Systems and methods for braking aircraft, including braking intermediate main gears and differential braking
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60T-017/00
B64C-025/42
B64C-025/00
출원번호
US-0064615
(2005-02-23)
등록번호
US-7281684
(2007-10-16)
발명자
/ 주소
Steiner,David S.
Vandervoort,Richard D.
출원인 / 주소
The Boeing Company
대리인 / 주소
Perkins Coie LLP
인용정보
피인용 횟수 :
6인용 특허 :
38
초록▼
Systems and methods for braking aircraft are disclosed. These systems and methods can be employed on multi-main gear aircraft to reduce the radius with which the aircraft makes low speed, pivot turns. Further systems and methods can be used to correct the braking behavior of the aircraft during a
Systems and methods for braking aircraft are disclosed. These systems and methods can be employed on multi-main gear aircraft to reduce the radius with which the aircraft makes low speed, pivot turns. Further systems and methods can be used to correct the braking behavior of the aircraft during a turn when the actual or measured braking behavior of the aircraft deviates from the commanded turning behavior. For example, one system includes a controller operatively coupleable amongst a leftmost landing gear, a rightmost landing gear, and an intermediate landing gear of an aircraft. The controller can be configured to direct the application of brakes on wheels of the leftmost landing gear during a left turn, and direct the release of brakes on all wheels of the intermediate landing gear during the left turn. Another system includes a controller coupleable to left and right aircraft brakes, and is configured to receive a first signal corresponding to a commanded turn behavior, a second signal corresponding to an actual turn behavior, and, in response to an error value (based on the first and second signals) exceeding a threshold value, the controller can direct a change in braking force applied to at least one of the left and right aircraft brakes.
대표청구항▼
We claim: 1. An aircraft braking system, comprising: a controller operatively coupleable among a leftmost landing gear of an aircraft, a rightmost landing gear of the aircraft, and an intermediate landing gear of the aircraft, the intermediate landing gear being positioned aft of a nose wheel of th
We claim: 1. An aircraft braking system, comprising: a controller operatively coupleable among a leftmost landing gear of an aircraft, a rightmost landing gear of the aircraft, and an intermediate landing gear of the aircraft, the intermediate landing gear being positioned aft of a nose wheel of the aircraft between the leftmost landing gear and the rightmost landing gear, the controller including a computer-readable medium having instructions to direct the application and release of the leftmost landing gear brakes, the rightmost landing gear brakes, and the intermediate landing gear brakes, the controller being configured to direct the application of brakes on wheels of the leftmost landing gear during a left turn, and direct the release of brakes on all wheels of the intermediate landing gear during the left turn. 2. The braking system of claim 1 wherein the controller is configured to: receive a first signal corresponding to a speed of the aircraft on the ground; receive a second signal corresponding to a commanded turn angle; receive a third signal corresponding to a commanded brake level on the inside of the turn; receive a fourth signal corresponding to a commanded brake level on the outside of the turn; direct the release of brakes on all wheels of the intermediate landing gear if the first signal is below a first threshold value, the second signal is above a second threshold value, the third signal is above a third threshold value, and the fourth signal is below a fourth threshold value; and otherwise direct the application of a braking force to wheels of the intermediate landing gear. 3. The system of claim 1 wherein the controller is configured to: direct application of brakes of the intermediate gear if a commanded brake level is above a threshold value; and direct that the brakes of the intermediate gear be released if the commanded brake level is below the threshold value. 4. The system of claim 1 wherein the controller is configured to: direct application of brakes of the intermediate gear if a speed of the aircraft is above a threshold value; and direct that the brakes on the intermediate gear be released if the aircraft speed is below the threshold value. 5. The system of claim 1 wherein the controller is configured to: direct application of brakes of the intermediate gear if a commanded turn angle is below a threshold value; and direct that the brakes of the intermediate gear be released if the commanded turn angle is above the threshold value. 6. The system of claim 1 wherein the intermediate landing gear includes a left wheel and a right wheel and wherein when the controller directs the application of brakes on wheels of the intermediate landing gear, braking force is applied at least approximately equally to the left and right wheels. 7. The system of claim 1 wherein the controller is configured to direct the application of brakes at the leftmost landing gear and the rightmost landing gear, and wherein when the controller directs the application of brakes for at least one of the leftmost and rightmost landing gear, and the aircraft is commanded to turn left, the controller directs the application of brakes to all wheels on the left side of the leftmost landing gear and no wheels on the right side of the leftmost landing gear. 8. The system of claim 1 wherein the controller is configured to receive a first signal corresponding to a first commanded brake force to be applied to a left side of the aircraft and a second signal corresponding to a second commanded brake force to be applied to a right side of the aircraft, and wherein the controller is configured to direct application of brakes on the intermediate landing gear with a force that is at least approximately the average of the first and second commanded brake forces. 9. The system of claim 1 wherein the intermediate landing gear is the only intermediate landing gear of the aircraft, and wherein directing the release of brakes on all wheels of the intermediate landing gear includes directing the release of brakes on all wheels of the only intermediate landing gear of the aircraft. 10. The system of claim 1, further comprising the aircraft, the nose wheel, the leftmost landing gear, the rightmost landing gear, and the intermediate landing gear, and wherein the controller is coupled among the leftmost landing gear, the rightmost landing gear, and the intermediate landing gear. 11. A braking system for an aircraft, comprising: a controller operatively coupleable among a leftmost landing gear of an aircraft, a rightmost landing gear of the aircraft, a left intermediate landing gear of the aircraft positioned aft of a nose wheel of the aircraft between the leftmost landing gear and the rightmost landing gear, and a right intermediate landing gear of the aircraft positioned aft of the nose wheel between the rightmost landing gear and the left intermediate landing gear, the controller being configured to direct the application of brakes on wheels of the left intermediate landing gear during a left turn, and direct the release of brakes on wheels of the leftmost landing gear during the left turn. 12. The braking system of claim 11 wherein the controller is configured to: receive a first signal corresponding to a speed of the aircraft on the ground; receive a second signal corresponding to a commanded turn angle; receive a third signal corresponding to a commanded brake level on the inside of the turn; receive a fourth signal corresponding to a commanded brake level on the outside of the turn; direct the release of brakes on all wheels of the leftmost landing gear and the right intermediate landing gear while applying brakes to the left intermediate landing gear if the first signal is below a first threshold value, the second signal is above a second threshold value, the third signal is above a third threshold value, and the fourth signal is below a fourth threshold value; and otherwise apply a braking force to wheels of the leftmost landing gear. 13. The system of claim 11 wherein the controller is configured to direct application of brakes on wheels of the left intermediate landing gear but not the leftmost landing gear and not the right intermediate landing gear if a commanded left brake level during a left turn is above a threshold value. 14. The system of claim 11 wherein the controller is configured to direct application of brakes of the left intermediate landing gear but not the leftmost landing gear and not the right intermediate gear if a speed of the aircraft during a left turn is below a threshold value. 15. The system of claim 11 wherein the controller is configured to: direct application of brakes of the leftmost landing gear and the left intermediate landing gear if a commanded left turn angle is below a threshold value; and direct that the brakes of the leftmost landing gear be released if the commanded left turn angle is above the threshold value. 16. The system of claim 11 wherein the left intermediate landing gear includes at least one left wheel and at least one right wheel and wherein when the controller directs the application of brakes on wheels of the left intermediate landing gear, the braking force is applied to the at least one left wheel of the left intermediate landing gear but not the at least one right wheel of the left intermediate landing gear. 17. The system of claim 11, further comprising the aircraft, the nose wheel, the leftmost landing gear, the rightmost landing gear, the left intermediate landing gear and the right intermediate landing gear, and wherein the controller is coupled among the leftmost landing gear, the rightmost landing gear, the left intermediate landing gear, and the right intermediate landing gear. 18. The system of claim 11 wherein the controller includes a computer-readable medium having instructions to direct the application and release of the leftmost landing gear brakes, the rightmost landing gear brakes, the left intermediate landing gear brakes and the right intermediate landing gear brakes. 19. A method for braking an aircraft, comprising: in response to receiving a command for a left turn of an aircraft having a leftmost landing gear, a rightmost landing gear, and an intermediate landing gear of the aircraft positioned aft of a nose wheel of the aircraft between the leftmost landing gear and the rightmost landing gear: receiving a first signal corresponding to a speed of the aircraft on the ground; receiving a second signal corresponding to a commanded turn angle; receiving a third signal corresponding to a commanded brake level on the inside of the turn; receiving a fourth signal corresponding to a commanded brake level on the outside of the turn; directing the release of brakes on all wheels of the intermediate landing gear if the first signal is below a first threshold value, the second signal is above a second threshold value, the third signal is above a third threshold value, and the fourth signal is below a fourth threshold value; and otherwise directing the application of a braking force to wheels of the intermediate landing gear. 20. The method of claim 19 wherein the intermediate landing gear includes a left wheel and a right wheel and wherein directing the application of brakes on wheels of the intermediate landing gear includes directing that a braking force be applied at least approximately equally to the left and right wheels. 21. The method of claim 19 wherein the intermediate landing gear is the only intermediate landing gear of the aircraft, and wherein directing the release of brakes on all wheels of the intermediate landing gear includes directing the release of brakes on all wheels of the only intermediate landing gear of the aircraft. 22. A method for braking an aircraft, comprising: in response to receiving a command for a left turn of an aircraft having a leftmost landing gear, a rightmost landing gear, a left intermediate landing gear of the aircraft positioned aft of a nose wheel of the aircraft between the leftmost landing gear and the rightmost landing gear, and a right intermediate landing gear of the aircraft positioned aft of the nose wheel between the rightmost landing gear and the left intermediate landing gear: directing the application of brakes on wheels of the left intermediate landing gear during the left turn; and directing the release of brakes on wheels of the leftmost landing gear during the left turn. 23. The method of claim 22, further comprising: receiving a first signal corresponding to a speed of the aircraft on the ground; receiving a second signal corresponding to a commanded turn angle; receiving a third signal corresponding to a commanded brake level on the inside of the turn; receiving a fourth signal corresponding to a commanded brake level on the outside of the turn; directing the release of brakes on wheels of the leftmost landing gear and the right intermediate landing gear if the first signal is below a first threshold value, the second signal is above a second threshold value, the third signal is above a third threshold value, and the fourth signal is below a fourth threshold value; and otherwise directing the application of a braking force to wheels of the leftmost landing gear. 24. The method of claim 22, further comprising directing the application of brakes on wheels of the left intermediate landing gear but not the leftmost landing gear and not the right intermediate landing gear if a commanded brake level is above a threshold value. 25. The method of claim 22, further comprising directing the application of brakes on wheels of the left intermediate landing gear but not the leftmost landing gear and not the right intermediate landing gear if a speed of the aircraft is below a threshold value. 26. The method of claim 22, further comprising: directing the application of brakes on wheels of the leftmost landing gear and the left intermediate landing gear if a commanded turn angle is below a threshold value; and directing that the brakes of the leftmost landing gear be released if the commanded turn angle is above the threshold value. 27. An aircraft braking system, comprising: a controller operatively coupleable among a leftmost landing gear of an aircraft, a rightmost landing gear of the aircraft, and an intermediate landing gear of the aircraft, the intermediate landing gear being positioned aft of a nose wheel of the aircraft between the leftmost landing gear and the rightmost landing gear, the controller being configured to: receive a first signal corresponding to a speed of the aircraft on the ground; receive a second signal corresponding to a commanded turn angle; receive a third signal corresponding to a commanded brake level on the inside of the turn; receive a fourth signal corresponding to a commanded brake level on the outside of the turn; direct the release of brakes on all wheels of the intermediate landing gear if the first signal is below a first threshold value, the second signal is above a second threshold value, the third signal is above a third threshold value, and the fourth signal is below a fourth threshold value; and otherwise direct the application of a braking force to wheels of the intermediate landing gear. 28. An aircraft braking system, comprising: a controller operatively coupleable among a leftmost landing gear of an aircraft, a rightmost landing gear of the aircraft, and an intermediate landing gear of the aircraft, the intermediate landing gear being positioned aft of a nose wheel of the aircraft between the leftmost landing gear and the rightmost landing gear, the controller being configured to direct the application of brakes on wheels of the leftmost landing gear during a left turn, and direct the release of brakes on all wheels of the intermediate landing gear during the left turn, and wherein the controller is configured to: direct application of brakes of the intermediate gear if a commanded brake level is above a threshold value; and direct that the brakes of the intermediate gear be released if the commanded brake level is below the threshold value. 29. An aircraft braking system, comprising: a controller operatively coupleable among a leftmost landing gear of an aircraft, a rightmost landing gear of the aircraft, and an intermediate landing gear of the aircraft, the intermediate landing gear being positioned aft of a nose wheel of the aircraft between the leftmost landing gear and the rightmost landing gear, the controller being configured to direct the application of brakes on wheels of the leftmost landing gear during a left turn, and direct the release of brakes on all wheels of the intermediate landing gear during the left turn, and wherein the controller is configured to: direct application of brakes of the intermediate gear if a speed of the aircraft is above a threshold value; and direct that the brakes on the intermediate gear be released if the aircraft speed is below the threshold value. 30. An aircraft braking system, comprising: a controller operatively coupleable among a leftmost landing gear of an aircraft, a rightmost landing gear of the aircraft, and an intermediate landing gear of the aircraft, the intermediate landing gear being positioned aft of a nose wheel of the aircraft between the leftmost landing gear and the rightmost landing gear, the controller being configured to direct the application of brakes on wheels of the leftmost landing gear during a left turn, and direct the release of brakes on all wheels of the intermediate landing gear during the left turn, and wherein the controller is configured to: direct application of brakes of the intermediate gear if a commanded turn angle is below a threshold value; and direct that the brakes of the intermediate gear be released if the commanded turn angle is above the threshold value. 31. An aircraft braking system, comprising: a controller operatively coupleable among a leftmost landing gear of an aircraft, a rightmost landing gear of the aircraft, and an intermediate landing gear of the aircraft, the intermediate landing gear being positioned aft of a nose wheel of the aircraft between the leftmost landing gear and the rightmost landing gear, the controller being configured to direct the application of brakes on wheels of the leftmost landing gear during a left turn, and direct the release of brakes on all wheels of the intermediate landing gear during the left turn, and wherein the controller is configured to direct the application of brakes at the leftmost landing gear and the rightmost landing gear, further wherein when the controller directs the application of brakes for at least one of the leftmost and rightmost landing gear, and the aircraft is commanded to turn left, the controller directs the application of brakes to all wheels on the left side of the leftmost landing gear and no wheels on the right side of the leftmost landing gear. 32. An aircraft braking system, comprising: a controller operatively coupleable among a leftmost landing gear of an aircraft, a rightmost landing gear of the aircraft, and an intermediate landing gear of the aircraft, the intermediate landing gear being positioned aft of a nose wheel of the aircraft between the leftmost landing gear and the rightmost landing gear, the controller being configured to receive a first signal corresponding to a first commanded brake force to be applied to a left side of the aircraft and a second signal corresponding to a second commanded brake force to be applied to a right side of the aircraft, and wherein the controller is configured to direct application of brakes on the intermediate landing gear with a force that is at least approximately the average of the first and second commanded brake forces.
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