FRICTION DISC

Abstract

A friction disc has a flat carrier ring which includes a first surface and a second surface, wherein a first annular friction lining is arranged on the first surface, the first annular friction lining including a geometry that deviates from the circular ring shape, wherein the carrier ring also includes the geometry of the first friction lining, each as viewed in the axial direction, and/or the first annular friction lining including at least one opening in the axial direction, which extends in the axial direction also through the carrier ring, wherein the opening is formed to start at the inner circumference or at the outer circumference of the carrier ring.

Claims

1. A friction disc having a flat carrier ring (5) which comprises a first surface (6) and a second surface (7), wherein a first annular friction lining (8) is arranged on the first surface (6), wherein the first annular friction lining (8) comprises a geometry deviating from the circular ring shape, wherein the carrier ring (5) also comprises the geometry of the first friction lining (8), each as viewed in the axial direction (4), and/or wherein at least one opening (13) is formed in the first friction lining (8) in the axial direction (4), which extends in the axial direction (4) also through the carrier ring (5), wherein the opening (13) is formed to start at the inner circumference or at the outer circumference of the carrier ring (5).

2. The friction disc according to claim 1, wherein a second friction lining (8) is arranged on the second surface (7) of the carrier ring (5), said second friction lining (8) comprising the geometry of the carrier ring (5) and the first annular friction lining (8) that deviates from the circular ring shape, and/or being formed with at least one opening (13) in the axial direction (4), which extends in the axial direction (4) also through the carrier ring (5) and the first friction lining (8), wherein the opening (13) is formed to start at the inner circumference or at the outer circumference of the carrier ring (5).

3. The friction disc according to claim 1, wherein the first friction lining (8) is a scatter-sintered friction lining.

4. The friction disc according to claim 2, wherein the second friction lining (8) is a scatter-sintered friction lining.

5. The friction disc according to claim 1, wherein the opening (13) at least in some areas is formed to be semicircular or circle-segment-shaped.

6. The friction disc according to claim 1, wherein several openings (13) extending through the friction disc in the axial direction (4) are formed.

7. The friction disc according to claim 1, wherein the at least one opening (13) in the first friction lining (8) extends across a radial width (16) of the first friction lining (8), which amounts to between 50% and 90% of the total width of the first friction lining (8) in the radial direction.

8. The friction disc according to claim 2, wherein the at least one opening (13) in the second friction lining (8) extends across a radial width (16) of the second friction lining (8), which amounts to between 50% and 90% of the total width of the second friction lining (8) in the radial direction.

9. The friction disc according to claim 1, wherein the edges (15) of the first and/or the second friction lining (8) are formed to be beveled where these join the at least one opening (13).

10. The friction disc according to claim 6, wherein the several openings (13) are formed to end at different radial heights.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0017] Other objects and features of the invention will become apparent from the following detailed description considered in connection with the accompanying drawings. It is to be understood, however, that the drawings are designed as an illustration only and not as a definition of the limits of the invention.

[0018] In the drawings,

[0019] FIG. 1 shows a cutout from a disc pack in a side view;

[0020] FIG. 2 shows a first embodiment variant of the friction disc;

[0021] FIG. 3 shows a second embodiment variant of the friction disc;

[0022] FIG. 4 shows a third embodiment variant of the friction disc; and

[0023] FIG. 5 shows a detail from an embodiment variant of a friction disc in a sectional side view.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

[0024] First of all, it is to be noted that in the different embodiments described, equal parts are provided with equal reference numbers and/or equal component designations, where the disclosures contained in the entire description may be analogously transferred to equal parts with equal reference numbers and/or equal component designations. Moreover, the specifications of location, such as at the top, at the bottom, at the side, chosen in the description refer to the directly described and depicted figure and in case of a change of position, these specifications of location are to be analogously transferred to the new position.

[0025] FIG. 1 shows a cutout from a disc pack 1. The disc pack 1 comprises several inner discs 2 and several outer discs 3, which can also be referred to as friction discs. The inner discs 2 are arranged in an axial direction 4 alternating with the outer discs 3. Via a corresponding confirmation mechanism, the inner discs 2 are adjustable relative to the outer discs 3 in the axial direction 4, such that a frictional engagement is established between the inner discs 2 and the outer discs 3. The inner discs 2 comprise an at least approximately flat carrier ring 5 with a first surface 6 and a second surface 7 opposite thereto the axial direction 4. A friction lining 8 is arranged on the first and/or on the second surface 6, 7. Thus, the inner discs 2 are so-called lining discs.

[0026] The outer discs 3 also comprise an at least approximately angular disc body 9, which is, however, free of friction linings 8 in the shown embodiment variant. Thus, the outer discs 3 are the so-called counter discs, which can be brought into frictional engagement with the friction linings 8 of the inner discs 2. However, it is also possible that the friction linings 8 are arranged on the outer discs 3, in particular if no friction linings 8 are arranged on the inner discs 2.

[0027] Preferably, the carrier ring 5 of the inner disc 2 and/or the disc body 9 of the outer disc 3 consists of and/or comprises a steel. However, these can also consist of another suitable, in particular metallic, material, for example of a sintered material.

[0028] This general structure of a disc pack 1 is known from the prior art. As regards further details, reference is thus made to the relevant prior art.

[0029] The disc pack 1 is part of a disc friction system, in particular a disc clutch, a brake, a holding device, a differential lock, etc.

[0030] FIG. 2 shows a first embodiment variant of a friction disc, as is and/or can be inserted into the disc pack 1 according to FIG. 1. In particular, an inner disc 2 is shown. However, the friction disc can also be an outer disc 3 (FIG. 1).

[0031] The friction disc according to the invention is in particular provided for so-called wet-running operation.

[0032] The friction disc can comprise at least one driver element 11, for example in the form of an internal toothing, on a radially inner end face 10 (on the inner circumference).

[0033] At this point, it should be mentioned that the outer discs 3 can also comprise at least one driver element on a radially outer end face. Should the friction disc according to FIG. 2 thus be formed as an outer disc 3, the at least one driver element is arranged on the radially outer end face of the friction disc.

[0034] Via the driver elements 11, a connection preventing rotation relative to another component of the disc friction system can be established, for example of a shaft in case of the inner discs 2 or of the housing of the disc friction system in case of the outer discs 3, as is per se known.

[0035] It is also possible that the inner discs 2 or the outer discs 3 are formed as so-called floating discs, i.e. do not have such driver elements 11.

[0036] The carrier ring 5 (FIG. 1) of the friction disc is formed to be closed in a circumferential direction 12.

[0037] At this point, it should be noted that in case of the friction disc being an outer disc 3 (FIG. 1), the following statements regarding the carrier ring 5 also can be applied to the disc body 9 of the outer disc 3, if it is formed according to the invention.

[0038] Preferably, the carrier ring 5 is formed as a single piece. However, it is also possible that the carrier ring 5 is assembled from several segments connected to one another.

[0039] As already stated, a first friction lining 8 is arranged on the first surface 6 of the carrier ring 5 (FIG. 1=and connected thereto. As can be seen from FIG. 2, the first friction lining 8 is preferably arranged on the entire first surface 6 of the carrier ring 5. Moreover, the first friction lining 8 preferably extends continuously in the circumferential direction 12; i.e. is preferably also formed annularly. Thus, preferably one first friction lining 8 only is arranged on the first surface 6 of the carrier ring 5.

[0040] In the preferred embodiment variant, the first friction lining 8 is a scatter-sintered friction lining. The scatter-sintering technology itself is known from the prior art, such that reference is made thereto with respect to further details of this technology. At this point, it should just be noted that in this regard, a sintering powder suitable for the friction disc is sprinkled onto a prepared carrier ring 5 and sintered onto the carrier ring 5. This lining is then compacted and, at this, preferably grooves are pressed in to cool the friction disc. Subsequently, the lining is subjected to a second sintering. Optionally, subsequent treatment, e.g. calibration of the friction plate, deburring, etc., takes place.

[0041] The materials known from the prior art can be used as sintering powders for scatter-sintered linings.

[0042] According to an embodiment variant of the friction disc, alternatively or additionally to the first friction lining 8, a second friction lining 8 (FIG. 1) can be arranged on the second surface 7 of the carrier ring 5 (FIG. 1). This second friction lining 8, according to a further embodiment variant of the friction disc, preferably is a scatter-sintered lining. The statements above regarding the first friction lining 5 can thus also be applied to the second friction lining 8.

[0043] As can be seen from FIG. 2, at least one opening 13 is provided and/or formed in the friction lining 8 and the carrier ring 5 (FIG. 1), said opening extending continuously through the friction lining 8 and the carrier ring 5 in the axial direction 4 (FIG. 1). The opening 13 through the friction lining 8 is formed to be flush to the opening 13 of the carrier ring 5. Moreover, the opening 13 is formed to start at the radially inner end face 10 and to extend outwardly in the radial direction, in the direction towards a radially outer end face 14 (i.e. in the direction towards the outer circumference). The opening 13 ends at a distance to the radially outer end face 14.

[0044] FIG. 3 shows an embodiment variant of the friction disc in the form of an inner discs 2, for which the situation is reversed. This friction disc again comprises the at least one opening 13, which continuously extends through the friction lining 8 and the carrier ring 5 (FIG. 1) in the axial direction 4 (FIG. 1). The opening 13 through the friction lining 8 is formed to be flush to the opening 13 of the carrier ring 5. However, the opening 13 does not start at the radially inner end face 10, but starts at the radially outer end face 14 and extends inwardly in the radial direction, in the direction towards a radially inner end face 10. The opening 13 ends at a distance to the radially inner end face 10.

[0045] If the second friction lining 8 described above is also arranged on the carrier ring 5, at least one opening 13 is preferably arranged and/or formed therein as well. The statements regarding the opening 13 in the first friction lining 8 analogously apply also to this opening 13 in the second friction lining 8. This opening 13 is formed to be flush with the opening 13 in the first friction lining and in the carrier ring 5.

[0046] Although in the embodiment variants described above the friction disc only one opening 13 is formed in the first friction lining 8 and in the carrier ring 5 and/or only one opening 13 is formed in the second friction lining 8 and in the carrier ring 5, according to a further embodiment variant of the friction lining, it is preferred that several openings 13 are formed in the first friction lining 8 and in the carrier ring 5 and/or that several openings 13 are formed in the second friction lining 8 and in the carrier ring 5, as can be seen from FIGS. 2 and 3. In this regard, hence, several openings 13 extending through the friction disc in the axial direction 4 are formed. In particular, the number of openings 13 can be selected from a range of 2 to 16, preferably from a range of 2 to 8.

[0047] The opening 13 and/or the openings 13 can have a maximum width in the circumferential direction 12 of the friction disc, which is selected from a range of 2% to 60% of the total length of the circumference, on which the opening 13 and/or the openings 13 start, i.e. the circumference on the radially inner end face 10 in the case of the embodiment variant according to FIG. 2 and/or the circumference on the radially outer end face 14 in the case of the embodiment variant according to FIG. 3. Preferably, the maximum width of the opening 13 or the openings 13 is formed on the radially inner end face 10 in the case of the embodiment variant according to FIG. 2 and/or on the radially outer end face 14 in the case of the embodiment variant according to FIG. 3, as can be seen in FIGS. 2 and 3.

[0048] In the embodiment variant of the friction disc shown in FIG. 2, the openings 13 partially (i.e. in the end region) have a semicircular cross-sectional area which is adjoined by a square or rectangular or trapezoidal cross-sectional area in the direction of the radially inner end face 10 (as viewed in the axial direction 4). The opening 13 or the openings 13 can also have another cross-sectional shape (as viewed in the axial direction 4), for example a semicircular cross-section, as can be seen from FIG. 3.

[0049] FIG. 4 shows an embodiment variant of the friction disc in the form of an inner disc 2 having four openings 13, which are also formed to start at the outer end face 14 and extend in the direction towards the radially inner end face 10. The openings 13 have the shape of circular segments and/or arcs. As viewed in the axial direction 4 (FIG. 1), the friction disc has an approximately square shape, wherein approximately refers to the rounded edges, which represent the remainder of the original circular ring of the friction disc without openings 13. For better illustration of the openings 13, FIG. 4 shows the circle line of an opening in dashed lines, which adumbrates the original circular ring geometry without openings 13. This embodiment variant of the friction disc with the openings 13 has a geometry deviating from the circular ring geometry (as viewed from the top in the direction of the axial direction 4 (FIG. 1) onto the first or second friction lining 8).

[0050] In this embodiment variant of the friction disc, the openings 13 through the friction lining 8 are also formed to be flush with the openings 13 in the carrier ring 5 and in the preferably present second friction lining 8, such that, as in all embodiment variants of the invention, the openings 13 extend continuously through the entire friction disc in the axial direction 4.

[0051] The several openings 13 can all be designed equally as regards their size, i.e. their surface area, and the shape of their cross-sections as viewed in the axial direction 4. However, it is also possible that several openings 13 with different surface areas and/or different shapes are arranged in the friction disc.

[0052] Moreover, it is possible that the several openings 13 are formed to end at different radial heights. Furthermore, mixed variants of the arrangement of the openings 13 shown in FIGS. 2 to 4 are possible. For example, openings 13, which start at the radially inner end face 10, can be combined in one friction disc with openings 13, which start at the radially outer end face 14. The same applies to combinations of the embodiment variant according to FIG. 4 with the one according to FIG. 2 and/or FIG. 3, wherein here, the particular size of the openings represented in these figures can also differ.

[0053] FIG. 5 in excerpts shows a further embodiment variant of the friction disc, in which the edges 15 of the first and/or the second friction lining 8 are formed to be beveled where these join the at least one opening 13.

[0054] The at least one opening 13 in the first friction lining 8 and optionally also in the second friction lining 8 can extend across a radial width 16 (FIG. 2) of the first/second friction lining 8, which amounts to between 50% and 90%, in particular between 50 and 75%, of the total width of the first friction lining in the radial direction. In this regard, the radial width 16 is the measurement of the friction lining 8 between the inner circumference and the outer circumference of the friction disc 8 (without taking into account the radial width of driver elements 11, which are optionally present on the inner circumference or outer circumference).

[0055] Preferably, the first friction lining 8 and the preferably present second friction lining 8 have a grooved surface, as can be seen from FIGS. 2 to 4. The grooving can be designed in the form of a so-called waffle pattern. In particular, the grooves can have an at least approximately circle-segment-shaped cross-section. Moreover, the grooves can have a depth of between 20% and 70%, in particular between 20% and 50%, of the thickness of the respective friction lining 8 in the axial direction 4. Tangents applied to the side walls of the grooves can also be at an angle to one another selected from a range of 90 to 120.

[0056] As compared to recesses in friction linings according to the prior art, the invention allows for the formation of larger openings without impairing the mechanical stability of the friction disc.

[0057] The arrangement of the openings 13 (FIG. 3) starting at the radially outer end face 14 for an inner disc 2 as opposed to the arrangement of the openings starting at the radially inner end face 10 (FIG. 2) has the advantage that thereby, the driver elements 12 are not interrupted. In case of an outer disc 3 the reversed design is advantageous.

[0058] The exemplary embodiments show possible embodiment variants of the friction disc, while it should be noted at this point that combinations of the individual embodiment variants are also possible.

[0059] Finally, as a matter of form, it should be noted that for ease of understanding of the structure of the friction disc, it is not obligatorily depicted to scale.

[0060] Although only a few embodiments of the present invention have been shown and described, it is to be understood that many changes and modifications may be made thereunto without departing from the spirit and scope of the invention. cl LIST OF REFERENCE NUMBERS [0061] 9 disc body [0062] 1 disc pack [0063] 10 end face [0064] 2 inner discs [0065] 11 driver element [0066] 3 outer discs [0067] 12 circumferential direction [0068] 4 axial direction [0069] 13 opening [0070] 5 carrier ring [0071] 14 end face [0072] 6 surface [0073] 15 edge [0074] 7 surface [0075] 16 width [0076] 8 friction lining