FR2987415A1 - DEVICE FOR PROTECTING A SYSTEM FOR TRANSMITTING AN ENGINE - Google Patents

Abstract

The invention relates to a protection device (5) for a system of a transmission system of an engine comprising pulleys (1) mounted in rotation along axes parallel to an axial direction (2), and a belt accessories connecting the pulleys (1), the protection device (5) having an axial surface (8) perpendicular to the axial direction (2) and adjacent to an axial face (9) of a pulley (1) parallel to the axial surface (8). According to the invention, the axial face (9) carries a first material (10) having a first hardness different from a second hardness of a second material (11) carried by the axial surface (8) so as to allow the establishing a clearance (12) between the protection device (5) and the pulley (1) by lapping generated by the rotation of the pulley (1).

Description

The invention relates to a device for protecting a transmission system of an engine. Different protection devices of a transmission system of a motor of a vehicle are known. Conventionally, the protective device is formed by a cover which is fixed to the engine, which covers a front of the engine from which projections of the pulleys of the various accessories such as an alternator, an air conditioning compressor, a steering pump assisted and an accessory belt that drives the different pulleys. This hood thus protects the pulleys and the belt from external pollution, in particular splashing water coming from the wheels of the vehicle, so as to ensure the adhesion of the belt to the pulleys. Such a cover extends from the engine to beyond the pulleys, which leads to an increase in the length of the motor unit and therefore additional space. The invention aims to solve one or more of these disadvantages, and in particular to limit additional space related to the presence of the protection device. According to a first aspect, the invention thus relates to a protection device of a transmission system of an engine, the system comprising pulleys rotatably mounted along axes parallel to an axial direction, and a belt of accessories connecting the pulleys to one another, the protection device having an axial surface which is perpendicular to the axial direction and which is adjacent to an axial face of at least one pulley parallel to the axial surface of the protection device, characterized in that that the axial face of a pulley adjacent to the protection device carries a first material having a first hardness different from a second hardness of a second material carried by the axial surface of the protective device so as to allow the establishment of a clearance between the protection device and the lapping pulley generated by the rotation of the pulley against the protection device. Thus, according to a judicious choice of the two materials, it is possible to limit the size associated with the presence of the protective device: the latter having, in the axial direction, a minimum initial dimension, is mounted tight against the pulleys (by fixing it to the engine), the running-in done by the pulleys during the first turns of the motor generating a just necessary clearance between the protection device and the pulleys. According to a first embodiment, the first material is abrasive and has a greater hardness than the second material. As a result, the wear is made on the axial surface of the protective device. [000s] According to a second embodiment, the axial surface is disposed against the angular portion which is not in contact with the accessory belt, the axial face of a pulley. As a result, the protective device covers at least the angular portions of the pulleys that are not covered by the accessories belt. According to a third embodiment, the protective device comprises a radial surface which carries the axial surface and which covers the angular portion which is not in contact with the accessories belt, a cylindrical surface of the pulley adapted to receive the accessory belt. In addition, the device may comprise a radial surface which carries the axial surface and which at least partially covers the areas of the accessory belt which are not in contact with the pulleys. According to a fourth embodiment, the radial surface of the protective device bypasses a radial flange of the pulley which extends radially beyond the cylindrical surface so as to form a gutter on the side of the protective device out of pulley. Therefore, if, despite the presence of the protective device, a pollution manages to cross the existing gap between the two lapped materials, this pollution is propelled by the centrifugal force to the gutter made in the protective device without risking to reach the cylindrical surface of the pulley due to the presence of the radial flange and the associated configuration of the protective device. According to a second aspect, the invention relates to a method of setting up a device for protecting a transmission system of an engine, the transmission system comprising pulleys mounted in rotation along parallel axes. in an axial direction, and an accessories belt connecting the pulleys to one another, the pulleys bearing on an axial face a first material having a first hardness, the protection device having an axial surface which is parallel to and adjacent to the axial faces of a minus one pulley and which carries a second material having a second hardness different from the first hardness of the first material, characterized in that the protective device is fixed so that the second material is tightly mounted against the first material and a set between the protection device and the pulley is made by lapping generated by the rotation of the pulley. Other features and advantages of the invention will become apparent from the description which is given below, for information only and in no way limiting, with reference to the accompanying drawings, in which: - Figure 1 is a schematic view a guard partially covering an accessory belt and accessory pulleys; - Figure 2 is a view of an axial surface of a pulley of an accessory; - Figure 3 is an axial sectional view of a pulley of an accessory and a protective device just after the tight attachment of the latter to the accessory; - Figure 4 shows the same pulley and the same protective device as in Figure 3, after a break-in made by the rotation of the pulley; and - Figure 5 is a view similar to Figure 4, the pulley and the protective device having particular conformations. An engine group comprises an internal combustion engine and various accessories driven by the engine, such as an alternator, an air conditioning compressor, a power steering pump. The motor and the accessories each have a pulley 1, each pulley 1 being mounted in rotation along axes parallel to an axial direction 2, and an accessory belt 3 ensures the transmission of the movement of the motor pulley to the accessory pulleys. by connecting the pulleys 1 between them. Thus, the power unit comprises a transmission system 4 comprising the pulleys 1 and the accessories belt 3. [0015] The transmission system 4 is associated with a protection device 5 which is intended to protect the transmission system 4 from pollution. exterior. The protective device 5 is formed by a shell 5 and can be attached to the motor and / or the accessory holders. In the present example, the protection device 5 is intended to protect only the lower part of the transmission system 4, the upper part of the latter being arranged so as not to be accessible to pollution. Moreover, as illustrated in FIG. 1, in the present embodiment, the protection device 5 is configured so as to protect only those parts of the accessory belt 3 which is not in contact with the pulleys 1, and that the angular portions of the pulleys 1 which are not covered by the accessories belt 3. [0016] The protection device 5 comprises a radial surface 6 which covers, on the one hand, the accessory belt 3 and, on the other hand, a cylindrical surface 7 of each protected pulley 1 which is adapted to receive the accessories belt 3. This radial surface 6 extends, in the axial direction 2, from the attachment points of the protection device 5 to beyond the accessory belt 3 and the protected pulleys 1. The protection device 5 also comprises an axial surface 8 which is perpendicular to the axial direction 2 and which hangs from the radial surface 6. This axial surface 8 covers the sidewall of the accessory belt 3 and a part of an outer axial face 9 of each pulley 1 protected, the outer axial face 9 of a pulley 1 being that remote from the corresponding accessory. The axial surface 8 of the protective device 5 is adjacent to the outer axial face 9 of each pulley 1 protected. [ools] Compared to the accessory belt 3, the protective device 5 is at a distance from the latter allowing its usual movement. The outer axial face 9 of each pulley 1 protected carries a first material 10 which has a first hardness. As illustrated in Figure 2, the first material 10 is limited to a ring on the outer axial face 9. The axial surface 8 of the protective device 5 carries, meanwhile, the side adjacent to the pulley 1 protected, a second material 11 which has a second hardness different from the hardness of the first material 10. Preferably, the first material 10 is abrasive and harder than the second material 11 so as to allow the establishment of a clearance 12 between the protective device 5 and the pulley 1 protected by lapping generated by the rotation of this pulley 1 against the protection device 5. The second material 11 may be glued, overmolded or fixed by any other means to the axial surface 8 of the protective device 5. [0020 Thus, when fixing the protective device 5, the second material 11 is mounted tight against the first material 10 (see Figure 3), the second material 11 being the only element of the protective device 5 to be in contact with the protected pulleys 1, the first material 10 being the only element of the pulleys 1 protected to be in contact with the protection device 5, and the accessory belt 3 being without contact with the protection device 5. From the first turns of the engine, the rotation of the pulleys 1 causes the running of the second material 11 and the creation of the clearance 12 just required between the pulleys 1 and the protective device 5 (cf. Figure 4). Moreover, in the example illustrated in Figure 5, to avoid contact pollution with the cylindrical surface 7 of the pulleys 1 and the accessory belt 3, the outer axial face 9 of a pulley 1 protected comprises a radial flange 13 which extends radially beyond the cylindrical surface 7. In this way, the pollution that would have managed to pass through the clearance 12 existing between the pulley 1 and the protective device 5 would be projected by the centrifugal force generated by the rotation of the pulley 1 beyond the cylindrical surface 7. Similarly, the radial surface 6 of the protection device 5 is shaped so as to bypass this radial flange 13 so as to form a receiving channel 14 pollution, the channel 14 being disposed on the side of the protective device 5 out of the pulley 1.

Claims (7)

REVENDICATIONS1. Protective device (5) for a transmission system (4) of a motor, the transmission system (4) comprising pulleys (1) rotatably mounted along axes parallel to an axial direction (2), and a an accessory belt (3) connecting the pulleys (1) to one another, the protection device (5) having an axial surface (8) which is perpendicular to the axial direction (2) and which is adjacent to an axial face (9); ) of at least one pulley (1) parallel to the axial surface (8) of the protection device (5), characterized in that the axial face (9) of a pulley (1) adjacent to the protective device (5) ) carries a first material (10) having a first hardness different from a second hardness of a second material (11) carried by the axial surface (8) of the protection device (5) so as to allow the establishment of a clearance (12) between the protection device (5) and the pulley (1) by lapping generated by the rotation of the pulley (1) with be the protective device (5). 2. Protection device (5) according to claim 1, characterized in that the first material (10) is abrasive and has a greater hardness than the second material (11). 3. Protective device (5) according to one of claims 1 and 2, characterized in that the axial surface (8) is disposed against the angular portion which is not in contact with the accessory belt (3), the axial face (9) of a pulley (1). 4. Protection device (5) according to one of claims 1 to 3, characterized in that it comprises a radial surface (6) which carries the axial surface (8) and which covers the angular portion which is without contact with the accessory belt (3) has a cylindrical surface (7) of the pulley (1) adapted to receive the accessory belt (3). 5. Protective device (5) according to one of claims 1 to 4, characterized in that it comprises a radial surface (6) which carries the axial surface (8) and which covers at least partly the areas of the accessory belt (3) which are not in contact with the pulleys (1). 6. Protection device (5) according to claim 4 or claim 5, characterized in that the radial surface (6) of the protection device (5) bypasses a radial flange (13) of the pulley (1) which extends radially beyond the cylindrical surface (7) so as to form a gutter (14) on the side of the protection device (5) out of the pulley (1). 7. A method of setting up a protection device (5) for a transmission system (4) of an engine, the transmission system (4) comprising pulleys (1) rotatably mounted along parallel axes. at an axial direction (2), and an accessory belt (3) connecting the pulleys (1) to one another, the pulleys (1) carrying on an axial face (9) a first material (10) having a first hardness, the protective device (5) having an axial surface (8) which is parallel to and adjacent the axial faces (9) of at least one pulley (1) and which carries a second material (11) having a second hardness different from the first hardness of the first material (10), characterized in that the protective device (5) is fixed so that the second material (11) is tightly mounted against the first material (10) and a clearance (12) between the protection device (5) and the pulley (1) is produced by lapping generated by the rotation of the pulley (1).