EP2250395A2

EP2250395A2 - Dual clutch gear mechanism with a countershaft design for a vehicle with central synchronisation

Info

Publication number: EP2250395A2
Application number: EP09721117A
Authority: EP
Inventors: Matthias Reisch; Gerhard Gumpoltsberger; Eckardt LÜBKE
Original assignee: ZF Friedrichshafen AG
Current assignee: ZF Friedrichshafen AG
Priority date: 2008-03-13
Filing date: 2009-02-20
Publication date: 2010-11-17
Also published as: CN101946104B; DE102008000645A1; KR20100124712A; WO2009112339A2; KR101455896B1; JP5523356B2; WO2009112339A3; JP2011515628A; US8850914B2; CN101946104A; DE102008000645B4; US20110036187A1

Abstract

The invention relates to a dual clutch gear mechanism with a countershaft design for a vehicle with central synchronisation, in which a braking device is provided for slowing down each partial gear mechanism and a band brake (1, 2) is provided as a braking device.

Description

Doppelkupplunαsαetriebe in Vorαeleαebauweise for a vehicle with a

Zentralsynchronisierunq

The present invention relates to a dual-clutch transmission in countershaft design for a vehicle with a central synchronization according to the closer defined in the preamble of claim 1. Art.

From automotive engineering multi-speed dual clutch transmission are known. Usually, the dual-clutch transmission comprises two clutches, which are each connected with their input sides to the drive shaft and with their output sides, each with one of the two transmission input shafts. The two transmission input shafts are arranged coaxially with each other. Furthermore, two countershafts are arranged axially parallel to the two transmission input shafts whose idler gears mesh with fixed gears of the transmission input shafts. In the dual-clutch transmission, the gears are basically switched on or laid out in the partial transmission, which is not in the power flow. The gears are engaged by means of synchronizations which are assigned to each idler gear to be shifted.

From the document DE 102 43 278 A1 a device for synchronizing a dual-clutch transmission, in particular for a motor vehicle is known. The device consists essentially of a braking device with two Gethebeeingangswellenbremsen. The two partial transmissions are also assigned adjustable synchronous elements for speed synchronization. The synchronizing elements are designed as friction rings, which come into contact with the respective shift sleeve during the axial displacement of the shift rod. This slows down the faster shaft compared to the slower shaft during a shift. To assist the synchronizations of each partial transmission, the transmission input shaft brakes are assigned. The shaft brakes can be controlled via a control device and can generate the friction power required for synchronization, that is, the deceleration of the respective shaft. However, the envisaged transmission input shaft brakes and the synchronizer elements require an additional not inconsiderable space.

Furthermore, from the document DE 102 25 331 A1 a power shift transmission with central synchronization in countershaft design known. In the powershift transmission synchronization is done centrally, so that usually the other switching devices can be performed unsynchronized. For this purpose, two switching elements are designed as powerful synchronous elements, which is costly and space consuming.

The present invention is based on the object to propose a dual-clutch transmission of the type described above, which is equipped with cost-effective and the smallest possible space required transmission brakes.

This object is achieved by the features of claim 1. Further advantageous embodiments will become apparent from the dependent claims and the drawings.

It is therefore proposed a dual-clutch transmission in countershaft design for a vehicle with a central synchronization, in which a braking device is provided for braking each partial transmission, wherein as a braking device in each case a band brake or the like is used.

Band brakes as braking devices are particularly cost-effective, since it is essentially a bent strip of sheet metal or the like, on which a suitable friction lining, for example made of a special resin-impregnated paper or the like, is applied or applied. se is glued on. However, other types of band brakes are also usable. For example, simply wrap-around or multi-wrap band brakes can be used, in which the ends are fastened, for example, with riveted strap locks or the like. The wrap angle may preferably be about 300 ° for single wrap and about 700 ° for double wrap. Other wrap angles are possible.

A significant advantage of using band brakes as transmission brakes results from the fact that band brakes have a significantly lower weight than the synchronizers otherwise used. Thus, the band brake generates almost no additional moment of inertia on the associated gear. This results in a significantly lower mass moment of inertia in the entire system by eliminating the otherwise required synchronization. In particular, when using so-called internal circuits in the dual-clutch transmission, the band brakes can be accommodated in the dual-clutch gearbox neutral in terms of construction length.

In the dual-clutch transmission proposed according to the invention, depending on the application, the band brakes can be arranged on one of the countershafts and / or on one of the transmission input shafts. It is also possible that a band brake on a countershaft and the other band brake are arranged on a transmission input shaft. Preferably, the band brakes can be associated with at least one idler gear of the countershafts and / or at least one fixed gear of the transmission input shafts. Depending on the design, the band brakes may be arranged coaxially with the associated shafts. Preferably, the band brakes can also be provided axially adjacent to each other. However, other arrangement options are conceivable. In a preferred embodiment, for example, a first band brake the idler gear for the sixth gear of the first sub-transmission and a second band brake be assigned to the idler gear for the fifth or seventh gear of the second sub-transmission. Thus, each partial transmission is associated with a band brake. In another constructive embodiment of the dual-clutch transmission, the band brakes can also be assigned to other idler gears.

Preferably, the band brakes can be actuated by means of at least one electrical, electro-mechanical, hydraulic, electro-hydraulic and / or pneumatic actuator. It is possible that a common actuating device is provided for both band brakes, which makes it possible to control the band brakes independently of each other. However, it is also conceivable that separate actuators be used for the band brakes.

As actuator can be provided according to a possible embodiment, a piston-cylinder unit. Thus, the brake band of the respective band brake can be tensioned or relieved by the piston movement, so that the braking effect can be changed in the desired manner. Advantageously, the actuating device may also comprise an electromotive unit, so that the braking effect can be changed electrically.

Regardless of the type of actuation and manner of the actuator or the brake band of the band brake may be associated with a return element to ensure a clearance on the brake band. As a restoring element, for example, a return spring or the like can be used. There are also other adjustment elements used. A possible embodiment of the invention may provide that for actuating the respective band brake, a lever element or the like is articulated to the actuatable end of the brake band of the band brake. In this way, the actuating device, which is designed for example as a piston-cylinder unit, are in operative connection with the lever element in order to move the lever element for tensioning or relaxing the brake band. The fixed end of the brake band of the band brake can be connected fixed to the housing in any manner.

Another way to bring the band brake in operative connection with the actuator, can be realized that for actuating a band brake, a first eccentric shaft is provided with at least one eccentric portion or the like, to which an operable end of the brake band of the band brake is articulated. The fixed end of the band brake may e.g. be kept fixed to the housing via a bearing pin or the like. Further, for actuating a further or second band brake, the fixed end is connected to a further eccentric shaft with an eccentric portion. The fixed end of the second band brake, however, is held on a non-eccentrically shaped shaft portion of the first eccentric shaft. As a result, components can be saved by the common attachment. In addition, an operation over eccentric shafts is cost-effective, since they can be produced, for example, by deformed wires in the simplest way.

When using eccentric shaft, the band brakes are actuated by appropriate rotational movement of the eccentric shafts. The rotational movement of the eccentric shaft can be realized by a corresponding mechanism of piston-cylinder units as actuators. But there are also other types of operation conceivable. When operating the band brakes by means of eccentric shafts, provision may be made, for example, for a central bearing unit to be used for holding the ends of the brake bands of the band brakes. But there are also separate storage conceivable. As a central bearing unit, at least one carrier or the like can be provided with receiving sockets for receiving the associated ends of the eccentric shafts and the bearing pin.

The ends of the brake bands of the band brakes may e.g. each have a suspension lug, which is designed such that the eccentric shaft or the bearing pin is feasible. In this way, each end of a brake band can be easily connected to the associated shaft. There are also other types of connection between the end of the brake band and the associated shaft conceivable.

The proposed centrally synchronized dual-clutch transmission can be configured as desired in terms of the number of gears and also with regard to the structural arrangement of the individual components. Preferably, a claw-connected dual-clutch transmission is used, which also realizes Windungsgänge in addition to the powershift gears, which are switchable both by an internal circuits and by an external circuit. However, other transmission systems with the central synchronization according to the invention provided by means of band brakes are also possible.

Hereinafter, the present invention will be explained in more detail with reference to the drawings, wherein the same reference numerals are used in the figures for the same components. Show it:

Figure 1 is a schematic, sectional view of an exemplary illustrated dual-clutch transmission with central synchronization. 2 shows a schematic, three-dimensional detailed view of band brakes according to a first embodiment variant of the dual-clutch transmission according to the invention;

3 shows a schematic, three-dimensional detailed view of band brakes according to a second embodiment variant of the dual-clutch transmission according to the invention;

4 shows a further schematic, three-dimensional detail view of band brakes according to the second embodiment variant of the dual-clutch transmission according to the invention;

5 shows a schematic, three-dimensional view of a brake band of the band brake; and

Fig. 6 is a schematic, three-dimensional view of an eccentric shaft of the band brake of the second embodiment of the dual clutch transmission.

In Figure 1, a multi-speed dual clutch transmission is shown in section by way of example. The dual-clutch transmission is designed as a centrally synchronized, claw-connected transmission and comprises two clutches whose input sides are connected to a drive shaft. In addition, a torsional vibration damper is arranged on the drive shaft. The output sides of the clutches are connected to one of two coaxial transmission input shafts w_K1, w_K2. The first transmission input shaft w_K1 is designed as a solid shaft and the second transmission input shaft w_K2 is designed as a hollow shaft. Furthermore, two countershafts w_v1, w_v2 are provided, which are arranged axially parallel to each other. At each countershaft w_v1, w_v2 a plurality of idler gears are arranged, which are in engagement with fixed gears on the transmission input shafts w_K1, w_K2. In order to switch the idler gears of the respective countershaft w_v1, w_v2, several internally operated switching devices are provided on each countershaft w_v1, w_v2. In addition to switching the powershift gears, the transmission input shafts w_k1 and w_k2 can also be made dependent in order to realize winding turns in the dual-clutch transmission.

Regardless of the respective embodiment variant, the dual-clutch transmission for braking each partial transmission to a braking device, wherein according to the invention a first band brake 1 the first partial transmission and a second band brake 2 are assigned to the second partial transmission. The band brakes 1, 2 can be connected so that the band brakes 1, 2 are each assigned directly or indirectly to a transmission input shaft w_k1, w_k2, that is, in each case a band brake 1, 2 can brake one of the partial transmission. In this way, the respective sub-transmission, which is not located in the power flow, can be braked by means of the associated band brake 1, 2 in order to be able to carry out the respective shifting operation centrally synchronized.

As can be seen from FIG. 1, the first band brake 1, which is assigned to the first partial transmission, can be provided on a loose wheel 3 of the sixth gear of the first countershaft w_v1. For this purpose, the idler gear 3 has an axially provided next to the toothing 4 cylindrical portion 5, at the peripheral region of the brake band 6 of the first band brake 1 at least partially applied.

The second band brake 2, which is assigned to the second partial transmission, is provided on a loose wheel 7 of the fifth or seventh gear of the second countershaft w_v2. For this purpose, the idler gear 7 has a radial step 8 axially adjacent to the toothing 9 of the idler gear 7. At the peripheral area the gradation 8 is the brake band 10 of the second band brake 2 at least partially. Thus, depending on requirements, the idler gear 3 and thus the first partial transmission and the idler gear 7 and thus the second sub-transmission can be braked.

FIG. 2 shows a first possible variant embodiment of the dual-clutch transmission with band brakes 1, 2 actuated in each case via a lever element 11, 12. Regardless of the respective embodiment, each band brake 1, 2 comprises a brake band 6, 10, on which a suitable friction lining is applied. Each brake band 6, 10 has a fixed end, which is fixed to the housing, and an actuatable end, which is in operative connection with an actuating device, not shown, to tension the brake band 6, 10 or to relax, to a corresponding braking effect on the associated idler gear 3, 7 cause. The respective end of the brake band 6, 10 has a suspension lug, which has a correspondingly shaped recess for fastening.

In the first embodiment according to FIG. 2, the lever element 1 1, 12 is in each case connected to a, e.g. As a piston-cylinder unit formed actuator coupled so that by appropriate movement of the lever member 1 1, 12 and the operable end, a tension or relaxation of the brake band 6, 10 of the band brake 1, 2 takes place.

Since the actuation of the two band brakes 1, 2 takes place independently of one another, ie not simultaneously, a common activation could take place. But there are also separate controls possible. The fixed ends of the two band brakes 1, 2 are fastened via their respective lugs on a housing-fixed bearing pin 13. FIGS. 3 to 6 show various views of a second variant of the dual-clutch transmission with eccentric shafts 14,

15 actuated band brakes 1, 2 shown. In the second embodiment, a first eccentric shaft 14 is provided with at least one eccentric portion 16 for actuating the first band brake 1, to which an operable end of the brake band 6 of the first band brake 1 is articulated. The fixed end of the brake band 6 of the first band brake 1 is fixed to the housing via the bearing pin 13. Further, to actuate the second band brake 2, the fixed end of the brake band 10 of the second band brake 2 is attached to a non-concentric shaft portion 17 of the first eccentric shaft 14. The operable end of the brake band 10 of the second band brake 2 is articulated to an eccentric portion 18 of the second eccentric shaft 15, wherein the eccentric portion 18 of the second eccentric shaft 15 offset in the axial direction to the approximately centrally located eccentric portion

16 of the first eccentric shaft 14 is arranged.

When the first eccentric shaft 14 is rotated by an actuator, not shown, the brake band 6 of the first band brake 1 can be tensioned or relaxed. In contrast, when the second eccentric shaft 15 is rotated by an actuator, not shown, the brake band 10 of the second band brake 2 can be stretched or relaxed.

FIG. 4 shows a possible mounting of the two eccentric shafts 14, 15 and of the bearing pin 13. As storage a central bearing unit consisting of two mutually parallel carriers 19, 20 is provided with corresponding receiving bushes for receiving the associated ends of the eccentric shafts 14,15 and the bearing pin 13. Furthermore, a plurality of axial stop disks 21 are preferably arranged on both sides on the side of the carriers 19, 20 facing away from the respective ends of the shafts. The shown storage unit allows a space-saving, compact arrangement. But there are also separate storage conceivable.

FIG. 5 shows an individual part illustration of the brake band 10 with the exemplarily designed suspension lugs. The suspension straps of the brake band 10 are designed differently in contrast to the brake band 6. At the fixed end of the brake band 10 is adapted to the bearing pin 13, substantially circular recess 23 is provided on the suspension lug. The diameter of the recess 23 is slightly larger than the diameter of the bearing pin 13. At the operable end of the brake band 10, however, an elongated in the direction of the brake band 10 magnifying recess 24 is provided on the suspension lug. The widening region of the recess 24 is dimensioned such that an axial passage of the eccentric shaft 14, 15 is made possible. In the brake band 6 of the first band brake 1, both suspension lugs are provided with an approximately circular recess 23.

Finally, FIG. 6 shows an example of an individual part of the first eccentric shaft 14 by way of example. The eccentric shaft 14 and 15 can be produced at least in part as a shaped part. The first eccentric shaft 14 has a centrally disposed eccentric portion 16 and two non-eccentrically shaped shaft portions 17, 22. In the second eccentric shaft 15, unlike the first eccentric shaft 14, the eccentric portion 18 is not arranged centrally on the second eccentric shaft 15.

Regardless of whether the band brakes 1, 2 are actuated by means of a lever member 1 1, 12 or by means of eccentric shafts 14,15, upon actuation on the leading side of the brake band 6, 10 a self-boosting and thus a lower braking force is required, the band brake 1, 2 coefficient of friction is more sensitive. If the operation takes place on the outgoing side of the brake band 6, 10, no self-amplification occurs, then that higher braking forces are required, the band brake 1, 2 then friction coefficient is less sensitive. This may possibly be done a better dosage of the braking force.

REFERENCE CHARACTERS

1 first band brake

2 second band brake

3 idler gear of the sixth gear

4 toothing

5 cylindrical section

6 brake band of the first band brake

7 idler gear of the fifth gear

8 gradation

9 toothing

10 brake band of the second band brake

11 lever element

12 lever element

13 bearing pin

14 first eccentric shaft

15 second eccentric shaft

16 eccentric section of the first eccentric shaft

17 non-eccentric shaft section

18 eccentric portion of the second eccentric shaft

19 carriers

20 carriers

21 axial thrust washers

22 non-eccentric shaft section

23 substantially circular recess

24 substantially elongated recess w_K1 first transmission input shaft w_K2 second transmission input shaft w_v1 first countershaft w_v1 second countershaft

Claims

Patent Attorney

1. dual clutch transmission in countershaft design for a vehicle, with a central synchronization, wherein for braking each partial transmission, a braking device is provided, characterized Porsche Style n zei ch et, that as a braking device, a band brake (1, 2) is provided.

2. dual-clutch transmission according to claim 1, characterized Porsche Style n zei ch et, that at least one band brake (1, 2) on one of the countershafts (w_v1, w_v2) is arranged.

3. Dual-clutch transmission according to claim 1 or 2, characterized in that at least one band brake (1, 2) on one of the transmission input shafts (W_K1, W_K2) is arranged.

4. Dual-clutch transmission according to one of the preceding claims, characterized in that at least one band brake (1, 2) is associated with a loose wheel (3, 7) and / or a fixed gear.

5. dual-clutch transmission according to claim 4, characterized ge ken n zei chnet, that a first band brake (1) the idler gear (3) for the sixth gear of the first sub-transmission and that a second band brake (2) the idler gear (7) for the fifth gear is assigned to the second partial transmission.

6. dual-clutch transmission according to one of the preceding claims, characterized ge ke nnzeichn et that the band brakes (1, 2) by means of at least one electrical, electro-mechanical, hydraulic, electro-hydraulic and / or pneumatic actuator can be actuated.

7. dual-clutch transmission according to claim 6, characterized ge ken n zei c h n e t that the actuating device comprises a piston-cylinder unit.

8. dual-clutch transmission according to claim 6, characterized ge ken n zei c h n e t that the actuating device comprises an electromotive unit.

9. dual-clutch transmission according to claim 6 to 8, characterized g e k e n n zei ch n et, that the actuator or the brake band (6, 10) of the respective band brake (1, 2) is associated with a return element.

10. dual-clutch transmission according to one of claims 6 to 9, characterized ge ke nnzeichnet that for actuating each band brake (1, 2) at the operable end of the brake band (6, 10) of each band brake (1, 2) a lever element (11, 12) is articulated, wherein the fixed end of the brake band (6, 10) of each band brake (1, 2) is fixed to the housing.

11. Dual-clutch transmission according to one of claims 6 to 10, characterized ge ke nn ze zen et, that for actuating the first band brake (1) a first eccentric shaft (14) is provided with at least one eccentric portion (16) on which an operable end of the Brake band (6) of the first band brake (1) is articulated, wherein the fixed end of the brake band (6) of the first band brake (1) fixed to the housing is fixed.

12 dual-clutch transmission according to claim 11, characterized ge ke nn ze ichnet that for actuating the second band brake (2) the fixed end of the brake band (10) of the second band brake (2) on a shaft portion (17) of the first eccentric shaft (14) attached is, and that the operable end of the brake band (10) of the second band brake (2) on an eccentric portion (18) of a second eccentric shaft (15) is articulated.

13. Dual-clutch transmission according to one of claims 10 to 12, characterized in that the fixed end of the brake band (6, 10) of the respective band brake (1, 2) on a housing-fixed bearing pin (13) is fixed.

14. Dual-clutch transmission according to one of claims 11 to 13, characterized in that a bearing unit for holding the ends of the brake bands (6, 10) of the band brakes (1, 2) is provided.

15. Dual-clutch transmission according to claim 14, characterized in that the bearing unit has at least one carrier (19, 20) with receiving bushes for receiving the associated ends of the eccentric shafts (14, 15) and of the bearing bolt (13).

16, dual-clutch transmission according to one of the preceding claims, characterized in that one end of the brake band (6) has a suspension lug with a substantially circular recess (23) which is designed such that the bearing pin (13) can be carried out.

17. Dual-clutch transmission according to one of the preceding claims, characterized ge ke nnzeichn et, that the ends of the brake band (10) have different suspension lugs, wherein the fixed end of a suspension lug with a substantially circular recess (23) and the operable end of a hanger tab with a have substantially elongated recess (24), which are designed such that the eccentric shafts (14, 15) or the bearing pin (13) are feasible.