HYBRID POWERTRAIN FOR A VEHICLE

Abstract

A hybrid powertrain for a vehicle includes an internal combustion engine having a crank shaft rotatable about a geometric axis, an electric machine and a transmission having an input shaft rotatable about the geometric axis, and a clutch by which clutch the internal combustion engine and the transmission are selectively connectable to each other. A rotor of the electric machine is arranged on the crank shaft for rotating together with the crank shaft about the geometric axis, and the clutch is a dog clutch arranged for connecting and disconnecting the crank shaft of the internal combustion engine and the input shaft of the transmission to and from each other.

Claims

1. A hybrid powertrain for a vehicle, the powertrain comprising an internal combustion engine having a crank shaft rotatable about a geometric axis, an electric machine and a transmission having an input shaft rotatable about the geometric axis, and a clutch by which clutch the internal combustion engine and the transmission are selectively connectable to each other, wherein a rotor of the electric machine is arranged on the crank shaft for rotating together with the crank shaft about the geometric axis, and the clutch is a dog clutch arranged for connecting and disconnecting the crank shaft of the internal combustion engine and the input shaft of the transmission to and from each other.

2. The hybrid powertrain according to claim 1, wherein the dog clutch has a sleeve displaceable in an axial direction between two positions, a neutral position where the crank shaft and the input shaft are disconnected from each other, and a drive position where the crank shaft and the input shaft are connected to each other.

3. The hybrid powertrain according to claim 2, wherein the dog clutch comprises a hub arranged on the input shaft and rotationally locked relative to the input shaft, and an engagement ring rotationally locked relative to the crank shaft, the sleeve being arranged on the hub and rotationally locked relative to the hub, the sleeve and the engagement ring being engageable for connecting the crank shaft and the input shaft to each other by displacement of the sleeve.

4. The hybrid powertrain according to claim 1, wherein the powertrain comprises a further electric machine connected to the transmission.

5. The hybrid powertrain according to claim 4, wherein a rotor of the further electric machine is arranged for rotating about an axis arranged in parallel with the geometric axis, preferably about an axis coinciding with the geometric axis.

6. The hybrid powertrain according to claim 4, wherein the transmission comprises a planetary gear set, the further electric machine being connected to the input shaft of the transmission through the planetary gear set.

7. The hybrid powertrain according to claim 6, wherein a rotor of the further electric machine is rotationally locked to a sun gear of the planetary gear set, and a planet gear carrier of the planetary gear set is rotationally locked to the input shaft.

8. The hybrid powertrain according to claim 1, wherein the transmission comprises a final drive and a drive chain or belt, the input shaft of the transmission being connected to the final drive through the drive chain or belt.

9. The hybrid powertrain according to claim 1, wherein the transmission comprises a final drive and an intermediate shaft, the input shaft of the transmission and the intermediate shaft being connected to each other, and the intermediate shaft and the final drive being connected to each other.

10. The hybrid powertrain according to claim 9, wherein the powertrain comprises a further electric machine connected to the transmission and the further electric machine is connected to the intermediate shaft.

11. The hybrid powertrain according to claim 10, wherein the transmission comprises a gear wheel arranged on a motor shaft of the further electric machine and a gear wheel arranged on the intermediate shaft, the gear wheel arranged on the motor shaft and the gear wheel arranged on the intermediate shaft being engaged with each other.

12. The hybrid powertrain according to claim 10, wherein the further electric machine is permanently connected to the intermediate shaft.

13. The hybrid powertrain according to claim 10, wherein the powertrain has a further dog clutch arranged for connecting and disconnecting the further electric machine and the intermediate shaft to and from each other.

14. The hybrid powertrain according to claim 9, wherein the transmission has a gear wheel arranged on the input shaft and a gear wheel arranged on the intermediate shaft, the gear wheel of the input shaft and the gear wheel of the intermediate shaft being engaged with each other.

15. The hybrid powertrain according to claim 9, wherein the transmission has a gear wheel arranged on the intermediate shaft engaged with the final drive.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0025] With reference to the appended drawings, below follows a more detailed description of embodiments of the invention cited as examples.

[0026] In the drawings:

[0027] FIG. 1 is a schematic view of one example embodiment of a hybrid powertrain according to the invention,

[0028] FIG. 2 shows a variant of the powertrain in FIG. 1, and

[0029] FIG. 3 shows a further variant of the powertrain in FIG. 1.

DETAILED DESCRIPTION

[0030] FIG. 1 is a schematic view showing a hybrid powertrain 1 for a vehicle. The powertrain 1 comprises an internal combustion engine 2 having a crank shaft 3 rotatable about a geometric axis 4, an electric machine 5 and a transmission 6 having an input shaft 7 rotatable about the geometric axis 4. The powertrain 1 further comprises a clutch 8 by which clutch 8 the internal combustion engine 2 and the transmission 6 are selectively connectable to each other.

[0031] The internal combustion engine 2 is arranged for transferring torque to the transmission 6. The transmission 6, which suitably comprise a final drive, is arranged for transferring torque to wheels of the vehicle (not shown).

[0032] A rotor 9 of the electric machine 5 is arranged on the crank shaft 3 for rotating together with the crank shaft 3 about the geometric axis 4, and the clutch 8 is a dog clutch arranged for connecting and disconnecting the crank shaft 3 of the internal combustion engine 2 and the input shaft 7 of the transmission 6 to and from each other.

[0033] The electric machine 5 is arranged for transferring torque between the electric machine 5 and the crank shaft 3 and between the electric machine 5 and the transmission 6.

[0034] The electric machine 5 is suitably a combined electric motor and generator, though in another embodiment the electric machine 5 could be an electric motor only. The electric machine 5 can be electrically connected to an energy storage 23.

[0035] The electric machine 5 can be an AC motor/generator and then the electric machine is connected to an AC/DC inverter 24 which in turn is connected to the energy storage 23, such as a battery. The inverter 24 can be used for converting AC to DC when charging the battery 23 by the generator function of the electric machine 5, and for converting DC to AC when powering the electric machine 5 by the battery 23.

[0036] FIG. 2 shows a variant of the hybrid powertrain 1′. With reference to FIG. 2, only additional or modified components as compared to the powertrain in FIG. 1 will be described in detail. The dog clutch 8 has suitably a sleeve 10 displaceable in an axial direction 11 between two positions; a neutral position (shown) where the crank shaft 3 and the input shaft 7 are disconnected from each other, and a drive position where the crank shaft 3 and the input shaft 7 are connected to each other.

[0037] The dog clutch 8 may comprise a hub 12 arranged on the input shaft 7 and rotationally locked relative to the input shaft 7, and an engagement ring 13 rotationally locked relative to the crank shaft 3. The engagement ring 13 can be directly attached to the crank shaft 3 or be attached to the rotor 9 of the electric machine 5 which in turn is rotationally locked to the crank shaft 3. The sleeve 10 is arranged on and rotationally locked to the hub 12. The sleeve 10 and the engagement ring 13 are engageable for connecting the crank shaft 3 and the input shaft 7 to each other by displacement of the sleeve 10. In FIG. 2, the sleeve 10 can be displaced to the right in the axial direction 11 for engagement with the engagement ring 13.

[0038] In this example embodiment illustrated in FIG. 2, the powertrain has a further electric machine 14. The further electric machine 14 is connected to the input shaft 7 of the transmission 6. The further electric machine 14 is suitably connected to the input shaft 7 at an opposite end thereof relative to the first electric machine 5. A rotor 15 of the further electric machine 14 is arranged for rotating about the geometric axis 4 about which also the rotor 9 of the first electric machine 5 and the crank shaft 3 are arranged to rotate.

[0039] The further electric machine 14 is arranged for transferring torque between the further electric machine 14 and the transmission 6.

[0040] The transmission 6 comprises a planetary gear set 16. The further electric machine 14 is connected to the input shaft 7 of the transmission 6 through the planetary gear set 16. The planetary gear set may have a sun gear, planet gears, a planet gear carrier and a ring gear as known by the skilled person in the art.

[0041] In the example embodiment illustrated in FIG. 2, the rotor 15 of the further electric machine 14 is rotationally locked to a sun gear 17 of the planetary gear set 16, and a planet gear carrier 18 of the planetary gear set 16 is rotationally locked to the input shaft 7. Thus, a rotation of the rotor 15 will bring the input shaft 7 to rotate, and vice versa.

[0042] For example, the rotor 15 of the further electric machine 14 can be attached to the sun gear 17 of the planetary gear set 16 by arranging the sun gear 17 onto a shaft 19 of the rotor 15. The planet gear carrier 18 of the planetary gear set 16 and the input shaft 7 can be made in one piece or by separate pieces connected to each other.

[0043] The transmission 6 further comprises a final drive 20 and a drive chain or belt 21. The input shaft 7 of the transmission 6 is connected to the final drive 20 through the drive chain or belt 21.

[0044] For an embodiment where a drive chain is used, a sprocket wheel 22 can be arranged on the input shaft 7, and a corresponding sprocket wheel or similar driven by the drive chain 21, can be arranged as final drive of the differential.

[0045] For an embodiment where a drive belt is used, a pulley can be arranged on the input shaft, and a corresponding pulley or similar driven by the drive belt, can be arranged as final drive of the differential.

[0046] In the same way as already described for the electric machine 5 with reference to FIG. 1, the further electric machine 14 is suitably a combined electric motor and generator, though in another embodiment the further electric machine could be an electric motor only. The further electric machine 14 can be electrically connected to an energy storage 23.

[0047] In the example embodiment illustrated in FIG. 2, the electric machine 5 and the further electric machine 14 are electrically connected to each other for transferring energy between the electric machines. Both the electric machine 5 and the further electric machine 14 are suitably electrically connected to the energy storage device 23. The electric machines 5, 14 can be AC motors/generators and then the electric machines are connected to an AC/DC inverter 24′ which in turn is connected to the energy storage device 23, such as a battery. The inverter 24′ can be used for converting AC to DC when charging the battery 23 by the generator function of the electric machine and/or the further electric machine, and for converting DC to AC when powering the electric machine 5 and/or the further electric machine 14 by the battery 23. Optionally, the inverter 24′ can be replaced by two separated inverters, one inverter for each electric machine.

[0048] FIG. 3 shows a further variant of the powertrain 1″. With reference to FIG. 3, only additional or modified components as compared to the powertrain in FIGS. 1 and 2 will be described in detail.

[0049] The transmission 6 comprises the final drive 20 and an intermediate shaft 25. The input shaft 7 of the transmission 6 and the intermediate shaft 25 are connected to each other, and the intermediate shaft 25 and the final drive 20 are connected to each other. The transmission 6 can have a gear wheel 26 arranged on the input shaft 7 and a gear wheel 27 arranged on the intermediate shaft 25. The gear wheel 26 of the input shaft 7 and the gear wheel 27 of the intermediate shaft 25 are engaged with each other. Further, the transmission 7 has a gear wheel 28, arranged on the intermediate shaft 25 and engaged with the final drive 20.

[0050] The rotor 15 of the further electric machine 14′ is connected to the intermediate shaft 25 for transferring torque between the further electric machine 14′ and the transmission 6. The rotor could be directly connected to the intermediate shaft 25 or connected via a gear. In the embodiment illustrated in FIG. 3, the transmission 6 comprises a gear wheel 29 arranged on a motor shaft 19′ of the further electric machine 14′ and a gear wheel 30 arranged on the intermediate shaft 25. The gear wheel 29 arranged on the motor shaft 19′ and the gear wheel 30 arranged on the intermediate shaft 25 are engaged with each other.

[0051] Although the rotor 15 of the further electric machine 14′ is arranged for rotating about the geometric axis 4 about which also the rotor 9 of the first electric machine 5 and the crank shaft 3 are arranged to rotate, in the example embodiment illustrated in FIG. 3, in another embodiment the rotor 15 of the further electric machine 14′ can be arranged for rotating about an axis arranged in parallel with the geometric axis 4, but displaced relative to the geometric axis 4. Depending on conditions related to packing space and position of the further electric machine and corresponding inverter, it can be an advantage to arrange the rotation axis of the rotor 15 displaced relative to the geometric axis 4 rather than coinciding with the geometric axis 4.

[0052] Although the further electric machine 14′ is permanently connected to the intermediate shaft 25 in the example embodiment illustrated in FIG. 3, the powertrain could have a further dog clutch arranged for connecting and disconnecting the further electric machine and the intermediate shaft to and from each other.

[0053] It is to be understood that the present invention is not limited to the embodiments described above and illustrated in the drawings; rather, the skilled person will recognize that many changes and modifications may be made within the scope of the appended claims.