FR2966537A1 - BRAKE DRUM, IN PARTICULAR FOR MOTOR VEHICLE, COMPRISING OVERMOLDING - Google Patents

Abstract

Brake drum, in particular for a motor vehicle, comprising a circular axial ring (10) comprising an inner friction track (12), which is connected to a hub in rotation, characterized in that the axial ring (10) comprises on its outer surface, a thermal mass comprising a steel holding ring (20, 40) fixed on this axial ring, which has hooking forms (22) on which a light alloy ring (30) is overmolded.

Description

BRAKE DRUM, IN PARTICULAR FOR MOTOR VEHICLE, COMPRISING OVERMOLDING

The present invention relates to a brake drum, in particular for braking a motor vehicle, it also relates to a method of manufacturing this brake drum, and a motor vehicle equipped with such a drum. Motor vehicles generally comprise a main braking system comprising a brake pedal acting by a hydraulic control, on wheel brakes. Some wheel brakes comprise a drum rotatably connected to the hub of the wheel, comprising a radial connecting portion fixed to the hub, and a circular axial ring which has a generally cylindrical shape. Brake pads supported by segments are pressed by the hydraulic control on the inner surface of the axial ring forming a friction track, to obtain a braking torque by friction. In addition, some drum brakes may include a mechanical control, especially for the handbrake of the vehicle.

During a pronounced braking, the kinetic energy of the vehicle is converted into heat by the friction, which is absorbed essentially by the brake drum generally made of cast iron. The cast is chosen for its ease of implementation as well as for its reduced cost. After a pronounced braking, the diffusion of the heat energy by convection towards the ambient air, or by conduction towards elements in contact with the drum, takes place only slowly. The quantity of heat generated is essentially stored in the axial ring of the drum, which must have a mass sufficient to achieve this storage without undergoing a too high temperature rise that would affect the braking efficiency.

In addition, the heat capacity of the cast iron is not very high, the cast iron mass of the brake drum is all the more important. To lighten the brake drum, a known solution presented in particular in FR-A1-2830914 or GB-686809, comprises a ring of light aluminum alloy which is attached to the axial ring of the brake drum made of cast iron or aluminum. steel. The aluminum alloy reported with interesting characteristics of thermal conductivity and heat capacity, reduces the mass of the drum.

However, a problem that arises for this type of drum, is that with the successive heating generated by pronounced braking, and the difference in the expansion of the materials, it is possible to obtain a separation of these materials between them, and the creation of a interplay between the light alloy ring and the axial ring of the drum. This game creates some insulation of the light alloy crown, which generates a loss of thermal conductivity between the two materials. The friction track of the brake drum may heat up abnormally. The present invention is intended in particular to avoid these drawbacks of the prior art, and to bring to the problem of producing a lightened brake drum, a simple and effective solution. It proposes for this purpose a brake drum, in particular for a motor vehicle, comprising a circular axial ring comprising an inner friction track, which is connected to a hub in rotation, characterized in that the axial ring comprises on its outer surface , a thermal mass comprising a steel retaining ring fixed on this axial ring, which has attachment forms on which a light alloy ring is overmolded. An advantage of the brake drum according to the invention is that the steel retaining ring can provide on one side, for example by clamping on the brake drum, an effective maintenance over time and good thermal conductivity. and on the other hand with its hooking forms, a stable contact with the light alloy crown, to ensure a high thermal conduction between the braking track and the thermal mass formed by the light alloy. The brake drum according to the invention may further comprise one or more of the following features, which may be combined with each other. Advantageously, the axial ring is part of a part made by stamping a sheet, which has a substantially planar connecting portion of radial, comprising fixing means on the hub.

Advantageously, the retaining ring consists of a continuous circular sheet comprising a constant cross section, which is clamped on the outer surface of the axial ring. Advantageously, the retaining ring has bores constituting the attachment forms.

The holes may comprise an axis inclined relative to the surface of the retaining ring. According to one embodiment, the retaining ring covers substantially the entire width of the axial ring. Advantageously, the overmolded crown is made of an aluminum alloy. The overmolded crown may comprise external shapes for stiffening the brake drum, and to promote heat exchange with the ambient air, such as an outer circular boss, or transverse ribs.

The invention also relates to a method of manufacturing a brake drum comprising the following steps, a blank comprising an axial ring is formed by stamping a sheet, a holding ring consisting of a continuous circular sheet comprising forms of attachment, is clamped on the axial ring of this blank, and an overmolding of a light alloy ring is formed on the outer surface of the retaining ring.

The invention further relates to a motor vehicle comprising brake drums used for braking wheels, these brake drums further comprising any of the preceding features. The invention will be better understood and other features and advantages will appear more clearly on reading the following description given by way of example, with reference to the accompanying drawings in which: - Figure 1 is an axial sectional view a sheet blank for a brake drum according to the invention; FIG. 2 is a view of a holding ring prepared for this brake drum; - Figures 3 and 4 are views in axial section of the retaining ring clamped on the blank, respectively before and after overmolding a light alloy; - Figure 5 is a view of a holding ring according to a variant; - Figures 6 and 7 are views in axial section of the retaining ring clamped on the blank, respectively before and after overmolding a light alloy; and - Figures 8 and 9 are external views of finished brake drums, with different overmoldings.

FIG. 1 shows a blank 2 intended for a brake drum, comprising a substantially flat radial connecting portion 4, comprising a centering bore 6 on the not shown hub of a wheel, and bores 8 receiving axial clamping screws. on this hub. The radial connecting part 4 is surrounded by a circular axial ring 10 of constant thickness, comprising an inner surface 12 intended to form the friction surface of brake linings. The blank 2 of the brake drum, is made by stamping and cutting a steel sheet, for a hollow form of a single piece having the holes 6, 8.

Figure 2 shows a retaining ring 20, consisting of a continuous circular sheet comprising a constant cross section. The retaining ring 20 has a row of bores 22 regularly distributed around its periphery, which comprises an inclined axis A at approximately 45 ° with respect to the surface of the sheet. Figure 3 shows the next step of manufacturing the brake drum.

The retaining ring 20 is tightly mounted on the cylindrical outer surface of the axial ring 10 of the blank 2, by elastic deformation of this ring. An edge of the retaining ring 20 is aligned with the edge of the axial ring, which is opposite to the radial connecting portion 4. The inclined bores 22 open towards the center of the brake drum on the outer surface of the ring. axial ring 10. Figure 4 shows a next step of manufacturing the brake drum, the assembly comprising the blank 2 and the retaining ring 20, having overmolded an aluminum alloy ring 30, comprising a boss outer circular 32 which is continuous. During overmoulding, the aluminum alloy of the ring 30 fills the inclined holes 22 to the axial ring 10. Note that the inclination of the holes 22 is a particular shape that prevents movement in a radial direction of the filling material, and avoids delamination between this material and the retaining ring 20 which could be caused by the centrifugal force, or by differences in expansion between the aluminum alloy and the axial ring 10 which is steel . After overmoulding, additional machining can be performed on the assembly so as to finish the brake drum. In particular, it is possible to complete the centering bore 6 which may have been rough-cut during stamping, and to perform a grinding of the internal cylindrical surface 12 for friction of the linings, so as to obtain a precise geometry of these functional surfaces, which could in particular be deformed during overmolding.

To ensure a good connection of the overmolded crown 30 to the retaining ring 20, and a reliability of this connection over time, it is possible to adjust various parameters such as the width of this retaining ring and its thickness, the number of holes 22 and their provisions on the retaining ring, the diameter of these bores, their angle of inclination and the size of the entrance chamfer.

In particular, the bores 22 may be aligned in the same transverse plane, or offset axially over the entire width of the retaining ring 20 to obtain a varied distribution of the holding forces. The holes 22 may be made in different ways, in particular by machining or punching, in order to produce the holding ring 20 with a reduced cost. Alternatively, it is possible to make other particular forms of holes 22 on the retaining ring 20, also allowing attachment of the material overmoulded therein, such as for example tapered radial bores whose large opening is turned towards the center of the drum of brake. A brake drum comprising an overmolded crown 30 forming a thermal capacity of limited mass, which has a good thermal conductivity with the friction surface 12 of the brakes to provide a cooling of this surface, is thus easily and economically produced. Figures 5 to 7 show a variant in which the retaining ring 40 is wider, to cover the entire width of the axial ring 10 of the blank 2. The retaining ring 40 has two rows of holes 22 , arranged in two transverse planes.

This results in a larger contact area between the overmolded ring 30 and the holding ring 40, and a greater number of holes 22, to ensure a higher mechanical strength of the ring. Figure 8 shows a finished brake drum, having an overmolded crown 30 comprising a constant cross section, having an outer circular boss 32.

FIG. 9 also shows a finished brake drum comprising an overmolded crown 30, comprising close transverse ribs 50 resting on the outer circular boss 32, produced during the molding of the aluminum alloy of this overmolded crown.

It is thus possible to easily produce various external shapes for the overmolded crown 30, which contribute to the stiffening of the brake drum, as well as to the improvement of heat exchanges with the ambient air.

Claims (10)

CLAIMS1 - Brake drum, in particular for a motor vehicle, comprising a circular axial ring (10) comprising an inner friction track (12), which is connected to a hub in rotation, characterized in that the axial ring (10) has on its outer surface, a thermal mass comprising a steel retaining ring (20, 40) fixed on the axial ring, which has hooking forms (22) on which a light alloy ring (30) is overmolded. 2 - brake drum according to claim 1, characterized in that the axial ring (10) is part of a part made by stamping a sheet, which comprises a radial connecting portion (4) substantially flat, comprising means fastening (8) on the hub. 3 - Brake drum according to claim 1 or 2, characterized in that the retaining ring (20, 40) consists of a continuous circular sheet comprising a constant cross section, which is clamped on the outer surface of the crown axial (10). 4 - brake drum according to claim 3, characterized in that the retaining ring (20, 40) has bores (22) constituting the attachment forms. 5 - brake drum according to claim 4, characterized in that the holes (22) comprise an axis (A) inclined relative to the surface of the sheet of the retaining ring (20, 40). 6 - Brake drum according to any one of the preceding claims, characterized in that the retaining ring (40) covers substantially the entire width of the axial ring (10). 7 - Brake drum according to any one of the preceding claims, characterized in that the overmolded crown (30) is made of an aluminum alloy. 30 8 - brake drum according to any one of the preceding claims, characterized in that the overmolded ring (30) comprises outer shapes for stiffening the brake drum, and to promote heat exchange with the ambient air, as an outer circular boss (32), or transverse ribs (50). 9 - A method of manufacturing a brake drum, characterized in that it comprises the following steps, a blank (2) comprising an axial ring (10) is formed by stamping a sheet, a retaining ring (20). , 40) consisting of a continuous circular sheet comprising fastening forms (22), is clamped on the axial ring of this blank, and then an overmolding of a light alloy ring (30) is formed on the outer surface of this holding ring. 10 - A motor vehicle comprising brake drums used for braking wheels, characterized in that these brake drums are made according to any one of claims 1 to 8.