179A1 - Speed reducer for placing between rotating shaft of electric machine and drive shaft of drive wheel of hybrid vehicle, has gear formed by pinion of idler wheel, and pinion engaged with another pinion integrated with drive shaft of wheel - Google Patents

Abstract

The reducer has a gear integrated with a rotating shaft of an electric machine (1). A first pinion (31) is engaged with a second pinion (51) of an idler wheel (5) mounted coaxially on a drive shaft of a drive wheel. A second gear is formed by a third pinion of the idler wheel. The third pinion is engaged with a fourth pinion (61) of another idler wheel (6) mounted coaxially on the rotating shaft of the electric machine. A third gear is formed by a fifth pinion (62) of the idler wheel. The fifth pinion is engaged with a sixth pinion (22) integrated with the drive shaft of the wheel. An independent claim is also included for a hybrid vehicle comprising an electric machine.

Description

"REDUCER FOR ELECTRIC MACHINE OF HYBRID VEHICLE"

The present invention relates to a reducer placed between an electric machine and the driving wheels of a hybrid vehicle for driving this vehicle, as well as the hybrid vehicle itself. Hybrid vehicles generally comprise an electric machine connected to an electric accumulator, for, in combination with a heat engine, to obtain different operating modes and to reduce the energy consumption as well as the polluting emissions. According to the demands of the driver and the traffic conditions, it is possible in particular to bring with the electric machine additional engine torque applied to the drive wheels, recharge the batteries when braking the vehicle by delivering a braking torque on these drive wheels, or roll only with the electric motor without emitting polluting gas. It can thus optimize the operation of the engine and reduce its consumption. To mechanically connect the electric machine with the wheels of the vehicle, it is generally provided a speed reducer composed of gears between the rotating shaft of the electric machine and the differential rotating the motor shafts of the wheels of a running gear. The reduction that the speed reducer allows between the electric motor and the differential is indeed necessary to adapt the level of speed and torque between the electric machine and the wheel. A gear reducer having two gear stages can be used for this purpose. The total reduction of the reducer, corresponding to the product of the gear ratios of each stage, is then limited. Indeed, the gear ratio of each gear stage is limited to limit the problems of mechanical strength and acoustics. The increase in the gear ratio has the effect of generating noises in the gearing. To avoid these noises, it is necessary to increase the distances between each gear. Such a dimensioning then causes a significant overall distance between the differential and the electric machine, making it more difficult to install these elements in the vehicle. The present invention aims to overcome these disadvantages of the prior art. In particular, the present invention aims to provide a speed reducer for an electric machine linked to the driving wheels of a hybrid vehicle, which offers a high gear ratio without the risk of mechanical failure or noise generation.

Another object of the invention is to provide such an electric machine speed reducer which is particularly compact, and allows easy implantation of the electric machine in the vehicle. These objectives, as well as others, which will become clearer later, are achieved by using a speed reducer composed of gears placed between the rotating shaft of an electric machine and a drive shaft. at least one driving wheel of a hybrid vehicle, characterized in that it comprises: a first gear formed by a pinion integral with the rotating shaft of the electric machine, engaged with a first pinion of a first idler gear; mounted coaxially on the driving shaft of the drive wheel, - a second gear formed by a second gear of the first idler gear, engaged with a first gear of a second idler wheel mounted coaxially on the rotating shaft of the electric machine, and a third gear formed by a second pinion of the second idler wheel, engaged with a pinion integral with the driving shaft of the driving wheel. Advantageously, the drive shaft of at least one drive wheel is constituted by a differential rotatably connected to the drive shafts of the wheels of a running gear. Advantageously, the first idler wheel is mounted on the drive shaft of the driving wheels by means of bearings. Advantageously, the second idler wheel is mounted on the rotating shaft of the electric machine by means of bearings.

Advantageously, the pinion integral with the rotating shaft of the electric machine, the second pinion of the first idler wheel and the second pinion of the second idler wheel have respectively smaller diameters than those of the first pinion of the first idler wheel, the first pinion of the second idler wheel and the pinion secured to the driving shaft of the drive wheels. The invention also relates to a hybrid vehicle having an electric machine associated with a heat engine for driving the vehicle, wherein the rotating shaft of the electric machine is connected to a driving shaft of the drive wheels via a speed reducer as described above.

Other objects, advantages and features of the invention will appear in the following description of a preferred embodiment, not limiting the scope of the present patent application accompanied by drawings in which: - the figure 1 is a schematic representation of a gearbox for a hybrid vehicle electric machine according to a prior art to the present invention; FIG. 2 is a schematic representation of a gearbox for a hybrid vehicle electric machine according to one embodiment of the invention; FIG. 3 is a simplified perspective representation of the electric machine and the reducer of FIG. 2. FIG. 1 schematically represents a gearbox according to a prior art to the present invention, placed between an electric machine 1 and a differential 2 driving in rotation of the two wheels of a running gear of a vehicle. The rotating shaft 3 of the electric machine 1 is integral with a pinion 31 which is engaged with a pinion 41 of an intermediate shaft 4 rotating about an axis parallel to the axis of rotation of the shaft 3 and to the axis of rotation 21 of the differential 2. The gear formed by the pinions 31 and 41 forms the first reduction stage gear reducer. The intermediate shaft 4 also carries a second pinion 42 which is engaged with a pinion 22 rotatably connected to the differential 2. The gear formed by the pinions 42 and 22 forms the second reduction stage gear reducer. The gear ratio of each gear being proportional to the ratio between the diameters of the two gears of the gear, the search for an overall reduction of the gear reducer more important leads to reduce the size of the gears 31 and 42, and increase the size of the gears 41 and 22.

The pinions 31 and 42 must, however, have sufficient dimensions to not generate noise during use. Moreover, the increase in the reduction ratio of the speed reducer of FIG. 1 results in an overall increase in the diameters of the gears 41 and 22, which leads to an increase in the overall distance between the speed reducer, represented by the arrow 8 between the axis of rotation of the shaft 3 and the axis of rotation 21 of the differential 2. Figures 2 and 3 show the electric machine 1 and the differential 2 connected to each other by a speed reducer according to one embodiment of the invention. The rotating shaft 3 of the electric machine 1 is integral with a pinion 31 which is engaged with a first pinion 51 integral with a first idler wheel 5, mounted free to rotate, by means of bearings, on the differential 2 with which it is coaxial. The gear formed by the pinions 31 and 51 forms a first reduction stage gear reducer.

The first idler wheel 5 is also secured to a second gear 52, which is engaged with a first pinion 61 secured to a second idler wheel 6, rotatably mounted, by means of bearings, on the axle 3 with which she is coaxial. The gear formed by the pinions 52 and 61 forms a second stage of reduction of the speed reducer. The idler wheel 6 is also secured to a second pinion 62 which is engaged with the pinion 22 carried by the differential 2. The gear formed by the pinions 62 and 22 forms a third reduction stage of the speed reducer. The speed reducer according to the invention thus has three stages of reduction, which allows it to offer an important gear ratio without the pinions 51, 61 and 22 have a diameter too large, which would have the effect of increasing the overall spacing of the gear reducer, nor that the pinions 31, 52 and 62 have a diameter too small, which would have the effect of generating noise and reduce the mechanical strength of the speed reducer. Furthermore, the coaxial rotations of the shaft 3 and the second idler wheel 6, on the one hand, and the differential 2 and the first idler wheel 5, on the other hand, make it possible to reduce substantially the overall distance between speed reducer, represented by the arrow 9.

The speed reducer according to the invention therefore makes it possible to offer an important gear ratio associated with good compactness.

Claims (6)

REVENDICATIONS1. Speed reducer composed of gears placed between the rotating shaft of an electric machine (1) and a drive shaft of at least one driving wheel of a hybrid vehicle, characterized in that it comprises: - a first gear formed by a pinion (31), integral with the rotating shaft (3) of the electric machine (1), engaged with a first pinion (51) of a first idler wheel (5) mounted coaxially on the drive shaft of the driving wheel; - a second gear formed by a second gear (52) of the first idler gear (5), engaged with a first gear (61) of a second idler gear (6) coaxially mounted on the rotating shaft (3) of the electric machine (1), and - a third gear formed by a second pinion (62) of the second idler wheel (6), engaged with a pinion (22) integral with the drive shaft of the driving wheel. 2. Gearbox according to claim 1, characterized in that the drive shaft of at least one drive wheel is constituted by a differential (2) rotatably connected to the drive shafts of the wheels of a running gear. 3. Speed reducer according to any one of claims 1 and 2, characterized in that the first idler wheel (5) is mounted on the drive shaft of the driving wheels by means of bearings. 4. Speed reducer according to any one of claims 1 to 3, characterized in that the second idler wheel (6) is mounted on the rotating shaft of the electric machine by means of bearings. 5. Speed reducer according to any one of claims 1 to 4, characterized in that the pinion (31) integral with the rotating shaft of the electric machine, the second pinion (52) of the first roueuolle (5) and the second pinion (62) of the second idler wheel (6) has respectively smaller diameters than those of the first pinion (51) of the first idler wheel (5), the first idler gear (61) of the second idler wheel (6) and the pinion (22) integral with the drive shaft of the drive wheels. Hybrid vehicle having an electric machine (1) associated with a heat engine for driving the vehicle, characterized in that the rotating shaft (3) of the electric machine (1) is connected to a drive shaft of the driving wheels via a speed reducer according to any one of claims 1 to 5.