Method for obtaining an arm for multi-link suspensions of automotive vehicles and a suspension arm
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60G-007/00
B60G-003/04
B23P-013/04
B23P-015/00
출원번호
US-0851514
(2015-09-11)
등록번호
US-9636961
(2017-05-02)
우선권정보
EP-14382346 (2014-09-12)
발명자
/ 주소
Mosteiro Goyoaga, Jose Ramón
출원인 / 주소
EDAI TECHNICAL UNIT, A.I.E.
대리인 / 주소
Fein, Michael B.
인용정보
피인용 횟수 :
0인용 특허 :
11
초록▼
A suspension arm for multi-link suspensions of automotive vehicles, comprising a body formed by a hollow extruded profile the cross-section of which has a closed outer contour formed by side walls and comprising at least one inner partition internally splitting the profile into at least two inner ca
A suspension arm for multi-link suspensions of automotive vehicles, comprising a body formed by a hollow extruded profile the cross-section of which has a closed outer contour formed by side walls and comprising at least one inner partition internally splitting the profile into at least two inner cavities, the extruded profile having the length of the arm to be obtained, according to a longitudinal axis of the arm, where a central section of the arm is machined in at least one side wall having no inner partition extending therefrom without the machining ever reaching an inner partition, and where the side walls having the at least one inner partition extending therefrom comprise an end opening in each end area of the arm, between which the central section is arranged, and a method for making the suspension arm.
대표청구항▼
1. A method for obtaining an arm for multi-link suspensions of automotive vehicles, comprising: a) extruding a hollow profile the cross-section of which has a closed outer contour formed by side walls (1, 1′) and comprising at least one inner partition (2) internally splitting the profile into at le
1. A method for obtaining an arm for multi-link suspensions of automotive vehicles, comprising: a) extruding a hollow profile the cross-section of which has a closed outer contour formed by side walls (1, 1′) and comprising at least one inner partition (2) internally splitting the profile into at least two inner cavities (3),b) transversely cutting the extruded profile into sections corresponding with the length of the arm to be obtained, according to a longitudinal axis (4) of the arm,c) in a central section (5) of the arm, machining at least one side wall (1) having no inner partition (2) extending therefrom without the machining ever reaching said at least one inner partition (2), andd) in the side walls (1′) having said at least one inner partition (2) extending therefrom, making at least one end opening (6) in each end area (7) of the arm, between which the central section (5) is arranged. 2. The method according to claim 1, which comprises, after any step beginning from step b), machining at least one terminal cross-sections (8) of the arm located in planes perpendicular to the longitudinal axis (4) of the arm, without reaching the corresponding end opening (6). 3. The method according to claim 2, which comprises, after any step beginning from step b), bending the longitudinal axis (4) of the arm with respect to the side wall (1) having no inner partition (2) extending therefrom. 4. The method according to claim 2, which comprises, after step d), assembling a connecting element (9) in each end opening (6). 5. The method according to claim 1, which comprises, after any step beginning from step b), forming the profile. 6. The method according to claim 5, which comprises, after any step beginning from step b), bending the longitudinal axis (4) of the arm with respect to the side wall (1) having no inner partition (2) extending therefrom. 7. The method according to claim 5, which comprises, after step d), assembling a connecting element (9) in each end opening (6). 8. The method according to claim 1, which comprises, after any step beginning from step b), bending the longitudinal axis (4) of the arm with respect to the side wall (1) having no inner partition (2) extending therefrom. 9. The method according to claim 8, which comprises, after step d), assembling a connecting element (9) in each end opening(6). 10. The method according to claim 1, which comprises, after step d), assembling a connecting element (9) in each end opening (6). 11. A suspension arm for multi-link suspensions of automotive vehicles, comprising a body formed by a hollow extruded profile the cross-section of which has a closed outer contour formed by side walls (1, 1′) and comprising at least one inner partition (2) internally splitting the profile into at least two inner cavities (3), said extruded profile having the length of the arm to be obtained, according to a longitudinal axis (4) of the arm, where a central section (5) of the arm is machined in at least one side wall (1) having no inner partition (2) extending therefrom without the machining ever reaching said at least one inner partition (2), and where the side walls (1′) having said at least one inner partition (2) extending therefrom comprise an end opening (6) in each end area (7) of the arm, between which the central section (5) is arranged. 12. The suspension arm according to claim 11, comprising two terminal cross-sections (8) located in planes perpendicular to the longitudinal axis (4) of the arm, where at least one of the terminal cross-sections (8) is machined without reaching the corresponding end opening (6). 13. The suspension-arm according to claim 12, comprising two inner partitions (2) parallel to one another, where the cross-section of each inner partition is rectangular, the side walls (1) not having inner partitions (2) extending therefrom being smaller than the side walls (1′) having inner partitions (2) extending therefrom. 14. The suspension arm according to claim 11, comprising a forming area. 15. The suspension-arm according to claim 14, comprising two inner partitions (2) parallel to one another, where the cross-section of each inner partition is rectangular, the side walls (1) not having inner partitions (2) extending therefrom being smaller than the side walls (1′) having inner partitions (2) extending therefrom. 16. The suspension arm according to claim 11, wherein the longitudinal axis (4) of the arm is bent with respect to the side wall (1) having no inner partition (2) extending therefrom. 17. The suspension-arm according to claim 16, comprising two inner partitions (2) parallel to one another, where the cross-section of each inner partition is rectangular, the side walls (1) not having inner partitions (2) extending therefrom being smaller than the side walls (1′) having inner partitions (2) extending therefrom. 18. The suspension arm according claim 11, comprising a connecting element (9) assembled in each end openina (6). 19. The suspension-arm according to claim 18, comprising two inner partitions (2) parallel to one another, where the cross-section of each inner partition is rectangular, the side walls (1) not having inner partitions (2) extending therefrom being smaller than the side walls (1′) having inner partitions (2) extending therefrom. 20. The suspension arm according to claim 11, comprising two inner partitions (2) parallel to one another, where the cross-section of each inner partition is rectangular, the side walls (1) not having inner partitions (2) extending therefrom being smaller than the side walls (1′) having inner partitions (2) extending therefrom.
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이 특허에 인용된 특허 (11)
Dziadosz Lawrence M. ; Pionke Ralf, Control arm for use in vehicle suspension system.
Jang, Gyewon; Lee, Woosik; Kim, Daeup; Park, Byungcheol; Oh, Kaehee, Method of manufacturing control arm using variable curvature extruding process and double-hollow-typed control arm manufactured thereby.
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