CN103174767A - Wet clutch - Google Patents

Abstract

The invention relates to a wet clutch, comprising a first sub-clutch, a second sub-clutch and a clutch cover. The first sub-clutch and the second sub-clutch are respectively provided with an inner sheet bearing member and an outer sheet bearing member, the inner sheet bearing member is connected with a rotor without relative rotation, the outer sheet bearing member is respectively connected with a second transmission input shaft, the axial exterior of the first outer sheet bearing member of the first sub-clutch is enclosed by the seond outer sheet bearing member of the second sub-clutch, the outer sheets are respectively connected with the corresponding outer sheet bearing members without relative rotation and in an axial movable manner, the outer sheet bearing members are respectively provided with tooth areas, thereby the outer radius of the second outer sheet bearing member is larger than the inner radius of the first outer sheet bearing member.

Description

Wet clutch

Technical field

The present invention relates to a kind of wet clutch, it has the first sub-clutch and the second sub-clutch and clutch cover, wherein, the first sub-clutch and the second sub-clutch have respectively interior load-bearing member and outer plate load-bearing member, wherein, described interior load-bearing member and rotor without being connected and described outer plate load-bearing member can be connected with transmission input shaft respectively with relatively rotating, wherein, the first outer plate load-bearing member of described the first sub-clutch surrounds the second outer plate load-bearing member of described the second sub-clutch at radially outer.

Background technique

This wet clutch is known in the art.At this, the first and second outer plate load-bearing members have respectively the tooth of establishing section as the sealed zone of shape, by means of described establish outer plate shape that tooth section can make slice clutch in locking manner, but can arrange with moving axially.The described tooth section of establishing can consist of like this at this, makes the outer diameter of the tooth section of establishing of the second outer plate load-bearing member (it is the outer plate load-bearing member that is in inner radial) less than the inner diameter of the first outer plate load-bearing member (it is the outer plate load-bearing member that is in radially outer).Above-mentioned situation designs like this, that is, during described the second outer plate load-bearing member can be inserted into the first outer plate load-bearing member during described clutch in assembling and do not allow to cause the collision of establishing tooth section of two outer plate load-bearing members because otherwise two outer plate load-bearing members can not be assembled.

But this will cause the first outer plate load-bearing member always must be more much bigger than the second outer plate load-bearing member, and this is being disadvantageous aspect weight and moment of inertia.

Summary of the invention

Therefore task of the present invention is, provide a kind of aspect above-mentioned shortcoming improved wet clutch.

According to the present invention, described task solves by the wet clutch with claim 1 feature.

according to a preferred embodiment, it comprises a kind of wet clutch, this wet clutch has the first sub-clutch and the second sub-clutch and clutch cover, wherein, the first sub-clutch and the second sub-clutch have respectively interior load-bearing member and outer plate load-bearing member, wherein, described interior load-bearing member and rotor without being connected and described outer plate load-bearing member can be connected with transmission input shaft respectively with relatively rotating, wherein, the first outer plate load-bearing member of described the first sub-clutch surrounds the second outer plate load-bearing member of described the second sub-clutch at radially outer, outer plate respectively with corresponding outer plate load-bearing member without relatively rotate ground and axially movably be connected, wherein, described outer plate load-bearing member has respectively the tooth of establishing zone as the sealed zone of shape for this reason in this wise, make the outer radius of the second outer plate load-bearing member greater than the inside radius of the first outer plate load-bearing member.Passablely thus be, two outer plate load-bearing members are matching each other aspect its size or closer to each other, and this has reduced the weight shortcoming of the first outer plate load-bearing member and has also reduced its moment of inertia.

What this met that purpose requires be, the tooth section of establishing of the first outer plate load-bearing member consists of in this wise, makes the tooth section of establishing of the second outer plate load-bearing member can be guided through the tooth section that establishes of described the first outer plate load-bearing member or pass the described teeth groove of establishing tooth section.

Also advantageously, the inside radius of the tooth top of described the first outer plate load-bearing member is greater than the outer radius of the tooth top of described the second outer plate load-bearing member.Thus, these tooth tops slide through on side each other.

What meet in addition the purpose requirement is that the inside radius of the tooth root of described the first outer plate load-bearing member is greater than the outer radius of the tooth root of described the second outer plate load-bearing member.Thus, these tooth roots slide through on side each other.

What meet also that purpose requires is, the gap of at least one side direction of reservation between the flank of tooth of the flank of tooth of described the first outer plate load-bearing member and described the second outer plate load-bearing member.

In addition advantageously, the tooth section of establishing of the tooth section of establishing of described the first outer plate load-bearing member and described the second outer plate load-bearing member has the identical number of teeth, thereby makes the tooth of the tooth section of establishing of described the first outer plate load-bearing member can import to respectively from the zone that the tooth of the tooth section of establishing of described the second outer plate load-bearing member is left.

Also advantageously, the tooth section of establishing of described the first outer plate load-bearing member has the number of teeth that the tooth section of establishing than described the second outer plate load-bearing member lacks, thus make described the first outer plate load-bearing member the tooth section of establishing each tooth at least zone ground slippage to the zone of leaving from the tooth of the tooth section of establishing of the second outer plate load-bearing member.

What meet in addition the purpose requirement is, described the first outer plate load-bearing member has a zone of extending in the axial direction, first establishes the tooth cage structure in this zone, and described the second outer plate load-bearing member has a zone of extending in the axial direction, second establishes tooth section is arranged in this zone, wherein, first establish tooth section and observe in the axial direction contiguous second and establish tooth section and arrange.

What also meet the purpose requirement is, described the first outer plate load-bearing member has a zone of extending in the axial direction, this zone has the first one of establishing tooth section and does not establish tooth zone and one and establish the tooth zone, wherein, second of described the second outer plate load-bearing member establish tooth section and observe in the axial direction in the zone of not establishing the tooth zone that is arranged on described the first outer plate load-bearing member.

Particularly advantageously be that second of the second outer plate load-bearing member is established tooth section and observed in the axial direction establishing the tooth region division and being arranged on the inner radial of establishing the tooth zone of this first outer plate load-bearing member of contiguous the first outer plate load-bearing member.

Description of drawings

The below is by preferred embodiment and elaborated by reference to the accompanying drawings the present invention.Wherein:

Fig. 1 illustrates the schematic diagram of wet clutch with sectional view, it has two sub-clutches that in succession arrange before and after in the axial direction;

Fig. 2 is two schematic diagram that are used for illustrating the outer plate load-bearing member of insertion;

Fig. 3 is the perspective view of two outer plate load-bearing members,

Fig. 4 illustrates two schematic diagram of establishing tooth section with Local map;

Fig. 5 illustrates two schematic diagram of establishing tooth section with Local map; With

Fig. 6 is the perspective view of two outer plate load-bearing members.

Embodiment

Fig. 1 illustrates a wet clutch 1, and it also can be called as double clutch or two wet clutch, and wherein, this wet clutch 1 only illustrates partly to cut open.This wet clutch 1 comprises the first sub-clutch 2 and the second sub-clutch 3 at this.The first sub-clutch 2 and the second sub-clutch 3 are observed in the axial direction abreast at this and are arranged, and wherein, the radially extension of the first sub-clutch is compared roughly the same with the second sub-clutch.Can find out difference a little in the zone of outer plate load-bearing member, but described radially roughly the same aspect extension at it.

The first sub-clutch 2 and the second sub-clutch are surrounded by a clutch housing 4 basically at this, wherein, this clutch housing 4 comprises clutch tank 5 and clutch cover 6, and described clutch tank and clutch cover without interconnecting and by means of taking axial restraint and the insurance each other in locking manner of element 7 shapes with relatively rotating ground and transmitting torque.Clutch tank 5 has a circular bottom section 8 basically at this, this bottom section can with one basically columniform wall zone 9 be connected.At this, if described bottom section 8 consists of integratedly, for example makes integratedly by deep drawn with described columniform wall zone 9, may be advantageous particularly.

Clutch cover 6 shape in its radial outer end section 10 is connected with the end regions 11 in the columniform wall zone 9 of described clutch tank 5 in locking manner.This connection is insured in case by mistake get loose by the connecting element 7 as safety element.However, described insurance also allows in the situation that the needs nothing is opened described clutch cover with destroying.

In described clutch housing 4 inside, first interior load-bearing member 12 is set, described interior load-bearing member is connected with described clutch housing 4 nothings with relatively rotating, wherein, not only first interior load-bearing member 12 of described clutch housing 4 but also described sub-clutch 2 all is connected with the member 13 of a driving side.This is connected to this and advantageously is configured to be welded to connect or consist of by means of ca(u)lk.Described interior load-bearing member 12 consists of basically L shapedly, and wherein, a limit 14 is arranged essentially parallel to base member 8 orientations of described clutch tank.The another side 15 of described interior load-bearing member is basically directed and carry sheet 16 in the first sub-clutch 2 a large amount of in the axial direction.Described interior 16 is connected with the limit 15 of described interior load-bearing member 12 in this nothing with relatively rotating.As can be seen, interior 16 each intervals can arrange an outer plate 17 apart from the ground setting thereby make between every two interior sheets 16.

Described outer plate 17 is connected with outer plate load-bearing member 19 nothings by bridge jumper 18 at radially outer with relatively rotating.The second sub-clutch 3 has the structure substantially the same with the first sub-clutch, wherein, interior load-bearing member 20 observed in sectional view and also consisted of basically L shapedly, have at the first side 21 that extends in the radial direction and the Second Edge 22 of extension in the axial direction, wherein, described interior 23 and described interior 23 of described Second Edge 22 carryings are connected with Second Edge 22 nothings of described interior load-bearing member 20 with relatively rotating.

Described nothing be connected in relative rotation this can be advantageously by described with described interior load-bearing member between shape sealed be connected realization.At this, what sealed connection can arrange as shape is, the described tooth section of establishing that has a type in inner radial describedly establishes cooperation that tooth section is pulled to the respective type of described interior load-bearing member and establish in tooth section.

In the situation that this sub-clutch 3, interior 23 also each interval consist of apart from ground, wherein, between every two interior sheets 23, an outer plate 24 is set again, described outer plate respectively at radially outer by bridge jumper 25 with outer plate load-bearing member 26 without being connected with relatively rotating.

Two outer plate load-bearing members 19 and 26 have respectively the zone 27,28 of extending in the axial direction, and described zone also is used for making described outer plate without being connected with described outer plate load-bearing member with relatively rotating.This can be seen that, described outer plate load-bearing member 27 is compared with outer plate load-bearing member 28 not only to observe more in the axial direction and is consisted of, and overlaps described outer plate load-bearing member 26.In addition, described two outer plate load-bearing members 19,26 have the zone 29,30 of extending in the radial direction, and described zone is respectively adjacent to described clutch cover 6 and arranges and extend towards inner radial. Establish tooth element 31,32 on the end regions of the inner radial of outer plate load-bearing member, described outer plate load-bearing member can be connected with transmission input shaft respectively in inner radial by means of the described tooth element of establishing.

In order to support axial force, the rotor 33 that is rotatably supported on stator 34 supports and supports in inner radial with respect to outer plate load-bearing member 26 by cod 35 in the axial direction.Outer plate load-bearing member 26 is supported on outer plate load-bearing member 19 by cod 36 again and with respect to its supporting, wherein, described outer plate load-bearing member 19 is supported on clutch cover 6 and with respect to it in inner radial by cod 37 again and is supported rotationally.

Thus, Fig. 1 illustrates the configuration of a wet clutch, and wherein, three cods 35,36 and 37 are arranged on identical radial height, thereby make its structure space relatively large.

In addition, in order to handle corresponding sub-clutch, a piston cylinder unit 40,41 is set respectively, described piston cylinder unit can hydraulically be controlled.

Fig. 2 illustrates two outer plate load-bearing members 100,101 layout, and wherein, outer plate load-bearing member 100 is the outer plate load-bearing member of the first sub-clutch and the outer plate load-bearing member that outer plate load-bearing member 101 is the second sub-clutch.Outer plate load-bearing member 100 has the tooth of establishing zone 102 as the sealed zone of shape, in this establishes the tooth zone, the outer plate of the first sub-clutch is connected with described outer plate load-bearing member in locking manner in the radially outer shape, and however, described outer plate still can be held with moving axially.

Described outer plate load-bearing member 100 also has extend, other zone 103 in the axial direction except establishing tooth zone 102, tooth section and the extension in the axial direction of basically cylindrical ground are not preferably established in described other zone.

The outer plate that described outer plate load-bearing member 101 has the tooth of establishing zone 104, the second sub-clutches equally radially outer with described establish the tooth region shape in locking manner, but can be connected with moving axially.

As can be seen, the first outer plate load-bearing member 100 establish tooth zone 102 the size of configuration radially than aspect such formation, make the inside radius 105 of described the second outer plate load-bearing member 101 greater than outer radius 106.What realize thus is, outer plate load-bearing member 101 can be from the position movement that indicates label 101-1 to the position of label 101, and the tooth section of establishing 102 of the first outer plate load-bearing member 100 does not disturb this assembly process.Thus, this assembling position 101-1 shown in the right from Fig. 2 carries out in the position of outer plate load-bearing member 101 according to arrow 107, and described position is in the inner radial in the zone 103 of extending in the axial direction of outer plate load-bearing member 100.

After assembling, outer plate load-bearing member 101 establish anodontia 103 opposites, zone basically that tooth zone 104 is arranged in outer plate load-bearing member 100.

Fig. 3 illustrates of wet clutch of the present invention according to configuration of the present invention, wherein, can see two outer plate load-bearing members 200 and 201.Outer plate load-bearing member 200 has basically the zone 202 of extending in the axial direction, and this zone is divided into one and there is no that the zone 203 of establishing tooth section and one are configured with the zone 204 of the tooth section of establishing 205 of the first outer plate load-bearing member 200.This can be seen that, establish the tooth 206 of tooth section 205 and basically construct towards inner radial from the zone 202 of extending at axial direction.The outer plate load-bearing member can advantageously be configured to sheet material spare, and wherein, the tooth 206 of establishing tooth section 205 is constructed towards inner radial as shape sealed zone, thereby makes it possible to establish tooth section with simple mode and method construct, and this is established tooth section and saves in addition structure space ground and consist of.

In addition, outer plate load-bearing member 200 also has the zone 207 of extending in the radial direction, this zone inner radial with have the wheel hub 208 of establishing tooth section 209 and be connected, the described tooth section of establishing is as the receiving element of transmission input shaft, but described transmission input shaft does not illustrate in Fig. 3.

Outer plate load-bearing member 201 has the zone 210 of basically extending in the axial direction equally, this zone be connected in the zone 211 of extending in the radial direction, wherein, be connected with a wheel hub 212 equally in inner radial in the zone 211 of extending in the radial direction, described wheel hub is provided with tooth section 213 and is used for shape and receives in locking manner other transmission input shaft, and described other transmission input shaft does not illustrate in Fig. 3 equally.

The zone 210 extending in the radial direction of the second outer plate load-bearing member 201 of the second sub-clutch has the tooth of establishing section 214 in axially extended zone, this is established tooth section and consists of by tooth 215, and described tooth is constructed towards inner radial from described zone 210 of extending in the axial direction.At this, described tooth 215 consists of like this, and the radially outer zone that makes tooth 215 degree more outstanding than the radially inner most regional radial outward of the tooth 206 of the tooth section of establishing 205 of the first outer plate load-bearing member 200 is large.

As can be seen, the tooth section of establishing 214 of second load-bearing member 201 basically contiguous the first outer plate load-bearing member 200 do not establish tooth zone 204, wherein, the establishing between tooth zone 210 of tooth zone the 203 and second outer plate load-bearing member 201 of not establishing at the first outer plate load-bearing member 200 stayed next gap, guarantees described two free torsion that the outer plate load-bearing member is mutual thereby make in assembling condition.

When assembling, outer plate load-bearing member 201 is inserted in outer plate load-bearing member 200.In order to realize this point, although the radially outer diameter of the second outer plate load-bearing member 201 is greater than the radially inner diameter of establishing tooth section 205, but importantly, two outer plate load-bearing members 200,201 the tooth section 205,214 of establishing are coordinated with each other, thereby make the second outer plate load-bearing member 201 can utilize it to establish the tooth section of establishing 205 that tooth section 214 slides through the first outer plate load-bearing member 200.

Fig. 4 illustrates the first outer plate load-bearing member 200 in Fig. 3 and the Local map of establishing tooth section of the second outer plate load-bearing member 201.If tooth section 300 is the tooth sections that establish of the first outer plate load-bearing member 200 in Fig. 3 and establishes the tooth section of establishing that tooth section 301 is second outer plate load-bearing members 201 in Fig. 3.As can be seen, establish tooth section 300 and be configured with a large amount of teeth 302, wherein, establish tooth section 301 and also be configured with a large amount of teeth 303, wherein, the quantity of the tooth 302 of the first outer plate load-bearing member is corresponding to the quantity of the tooth 303 of the second outer plate load-bearing member.At this, corresponding tooth 302,303 is configured to point to towards inner radial from radially outer, and wherein, tooth top 304,305 is in inner radial and tooth root 306,307 is in radially outer.

As finding out in Fig. 4, the tooth 303 of the tooth section of establishing of the second outer plate load-bearing member 201 is observed in a circumferential direction and is constructed widelyr than the tooth 302 of the tooth section of establishing of the first outer plate load-bearing member, because tooth 302 is engaged in zone 308 back side, radially outer, described zone is left from outstanding tooth 303.

Fig. 4 illustrates the layout of establishing tooth section, these are established tooth section and coordinate in this wise, make respectively between the tooth section of establishing of the tooth section that establishes of the first outer plate load-bearing member 200 and the second outer plate load-bearing member 201 and stay next gap 309, thus the tooth section of establishing of the outer plate load-bearing member 200 that makes the tooth section of establishing of the outer plate load-bearing member 201 that is in inner radial slidably pass to be in radially outer.

The outer plate load-bearing member 310 of an outside of structure according to the replacement mode of execution of Fig. 5, the quantity of its tooth 311 is lacked than the quantity of the tooth 313 of inner outer plate load-bearing member 312.On the contrary, the spacing of tooth 311 is so big in a circumferential direction, and the radially outer zone 314 that makes each tooth 311 still may be engaged to leave from tooth 313, but the tooth 311 of the first outer plate load-bearing member 310 is not engaged in each zone of leaving 314.

Difference between the configuration of Fig. 4 and the configuration of Fig. 5 is, the quantity of the first outer plate load-bearing member 200 in Fig. 5 mode of execution or 310 tooth reduces and zone 315 that there is no tooth of existence between two teeth 311, wherein, do not have in the zone of tooth at this, the second outer plate load-bearing member 312 has one with the tooth section of establishing of tooth 313, thereby makes the zone 314 of leaving on the back of described tooth do not occupied by the tooth 311 of the first outer plate load-bearing member.

Thus, the second outer plate load-bearing member 312 slides through the tooth section of establishing of the first outer plate load-bearing member, wherein, compares with the inside dimension of the tooth 311 of the first outer plate load-bearing member 310, stays respectively again next gap 316 between the radially outer size of tooth 313.

Fig. 6 illustrates this point with the 3-D view of the first outer plate load-bearing member 310 and the second outer plate load-bearing member 312 again, and wherein, the second outer plate load-bearing member 312 is arranged on the inner radial of the first outer plate load-bearing member 310.Can find out, the tooth 313 of the tooth section of establishing of the second outer plate load-bearing member 312 is observed in the axial direction and is arranged in a zone, and in this zone, the first outer plate load-bearing member 210 of radially outer does not have the tooth of establishing section.Observe in a circumferential direction, the tooth 311 of tooth 313 to the first outer plate load-bearing members 310 of the second outer plate load-bearing member is with larger or with less spacing setting, wherein, in the situation that the first outer plate load-bearing member 310, the quantity of tooth 311 is half of quantity of the tooth 313 of the second outer plate load-bearing member 312, thereby realizes thus the outer plate load-bearing member 310 according to the explanation of Fig. 5,312 good the slipping over each other of establishing tooth section.

The reference character table

1 wet clutch

2 first sub-clutches

3 second sub-clutches

4 clutch housings

5 clutch tanks

6 clutch covers

7 take element

8 bottom sections

9 walls are regional

10 outer ends

11 end regions

12 interior load-bearing members

The member of 13 driving sides

14 limits

15 limits

16 interior

17 outer plates

18 bridge jumpers

19 outer plate load-bearing members

20 interior load-bearing members

21 limits

22 limits

23 interior

24 outer plates

25 bridge jumpers

26 outer plate load-bearing members

27 outer plate load-bearing members

28 outer plate load-bearing members

29 zones

30 zones

31 establish the tooth element

32 establish the tooth element

33 rotors

34 stators

35 cods

36 cods

37 cods

40 piston cylinder unit

41 piston cylinder unit

100 outer plate load-bearing members

101 outer plate load-bearing members

The 101-1 position

102 establish the tooth zone

103 zones

104 establish the tooth zone

105 inside radiuss

106 outer radius

107 positions

200 outer plate load-bearing members

201 outer plate load-bearing members

202 zones

203 zones

204 zones

205 establish tooth section

206 teeth

207 zones

208 wheel hubs

209 establish tooth section

210 zones

211 zones

212 wheel hubs

213 establish tooth section

214 establish tooth section

215 teeth

300 establish tooth section

301 establish tooth section

302 teeth

203 teeth

304 tooth tops

305 tooth tops

306 tooth roots

307 tooth roots

308 zones

309 zones

310 first outer plate load-bearing members

311 teeth

312 second outer plate load-bearing members

313 teeth

314 zones

315 anodontia zones

316 gaps

Claims (10)

1. wet clutch, it has the first sub-clutch and the second sub-clutch and clutch cover, wherein, the first sub-clutch and the second sub-clutch have respectively input chip load-bearing member and output chip load-bearing member, wherein, sheet respectively with described input chip load-bearing member be connected the output chip load-bearing member without relatively rotate ground and axially movably be connected, wherein, the output chip load-bearing member nestedly arranges each other, thereby make the output chip load-bearing member of the outside of the first sub-clutch surround the output chip load-bearing member of the inside of described the second sub-clutch at radially outer, wherein, described output chip load-bearing member has respectively the tooth of establishing zone for this reason, the described such formation in tooth zone of establishing, make the outer radius of establishing the tooth zone of output chip load-bearing member of described inside greater than the inner diameter of establishing the tooth zone of the output chip load-bearing member of described outside, root circle particularly, wherein, the tooth section of establishing of the output chip load-bearing member of described outside consists of like this, make the tooth section of establishing of the output chip load-bearing member of described inside can slippage pass the teeth groove of establishing tooth section of the output chip load-bearing member of described outside.

2. by wet clutch claimed in claim 1, wherein, the inside radius of the tooth top of the output chip load-bearing member of described outside is greater than the outer radius of the tooth top of the output chip load-bearing member of described inside.

3. by the described wet clutch of claim 1 or 2, wherein, the inside radius of the tooth root of the output chip load-bearing member of described outside is greater than the outer radius of the tooth root of the output chip load-bearing member of described inside.

4. by the described wet clutch of one of above claim, wherein, at least one gap of reservation between the flank of tooth of the flank of tooth of the output chip load-bearing member of described outside and the output chip load-bearing member of described inside.

5. by one of above claim described wet clutch, wherein, the tooth section of establishing of the tooth section of establishing of the output chip load-bearing member of described outside and the output chip load-bearing member of described inside has the identical number of teeth, thus make the tooth of the tooth section of establishing of the output chip load-bearing member of described outside respectively can slippage to the zone of leaving from the tooth of the tooth section of establishing of the output chip load-bearing member of described inside.

6. by one of above claim described wet clutch, wherein, the tooth section of establishing of the output chip load-bearing member of described outside has the number of teeth that the tooth section of establishing than the output chip load-bearing member of described inside lacks, thus make the first output chip load-bearing member the tooth section of establishing each tooth at least zone ground slippage to the zone of leaving from the tooth of the tooth section of establishing of the second output chip load-bearing member.

7. by wet clutch claimed in claim 6, wherein, the number of teeth of the output chip load-bearing member of described inside is the integral multiple of the number of teeth of the output chip load-bearing member of described outside.

8. by one of above claim described wet clutch, wherein, the output chip load-bearing member of described outside has a zone of extending in the axial direction, first establishes tooth section is arranged in this zone, and the output chip load-bearing member of described inside has a zone of extending in the axial direction, second establishes tooth section is arranged in this zone, and wherein, first establishes tooth section observes in the axial direction contiguous second and establish tooth section and arrange.

9. by one of above claim described wet clutch, wherein, the output chip load-bearing member of described outside has a zone of extending in the axial direction, this zone has the first one of establishing tooth section and does not establish tooth zone and one and establish the tooth zone, wherein, second of the output chip load-bearing member of described inside establish tooth section and observe in the axial direction in the zone of not establishing the tooth zone of the output chip load-bearing member that is arranged on described outside.

10. wet clutch, it has the first sub-clutch and the second sub-clutch and clutch cover, wherein, the first sub-clutch and the second sub-clutch have respectively interior load-bearing member and outer plate load-bearing member, wherein, described interior load-bearing member and rotor without being connected and described outer plate load-bearing member can be connected with transmission input shaft respectively with relatively rotating, wherein, the first outer plate load-bearing member of described the first sub-clutch surrounds the second outer plate load-bearing member of described the second sub-clutch at radially outer, outer plate respectively with corresponding outer plate load-bearing member without relatively rotate ground and axially movably be connected, wherein, described outer plate load-bearing member has respectively the tooth of establishing zone for this reason in this wise, make the outer radius of the second outer plate load-bearing member greater than the inside radius of the first outer plate load-bearing member.

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