DUAL CLUTCH TRANSMISSION AND HYBRIDIZED DRIVE TRAIN HAVING A DUAL CLUTCH TRANSMISSION

Abstract

The invention relates to a dual clutch transmission (11, 211, 411, 611), comprising a gear-change transmission (15, 215, 415, 615) for forming eight gear steps having two countershafts (29, 31, 229, 231, 429, 431, 629, 631, 829) and having a common output shaft (33, 233, 433, 633). Said dual clutch transmission is configured in such a way that all gear steps are designed as forward gears. Hereby, a double clutch (13, 213, 413,613) has two clutch packs (17, 19, 219, 417, 419, 617, 619) arranged on a central axis (23, 223, 423, 623) of the double clutch transmission. A drive input shaft (21, 221, 421, 621) of the dual clutch transmission is seated on the central axis (23, 223, 423, 623), on which drive gearwheels (41, 241, 441, 641; 43, 243, 443, 643; 45, 245, 445, 643; 47, 247, 447, 647; 49, 249, 449, 649; 51, 251, 451, 651) of the individual gear steps are seated.

Claims

1. Dual clutch transmission, which is a gear-change transmission for the formation of eight gear steps over two countershafts, in which all gear steps are formed as forward gears, characterised in that as dual clutch, two clutch packs, in particular lamella clutch packs, disposed on one central axis of the dual clutch transmission are present and on the central axis is disposed a drive input shaft of the dual clutch transmission, on which are seated drive gearwheels of the individual gear steps.

2. Dual clutch transmission according to claim 1, characterised in that the drive input shaft is a coaxial double shaft, the inner shaft of which has preferably fixed wheels as drive gearwheels on a side facing away from the clutch.

3. Dual clutch transmission according to claim 1, characterised in that the countershafts and the drive input shaft are supported alignedly in a middle region of the shafts, preferably through a separation plane such as an end shield, are oriented axis parallel to one another.

4. Dual clutch transmission according to claim 2, characterised in that a translation step for a first gear comprises a fixed wheel on the inner shaft and a free wheel on a countershaft and a translation step for a second gear comprises a fixed wheel on an outer shaft of the dual shaft and a free wheel, wherein the fixed wheels for the first gear and for the second gear are determined exclusively as drive wheel for the respective first and second gear.

5. Dual clutch transmission according to claim 1, characterised in that at least two drive gearwheels, which are disposed preferably on two different shafts of the, in particular slotted into one another, drive input shaft, are drive gearwheels for a gear translation dual use.

6. Dual clutch transmission according to claim 1, characterised in that at least four drive gearwheels, of which in each case two are disposed on two different shafts of the drive input shaft, are determined for a single use as drive gearwheel.

7. Dual clutch transmission according claim 1, characterised in that the output shaft is a solid shaft extending parallel to at least one countershaft, being in comparison to the countershaft shortened, in particular having two sets of bearings.

8. Dual clutch transmission according to claim 1, characterised in that the countershafts and the drive input shaft is supported respectively in three areas, wherein preferably each shaft has a bearing of the first region in a common structural shell and in particular each shaft has a bearing of the second region in a second, common structural shell and in particular each shaft has a bearing of the third region in a third, common structural shell.

9. Dual clutch transmission according to claim 1, characterised in that the dual clutch transmission has four cone synchronisations, in each case usable in two movement directions, through which through alternate shifting a free wheel is connectable in form-fitting manner with a countershaft.

10. Dual clutch transmission according to claim 1, characterised in that the one first drive gearwheel is dual used and is a drive gearwheel for two gears, which are a selection from the group third gear, fifth gear and seventh gear, and the one second drive gearwheel is dual used and is a drive gearwheel for two gears, wherein the two gears are two gears from the group fourth gear, sixth gear and eighth gear.

11. Dual clutch transmission according to claim 1, characterised in that singly used drive gearwheels are present in each case as pairs, which comprises two directly adjacent to one another drive gearwheels, which are fixed on the drive input shaft, wherein each pair is connected preferably at at least one side to a gearwheel step which comprises a dual used drive gearwheel.

12. Dual clutch transmission according to claim 2, characterised in that the drive input shaft has a support point in the transition region between inner shaft and outer shaft, wherein preferably two support points are located in the region of the extremities of a transmission housing.

13. Dual clutch transmission according to claim 1, which is a gear-change transmission for the formation of eight gear steps over two countershafts and one common output shaft, in which all gear steps are formed as forward gears, characterised in that each countershaft has a fixed wheel disposed in its middle region, wherein each meshes as output fixed wheel with an output gear wheel on an output shaft, consequently the dual clutch transmission has two output fixed wheels in the region of an axial centre, wherein the output fixed wheels mesh with the same output gearwheel and preferably the output shaft opens into a spur wheel or bevel wheel, which leads to a transmission differential.

14. Dual clutch transmission according to claim 13, characterised in that the output fixed wheels are disposed directly adjacent to a middle bearing point on their respective countershaft, which starting from the output fixed wheel is preferably a three, four or five stepped, preferably three stepped, in opposite directions, that is mirror image stepped solid shaft.

15. Drive train of a motor vehicle with internal combustion engine as a first drive machine, which is a hybridised drive train, wherein internal combustion engine and electric motor as second drive machine are uncoupleable from one another and both drive machines can develop a power flow through the same dual clutch, characterised in that the drivetrain comprises a dual clutch transmission according to claim 1.

Description

SHORT DESCRIPTION OF THE FIGURES

[0046] The present invention can be still better understood when reference is made to the accompanying figures, which show an exemplary manner especially advantageous design possibilities, without limiting the present invention to these, wherein

[0047] FIG. 1 shows a first embodiment example of a drive train concept, according to the invention, of a hybridised drive train with dual clutch transmission,

[0048] FIG. 1A shows the first embodiment example of the drive train concept according to FIG. 1 of a hybridised drive train with alternative gearwheel steppings and therewith with different gear distributions,

[0049] FIG. 2 shows a second embodiment example of a drive train concept, according to the invention, of a hybridised drive train with dual clutch transmission,

[0050] FIG. 2A shows the second embodiment example of a drive train concept according to FIG. 2 of a hybridised drive train with alternative gearwheel steppings and therewith with different gear distributions,

[0051] FIG. 3 shows a third embodiment example of a drive train concept, according to the invention, of a hybridised drive train with dual clutch transmission,

[0052] FIG. 4 shows a fourth embodiment example of a drive train concept, according to the invention, of a hybridised drive train with dual clutch transmission and

[0053] FIG. 5 shows a cut out view through a countershaft or side shaft, in particular the upper countershaft according to the representation in FIG. 1 with a plurality of steps.

DESCRIPTION OF THE FIGURES

[0054] FIG. 1 shows schematically represented by symbols a drive train 1. To the drive train 1 belongs a first drive machine 3, which is a combustion engine. The combustion engine 3 is connected via a crank shaft 5 to a combustion engine clutch 7. Behind the combustion engine clutch 7 (viewed in output direction) is disposed a second drive machine 9, which is an electric motor. In power flow direction downstream is a dual clutch transmission 11. The dual clutch transmission 11 comprises the dual clutch 13 and the gear-change transmission 15. The dual clutch 13 has a first clutch 17 and a second clutch 19. For the actual realisation it is for present purposes convenient to construct the clutch 17 with a complete clutch pack. A clutch pack is also preferably installed instead of the schematically drawn clutch 19. Both clutches 17, 19 lead onto a drive input shaft 21, which lies on an axis 23 which can be described as central axis of the dual clutch transmission 11. The drive input shaft 21 comprises an inner shaft 25 and an outer shaft 27. Further shafts of the dual clutch transmission 11 are a first countershaft 29, a second countershaft 31 and an output shaft 33. The two countershafts 29, 31 can also be described as side shafts. The first countershaft 29 and the second countershaft 31 are situated to the side of the central axis 23. On the countershafts 29, 31 are disposed fixed wheel 35, 37, which can take on the job of output fixed wheels. In each case one fixed wheel 35, 37 is the output fixed wheel for in each case one countershaft 29, 31, via which the output or the output torque is forwarded onto the output shaft 33.

[0055] As can be seen in FIG. 1, the fixed wheel 35 is located in the region of an axial centre 39 of the dual clutch transmission 11. The second fixed wheel 37 is disposed in alignment with the first fixed wheel 35. The second fixed wheel 37 is also located centrally or on a position or on a place in the middle region in respect of the longitudinal extension of the countershafts 29, 31.

[0056] By means of drive gears such as the drive gears 77 and free wheels such as the free wheel 55, gearwheel steps such as the gearwheel step 53 can be formed. Using a drive wheel 77 and a free wheel 55, the translation steps 59 can be realised in the dual clutch transmission 11.

[0057] The dual clutch transmission 11 has seven gearwheel planes ZR1, ZR2, ZR3, ZR4, ZR5, ZR6, ZR7. The majority of the gearwheel planes ZR1, ZR2, ZR3, ZR4, ZR5, ZR6, ZR7 are parts for gear translation steps such as the translation step 59. A gearwheel plane, the fourth gearwheel plane ZR4 is the gearwheel plane which results from the first fixed wheel 35 and the second fixed wheel 37. The two fixed wheels 35, 37 on the countershafts 29, 31 mesh with a drive wheel on the output shaft 33.

[0058] On the drive input shaft 21 are disposed drive gearwheels 41, 43, 45, 47, 49, 51. Three drive gearwheels 41, 43, 45 are securely connected with the inner shaft 25. Three drive gearwheels 47, 49, 51 are securely connected with the outer shaft 27. The six drive gearwheels 41, 43, 45, 47, 49, 51 form respectively a part of the gear pairs 61, 63, 65, 67, 69, 71, 73, 75. Two drive gearwheels 45, 47 are doubly used drive gearwheels. The rest of the drive gearwheels 41, 43, 49, 51 are singly used drive gearwheels. Through use of the drive gearwheels 41, 43, 45, 47, 49, 51 in meshing manner with free wheels, such as free wheel 55, there form gearwheel steps such as gearwheel step 53. These gearwheel pairs lead to gear pairs 61, 63, 65, 67, 69, 71, 73, 75.

[0059] Depending on selected translation ratio between the drive gearwheels 41, 43, 45, 47, 49, 51 and the respectively assigned free wheel such as free wheel 55, it transpires which gearwheel step 53 is equivalent to which of the gear steps G1, G2, G3, G4, G5, G6, G7, G8.

[0060] In the dual clutch transmission 11 can be discovered a separation plane 57.

[0061] There is at least one separation plane 57 in the dual clutch transmission 11. The separation plane 57 separates the one, first region 165 of the dual clutch transmission 11 from the other, second region 167 of the dual clutch transmission 11. In the one region 165 are located the drive gearwheels 41, 43, 45, which receive their torque from the inner shaft 25. In the other region 167 are disposed the drive gearwheels 47, 49, 51, which receive their torque from the outer shaft 27.

[0062] Several housing walls 81, 83, 85 serve as structural shells 97, 99, 101, in order to offer support points such as the support point 109 for the shafts, such as the drive input shaft 21, the countershafts 29, 31 and the output shaft 33. Through the housing walls 81, 83, 85 are formed regions 87, 89, 91 with respect to the shafts 21, 29, 31, 33. The housing walls 81, 83, 85 are part of the transmission housing 93. The transmission housing 93 has an axial extension, through which the extremities 95, 95 are formed. Support points such as the support point 109 are usable as bearings 111, 113, 115, 117, 119, 121, 123, 125, 127, 129, 131, 133. The drive train 1 has further bearings 135, 137, 139. The further bearings 135, 137, 139 are e.g. to be found on the wheel drive shafts 153, 155.

[0063] By reason of the clever disposition of the gearwheel planes ZR1, ZR2, ZR3, ZR4, ZR5, ZR6, ZR7, with only four synchronisations 141, 143, 145, 147 an 8 gear dual clutch transmission 11 can be realised, which has therewith eight gear steps G1, G2, G3, G4, G5, G6, G7, G8. Each of the gear steps G1, G2, G3, G4, G5, G6, G7, G8 maintains the rotational direction 161 between drive input shaft 21 and output shaft 33.

[0064] The output shaft 33 is closed on one side with a bevel gear 149. The bevel gear 149 leads onto the transmission differential 151. At the transmission differential 151 are connected the wheel drive shafts 153, 155.

[0065] Each of the synchronisations 141, 143, 145, 147 has two movement directions 157, 159, through which the respective free wheel such as the free wheel 55 can be fixed. Through the fixing of the respective free wheel, such as the free wheel 55, forms the corresponding selected gear translation of the gear steps G1, G2, G3, G4, G5, G6, G7, G8.

[0066] The dual clutch transmission 11 is designed such that it can be rotated on the input side, i.e. via the drive input shaft 21 in two rotational directions 161, 163.

[0067] In one embodiment, the combustion engine can be designed such that it can only provide a first rotational direction 161 at its bevel shaft 5. The electric motor 9 can on the output side perform two rotational directions 161, 163. If a reverse drive movement is realised, the combustion engine is decoupled via the combustion engine clutch 7 from the drive train 1 and the second drive machine 9, the electric motor, turns the dual clutch transmission 11 in the opposite direction. Depending on which gear is selected by reason of the selected synchronisation 141, 143, 145, 147 is possible with eight different translations to move the motor vehicle (not shown), in which the drive train 1 is installed, in reverse drive. In such a situation it seems expedient to limit the reverse drive speed.

[0068] If a high power electric motor 9 is used, it is even possible that the motor containing the drive train 1, thanks to the dual clutch transmission 11 being designed to be independent of rotation direction, can be moved with the same reverse speed as the maximum forwards speed, which is attainable through movement of the electric motor 9. Both in forwards rotational direction and in reverse rotational direction, the respective highest gear, the eighth gear (eighth gear step G8) can be selected.

[0069] In the representation of the embodiment example according to FIG. 1 shown in FIG. 1A, alternative gear steps are represented in comparison with the gear steps of the gears G1, G2, G3, G4, G5, G6, G7, G8 according to FIG. 1.

[0070] The gearwheel steps and the gearwheel planes ZR1, ZR2, ZR3, ZR4, ZR5, ZR6, ZR7 can be numbered in sequence or order of appearance of their disposition. The first gearwheel plane ZR1 can be disposed at the side which is facing as much as possible away from the dual clutch 13, that is at the side facing away from the dual clutch. The numbering of the gearwheel planes ZR1, ZR2, ZR3, ZR4, ZR5, ZR6, ZR7 starts at the end of the double shaft, the drive input shaft 21, which does not open into the dual clutch 13.

[0071] As can be seen in FIG. 1, on the first gearwheel plane ZR1 can be guided the seventh gear step G7, that is the seventh gear. On the second gearwheel step or gearwheel plane ZR2, the first gear step G1, that is the first gear, can be placed. On the gearwheel plane ZR3 can be disposed two gears. Both the fifth gear, that is the fifth gear step G5 and the third gear, that is the third gear step G3 can lie on the third gearwheel plane ZR3. The first three gearwheel planes ZR1, ZR2, ZR3 are gearwheel planes ZR1, ZR2, ZR3, which are in connection with the inner shaft 25 of the drive input shaft 21. The three further gearwheel planes ZR5, ZR6, ZR7 are in a driveable connection with the outer shaft 27 of the drive input shaft 21. A further gearwheel plane ZR4 is formed by gearwheels of the countershafts 29, 31.

[0072] The gearwheel plane ZR5, which, although being in connection with the outer shaft 27, is however located furthest away from the dual clutch 13 in the transmission 11, can be used as gearwheel plane ZR5 for the fourth gear step G4 and the sixth gear step G6. In the gearwheel plane Z5 takes place in the same way a dual use of the drive gearwheel 47. Each region 165, 167 of the transmission 11 has a drive gearwheel 45, 47 with a gearwheel dual use.

[0073] On the next gearwheel plane ZR6, the middle gearwheel plane ZR6 in the second region 167 of the transmission 11, has the second gear step G2. The eighth gear step G8 is directly adjacent to the dual clutch 13.

[0074] In FIG. 1A are represented further possible distributions on the gearwheel planes ZR1, ZR2, ZR3, ZR4, ZR5, ZR6, ZR7. In the order of the gearwheel planes ZR1, ZR2, ZR3, ZR4, ZR5, ZR6, ZR7, during theknown already from abovedual use of two drive gearwheels 45, 47 the gear steps can be disposed in the order G3 (third gear), G1 (first gear), G7 (seventh gear), G5 (fifth gear), G6 (sixth gear), G4 (fourth gear), G2 (second gear) and G8 (eighth gear).

[0075] As can be learned from FIG. 1A, in an alternative disposition of the gear steps G1, G2, G3, G4, G5, G6, G7 and G8, the gears G7, G1, G5, G3, G8, G6, G2 and G4 can be distributed on the gearwheel planes ZR1, ZR2, ZR3, ZR4, ZR5, ZR6, ZR7.

[0076] A further possibility for the distribution of the gear steps consists in the order G3, G1, G7, G5, G8, G6, G2, G4.

[0077] FIG. 2 shows a drive train 201 of the same sort as that in FIG. 1.

[0078] In FIGS. 2, 3 and 4, similar or identical parts and components are labelled with reference signs increased in each case by 200 in comparison with FIG. 1. For this reason, for reasons of explanation, the respective equivalent component or element can be consulted from the figure description respecting FIGS. 1 and 1A when studying the FIGS. 2, 2A, 3 and 4. The sense of the figure description of FIGS. 1 and 1A can be transferred onto FIGS. 2, 2A, 3 and 4.

[0079] As can be seen from FIG. 2 regarding the drive train 201, the gearwheel planes ZR1, ZR2, ZR3, ZR4, ZR5, ZR6, ZR7 can be occupied with the gear steps G1, G2, G3, G4, G5, G6, G7, G8. To this end, the gearwheel plane ZR1 serves for the gear step G7 (seventh gear). On the gearwheel plane ZR2 lies the gear step G1 (first gear). On the gearwheel plane ZR3 lie the gear steps G5 (fifth gear) and G3 (third gear). On the gearwheel plane ZR5 lies the gear step G2 (second gear). On the gearwheel plane ZR6 lies the gear step G8 (eighth gear step). On the gearwheel plane ZR7 lies the gear step G6 (sixth gear) and at the same time the gear step G4 (fourth gear step), i.e. also in the sense of a dual use.

[0080] FIG. 2A shows alternative distributions of the gear steps on a gear layout according to FIG. 2. From the first gearwheel step ZR1 until the seventh gearwheel step ZR7, the gear step distribution can e.g. look as follows: ZR1G3, ZR2G1, ZR3G7 and G5 (drive gearwheel dual use), ZR5G2, ZR6G8 and ZR7G6 and G4.

[0081] FIG. 3 shows a drive train 401 of the same sort (in comparison with FIG. 1 and FIG. 2). From the side furthest away from the dual clutch 433, i.e. the nearest region to the second housing wall 483 with its gearwheel plane ZR1 has the third gear step G3. There follow the first gear step G1, the seventh gear step G7, the fifth gear step G5, the eighth gear step G8, the sixth gear step G6, the second gear step G2, and the fourth gear step G4.

[0082] FIG. 4 shows a drive train 601 of the same sort (in comparison with FIG. 1, FIG. 2 and FIG. 3). The gear step order can be given with G3, G1, G7, G5, G2, G4, G8 and G6.

[0083] FIG. 5 shows a first countershaft 829, which is a hollow shaft, and shows a constructional example for the first countershaft 29 (see FIG. 1) of the previous embodiment forms. On the shaft 829 in a middle region 891, which is also known as third region 91, 291, 491 of a countershaft 29, 229, 429, is an output fixed wheel 835. The hollow shaft type countershaft 829 has a largest diameter in the middle region 891. From this middle region in both directions to the extremities of the countershaft 829, steps are incorporated, the position of which is determined by the breadth of the components on the countershaft 829. Thus, the synchronisations 941, 943 determine the breadth between third step 875 and fourth step 877 on the one side and the breadth between the second step 873 and third step 875 on the other side. The one side of the countershaft 829 has five steps 871, 873, 875, 877 and 879. The other side of the countershaft 829 has four steps 871, 873, 875 and 877.

[0084] In FIG. 5, constructional norm references are used, so that an engineer can comprehend the teaching or the concrete implementation with respect to the countershaft 29, 229, 429, 629 from FIGS. 1, 1A, 2, 2A, 3 and 4 using the construction of the countershaft 829 of FIG. 5.

[0085] A shaft, such as the countershaft 829 according to FIG. 5, can be realised with shaft steppings of 50 mm, 48 mm, 42 mm and (optionally) 38 mm on one side. Although two full synchronisations 941, 943 are present, a (comparatively) stable countershaft 829 can be created, which nevertheless starts only at a first diameter of e.g. 50 mm. In diameter of 50 mm is an acceptable diameter.

[0086] As seen in FIGS. 1, 2, 3 and 4, the middle disposition of the output fixed wheel 835 leads to the possibility of the differential 151, 351, 551, 751, at least partially, entering into the installation space of the dual clutch transmission 11, 211, 411, 611. This is a further contribution to the creation of a compact drive train 1, 201, 401, 601.

[0087] Owing to the disposition of the output fixed wheel 835 in the middle region 891, that is owing to a middle diversion, the free wheels, such as the free wheel 55 (see FIG. 1), the free wheel 255 (see FIG. 2), the free wheel 455 (see FIG. 3) and the free wheel 655 (see FIG. 4) can each be slid on from thefor themnearer end of the countershaft 829 (with respect to their seat position).

[0088] The arrangement possibilities shown in the individual figures can also be connected together in any form.

[0089] Thus, it is e.g. possible to place in the embodiment variant according to FIG. 2 also gear step distributions according to FIG. 1 or according to FIG. 1A. The first countershaft 829 can e.g. with respect to its (shaft) steppings be implemented identically, at least in similar manner as second countershaft 31, 231, 431, 631.

TABLE-US-00001 List of Reference signs Reference sign Meaning 1, 201, 401, 601 drive train 3, 203, 403, 603 drive machine, in particular combustion engine or internal combustion engine as first drive machine 5, 205, 405, 605 crank shaft of the internal combustion engine 7, 207, 407, 607 combustion engine clutch, in particular decoupler, preferably as third clutch of the drive train 9, 209, 409, 609 drive machine, in particular electric motor as a second drive machine 11, 211, 411, 611 dual clutch transmission 13, 213, 413, 613 dual clutch, in particular region of the dual clutch transmission with the dual clutch 15, 215, 415, 615 gear-change transmission, in particular region of the dual clutch transmission with wheelsets 17, 217, 417, 617 first clutch, in particular realised as first clutch pack 19, 219, 419, 619 second clutch, in particular realised as second clutch pack 21, 221, 421, 621 drive input shaft, in particular as double shaft 23, 223, 423, 623 axis 25, 225, 425, 625 inner shaft, in particular the drive input double shaft 27, 227, 427, 627 outer shaft, in particular the drive input double shaft 29, 229, 429, 629, 829 first countershaft or side shaft 31, 231, 431, 631 second countershaft or side shaft 33, 233, 433, 633 output shaft 35, 235, 435, 635, 835 first fixed wheel, in particular as output fixed wheel 37, 237, 437, 637 second fixed wheel, in particular as output fixed wheel 39, 239, 439, 639 axial centre 41, 241, 441, 641 first drive gearwheel 43, 243, 443, 643 second drive gearwheel 45, 245, 445, 645 third drive gearwheel 47, 247, 447, 647 fourth drive gearwheel 49, 249, 449, 649 fifth drive gearwheel 51, 251, 451, 651 sixth drive gearwheel 53, 253, 453, 653 gearwheel step 55, 255, 455, 655 free wheel 57, 257, 457, 657 separation plane 59, 259, 459, 659 translation step 61, 261, 461, 661 first gear pair 63, 263, 463, 663 second gear pair 65, 265, 465, 665 third gear pair 67, 267, 467, 667 fourth gear pair 69, 269, 469, 669 fifth gear pair 71, 271, 471, 671 sixth gear pair 73, 273, 473, 673 seventh gear pair 75, 275, 475, 675 eighth gear pair 77, 277, 477, 677 drive wheel 81, 281, 481, 681 first housing wall 83, 283, 483, 683 second housing wall 85, 285, 485, 685 third housing wall, in particular end shield 87, 287, 487, 687 first region 89, 289, 489, 689 second region 91, 291, 491, 691, 891 third region 93, 293, 493, 693 transmission housing 95, 95.sup.I, 295, 295.sup.I, extremity of a transmission housing 495, 495.sup.I, 695, 695.sup.II 97, 297, 497, 697 first structural shell 99, 299, 499, 699 second structural shell 101, 301, 501, 701 third structural shell 109, 309, 509, 709 support point 111, 311, 511, 711 first bearing 113, 313, 513, 713 second bearing 115, 315, 515, 715 third bearing 117, 317, 517, 717 fourth bearing 119, 319, 519, 719 fifth bearing 121, 321, 521, 721 sixth bearing 123, 323, 523, 723 seventh bearing 125, 325, 525, 725 eighth bearing 127, 327, 527, 727 ninth bearing 129, 329, 529, 729 tenth bearing 131, 331, 531, 731 eleventh bearing 133, 333, 533, 733 twelfth bearing 135, 335, 535, 735 thirteenth bearing 137, 337, 537, 737 fourteenth bearing 139, 339, 539, 739 fifteenth bearing 141, 341, 541, 741, first synchronisation, in particular in the form 941 of a cone synchronisation 143, 343, 543, 743, second synchronisation, in particular in the form 943 of a cone synchronisation 145, 345, 545, 745 third synchronisation, in particular in the form of a cone synchronisation 147, 347, 547, 747 fourth synchronisation, in particular in the form of a cone synchronisation 149, 349, 549, 749 bevel wheel 151, 351, 551, 751 transmission differential 153, 353, 553, 753 first wheel drive shaft 155, 355, 555, 755 second wheel drive shaft 157, 357, 557, 757 first movement direction 159, 359, 559, 759 second movement direction 161, 361, 561, 761 first rotation direction 163, 363, 563, 763 second rotation direction 165, 365, 565, 765 first region, in particular in the dual clutch transmission 167, 367, 567, 767 second region, in particular in the dual clutch transmission 871, 871 first step 873, 873 second step 875, 875 third step 877, 877 fourth step 879 fifth step G1, G1.sup.I, G1.sup.II, G1.sup.III first gear step G2, G2.sup.I, G2.sup.II, G2.sup.III second gear step G3, G3.sup.I, G3.sup.II, G3.sup.III third gear step G4, G4.sup.I, G4.sup.II, G4.sup.III fourth gear step G5, G5.sup.I, G5.sup.II, G5.sup.III fifth gear step G6, G6.sup.I, G6.sup.II, G6.sup.III sixth gear step G7, G7.sup.I, G7.sup.II, G7.sup.III seventh gear step G8, G8.sup.I, G8.sup.II, G8.sup.III eighth gear step ZR1 first gearwheel plane ZR2 second gearwheel plane ZR3 third gearwheel plane ZR4 fourth gearwheel plane ZR5 fifth gearwheel plane ZR6 sixth gearwheel plane ZR7 seventh gearwheel plane