Multiple-stage collision avoidance braking system and method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60T-007/22
B60T-008/26
B60T-013/26
B60T-013/68
B60T-013/66
출원번호
US-0439261
(2017-02-22)
등록번호
US-10124777
(2018-11-13)
발명자
/ 주소
Gomes, Arnaldo C.
출원인 / 주소
Gomes, Arnaldo C.
대리인 / 주소
Roberts & Roberts, LLP
인용정보
피인용 횟수 :
0인용 특허 :
30
초록▼
An apparatus and method for automatic actuation and control of an air braking system on a commercial vehicle, under a warning of collision conditions, has multiple stages of operation, which supplements the normal brake pedal activation and control of the air brake operation under the driver's foot
An apparatus and method for automatic actuation and control of an air braking system on a commercial vehicle, under a warning of collision conditions, has multiple stages of operation, which supplements the normal brake pedal activation and control of the air brake operation under the driver's foot control. Automatic actuation has two stages: (1) impending collision automatic activation and control for 1.4 second closure; and (2) imminent collision automatic activation and control for 0.9 seconds closure. A determination of closure occurring in excess of 1.6 seconds, turns off the warning, and also deactivates the automatic activation and control. A modification to a standard air brake system structure enables the addition of the automatic activation and control stages. When an impending collision signal is received, an activation component operates valves to pressurize the rear brakes to 40 psi. When the air pressure at the rear brakes rises to 20 psi, other valves pressurize the front brakes. This first stage automatic operation stops or slows the vehicle with 40 psi on the rear brakes and 20 psi on the front brakes. When an imminent collision signal is received, the activation component opens valves to pressurize the rear brakes to 120 psi. Once the air pressure at the rear brakes rises to 20 psi, the front brakes are also pressurized. This second stage automatic operation stops the vehicle with 120 psi on the rear brakes and 80 psi on the front brakes, unless restricted to a lower pressure by the brake system manufacturer. The driver can deactivate the automatic braking functions by stepping on the brake pedal or by operating the vehicle turn signals.
대표청구항▼
1. A method of automatic braking, collision avoidance for vehicle air brake systems in vehicles having a driver brake pedal (21), including the steps of: detecting an impending collision condition with a collision warning device (11);pressurizing a rear relay valve (51) with a source air pressure of
1. A method of automatic braking, collision avoidance for vehicle air brake systems in vehicles having a driver brake pedal (21), including the steps of: detecting an impending collision condition with a collision warning device (11);pressurizing a rear relay valve (51) with a source air pressure of about 40 psi when said impending collision condition is detected, wherein said pressurizing is actuated automatically by activating an automatic braking control system, said automatic braking control system comprising an actuation apparatus (13);pressurizing a front connector gate (36) when the air pressure at the rear relay valve (51) has risen to about 20 psi, wherein said pressurizing is actuated automatically with said actuation apparatus (13); andmaintaining an air pressure of 40 psi at the rear relay valve (51) and 20 psi at the front connector gate (36) with said actuation apparatus (13) to slow or stop the vehicle; andwherein pressing the driver brake pedal (21) deactivates the automatic braking control system. 2. The method of collision avoidance of claim 1, including the steps of: detecting an imminent collision condition;pressurizing the rear relay valve (51) with a source pressure of about 120 psi when said imminent collision condition is detected;begin pressurizing the front connector gate (36) when the pressure at the rear brakes has risen to about 20 psi; andmaintaining an air pressure of about 120 psi at the rear relay valve (51) and about 80 psi at the front connector gate (36) to slow or stop the vehicle. 3. The method of collision avoidance of claim 1, including the steps of: detecting an imminent collision condition;pressurizing the rear relay valve (51) to a pressure of about 80 psi when said imminent collision condition is detected;begin pressurizing the front connector gate (36) when the pressure at the rear relay valve (51) has risen to about 20 psi; andmaintaining an air pressure of about 80 psi at the rear relay valve (51) and about 60 psi at the front connector gate (36) to slow or stop the vehicle. 4. The method of collision avoidance of claim 1, including releasing the pressure on the rear relay valve (51) and the front connector gate (51) and returning brake operation entirely to the driver when a non-collision condition is detected. 5. The method of collision avoidance of claim 1, wherein said impending collision is determined to occur in about 1.4 seconds. 6. The method of collision avoidance of claim 2, wherein said imminent collision is determined to occur in about 0.9 seconds. 7. The method of collision avoidance of claim 4, wherein said non-collision condition is determined by a closure of greater than 1.6 seconds. 8. The method of collision avoidance of claim 1, including maintaining a front air pressure reservoir (29) at 120 psi, and a rear air pressure reservoir (45) at 120 psi, and pressurizing said rear relay valve (51) from said rear air pressure reservoir (45), and pressurizing said front connector gate (36) from said front air pressure reservoir (29). 9. The method of collision avoidance of claim 2, including maintaining a front air pressure reservoir (29) at 120 psi, and a rear air pressure reservoir (45) at 120 psi, wherein said pressurizing of said rear relay valve (51) is from said rear air pressure reservoir (45), and said pressurizing of said front connector gate (36) is from said front air pressure reservoir (29). 10. The method of collision avoidance of claim 8, wherein the step of pressurizing the rear relay valve (51) includes opening at least one valve between said rear air pressure reservoir (45) and said rear relay valve (51) with an air pressure of 120 psi, and opening at least one valve between said front air pressure reservoir (29) and said front connector gate (36) with an air pressure of 80 psi. 11. The method of collision avoidance of claim 8, wherein the step of pressurizing the rear relay valve (51) includes opening at least one valve between said rear air pressure reservoir (45) and said rear relay valve (51) with an air pressure of 80 psi, and opening at least one valve between said front air pressure reservoir (29) and said front connector gate (36) with an air pressure of 60 psi. 12. An automatic braking collision avoidance system for a commercial vehicle air brake system, said commercial vehicle air brake system having a front connector gate (36), a rear relay valve (51) and a driver brake pedal (21), the system comprising: a collision warning device (11) providing a signal representing closure time with a foregoing vehicle or object, including an impending collision warning signal and an imminent collision warning signal;a rear air pressure reservoir (45), and a front air pressure reservoir (29), where the pressure in said rear air pressure reservoir (45) and said front air pressure reservoir (29) is each maintained at the same pressure;an automatic braking control system that comprises an actuation apparatus (13), said actuation apparatus (13) being electrically connected to said collision warning device (11), wherein said automatic braking control system is activated in response to an impending collision warning signal or an imminent collision warning signal from said collision warning device (11);a rear brake control valve (23) in a pneumatic pressure line between said rear air pressure reservoir (45) and said rear relay valve (51);a front brake control valve (25) in a pneumatic pressure line between said front air pressure reservoir (29) and said front connector gate (36);wherein when an impending collision warning signal is detected, said actuation apparatus (13) first controls air pressurization of said rear relay valve (51) with air from the rear air pressure reservoir (45) such that when the air pressure at said rear relay valve (51) reaches a first threshold said actuation apparatus (13) controls pressurization of said front connector gate (36) with air from the front air pressure reservoir (29) to pressurize said front connector gate (36);wherein when the air pressure at said rear relay valve (51) and the air pressure at said front connector gate (36) each reach a predetermined target pressure, further pressure increases are ceased and each target pressure is maintained; andwherein pressing the driver brake pedal (21) deactivates the automatic braking control system. 13. The automatic braking collision avoidance system of claim 12, wherein when an imminent collision warning signal is detected, said actuation apparatus (13) first controls pressurization of said rear relay valve (51) to the target pressure with air from said rear air reservoir pressure (45), wherein when said air pressure at said rear relay valve (51) reaches a first threshold, said actuation apparatus (13) then controls pressurization of said front connector gate (36) with air pressure from the front air pressure reservoir (29) to a target pressure of less than said rear relay valve (51) target pressure, wherein when the air pressures at said rear relay valve (51) and said front connector gate (36) each reach the predetermined ultimate target pressures, further air pressure increases are ceased, and the ultimate target pressures are maintained. 14. The automatic braking collision avoidance system of claim 12, wherein the first threshold pressure at said rear relay valve (51) is about 20 psi, and wherein the predetermined target pressure at which said air pressure increases are ceased is at about 40 psi for said rear relay valve (51), and at about 20 psi for said front connector gate (36). 15. The automatic braking collision avoidance system of claim 13, wherein said rear air pressure reservoir (45) and said front air pressure reservoir (29) are each at about 120 psi, and wherein the pressure threshold at the rear relay valve (51) for activating said pressurization of the front connector gate (36) is about 20 psi, and wherein the predetermined ultimate target pressure at said rear relay valve (51) is 120 psi and wherein the predetermined ultimate target pressure at said front connector gate (36) is about 80 psi. 16. The automatic braking collision avoidance system of claim 12 wherein operation of the rear brake control valve (23) between said rear air pressure reservoir (45) and said rear relay valve (51) is controlled with a high pressure pneumatic signal from said actuation apparatus (13), which pneumatic control signal passes through a gate (65) that is pneumatically connected to rear brake control valve (23), the operation of said gate (65) being controlled by a separate pneumatic control signal from said actuation apparatus (13). 17. The automatic braking collision avoidance system of claim 12 wherein said actuation apparatus (13) comprises an electronic solenoid operated two position valve. 18. The method of claim 1, wherein said automatic braking control system comprises a collision warning device (11) and an actuation apparatus (13), wherein said actuation apparatus (13) comprises an electronic solenoid operated two position valve. 19. The automatic braking collision avoidance system of claim 12 further comprising an electro-magnetic retarder mounted to a rear axle or to a drive shaft of the vehicle. 20. A method of automatic braking and collision avoidance for vehicle air brake systems in vehicles having a driver brake pedal (21), including the steps of: receiving a collision indication signal from a collision warning device (11), said collision indication signal activating an automatic braking control system that comprises an actuation apparatus (13);pressurizing a rear relay valve (51) with air pressure from a rear air pressure reservoir (45) to a threshold pressure value when said collision indication signal is detected, wherein pressurizing of said rear relay valve (51) is actuated automatically with said actuation apparatus (13);pressurizing a front connector gate (36) with air pressure from a front air pressure reservoir (29) when the air pressure at the rear relay valve (51) reaches said threshold value, wherein pressurizing of said front connector gate (36) is actuated automatically with said actuation apparatus (13);wherein the air pressure on the rear relay valve (51) is maintained at a higher level than the air pressure on the front connector gate (36),wherein the rear relay valve (51) is continuously pressurized up to a maximum air pressure to slow or stop the vehicle, and wherein pressurization of the front connector gate (36) is stopped when said maximum air pressure on the rear relay valve (51) is reached; andwherein pressing the driver brake pedal (21) deactivates the automatic braking control system.
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이 특허에 인용된 특허 (30)
Feldmann, Joachim; Schlamann, Wilhelm, Air brake system.
Ebbeson Bengt E. O. (Jarnvagsgatan 8 302 48 Halmstad SEX) Sjoberg Ake L. (Torsdagsgrand 15 302 53 Halmstad SEX) Sjogren Franz B. (Pl 10911 305 90 Halmstad SEX), Apparatus in vehicles with compressed air brake systems for actuating the brake system on the detection, by a sensor, of.
Bond, III, John Vincent; Engelman, Gerald H; Ekmark, Jonas; Jansson, Jonas L. Z.; Tarabishy, M. Nabeel; Tellis, Levasseur, Autonomous emergency braking system.
Alexander Fuchs DE; Wolfgang Kiesewetter DE; Bernd Knoff DE; Carsten Lauer DE; Lorenz Maack DE; Eberhard Pfeifle DE; Manfred Steiner DE, Preventing the collision of a vehicle with an obstacle.
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