FR2713178A1 - Drive mechanism for windscreen wiper blade - Google Patents

Abstract

The mechanism has a drive shaft (12) which rotates inside a fixed bearing (14) and on one extremity (24) of which is fixed the first part (28) of the drive head (30). This has a pivot (32) with an axis (Y-Y) arranged perpendicular to the rotational axis (X-X) of the drive shaft. A second part (34) of the drive head is affixed to the first. This carries the hinge axis for the wiper arm and a mechanism for oscillating the second part. This mechanism comprises a cam (52) and/or a cam follower (50) which is fixed in rotation with the second part of the drive head.

Description

 The present invention relates to a mechanism for rotating the rotation of a wiper arm belonging to a wiper installation of a motor vehicle.

 The invention relates more particularly to a drive mechanism making it possible to modify the orientation of the wiper blade carried by the wiper blade articulated at the end of the wiper arm as a function of the position occupied the wiper arm relative to the windshield along its wiping stroke.

 Such means for varying the orientation of the blade are indeed desirable in the case where the windshield to be wiped has a significant curve so as to maintain a substantially constant orientation of the plane of the wiping blade relative to the plane of the portion of the glass to be wiped so that the position of the wiping blade is permanently as close as possible to the optimal position for the effectiveness of one wiping.

 I1 has already been proposed in document EP-A10294526 a drive mechanism of the type comprising a drive shaft which is rotatably mounted in a fixed bearing and on one end of which is fixed a first part of a drive head which comprises a pivot whose axis is substantially perpendicular to the axis of rotation of the drive shaft and on which an oscillating second part of the drive head is mounted which receives an axis of articulation of the arm of wiper, and of the type comprising means for causing the oscillation of the second part of the drive head relative to the first part of the drive head as a function of the rotation of the first part of the head d drive around the axis of the drive shaft.

 In this document, the means for causing the oscillating movements are of a particularly complex structure and in particular comprise gear and worm devices which are particularly expensive to produce, complex to assemble and unreliable.

 The object of the present invention is to propose a drive mechanism of the type described and mentioned in this document, the means for causing the oscillating movements of the second part of the drive head are of a simple design and economic.

 To this end, the invention provides a drive mechanism characterized in that said means comprise a cam, or respectively a cam follower element, fixed in rotation and a cam follower element, or respectively a cam, linked in rotation with the second part of the drive head.

According to other features of the invention
- The cam is produced in the form of an annular track formed on the surface of a cam disc traversed in its center by the drive shaft;
- The cam follower element comprises two diametrically opposite elements arranged on either side of the drive shaft and each of which cooperates by its free end with a portion facing the cam;
- according to a first solution, the cam is fixed and the cam follower element is carried by a portion facing the underside of the second part of the drive head
- according to a second solution, the cam follower element is fixed and the cam is carried by a portion facing the underside of the second part of the drive head
the cam follower element comprises rolling means which cooperate with the cam
- Means are provided for relative angular indexing of the cam relative to the cam follower element.

Other characteristics and advantages of the invention will appear on reading the detailed description which follows for the understanding of which reference will be made to the accompanying drawings in which
- Figure 1 is a sectional view, through a plane passing through the axes of the drive shaft and the pivot, of a first embodiment of a drive mechanism according to the teachings of the invention;
- Figure 2 is a detail view along arrow F of Figure 1;
- Figure 3 is a view similar to that of Figure 1 which illustrates a second embodiment of a drive mechanism according to the teachings of the invention;
- Figure 4 is a top view of the second part of the drive head illustrated in Figure 3;
- Figure 5 is a partial sectional view along line 5-5 of Figure 3; and
- Figure 6 is a partial sectional view along line 6-6 of Figure 4.

 There is shown in Figure 1 a drive mechanism 10 of a wiper arm (not shown) which comprises a drive shaft 12 which is rotatably mounted in a fixed bearing 14 with the interposition of two sockets bearing 16 for example in bronze.

 The body of the bearing 14 is fixed to a part 18 of the body structure of a motor vehicle.

 The lower end 20 of the drive shaft 12 is connected to a return lever 22 which, by means of a transmission linkage (not shown), is capable of driving the shaft 12 in a movement of alternating rotation around its axis xx.

 The free upper end 24 of the drive shaft 12 has a fluted conical portion and a threaded portion 26 which allow mounting and immobilization in rotation on the end 24 of a first part 28 of a head d training 30.

 The first part 28 comprises a pivot 32 whose axis YY is substantially perpendicular to the axis XX of the drive shaft 32 and which rotates a second part 34 of the drive head 30 with possibly the interposition of a socket 36, for example in bronze (see FIG. 3).

 The pivot 34 is received in a bore 38 of the main body 40 of the second part 34 of the drive head.

The body 40 is extended longitudinally, to the right when considering FIG. 1, by a front portion 42 which has a bore 44 intended to receive an axis of articulation of the wiper arm and which extends in a direction substantially perpendicular to the axes
XX and YY.

 The body 40 of the second part 34 of the drive head 30 is also extended on the opposite side by a control plate 46 which has an oblong hole 48 for the passage of the drive shaft 12.

 The second part 34 of the drive head can thus oscillate around the axis YY, relative to the first part 28 of the drive head, on either side of a neutral position illustrated in FIGS. 1 and 2.

 According to the invention, the means for controlling the oscillation movements of the second part 34 relative to the first part 28 of the drive head 30 are constituted by cam follower elements 50 which cooperate with a cam 52.

 In the first embodiment illustrated in Figures 1 and 2, two cam follower elements 50 arranged diametrically opposite on either side of the drive shaft 12 are fixed to the plate 46 and protrude axially towards the bottom from the underside 54 of the latter so that their substantially hemispherical free ends 56 are in contact with a cam 52 produced in the form of an annular track on the upper face of a cam disc 60 which comprises a skirt cylindrical lower 62 for its fixing on the bearing 14.

 To this end, at least one clamping needle screw 64 is provided, which makes it possible to immobilize the cam disc 60 axially and in rotation on the upper tubular part 15 of the fixed bearing 14.

 The clamping needle screw 64 also allows the cam 52 to be angularly indexed in position relative to the fixed bearing 14 and therefore relative to the cam follower elements 50.

 As is easily understood, the rotation of the drive head 30 under the action of the shaft 12 causes the cam 52 to travel through the cam follower elements 50 which cause corresponding oscillating movements of the second part 34 of the drive head 30, around the axis YY, and therefore changes in orientation of the wiper blade carried by the wiper arm articulated on the second part 34 of the drive head .

 We will now describe the second embodiment of the invention illustrated in Figures 3 to 6 in which elements identical or similar to those shown in Figures 1 and 2 are designated by the same reference numerals.

 The second embodiment corresponds to a mechanical reversal with respect to the first embodiment, that is to say that the cam 52 is formed on the underside of a disc 60 fixed on the underside 54 of the body 40 of the second part 34 of the drive head 30, while the two cam follower elements 50 in the form of pins are fixed in the upper face of the plate 46 which is itself fixed and angularly indexed in position on the upper part 15 of the fixed bearing.

 The cam disc 60 is fixed to the second part 34 of the drive head by two rivets 66 and a sealing bellows 70 is provided to protect the moving surfaces in contact and in particular allow to induce a lubricating grease therein. .

 The operation of the second embodiment illustrated in Figures 3 to 6 is identical in all respects to that of the first embodiment illustrated in Figures 1 and 2.

 The invention is not limited to the embodiments which have just been described.

 It is for example possible to replace the cam follower pins 50 with spherical ends by rolling elements such as balls or rollers held in a cage.

Claims (7)

 1. Mechanism for driving in rotation a wiper arm of the type comprising a drive shaft (12) which is mounted for rotation in a fixed bearing (14) and on the end (24) of which is fixed a first part (28) of a drive head (30) which comprises a pivot (32) whose axis (YY) is substantially perpendicular to the axis of rotation (XX) of the drive shaft and on which an oscillating second part (34) of the drive head (30) is received which receives an axis of articulation of the wiper arm, and of the type comprising means for causing the oscillation of the second part (34) of the drive head relative to the first part (28) of the drive head as a function of the rotation of the latter (28) about the axis (XX) of the shaft drive (12), characterized in that said means comprise a cam (52), or respectively a cam follower element (50), fixed in rotation and a follower element eur of cam (50), or respectively a cam (52), linked in rotation with the second part (34) of the drive head (30).  2. Drive mechanism according to claim 1, characterized in that the cam is produced in the form of an annular track (52) formed on the surface of a cam disc (60) traversed in its center by the drive shaft (12).  3. Drive mechanism according to one of claims 1 or 2, characterized in that the cam follower element (50) comprises two diametrically opposite elements (50) arranged on either side of the shaft drive (12) and each of which cooperates by its free end (56) with a portion facing the cam (52).  4. Drive mechanism according to any one of the preceding claims, characterized in that the cam is fixed and in that the cam follower element is carried by a portion facing the underside of the second part (34) of the drive head (30).  5. Drive mechanism according to any one of claims 1 to 3, characterized in that the cam follower element is fixed and in that the cam is carried by a vis-a-vis portion of the underside of the second part (34) of the drive head (30).  6. Drive mechanism according to any one of the preceding claims, characterized in that the cam follower element comprises rolling means which cooperate with the cam.  7. Drive mechanism according to any one of the preceding claims, characterized in that means (64) are provided for relative angular indexing of the cam (52) relative to the cam follower element (50 ).