| Patent application number | Description | Published |
|---|
| 20080217118 | Bellows for a Self-Amplifying Electromechnical disc Brake and Disc Brake with Such a Bellows - The invention relates to a bellows for a self-energising electromechanical disc brake. According to the invention, a low deformation force may be achieved by means of a bellows with an elliptical, offset cross-section tapering in one direction and, in opposing circumferential sections of the bellows, the provision of circumferential folds of small curvature and inclined folds along the longitudinal sides of the bellows. | 09-11-2008 |
| 20080217120 | Self-Reinforcing Electromechanical Disc Brake - The invention relates to a self-reinforcing electromechanical disc brake having a brake caliper produced by means of shaping, in one piece with a housing for electromechanical parts of an actuating device of the disc brake, with the housing forming a dimensionally stable hollow body. It is possible in this way to produce a bending-resistant and torsionally rigid brake caliper with a low wall thickness. | 09-11-2008 |
| 20080217121 | Electromechanical Brake - The invention relates to an electromechanical disk brake which has a switchable freewheel in order to be configured as a parking brake. The switchable freewheel includes a clamping roller freewheel having rollers for locking a motor shaft of an electric motor of the brake. A locating bearing of the motor shaft of an electric motor, and the freewheel are accommodated on a cover of a housing of the electric motor, and all the electric connections of the disc brake are routed via the cover. The number of components used can be reduced considerably by the integrated design. Moreover, the positional tolerances of the freewheel in relation to the motor shaft can be reduced with the aid of the invention. | 09-11-2008 |
| 20080245622 | Self-Boosting Friction Brake - The invention relates to a self-boosting electromechanical friction brakes particularly in the form of a partially lined disk brake. The friction brake includes a friction brake lining which is helically movable with respect to the direction of rotation of a brake disk and pressed there into. A ramp mechanism is provided with ramps which cooperate with a roller bearing mechanism supporting the brake lining, to obtain the self-boosting effect. According to the invention, two of three rolls of the ramp mechanism are embodied with directing flanges for guiding the rolls on the ramps in order to helically guide the friction brake lining. | 10-09-2008 |
| 20080261773 | Selective Freewheeling Mechanism and Electromechanical Vehicle Brake Having A Selective Freewheeling Mechanism - The invention relates to a selective freewheeling mechanism for developing an electromechanical vehicle brake (service brake) into a parking brake. The freewheeling mechanism according to the invention has an outer ring and a locking element cage which are configured as an electric motor with a rotor and a stator. The rotor and stator can be swiveled in relation to each other when a coil is supplied with current. Due to a symmetric design, the freewheeling mechanism is advantageously insensitive to acceleration forces. | 10-23-2008 |
| 20080283347 | Electromechanical Friction Brake - The invention relates to a self-energizing electromechanical friction brake includes a self-energizing device provided with, for example, a wedge mechanism. According to the invention, the friction brake is equipped with a linear drive, for example an electromagnet, for brake actuation. The self-energizing device converts a friction force exerted by a rotating brake body on a friction brake lining during braking actuated by the linear drive of an actuation device into a second contact pressure that presses the friction brake lining against the brake body in addition to the first contact pressure exerted by the actuation device. The self-energizing device provides a non-proportional characteristic magnetic force curve of the electromagnet of the linear drive. | 11-20-2008 |
| 20080296102 | Self-Amplifying Electromechanical Partial Lining Disc Brake - The present invention relates to a self-amplifying electromechanical partial lining disc brake, having a ramp mechanism as a self-amplification device. According to the invention, a rack for driving a friction brake pad is situated between roller elements of the ramp mechanism, particularly at a geometrical centroid of an imaginary surface defined by the roller elements. As a result a load is distributed to the roller elements in a more uniform fashion and the pressing force of the friction brake pad against a brake disc when the partial lining disc brake is actuated is distributed more uniformly and counteracts irregular pad wear. | 12-04-2008 |
| 20090194385 | Positive-Fit Freewheel Mechanism That Can Be Electromechanically Actuated, Electromechanical Brake With A Freewheel Mechanism Of This Type For A Motor Vehicle and Method For Adjusting The Play In A Brake Of This Type - The invention relates to an electromechanically switchable form-locking freewheel mechanism for preventing an electromechanical brake from releasing. According to the invention, the freewheel mechanism is embodied in the form of an electric motor in which a pivot angle of the armature is limited, the armature is counterbalanced and has a locking element that cooperates with a gear. The invention permits a compactly designed freewheel mechanism that can be integrated into an electromechanical actuating unit of the electromechanical brake. The counterbalancing of the armature equipped with the locking element prevents external accelerations of the freewheel mechanism of the kind that can occur during driving operation of a motor vehicle from exerting a moment on the armature that could switch off the freewheel mechanism. A method for adjusting the clearance of an electromechanical brake is also provided. | 08-06-2009 |
| 20100193298 | SELF-AMPLIFYING ELECTROMECHANICAL FRICTION BRAKE - The invention relates to a self-amplifying electromechanical disc brake, having a friction brake lining, which is able to move on a helical path and having a rack-and-pinion mechanism for moving the friction brake lining and for actuating the disc brake. According to the invention, a rack of the rack-and-pinion mechanism is connected to the friction brake lining in articulating fashion and in the region of a pinion, an abutting support keeps the rack engaged with the pinion, with play, thus permitting the rack to pivot in order to compensate for the helical movement of the friction brake lining. | 08-05-2010 |
| 20100243387 | ELECTROMECHANICAL FRICTION BRAKE - The invention relates to an electromechanical friction brake, for example in the form of a disc brake having an electromechanical actuation device. The electric motor of the actuation device presses a frictional brake lining against a brake disc by means of a reduction gearbox and a ball ramp mechanism. The actuation device is supported by a spring washer that is pretensioned so strongly that when the disc brake is released it acts on a segment with a falling spring characteristic; that is, a spring force exerted by the spring washer on the frictional brake lining increases with increasing tension of the disc brake. | 09-30-2010 |
| 20100258386 | SELF-BOOSTING DISK BRAKE - The invention relates to a self-reinforcing, in particular electromechanical disk brake having a wedge mechanism as the self-boosting device, for example. The invention proposes that the actuating device be attached to a separate holder, which does not have forces or torques of the wedge mechanism applied thereto. | 10-14-2010 |
| 20110048874 | ELECTROMECHANICAL BRAKE BOOSTER - The invention relates to an electromechanical brake booster with an electric motor and a helical gearing. The brake booster is used for coupling an auxiliary force via a driver into a piston rod. The invention proposes connecting a spindle of the helical gearing elastically via a spring element to the piston rod such that, in the event of rapid actuation of the brake, the helical gearing and a rotor of the electric motor do not have to be accelerated entirely muscle power. The muscle power required for actuating a brake is reduced as a result in the event of a rapid actuation of the brake. | 03-03-2011 |
| 20110146395 | CONNECTING ELEMENT FOR MEASURING AN ACTUATING FORCE OF A VEHICLE BRAKE SYSTEM - The invention relates to a connecting element connecting a brake pedal to a brake force amplifier of a vehicle brake system. The invention proposes to dispose a helical compression spring as a first spring element and a rubbery-elastic reaction disk as a second spring element between a pedal rod and a piston rod of the connecting element, the spring elements being installed in series due to the arrangement thereof Due to the higher spring rate of the reaction disk preferably increasing with load, the connecting element has a progressive spring characteristic line. According to the invention, as soon as the pedal rod contacts the reaction disk the helical compression spring and the reaction disk act in parallel and serially such that the progression of the total spring characteristic line further increases. | 06-23-2011 |
| 20110248559 | Method For Controlling The Activation Of A Hydraulic Vehicle Brake System And Electromechanical Brake Booster - A method for controlling the activation of a hydraulic vehicle brake system of a hybrid vehicle, which can be braked by generator operation of an electric drive motor, includes compensating for the braking effect of the electric drive motor and reducing a wheel brake pressure in the wheel brakes of the vehicle wheels by opening brake pressure-reducing valves, which are braked with the electric drive motor. | 10-13-2011 |
| 20110248560 | Method For Controlling A Hydraulic Vehicle Brake System - A method for controlling a hydraulic vehicle brake system having an electromechanical brake booster, includes activating the brake booster and a master brake cylinder of the vehicle brake system in response to a desire to brake, and reducing a clearance in the wheel brakes. | 10-13-2011 |
| 20110253490 | ELECTROMECHANICAL BRAKE FORCE BOOSTER - The invention relates to an electromechanical brake force booster for a hydraulic vehicle brake system. The invention proposes that the brake force booster be formed with two restoring springs, one of which acts on an electromechanical actuator and the other of which restoring springs acts on a pedal rod. In the event of failure of the electromechanical actuator, only the other spring, which preferably has a relatively low spring force, must be compressed using muscle force. The force loss in the event of actuation exclusively by muscle force is reduced. | 10-20-2011 |
| 20110254357 | BRAKE SYSTEM FOR A MOTOR VEHICLE AND METHOD FOR CONTROLLING THE SAME - The invention relates to a hybrid brake system having a hydraulic service brake system and an electromechanical service brake system. According to the invention, a brake booster is designed as a pedal simulator, which can be used to boost power and to generate a pedal power which is counter to the direction of actuation. When the hydraulic service brake system fails, the electromechanical service brake system is used for braking and the brake booster generates a pedal power which allows or facilitates dosage of the brake actuation. | 10-20-2011 |
| 20110297493 | BRAKE BOOSTER - The invention relates to an electromechanical brake booster having a piston rod to be actuated using muscular power, and an electromechanical actuator. Muscular power acting upon the pedal rod is transmitted via an elastic transmission element, for example a spring element, and the actuator power is transmitted separately thereof via its proper elastic transmission element which has for example a number of spring elements and dampers arranged in parallel thereto. The controllable brake booster is operated depending on a variable representing the relative deviation of the booster body and the input element. The brake booster according to the invention allows the adjustment of a booster characteristic which is variable in a wide range and which inter alia can depend on an actuation path, an actuation speed and/or an actuation acceleration. The switch-over to different modes, for example a sports mode, is also possible. | 12-08-2011 |
| 20120041662 | METHOD FOR OPERATING A BOOSTED BRAKE SYSTEM OF A VEHICLE AND CONTROL DEVICE FOR A BOOSTED BRAKE SYSTEM OF A VEHICLE - The invention relates to a method for operating a brake boosted brake system of a vehicle, comprising the monitoring of a mode of operation of the brake boosted brake system with regard to agreement of a total braking torque applied to at least one wheel of the vehicle by the brake boosted brake system with a specified target total braking torque and/or with regard to a displacement of a brake medium volume of the brake boosted brake system to a force/pressure conversion element ( | 02-16-2012 |
| 20120042647 | Electromechanical Brake Booster - An electromechanical brake booster is disclosed. The brake booster is constructed with two worm gears which run in opposite directions and whose axial forces compensate one another. The worm gears drive toothed rack gears which convert a rotational driving movement into a translatory output movement for activating a master brake cylinder. As a result of the provision of two gear paths, the loading of each gear path is halved and an application of force to a booster body, which forms a gear output, is symmetrical. | 02-23-2012 |
| 20120074771 | Method for Operating a Hydraulic Vehicle Braking System that has an Anti-Lock Control Unit - A method for operating a hydraulic vehicle braking system that has an anti-lock control unit is disclosed. The system includes a brake master cylinder having an electromechanical brake booster. As the pressure level of the vehicle braking system decreases during an anti-lock control, in which all vehicle wheels are controlled, the boosting force of the brake booster is reduced in an anti-lock control of this type. | 03-29-2012 |
| 20120097490 | Retaining Bolt - A retaining bolt for attaching a brake caliper to a support is attached. The retaining bolt is hollow and includes a retaining element which is fixed on one side in a cavity of the retaining bolt, supporting a permanent magnet on a free end. When the retaining bolt is moved due to an external load, the permanent magnet moves in the cavity of the retaining bolt and the modification of the magnetic field thus produced can be measured by a magnetic sensor. The retaining bolt allows the braking power of the disk brake to be measured. | 04-26-2012 |
| 20120161507 | Method for Operating a Hydraulic Vehicle Braking System - A method for operating a hydraulic vehicle braking system having an electromechanical brake booster is disclosed. A shut-off valve that is located between a brake master cylinder and wheel brakes is closed to maintain a wheel-brake pressure and thus a braking force. To maintain a constant braking force, no current must be applied to an electric motor of the brake booster. The vehicle braking system can be used as a parking brake. The shut-off valve is present if the vehicle braking system has an anti-lock control device. | 06-28-2012 |
| 20120179345 | CONTROL DEVICES FOR A BOOSTER BRAKE SYSTEM OF A VEHICLE AND METHOD FOR OPERATING A BOOSTER BRAKE SYSTEM OF A VEHICLE - The invention relates to a control device ( | 07-12-2012 |
| 20120255817 | Method and device for displacing and storing brake fluid for a hydraulic brake system of a vehicle - In a method for displacing and storing brake fluid for a hydraulic brake system of a vehicle which brake system has at least one hydraulic accumulator, at least one brake booster and at least one brake circuit, the brake booster is configured in such a manner, that even without an action of the driver, actuation of the brake booster allows a volume of brake fluid to be automatically displaced. The brake fluid is displaced into the hydraulic accumulator and stored, by automatic actuation of the brake booster, and at least a portion of the stored brake fluid is emptied by the hydraulic accumulator into the brake circuit as a function of the operating state of the brake system. | 10-11-2012 |
| 20120256480 | Method for Actuating a Hydraulic Vehicle Brake System - A method for actuating a hydraulic vehicle brake system, includes a master brake cylinder with a preferably electromechanical brake booster and a wheel slip control device. The master brake cylinder is actuated simultaneously with the brake booster, and hydraulic pumps of the wheel slip control device are driven by an electric motor. Pressure builds more quickly in the wheel brakes of the vehicle brake system for safety and assistance functions that require high pressure build-up dynamic. The method also increases the wheel brake pressure using the pressure that can be generated by actuating the master brake cylinder with the brake booster. | 10-11-2012 |
| 20120265417 | METHOD FOR OPERATING A BRAKE-BOOSTED BRAKE SYSTEM OF A VEHICLE, AND CONTROL DEVICE FOR A BRAKE-BOOSTED BRAKE SYSTEM OF A VEHICLE - The invention relates to a method for operating a brake-boosted brake system of a vehicle, comprising the following steps: determining braking force information ( | 10-18-2012 |
| 20130173130 | METHOD FOR OPERATING A BRAKE-BOOSTED HYDRAULIC BRAKE SYSTEM OF A VEHICLE AND CONTROL DEVICE FOR A BRAKE-BOOSTED HYDRAULIC BRAKE SYSTEM OF A VEHICLE - A method and control device for operating a brake-boosted hydraulic brake system of a vehicle, including ascertaining information relating to an increase or a decrease in an additional braking force exerted on at least one wheel in addition to a hydraulic braking force of the brake system, which increase or decrease is greater than a predefined minimum difference, altering an assistance force to a force introduction element, by a force difference, taking account of the ascertained information, so that the hydraulic braking force is altered to correspond to the increase or decrease in the additional braking force, and displacing a volume of a brake medium of the brake system between at least one accumulator chamber of at least one plunger and/or of at least one two-chamber cylinder and a volume of the brake system outside the accumulator. | 07-04-2013 |
| 20140375114 | METHOD FOR OPERATING A HYDRAULIC BRAKE SYSTEM - A method for operating a motor vehicle hydraulic braking system having at least one electric motor-operated braking pressure generator. The output power of the electric motor-operated braking pressure generator is restricted during normal driving/braking situations and the restriction is temporarily deactivated upon identification of a critical driving situation, such as an overstressing of the brake system to include brake fade. | 12-25-2014 |
| 20150046053 | METHOD FOR OPERATING A BRAKE BOOSTER OF A VEHICLE AND CONTROL DEVICE FOR A BRAKE BOOSTER OF A VEHICLE - A method for operating a brake booster of a vehicle includes: establishing an actual displacement speed signal of an input rod, to which a driver brake force is at least partially transmitted; filtering high-frequency and/or low-frequency signal components out of the established actual displacement speed signal; establishing a setpoint displacement speed signal of at least one booster piston, which is displaceable with the aid of the brake booster, at least in consideration of a predefined characteristic curve and the filtered actual displacement speed signal; and establishing an activation signal of the brake booster at least in consideration of the established setpoint displacement speed signal and outputting the activation signal to the brake booster to displace at least the booster piston at an execution speed corresponding to the activation signal. | 02-12-2015 |
