Infinitely variable power branching transmission with two operating modes

Abstract

The invention concerns an infinitely variable power branching transmission with two operating modes, whereof the components are distributed between two power paths connecting in parallel the heat engine (1) to the vehicle wheels (3), said means including at least two planetary trains (5, 6) two electrical machines (2, 4), a reduction stage (7), and control means orienting differently the power between the transmission input and output based on the operating mode thereof. The invention is characterised in that it comprises two reduction stages (7) arranged in parallel between the two trains (5, 6) on the same power path, said two stages being respectively urged in the first and in the second operating transmission mode.

Description

[0001] The present invention relates to a power-splitting transmission wherein, regardless of how fast the internal combustion engine is spinning, a continuous variation from reverse gear to forward gear can be achieved by passing through a special position known as “engaged neutral”, in which the speed of movement of the vehicle is zero.

[0002] More precisely, its object is a power-splitting infinitely variable transmission having two modes of operation, wherein the constituent elements are distributed between two power trains that provide parallel connections between the internal combustion engine and the wheels of the vehicle, these means including at least two epicyclic gear sets, two electrical machines, one reducing stage and control means that guide the power between the input and output of the transmission differently depending on the mode of operation thereof.

[0003] Power-splitting transmissions may be based on three known principles or modes of power splitting. According to the first mode, known as “coupled input”, the transmission is provided with a pair of power-splitting pinions that splits the power at the input of the mechanism and with an epicyclic “assembler” gear set that recombines the powers at the output of the mechanism. The control element is a variator.

[0004] In transmissions with power splitting of the “coupled output” type, there is provided, for example, a power-dividing planetary gear set at the input of the mechanism and a power-reassembling pair of pinions at the output of the mechanism, the control element again being a variator.

[0005] Finally, in transmissions with power splitting of the “two matching points” type, a first power-dividing epicyclic gear set can be positioned at the gearbox input, while a second power-reassembling epicyclic gear set is disposed at the gearbox output, the control element again being a variator.

[0006] The traditional infinitely variable transmissions (IVT) use only one or two of these three operating principles.

[0007] From U.S. Pat. Nos. 5,558,589 and 5,935,035 there are known infinitely variable transmissions with two modes of operation combining at least two planetary gear sets, two mode-changing clutches and one electrical variator, and using as the first mode of operation the principle of power splitting with coupled output.

[0008] According to these publications, the mode-changing means are positioned outside the epicyclic gear sets.

[0009] The significance in having two modes of operation available lies in the increase of the range of transmission ratios and in the possibility of reducing the size of the electrical machines.

[0010] Nevertheless, in these known two-mode architectures, the mode changes are achieved by multiple-disk clutches disposed on the transmission output, and for this reason are accompanied by torque jolts that are sensed as unpleasant by the users.

[0011] Another disadvantage of the architectures described in these publications lies in their complexity, which is related in particular to the presence of at least two clutches and one brake.

[0012] The object of the present invention is to provide a power-splitting infinitely variable transmission with two modes of operation, wherein the architecture is simpler than that of the usual transmissions of the same type, electrical machines of small dimensions are used, and the changes of mode are not accompanied by any torque jolt.

[0013] To achieve this object, it is proposed that the mode changes be accomplished by acting on the internal mechanical linkages of the transmission situated between the two gear sets.

[0014] According to the invention, at least two reducing stages are disposed between the two epicyclic gear sets for this purpose, these stages being engaged in the first and second modes of operation respectively. These two reducing stages are disposed in parallel between the two gear sets on the same power train.

[0015] According to other characteristics of the invention, the two electrical machines are mounted in series on the same power train, and the two reducing stages are mounted in parallel between the two electrical machines.

[0016] Without departing from the scope of the invention, the electrical machines may also be connected to an energy-storage unit or to a generator.

[0017] According to the preferred embodiments of the invention, the proposed transmission may contain seven, six or five reducing stages, of which two are disposed outside the epicyclic gear sets.

[0018] Other characteristics and advantages of the present invention will become clearly evident upon reading the description hereinafter with reference to the attached drawings, in which FIGS. 1 to 10 illustrate ten special embodiments thereof.

[0019] The transmission of FIG. 1 is composed of two epicyclic gear sets 5, 6, seven reducing stages 7, two mode-changing systems 8 and 9, which may be either claw couplings or multiple-disk clutches, and two electrical machines 2, 4, which together constitute a variator.

[0020] This transmission has four input and output connections, which can be connected respectively to internal combustion engine 1, to wheels 3 and to two electrical machines 2 and 4.

[0021] Internal combustion engine 1 is connected to one reducing stage 7. Wheels 3 are connected to two reducing stages 7. A first electrical machine 2 of the variator is connected to one reducing stage 7, and a second electrical machine 4 is connected to one reducing stage 7 and to two mode-changing systems 8 and 9.

[0022] Three reducing stages are connected to the first epicyclic gear set 5. Four reducing stages are connected to the second epicyclic gear set 6. One reducing stage is connected to each mode-changing system 8 and 9.

[0023] The transmission illustrated by FIG. 1 therefore contains seven reducing stages, of which five are disposed between and two are disposed outside the two epicyclic gear sets.

[0024] Internal combustion engine 1 is connected to epicyclic gear set 5 via one reducing stage, and wheels 3 are connected to each epicyclic gear set 5, 6 via one reducing stage.

[0025] This transmission has two modes of operation with two matching points. In the first mode, first mode-changing system 8, connected to two reducing stages on the one hand and to one electrical machine 4 on the other hand, is open. This first branch is therefore disengaged, while the second branch, which contains second mode-changing system 9 and, just as the first branch, is connected to two reducing stages and to electrical machine 4, is closed.

[0026] Conversely, in the second mode of operation, the first branch is closed and the second branch is open.

[0027] FIG. 2 shows the same elements as on FIG. 1. Just as the foregoing, this transmission has four input and output connections, which can be connected respectively to internal combustion engine 1, to wheels 3, to first electrical machine 2 and to second electrical machine 4. In this case the internal combustion engine is connected to each epicyclic gear set 5, 6 by one reducing stage 7, and wheels 3 are connected to a single epicyclic gear set 5 by one reducing stage.

[0028] Just as that in FIG. 1, the transmission of FIG. 2 is provided with two modes of operation having two matching points, depending on whether first and second mode-changing systems 8, 9, which are disposed in analogous manner, are open or closed.

[0029] The transmissions illustrated by FIGS. 3 to 6 contain six reducing stages, of which four are disposed between and two are disposed outside the two epicyclic gear sets.

[0030] In FIG. 3, internal combustion engine 1 is connected via one reducing stage 7 to an epicyclic gear set 5.

[0031] In FIG. 4, internal combustion engine 1 is connected via a single reducing stage 7 to two epicyclic gear sets 5, 6.

[0032] In FIG. 5, wheels 3 are connected to each epicyclic gear set. 5, 6 via one reducing stage 7.

[0033] In FIG. 6, internal combustion engine 1 is connected to each epicyclic gear set 5, 6 by one reducing stage 7.

[0034] The transmissions according to the invention and illustrated by FIGS. 7 and 8 contain five reducing stages, of which three are disposed between and two are disposed outside the two epicyclic gear sets 5, 6.

[0035] In FIG. 7, internal combustion engine 1 is connected to one epicyclic gear set 5 via one reducing stage 7.

[0036] In FIG. 8, internal combustion engine 1 is connected to two epicyclic gear sets 5, 6 by a single reducing stage 7.

[0037] Finally, the transmissions of FIGS. 9 and 10, in common with those of FIGS. 1 and 2, contain seven reducing stages 7, of which five are disposed between and two are disposed outside the two epicyclic gear sets 5, 6.

[0038] In FIG. 9, wheels 3 are connected to epicyclic gear set 6 by two reducing stages 7 in series, while in FIG. 10 it is engine 1 that is connected to gear set 6 by two reducing stages 7 in series.

[0039] In conclusion, each of the non-limitative embodiments of the invention described hereinabove contains the two epicyclic gear sets, the two electrical machines and a certain number of reducing stages. The corresponding transmissions also contain control means (not illustrated), which guide the power between the input and the output of the transmission differently depending on the mode of operation thereof. The two electrical machines are mounted in series on the same power train, and can be connected to a generator or to an energy-storage unit (not illustrated).

[0040] In all cases, the arrangement of two parallel branches between the two electrical machines, each containing one reducing stage and a mode-changing system, ensures that two modes of operation are available at two operating points, depending on the branch being used.

Claims

1. A power-splitting infinitely variable transmission having two modes of operation, wherein the constituent elements are distributed between two power trains that provide parallel connections between the internal combustion engine (1) and the wheels (3) of the vehicle, these means including at least two epicyclic gear sets (5, 6), two electrical machines (2, 4), one reducing stage (7) and control means that guide the power between the input and output of the transmission differently depending on the mode of operation thereof, characterized in that it is provided with two reducing stages (7) disposed in parallel between the two gear sets (5, 6) on the same power train, these two stages being engaged respectively in the first and second modes of operation of the transmission.

2. A transmission according to claim 1, characterized in that the two electrical machines (2, 4) are mounted in series on the same power train.

3. A transmission according to claim 1 or 2, characterized in that the two reducing stages (7) are mounted in parallel between the two electrical machines (2, 4).

4. A transmission according to claim 1, 2 or 3, characterized in that the electrical machines (2, 4) are connected to an energy-storage unit.

5. A transmission according to claim 1, 2 or 3, characterized in that the two electrical machines (2, 4) are connected to an electrical energy generator.

6. A transmission according to one of the preceding claims, characterized in that it contains seven reducing stages (7), of which five are disposed between and two are disposed outside the two epicyclic gear sets (5, 6).

7. A transmission according to claim 6, characterized in that the internal combustion engine (1) is connected to the epicyclic gear set (5) via one reducing stage (7), and in that the wheels (3) are connected to each epicyclic gear set (5, 6) via one reducing stage (7).

8. A transmission according to claim 6, characterized in that the internal combustion engine (1) is connected to each epicyclic gear set (5, 6) by one reducing stage (7), and in that the wheels (3) are connected to a single epicyclic gear set (6) by one reducing stage (7).

9. A transmission according to claim 6, characterized in that the wheels (3) are connected to an epicyclic gear set (6) by two reducing stages (7) in series.

10. A transmission according to claim 6, characterized in that the engine (1) is connected to an epicyclic gear set (6) by two reducing stages (7) in series.

11. A transmission according to one of claims 1 to 5, characterized in that it contains six reducing stages (7), of which four are disposed between and two are disposed outside the two epicyclic gear sets (5, 6).

12. A transmission according to claim 11, characterized in that the internal combustion engine (1) is connected via one reducing stage (7) to an epicyclic gear set (5).

13. A transmission according to claim 11, characterized in that the internal combustion engine (1) is connected via a single reducing stage (7) to both epicyclic gear sets (5, 6).

14. A transmission according to claim 11, characterized in that the wheels (3) are connected to each epicyclic gear set (5, 6) via one reducing stage (7).

15. A transmission according to claim 11, characterized in that the internal combustion engine (1) is connected to each epicyclic gear set (5, 6) by one reducing stage (7).

16. A transmission according to one of claims 1 to 5, characterized in that it contains five reducing stages (7), of which three are disposed between and two are disposed outside the two epicyclic gear sets (5, 6).

17. A transmission according to claim 16, characterized in that the internal combustion engine (1) is connected to an epicyclic gear set (5) via one reducing stage (7).

18. A transmission according to claim 16, characterized in that the internal combustion engine (1) is connected to both epicyclic gear sets (5, 6) by a single reducing stage (7).