DE102009013964A1 - Composite brake disk, for use in motor vehicle, has friction ring and brake disk pot connected with one another by axial and radial securing elements, where radial securing element is designed as spline shaft connecting unit - Google Patents

Abstract

The disk has a friction ring arranged coaxial to a brake disk pot (16), where the friction ring and the brake disk pot are connected with one another by axial and radial securing elements. The radial securing element is designed as a spline shaft connecting unit between the brake disk pot and the friction ring. The axial securing element is designed as a retaining element, which radially protrudes from a lateral wall (19) of the brake disk pot or radially protrudes from a lateral wall of the friction ring to a rotational symmetry axis (30). The retaining element is designed as a bar. An independent claim is also included for a method for manufacturing a composite brake disk with a brake disk pot and a friction ring.

Description

The The invention relates to a brake disc according to the preamble of claim 1.

Brake disks for motor vehicles are usually designed in one piece as cast components today. For reasons of weight saving and the concomitant reduction of the unsprung masses of the motor vehicle and the CO ₂ emissions in the operation of the motor vehicle, however, more multi-part brake discs are increasingly used, which consist of a brake disc hub, a separate friction ring from this and connecting elements. Due to the excellent friction properties and thermal conductivity of the friction ring is still produced as a cast component, usually made of cast iron. In order to achieve a lower overall weight, however, the brake disk hub is manufactured as a sheet metal component, for example made of steel or light metal sheet. In order to ensure safe operation of such two-part composite brake discs, friction ring and brake disc hub must be joined against each other, both a backup against axial movement and a backup in the circumferential direction of the brake disc hub, so for torque transmission, is necessary.

The DE 101 25 111 B4 discloses a two-piece brake disc, in which the fuse is formed in the circumferential direction by a radial toothing in the form of involute. In particular, on the side of the brake disc cup made of sheet metal such a toothing is difficult and expensive to manufacture. In addition, the required from the DE 101 25 111 B4 known brake disc a locking ring for axial securing of brake disc and friction ring. Different, material-related thermal expansion promotes the risk of play, which can reduce the service life of the brake disc. Known two-piece composite brake discs thus suffer from the problem of complex joining measures in the production and in particular multi-part design of the joint connection.

Of the The present invention is therefore based on the object, a brake disc according to the preamble of claim 1 so to develop that simplifies the manufacture of the brake disc and the number the required parts is reduced. This task will by a brake disk having the features of patent claim 1 and by a method having the features of the claim 8 solved.

According to the invention in such a brake disc, a radial securing element between brake disc hub and friction ring as a splined connection formed between the brake disk pot and friction ring. Such Spline connection can be particularly easily by forming of the brake disk hub at a predetermined by the friction ring contour getting produced. There are therefore no complicated manufacturing steps as necessary, for example, when designing an involute toothing.

In Another embodiment of the invention, the brake disc additional axial securing element, which as protruding radially from a jacket wall of the brake disk hub Holding element is formed, which on an end face of the friction ring is applied. Unlike the prior art needed the brake disc according to the invention thus no additional security elements in the form of separate components, the brake disk and friction ring in the axial direction against each other to back up.

One Such radially projecting retaining element can in the simplest way deforming be formed on the brake disc pot. Ideally, this is done in the same processing step as forming the spline connection. The retaining element is preferred as the jacket wall of the brake disk hub formed circumferentially circumferential ridge. This one can through simple pressing of the brake disk hub shown in one operation become. Alternatively to the investment of the holding element on an end face of the friction ring, it is possible, the axial securing element as radially from a jacket wall of the friction ring to a rotational axis of symmetry form the brake disk protruding holding element, which engages in a corresponding recess of the brake disk hub. The formation of such a holding element can in a single forming step of the brake disk well done, why Again, the production of such a brake disc especially easy and inexpensive.

In Another embodiment of the invention, the holding element and / or the exception formed elastically resilient. This allows for a a certain play of brake disk pot and friction ring, causing delays be compensated for example by heating in braking mode can. On the other hand is due to the resilient nature of retaining element and / or exception, an additional contact pressure of the corresponding Holding elements against each other ensures what the seat makes the friction ring on the brake disc pot particularly stable.

Preferably, the brake disk pot is made of steel or light metal sheet. This allows a particularly large weight saving and concomitant reduction of the unsprung masses of the motor vehicle. Due to the saved weight are still advantageous Ver reduced fuel consumption of the motor vehicle and thus saved CO ₂ emissions.

Of the Friction ring of the brake disc is preferably made of a casting alloy, especially made of cast iron. The higher weight The friction ring is thereby advantageous by the particularly good tribological and heat conduction properties of cast iron compensated, so That derived during braking operation heat derived quickly is achieved and particularly good friction between friction ring and brake shoes become.

The The invention further relates to a method for producing a Composite brake disc with a brake disc hub and a coaxial arranged for this friction ring. This is first a Friction ring provided with an inner contour and then a brake disk pot used in the friction ring. In the following process step is the brake disk hub to form a to the inner contour the friction ring complementary outer contour of the brake disk hub pressed. Thus, in a single process step, a splined connection be produced between the brake disk and the friction ring, which a particularly stable torque transmission between allows the two components. By the one-step The nature of reshaping the brake disc can becomes the production the composite brake disc kept particularly simple and thereby saved manufacturing costs.

In a particularly preferred embodiment is when pressing the brake disc pot at least one jacket wall at the same time the Bremsscheibentopfs circumferential, directed towards the friction ring Web formed, which on an associated surface of the friction ring is pressed. The formation of radial and axial Securing elements between brake disc and friction ring takes place thus in a single process step and needed no additional separate components, causing the composite brake disc can be produced particularly inexpensively.

preferably, the forming of the brake disk hub takes place in process step c) while in the cold state, that is brake disk pot and friction ring have the same temperature. So it's not Shrinking the friction ring to the brake disc hub necessary, which in turn speeds up the process because there is no temperature control of the components necessary is.

in the Following is the invention and its embodiments will be explained in more detail with reference to the drawing.

there demonstrate:

1 a plan view of a friction ring for an embodiment of a brake disc according to the invention;

2 a side view of a brake disk hub for an embodiment of a brake disc according to the invention before being pressed into the friction ring;

3 a side view of an embodiment of a brake disc according to the invention with an axial securing element; and

4 a side view of an embodiment of a brake disc according to the invention with two axial securing elements.

A friction ring 10 for a disc brake of a motor vehicle has a friction surface 12 on which occurs in braking operation in tribological contact with the brake shoes of the disc brake. The friction ring 10 also has a passage opening 14 , which for receiving a brake disk pot 16 serves. The inner jacket wall 18 the friction ring 10 has in the embodiment shown on an octagonal contour, which together with the brake disc hub 16 a spline connection for transmitting torque between the wheel hub, brake disk hub 16 and friction ring 10 serves. In other words, by the spline connection, a radial securing between the brake disc chamber 16 and friction ring 10 made available.

In order to allow a particularly simple production of such a brake disc, the friction ring 10 first in the in 1 provided figure, in particular cast from cast iron. The brake disk pot 16 becomes, as in the side view 2 seen, provided in the form of a frusto-conical sheet metal part. By cold pressing in the brake disc pot 16 in the passage opening 14 the friction ring 10 becomes the jacket wall 19 of the brake disk pot 16 to the inner contour of the jacket wall 18 the friction ring 10 pressed so that the desired splined connection results.

The basal part 20 the jacket wall 19 , which in the unconverted shape of the brake disc hub, as in 2 shown an acute angle α with the base 22 the brake disk pot 16 is flattened so that he, as in 3 and 4 visible, perpendicular to the base 22 of the brake disk pot 16 comes to stand.

By pressing the brake disc hub 16 into the recess 14 the friction ring 10 is at the same time, preferably by a counter-holder of the pressing tool, a brake disc hub 16 radially surrounding web 24 trained, which at the lower friction surface 26 the friction ring 10 comes into contact. However, it is preferred, as in 4 shown, the pressing tool is shaped so that at the same time a second, the brake disc pot 16 circumferential bridge 28 is formed, which when pressing the brake disk hub 16 in the friction ring 10 on the friction surface 12 is pressed. This is a secure axial fixation of friction ring 10 and brake disc pot 16 achieved.

Alternatively, the axial securing can also be effected by a negative contour, not shown, that is on the inner jacket wall 18 the friction ring 10 can one to the axis of rotational symmetry 30 the brake disc 32 directed web to be formed, which is when pressing into the jacket wall 19 of the brake disk pot 16 digs. Alternatively, also on the jacket wall 19 a web may be formed which in a recess, also not shown, of the jacket wall 18 the friction ring 10 intervenes. By a resilient design of these holding elements, a particularly good fit with simultaneous existing game between friction ring 10 and brake disc pot 16 be achieved so that thermal movements of the two parts can be balanced against each other.

10

friction ring

12

friction surface

14

Through opening

16

brake disc pot

18

outer wall the friction ring

19

outer wall of the brake disk pot

20

basal Part of the jacket wall

22

Base of the brake disk pot

24 28

web

26

lower Friction surface of the friction ring

30

Rotational symmetry axis

32

brake disc

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 10125111 B4 [0003, 0003]

Claims (10)

Brake disc ( 32 ) with a brake disk pot ( 16 ) and a friction ring arranged coaxially therewith ( 10 ), which via at least one axial and at least one radial securing element ( 24 . 28 ) are interconnected, characterized in that the radial securing element as a splined connection between the brake disk pot ( 16 ) and friction ring ( 10 ) is trained. Brake disc ( 32 ) according to claim 1, characterized in that the axial securing element ( 24 . 28 ) as radially from a jacket wall ( 19 ) of the brake disk pot ( 16 ) projecting retaining element ( 24 . 28 ) is formed, which on an end face ( 12 . 26 ) of the friction ring ( 10 ) is present. Brake disc ( 32 ) according to claim 2, characterized in that the retaining element ( 24 . 28 ) as the jacket wall ( 19 ) of the brake disk pot ( 16 ) is formed circumferentially circumferential ridge. Brake disc ( 32 ) according to claim 1, characterized in that the axial securing element ( 4 ) as radially from a jacket wall ( 18 ) of the friction ring ( 10 ) on a rotational symmetry axis ( 30 ) of the brake disc ( 32 ) protruding holding element is formed, which in a corresponding recess of the brake disk hub ( 16 ) intervenes. Brake disc ( 32 ) according to claim 4, characterized in that the holding element and / or the exception are elastically resilient. Brake disc ( 32 ) according to one of claims 1 to 5, characterized in that the brake disk cup ( 16 ) is formed of steel or light metal sheet. Brake disc ( 32 ) according to one of claims 1 to 6, characterized in that the friction ring ( 10 ) is formed of a casting alloy, in particular of cast iron. Method for producing a composite brake disk ( 32 ) with a brake disk pot ( 16 ) and a friction ring arranged coaxially therewith ( 10 ), comprising the steps of: a) providing a friction ring ( 10 ) with an inner contour b) inserting a brake disk cup ( 16 ) in the friction ring ( 10 ) c) pressing in the brake disc hub ( 16 ) in the friction ring ( 10 ) to form a to the inner contour of the friction ring ( 10 ) complementary outer contour of the brake disc hub ( 16 ). A method according to claim 8, characterized in that during pressing in step c) at least one jacket wall ( 19 ) of the brake disk pot ( 16 ) circumferential, on the friction ring ( 10 ) directed web ( 24 . 28 ) formed on an associated surface ( 12 . 26 ) of the friction ring ( 10 ) is pressed. A method according to claim 8 or 9, characterized in that in step c) brake disk pot ( 16 ) and friction ring ( 10 ) have the same temperature.