DE102006029699B4 - Method for determining the state of wear of brake linings on wheel brake units of a motor vehicle brake system and motor vehicle brake system - Google Patents

Abstract

A method for determining the state of wear of brake pads on Radbremseinheiten a motor vehicle brake system, each wheel of the motor vehicle is assigned a wheel brake of the motor vehicle brake system, wherein a first group of the wheel brake of the motor vehicle brake system, which are mounted on the rear axle, both for the purpose of service braking as well as for the purpose a second group of wheel brake units, which are mounted on the front axle, is used only for the purpose of service braking, the method comprising the following steps:
Determining a predetermined feed path of the first group of wheel brake units with intact brake linings,
Actuating the first group of wheel brake units in the event of parking brake by means of an actuator,
Determining the current feed path of the first group of wheel brake units when actuated by means of the actuator,
Comparing the predetermined feed path with the determined current feed path of the first group of wheel brake units,
- Determining a state of wear of brake pads of the first group ...

Description

The The present invention relates to a method for determining the state of wear of brake pads at wheel brake units of a motor vehicle brake system and a corresponding Motor vehicle brake system according to the preamble of claim 1 or 12.

modern Motor vehicle brake systems can be designed in different ways. So there is in Brake systems known from the prior art in which brake pads are used in a service brake case suitable pressure piston against a brake disc associated therewith be pressed by hydraulic pressurization to a braking effect to achieve. In a parking brake situation in which the vehicle be secured against unintentional rolling, the Brake pads however, by an electromechanical actuator on the associated Brake disc delivered.

Such a brake system is for example from the document WO 99/05011 A2 known. In the case of a hydraulic Klemmkrafterzeugung a pressurized hydraulic fluid is introduced into a formed in a housing of the disc brake hydraulic chamber. A slidably received in the hydraulic chamber hollow piston is moved by pressurizing the hydraulic fluid and brings the brake pad in frictional engagement with the brake disc. Since the disc brake is designed as a floating caliper disc brake, the brake shoe, which does not interact directly with the piston, is also applied in a known manner against the brake disc.

at an electromotive clamping force generation for the realization of Parking brake function is applied to the relevant wheel brake units the rotational movement of a motor shaft initially by means of a planetary gear stocky and then by means disposed within the hollow piston nut-spindle arrangement of the actuator converted into a translational movement. The hollow piston is of This translational movement detects and transmits the translational movement on one of the two brake shoes, which then against the brake disc is created. This vehicle brake is when the brake is not applied one at the electromotive brake actuation on the brake piston acting mother of the nut spindle arrangement in a defined Distance to the brake piston positioned in its rest position arranged. To be a reliable To ensure the vehicle brake function, this distance should be preferably be set exactly because too large a distance to an extension the brake response time, while if the distance is too small, there is a residual grinding torque between them rotating brake disc and friction linings could arise.

at known electrically actuated Disc brakes occurs the fundamental Problem on that the brake clearance, that is, the distance between the friction linings and the brake disc with the brake not applied, as a result of Wear of the friction linings enlarged and this prolongs the response time of the brake. It is therefore one Readjustment of the respective brake unit required. Further is an exact detection of the respective state of wear desired about the driver over the requirement of possible maintenance to inform in due time. This turns that Problem that so far such wear detection only on such Radbremseinheiten possible is that, in fact also electronically operable are.

DE 42 14 181 A1 further discloses a method of brake pad wear control in a fluid pressure actuated automotive brake system. The wear is measured via one brake pad wear sensor on each vehicle axle and transmitted to the other wheel of the axle by means of a correction factor.

Out DE 43 26 256 C1 A method for determining a wear-dependent brake force distribution is known.

The document DE 102 28 115 B4 takes into account a predetermined delivery path and a currently determined delivery path in the determination of wear and should be mentioned as a generic state of the art.

It It is an object of the present invention to provide a method for determining the state of wear of brake pads at wheel brake units of a motor vehicle brake system and a corresponding To provide motor vehicle brake system, wherein on all brake pads without additional technical components wear detection are made can.

• – Ermitteln eines vorbestimmten Zustellwegs der ersten Gruppe von Radbremseinheiten bei unversehrten Bremsbelägen,
• – Betätigen der ersten Gruppe von Radbremseinheiten im Falle einer Feststellbremsung mittels eines Aktuators,
• – Ermitteln des aktuellen Zustellwegs der ersten Gruppe von Radbremseinheiten beim Betätigen vermittels des Aktuators,
• – Vergleichen des vorbestimmten Zustellwegs mit dem ermittelten aktuellen Zustellweg der ersten Gruppe von Radbremseinheiten,
• – Ermitteln eines Verschleißzustands von Bremsbelägen der ersten Gruppe von Radbremseinheiten unter Berücksichtigung des vorbestimmten Zustellwegs und des ermittelten aktuellen Zustellwegs und
• – Ermitteln eines Verschleißzustands von Bremsbelägen der zweiten Gruppe von Radbremseinheiten unter Berücksichtigung des ermittelten Verschleißzustands der Bremsbeläge der ersten Gruppe von Radbremseinheiten und eines Verschleißfaktors.

This object is achieved by a method having the features of patent claim 1. In this case, individual wheels of the motor vehicle are each assigned a wheel brake of the motor vehicle brake system, wherein a first group of the wheel brake of the motor vehicle brake system, which are mounted on the rear axle, both for the purpose of service braking and for the purpose of an electromechanically running parking brake is settable and wherein a second group the wheel brake units, which are attached to the front axle, only for the purpose of service braking can be used, the method comprising the following steps:

• Determining a predetermined feed path of the first group of wheel brake units with intact brake linings,
• Actuating the first group of wheel brake units in the event of parking brake by means of an actuator,
• Determining the current feed path of the first group of wheel brake units when actuated by means of the actuator,
• Comparing the predetermined feed path with the determined current feed path of the first group of wheel brake units,
• Determining a state of wear of brake pads of the first group of wheel brake units, taking into account the predetermined delivery distance and the determined current delivery distance and
• - Determining a state of wear of brake pads of the second group of wheel brake units, taking into account the determined state of wear of the brake pads of the first group of wheel brake and a wear factor.

With The present invention has been recognized that from the actually detectable Wear on the individual brake pads, which are displaced by the electromechanical actuator, under consideration the wear factor even without additional tech equipment Expense in a sufficiently accurate manner on the current wear on those brake pads can be closed, which is not directly via an actuator position or the like can be determined. Such wear detection let yourself for example, only through implementation within the software realize and provide for controlling the motor vehicle brake system thus the advantage that also existing systems by a software update can be extended. In particular, there is the possibility of motor vehicle brake systems equipped with electronic parking brake (EPB) so that next to a known wear determination on the wheel brake the rear axle, the electromechanical activation of the parking brake function be used, also a reliable one and sufficiently accurate determination of the state of wear at the for the parking brake function unused, electromechanically inactive wheel brake units of the front axle possible is.

A Further development of the method according to the invention provides that the wear factor the material nature of the brake pads of first and second group taken into account by the wheel brake units. So it is possible that, for example, always more heavily loaded in the service brake case front brake pads from a more wear resistant Material are manufactured as the brake pads of the wheel brake of the Rear axle. This different wear behavior of the respective brake pads is in this embodiment of the Invention according to every wear factor considered the respective wheel brake.

In In this context, the invention may further or alternatively provide that the wear factor a brake force distribution on the brake pads of the first and second Considered group of wheel brake units. As already indicated above, occur at the front brake pads higher braking forces as on the rear brake pads. This can be done according to the invention considered in the calculation of the wear factor for each wheel brake unit become. Thus, it can be provided that a central brake control unit the current brake force distribution is detected and controlled. To also the load history the individual brake pads over the wear factor to take into account accordingly provides a development of the invention, that of the brake control unit each recorded brake force distribution recorded over time is taken into account and for adapting the wear factor becomes. By this measure can over the entire service life of a brake lining documents its load and the current wear detection be used.

In addition to the aforementioned functions can also be provided according to the invention, that the wear factor a wheel load distribution or an axle load distribution with respect to considered first and second group of wheel brake. Also the wheel load distribution or axle load distribution has a significant influence on the currently occurring individual load Wheel brake units and thus also on the wear of the assigned Brake pads.

As is known, there it in terms of transmission the driving force on the road different types of vehicles, namely a front-wheel drive vehicle type, a rear-wheel drive vehicle type and types of vehicles where over all four wheels Transferring drive forces but with varying power distribution. A further education The invention provides in this context that the wear factor the drive type of the vehicle or / and a driving force distribution with respect to individual wheels the vehicle axles considered. The drive type or the drive force distribution also has an effect on the wear of individual Brake pads.

Furthermore, it can be provided according to the invention that the wear factor is the dimensioning of brake discs interacting with the respective brake pads of the first and the two group of wheel brake units. The dimensioning of the brake discs has considerable importance for the wear occurring due to the lever forces occurring and can be considered to increase the accuracy of the wear detection.

Regarding the implementation of the method according to the invention in a motor vehicle can be provided that the current wear factor and the for the brake pads the first and second group of Radbremseinheiten respectively determined current wear in a memory is permanently stored. It should be noted that that the initially determined predetermined delivery path for the state undamaged brake pads as long as stored in the memory until the brake pads replaced and the brake clearance is measured again. The current wear, determined according to the invention has been stored in the memory at least until he by a younger one wear value is replaced. But it can also be the entire history of wear remain stored in the memory and an analysis of driving behavior possibly evaluated with other stored data.

The Invention can also be used to the reliability to improve a motor vehicle. In this context can be provided that for the brake pads the first and second group of Radbremseinheiten respectively determined current wear in regular intervals with a wear limit is compared and that when exceeded the wear limit an optical or audible warning signal issued to a driver becomes. Thus, the driver in one or more stages feedback via the current state of wear the brake pads be given at all wheel brake units, so this on time Maintenance, in particular an exchange of heavily worn brake pads, cause can.

Regarding the technical realization of the method according to the invention can also be provided that the first group of wheel brake units in the Case of parking brake by means of an electromechanical Actuator whose Zustellweg based on a characterizing this Current pulse number and / or an operating current value and / or a Operating temperature value and / or an actuation time and / or a Engine revolutions determined. The current pulse number can, for example be measured in a period in which the relocatable Brake pad between a predetermined starting position and a moved predetermined system position on the brake disc. The predetermined one Anlagestellung is for example by a certain contact pressure, a certain operating current value or a specific operating temperature value Are defined.

The The invention further relates to a motor vehicle brake system, wherein individual wheels the motor vehicle is assigned in each case a wheel brake unit, further comprising a first group of the wheel brake units, which at the Rear axle are attached, both for the purpose of service braking as can also be used for the purpose of an electromechanically executed parking brake is and where further a second group of Radbremseinheiten who at the front axle are mounted, only for the purpose of service braking can be used, wherein the first group of wheel brake at a parking brake can be delivered by means of an actuator, whose Zustellweg is detectable, wherein the motor vehicle brake system has an electronic control unit and a memory accessible to them, wherein the electronic control unit, the actuators of the first Group of wheel brake units in case of parking brake and the current delivery path of the first group of wheel brake units when pressed determined by means of the actuators, and wherein the electronic Control unit in the sequence the determined current delivery distance the first group of wheel brake units with one in the memory stored predetermined Zustellweg compares and from the comparison result a state of wear the brake pads considering the first group of wheel brake units the predetermined delivery distance and the determined current delivery distance determined. The motor vehicle brake system according to the invention provides that the electronic control unit the state of wear the brake pads taking into account the second group of wheel brake units the determined state of wear the brake pads the first group of wheel brake units and a wear factor determined.

According to one Further development of the motor vehicle brake system according to the invention this is with a means for detecting the brake force distribution on the brake pads formed by first and second group of wheel brake units, wherein the brake control unit takes the wear factor into account Adjusts the detected brake force distribution.

Further can the motor vehicle brake system according to the invention a means for detecting wheel load distribution or axle load distribution in terms of the first and second group of wheel brake provide, wherein the brake control unit takes the wear factor into account adjusted wheel load distribution or axle load distribution.

According to one advantageous embodiment of the Automotive vehicle brake system according to the invention is a warning signal output means is provided, which when exceeded a predetermined wear limit emits an optical or audible warning to a driver, if the for the brake pads the first and second group of Radbremseinheiten respectively determined current wear one exceeds predetermined wear limit.

The Invention will be described below by way of example with reference to the accompanying Figures explained. These represent:

1 a schematic representation of a first hydraulically and electromechanically actuated brake unit with new friction linings in longitudinal section.

2 a schematic representation of the first hydraulically and electromechanically actuated brake unit with worn friction linings in longitudinal section.

3 a flowchart in which the sequence of the inventive method for determining the state of wear of the brake pads of the individual brake units is shown.

1 schematically shows a brake unit of a motor vehicle brake system according to the invention, which is designed as a hydraulically and electromechanically actuated in the usual manner motor vehicle disc brake. The brake unit is shown in a longitudinal section and comprises a substantially U-shaped caliper 10 and one on the caliper 10 arranged electromechanical Betätigungsein unit 12 , In the caliper 10 are on both thighs 10 ' . 10 '' two (in not further illustrated guides recorded) friction linings 14 . 14 ' arranged. The two friction linings 14 . 14 ' are on both sides of a through the caliper 10 overlapped brake disc 16 arranged and act each with a side surface 16 ' . 16 '' the brake disc 16 together, the rotation with a only partially shown stub axle 18 of the motor vehicle is connected. The friction linings 14 . 14 ' are in the caliper 10 on the brake disc 16 towards or away from her displaced arranged. In the illustrated embodiment, this is a floating caliper arrangement, in which one of the friction linings 14 through the operating unit 12 directly and the other brake pad 14 ' by the effect of a caliper 10 applied reaction force with the brake disc 16 can be brought into frictional engagement.

In a service brake situation is the brake pad 14 in a conventional manner purely hydraulically displaceable. To activate the parking brake is the brake pad 14 but shifted electromechanically. The electromechanical actuator 12 this is on the side of the caliper 10 attached and has an electric motor 20 on, in the embodiment shown, an internal rotor motor with a stator fixedly mounted on the housing 22 and a rotor revolving therein 24 is. Inside the rotor 24 is an internal toothing 26 arranged, which is a rotation of the rotor 24 on a wreath 28 can transmit with an external toothing, the rotationally fixed but axially displaceable on a brake piston 30 is arranged, which by the electric motor 20 through to the brake pad 14 protrudes. This working in the manner of a mother / Spindelanordung transmission 26 . 28 has a relatively high reduction and serves to the rotational movement of the electric motor 20 in a longitudinal movement of the brake piston 30 implement.

The electric motor 20 is via appropriate lines with a equipped with a computer unit CPU and a memory M, electronic control unit ECU for the generation of the drive signals of the electric motor 20 connected. From present in the motor vehicle sensors S1 ... Sn representative signals for operating conditions of the motor vehicle signals are sent to the electronic control unit ECU. These are, for example, the axle load distribution, wheel slip on individual wheels, brake force distribution, etc. In the electric motor 20 is also a sensor 32 present the steps of the electric motor 20 detected by means of current pulses and transmits a corresponding signal to the electronic control unit ECU.

A signal F representing the clamping force is transmitted through one between the brake piston 30 and the brake pad 14 arranged force sensor 36 generated and passed to the electronic control unit ECU. In the electronic control unit ECU can from the force sensor 36 transmitted signals a clamping force / time characteristic (F / t characteristic) and from a clamping force gradient dF / dt are determined. Since the electronic control unit ECU the drive current for the electric motor 20 supplies, it is also readily possible in the electronic control unit ECU the functional relationship between the force exerted by the vehicle brake clamping force F and the power used for this purpose or the executed motor steps of the electric motor 20 within a braking cycle (delivery of the brake pads 14 . 14 ' on the brake disc 16 and then releasing the brake pads 14 . 14 ' from the brake disc 16 ).

The Bremslüftspiel Lneu at a in the 1 shown, with new intact brake pads 14 . 14 ' equipped brake assembly he is the sum of the distances Lnew between the first brake pad 14 and the side surface 16 ' brake disc 16 and Lneu '' between the second brake pad 14 ' and the side surface 16 '' brake disc 16 , Like in the 2 can be seen, increases the brake clearance due to the brake pad wear in one with old, worn brake pads 14 . 14 ' equipped brake to a value Lalt, which in turn is the sum of the distances Lalt 'between the first brake pad 14 and the side surface 16 ' brake disc 16 and Lalt '' between the second brake pad 14 ' and the side surface 16 '' brake disc 16 results.

With reference to the in 3 the flowchart shown, the sequence of the method for determining the brake pad wear for a brake unit is described below. It should be noted that the brake pad wear on the in 1 and 2 shown braking unit can be determined relatively easily via the electromechanical actuator. By means of the invention, it is now also possible for the brake pad wear to be determined on the wheel brake units, which are not shown without electromechanical actuator, without additional equipment-related expense, directly from the actually detectable brake lining wear of the brake units designed with the actuator.

The inventive method is started in a first step S1. For example, that will inventive method at regular time intervals while operation of a motor vehicle, for example after each start, every time you press the parking brake or when parking a vehicle. In a step S2, the brake clearance Lnew becomes more intact for the case Brake pads determined. This determined Bremslüftspiel Lneu is then according to step S3 permanently stored in the memory M, and until, until worn brake pads through new brake pads be replaced. Steps S2 and S3 are executed only when the brake pads are brand new are.

in the Normal operation of the vehicle regularly become steps S1 and S4 to S10, omitting the steps S2 and S3. In Step S4 becomes a brake unit with electromechanical actuator actuated, for example, in the context of activation of the parking brake. In doing so, according to step S5 determines the respective delivery route. This means that over the Actuator traveled path recorded or mathematically determined until the brake pad from a starting position to a predetermined contact position the brake disk has been applied. In step S6, the thus determined Feed path with the brake clearance stored in the memory Lneu compared. Results between the delivery route and the brake clearance Lneu a difference, it is from this in step S7, the current state of wear the relevant executed with electromechanical actuator brake unit determined.

In Step S8 becomes the wear factor read out to this brake unit. This takes into account, for example, that the braking force distribution provides for a normal braking, that about 70% of the braking force is applied to the front wheels and about 30% at the rear wheels. In addition to the above-mentioned normal braking case, however also deviating braking situations known in the determination the wear factor considered become. So considered the wear factor for the individual wheel brake units for a braking event involving a traction control, for example a brake force distribution of about 80% of the currently applied Braking force on the front wheels and about 20% of the currently applied braking force on the rear wheels. Further considered the wear factor for the individual wheel brake units for a braking event involving an electronic braking force distribution functionality an individual Brake force distribution for each single wheel brake, for example, about 60% of the current applied braking force on the front wheels and about 40% of the current applied braking force on the rear wheels.

The for the above cases given percentage values of the braking force distribution are as Orientation values and can vary in practice. Especially in the latter case of individual braking force distribution can at the individual brake pads the braking units strongly divergent braking forces and correspondingly different wear occur. The different ones Loads on the individual brake units cause the wear factors for every Brake unit can clearly distinguish.

In Step S9 is then taken into consideration of the respective wear factor the actual wear state one of those brake units determined that without electromechanical Actuator are formed, and therefore no immediate wear detection can be done.

In Step S10 then become the for the electromechanically actuated Captured braking units and for the non-electromechanically actuated Brake units derived therefrom stored wear conditions. These can be used for Documentation will be evaluated.

In accordance with the invention, it is thus possible to use the basis of the actually detectable state of wear Electromechanical actuator running brake units and determine based on a respective individual wear factor for each brake unit, taking into account the specific conditions and wear on the respective brake unit reliably and with sufficient accuracy of the actual state of wear of this executed without electromechanical actuator brake units. This can ensure that the driver gets an accurate overview of the wear conditions of the brake units at all times and, if necessary, notices the initiation of required maintenance measures when a maximum state of wear is exceeded.

Claims (15)

Method for determining the state of wear of brake pads at wheel brake units of a motor vehicle brake system, wherein individual wheels of the motor vehicle in each case a wheel brake of the motor vehicle brake system is assigned, wherein a first group of the wheel brake of the motor vehicle brake system, which are attached to the rear axle, both for the purpose of Service braking as well as for the purpose of an electromechanical parking brake can be used and wherein a second group of wheel brake units, which are attached to the front axle, only for the purpose of Service braking is used, the method being the following Steps includes: - Determine a predetermined feed travel of the first group of wheel brake units with intact brake pads, - Press the first group of wheel brake units in the event of parking brake by means of an actuator, - Determine the current delivery of the first group of wheel brake when pressed by means of the actuator, - To compare the predetermined delivery distance with the determined current Zustellweg the first group of wheel brake units, - Determining a state of wear of brake pads considering the first group of wheel brake units the predetermined delivery distance and the determined current delivery distance, marked by - Determine a state of wear of brake pads taking into account the second group of wheel brake units the determined state of wear the brake pads the first group of wheel brake units and a wear factor. Method according to claim 1, characterized in that that the wear factor the material nature of the brake pads of first and second group taken into account by the wheel brake units. Method according to claim 1 or 2, characterized that the wear factor a brake force distribution on the brake pads of the first and second Considered group of wheel brake units. Method according to claim 3, characterized a brake control unit detects the current brake force distribution and controls. Method according to claim 3 or 4, characterized in that the braking force distribution respectively detected by the brake control unit over time is recorded and to adapt the wear factor considered becomes. Method according to one of the preceding claims, characterized characterized in that the wear factor is a wheel load distribution or an axle load distribution with respect to the first and second group of wheel brake considered. Method according to one of the preceding claims, characterized characterized in that the wear factor is the dimensioning from with the respective brake pads cooperating brake discs of the first and second group taken into account by the wheel brake units. Method according to one of the preceding claims, characterized characterized in that the wear factor is the drive type of the Vehicle or / and a driving force distribution with respect to the individual Wheels of the Vehicle wheel axles considered. Method according to one of the preceding claims, characterized characterized in that the actual wear factor and that for the brake pads of the first and second group of Radbremseinheiten respectively determined current Wear in a memory is permanently stored. Method according to one of the preceding claims, characterized marked that for the Brake pads the first and second group of Radbremseinheiten respectively determined current wear in regular intervals with a wear limit is compared and that when exceeded the wear limit an optical or audible warning signal issued to a driver becomes. Method according to one of the preceding claims, characterized in that the first group of wheel brake in the case of a parking brake by means of an electromechanical actuator whose delivery path based on a characterizing this Stromimpulszahl and / or an operating current value and / or an operating temperature turwerts and / or an operating time and / or an engine speed. Motor vehicle brake system with individual wheels of the Motor vehicle is assigned in each case a wheel brake, wherein continue a first group of wheel brakes attached to the rear axle are, both for the purpose of service braking as well as for the purpose an electromechanically executed Parking brake is used and where further a second group the wheel brake units, which are attached to the front axle, only can be used for the purpose of service braking, the first Group of wheel brake units during a parking brake by means of an actuator can be fed, whose Zustellweg is detected, wherein the motor vehicle brake system is an electronic control unit as well as a for these accessible ones Memory, wherein the electronic control unit, the actuators the first group of wheel brake units in case of parking brake controls and the current Zustellweg the first group of wheel brake when actuating by means of the actuators determined, and wherein the electronic control unit as a result, the ascertained current delivery path of the first group of wheel brake units with a predetermined stored in the memory Infeed path compares and from the comparison result a state of wear the brake pads considering the first group of wheel brake units the predetermined delivery distance and the determined current delivery distance determined, characterized in that the electronic control unit the state of wear the brake pads taking into account the second group of wheel brake units the determined state of wear the brake pads the first group of wheel brake units and a wear factor determined. Motor vehicle brake system according to claim 12, characterized by a means for detecting the brake force distribution at the brake pads of the first and second group of Radbremseinheiten, wherein the brake control unit the wear factor below consideration Adjusts the detected brake force distribution. Motor vehicle brake system according to claim 12 or 13, characterized by a means for detecting the wheel load distribution or the axle load distribution with respect to the first and second group of Radbremseinheiten, wherein the brake control unit the wear factor considering adjusted wheel load distribution or axle load distribution. Motor vehicle brake system according to one of claims 12 to 14, characterized by a warning signal output means when exceeded a predetermined wear limit emits an optical or audible warning to a driver, if the for the brake pads the first and second group of Radbremseinheiten respectively determined current wear one exceeds predetermined wear limit.