DE102005037676A1 - Composite brake disc for cars consisting of friction ring, brake disc holder and possible intermediate ring joined by compression connections whose surfaces are covered by embedded particles forming coating - Google Patents

Abstract

Brake disc consists of two parts, a friction ring (1) and brake disc holder (2) or of several parts, with additional intermediate ring (3), and also one possibly with slits (5) at an angle of 0[deg] to 90[deg] made of the same or different materials joined together using lengthwise or cross compression connections. One or more of the joined surfaces are covered wholly or partly with hard particles (4) bedded into a matrix of nickel, adhesive or other material forming a special coating or otherwise held on the joint or its surface. They produce a microform connection to frictionally connect the compression connections. All or part of the joint surface or partner is coated.

Description

Some vehicle manufacturers use multi-piece brake discs in top-of-the-range models or sports vehicles, which are made up of a friction ring, a brake disc hub and associated fasteners. The main advantage is the reduction of unsprung and rotating masses on the wheel carrier. The friction ring consists of a material similar to a one-piece standard brake disc (eg GG-15). For the brake disc pot, which is not subject to high thermal loads, a lighter material (material lightweight construction) or a material is selected which is dimensioned to suit the structure in terms of stress (structural lightweight construction). The connection of pot and friction ring is done by positive locking by means of several elements. Embodiments of composite brake disks known by means of clamps and screws, cast-in steel pins or rivets (cf. DE 102 53 451 A1 ) are joined. Although these discs are reduced in mass; they are faced with disadvantages due to the larger number of parts and more complex joining methods, which ultimately result in higher production costs. Other solutions are gears or splines for torque transmission, but also cause additional expense in the production.

problem

More powerful and need heavy vehicles a larger sized Brake system. This is usually the diameter of a brake disc bigger and the wall thicknesses of the brake disk hub are dimensioned stronger for technical reasons. In addition to the well-known problem of increasing the unsprung and rotatory masses on the wheel are such discs vulnerable with respect to geometric deviations such as thickness variations, axial misalignment and shielding under thermal stress. Further arise increased, partially only with big Effort feasible requirements of the casting process. There are advantages here Composite brake discs, in which a functional separation between friction ring and flange for connection to the wheel hub takes place.

solution

aim This invention is a reduced in weight brake disc as a composite brake disc with increased Torque capacity perform, at the extra on Connecting elements such as screws, rivets or steel pins between Friction ring and disc interior as in existing designs can be waived. This is achieved by the fact that brake disc pot and friction ring over a press connection with embedded hard particles, which also on an additional Intermediate ring can be applied without additional Fuse elements are connected.

reached advantages

Next the weight optimization in material and / or structural lightweight construction There are further advantages in the aforementioned construction by a perfect centering opposite other composite brake discs. A high concentricity is allows. The multipart design allows better design options with regard to geometric deviations in the high-temperature range (Shielding and uniform microstructure of the Avoidance and / or reduction of local heat spots). Further are Press connections known as vibration damping, what the comfort claim a brake system both in the low-frequency range (Bremsenrubbeln) as well as in the acoustic spectrum can improve.

The sometimes time- and cost-intensive post-processing like a Conventional brake disc can be easier to handle Items are compensated. By doing without additional Connecting elements also offer advantages in recycling.

Further embodiment the invention

The aim of the multi-part brake disc is to dispense with additional fasteners, as this can be a consistent lightweight construction. The combination of friction ring ( 1 ), which may be made of conventional casting material such as GG-15, and the brake disk pot ( 2 ) (eg an aluminum material) is made by a cylindrical interference fit as a longitudinal or transverse press connection. To increase the torque transmission capability, an additional material is applied in the press joint, which consists of hard particles (eg diamond). Due to the design thus creates a combination of positive and non-positive connection. The hard material coating can take place either on the joining side of the friction ring or joining surface of the brake disk hub. Alternatively, a hard-coated ( 4 ) Intermediate ring ( 3 ) proposed, which lies between the two joining partners. The intermediate ring can be interrupted to avoid a double interference fit. Preferably, it is considered to be at an angle of 45 ° ( 5 ) slotted ring executed. This construction be has advantages in the production, since a simpler and lighter in shape and design component must be coated as a brake disc pot or friction ring.

Claims (11)

Composite brake disc, which consists of two parts (brake disc hub and friction ring) or more parts (additional intermediate ring) same or different materials that by means of longitudinal or Querpressverbindungen added be one, several or all joining surfaces completely or partially with hard Particles are provided in a matrix of nickel, adhesive or other material embedded and thus a special Joining surface coating represent or otherwise held in the respective press joint or joint surface and in addition generate a microforming connection to the frictional connection of the press connections and as a transmission element serve, reducing the transmission capacity for powers and Moments over conventional Press connections is significantly increased, as well as local Microshifts in the pressing surfaces prevented or significantly be reduced and thus any negative tribological phenomena, e.g. Fretting corrosion, complete or largely prevented. Brake disc according to claim 1, characterized that the stress of the joining partners or joint surfaces in total or even locally elastic or elastic-plastic can. Composite brake disc according to claim 1, characterized in that not only the joining surfaces of the intermediate ring ( 3 ), but the entire intermediate ring is completely or partially coated. Brake disc according to claim 1, characterized in that the intermediate ring ( 3 ) is not closed, but slotted at an angle between 0 ° and 90 ° ( 5 ) and also in a groove of the part ( 2 ) or ( 1 ) can be inserted and thereby fixed axially defined. Brake disc according to claim 1, characterized in that the intermediate ring ( 3 ) can also consist of several individual or interconnected segments. Brake disc according to claim 1, characterized in that the intermediate ring ( 3 ) by constructive design, for example, corresponding profiling and / or choice of material, influencing the heat transfer between the brake disk hub and brake disk ring as an influence on the expansion behavior allows. Brake disc according to claim 1, wherein the intermediate ring of a different than ( 1 ) and ( 2 ) or the same material whose stress can be elastic or elastic-plastic as well as in the near-surface region of the joining surfaces. Brake disc according to claim 1, characterized that the intermediate ring or the joining surfaces of the Press connection can be profiled so that by accordingly elastic or plastic indentation this profiling in the joint surface of adjacent joining partner an additional form fit in the circumferential direction and / or axial direction, e.g. by Application of press connection with interrupted press joint (e.g. Low depth grooves with rectangular cross section). Brake disc according to claim 1, characterized that the joining surfaces, in which penetrate the hard particles to create the microforming closure should be provided with suitable embeddable layers. Brake disc according to claim 1 for the realization or increase the process reliability during joining as a cross press connection by the temporary attachment (during the Joining process) made of special accessories so that a targeted control or influencing the temperature equalization process as well as a Magnification of the heat content the parts to be joined and thus influencing the joining time are possible, with this possibility not only in press joints with hard particles in the press joint or on the joint surfaces, but also with conventional, uncoated, coated or with Lubricants to be joined Press connections applicable, which has nothing to do with the brake disc problem have to do. Brake disc according to claim 1, characterized that a 100%, nondestructive testing of transferability the press connection by applying a test force or a test torque allows becomes.