FR2916028A1 - FRICTIONAL MEMBER OF A CLUTCH FRICTION DISC. - Google Patents

Abstract

Friction member for a dry clutch disk comprising a friction lining (3) adhered to an intermediate part (6) where holes are formed after bonding said lining and said intermediate part to allow fixing by rivets (7), and comprise a first portion of thickness e1 in the lining (3) and of constant diameter d1 and a second portion of thickness e2 + e3 and of diameter less than d1, so as to constitute a counterface ( 31) for supporting a rivet end after assembly (7) where the thickness e2 of the liner in the second portion of the holes is between 2 and 15% of the total thickness e1 + e2 of the liner friction (3). Associated method.

Description

The present invention relates to a friction member of a disc of

  dry clutch friction, especially for a motor vehicle. In the usual manner, a clutch friction disk is intended to be mounted on a shaft said led being inserted between a reaction plate and a pressure plate of a clutch integral in rotation with a shaft said to drive. During a clutch operation, said pressure plate clamps the friction disk against said reaction plate. Although applicable to any type of friction disc, the invention is of particular interest for a so-called progressive clutch friction disc.

  A progressive clutch friction disk, as for example represented in FIGS. 7 and 8 of the patent FR 1 304 067, comprises a substantially flat ring-shaped metal support, commonly called the progressive disk, the outer periphery of which is fragmented in such a way to present fins secured to, or reported on, said crown. These fins are alternately folded so as to include staggered portions, on either side of a mean plane, capable of being deformed elastically under the effect of a clamping force. A crown-shaped friction liner is attached to each side of said support by being secured by any suitable means to some of said offset portions.

  During tightening, the fins deform elastically, the offset portions coming closer to each other. This results in a progressive effect in the clamping of the friction disc and therefore in the transmission of the torque during a clutch maneuver, which allows to considerably reduce the jolts.

  In order to increase their elasticity, said fins have cutouts and openings. In operation, the friction linings are subjected to a significant heating that can reduce the surface hardness.

  Under the effect of the clamping force to which the linings are subjected, the latter are then frequently subject to a phenomenon comparable to inlaying said fins in the linings, which causes a loss of elasticity and consequently progressivity. It has already been proposed to avoid this disadvantage to interpose a spacer, in particular a steel strip or foil glued to each gasket between the gasket and said fins.

  Such an arrangement which is visible in Figures 7 and 8 of the aforementioned French Patent 1 304 067, gives satisfaction. In order to produce such a friction disc and according to the known techniques, the friction lining and the intermediate part are drilled separately and subsequently assembled by gluing. In the usual manner, the gaskets glued to the intermediate pieces are assembled to the progressive disk by means of rivets. In a manner known per se, the rivets comprise two ends, generally a head not or slightly deformed during assembly and an end whose diameter increases by crushing during assembly, and a body of diameter less than that of the ends. rivets after assembly. In general, the diameters of each end of the rivets after assembly are substantially identical to each other. It is appropriate that the ends of the rivets after assembly are supported in a material portion of each of the parts to be assembled. Two assembly methods are used to connect a glued lining with a spacer to a progressive disk which is detailed using the references shown in Figure 3a where a liner 3 is glued to a spacer part 6. The liner 3 comprises a hole, with a wide portion 32 of constant diameter dl and thickness and sufficiently large to pass a rivet end after assembly and may comprise a narrower portion 33 of diameter d2 and thickness e2 to allow the displacement of the body of rivet without allowing passage of the rivet end after assembly. At the bottom of the widest part 32 is a counter-face 31 on which the rivet end can be supported after assembly. The facing face 31 has a shape complementary to the rivet end after assembly chosen and can be flat or conical. The intermediate piece 6 of thickness e3 comprises a hole 61 of diameter d3 (not shown) allowing the displacement of the rivet body without allowing the passage of the rivet end after assembly and is disposed before bonding with respect to the hole of the seal . According to a first known method of assembly, the counter-face 31 is formed in the thickness of the lining. The inventors have found that to thereby pierce a liner without damaging it, it is necessary to maintain a significant thickness e2 of material. It is estimated that a thickness e2 of at least 20% of the total thickness (el + e2) of the lining must be maintained. This thickness e2 is determined between the part of the facing face furthest from the surface of the lining intended to be assembled with the intermediate part and this surface of the lining. For example, a standard trim for passenger car applications has a thickness of 3 mm and a distance e2 of 0.9 mm, and a current trim for industrial vehicle applications, especially heavy goods vehicles, has a thickness of 4 mm. , 5 mm and a distance e2 of 1.3 mm, or even 1.45 mm and even 1.6 mm. This minimum thickness e2, although advantageous in terms of piercing quality, limits the material thickness of the lining which can be worn during the life of the friction disc. Indeed, the depth of wear is limited by the position of the rivet end after assembly which must not come into contact with the clutch plate at the risk of very significant damage. The thus pierced lining is then bonded to an intermediate piece 6 previously drilled with holes of diameter d3 whose axis coincides substantially with the axis of the holes drilled in the liner.

  According to a second known method of assembly, a hole of constant diameter d1 is drilled over the entire thickness of the liner, which is then bonded to an intermediate part 6 previously drilled with holes of diameter d3 (not shown) of which axis coincides substantially with the axis of the holes drilled in the liner. In this embodiment, the rivet end after assembly only bears on the insert and the packing does not contribute to the strength of the connection to the friction disc. This generally results in a weakening of this bond in comparison with the previous solution, particularly sensitive during rivet shaking tests to ensure the holding centrifugation. The object of the present invention is to overcome the above drawbacks and to provide a solution to reconcile the wear of the largest packing possible while allowing the lining to contribute to the connection to the friction disc. This object is achieved by a friction member of a dry clutch disk comprising a friction lining glued to an intermediate part where holes are formed after bonding said lining and said intermediate part to allow fixing by rivets. , and comprise a first portion of thickness and in the lining and of constant diameter d1 and a second portion of thickness e2 + e3 and of diameter less than dl, so as to constitute a facing face for the support of a rivet end after assembly where the thickness e2 of the lining in the second part of the holes is between 2 and 15% of the total thickness and + e2 of the friction lining.

  Thanks to this configuration, the packing can be used more than in the known solutions which make the packing contribute to the connection to the friction disk. The diameter of the hole in the second portion of thickness e2 + e3 may be constant and equal to the diameter d2 of the hole opening on the face of the intermediate part opposite the face bonded with the liner. In this case the facing face is flat and parallel to the friction surface of the seal (located on the opposite side of the face of the seal adhered to the insert) to receive rivet ends after assembly with flat bearing faces . The diameter of the hole in the second portion of thickness e2 + e3 may also decrease from a value d1 to a value d2 corresponding to the diameter of the hole opening on the face of the intermediate part opposite the face glued to the liner. Such a configuration makes it possible to receive rivet ends after assembly with tapered bearing faces, thanks to a conical face face. The lining is preferably made of continuous yarns impregnated with one or more resin (s) containing fillers. Preferably the yarns comprise filaments of glass fibers, organic fibers, metal fibers. The son can be advantageously lobed. According to one embodiment of the friction member according to the invention, the intermediate piece is a metal sheet. In the case of tapered faces, the angle α of the cone with a surface parallel to the friction surface of the liner may be between 30 and 30. In the case of tapered faces, the latter may be located wholly or only partly in the liner. In general, it will be noted that the tolerances on the angles of the counterbore faces are of the order of plus or minus 3 degrees. The invention also relates to a dry clutch friction disc comprising a progressive disc and at least one friction member above. The progressive disc may include progressive areas. These may comprise fins 5 capable of axial elastic deformations. The invention also relates to a method of manufacturing a friction member of a dry clutch friction disc comprising a friction lining and an intermediate part where: - the friction lining is bonded to the intermediate part; the previous glued assembly is machined so as to form fixing holes for rivets where the holes comprise a first portion of thickness and in the lining and of constant diameter d1 and a second portion of thickness e2 + e3 and of diameter d2 less than d1 so as to constitute a counterbore face for the support of a rivet end after assembly where the thickness e2 of the lining in the second part of the holes is between 2 and 15 percent of the total thickness and + e2 of the friction lining. Preferably, the machining is done with a cutting tool but one can also consider for example a sinking or an erosion technique. The use of a cutting tool makes it possible, for example, to use drilling, milling or any other appropriate technique. According to one embodiment of the method according to the invention, a cutting tool is used for machining the friction lining and the intermediate part bonded, said cutting tool comprising a first part for removing material in the lining and the workpiece. intermediate and forming a through-hole with a diameter d2 on the outer surface, opposite the surface adhered to the liner, of the insert and said cutting tool also comprising a second portion of diameter dl for removing material in at least the liner and forming a counterface. The second diameter portion d1 of the lapping cutting tool may comprise an edge perpendicular to the axis 10 of the cutting tool to form a planar facing face. The second diameter portion d1 of the countersink cutting tool may comprise an edge inclined relative to the axis of the cutting tool to form a conical countersunk face. The counter-cutting tool may for example be a countersink bit or a countersink. The invention also relates to a method of manufacturing a friction disc comprising a step of supplying a friction member above, followed by a rivet fixing step of said friction member to a progressive disc. The invention will be detailed below by way of nonlimiting examples illustrated by the following figures: FIG. 1: schematic drawing of a friction disc; - Figure 2: schematic sectional view along A-A assembled components of a friction disc according to the invention; 3a-c: schematic sectional view of a portion of the friction member according to three variants of the invention. - Figure 4: schematic sectional view along B-B of assembled components of a friction disc according to the invention. For reasons of clarity, the dimensions of the various elements shown in these figures are not in proportion to their actual dimensions. In all the figures, identical references correspond to identical elements. In the context of the invention, the terms axial, axially and radial, radially are defined in relation to the axis of rotation of the friction disc. Axial is understood to mean a direction parallel to this axis of rotation and radial is understood as aiming at a direction perpendicular to this axis and passing through this axis. FIG. 1 represents a diagrammatic front view of a friction disk 1 comprising a hub 5 capable of being secured to a driven shaft, a friction lining 3 and represents in dotted lines a progressive disk 2. Elastic means, in particular springs 4, are arranged to allow damping and / or filtration of the vibrations of the shaft leading to the driven shaft.

  Figure 2 shows a section, according to A-A of Figure 1, a friction disc according to the invention, wherein the components appear arranged after mounting. An insert 6 is disposed on each side of the progressive disc 2, between said progressive disc and a liner 3. The liner comprises countersunk holes with a portion 32 large enough to receive a rivet end after assembly 7 and a narrower portion 33 to allow movement of the rivet body without allowing passage of the rivet end after assembly. At the bottom of the widest part 32 is a counter-face 31 on which the rivet end can be supported after assembly. The part of the insert 6 intended to be in contact with the area of the hole 33 of the liner also comprises a hole 61 of the same diameter, as well as the progressive disc 2 which comprises a hole 21. The insert 6 and the liner 3 located on the other side of the progressive disc 2 comprise holes respectively 62 and 34 may pass a rivet end after assembly. A rivet 7 is crimped to secure the lining previously glued to the insert and the progressive disc by arranging for example a head of this rivet on one side in contact with the facing face 31 and crushing the other end of this rivet on the progressive disc, the body of the rivet passing through the holes 33, 61, 21.

  After assembly, a distance e between the two intermediate parts results from the presence of progressivity zones in the progressive disk, in particular in the form of vanes elastically axially. Such fins appear in dashed lines in FIG. 1 and are presented in section in FIGS. 2 and 3. In this case, the fins are attached to a sheet previously cut out and formed to form the progressive disc 2. FIGS. enlarged in section of a portion of the friction member according to AA, so as to illustrate different forms of holes according to the invention for fixing by rivet.

  FIG. 3a illustrates the case where the lining comprises a planar facing face. The hole for rivet attachment comprises a first portion of thickness and in the lining, of constant diameter d1 and a second portion of thickness e2 + e3 of constant diameter d2, less than d1, and where e2 is the thickness of the second part in the liner and e3 the thickness of the intermediate part 6. Figures 3b and c illustrate two embodiments where the liner comprises a conical countersink face forming an angle with a surface parallel to the friction surface of the filling. The hole for allowing rivet attachment comprises a first portion of thickness and in the constant diameter lining dl and a second portion of thickness e2 + e3 decreasing in diameter from dl to d2 corresponding to the diameter of the hole opening on the face of the intermediate part 6 opposite to the face glued to the liner 3. In the case of the embodiment shown in FIG. 3b, the facing face 31 is situated entirely in the liner 3. The second portion of thickness e2 + e3 of the hole of the friction member is broken down into a part in the lining of thickness e21 of decreasing diameter d1 to d2, in one part in the lining of thickness e22 of constant diameter d2 and in part in the intermediate part of e3 thickness of constant diameter d2. The thickness e2 of the lining in the second part of the hole is e2 = e21 + e22. In the case of the embodiment shown in FIG. 3c, the counter-face 31 is situated partly in the lining 3 and partly in the intermediate part 6. The second portion of thickness e2 + e3 of the hole of the friction is broken down into a part in the lining of thickness e2 of decreasing diameter d1 to d12, in part in the intermediate part of thickness e31 of decreasing diameter d12 to d2 and in part in the intermediate part of thickness e32 of constant diameter d2. The thickness of the insert 6 is e3 = e31 + e32.

  FIG. 4 shows a diagrammatic section, along BB of FIG. 1, of the same friction disc as represented in FIG. 2. It is easy to see that the progressive disc 2 comprises fins, a part of which is in sliding contact with a first intermediate part 6 a second part is fixed to the second intermediate part 6, a third part to the first intermediate part 6 and a fourth part is in sliding contact with the second intermediate part 6. As a result, according to this view, an undulating form of this progressive disc area that ensures the progressiveness of the friction disc. The following examples given in Table 1 illustrate in a nonlimiting manner embodiments of the invention compared with known embodiments. Face of tapered flat face Thickness EX 1 EX 2 EX 3 EX 4 EX 5 (mm) and + e2 3 3 3 3 3 and 2, 1 2, 6 2, 1 2, 6 2, 8 e2 0, 9 0, 4 0, 9 0, 4 0, 2 e21 0 0 0, 7 0, 3 0, 2 e22 0, 9 0, 4 0, 2 0, 1 0 e3 0.3 0.2 0.3 0.2 0, 2 e31 0 0 0 0 0, 1 e32 0, 3 0, 2 0, 3 0, 2 0, 1 e2 / (el + e2) 30 13 30 13 7% Table 1 The EX1 and EX3 are comparative examples where the gaskets are previously drilled and then assembled to a previously pierced insert. In the case of EX1 the facing face is flat while it is tapered according to EX3. It can be seen that the thickness e2 of the lining in the second part of the holes is of the order of 30% of the total thickness of the lining. The EX2, EX4 and EX5 are examples according to the invention where the linings are glued to a spacer before drilling. In the case of EX2 the counterbore face is flat whereas it is conical in the case of EX4 and EX5. The tapered face of EX4 is located entirely in the packing, while that of EX5 is partly in the packing and partly in the insert. Tests have shown that the embodiments corresponding to EX2, EX4, EX5 offered resistance to centrifugation of the same order of magnitude as those corresponding to EX1 and EX3, while allowing greater wear of the liners before the plateau pressure is likely to be damaged on the rivet ends after assembly for fixing the friction member to the progressive disc.

  The invention is not limited to these types of embodiments and must be interpreted in a nonlimiting manner and encompassing any equivalent embodiment.

Claims (16)

  A friction member of a dry clutch disk comprising a friction lining (3) adhered to a spacer (6) where holes are formed after bonding said liner and said intermediate member to allow attachment by rivets (7), and comprise a first portion of thickness and in the lining (3) and of constant diameter dl and a second portion of thickness e2 + e3 and of diameter less than dl, so as to constitute a face of counterbore (31) for supporting a rivet end after assembly (7), wherein the thickness e2 of the liner in the second part of the holes is between 2 and 15% of the total thickness and + e2 of the friction lining (3).   2. Friction member according to the preceding claim, characterized in that the intermediate piece (6) is a metal sheet,   3. Friction member according to any one of the preceding claims, characterized in that the counterface (31) is flat and parallel to the friction surface of the liner.   4. Friction member according to one of claims 1 or 2 characterized in that the countersink face (31) is conical.   5. Friction member according to claim 4 characterized in that the angle of the cone with a surface parallel to the friction surface of the liner is between 3 and 30. 30   6. Friction member according to one of claims 4 or 5 characterized in that the countersink face (31) is present in the friction lining (3).   7. Friction member according to one of claims 4 or 5 characterized in that the facing face (31) is located partly in the friction lining (3) and partly in the insert (6).   8. dry clutch friction disc comprising a progressive disc (2) and at least one friction member according to any one of claims 1 to 7.   Clutch friction disc according to the preceding claim, characterized in that the progressive disc (2) comprises progressive zones.   10. Clutch friction disk according to the preceding claim, characterized in that the progressivity zones comprise fins capable of axial elastic deformations.   11. A method of manufacturing a friction member of a dry clutch friction disc comprising a friction lining (3) and a spacer (6) characterized in that: - the friction lining is glued. (3) on the intermediate piece (6), the preceding glued assembly (3 + 6) is machined to form fixing holes for rivets (7) where the holes comprise a first thickness portion and 25 in the lining (3) and of constant diameter d1 and a second portion of thickness e2 + e3 and of diameter d2 less than d1 so as to constitute a counter-face (31) for the support of a rivet end after assembly (7) wherein the thickness e2 of the liner in the second portion of the holes is between 2 and 15 percent of the total thickness and + e2 of the sill liner (3).   12. A method of manufacturing a friction member according to the preceding claim characterized in that a cutting tool is used for machining the friction lining (3) and the intermediate part (6) bonded, said cutting tool comprising a first portion for removing material from the liner (3) and the spacer (6) and forming a through-hole with a diameter d2 on the outer surface, opposite to the surface adhered to the liner, of the insert (6) and said cutting tool also comprising a second portion of diameter d1 for removing material in at least the liner (3) and forming a counter-face (31).   13. A method of manufacturing a friction member according to the preceding claim characterized in that the second diameter portion dl of the cutting tool includes a cutting edge perpendicular to the axis of the cutting tool to form a forming flat face (31).   14. A method of manufacturing a friction member according to claim 12 characterized in that the second diameter portion dl of the cutting tool includes a cutting edge inclined relative to the axis of the cutting tool for counterboring. forming a tapered face (31).   15. A method of manufacturing a friction disc comprising a step of supplying a friction member according to any one of claims 1 to 10 followed by a step of fixing by rivet said friction member to a progressive disc (2). 16