FR2926413A1 - DRIVE DEVICE HAVING A BEARING DEVICE - Google Patents

Abstract

A drive device for a motor vehicle wiper comprising a transmission housing (20) and an electric motor (10) with an armature shaft (12). The armature shaft (12) is rotatably mounted in an armature bearing (14). The radial bearing of the armature bearing (14) is provided by a holding bezel (16). The transmission housing (20) is connected to the stator (18) of the electric motor (10). The holding bezel (16) has at least one retaining lip (22) placed in a cutout or cavity (28).

Description

FIELD OF THE INVENTION The present invention relates to a drive device in particular for driving a motor vehicle wiper comprising a transmission housing and an electric motor provided with an armature shaft rotatably mounted in the armature bearing. as well as a retaining telescope for the radial holding of the armature bearing, the transmission housing is connected to the stator of the electric motor. The invention also relates to a method of manufacturing to a drive installation, wherein the stator of the electric motor is connected to the transmission housing. State of the art Motor vehicles use electric motors for a large number of applications. In particular, to drive a windscreen wiper system of a motor vehicle, a drive device having an electric motor can be used. It is known to make such a drive device for example according to DE 40 39 453. In the case of this drive device, the electric motor is connected to a transmission housing. The electric motor comprises an armature shaft whose free end enters the transmission housing. The armature shaft is housed in an armature bearing, for example a ball bearing. To be blocked and prevent its ejection, the ball bearing is fixed using a retaining eye. DISCLOSURE AND ADVANTAGES OF THE INVENTION The present invention relates to a drive device of the type defined above, characterized in that the holding bezel comprises at least one attachment nose penetrating into a cutout. The holding bezel is installed in the drive device so that at least one holding spout penetrates into a recess or recess provided for this purpose. Preferably, the holding bezel is designed to include a plurality of holding spouts coming in several cavities or clearances. These different holding spouts can be provided on the holding bezel so as to face each other. It is also possible to provide the holding nozzles on the bezel so that they are almost equidistant on a circle. The spouts guarantee the simple and secure positioning of the safety glasses.

The cavity or recess receiving the holding nose can be provided in the transmission housing or in the stator of the electric motor. According to a preferred embodiment, the holding bezel has a protruding portion which bears on the outer ring of the armature bearing. The protruding portion can be preferably made in the form of a convex portion of the retaining bezel which improves the attachment of the bearing by the retaining bezel. To compensate for any tolerances, it is furthermore advantageous for the armature bearing side opposite the fixing bezel to comprise an elastic element. This elastic element thus pushes on the armature bearing to compensate for the tolerances that could negatively influence the positioning. In particular, this elastic element can be made in the form of a spring. The holding bezel as proposed can be carried out in a simple manner for example in the form of a stamped part taken directly to the output of the tool. The choice of stamped material and tooling, avoids finishing machining. For the manufacture of the drive installation according to the invention, the stator of the electric motor is connected to the transmission housing. Before connecting, the holding bezel is placed with at least one holding spout in the clearance provided for this purpose so that the retaining bezel is blocked by mounting the transmission housing on the stator. Thus, it is unnecessary to provide an additional means to ensure the locking of the retaining window. In addition, the holding bezel is positioned correctly by the holding spouts. We can also simplify the assembly simply by setting up the retaining bezel.

Drawings The present invention will be described below in more detail with the aid of advantageous embodiments shown in the accompanying drawings in which: - Figure 1 is a section of a drive device according to the invention; FIG. 2 shows a detail of the drive device, in section at the gearbox equipped with a holding bezel, and FIG. 3 is a view from above of a gearbox of a holding bezel. . DESCRIPTION OF EMBODIMENTS OF THE INVENTION FIG. 1 shows a drive installation according to the invention shown in section. An electric motor 10 with an armature 11 comprises an armature shaft 12 mounted in an armature bearing 14. The armature bearing 14 is preferably made as a ball bearing. The armature bearing 14 comprises an inner ring 13 to hold the armature shaft 12. There is also provided a holding bezel 16 which blocks the armature bearing 14 in a bearing seat of the transmission housing 20. The The retaining bezel 16 has a shaft passage 36 (FIG. 2) permitting the passage of the armature shaft 12. The stator 18 is connected to the transmission housing 20, for example by means of screws 32. enlarged detail of Figure 2 shows a section of the drive installation at the gearbox 20 and the holding bezel 16. Retainers 22, 24 are provided on the holding bezel 16. These beaks are face in the example shown. The holding spouts 22, 24 penetrate into cutouts 28 of the transmission housing 20 to accurately position the holding bezel 16. After connecting the stator 18 to the transmission housing 20, the holding bezel 16 is fixed in this way. In a variant, the cutouts 28 can also be made in the stator 18 of the electric motor 10. In order to better fix the armature bearing 14, the holding bezel 16 has a protruding portion 30 on its non-rotated side 3 toward the stator 18 The protruding portion 30 is supported on an outer ring 15 of the armature bearing 14. The projecting portion 30 may for example be in the form of an outwardly curved portion of the retaining bezel 16.

A tolerance compensation element compensates for any manufacturing tolerances. For this, for example, on the side of the armature bearing 14 facing the retaining bezel 16, there is provided a resilient element, in particular a spring 34. FIG. 3 shows a view from above of the transmission housing 20 and FIG. a holding bezel 16 set up to explain the invention. The retaining bezel 16 has retaining nozzles 22, 24, 26. The retaining nozzles 22, 24, 26 are substantially distributed over a circular line including equidistant from each other. The nozzles penetrate into corresponding cavities 28 provided in the transmission housing 20 so as to precisely position the holding bezel 16. In order to produce the drive device, the stator 18 of the electric motor 10 is connected to the transmission housing 20, for example by means of screws 32. Before connecting, the holding bezel 16 carrying at least one retaining nose 22 is placed in the cavity 28 provided for this purpose, for example a cavity or cutout of the transmission housing 20 and thus the positioning is predefined. By connecting the stator 18 to the transmission housing 20, the holding bezel 16 is fixed in its position and the armature bearing 14 bears on the outer ring 15 in the bearing seat of the transmission housing 20. maintaining the drive device according to the invention described above ensures the protection armature bearing 14 against dirt and heat generated by switching. In addition, the manufacture is simple because it is sufficient to place the holding bezel 16 and then connect the stator 18 to the transmission housing 20.

Claims (7)

1) A driving device in particular for driving a motor vehicle wiper comprising a transmission housing (20) and an electric motor (10) provided with an armature shaft (12) rotatably mounted in the housing armature (14) as well as a holding bezel (16) for the radial holding of the armature bearing (14), the transmission housing (20) is connected to the stator (18) of the electric motor (10), characterized in that the holding bezel (16) has at least one attachment nose (22) penetrating into a cutout (28). 2) A driving device according to claim 1, characterized by a plurality of holding spouts (22, 24, 26), each of which penetrates into a respective cavity (28). 3 °) Drive device according to claim 1 or 2, characterized in that the clearance (28) is provided in the transmission housing or in the stator (18). 4) A driving device according to claim 1 or 3, characterized in that the holding nozzles (22, 24, 26) are distributed substantially on a circular line and substantially equidistantly. 5 °) driving device according to claim 1, characterized in that the holding bezel (16) has a projecting portion (30) including a domed portion which is supported on the outer ring (15) of the bearing of induced (14). 6 °) Drive device according to claim 1, characterized in thatur the side of the armature bearing (14) opposite the retaining bezel (16), there is provided an elastic element including a spring (34) ). 7 °) A method of manufacturing a drive installation according to claims 1 to 6, wherein the stator (18) of the electric motor (16) is connected to the transmission housing (20), characterized in that before to connect the retaining bezel (16), at least one holding spout (22) is placed in the recess (28) provided for this purpose. 10 15