IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0505698
(2010-10-20)
|
등록번호 |
US-8764127
(2014-07-01)
|
우선권정보 |
DE-10 2009 046 339 (2009-11-03) |
국제출원번호 |
PCT/EP2010/065763
(2010-10-20)
|
§371/§102 date |
20120719
(20120719)
|
국제공개번호 |
WO2011/054668
(2011-05-12)
|
발명자
/ 주소 |
- Leibfried, Oliver
- Schmautz, Oliver
- Doberschuetz, Christian
- Lauxmann, Ralph
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
2 |
초록
▼
In a method for carrying out an emergency braking procedure in a vehicle, at least one electric actuator in the braking system is automatically actuated to generate an increased brake force in the case of an emergency situation. A maximum voltage, which exceeds the rated voltage of the actuator, is
In a method for carrying out an emergency braking procedure in a vehicle, at least one electric actuator in the braking system is automatically actuated to generate an increased brake force in the case of an emergency situation. A maximum voltage, which exceeds the rated voltage of the actuator, is applied to the electric actuator.
대표청구항
▼
1. A method for performing an emergency braking procedure in a vehicle in the event of an emergency situation, the method comprising: determining an existence of an emergency state; andresponsive to the determination of the emergency state, automatically generating an emergency vehicle brake force f
1. A method for performing an emergency braking procedure in a vehicle in the event of an emergency situation, the method comprising: determining an existence of an emergency state; andresponsive to the determination of the emergency state, automatically generating an emergency vehicle brake force for braking the vehicle by switching from (a) a first voltage supply state, in which voltage from a voltage source of an vehicle electrical system, which supplies voltage to a plurality of electrical components of the vehicle, is applied to an electric actuator of a braking system to (b) a second voltage supply state, in which voltage from a supplemental electrical energy store is applied to the electric actuator;wherein: the supplemental electrical energy store is one of (i) connected in series with the voltage source of the vehicle electrical system and (ii) arranged on a separate line than the voltage source of the vehicle electrical system;the voltage from the voltage source of the vehicle electrical system is within a rated voltage of the electric actuator;when the voltage from the supplemental electrical energy store is applied to the electric actuator, the rated voltage of the actuator is exceeded; andapplication of the voltage from the supplemental electrical energy store to the electric actuator is performed conditional upon that the determination that the emergency state exists is made. 2. The method of claim 1, wherein an electric motor is used as the electric actuator with the aid of which the brake force is built up. 3. The method of claim 2, wherein the electric motor drives a pump for pumping hydraulic fluid. 4. The method of claim 1, wherein the emergency state is determined via a sensor system in the vehicle, the sensor system being a surroundings sensor system. 5. The method of claim 4, wherein the surroundings sensor system includes at least one of a radar, a lidar, and an optical sensor, a navigation system, a vehicle to vehicle communication device, and an inertial sensor system in the vehicle. 6. The method of claim 1, wherein the supplemental electrical energy store is connected in series to the voltage source of the vehicle electrical system such that: in the second voltage supply state, the voltage from the supplemental electrical energy store is combines with the voltage from the voltage source of the vehicle electrical system; andin the first voltage supply state, the supplemental electrical energy store is bypassed such that the voltage from the voltage source of the vehicle electrical system is applied to the electric actuator without the voltage from the supplemental electrical energy store. 7. The method of claim 1, wherein the emergency state is determined on the basis of an airbag deployment. 8. The method of claim 1, wherein the supplemental electrical energy store is arranged on the separate line, such that only one of the voltage source of the vehicle electrical system and the supplemental electrical energy store is connectable at any one time for applying voltage to the electric actuator. 9. The method of claim 1, wherein the voltage level of the voltage applied to the electric actuator from the supplemental energy store is such that the application of the voltage from the supplemental energy store damages the electric actuator. 10. A braking system in a vehicle, comprising: a regulating/control unit for performing an emergency braking procedure in the vehicle in the event of an emergency situation, the regulating/control unit including an actuating arrangement configured to: determine an existence of an emergency state; andresponsive to the determination of the emergency state, automatically generate an emergency vehicle brake force for braking the vehicle by switching from (a) a first voltage supply state, in which voltage from a voltage source of an vehicle electrical system, which supplies voltage to a plurality of electrical components of the vehicle, is applied to an electric actuator of a braking system to (b) a second voltage supply state, in which voltage from a supplemental electrical energy store is applied to the electric actuator;wherein: the supplemental electrical energy store is one of (i) connected in series with the voltage source of the vehicle electrical system and (ii) arranged on a separate line than the voltage source of the vehicle electrical system;the voltage from the voltage source of the vehicle electrical system is within a rated voltage of the electric actuator;when the voltage from the supplemental electrical energy store is applied to the electric actuator, the rated voltage of the actuator is exceeded; andapplication of the voltage from the supplemental electrical energy store to the electric actuator is performed conditional upon that the determination that the emergency state exists is made. 11. The braking system of claim 10, wherein the braking system includes a hydraulic braking system. 12. A regulating control unit for performing an emergency braking procedure in a vehicle in the event of an emergency situation, comprising: a processing arrangement configured to determine an existence of an emergencyan actuating arrangement configured to: determine an existence of an emergency state; andresponsive to the determination of the emergency state, automatically generate an emergency vehicle brake force for braking the vehicle by switching from (a) a first voltage supply state, in which voltage from a voltage source of an vehicle electrical system, which supplies voltage to a plurality of electrical components of the vehicle, is applied to an electric actuator of a braking system to (b) a second voltage supply state, in which voltage from a supplemental electrical energy store is applied to the electric actuator;wherein: the supplemental electrical energy store is one of (i) connected in series with the voltage source of the vehicle electrical system and (ii) arranged on a separate line than the voltage source of the vehicle electrical system;the voltage from the voltage source of the vehicle electrical system is within a rated voltage of the electric actuator;when the voltage from the supplemental electrical energy store is applied to the electric actuator, the rated voltage of the actuator is exceeded; andapplication of the voltage from the supplemental electrical energy store to the electric actuator is performed conditional upon that the determination that the emergency state exists is made. 13. A driver assistance system in a vehicle, which includes an electronic stability program (ESP), comprising: a regulating/control unit for performing an emergency braking procedure in the vehicle in the event of an emergency situation, the regulating/control unit including an actuating arrangement configured to: determine an existence of an emergency state; andresponsive to the determination of the emergency state, automatically generate an emergency vehicle brake force for braking the vehicle by switching from (a) a first voltage supply state, in which voltage from a voltage source of an vehicle electrical system, which supplies voltage to a plurality of electrical components of the vehicle, is applied to an electric actuator of a braking system to (b) a second voltage supply state, in which voltage from a supplemental electrical energy store is applied to the electric actuator;wherein: the supplemental electrical energy store is one of (i) connected in series with the voltage source of the vehicle electrical system and (ii) arranged on a separate line than the voltage source of the vehicle electrical system;the voltage from the voltage source of the vehicle electrical system is within a rated voltage of the electric actuator;when the voltage from the supplemental electrical energy store is applied to the electric actuator, the rated voltage of the actuator is exceeded; andapplication of the voltage from the supplemental electrical energy store to the electric actuator is performed conditional upon that the determination that the emergency state exists is made.
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