DE102010035643A1 - Device for determining e.g. wear of ceramic brake disk of motor vehicle, has indicators whose image is received by camera, and image processing unit determining abrasion and/or wear of disk based on brightness distribution in image - Google Patents

Abstract

The device has a set of wear indicators (10) introduced in a friction surface (8) of brake rings (2). An image of the wear indicators is received by a camera, and an image processing unit automatically determines an abrasion and/or a wear of a ceramic brake disk based on brightness distribution in the affiliated image. A brightness threshold value is set or adjusted based on the set or adjusted threshold value, an unworn region of the upper surface of the wear indicators is separated from a region with break-out in the upper surface of the indicators in the image. An independent claim is also included for a method for determining abrasion and/or wear of a ceramic brake disk of a motor vehicle.

Description

The invention relates to a device for determining a wear and / or a wear of a ceramic brake disc according to the preamble of claim 1. Furthermore, the invention relates to a method for determining a wear and / or wear of a ceramic brake disc according to the preamble of patent claim 4.

Conventionally, ceramic brake disks of a motor vehicle are disassembled therefrom, and after application of a template, wear is visually determined by a count of eruptions in a brake disk surface and compared with corresponding manufacturer specifications.

Alternatively, the wear of ceramic brake discs is determined by measuring a weight loss of the ceramic brake disc.

The EP 1 251 289 A2 describes a friction disc, in particular a brake or clutch disc, made of carbon fiber reinforced ceramic composite material, with at least one designed as a friction surface top surface, wherein at least a portion of the friction surface of another material, in particular of a carbonaceous material, wherein this other material has a lower wear and oxidation resistance than that of the remaining friction surface and the support zone of the friction disc and the higher wear results in an optical, acoustic or mechanical signal under operating conditions, which warns about exceeding the life of the friction disc.

The EP 1 435 470 A1 describes an apparatus and method for determining the wear of a composite brake disc by extrapolating the wear based on the brake pressure applied to the composite brake disc, its duration, and a resulting deceleration.

The EP 1 248 009 B1 describes a device for displaying the total load in brake discs made of carbon fiber reinforced ceramic, wherein in the brake disc, starting from the friction surface, an indicator element is provided, the oxidation resistance to the material of the brake disc is reduced.

The invention has for its object to provide an improved over the prior art, in particular cost-effective device for quickly determining a wear and / or wear of a ceramic brake disc. Furthermore, the invention has for its object to provide a comparison with the prior art improved, in particular faster applicable and more accurate method for determining a wear and / or wear of a ceramic brake disc.

With regard to the device, the object is achieved by the features specified in claim 1. With regard to the method, the object is achieved by the features specified in claim 4.

Advantageous developments of the invention are the subject of the dependent claims.

The device for determining wear and / or wear of a ceramic brake disk with a plurality of wear indicators incorporated in a friction surface of a brake ring of the ceramic brake disk according to the invention comprises a camera, by means of which an image of each wear indicator can be received, and an image processing unit, which uses a brightness distribution in At least one recorded image automatically determines the wear and / or wear of the ceramic brake disc.

In a particularly advantageous embodiment, the determination of the wear and / or wear of the ceramic brake disc is possible without prior disassembly of the ceramic brake disc from the vehicle. As a result, the necessary to determine the wear and / or wear of the ceramic brake disc working time and the resulting labor costs are significantly reduced.

In the method for determining wear and / or wear of a ceramic brake disc having a plurality of wear indicators incorporated in the brake disc surface, an image of each wear indicator is taken by means of a camera and these images are evaluated by means of an image processing unit, wherein based on a brightness distribution in at least one recorded image the wear and / or wear of the ceramic brake disc are automatically determined or will.

The method and the device are advantageously applicable to ceramic brake discs of any size, so that a single device for determining the wear and / or wear of different ceramic brake discs is possible.

Compared to the prior art, which requires a complex counting of outbreaks in a surface of each wear indicator, the determination of the wear and / or or the wear by means of a computer-aided image processing program automatically within a very short time.

Particularly advantageously, by the automatic determination and evaluation of the wear and / or wear of the ceramic brake disc a subjective, d. H. different, evaluation of wear and / or wear of the ceramic brake disc depending on the respective evaluator safely avoided. Thus, the determination and evaluation of wear and / or wear of the ceramic brake disc is more accurate and error-less prone.

Conveniently, the provision of the conventional templates for counting outbreaks in the surface of each wear indicator, eliminating the need for storage in the workshop is simplified and costs associated with this reduced.

Embodiments of the invention are explained in more detail below with reference to drawings.

Showing:

1 schematically a perspective view of a ceramic brake disc with wear indicators,

2 1 schematically shows a determination of wear and / or wear of a ceramic brake disk according to the prior art;

3 schematically a perspective view of a ceramic brake disc with wear indicators and a camera and

4 schematically a captured by a camera image of a wear indicator.

Corresponding parts are provided in all figures with the same reference numerals.

In the 1 shown conventional ceramic brake disc 1 consists of a brake ring 2 by means of a plurality of fasteners 4 with a pot 3 connected is. The brake ring 2 is from two halves 5.1 . 5.2 manufactured, which are inseparably connected in the course of the manufacturing process. The brake ring 2 is ventilated and has cooling channels 6 between the friction discs 7.1 . 7.2 on. The friction discs 7.1 . 7.2 form on their outside the friction surfaces 8th the ceramic brake disc 1 , The friction discs 7.1 . 7.2 are in the range of cooling channels 6 with holes 9 provided the friction discs 7.1 . 7.2 completely penetrate each.

In the friction surfaces 8th the ceramic brake disc 1 are a plurality of conventional wear indicators 10 arranged.

The brake ring 2 is made of a conventional fiber-reinforced ceramic material. The known fiber-reinforced ceramic materials experienced by high loads during operation, a progressive overall load and consequent wear and / or wear, but to the outside no signs of wear and / or wear are visible. In particular, it is not possible, as in known brake discs made of metallic materials, such as cast iron or steel, to record the total load on the basis of a material removal. This amounts to ceramic brake discs 1 made of fiber-reinforced ceramic material only a few grams and is also no indicator of wear and / or wear of the ceramic brake disc 1 ,

In the friction surfaces 8th the ceramic brake disc 1 are a plurality of conventional wear indicators 10 provided, the oxidation resistance to the fiber-reinforced ceramic material of the ceramic brake disc 1 is reduced. The wear and / or wear of the ceramic brake disc 1 arises mainly by oxidation of the carbon fibers of the fiber-reinforced ceramic material of the ceramic brake disc 1 , Due to the fiber-reinforced ceramic material of the ceramic brake disc 1 Reduced oxidation resistance wears the wear indicator 10 much faster than the rest of the fiber-reinforced ceramic material of the ceramic brake disc 1 , so that a wear of the wear indicator called burnup 10 clearly recognizable and can be used as a measure of the total load of the brake disc. This burnup is considered a variety of so-called outbreaks 14 on and / or in the surface of the wear indicator 10 visible, noticeable.

2 schematically shows the conventional determination of wear and / or wear of the ceramic brake disc 1 According to the state of the art.

Conventionally, after disassembly of the ceramic brake disc 1 from the vehicle, not shown, a template 11 centered on every wear indicator 10 hung up. This template 11 is preferably formed as a grid sheet, whereby the surface of the wear indicator 10 is divided into a plurality of individual quadrants. Subsequently, a number of quadrants are determined by means of a time-consuming counting, in which so-called outbreaks 14 are visible. The determined number of outbreaks 14 all or more than 50% covered quadrant will be with one from the manufacturer of the ceramic brake disc 1 predetermined number compared and, as a result, the wear and / or wear of the ceramic brake disc 1 determined.

3 schematically shows a perspective view of the ceramic brake disc 1 with a plurality of wear indicators 10 and a camera 12 , The camera 12 is preferably designed as a conventional pin camera with particularly small outer dimensions and is by means of a spacer device, not shown on the ceramic brake disc 1 arranged. By means of the spacer device is a precise compliance with a focal plane of the camera 12 in relation to the wear indicator to be included 10 allows. The spacer allows alignment of the camera 12 at the same angle and at the same distance with respect to the ceramic brake disc 1 , so every shot of the camera 12 taken from the same and therefore comparable perspective.

The camera 12 is with a conventional image processing unit 13 coupled.

In one embodiment of the method, the ceramic brake disc 1 dismantled from the vehicle and the camera 12 with the spacer device on the worn wear indicator 10 placed.

In an alternative embodiment, the ceramic brake disc remains 1 on the vehicle and the camera 12 with the spacer device is in a manner not shown laterally on the ceramic brake disc 1 arranged.

In the operation of the device, which at least the camera 12 , the image processing unit 13 and spacer device is used with the camera 12 an image B of each wear indicator 10 the ceramic brake disc 1 added. Such a picture B is in 4 shown.

The captured image B is in a manner not shown the image processing unit 13 fed. Within the image processing unit 13 By means of a computer-aided image processing program, a grid line G is applied to the recorded image B of the wear indicator 10 projected.

By means of the computer-aided image processing program, the wear and / or the wear of the ceramic brake disk are determined on the basis of a brightness distribution in the recorded image B and / or in the grid line network G. 1 automatically determined. In this case, dark spots correspond to image B of the wear indicator 10 with the erosion caused by wear and / or wear 14 , Light spots in image B of the wear indicator 10 correspond to unworn areas of the wear indicator 10 ,

From the manufacturer of the brake disc 1 For example, a brightness limit can be specified, from which an area of the wear indicator 10 worn or unworn. Cover the outbreaks 14 more than 50% of the surface of the wear indicator 10 the brake disc applies 1 as worn.

In a particularly advantageous embodiment, the computer-aided image processing program can be implemented in a conventional computer-aided diagnostic program, which is present in each workshop, so that a fast, accurate and automated determination of the wear and / or wear of the ceramic brake disc 1 is possible.

LIST OF REFERENCE NUMBERS

1

ceramic brake disc

2

brake ring

3

pot

4

fastener

5.1, 5.2

half

6

cooling channel

7.1, 7.2

friction

8th

friction surface

9

drilling

10

wear indicator

11

template

12

camera

13

Image processing unit

14

outbreak

B

image

G

Grid line network

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been 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

• EP 1251289 A2 [0004]
• EP 1435470 A1 [0005]
• EP 1248009 B1 [0006]

Claims (4)

Device for determining wear and / or wear of a ceramic brake disc ( 1 ) with a plurality of in a friction surface ( 8th ) of a brake ring ( 2 ) wear indicators ( 10 ), characterized by a camera ( 12 ), by means of which an image (B) of each wear indicator ( 10 ), and an image processing unit ( 13 ) based on a brightness distribution in the recorded image (B) the wear and / or the wear of the ceramic brake disc ( 1 ) automatically detected. Method for determining wear and / or wear of a ceramic brake disc ( 1 ) with a plurality of in the friction surface ( 8th ) of the brake ring ( 2 ) wear indicators ( 10 ), characterized in that an image (B) of each wear indicator ( 10 ) by means of a camera ( 12 ) and these images (B) by means of an image processing unit ( 13 ), whereby the wear and / or the wear of the ceramic brake disc (FIG. 2) can be evaluated on the basis of a brightness distribution in at least one recorded image (B). 1 ) is determined automatically. A method according to claim 2, characterized in that a brightness limit value is predetermined or adjusted, based on which unwritten areas of the surface of the wear indicator ( 10 ) of areas with outbreaks ( 14 ) in the surface of the wear indicator ( 10 ) in image (B). Method according to claim 3, characterized in that areas of the surface of the wear indicator ( 10 ), whose brightness value is above the brightness limit value, are regarded as unworn and areas of the surface of the wear indicator ( 10 ), whose brightness value is below the brightness limit, are considered worn.

Images