Pivoting brake caliper mounting for motorcycle
A motorcycle or bicycle having a fork with swappable trail adjustment blocks which hold the front axle to the fork. Trail can be adjusted without removing the forks or even loosening them in the triple clamps, and without altering ride height or rake angle. Brake caliper mounts are swapped when the trail adjustment blocks are swapped, moving the brake calipers the same distance and direction as the axle, to maintain a constant radial distance from the axle to the brake pads. The brake caliper mounts pivot on the forks, enabling the brake calipers to be swung outward so the wheel can be changed without removing the brake calipers from the forks.
This application is a divisional of application Ser. No. 10/633,380 “Front End Trail Adjustment for Motorcycle” filed Jul. 31, 2003 by this inventor.
BACKGROUND OF THE INVENTION1. Technical Field of the Invention
This invention relates generally to front end suspension components for two-wheeled vehicles, and more specifically to a trail adjustment mechanism such as for a motorcycle.
2. Background Art
Trail is the distance, on the ground, from a point projected through the front axle on a line parallel with the steering axis, to a point directly below the front axle, or in other words, to the center of the contact patch. Trail directly impacts the steering stability of the motorcycle and its “return-to-center” force. Trail is affected by rake, which is the angle between vertical and the steering axis; steeper rake reduces trail. Trail is also affected by longitudinal fork offset, or the distance which the fork tubes are set in front of the steering tube; more offset increases trail. Trail is also affected by axle offset; if the axle is coupled to the forks in front of their center, it increases trail.
The rider may wish to increase or decrease trail to, for example, change the steering feel or feedback, to improve steering quickness, or to eliminate a high-speed wobble, or to reduce a front end “push”. Often, riders will talk as though they are fixing these things by adjusting the ride height, which is generally discussed in terms of how far the forks extend up through the top triple clamp. However, decreasing front ride height by raising the forks farther through the triple clamps in reality steepens the rake, which, in turn, decreases trail. It is ultimately the change in trail which causes the effects which the rider attributes to his ride height adjustment.
Although adjusting trail can have very beneficial results, the other changes which go along with it in a conventional motorcycle may often—or even usually—outweigh or significantly counteract the benefits of the trail adjustment. For example, lowering ride height obviously puts the frame, engine cases, fairings, and other parts into closer proximity to the racetrack, often to an extent that cornering ability is actually reduced because hard parts of the motorcycle ground out on curbings or even the asphalt itself.
What is needed, then, is a mechanism which facilitates trail adjustments without adversely affecting other geometry characteristics of the motorcycle such as ride height and rake angle.
BRIEF DESCRIPTION OF THE DRAWINGSThe invention will be understood more fully from the detailed description given below and from the accompanying drawings of embodiments of the invention which, however, should not be taken to limit the invention to the specific embodiments described, but are for explanation and understanding only.
It should again be noted that, in one embodiment, the trail adjustment blocks and their mating surface of the fork lower are configured such that the front axle is moved, by the various trail adjustment blocks, in a direction parallel to the ground, such that the front ride height is not changed by swapping out the different trail adjustment blocks. In one embodiment, this is accomplished by providing the trail adjustment block with a top surface and a bottom surface which are parallel, and by positioning the front axle hole at various positions, for the various trail adjustment blocks, which are a same distance from the bottom surface, for example. In other embodiments, other geometries may accomplish the same result.
The trail adjustment block may be tightened onto the axle, and the fork lower may be tightened onto the trail adjustment block, by one or more pinch bolts (not shown) which may advantageously be inserted upward through the bottom end of the fork lower through coaxial holes (not shown) through the portion of the fork lower which is below the trail adjustment block, the portion of the trail adjustment block which is below the pinch split, the portion of the trail adjustment block which is above the pinch split, and the portion of the fork lower which is above the trail adjustment block. In this instance, only the topmost or two topmost of these need to be threaded.
In one embodiment, the brake caliper is mounted not only “radially”, but also with its radius parallel to the plane in which the various trail adjustment blocks move the front axle, to maintain a constant positioning of the brake pads and the brake rotor across the various trail settings. In one embodiment, the radius of the brake caliper mount is parallel to the ground.
The skilled reader will readily appreciate that the various components of the caliper mount are not necessarily shown to any particular scale, and that they may be resized and adapted according to the needs of the application at hand. For example, the two posts need not necessarily be of the same diameter, or the post 70 could be made longer than shown, and so forth.
While the invention has been described with reference to its use in a motorcycle, the invention is not limited to motorcycles, but can be used in bicycles, automobiles, and other vehicles. And while the invention has been shown as using an “upside-down” fork, it may alternatively be used with a “right-side-up” fork. Some components have been illustrated as being of monolithic construction, while other components have been illustrated as being separate components coupled together. The skilled reader will readily appreciate that the designer may elect, within the scope of this invention, to split some components into separate sub-components, or to combine various components into a monolithic whole. The skilled reader will further appreciate that the invention may be practiced in a “single-sided” front end, such as that found on some bicycles which have only a single fork. The term “triple clamp” should not necessarily be interpreted to mean that two forks are required with the steering tube. The presence of one or more suspension components coaxial with the steering axis does not necessarily prohibit the additional presence of one or more suspension components elsewhere, such as within the forks.
The fork and the trail adjustment block have been illustrated in a configuration in which the trail adjustment block slips into the front of the fork. In other embodiments, a different mating system could be employed. For example, instead of a void or indentation formed into the front of the fork, the fork could have a hole extending laterally through it, or, in other words, there could be fork material in front of the void, and the trail adjustment block would be inserted laterally rather than longitudinally.
When one component is said to be “adjacent” another component, it should not be interpreted to mean that there is absolutely nothing between the two components, only that they are in the order indicated. The various features illustrated in the figures may be combined in many ways, and should not be interpreted as though limited to the specific embodiments in which they were explained and shown. Those skilled in the art having the benefit of this disclosure will appreciate that many other variations from the foregoing description and drawings may be made within the scope of the present invention. Indeed, the invention is not limited to the details described above. Rather, it is the following claims including any amendments thereto that define the scope of the invention.
Claims
1. A suspension for coupling a brake caliper and an axle of a wheel to a two-wheel vehicle, the suspension comprising:
- a telescopic fork including, an upper fork tube, and a lower fork tube;
- axle coupling means, coupled to the lower fork tube, for coupling to the axle; and
- caliper coupling means, coupled to the lower fork tube, for pivotably coupling the brake caliper to the fork;
- whereby the brake caliper can be swung to a side to facilitate installation of the wheel.
2. The suspension of claim 1 wherein the caliper coupling means includes:
- a body;
- a first cylindrical post extending from the body and adapted to rotatably engage the lower fork tube;
- a second cylindrical post extending from the body and adapted to couple to the brake caliper.
3. The suspension of claim 2 wherein:
- the first and second cylindrical posts are at a substantially 90degree angle to each other.
4. The suspension of claim 3 wherein:
- the caliper coupling means includes a pair of caliper mounts having their first cylindrical posts coaxially aligned when coupled to the lower fork tube.
5. The suspension of claim 1 wherein the telescopic fork further includes:
- a fork lower coupled to the lower fork tube and including, the axle coupling means, and means for pivotably mating with the caliper coupling means.
6. The suspension of claim 6 wherein:
- the means for pivotably mating comprises a radial mount extending in a first radial direction, the radial mount including an upper pivot hole and a lower pivot hole which are substantially coaxial and which extend substantially perpendicularly with respect to the first radial direction.
7. The suspension of claim 6 wherein the caliper coupling means includes a pair of caliper mounts each comprising:
- a body;
- a first cylindrical post extending from the body and adapted to rotatably engage a respective one of the pivot holes; and
- a second cylindrical post extending from the body and adapted to couple to the brake caliper.
8. The suspension of claim 1 wherein:
- the axle coupling means comprises a plurality of interchangeable trail adjustment blocks including, a first trail adjustment block providing a first amount of trail and having an axle hole in a first axle position, a second trail adjustment block providing a second amount of trail and having an axle hole in a second axle position, wherein the second axle position is removed from the first axle position by a predetermined distance;
- the caliper coupling means comprises a plurality of interchangeable caliper mounts including,
- a first caliper mount which places the brake caliper in a first caliper position, and
- a second caliper mount which places the brake caliper in a second caliper position, wherein the second caliper position is removed from the first caliper position by substantially the predetermined distance.
9. The suspension of claim 8 wherein:
- changing between caliper mounts moves the brake caliper in substantially a same direction that changing between trail adjustment blocks moves the axle.
10. The suspension of claim 1 further comprising:
- a frame having a steering head;
- the upper fork tube being coupled to the steering head;
- a brake rotor coupled to the wheel; and
- a second telescopic fork also coupled to the steering head.
11. A motorcycle suspension for use with a motorcycle having a frame, a front axle, and a front wheel, the motorcycle suspension comprising:
- a plurality of pairs of trail adjustment blocks;
- a plurality of sets of brake caliper mount pairs; and
- a pair of telescopic forks each including, an upper fork tube adapted for being coupled to the frame, and a lower fork tube adapted for being coupled to the front axle;
- wherein each lower fork tube includes, means for mating with one of the trail adjustment blocks at a time, and means for mating with one of the brake caliper mount pairs at a time.
12. The motorcycle suspension of claim 11 wherein:
- the brake caliper mount pairs mate pivotably with the lower fork tubes to facilitate swinging brake calipers away to permit installation of a wheel.
13. The motorcycle suspension of claim 11 wherein:
- the means for mating with the brake caliper mounts comprises two substantially parallel planar surfaces each having a hole extending thereinto substantially perpendicularly to the respective planar surface; and
- the brake caliper mounts each comprises a body having a predetermined length corresponding to a trail adjustment setting of a respective one of the trail adjustment blocks, means for coupling the body to the brake caliper, and a post for inserting into a respective one of the holes extending into the planar surfaces of the means for mating.
14. An apparatus comprising:
- a fork including means for mounting a wheel assembly on an axle;
- a brake caliper;
- at least one pivoting caliper mount pivotably coupling the brake caliper to the fork;
- whereby the brake caliper can be swung to a side to facilitate installation of the wheel assembly to the means for mounting.
15. The apparatus of claim 14 wherein the caliper mount includes:
- a body;
- a first cylindrical post extending from the body and adapted to rotatably engage the fork;
- a second cylindrical post extending from the body and adapted to couple to the brake caliper.
16. The apparatus of claim 15 wherein:
- the first and second cylindrical posts are at a substantially 90degree angle to each other.
17. The apparatus of claim 16 wherein:
- the at least one pivoting caliper mount includes a pair of caliper mounts having their first cylindrical posts coaxially aligned when coupled to the fork.
18. The apparatus of claim 14 wherein the fork comprises:
- an upper fork tube;
- a lower fork tube slidably coupled to the upper fork tube; and
- a fork lower coupled to the lower fork tube and including the means for mounting.
Type: Application
Filed: Jul 5, 2005
Publication Date: Nov 3, 2005
Inventor: Michael Czysz (Portland, OR)
Application Number: 11/175,465