CENTRIFUGAL CLUTCH FOR A DRIVE TRAIN OF A MOTOR VEHICLE, COMPRISING AT LEAST ONE FIXING ELEMENT FOR A COUNTERPRESSURE PLATE

Abstract

A centrifugal clutch for a drive train of a motor vehicle includes an input part, an output part, a friction unit, a counterpressure plate, a shifting device, and a snap ring. The output part is arranged coaxially and rotatably in relation to the input part and includes a leaf-spring core with a fixing element. The friction unit includes first friction elements connected to the input part and second friction elements connected to the leaf-spring core. The second friction units are arranged in alternate layers with the first friction elements in an axial direction. The shifting device is arranged to clamp the first friction elements and the second frictional elements against the counterpressure plate for frictional engagement in response to a centrifugal force. The fixing element extends through the counterpressure plate. The counterpressure plate is fixed to the fixing element by the snap ring.

Claims

1.-10. (canceled)

11. A centrifugal clutch for a drive train of a motor vehicle comprising: an input part; an output part arranged coaxially and rotatably in relation to the input part and comprising a leaf-spring core with at least one fixing element; a friction unit comprising: first friction elements connected to the input part for conjoint rotation therewith; and, second friction elements connected to the leaf-spring core for conjoint rotation therewith, and arranged in alternate layers with the first friction elements in an axial direction; a counterpressure plate; at least one shifting device; and, a snap ring, wherein: the at least one shifting device is arranged to clamp the first friction elements and the second frictional elements against the counterpressure plate for frictional engagement in response to a centrifugal force; the at least one fixing element extends through the counterpressure plate; and, the counterpressure plate is fixed to the at least one fixing element by the snap ring.

12. The centrifugal clutch of claim 11, wherein the at least one fixing element is a fixing arm.

13. The centrifugal clutch of claim 11, wherein the at least one fixing element is a bolt.

14. The centrifugal clutch of claim 11, wherein the at least one fixing element comprises a groove for the snap ring.

15. The centrifugal clutch of claim 11, wherein the second friction elements are fixed to the leaf-spring core for conjoint rotation therewith by an inner disk carrier.

16. The centrifugal clutch of claim 11, wherein the leaf-spring core comprises: a hub arranged for connection to a transmission input shaft of a transmission of the motor vehicle; and, a pressure plate for the friction unit, fixed to the hub for conjoint rotation therewith by at least one leaf spring, and adjustable relative to the hub in the axial direction.

17. The centrifugal clutch of claim 16, wherein the at least one shifting device is arranged to clamp the first friction elements and the second friction elements between the pressure plate and the counterpressure plate in response to the centrifugal force.

18. The centrifugal clutch of claim 16, wherein: the pressure plate comprises an actuating arm for a clutch release bearing; and, the actuating arm extends through the hub in the axial direction.

19. The centrifugal clutch of claim 16, wherein the at least one leaf spring is subject to tension in an engaged state of the centrifugal clutch to increase a contact pressure force on the friction unit.

20. The centrifugal clutch of claim 16, wherein the at least one leaf spring is subject to compressive stress in an engaged state of the centrifugal clutch to increase a contact pressure force on the friction unit.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0023] The disclosure and the technical environment are explained in greater detail below by means of the figures. It should be noted that the figures show variants of the disclosure but that the disclosure is not restricted thereto. In the figures, identical parts are provided with the same reference signs. By way of example and schematically:

[0024] FIG. 1 shows a first variant of a centrifugal clutch in an exploded illustration;

[0025] FIG. 2 shows a perspective illustration of a leaf-spring core of the first variant of the centrifugal clutch;

[0026] FIG. 3 shows a section through the leaf-spring core of the first variant of the centrifugal clutch;

[0027] FIG. 4 shows a perspective illustration of a hub of the leaf-spring core of the first variant of the centrifugal clutch;

[0028] FIG. 5 shows a perspective illustration of a pressure plate of the leaf-spring core of the first variant of the centrifugal clutch;

[0029] FIG. 6 shows a section through the first variant of the centrifugal clutch;

[0030] FIG. 7 shows a second variant of a centrifugal clutch in an exploded illustration;

[0031] FIG. 8 shows a perspective illustration of the leaf-spring core of the second variant of the centrifugal clutch;

[0032] FIG. 9 shows a section through the leaf-spring core of the second variant of the centrifugal clutch;

[0033] FIG. 10 shows a section through the inner disk carrier of the second variant of the centrifugal clutch; and

[0034] FIG. 11 shows a section through the second variant of the centrifugal clutch.

DETAILED DESCRIPTION

[0035] FIG. 1 shows an exploded illustration of a first variant of a centrifugal clutch 1 in section. The centrifugal clutch 1 has an input part 2 having a first shifting device 9, which shifts in accordance with the centrifugal force, and an output part 3. The output part 3 includes a second shifting device 10, which shifts in accordance with the centrifugal force, a leaf-spring core 6, a friction unit 4, a counterpressure plate 11 and a snap ring 13. The friction unit 4 includes first friction elements 5, which are connected to the input part 2 for conjoint rotation therewith, and second friction elements 7, which are connected to the leaf-spring core 6 for conjoint rotation therewith.

[0036] FIG. 2 shows a perspective illustration of the leaf-spring core 6 of the first variant of the centrifugal clutch 1, which is shown in FIG. 1. The leaf-spring core 6 includes a hub 17 and a pressure plate 18. The pressure plate 18 is fixed to the hub 17 for conjoint rotation therewith by leaf springs 19. For this purpose, the leaf springs 19 are fixed to the hub 17 and the pressure plate 18 by means of rivets 23. On a first outer circumferential surface 45, the hub 17 has fixing elements 12, which are arranged in a manner distributed in a circumferential direction 46 and in this case are designed in the manner of fixing arms 14. Moreover, the fixing elements 12 each have a groove 16 for the snap ring 13 shown in FIG. 1. Also formed on the first outer circumferential surface 45 are first arms 25, which are used to receive some of the second friction elements 7 of the friction unit 4, which are shown in FIG. 1.

[0037] On a second outer circumferential surface 47, the pressure plate 18 furthermore includes second arms 26, which are likewise used to receive some of the second friction elements 7 shown in FIG. 1 in a manner fixed against relative rotation. Also formed on the second outer circumferential surface 47 of the pressure plate 18 are contact pressure lugs 22, which serve to press the first friction elements 5 and second friction elements 7 shown in FIG. 1 against the counterpressure plate 11.

[0038] FIG. 3 shows the leaf-spring core 6, shown in FIG. 2, in section. Here, it can be seen, in particular, that the hub 17 has splines 24, by means of which the hub 17 can be connected positively and for conjoint rotation to a transmission input shaft (not shown here) of a transmission of a motor vehicle. The pressure plate 18 is fixed to the hub 17 by means of the leaf springs 19. The pressure plate 18 has actuating arms 20, which extend through openings 27 in the hub 17, for a clutch release bearing (not shown here).

[0039] FIG. 4 shows the hub 17 and FIG. 5 shows the pressure plate 18 in a perspective illustration.

[0040] FIG. 6 shows the first variant of the centrifugal clutch 1 in a perspective illustration. The centrifugal clutch 1 has the input part 2 with an input plate 29, which can be rotated about an axis of rotation 30 by a drive (not shown here), and an outer disk carrier 28, which is fixed on the input plate 29 for conjoint rotation therewith. First friction elements 5 of a friction unit 4 are connected to the outer disk carrier 28 of the input part 2 for conjoint rotation therewith. Moreover, the friction unit 4 has second friction elements 7, which are fixed to the hub 17 and the pressure plate 18 of the leaf-spring core 6 for conjoint rotation therewith.

[0041] The input part 2 has the first shifting device 9, which rotates with the input part 2 and shifts in accordance with the centrifugal force. The first shifting device 9 includes first centrifugal weights 31, which are moved outward in a radial direction 37 as a centrifugal force of the rotating input part 2 increases, with the result that the centrifugal weights 31 move a first disk part 33 in an axial direction 8, i.e. parallel to the axis of rotation 30, by means of a first ramp 35 of the first disk part 33. The first disk part 33 is coupled mechanically to the pressure plate 18 of the leaf-spring core 6 in such a way that the pressure plate 18 is adjusted in the direction of the counterpressure plate 11, counter to a spring force of the leaf springs 19, in the axial direction 8. The first friction elements 5 and the second friction elements 7 are thereby clamped between the pressure plate 18 and the counterpressure plate 11 and, as a result, enter into frictional engagement, thus enabling a torque to be transferred from the input part 2 to the output part 3.

[0042] The output part 3 includes a second shifting device 10, which is connected to the hub 17 for conjoint rotation therewith, shifts in accordance with the centrifugal force and has second centrifugal weights 32. As the centrifugal force of the rotating output part 3 increases, the second centrifugal weights 32 are moved outward in the radial direction 37, with the result that a second disk part 34 is adjusted in the direction of the counterpressure plate 11 in the axial direction 8 by means of second ramps 36. The second disk part 34 is coupled mechanically to the pressure plate 18 by means of a plurality of preloaded springs 38, only one of which can be seen here, thus enabling the pressure plate 18 to be adjusted in the direction of the counterpressure plate 11 in the axial direction 8. The first friction elements 5 and the second friction elements 7 of the friction unit 4 are thereby likewise clamped and brought into frictional engagement, thus enabling the torque to be transferred from the input part 2 to the output part 3. The springs 38 are each arranged on guide pins 39.

[0043] The three lower second friction elements 7 are connected to the pressure plate 18 for conjoint rotation therewith by means of the first arms 25, and the three upper second friction elements 7 are connected to the hub 17 for conjoint rotation therewith by means of the second arms 26. Since the leaf springs 19 extend at an angle to the hub 17 and the pressure plate 18, a contact pressure force introduced into the friction unit 4 by the pressure plate 18 is intensified as the centrifugal clutch 1 is engaged, and a higher torque can be transferred from the input part 2 to the output part 3. In the first variant of the centrifugal clutch 1, however, not all of the second friction elements 7 of the friction unit 4 are used to intensify the contact pressure force but only the three lower second friction elements 7, which are passed through the pressure plate 18. This makes the centrifugal clutch 1 less sensitive to torque fluctuations, and an overrun torque introduced into the leaf springs 19 is lower, thereby ensuring that the leaf springs 19, which are subject to compressive stress, cannot buckle.

[0044] The fixing elements 12 of the hub 17 extend through the counterpressure plate 11, thus enabling the counterpressure plate 11 to be fixed to the hub 17 of the leaf-spring core 6 by means of the snap ring 13 shown in FIG. 1.

[0045] FIG. 7 shows an exploded illustration of a second variant of a centrifugal clutch 1 having an input part 2 and an output part 3. The input part 2 has a first shifting device 9, which shifts in accordance with the centrifugal force, and is of identical design to the input part 2 of the first variant of the centrifugal clutch 1. The output part 3 includes a second shifting device 10, which shifts in accordance with the centrifugal force, a leaf-spring core 6, an inner disk carrier 21, a friction unit 4, a counterpressure plate 11 and a snap ring 13.

[0046] FIG. 8 shows the leaf-spring core 6 in a perspective illustration. The leaf-spring core 6 includes a hub 17, to which a pressure plate 18 is rotatably fixed by means of leaf springs 19. The hub 17 has splines 24, by means of which the hub 17 can be fixed for conjoint rotation to a transmission input shaft (not shown here) of a transmission of a motor vehicle. Three fixing elements 12, which in this case are designed in the manner of bolts 15, are fixed to the hub 17. The fixing elements 12 extend through leadthrough openings 40 in the pressure plate 18.

[0047] FIG. 9 shows a section through the leaf-spring core 6. The fixing elements 12 of the hub 17 each have a groove 16 for the snap ring 13 shown in FIG. 7. The leaf springs 19 enable the pressure plate 18 to be moved to a limited extent in an axial direction 8 relative to the hub 17. The pressure plate 18 is connected to a third disk part 44 by means of guide pins 39, wherein a preloaded spring 38 is arranged on each of the guide pins 39 between the pressure plate 18 and the third disk part 44.

[0048] FIG. 10 shows a section through an inner disk carrier 21. The inner disk carrier 21 is fixed for conjoint rotation to the pressure plate 18 (shown in FIGS. 8 and 9) of the leaf-spring core 6 by means of connecting elements 41. The inner disk carrier 21 has a third outer circumferential surface 42, to which the friction unit 4 shown in FIG. 7 can be fixed for conjoint rotation therewith. Moreover, the inner disk carrier 21 has, on the third outer circumferential surface 42, a contact pressure ring 43, by means of which the friction unit 4 can be pressed against the counterpressure plate 11 shown in FIG. 7.

[0049] FIG. 11 shows the second variant of the centrifugal clutch 1 in section. Apart from the leaf-spring core 6 and the inner disk carrier 21, the second variant of the centrifugal clutch 1 is of substantially identical design to the first variant of the centrifugal clutch 1, which is shown in FIGS. 1 to 6, and therefore only the essential differences will be explored below and otherwise reference is made to the description of the first variant of the centrifugal clutch 1. The second variant of the centrifugal clutch 1 too has an input part 2 having an input plate 29 and an outer disk carrier 28, which can be rotated around an axis of rotation 30 by a drive (not shown here), and first friction elements 5 of a friction unit 4 are fixed to the outer disk carrier 28 for conjoint rotation therewith. Furthermore, the friction unit 4 includes second friction elements 7, which are arranged for conjoint rotation on the third outer circumferential surface 42 of the inner disk carrier 21, while the inner disk carrier 21 is connected to the pressure plate 18 of the leaf-spring core 6 for conjoint rotation therewith.

[0050] The input part 2 has the first shifting device 9, which shifts in accordance with the centrifugal force, and the output part 3 has the second shifting device 10, which shifts in accordance with the centrifugal force. By means of the first shifting device 9 and/or the second shifting device 10, the pressure plate 18 can be moved in the direction of the counterpressure plate 11 in an axial direction 8, i.e. parallel to the axis of rotation 30. The first friction elements 5 and the second friction elements 7 of the friction unit 4 are thereby clamped between the contact pressure ring 43 of the inner disk carrier 21 and the counterpressure plate 11 and brought into frictional engagement, thereby engaging the centrifugal clutch 1.

[0051] The engagement of the centrifugal clutch 1 enables a torque to be transferred from an input part 2 to the output part 3. During this process, the leaf springs 19 are subject to compressive stress, as a result of which the pressure plate 18 is pressed in the direction of the counterpressure plate 11 in the axial direction 8, with the result that a contact pressure force introduced into the friction unit 4 by the contact pressure ring 43 is intensified. The fixing elements 12 extend through the counterpressure plate 11 in the axial direction 8, thus enabling the counterpressure plate 11 to be fixed to the hub 17 of the leaf-spring core 6 by means of the snap ring 13.

[0052] The centrifugal clutches 1 are distinguished especially by a low effort on assembly.

REFERENCE NUMERALS

[0053] 1 centrifugal clutch [0054] 2 input part [0055] 3 output part [0056] 4 friction unit [0057] 5 first friction element [0058] 6 leaf-spring core [0059] 7 second friction element [0060] 8 axial direction [0061] 9 first shifting device [0062] 10 second shifting device [0063] 11 counterpressure plate [0064] 12 fixing element [0065] 13 snap ring [0066] 14 fixing arm [0067] 15 bolt [0068] 16 groove [0069] 17 hub [0070] 18 pressure plate [0071] 19 leaf spring [0072] 20 actuating arm [0073] 21 inner disk carrier [0074] 22 contact pressure lugs [0075] 23 rivet [0076] 24 splines [0077] 25 first arm [0078] 26 second arm [0079] 27 openings [0080] 28 outer disk carrier [0081] 29 input plate [0082] 30 axis of rotation [0083] 31 first centrifugal weight [0084] 32 second centrifugal weight [0085] 33 first disk part [0086] 34 second disk part [0087] 35 first ramp [0088] 36 second ramp [0089] 37 radial direction [0090] 38 spring [0091] 39 guide pin [0092] 40 leadthrough opening [0093] 41 connecting element [0094] 42 third outer circumferential surface [0095] 43 contact pressure ring [0096] 44 third disk part [0097] 45 first outer circumferential surface [0098] 46 circumferential direction [0099] 47 second outer circumferential surface