DE112007001268B4 - Torque transfer device - Google Patents

Abstract

Torque transmission device, in particular in the drive train of a motor vehicle, for transmitting torque between a drive unit (3) and a shaft (26) rotatable about an axis of rotation (12), in particular a transmission input shaft, with a hydrodynamic torque converter (6) having one with the drive unit ( 3) connectable or connected converter cover (14), which can be coupled via a pump wheel (20) for transmitting torque to a turbine wheel (21) which can be bridged for torque transmission by a lockup clutch (31) comprising a piston (30) in the axial direction limited to the converter cover (14) is displaced to clamp a Reibbelagträger (34) with at least one friction lining (35, 36) for transmitting torque between the piston (30) and the converter cover (14), wherein between the piston ( 30) and the friction lining carrier (34) a friction ring (38) is arranged between the piston (30) and the friction lining carrier (34) in the axial direction limited displaceable and rotatably connected to the converter cover (14), wherein the friction ring (38) by a leaf spring means (40) in the axial direction limited displaceable and rotationally fixed to the converter cover (14) wherein the leaf spring means (40) comprises a plurality of leaf spring elements (41) which are arranged substantially in the circumferential direction, wherein the leaf spring elements (41) each have a first attachment point (44) on which the leaf spring elements (41) on the converter cover (14 ), and a second attachment point (45) to which the leaf spring elements (41) are attached to the piston (30), wherein the leaf spring elements (41) each have a third attachment point (46) on which the leaf spring elements (41 ) are attached to the friction ring (38), wherein the third attachment point (46) in the circumferential direction respectively between the first (44) and the second attachment point (45) angeord is net.

Description

The invention relates to a torque transmission device, in particular in the drive train of a motor vehicle, for transmitting torque between a drive unit and a shaft rotatable about a rotation axis, in particular a transmission input shaft, with a hydrodynamic torque converter comprising a connectable to the drive unit or connected converter cover, via a Impeller for torque transmission with a turbine wheel can be coupled, which can be bridged for torque transmission by a lockup clutch comprising a piston which is axially limited to the converter cover to be displaced to a Reibbelagträger with at least one friction lining for torque transmission between the piston and the converter cover clamp, wherein between the piston and the Reibbelagträger a friction ring is arranged, which limits verlagerb between the piston and the Reibbelagträger in the axial direction ar and rotatably connected to the converter cover, wherein the friction ring by a leaf spring means in the axial direction limited displaceable and rotatably connected to the converter cover, wherein the leaf spring means comprises a plurality of leaf spring elements which are arranged substantially in the circumferential direction, wherein the leaf spring elements each have a first attachment point to which the leaf spring elements are attached to the transducer cover, and a second attachment point to which the leaf spring elements are attached to the piston, wherein the leaf spring elements each have a third attachment point at which the leaf spring elements are attached to the friction ring.

Such a torque transmission device is made DE 199 81 455 T5 known.

The object of the invention is to provide a torque transmission device which is simple in construction and inexpensive to produce.

The object is achieved in such a torque transmission device in that the third attachment point is arranged in the circumferential direction in each case between the first and the second attachment point. According to an essential aspect of the invention, the functions of torque transmission and pressure transmission, which in conventional torque transmission devices alone takes over the pistons, are divided between the piston and the friction ring. The piston of the torque transmission device according to the invention has only the function pressure transmission. The torque transmission function is performed by the friction ring, which can be clamped between the piston and the friction lining carrier.

According to the invention, the torque transmission device is characterized in that the friction ring is limitedly displaceable in the axial direction by a leaf spring device and connected in a rotationally fixed manner to the converter cover. The leaf spring device provides a rotationally fixed connection between the piston and / or the friction ring and / or the converter cover. At the same time, the leaf spring device allows a limited movement in the axial direction between the piston and / or the friction ring and / or the converter cover.

According to the invention, the torque transmission device is characterized in that the leaf spring device comprises a plurality of leaf spring elements, which are arranged substantially in the circumferential direction. The leaf spring elements are preferably designed as sheet metal parts.

A preferred embodiment of the torque transmission device is characterized in that the leaf spring elements have substantially the shape of circular arcs. Preferably, the leaf spring elements are arranged distributed uniformly on a pitch circle.

According to the invention, the torque transmission device is characterized in that the leaf spring elements each have a first attachment point, on which the leaf spring elements are fastened to the converter cover, and a second attachment point, on which the leaf spring elements are fastened to the piston. The distance between the attachment locations is selected to allow sufficient movement of the piston in the axial direction relative to the converter cover.

According to the invention, the torque transmission device is characterized in that the leaf spring elements each have a third fastening point, on which the leaf spring elements are fastened to the friction ring. Preferably, the leaf spring elements are first preassembled with the third attachment point on the friction ring.

According to the invention, the torque transmission device is characterized in that the third attachment point is arranged in the circumferential direction in each case between the first and the second attachment point. As a result, the assembly of the friction ring with the preassembled leaf spring elements is considerably simplified.

A further preferred embodiment of the torque transmission device is characterized in that the leaf spring elements have a through hole per attachment point. The through holes are used for Performing fasteners for securing the leaf spring elements.

A further preferred exemplary embodiment of the torque transmission device is characterized in that the friction ring essentially has the shape of a circular ring disk. Preferably, the friction ring is designed as a sheet metal part.

A further preferred embodiment of the torque transmission device is characterized in that the friction ring has at its inner periphery preferably radially inwardly extending fastening tabs, which serve for fastening the leaf spring device. Preferably, the friction ring has a fastening tab per leaf spring element. The attachment tabs are preferably integrally connected to the friction ring.

In a method for assembling a torque transmission device described above, the above-mentioned object is achieved by the following assembly steps: First, the leaf spring device is attached to the friction ring; Thereafter, the friction ring with the attached leaf spring means in the converter cover, in which the friction lining carrier is inserted; Thereafter, the leaf spring device is attached to the converter cover. As a result, the production of the torque transmission device according to the invention is considerably simplified.

A preferred embodiment of the method is characterized in that the piston is subsequently attached to the leaf spring device. Preferably, the piston is attached by means of blind rivets to the leaf spring means. The piston can also be attached by means of spring clips or screws on the leaf spring means.

In a torque transmission device according to the preamble of claim 13, the above-stated object is achieved in that the converter cover comprises a radially outer cover part and a radially inner cover part, on which a radially inner mounting portion of a leaf spring device is attached, with a radially outer mounting portion attached to the piston. The attachment of the leaf spring device to the radially outer cover part and / or the radially inner cover part is preferably carried out by rivet connection elements, for example by rivets, which are pushed out of the converter cover. Due to the two-part design of the converter cover, the assembly of the torque transmission device is simplified.

A preferred exemplary embodiment of the torque transmission device is characterized in that the radially outer fastening region of the leaf spring device is arranged radially outside an interface between the radially outer cover part and the radially inner cover part. The interface preferably extends in the circumferential direction.

A further preferred embodiment of the torque transmission device is characterized in that the radially outer cover part is connected in a material-locking and / or form-fitting manner to the radially inner cover part. The positive connection is used to position the two cover parts, which are preferably joined together by welding materially.

In a torque transmission device according to the preamble of claim 16, the above-stated object is achieved in that the fastening region is accessible through a through hole in the piston in front of the side facing away from the drive. This simplifies the assembly of the piston on the converter cover.

Further advantages, features and details of the invention will become apparent from the following description in which, with reference to the drawings, various embodiments are described in detail. Show it:

1 a torque transmitting device according to a first embodiment in half section;

2 a perspective view of the converter cover of in 1 shown torque transmitting device with an inserted lining carrier and an inserted friction ring;

3 an enlarged section 2 with a leaf spring element;

4 a torque transmission device according to a non-inventive embodiment in half section;

5 a torque transmission device according to another embodiment in half section and

6 a torque transmission device according to another embodiment in half section.

In the 1 and 4 is each a part of a powertrain 1 a motor vehicle shown. Between a drive unit 3 , in particular an internal combustion engine, only by a Reference numeral is indicated and emanating from a crankshaft, and a transmission 5 , which is also indicated by a reference numeral, is a hydrodynamic torque converter 6 arranged. The crankshaft of the internal combustion engine 3 is, for example, via a drive plate, which is also referred to as a flex plate, rotatably with a housing 10 of the torque converter 6 connected. The housing 10 of the torque converter 6 is about a rotation axis 12 rotatable and with a drive-close housing wall 14 equipped, which is also referred to as a converter cover.

In the converter cover 14 is a central pilot journal 15 attached, which serves the hydrodynamic torque converter 6 vorzuzentrieren during assembly in a central recess of the crankshaft. Radial outside is on the converter cover 14 a connection sheet 16 welded, from the threaded bolt 17 go out with those of the converter cover 14 is attached to the drive plate.

The hydrodynamic torque converter 6 includes a stator 19 , a pump 20 and a turbine wheel 21 , The turbine wheel 21 is by rivet fasteners 22 firmly with a hub part 24 connected. The hub part 24 is non-rotatable with a transmission input shaft 26 connected inside a central, continuous cavity 27 having. The cavity 27 stands with a room 28 connected to the drive unit 3 out from the converter cover 14 and to the gearbox 5 out of a piston 30 is limited. The piston 30 belongs to a lockup clutch 31 that bypass the hydrodynamic torque converter 6 serves. With his the transmission 5 facing side of the piston limited 30 a pressure room 32 for actuating the lockup clutch 31 can be acted upon by a hydraulic medium with pressure. Upon actuation of the piston 30 this moves on the converter cover 14 to. In such a movement in the axial direction becomes one in the room 28 contained medium displaced and over the cavity 27 dissipated.

The torque converter lockup clutch 31 further comprises a friction lining carrier 34 , on the friction linings 35 . 36 are attached. The friction lining 35 comes with an actuation of the piston 30 on the converter cover 14 to the plant. On the friction lining 36 comes with an actuation of the piston 30 a friction ring 38 to the plant. The friction ring 38 is in the axial direction between the friction lining 36 or the friction lining carrier 34 and the piston 30 arranged. The friction ring 38 is by a leaf spring device 40 holding several leaf spring elements 41 comprises, rotatably but axially limited displaceable on the converter cover 14 attached.

At the in 1 shown torque transmitting device is an end of the leaf spring 41 at a first attachment point 44 on the converter cover 14 attached. The attachment to the first attachment point 44 is preferably done by a rivet, which from the converter cover 14 is pushed out. At a second attachment point 45 is the other end of the leaf spring 41 , preferably by means of a blind rivet, on the piston 30 attached. At a third attachment point 46 between the first attachment point 44 and the second attachment point 45 is arranged, is the leaf spring 41 on the friction ring 38 attached. The attachment of the friction ring 38 on the leaf spring 41 is preferably done by a rivet connection element.

The friction lining carrier 34 forms the entrance part of a torsional vibration damper 50 in the case 10 between the converter cover 14 and the turbine wheel 21 is arranged. The input part or the friction lining carrier 34 is about energy storage elements 52 with a starting part 53 of the torsional vibration damper 50 coupled. The starting part 53 is with the help of rivet fasteners 22 at the hub part 24 attached. Radially outside the energy storage elements 52 is a flywheel 54 arranged on the turbine wheel 21 is attached.

In 2 you can see that the friction ring 38 has the shape of a circular disk, of which six fastening tabs 60 . 61 extend radially inward. Each of the fastening straps 60 . 61 has a through hole for passing a fastener. In the circumferential direction between two fastening straps 60 . 61 is each a rivet 62 . 64 arranged from the converter cover 14 is pushed out.

In 3 you can see that the Nietwarze 64 for fixing one end of the leaf spring element 41 serves. For this purpose, the leaf spring element 41 a through hole through which the rivet nugget 64 extends through. Another through hole 65 is at the other end of the leaf spring element 41 intended. The through hole 65 is used to perform a Blindniets, with the help of the associated end of the leaf spring element 41 on the piston 30 is attached, as in 1 is shown. Approximately in the middle of the leaf spring element 41 this has a further through hole, through which a rivet connection element 66 extends through, with the help of the leaf spring element 41 on the fastening strap 61 attached to the friction ring 38 emanates.

The assembly of in the 1 to 3 The torque transmission device shown is performed as described below. First, the leaf spring elements 41 at the middle hole on the friction ring 38 attached. This preassembled module is then in the converter cover 14 , in which already the friction lining carrier 34 is located, inserted and then riveted. For this purpose are in the converter cover 14 the rivet warts 62 . 64 available. Next is the piston 30 assembled. The connection of the piston 30 to the leaf springs 41 can be done by means of blind rivets, spring clips or screws, with screws to the leaf spring elements before rivet nuts are to be attached.

In the non-inventive embodiment of 4 is shown that the piston 30 instead of the same leaf spring elements as the friction ring 38 also over another leaf spring device 70 holding several leaf spring elements 71 includes, directly to the converter cover 14 can be tied. The leaf springs 71 in this case, first at a connection point 73 on the piston 30 preassembled. After the friction lining 34 inserted and the friction ring 38 riveted, the piston becomes 30 with the preassembled leaf springs 71 inserted. Subsequently, the radially inner ends of the leaf springs 71 through a central opening in the piston 30 at a junction 72 to the converter cover 14 riveted. For this purpose are on the converter cover 14 at the junction 72 Nietwarzen provided. The leaf spring device 70 may alternatively be designed as a disc.

The following further variants are possible: leaf springs with cover or friction ring, for example screwed or welded using rivet nuts; Leaf spring bolted or welded to the piston, for example using rivet nuts; Leaf springs with the piston or with the lid via resilient elements, such as clips connected.

At the in 5 illustrated embodiment is indicated that the piston 30 also by a leaf spring device 80 directly on the converter cover 14 can be attached. The leaf spring device 80 is in a first attachment area 81 on the piston 30 attached. In a second attachment area 82 that is radially outside of the first attachment area 81 is arranged, is the leaf spring means 80 with the help of a rivet, which comes out of the converter cover 14 is pushed out, attached to this. The second attachment area 82 is through a through hole 84 that in the piston 30 is left out, accessible.

In the 5 The torque transmission device shown is mounted as follows: First, the leaf spring device 80 comprising a plurality of leaf spring members at the first attachment portion 81 to the piston 30 riveted. The preassembled module is then inserted into the converter cover and through the through hole 84 riveted to the rivets in the second attachment area. Subsequently, the openings 84 in the piston 30 with blind rivet elements or sealed blind rivets 86 locked.

In 6 a torque transmission device is shown in half section, in which the converter cover 14 a radially outer sheet metal part 91 and a radially inner sheet metal part 92 includes. On the radially inner sheet metal part 92 is in a radially inner mounting area 94 a leaf spring device 100 attached. The attachment of the leaf spring device 100 in the radially inner mounting area 94 is preferably done by a Nietwarze 101 coming out of the converter cover 14 is pushed out. In a radially outer mounting area 104 is the leaf spring device 100 with the help of rivet fasteners 105 on the piston 30 attached. The radially outer mounting area 104 is radially outside of a positive connection region 107 arranged between the two cover parts 91 . 92 is trained. The form-locking area 107 serves to pre-assemble the two cover parts. The attachment of the two cover parts 91 . 92 done by a welded joint 108 ,

When mounting the in 6 in half-section torque transmitting device is first the leaf spring device 100 to the radially inner lid part 92 riveted. Subsequently, the piston 30 to the leaf spring device 100 riveted. Then the preassembled module with the radially inner cover part 92 and the friction lining carrier 34 in the radially outer cover part 91 inserted. Subsequently, the two lid parts 91 . 92 welded.

Claims (5)

Torque transmission device, in particular in the drive train of a motor vehicle, for transmitting torque between a drive unit ( 3 ) and one about a rotation axis ( 12 ) rotatable shaft ( 26 ), in particular a transmission input shaft, with a hydrodynamic torque converter ( 6 ), one with the drive unit ( 3 ) connectable or connected converter cover ( 14 ), which via a pump wheel ( 20 ) for transmitting torque with a turbine wheel ( 21 ), which is for torque transmission through a lockup clutch ( 31 ), which is a piston ( 30 ), which in the axial direction limited to the converter cover ( 14 ) is displaceable to a Reibbelagträger ( 34 ) with at least one friction lining ( 35 . 36 ) for torque transmission between the piston ( 30 ) and the converter cover ( 14 ), whereby between the piston ( 30 ) and the Friction lining carrier ( 34 ) a friction ring ( 38 ) arranged between the piston ( 30 ) and the friction lining carrier ( 34 ) in the axial direction limited displaceable and rotationally fixed with the converter cover ( 14 ), the friction ring ( 38 ) by a leaf spring device ( 40 ) in the axial direction limited displaceable and rotationally fixed with the converter cover ( 14 ), wherein the leaf spring device ( 40 ) a plurality of leaf spring elements ( 41 ), which are arranged substantially in the circumferential direction, wherein the leaf spring elements ( 41 ) each have a first attachment point ( 44 ), at which the leaf spring elements ( 41 ) on the converter cover ( 14 ), and a second attachment point ( 45 ), on which the leaf spring elements ( 41 ) on the piston ( 30 ), wherein the leaf spring elements ( 41 ) each have a third attachment point ( 46 ), on which the leaf spring elements ( 41 ) on the friction ring ( 38 ), wherein the third attachment point ( 46 ) in the circumferential direction in each case between the first ( 44 ) and the second attachment point ( 45 ) is arranged. Torque transmission device according to claim 1, characterized in that the leaf spring elements ( 41 ) have substantially the shape of circular arcs. Torque transmission device according to one of claims 1 or 2, characterized in that the leaf spring elements ( 41 ) per attachment point ( 44 - 46 ) have a through hole. Torque transmission device according to one of claims 1 to 3, characterized in that the friction ring ( 38 ) has substantially the shape of a circular disk. Torque transmission device according to the preceding claim, characterized in that the friction ring ( 38 ) at its inner circumference, preferably radially inwardly extending fastening tabs ( 60 . 61 ), which is used for fastening the leaf spring device ( 40 ) serve.

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