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公开(公告)号:EP1165331A1
公开(公告)日:2002-01-02
申请号:EP00985173.4
申请日:2000-12-16
发明人: ERHARDT, Herbert , GRAU, Ulrich , MEYER, Gerhard , ZERNICKEL, Alexander , KOBELEV, Vladimir , RÖHLING, Markus
CPC分类号: B60G15/068 , B60G15/063 , B60G15/07 , B60G2200/142 , B60G2200/44 , B60G2202/312 , B60G2204/1242 , B60G2204/418 , B60G2206/426
摘要: The invention relates to an arrangement with a helical spring (1) and a support bearing (2) for spring struts (3), especially for automobile spring struts (3) which support wheel axle limbs. The spring strut (3) comprises a shock absorber, a rolling bearing (7) with an axis (x), a supporting body (6) which is located beneath the rolling bearing (7) and supports the same, and a helical spring (1). The helical spring (1) has a force exertion line (f) which is positioned at an angle (a) in relation to the axis (x) of the rolling bearing (7). The helical spring (1) also has a first section (8) which winds around the supporting body (6) starting from the winding end (17) and is in contact with the same. The winding end (17) of the helical spring (1) is located in the area of the plane (E1) determined by the force exertion line (f) and the axis (x). This configuration ensures that the axial forces exerted by the helical spring (1) on the rolling bearing (7) have a maximum in the area of the force exertion line (f) of the transversal forces that act on the rolling bearing (7).
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公开(公告)号:EP1165331B1
公开(公告)日:2003-09-03
申请号:EP00985173.4
申请日:2000-12-16
发明人: ERHARDT, Herbert , GRAU, Ulrich , MEYER, Gerhard , ZERNICKEL, Alexander , KOBELEV, Vladimir , RÖHLING, Markus
CPC分类号: B60G15/068 , B60G15/063 , B60G15/07 , B60G2200/142 , B60G2200/44 , B60G2202/312 , B60G2204/1242 , B60G2204/418 , B60G2206/426
摘要: The invention relates to an arrangement with a helical spring (1) and a support bearing (2) for spring struts (3), especially for automobile spring struts (3) which support wheel axle limbs. The spring strut (3) comprises a shock absorber, a rolling bearing (7) with an axis (x), a supporting body (6) which is located beneath the rolling bearing (7) and supports the same, and a helical spring (1). The helical spring (1) has a force exertion line (f) which is positioned at an angle (a) in relation to the axis (x) of the rolling bearing (7). The helical spring (1) also has a first section (8) which winds around the supporting body (6) starting from the winding end (17) and is in contact with the same. The winding end (17) of the helical spring (1) is located in the area of the plane (E1) determined by the force exertion line (f) and the axis (x). This configuration ensures that the axial forces exerted by the helical spring (1) on the rolling bearing (7) have a maximum in the area of the force exertion line (f) of the transversal forces that act on the rolling bearing (7).
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