FR2743024A1 - Progressive rear suspension for bicycle - Google Patents

Abstract

The variable leverage rear suspension has a pivot (3) fixed on an oscillating swinging arm (1). The pivot is actuated by a bell crank (5) fixed to the chassis (6). A second bell crank (4) is fixed on the pivot and on the guide links (14), so that their mounting axes (7,11) are diametrically opposed to the pivot axis (3). The translation (T) performed by the axes (7,8) is perpendicular to the tangent to the rotation (R) in order to create a dead angle at the beginning of rotation.

Description

 The present invention relates to a device making it possible to modify the length of the lever exerted by an oscillating part on the shock absorber assembly.

 The ratio between the force exerted by an oscillating part (swing arm or suspension triangle) on its suspension (shock absorber + spring) being traditionally constant, the vehicle can sink too strongly if the force exerted on it or on its wheels is too important.

 The device according to the invention overcomes this problem. I1 is characterized by other types of suspension by the addition of a pivot fixed on the oscillating part actuated by a link fixed on the chassis or vice versa, according to the availability of the surrounding elements. Another link is fixed on the pivot and on guide rods such that its axes of rotation are diametrically opposite the axis of the pivot and that its shape circumvents the axis of the pivot.

 The constant lever exerted by the oscillating part on the damping-spring assembly is transmitted by the system to which it adds a second uniformly varied lever. The response of the shock absorber-spring assembly is amplified by the increase in the stroke as a function of the depression of the assembly.

 According to particular embodiments: - it is possible to reverse the direction of the system by fixing the support 2 on the chassis and the axis 10 with the fixing of the damper-spring assembly on the swinging arm.

- The return rod 4 can be replaced by a strut forming an integral part of the shock absorber. The three aligned axes are then the two fixing axes of the damper diametrically opposite to the axis 8 thanks to the curved strut.

The axis 7 can disappear and be replaced by a cylinder surrounded by a bronze coating and whose axis 8 (axis of the pivot) will be off-center with respect to the cylinder. This cylinder will activate a strut which is an integral part of the shock absorber.

- It is possible to position the link 5 on the axis side of the swinging arm and then position the damper towards the outside of the system.

The accompanying drawings illustrate the invention:
- Figure 1 shows the top view of the device.

 - Figure 2 shows in section the device mounted on the swinging arm and frame.

 - Figure 3 shows the device according to the invention.

 - Figure 4 shows the device according to the invention in another operating position.

 - Figures 5 and 6 show vanantes of the device.

 - Figure 7 shows a diagram highlighting the advantage of the system.

 In reference to the drawings, the device comprises a fixing 2 connecting the system to the swinging arm 1 and supporting the pivot 3 by the axis 8. A link 5 is fixed between pivot 3 and frame 6 by the axes 9 and 10 A link 4 is fixed on the pivot by the axis 7 and pushes the articulated guide rods on the oscillating arm by the axis 13.

Each axis rotates on bronze inserts.

 When the swinging arm is actuated, it then exerts a first lever on the damper transmitted by the device.

 The link 5 forces the pivot 3 to rotate and thus pushes the link 4. The link 4 then returns the force to the guide rods and thus to the damper-spring assembly 12.

 Note in Figure 3 the direction and direction of the translation T and rotation R vectors at the start of the movement; their directions are perpendicular. In Figure 4 where the device is actuated, their direction and their direction tend to meet; there is therefore creation of a blind spot at the start of the movement (FIG. 3), where the translation of the link 4 is low, or even non-existent, which passes to a maximum angle (FIG. 4) where the translation is significant. There is therefore a uniformly varied translation added to a constant lever, hence a variable travel-stroke ratio (Figure 7) where the force of the spring and the reaction of the shock absorber increase depending on the depression of the wheel by describing a parable, whereas the classic systems describe a straight line.

 According to a variant illustrated in FIG. 5, it is possible to replace the link 4 with a strut 15 bearing on the axis 7 and forming an integral part of the shock absorber. The shock absorber fixing axes are diametrically opposite the axis 8. The guide rods 14 are then removed. The manufacture of the system is then simplified.

 According to another variant illustrated in FIG. 6, the axis 7 on the pivot 3 is removed and it is replaced by a cylinder 18 fixed by the offset axis 8.

 The rotation of this cylinder generates a displacement of the strut 16 forming an integral part of the shock absorber. The cylinder will be driven by the socket head screw 17 which, by tightening, blocks the cylinder against the pivot. Among other things, it allows the cylinder to be wedged relative to the rest of the device in order to optimize operation.

 Note that it is preferable for the variants of Figures 5 and 6 to mount the link 5 on the axis side of the swing arm and the damper on the outside. This positioning of the device on the rest of the suspension system increases the variability of the device, not only by the very object of the invention, but also by moving the support of the damper-spring assembly on the device away from the axis swing arm.

 This device avoids that a significant force applied to the vehicle (high load) does not lead to a high lowering of the vehicle.

 It facilitates the absorption of shocks on the wheel on a shorter travel, which brings a more sporty behavior to a vehicle which must remain comfortable; it reduces, among other things, the pump effect felt on bicycles with rear suspension.

Claims (6)

1) Device varying the lever ratio between the travel and the stroke characterized by the addition of a pivot (3) fixed on an oscillating part (1). This pivot is actuated by a link (5) fixed on the chassis (6). Another link (4) is fixed on the pivot (3) and on guide rods (14), such that its fixing axes (7 and 11) are dianètraleient opposite to the axis (8) of the pivot (3) . 2) Device according to claim 1 characterized in that the translation (T) passing through the axes (7) and (8) is perpendicular to the tangent to the rotation (R) in order to create a dead angle at the start of the rotation. 3) Device characterized by the possibility of receiving instead of the link (4) a curved strut (15) forming an integral part of the shock absorber and whose axes are diametrically opposite the axis (8) of the pivot ( figure 5). 4) Device characterized by the possibility of adaptati.n of a cylinder whose axis (8) will be off-center; this cylinder will actuate a strut (16) forming an integral part of the damper (Figure 6). 5) Device according to any one of the preceding claims, characterized by the possibility of reversing the direction of the system by fixing the support (2) on the chassis and the axis (10) with the fixing of the damper-spring assembly on the swinging arm. . 6) Device according to any one of the preceding claims, characterized by the possibility of positioning the link (5) on the axis side of the swinging arm (1) and then positioning the damper (12) towards the outside of the system.