DE102022208946A1 - Magnetic coating for collecting brake abrasion particles on motor vehicle rims - Google Patents

Abstract

The invention relates to a motor vehicle rim, characterized in that it has a coating (7) on its radial inside (6) and that the coating material is magnetic and/or it has magnets.

Description

The invention relates to a device for collecting brake wear particles from disc brakes, a motor vehicle rim, the use of motor vehicle rims for collecting brake wear particles from disc brakes and an associated motor vehicle.

During the braking process, iron-containing and therefore magnetic brake abrasion particles are rubbed off by the brake disc, which is usually made of cast iron, and the brake pads, which have steel wool as the main component. If these brake abrasion particles are not collected, they end up on the road and pollute the environment by increasing particulate matter pollution. In addition, the brake abrasion particles, which have particle sizes of approximately 10 nm - 10 µm, contaminate the wheel rims on which the disc brakes are mounted.

The FR 3090057 B1 describes a disc brake in which part of the brake caliper is provided with a magnetic coating. The magnetic coating is intended to capture brake dust particles.

The DE 10 2020 216 507 A1 describes a motor vehicle rim that has an annular magnetic strip designed as a flexible band on the radial inside to collect brake dust particles.

An object of the present invention is to retain brake abrasion particles in a particularly simple manner and in an easily retrofittable manner for existing wheel rims, whereby the collected brake abrasion particles can be easily removed during a cleaning process

This task is solved by the independent claims. The dependent claims indicate advantageous further training.

According to the invention, a motor vehicle rim is used to solve the problem, which has a coating on its radial inside, the coating material being magnetic and/or it having magnets or magnetic particles.

Since the majority of the brake abrasion particles are ferromagnetic and the coating is arranged radially outside the brake disc, the majority of the magnetic brake abrasion particles will move radially outward from the brake disc, i.e. onto the magnetic coating, and will adhere there due to the magnetic force. The larger brake wear particles are thrown radially outwards onto the coating by the centrifugal force of the rotating brake disc. Even very small particles will come under the influence of the generated magnetic field and will therefore be captured. The brake abrasion particles rubbed off by the brake shoes also fall onto the magnetic strip in the same way and are held there. The device according to the invention is also advantageously suitable for retrofitting existing rims because only the coating has to be applied subsequently to the inside of the rim.

In addition, the collected brake abrasion particles can be easily removed and disposed of during a vehicle wash using a strong water jet, which is used in vehicle washing systems to clean the rims. Since the brake abrasion particles are collected in the area of the magnetic strip, the rest of the wheel rim becomes less dirty and needs to be cleaned less often.

As stated above, the coating material as such can be designed to be magnetic. Alternatively or cumulatively, the material of the coating is non-magnetic from the starting point, but contains magnetic particles or magnets.

The coating can be a paint or a pigment-free coating, the latter having the magnets or magnetic pigments. The advantage of the paint is that its visibility makes cleaning the rim easier. However, the color pigments it contains should weaken the magnetic force to catch the brake wear particles. The pigment-free coating provides stronger magnetization; depending on the color of the magnets, the coated area is then less visible for cleaning purposes.

Neodymium magnets can be provided as magnets, in particular those in the compound Nd ₂ Fe ₁₄ B. Such magnets have a high magnetization and are readily available commercially.

The magnets, for example the neodymium magnets of the last paragraph, are preferably smaller than 1 mm and preferably smaller than 0.5 mm. If they are integrated into the coating, with this size they have the potential to partially protrude from the coating if a small layer thickness is selected, which increases the magnetic force on the brake abrasion particles to be collected.

In one embodiment, the magnets have a coating of coating material and are partially visible from the outside.

In one embodiment, the magnets have a coating of coating material and are partially visible from the outside. They therefore partially protrude from the coating and increase the magnetic force on the brake abrasion particles to be collected.

It makes sense to design the coating as a ring-shaped strip. Since the invention is intended for a disc brake and the brake wear particles fly away radially from the brake disc, which is arranged with its axis of rotation in the transverse direction of the vehicle, the surface normal to this ring is preferably parallel to the above-mentioned axis of rotation. It is not necessary to coat the entire internal part of the rim with a ring-shaped strip, but rather only the part of the rim that is important for collecting brake abrasion particles. This saves coating material, manufacturing time and energy.

When choosing a coating or coating material, a pigment-free coating is also an option, since existing pigments disadvantageously weaken the magnetic force provided.

A further aspect of the invention relates to the use of a magnetic coating radially on the inside of a motor vehicle rim for collecting ferromagnetic brake wear particles from a disc brake of a motor vehicle. The magnetic character of the coating is preferably achieved by contained magnets or magnetic particles, such as the neodymium magnets mentioned above, which are absorbed by the coating material.

A further aspect of the invention relates to a device for collecting ferromagnetic brake abrasion particles occurring in a disc brake of a motor vehicle by means of a magnetic collecting device. This has at least one magnetic coating which is provided on a radial inside of a motor vehicle rim, the coating material being magnetic and/or it having magnets. The concrete realization of the coating of the inside of the rim can be done as described above with reference to the motor vehicle rim.

A further aspect of the invention relates to a motor vehicle, in particular a passenger car or a light commercial vehicle, which comprises at least three motor vehicle rims and which has a motor vehicle rim according to one of the above embodiments and / or a device for collecting ferromagnetic brake abrasion particles occurring in a disc brake of a motor vehicle according to the previous paragraph owns.

• 1 auszugsweise eine Felge mit einer Scheibenbremse.

The invention will be explained in more detail below using an exemplary embodiment using figures not to scale, which should only be understood as an example of the possible implementation of the invention and should not be understood as restrictive. It shows:

• 1 excerpts a rim with a disc brake.

1 partially shows a rim 1 with a disc brake 2, of which the brake caliper 3 and the actual brake disc 4 can be seen, the brake disc rotating about the axis of rotation D. If this arrangement is installed in the motor vehicle (not shown), the view is in the longitudinal direction of the vehicle.

When the disc brake 2 is in use, brake abrasion particles 5 fly tangentially away from the brake disc 4 and reach the radial inside 6 of the rim 1. Without additional measures, these brake abrasion particles 5 would enter the environment via the openings in the wheel cap 7. To prevent this, the inside 6 of the rim 1 has a magnetic coating 8, which is designed here as an annular strip 9. The surface normal to this ring passes through the wheel scar (not shown).

Reference symbol list

1

rim

2

Disc brake

3

caliper

4

Brake disc

5

Brake wear particles

6

inside

7

Hubcap

8th

Coating

9

Ring-shaped stripe

QUOTES INCLUDED IN THE DESCRIPTION

This list of documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• FR 3090057 B1 [0003]
• DE 102020216507 A1 [0004]

Claims (10)

Motor vehicle rim, characterized in that it has a coating (7) on its radial inside (6) and that the coating material is magnetic and/or it has magnets. Motor vehicle rim Claim 1 , characterized in that a paint or a pigment-free coating is provided as the coating (7). Motor vehicle rim Claim 1 or 2 , characterized in that neodymium magnets are provided as magnets, in particular those in the compound Nd ₂ Fe ₁₄ B. Motor vehicle rim according to one or more of the preceding claims, characterized in that the magnets are smaller than 1 mm, preferably smaller than 0.5 mm. Motor vehicle rim according to one or more of the preceding claims, characterized in that the magnets have a coating made of coating material and are partially visible from the outside. Motor vehicle rim according to one or more of the preceding claims, characterized in that the coating (8) is designed as an annular strip (9). Motor vehicle rim according to one or more of the preceding claims, characterized in that a pigment-free coating is provided, Use of a magnetic coating (8) on the radial inside of a motor vehicle rim (1) for collecting ferromagnetic brake wear particles (5) of a disc brake (2) of a motor vehicle. Device for collecting ferromagnetic brake abrasion particles (5) arising from a disc brake (2) of a motor vehicle by means of a magnetic collecting device, characterized in that the magnetic collecting device is designed as at least one magnetic coating (8) which is on a radial inside (6). Motor vehicle rim (1) is provided, wherein the coating material is magnetic and / or it has magnets. Motor vehicle, in particular a passenger car or a light commercial vehicle, comprising at least three motor vehicle rims (1) according to one or more of the above Claims 1 until 7 or a device Claim 9 .

Images