WO2022174862A1

WO2022174862A1 - Slip clutch lining and dry-running slip clutch

Info

Publication number: WO2022174862A1
Application number: PCT/DE2022/100055
Authority: WO
Inventors: Michael Schneider
Original assignee: Schaeffler Technologies AG & Co. KG
Priority date: 2021-02-22
Filing date: 2022-01-20
Publication date: 2022-08-25
Also published as: DE102022101263A1

Abstract

The invention relates to a slip clutch lining (1) with a friction surface (2) which, in operation, comes into frictional contact with a mating friction surface (5), with abrasion taking place. In order to functionally improve the slip clutch lining (1), the friction surface (2) comprises an abrasion uptake region (8) which is equipped with at least one recess (11-13) and which serves to take up the abrasion and, in frictional contact with the mating friction surface (5), is closed off in a media-tight manner with respect to a friction contact environment.

Description

Slipping clutches and dry-running slipping clutches

The invention relates to a slip clutch lining with a friction surface which, during operation, comes into frictional contact with a counter-friction surface, with abrasion occurring. The invention also relates to a dry-running slip clutch with at least one slip clutch lining of this type.

From the German patent application DE 102019 101 113 A1, a slip clutch is known which has two slip clutch parts which can be rotated in opposite directions and which comprise axially and/or radially prestressed friction surfaces.

The object of the invention is to functionally improve a slip clutch lining with a friction surface which, during operation, comes into frictional contact with a counter-friction surface, with abrasion occurring.

In the case of a slipping clutch lining with a friction surface that comes into frictional contact with a counter-friction surface during operation, causing abrasion, the task is solved in that the friction surface comprises an abrasion-receiving area equipped with at least one recess, which serves to absorb the abrasion and which in Frictional contact with the counter-friction surface is completed in a media-tight manner in relation to a frictional contact environment. A slipper clutch equipped with the slipper clutch lining is equipped, for example, with a torsional vibration damper, which is also known as a dual-mass flywheel. Such a dual-mass flywheel includes, for example, arc springs that are arranged together with a lubricating medium in a damper cage. When a slip clutch of this type is in operation, it can happen that the lubricating medium escapes from the dual-mass flywheel. To protect the frictional contact against contamination from the outside, conventional slip clutch linings have no grooves. This can effectively prevent the lubricating medium from getting into the frictional contact. For this reason, the abrasion recording area for the stressed slipping clutch lining is sealed off from the frictional contact environment in a media-tight manner. However, the abrasion absorption rich in the operation of the slip clutch lining the absorption of abrasion. The unavoidable lining abrasion accumulates in the recess, so that the coefficient of friction during operation of the slipping clutch lining is not reduced by wear particles contained in the lining abrasion. The recess in the abrasion receiving area is advantageously designed and arranged in such a way, in particular made large enough, that it can absorb all of the abrasion, with the remaining friction surface coming into frictional contact with the counter friction surface, which is also referred to as the net friction surface, remaining sufficiently large. to ensure proper operation of the slipper clutch lining.

A preferred exemplary embodiment of the slip clutch lining is characterized in that the wear absorption area in the friction surface is shielded from the friction contact environment radially on the outside with a friction contact surface that is closed in a circumferential direction. This frictional contact surface does not have any recesses and, in frictional contact with the counter-friction surface, creates a seal with respect to the frictional contact environment. This reliably prevents the undesired entry of a medium, such as a lubricating medium from the dual-mass flywheel.

A further preferred exemplary embodiment of the slipping clutch lining is characterized in that the abrasion absorption area in the friction surface is shielded from the friction contact environment radially on the inside with a friction contact surface that is closed in the circumferential direction. Here, too, an undesired penetration of medium, in particular of lubricating medium from the dual-mass flywheel, in frictional contact with the counter-friction surface is reliably prevented.

Another preferred exemplary embodiment of the slip clutch lining is characterized in that the friction contact surfaces that are closed in the circumferential direction have the shape of circular rings. Thus, the friction surface, which is preferably essentially designed as a circular ring, is subdivided into three circular rings, so to speak. A middle circular ring serves to represent the abrasion receiving area equipped with the at least one recess. This abrasion absorption area, designed as a circular ring, is radially inward and radially outward by the frictional contact surfaces, also designed as circular rings, with respect to the frictional contact environment sealed when the friction surface is in contact with the counter friction surface. The abrasion receiving area advantageously has a radial dimension at least four times the radial dimension of one of the annuli, in particular at least four times the sum of the radial dimensions of the two annuli constituting the friction contact surfaces. On the one hand, sufficient space is provided to absorb the abrasion. In addition, it is nevertheless prevented that medium, in particular lubricating medium, gets into the frictional contact.

Another preferred embodiment of the slip clutch lining is characterized in that the abrasion absorption area in the friction surface is designed in such a way that with a relative angle of rotation between the friction surface and the counter friction surface of at least thirty degrees, the counter friction surface in the entire abrasion absorption area in the radial direction of the recess once is painted over. Effective removal of the abrasion from the frictional contact is thus ensured in a simple manner. For example, at least one groove is arranged in a thirty degree annulus sector, which groove extends in a radial direction over the entire radial extent of the abrasion receiving area.

A further preferred exemplary embodiment of the slip clutch lining is characterized in that the abrasion absorption area in the friction surface comprises at least one groove. The abrasion receiving area in the friction surface can also comprise several grooves. The grooves can be designed differently. It is essential that their shape and size is sufficient to absorb the abrasion that occurs during operation of the slip clutch cover. In addition, the remaining net friction surface, which comes into frictional contact with the counter-friction surface during operation of the slip clutch lining, must be large enough to ensure trouble-free operation of the slip clutch.

A further preferred exemplary embodiment of the slip clutch lining is characterized in that the groove in the friction surface has a sinusoidal course. In this way, the counter friction surface can be completely swept over over its radial extent, particularly advantageously with only a single groove in the abrasion recording area. A further preferred exemplary embodiment of the slip clutch lining is characterized in that the abrasion absorption area comprises radial grooves in the friction surface. The radial grooves are distributed advantageously evenly ver in the circumferential direction. The desired function can be ensured via a suitable number and size of the radial grooves.

A further preferred exemplary embodiment of the slip clutch lining is characterized in that the abrasion absorption area in the friction surface comprises grooves which are arranged at an angle to the radials. Depending on the design, different types of grooves can also be combined with one another. It is essential that the grooves are only arranged in the abrasion receiving area and not in the friction contact surfaces.

The invention also relates to a dry-running slip clutch with at least one slip clutch lining as described above. The dry-running slip clutch is advantageously combined with a torsional vibration damper or a dual-mass flywheel.

The dry-running slipping clutch is used in particular in a drive train of a motor vehicle as a torque limiter.

Further advantages, features and details of the invention result from the following description, in which various exemplary embodiments are described in detail with reference to the drawing. Show it:

FIG. 1 shows a section of a slip clutch lining in plan view;

FIG. 2 shows a view of a section along the line II-II from FIG. 1, the slip clutch lining being in contact with a counter-friction partner;

FIG. 3 shows a representation similar to that in FIG. 1 according to a second exemplary embodiment; and Figure 4 is a sectional view along line IV-IV in Figure 3.

In the figures 1 to 4 are two embodiments of a slip clutch lining 1; 21 shown in different views. The slip clutch lining 1 is equipped with a friction surface 2 and represents a friction partner 3.

FIG. 2 shows that the friction partner 3 interacts with the friction surface 2 in a dry-running slip clutch, which is not shown in detail, with a counter friction partner 4 that has a counter friction surface 5 . If the friction surface 2 is in contact with the counter friction surface 5, then frictional contact between the friction partner 3 and the counter friction partner 4 is closed.

The friction surface 2 has the shape of a circular ring with an inner diameter 6 and an outer diameter 7. A wear receiving area 8 is limited in the friction surface 2 radially inwardly by a frictional contact surface 9 and radially outwardly by a surface 10 Reibkontaktflä. When the frictional contact is closed, the slipping clutch lining 1; 21 with its frictional contact surfaces 9, 10 on the counter friction surface 5. This prevents a medium, such as a lubricating medium, from entering the abrasion receiving area 8 .

In the case of the slipping clutch lining 1 illustrated in FIGS. 1 and 2, the abrasion receiving area 8 comprises recesses 11, 12, 13 which are designed as radial grooves 14, 15, 16. The radial grooves 14 to 16 are evenly spaced from each other in the circumferential direction.

The number and shape of the radial grooves 14 to 16, in particular in connexion with the depth of the radial grooves 14 to 16, is selected so that during operation of the slip clutch lining 1 occurring abrasion in the radial grooves 14 to 16 is melted together. This ensures that the abrasion does not negatively affect the function of the slip clutch, in particular the coefficient of friction of the slip clutch. At the same time prevent the frictional contact surfaces 9, 10 that medium, in particular Lubricating medium, the frictional contact between the friction surface 2 and the counter friction surface 5 negatively affected.

The slipping clutch lining 21 shown in FIGS. 3 and 4 comprises only a single recess 19. The recess 19 is designed as a sinusoidal groove 20. FIG. The sinusoidal groove 20 extends over the entire circumference in the abrasion receiving area 8 of the slip clutch lining 21.

The recesses 19; 11 to 13 are in the abrasion absorption area 8 of the slip clutch lining 1; 21 is designed and arranged in such a way that the entire friction surface 2 or counter friction surface 5 can be swept over in its radial extent over a twist angle that is not too large, for example a twist angle of thirty degrees, in order to be able to remove the abrasion-related wear particles on each friction radius .

List of reference symbols Slip clutch lining Friction surface Friction partner Counter friction partner Counter friction surface Inside diameter Outside diameter Abrasion absorbing area Friction contact surface Friction contact surface Recess Recess Recess Radial groove Radial groove Radial groove Recess Nut Slip clutch lining

Claims

patent claims

1. Slipping clutch lining (1; 21) with a friction surface (2), which comes into frictional contact with a counter-friction surface (5) during operation, with abrasion occurring, characterized in that the friction surface (2) has at least one recess (11- 13; 19) equipped with abrasion absorption area (8), which is used to take up the abrasion and which, in frictional contact with the counter friction surface (5), is sealed off media-tight with respect to a frictional contact environment.

2. Slip clutch lining according to claim 1, characterized in that the abrasion receiving area (8) in the friction surface (2) is shielded radially on the outside with a friction contact surface (10) closed in a circumferential direction from the friction contact environment.

3. Slip clutch lining according to claim 2, characterized in that the abrasion receiving area (8) in the friction surface (2) is shielded from the friction contact environment radially on the inside with a friction contact surface (9) closed in the circumferential direction.

4. Slip clutch lining according to claim 3, characterized in that the frictional contact surfaces (9, 10) which are closed in the circumferential direction have the shape of circular rings.

5. Slipping clutch lining according to one of the preceding claims, characterized in that the abrasion absorption area (8) in the friction surface (2) is designed in such a way that at a relative angle of rotation between the friction surface (2) and the counter-friction surface (5) of at least thirty degrees, the counter-friction surface (5) is swept over once in the radial direction by the recess (11-13; 19) in the entire abraded area (8).

6. Slip clutch lining according to one of the preceding claims, characterized in that the abrasion receiving area (8) in the friction surface (2) comprises at least one groove (20).

7. slip clutch lining according to claim 6, characterized in that the groove (20) in the friction surface (2) has a sinusoidal course.

8. Slip clutch lining according to one of the preceding claims, characterized in that the abrasion receiving area (8) in the friction surface (2) includes Ra dialnuten (14-16).

9. Slip clutch lining according to one of the preceding claims, characterized in that the abrasion receiving area (8) in the friction surface (2) comprises grooves which are arranged obliquely to the radials.

10. Dry-running slip clutch with at least one slip clutch lining (1; 21) according to any one of the preceding claims.