[미국특허]
Method and apparatus for magneto-rheological brake systems
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16D-057/00
F16D-121/20
출원번호
14828420
(2015-08-17)
등록번호
11231078
(2022-01-25)
발명자
/ 주소
Nguyen, Hung Quoc
출원인 / 주소
Ton Duc Thang University
인용정보
피인용 횟수 :
0인용 특허 :
0
초록▼
A method and apparatus for an automobile's magneto-rheological brake (MRB) are disclosed which include: a shaft connected to a stationary housing, a magneto-rheological fluid chamber positioned inside the stationary housing, a rotary disc connected to and rotate with the shaft, a plurality of magnet
A method and apparatus for an automobile's magneto-rheological brake (MRB) are disclosed which include: a shaft connected to a stationary housing, a magneto-rheological fluid chamber positioned inside the stationary housing, a rotary disc connected to and rotate with the shaft, a plurality of magnetic coils wound directly onto a lateral side of the MRB chamber.
대표청구항▼
1. An magneto-rheological brake (MRB), comprising: a rotatable shaft;a stationary housing having openings where said rotatable shaft goes through;a chamber formed inside said stationary housing;a rotary disc, positioned inside said chamber, and mechanically interconnected to said rotatable shaft;a f
1. An magneto-rheological brake (MRB), comprising: a rotatable shaft;a stationary housing having openings where said rotatable shaft goes through;a chamber formed inside said stationary housing;a rotary disc, positioned inside said chamber, and mechanically interconnected to said rotatable shaft;a first magnetic coil and a second magnetic coil wound onto a left lateral wall of said chamber, and a third magnetic coil and a fourth magnetic coil wound onto a right lateral wall of said chamber; anda magneto-rheological fluid filled said chamber. 2. The magneto-rheological brake of claim 1 wherein said first magnetic coil and said third magnetic coil are wound directly on a lateral left wall of said chamber and said second magnetic and said fourth magnetic coil wound directly on a right lateral wall of said chamber. 3. The magneto-rheological brake of claim 1 further comprising: a controller and current amplifier electrically connected to said first magnetic coil, said second magnetic coil, said third magnetic coil, and said fourth magnetic coil so as to control the currents and the magnetic flux, and the properties of said magneto-rheological fluid. 4. The magneto-rheological brake of claim 1 wherein the resistance of said first magnetic coil and said second magnetic coil is 3 ohms (3Ω) and the number of coil turns is 140 turns. 5. The magneto-rheological brake of claim 1 wherein said stationary housing further comprises a first recess located on said left lateral wall of said chamber and a second recess located on said right lateral wall of said chamber opposite to said first recess; wherein said first magnetic coil is wound inside said first recess and said second magnetic coil is wound inside said second recess. 6. The magneto-rheological brake of claim 1 wherein said stationary housing further comprises a third recess located on said left lateral wall of said chamber and a fourth recess located on said right lateral wall of said chamber opposite to said third recess; wherein said third magnetic coil is wound inside said third recess and said fourth magnetic coil is wound inside said fourth recess. 7. The magneto-rheological brake of claim 1 wherein said stationary housing has a disc shape. 8. The magneto-rheological brake of claim 1 wherein said stationary housing has a rectangular shape. 9. The magneto-rheological brake of claim 1 wherein said stationary housing has a polygonal shape. 10. The magneto-rheological brake of claim 1 wherein said stationary housing further comprises a left segment and a right segment. 11. The magneto-rheological brake of claim 10 wherein said left segment and said right segment are connected together by a first sealant along a vertical axis perpendicular to said rotatable shaft. 12. The magneto-rheological brake of claim 1 wherein said first magnetic coil, said second magnetic coil each has a width of 3.8 mm, a height of 4.5 mm, and a radius of 36 mm. 13. The magneto-rheological brake of claim 1 wherein said rotatable shaft has a radius of 6 mm. 14. The magneto-rheological brake of claim 1 wherein a gap between said rotatable shaft and inner walls of said chamber has a width of 1 mm. 15. The magneto-rheological brake of claim 9 wherein the distance from the center of said rotatable shaft to a first apex of said stationary housing is 13 mm and the distance from said chamber to said first apex is 2 mm, the distance from the center of said rotatable shaft to a second apex is 27.5 mm and the distance from said chamber to said first apex is 2.6 mm, wherein the distance from the center of said rotatable shaft to a third apex is 34 mm and the distance from said chamber to said third apex is 8 mm, the distance from the center of said rotatable shaft to a fourth apex is 42 mm and the distance from said chamber to said fourth apex is 7.7 mm, the distance from the center of said rotatable shaft to a fifth apex is 43.5 mm and the distance from said chamber to said fifth apex is 5.8 mm, the distance from the center of said rotatable shaft to a sixth apex is 46.6 mm and the distance from said chamber to said first apex is 1.1 mm, and wherein the distance from the center of said rotatable shaft to a seventh apex is 47.6 mm and the distance from said chamber to said first apex is 0.3 mm. 16. A method of making a magneto-rheological brake (MRB) comprising: (a) providing a rotatable shaft;(b) providing a stationary housing having an opening at the center of said stationary housing;(c) connecting said stationary housing to said rotatable shaft through said opening;(d) providing a magneto-rheological fluid chamber inside said stationary housing;(e) providing a rotary disc, positioned inside said magneto-rheological fluid chamber, and connected to said rotatable shaft; and(f) winding a first magnetic coil and a second magnetic coil wound onto a left lateral wall of said magneto-rheological fluid chamber, and a third magnetic coil and a fourth magnetic coil wound onto a right lateral wall of said magneto-rheological fluid chamber. 17. The method of claim 16 wherein said step (f) of winding further comprises: forming a first recess on said left lateral wall of said magneto-rheological fluid chamber; andforming a second recess on said right lateral wall of said magneto-rheological fluid chamber and opposite to said first magnetic coil;forming a third recess on said left lateral wall of said magneto-rheological fluid chamber; andforming a fourth recess on said right lateral wall of said magneto-rheological fluid chamber and opposite to said first magnetic coil. 18. The method of claim 16 wherein said step (b) of providing a stationary housing further comprises providing a polygonal stationary housing. 19. The method of claim 16 further comprising: providing a controller electrically connected to said plurality of magnetic coils so as to control currents, magnetic fluxes, and the properties of said magneto-rheological fluid chamber. 20. The method of claim 17 wherein said step (b) of providing a stationary housing further comprises: providing a seven segmented polygonal stationary housing and wherein the distance from the center of said rotatable shaft to a first apex stationary housing is 13 mm and the distance from said magneto-rheological fluid chamber to said first apex is 2 mm, the distance from the center of said rotatable shaft to a second apex stationary housing is 27.5 mm and the distance from said magneto-rheological fluid chamber to said first apex is 2.6 mm, wherein the distance from the center of said rotatable shaft to a third apex of said stationary housing is 34 mm and the distance from said magneto-rheological fluid chamber to said third apex is 8 mm, the distance from the center of said rotatable shaft to a fourth apex of said stationary housing is 42 mm and the distance from said magneto-rheological fluid chamber to said fourth apex is 7.7 mm, the distance from the center of said rotatable shaft to a fifth apex of said stationary housing is 43.5 mm and the distance from said magneto-rheological fluid chamber to said fifth apex is 5.8 mm, the distance from the center of said rotatable shaft to a sixth apex of said stationary chamber is 46.6 mm and the distance from said magneto-rheological fluid chamber to said first apex is 1.1 mm, and wherein the distance from the center of said rotatable shaft to a seventh apex of said stationary chamber is 47.6 mm and the distance from said magneto-rheological fluid chamber to said first apex is 0.3 mm.
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