This application is related to Patent Application No. 1650547 filed Jan. 25, 2016 in France, the disclosure of which is incorporated herein by reference and to which priority is claimed.
The present invention relates to a release bearing, in particular for a motor vehicle.
A clutch conventionally has a reaction plate, a movable pressure plate, and a friction disk mounted between said reaction and pressure plates. Movement of the pressure plate is controlled by a diaphragm, controlled in turn by a release bearing. The friction disk is rotationally connected to an input shaft of a gearbox, and the reaction plate is, for example, rotationally integral with a flywheel connected to the driving shaft, for example a crankshaft of an internal combustion engine.
The release bearing is controlled by an actuator driven by an electronic computer so as to exert a predetermined force on the diaphragm and displace it a given distance.
The pressure plate is thus movable between an engaged position in which the friction disk is clamped between said pressure and reaction plates, and a disengaged position in which the friction disk is released.
It is known to use a release bearing having a tubular body intended to be passed through by the input shaft of the gearbox, and an actuator having a tubular movable part, also called a “piston,” engaged into an annular pressure chamber of the body and movable in translation parallel to the axis of the body. The piston of the actuator is intended for actuation of a clutch diaphragm, for example by means of a ball bearing. The piston is thus movable between an engaged position in which an engine torque is transmitted to the input shaft of the gearbox, and a disengaged position in which no torque is transmitted to that shaft.
A release bearing of this kind thus has an actuator of the concentric slave cylinder (CSC) type.
A release bearing of this kind is known in particular from the document FR 2 786 837, in the name of the Applicant.
The tubular body of this release bearing has a fluid supply orifice opening into the pressure chamber and attached to a supply conduit.
The use of a conduit and of appropriate attachment means is a laborious solution, and requires complex assembly.
An object of the invention is in particular to provide a simple, efficient, and economical solution to this problem.
It proposes for that purpose a release bearing, in particular for a motor vehicle, having a body delimiting a pressure chamber, and a piston mounted slidingly in said chamber, said piston being intended to actuate a diaphragm as it slides with respect to the body, wherein said body has at least one supply orifice opening at one end into the pressure chamber and at another end into a supply groove configured on an outer surface of the body, sealing means being located on either side of said channel.
The release bearing can then be associated on the one hand with a gearbox housing in which a fluid supply channel, opening opposite the supply groove, is machined. Sealing means allow the fluid, intended to supply the pressure chamber and emerging from said supply channel, to be confined in the supply groove, the fluid then being directed toward the pressure chamber through the corresponding orifice of the body of the release bearing.
The pressure chamber and the piston can be annular.
The sealing means can have at least two O-rings located on either side of the supply groove.
The O-rings thus extend annularly on each side of the supply groove, so as to prevent the fluid contained in said supply groove from escaping at the interface between the gearbox housing and the body.
In this case, each O-ring can be received in a groove of the body.
The body can be annular and can have several supply orifices, distributed over a single circumference and each opening into the supply groove and into the pressure chamber.
The supply groove then performs the function of a fluid collector in order to distribute that fluid uniformly through the various supply orifices.
The piston can be annular and can have a first end mounted in the pressure chamber of complementary annular shape, and a second end equipped with a bearing, for example a thrust ball bearing, intended to be axially inserted between the diaphragm and the piston.
The invention also relates to an assemblage having a gearbox housing and a release bearing of the aforementioned kind, said housing having a receptacle in which the body of the release bearing is at least partly mounted, said housing having a fluid supply channel opening at the inner wall of said receptacle, opposite the supply orifice or the supply groove of said body.
The fluid-conveying connection between the gearbox housing and the release bearing is thus established directly, without the use of conduits or additional connectors, which allows assembly to be simplified and the cost of such an assemblage to be reduced.
The invention will be better understood, and other details, characteristics, and advantages of the invention will emerge, upon reading the description below provided as a non-limiting example referring to the attached drawings, in which:
Inner wall 4 internally delimits a passage 7 intended to be passed through by an input shaft of the gearbox (not depicted).
The rear end of radially outer wall 3 has three annular grooves 8, 9, 10 spaced axially away from one another, namely a middle groove 8 and a front groove 9 and rear groove 10 located respectively on either side of middle groove 8. O-rings 11 made of elastomer are mounted in front and rear grooves 9, 10.
Body 2 has cylindrical supply orifices 12, extending radially and opening into the bottom of middle groove 8 and at radially inner surface 13 of outer wall 3. Orifices 12 are, for example, twelve in number and are regularly distributed over the entire periphery.
Outer wall 3 furthermore has, near its front end, an annular radial rim 14 from which fastening tabs 15 or lobes extend radially outward. Fastening tabs 15 have holes 16 allowing the engagement of fastening screws intended to ensure fastening of the body to a gearbox housing 17.
A piston 18 is engaged into the annular receptacle. Piston 18 is annular and has a rear part 19 engaged into said annular receptacle 6, and a front part 20 extending radially toward the inside. The rear end of piston 18 is equipped with sealing means, for example an annular lip seal 21, intended to close off a pressure chamber 22 (
Piston 18 can be equipped with sealing means at its radially outer surface, for example segments 23 that come into abutment against inner surface 13 of outer wall 3 of body 2.
A thrust-type bearing 24 is mounted at the front end of piston 18. This bearing 24 has a front ring 25 intended to face toward a diaphragm 30 (schematically shown in
A portion of clutch housing 17 is visible in
The diameter of the mouth of supply channel 29 at the corresponding surface is slightly larger than the axial dimension of middle groove 8.
During operation, the fluid under pressure can be delivered into pressure chamber 22 through channel 29 of gearbox housing 17, middle groove 8, and supply orifices 12 of body 2. When the pressure in pressure chamber 22 is lower than a predetermined value, the axial return force exerted by the diaphragm on bearing 24 and on piston 18 is such that piston 18 is in its retracted position illustrated in
Conversely, when the pressure exerted in pressure chamber 22 exceeds the threshold value, piston 18 is displaced forward, pushing on bearing 24 and causing actuation of the diaphragm. This deployed position of piston 18 is illustrated in
The invention thus allows a simple and effective fluid-conveying connection between supply channel 29 of clutch housing 17 and release bearing 24. Groove 8 allows the fluid to be distributed homogeneously through the various orifices 12 into pressure chamber 22.
Number | Date | Country | Kind |
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16 50547 | Jan 2016 | FR | national |
Number | Name | Date | Kind |
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4561531 | Young | Dec 1985 | A |
5865288 | Thomire | Feb 1999 | A |
6062366 | Herzig | May 2000 | A |
6085885 | Herzig | Jul 2000 | A |
20010011626 | Meyer | Aug 2001 | A1 |
20150247575 | Welter | Sep 2015 | A1 |
Number | Date | Country |
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1939987 | Feb 1971 | DE |
2730796 | May 2014 | EP |
2786837 | Jun 2000 | FR |
2227293 | Jul 1990 | GB |
Number | Date | Country | |
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20170211634 A1 | Jul 2017 | US |