SUSPENSION STRUT AND ABUTMENT ELEMENT

Abstract

A suspension strut includes a cylinder having a piston moveable in the cylinder, a coil spring arranged around the cylinder, and an abutment element for mounting the coil spring. The position of the abutment element is adjustably fixable along the longitudinal direction of the cylinder with respect to one direction, the cylinder has a male thread, and the abutment element has a female thread corresponding to the male thread. A thread insert is arranged in the abutment element, the thread insert has a holding region and an actuating region, and the region between the holding region and the actuating region can be arranged in the threads of the male thread of the cylinder. A holding means for the holding region is in the abutment element, the actuating region is mounted moveably in the abutment element, and the diameter of the thread insert is variable by movement of the actuating region.

Claims

1. A suspension strut for a vehicle, in particular for a motorcycle, comprising: a cylinder having a piston moveable in the cylinder, a coil spring arranged at least partially around the cylinder, and an abutment element for mounting the coil spring, a position of the abutment element being adjustably fixable along the longitudinal direction of the cylinder at least with respect to one direction, and wherein the cylinder is at least region-wise provided with a male thread, and the abutment element is provided at least region-wise with a female thread corresponding to the male thread, wherein a thread insert is arranged in the abutment element, the thread insert having a holding region and an actuating region and the region between the holding region and the actuating region can be arranged in the threads of the male thread of the cylinder, and wherein a holding means for the holding region is provided in the abutment element, and the actuating region is mounted moveably in the abutment element, and the diameter of the thread insert is variable by a movement of the actuating region.

2. The suspension strut according to claim 1, wherein the thread insert is of a resilient structure.

3. The suspension strut according to claim 1, wherein the thread insert is in the form of a coil spring.

4. The suspension strut according to claim 1, wherein the abutment element has a slot in which the actuating region is moveably mounted.

5. The suspension strut according to claim 1, wherein the holding region and/or the actuating region is in the form of a radially outwardly pointing pin, in particular in the form of a radially outwardly bent spring end.

6. The suspension strut according to claim 5, wherein the holding means is in the form of a bore to which the holding region can be fixed.

7. The suspension strut according to claim 1, wherein the thread insert is of a resilient structure and is arranged in the abutment element in such a way that the actuating region presses against a first end of the slot or the actuating region is arranged in the region of the first end of the slot in the absence of an external applied force.

8. The suspension strut according to claim 1, wherein upon a movement of the actuating region in the direction of the other end of the slot the diameter of the thread insert is increased.

9. The suspension strut according to claim 1, wherein a second thread insert which is preferably of a resilient structure and quite particularly in the form of a coil spring can be arranged in the abutment element, wherein the second thread insert has a holding region and an actuating region and the region between the holding region of the second thread insert and the actuating region of the second thread insert is arranged in the threads of the male thread of the cylinder, and wherein a second holding means for the holding region of the second thread insert is provided in the abutment element and wherein the actuating region of the second thread insert is mounted moveably in the abutment element and wherein the diameter of the second thread insert is variable by a movement of the actuating region of the second thread insert.

10. The suspension strut according to claim 9, wherein the abutment element has a second slot, in which the actuating region of the second thread insert is moveably mounted.

11. The suspension strut according to at least one of the preceding claims wherein the first thread insert and the second thread insert blend into each other, preferably by the first holding region and the second holding region blending into each other or by the first holding region and the second holding region being the same.

12. The suspension strut according to claim 1, wherein the holding region of the second thread insert and/or the actuating region of the second thread insert is in the form of a radially outwardly pointing pin, in particular in the form of a radially outwardly bent spring end.

13. The suspension strut according to claim 12, wherein the second holding means is in the form of a bore, in which the holding region of the second thread insert can be fixed.

14. The suspension strut according to claim 1, wherein the second thread insert is of a resilient structure and is so arranged in the abutment element that the actuating region of the second thread insert presses against a first end of the second slot or the actuating region of the second thread insert is arranged in the region of the first end of the slot in the absence of an external applied force.

15. The suspension strut according to claim 1, wherein upon a movement of the actuating region of the second thread insert in the direction of the other end of the second slot the diameter of the second thread insert is increased.

16. The suspension strut according to claim 15, wherein the direction in which the actuating region of the second thread insert is moveable to increase the diameter of the second thread insert is different from the direction in which the actuating region of the thread insert is moveable for increasing the diameter of the thread insert.

17. The suspension strut according to claim 1, wherein the slot and the second slot are axially spaced from each other.

18. The suspension strut according to claim 17, wherein the holding means and/or the second holding means is or are arranged between the slot and the second slot in the axial direction.

19. The suspension strut according to claim 1, wherein the abutment element is free from a female thread in the interior in that region in which the thread insert and/or the second thread insert can be arranged.

20. The suspension strut according to claim 19, wherein the abutment element is provided in an axial direction above and below the region without a female thread with a female thread corresponding to the male thread of the cylinder.

21. The suspension strut according to claim 1, wherein there is provided an unlocking element which can be arranged on an outside of the abutment element and with which the actuating region of the thread insert and/or the actuating region of the second thread insert is or are moveable.

22. The suspension strut according to claim 21, wherein the unlocking element on its inside has a groove into which the actuating region of the thread insert engages.

23. The suspension strut according to claim 22, wherein the unlocking element on its inside has a second groove into which the actuating region of the second thread insert engages.

24. The suspension strut according to claim 1, wherein a preferably metallic abutment ring is arranged between the abutment element and the coil spring which is arranged at least partially around the cylinder.

25. An abutment element for mounting a coil spring which is arranged at least partially around a cylinder of a suspension strut according to at least one of the preceding claims, wherein the abutment element is provided at least region-wise with a female thread and wherein there is provided at least one thread insert which is arranged in the abutment element and which is preferably of a resilient structure and quite preferably in the form of a coil spring and which has a holding region and an actuating region and wherein provided in the abutment element is a holding means preferably in the form of a bore for the holding region and wherein the actuating region is mounted moveably in the abutment element preferably within a slot in the abutment element and wherein the diameter of the thread insert is variable by a movement of the actuating region.

26. The abutment element according to claim 25, wherein arranged in the abutment element is a second thread insert which is preferably of a resilient structure and is quite preferably in the form of a coil spring and which has a holding region and an actuating region and wherein provided in the abutment element is a second holding means which is preferably in the form of a bore for the holding region of the second thread insert and wherein the actuating region of the second thread insert is mounted moveably in the abutment element preferably within a second slot in the abutment element and wherein the diameter of the second thread insert is variable by a movement of the actuating region of the second thread insert.

27. A vehicle comprising the suspension strut according to claim 1.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0044] Further advantages and details of the invention are discussed hereinafter for various embodiments by way of example with reference to the following Figures in which:

[0045] FIGS. 1a-1c show a side view and a cross-sectional view of a suspension strut according to the invention and a diagrammatic view of a motorcycle having a suspension strut according to the invention,

[0046] FIG. 2 shows a perspective view of an abutment element according to the invention,

[0047] FIG. 3 shows a cross-sectional view of an abutment element according to the invention,

[0048] FIG. 4 shows a detail view relating to the cross-sectional view of a suspension strut according to the invention,

[0049] FIG. 5 shows a perspective view of an unlocking element,

[0050] FIGS. 6a-6e show an exploded view, a perspective view and side views of a further embodiment of an abutment element according to the invention,

[0051] FIGS. 7a, 7b show perspective views of a further embodiment of an unlocking element,

[0052] FIGS. 8a, 8b show an exploded view and a perspective view of the further embodiment of the abutment element with unlocking element,

[0053] FIGS. 9a-9d show three cross-sectional views of a further embodiment of an abutment element according to the invention with unlocking element, and

[0054] FIGS. 10a-10c show diagrammatic views of a mode of operation of the abutment element.

DETAILED DESCRIPTION OF THE INVENTION

[0055] FIG. 1a shows a side view of a suspension strut or shock 25 for the suspension springing and damping of the movements of the rear wheel of a motorcycle 32. An example of a motorcycle 32 with incorporated suspension strut 25 is shown in FIG. 1.

[0056] The suspension strut 25 is connected to the motorcycle 32 by way of mountings 28, 29. The suspension strut 25 has a coil spring 11 which is mounted between an abutment element 1 having an abutment ring 22 at its first end and a second abutment element 27 at its other end. The suspension strut 25 further has a damper for damping the spring movement, which includes a cylinder 10 and a piston 9 moveable in the cylinder 10. A container 26 serves to store the damper medium.

[0057] While the position of the second abutment element 27 is fixed the preload of the coil spring 11 can be adjusted by a variation in the position of the abutment element 1 along the longitudinal direction L of the cylinder 10. If the coil spring 11 is compressed and thus more heavily preloaded that gives a chassis which is set for a harder ride. If the length of the coil spring 11 is extended and thus the preload is reduced that gives a chassis tuned for a softer ride.

[0058] FIG. 1b shows the suspension strut 25 of FIG. 1a in a cross-sectional view. It can be seen there how the piston 19 is moveable in the cylinder 10. The mode of operation of the damper, apart from the mode of operation of the abutment element 1, is known per se in the state of the art.

[0059] FIG. 2 shows a perspective view of an abutment element 1 according to the invention. The abutment element 1 has a thread insert 2 arranged beneath a first region with a female thread 21 in the abutment element 1. The region 31 in which the thread insert is arranged is free from a female thread. The thread insert 2 is in the form of a coil spring, with both spring ends being bent radially outwardly. The upper spring end in this view is bent further outwardly and represents the actuating region 4. The other spring end represents the holding region 3 and is fixed at a holding means 5 in the form of a bore. By virtue of the spring action the actuating region 4 in the locking position presses against a first end 7 of the slot 6. The slot 6 like the second slot 16 is arranged substantially parallel to the turns of the thread insert 2 and thus substantially parallel to the thread flights of the female thread 21. As the thread insert 2 can be arranged in the threads of the male thread 20 arranged on the cylinder 10 the slots 6 and 16 are also arranged substantially parallel to the threads of the male thread 20.

[0060] The actuating region 4 is mounted moveably in the slot 6, wherein the diameter of the thread insert 2 is increased by a movement of the actuating region 4 in the direction of the other end 8 of the slot 6 and thus in opposition to the spring force of the thread insert 2, whereby the thread insert 2 comes out of engagement with the threads of the male thread 20 or the frictional force acting is at least markedly reduced.

[0061] Arranged beneath the thread insert 2 is a second thread insert 12 which is of the same configuration as the thread insert 2. It will be noted however that in this view the actuating region 14 of the second thread insert 12 is arranged beneath the holding region 13 of the second thread insert 12. The second thread insert 12 is thus arranged in the abutment element 1 inverted in comparison with the thread insert 2. The second holding means 15 in which the holding region 13 of the second thread insert 12 is arranged corresponds to the holding means 5, that is to say both holding regions 3, 13 are fixed in the same holding means disposed between the slot 6 and the second slot 16.

[0062] By virtue of the reversed arrangement the second thread insert 12 in the form of a coil spring acts in opposition to the thread insert 1 in the form of the coil spring. Accordingly the first end 17 of the second slot 16, against which the actuating region 14 of the second thread insert 12 presses in the locking position by virtue of the spring force, is arranged on the side illustrated on the left of the second slot 16 while the first end 7 of the slot 6 is arranged on the side shown on the right of the slot 6.

[0063] If the actuating region 14 of the second thread insert 12 is moved towards the right in the direction of the other end 18 of the second slot 16 the diameter of the second thread insert 12 increases in opposition to the spring force. The region 31 of the abutment element 1 is available for the increase in the diameter of the thread insert 2 and the second thread insert 12 by no female thread 21 being provided. Disposed on the outside of the abutment element 1 is a rotary region 30 provided for rotation of the abutment element 1. For that purpose the rotary region 30 has raised portions and recesses to which a suitable tool can be fitted.

[0064] FIG. 3 shows a cross-sectional view of the abutment element 1 of FIG. 2. The region 31 which is free from a female thread 21 can be clearly seen there. The thread insert 2 and the second thread insert 12 are arranged in the region 31. Above the thread insert 2 the inside of the abutment element 1 is provided with a first region with a female thread 21. That region however is only of a short axial extent and serves in particular to prevent dirt from passing into the abutment element 1 when it is arranged on the male thread 20 of the cylinder 10. A larger region with a female thread 21 is provided below the second thread insert 12. The female thread 21 corresponds to the male thread 20. In the screwed-on state the forces acting on the coil spring 11 are transmitted by way of the connection between the female thread 21 and the male thread 20 to the cylinder 10 and thus to the damper.

[0065] FIG. 4 shows a cross-sectional view illustrating the abutment element 1 in the mounted state. This involves a detail view of the cross-sectional view in FIG. 1b. It is possible to see the connection between the female thread 21 of the abutment element 1 and the male thread 20 of the cylinder 10, whereby the forces acting on the coil spring 11 while travelling are transmitted to the cylinder 10. The lower region of the female thread 21 serves in particular for that purpose. A further region having a female thread 21 is provided at the upper end of the abutment element 1. That region serves primarily to protect the interior of the abutment element 1 from contamination and soiling. In the region 31 the abutment element 1 is free from a female thread on its inside. That region serves to permit the increase in the diameter of the thread inserts 2, 12. In the illustrated state the thread inserts 2, 12 which are in the form of coil springs are in engagement with the threads forming the male thread 20. Unintentional rotation of the abutment element 1 and thus a displacement in the position thereof along the longitudinal direction L of the cylinder 10 is not possible. To move the actuating regions 4, 14 there is an unlocking element 9 which is mounted rotatably on the abutment element 1 and which has a first groove 23 and a second groove 24 into which the actuating regions 4, 14 engage.

[0066] The upper thread insert 2 prevents rotation of the abutment element 1 in the clockwise direction (in the direction of viewing on to the upper opening of the abutment element 1). Rotation in the anti-clockwise direction however is possible as in that case the thread insert 2 is entrained by the holding region 3. The thread insert 2 therefore prevents rotation of the abutment element 1 only in relation to one direction of rotation. In regard to the male thread 20 which is in the form of a right-handed thread the thread insert 2 secures against a movement of the abutment element 1 downwardly and thus an increase in the preload of the coil spring 21 when it bears against the abutment element 1 beneath the rotary region 30.

[0067] In comparison the second thread insert 12 secures against movement of the abutment element 1 upwardly and thus against a reduction in the preload insofar as the coil spring 11 bears against the abutment element 1 beneath the rotary region 30 and the male thread 20 is in the form of a right-handed thread. In the direction of viewing on to the upper opening of the abutment element 1 (as shown in FIG. 2) the second thread insert 12 more specifically prevents rotation of the abutment element 1 in the anti-clockwise direction. Rotation in the clockwise direction however is possible because here the second thread insert 12 is entrained by the second holding region 13.

[0068] The thread inserts 2, 12 together, when both actuating regions 4, 14 are in their locking position, render impossible rotation of the abutment element 1 in relation to both directions of rotation and thus generally prevent adjustment of the position of the abutment element 1 in relation to the longitudinal direction L of the cylinder 10. Accordingly the abutment element 1 is a self-securing spring locking ring, wherein the securing force is predetermined by the spring force of the thread inserts 2, 12 and tightening which is too much or too little is not possible. To permit adjustment of the position of the abutment element 1 in the one direction or the other along the longitudinal direction L of the cylinder 10 it is necessary selectively either for the actuating region 4 of the thread insert 2 to be moved in the direction of the other end 8 of the slot 6 or for the actuating region 14 of the second thread insert 12 to be moved in the direction of the other end 18 of the second slot 16.

[0069] FIG. 5 shows a perspective view of the unlocking element 9 mounted rotatably to the abutment element 1. For easier rotation a series of raised portions are arranged on the outside of the unlocking element 9. Disposed on the inside is a first groove 23 into which the actuating region 4 of the thread insert 2 engages. A second groove 24 serves for engagement of the actuating region 14 of the second thread insert 12. The first groove 23 and the second groove 24 are restricted in their longitudinal directions. When therefore the unlocking element 9 is rotated until the actuating region 4 butts against an end of the first groove 23, upon further rotation of the unlocking element 9 the actuating region 4 is also moved therewith. The same applies to the actuating region 14 of the second thread insert 12 when it butts against an end of the second groove 24. Depending on the respective direction of rotation of the unlocking element 9 therefore the actuating region 4 is moved in the direction of the other end 8 of the slot 6 or the actuating region 14 of the second thread insert 12 is moved in the direction of the other end 18 of the second slot 16. In that way the securing action can be released in relation to the one direction of rotation or the other of the abutment element 1.

[0070] FIG. 6a shows an exploded view of an abutment element 1 and the thread inserts 2, 12 to be arranged in the abutment element 1. In this embodiment of the invention the thread insert 2 and the second thread insert 12 are in the form of a single thread insert, wherein the holding regions 3, 13 merge into each other and provide a single holding region which is arranged in a holding means 5, 15 in the abutment element 1. The holding means 5 and the second holding means 15 are therefore identical and are in the form of a common holding means. It is further possible to see the female thread 21 in which the thread inserts 2, 12 are arranged as well as the slot 6 and the second slot 16 in which the actuating region 4 and the second actuating region 14 are displaceably mounted.

[0071] FIG. 6b shows a perspective view of an abutment element 1 as shown in FIG. 6a, in which the thread inserts 2, 12 as shown in FIG. 6a are arranged in the abutment element 1. It is possible to see that a further region with a female thread 21 is provided in the upper region of the abutment element 1. That further region serves primarily for providing a sealing action in relation to dirt. The common holding region 3, 13 is arranged in the common holding means 5, 15. The actuating region 4 is arranged displaceably in the slot 6, wherein the actuating region 4 in this position is arranged in the region of the free end 7. The second actuating region 14 is arranged displaceably in the second slot 16, with the actuating region 14 being disposed in the region of the first end 17 of the second slot 16.

[0072] FIGS. 6c to 6e show side views of the abutment element 1 shown in FIG. 6b. In this respect is possible to see from FIG. 6c that the actuating region 4 is arranged in the slot 6 in the region of the first end 7. That is the locking position of the actuating region 4. The movement of the actuating region 4 by virtue of the spring action of the thread insert 2 has stopped in this embodiment before the actuating region 4 bears against the first end 7. The thread insert 2 exerts a high frictional force on the male thread 20 and prevents rotation of the abutment element 1 in the clockwise direction (when viewing from above, that is to say on to the side of the abutment element 1, that is opposite to the rotary region 30).

[0073] FIG. 6d shows in particular the recess which serves as a common holding means 5, 15 for the common holding region 3, 13 of the thread insert 2 and the second thread insert 12. It is further possible to see the second end 8 of the slot 6 and the second end 18 of the second slot 16. The second end 8 and the second end 18 are thus on opposite sides of the respective slot.

[0074] It can be seen from FIG. 6e that the actuating region 14 of the second thread insert 12 is arranged in the region of the first end 17 of the second slot 16. That is the locking position of the actuating region 14 of the second thread insert 12. As in the case of the thread insert 2 the movement, caused by the spring force, of the actuating region 14 of the second thread insert 12 has come to a halt before the actuating region 14 bears against the first end 17 of the second slot 16. By virtue of the friction force involved the second thread insert 12 prevents rotation in the anti-clockwise direction, once again when viewed from above—that is to say viewing on to the side of the abutment element, that is opposite to the rotary region 30. In all both actuating regions 4, 14 are in the locking positions so that rotation of the abutment element is prevented in both directions of rotation.

[0075] FIGS. 7a and 7b show perspective views of the unlocking element 9 from various angles. In that respect it is possible to see a recess subdivided into three portions 33a, 33b and 33c which are delimited from each other by intermediate bars 36. The portions 33a, 33b and 33c serve as latching positions for the actuating regions 4, 14 in the respective locking positions. In that case however it is not the actuating regions 4, 14 themselves that are arranged in the portions 33a, 33b or 33c, but the holding regions 3, 13, for example when—as shown in FIG. 6a—they are in the form of a common holding region in the shape of a tab. The portions however can also be of a different configuration to serve as a latching position for holding regions 3, 13 of a different configuration.

[0076] When both actuating regions 4, 14 are in the respective locking position the unlocking element 9 is arranged in such a way that the common holding region is arranged in the portion 33b. The intermediate bars 36 which are possibly of a resilient nature prevent the unlocking element 9 being inadvertently moved. That represents a further security feature of the present invention. The actuating region 4 of the thread insert 2 is disposed in the first guide recess 34, while the actuating region 14 of the second thread insert 12 is disposed in the second guide recess 35. As the actuating region 14 is disposed in the lower portion while the actuating region 4 is arranged in the upper portion the first guide recess 34 is of a greater axial extent than the second guide recess 35. As a result it is not possible for the actuating region 4 to be arranged in the second guide recess 35. The configuration of the first guide recess 34 and the second guide recess 35 as a result ensure the correct arrangement of the unlocking element 9.

[0077] Upon a rotation of the unlocking element 9 in a first direction of rotation the actuating region 4 is also moved by the edge of the first guide recess 34. At the same time the common holding region is moved into the first portion 33a. The intermediate bar 36 serving as a latching element prevents the unlocking element 9 from moving relative to the thread insert 2. As a result the actuating region 4 is held in that position in which rotation of the abutment element 1 is possible. The portion 33a thus defines a latching position for the actuating region 4 and there is no need to manually holding the unlocking element 9 in order to prevent the actuating region 4 being moved of its own accord into the locking position, by virtue of the spring action of the thread insert 2.

[0078] Upon a rotation of the illustrated unlocking element 9 in the other direction of rotation the second actuating region 14 is moved by the edge of the second guide recess 35, at the same time the common holding region is moved into the portion 33c and is held there by means of the intermediate bar 36. As a result the actuating region 14 is held in that position in which rotation of the abutment element 1 is possible. The portion 33c thus defines a latching position for the actuating region 14 of the second thread insert 12. The intermediate bar 36 prevents the locking element 9 being moved relative to the second thread insert 12 by the common holding region being moved into the portion 33b. That prevents the actuating region 14 of the second thread insert 12, that is moved away from its locking position, being moved of its own accord back into the locking position by virtue of the spring action.

[0079] The exploded view in FIG. 8a corresponds to that in FIG. 6a, with the unlocking element 9 shown in FIGS. 7a and 7b additionally being illustrated here.

[0080] The perspective view in FIG. 8b corresponds to that of FIG. 6b, wherein the rotatably mounted unlocking element 9 shown in FIGS. 7a and 7b is additionally also arranged on the abutment element 1.

[0081] FIG. 9a shows a cross-sectional view of a further embodiment of the abutment element 1 of FIG. 9d, along the section line B-B shown in FIG. 7b. It can be seen in this case how the actuating region 4 of the thread insert 2 projects outwardly and is fixed by a recess in the unlocking element 9. The actuating region 4 can be moved in the slot 6 by a rotation of the unlocking element 9.

[0082] FIG. 9b shows a cross-sectional view along the section line A-A shown in FIG. 9a. In this embodiment of the invention only one region of the inside of the abutment element 1 is provided with a female thread 21.

[0083] FIG. 9c shows a cross-sectional view along section line C-C illustrated in FIG. 9b. It can be seen here how the holding region 3 of the thread insert 2 projects outwardly and is fixed in the holding means 5 in the form of a recess in the abutment element 1.

[0084] FIG. 9d shows a perspective view of the embodiment shown in FIGS. 9a to 9c of the abutment element 1. In this variant of the invention the abutment element has only one thread insert 2 so that rotation of the abutment element 1 can be blocked only in relation to one direction of rotation.

[0085] In the diagrammatic view in FIG. 10a the abutment element 1 is shown in the situation illustrated in FIG. 2, with the actuating region 4 being arranged in the region of the first end 7 of the slot 6, that is to say in the locking position. In this state rotation of the abutment element 1 in the clockwise direction is made impossible so that the abutment element 1 is secured against movement in the longitudinal direction L of the cylinder 10 in a downward direction. The actuating region 14 of the second thread insert 12 is disposed in the region of the first end 17 of the second slot 16, that is to say in the locking position. In this state rotation of the abutment element in the anti-clockwise direction is made impossible whereby the abutment element 1 is secured against movement in the longitudinal direction L of the cylinder 10 upwardly. Overall rotation of the abutment element 1 is made impossible in both directions of rotation.

[0086] In FIG. 10b the actuating region 14 of the second thread insert 12 has been displaced in relation to the state shown in FIG. 10a out of the locking position to the other end 18 of the second slot 16. As a result rotation of the abutment element 1 in the anti-clockwise direction and thus a movement of the position of the abutment element 1 along the longitudinal direction L of the cylinder 10 upwardly is possible. In addition the abutment element 1 is secured against rotation of the abutment element 1 in the clockwise direction and thus a movement of the abutment element 1 along the longitudinal direction L downwardly.

[0087] In FIG. 10c the actuating region 4 has been displaced in relation to the situation shown in FIG. 10a out of the locking position to the other end 8 of the slot 6. As a result rotation of the abutment element 1 in the clockwise direction and thus a movement of the abutment element 1 in the longitudinal direction L of the cylinder 10 downwardly is possible. Furthermore the abutment element 1 is secured against rotation of the abutment element 1 in the anti-clockwise direction and thus a movement of the abutment element 1 in the longitudinal direction L upwardly.

[0088] By virtue of a movement of the actuating region 4 or the actuating region 14 of the second thread insert 12 the operator can selectively increase or reduce the preload of the coil spring 11, for example to adapt the chassis to the weight of the rider.

LIST OF REFERENCES

[0089] 1 abutment element [0090] 2 thread insert [0091] 3 holding region [0092] 4 actuating region [0093] 5 holding means [0094] 6 slot [0095] 7 first end of the slot [0096] 8 other end of the slot [0097] 9 unlocking element [0098] 10 cylinder [0099] 11 coil spring [0100] 12 second thread insert [0101] 13 holding region of the second thread insert [0102] 14 actuating region of the second thread insert [0103] 15 second holding means [0104] 16 second slot [0105] 17 first end of the second slot [0106] 18 other end of the second slot [0107] 19 piston [0108] 20 male thread [0109] 21 female thread [0110] 22 abutment ring [0111] 23 first groove [0112] 24 second groove [0113] 25 suspension strut [0114] 26 container for damping medium [0115] 27 second abutment element [0116] 28, 29 mountings for suspension strut [0117] 30 rotary region [0118] 31 region without female thread [0119] 32 motorcycle [0120] 33a, 33b, 33c latching positions for the holding regions [0121] 34 first guide recess [0122] 35 second guide recess [0123] 36 intermediate bars [0124] L longitudinal direction of the cylinder