US20200281285A1

US20200281285A1 - Motorcycle Forearm and Shin Glider

Info

Publication number: US20200281285A1
Application number: US16/865,394
Authority: US
Inventors: Kevin Leon Henderson
Original assignee: Individual
Current assignee: Individual
Priority date: 2017-12-14
Filing date: 2020-05-03
Publication date: 2020-09-10

Abstract

The present invention seeks to solve these problems by providing a forearm and shin glider for motorcycle cornering. The claimed invention includes a deformable base with slits that allow secure and comfortable fit to the rider's arm or leg. An abrasion resistant casing is attached to the base. This casing holds a set of abrasion resistant balls made of high speed smooth abrasion resistant ceramic. The abrasion resistant balls are located by bearings, also manufactured of ceramic. This device allows the rider to make contact with the ground for support during tight cornering maneuvers with substantially reduced and minimized friction. The abrasion resistant balls move smoothly within the bearings and casing and roll when contacting the ground, creating minimal friction but also providing substantial rider support. The glider device is attached to the rider's clothing using Velcro or hook and loop attachment devices.

Description

BACKGROUND OF THE INVENTION

Field of the Invention

The invention relates to a forearm and shin glider for use in motorcycling.
During fast cornering, riders of motorcycles and scooters, especially motorcycle racers, are forced to lean their motor vehicles in an inclined position as to safely corner at the highest speed possible.
Through continued developments in tire technology, it is possible in recent times to take greater lean angles resulting in much higher cornering speeds than previously possible. To achieve this, a cornering style has been developed which involves contact between the rider's forearm and knee with the road or ground surface on the inside of the corner or curve.
The motorcycle racer will thereby consciously seek contact with the ground or road to find the support necessary for top speed when corning during motor sports.
Existing protection devices currently are generally made of plastic molding. The use of these existing devices for high speed cornering is not optimal, because the friction generated between the plastic and road surface is substantial and the road contact acts as a brake during cornering and causes rider discomfort. To avoid this “stick-slip” effect, riders often avoid touching the ground.
Ground contact has a stabilizing effect, permitting better control of the motorcycle through the cornering maneuver. The present invention is designed to provide the necessary support while also reducing the “stick-slip” braking effect. The abrasion resistant bearing encased balls of the present invention allow riders to seek the support of the ground while cornering, but without the significant friction and performance reduction of prior art devices. Allowing the devices at both the forearm and shin provides the maximum cornering incline and grounds support. The abrasion resistant casing can withstand impact with the ground, but the deformable base with slits cut in it provide the rider with a secure fit around their arm or leg. The glider device can be attached with Velcro, hook and loop or other suitable attachment methods.

Description of Background Art

Prior art devices include slider pads for motorcycling that include a variety of configurations of slider pads. These devices all utilize pads that create substantial friction when making contact with the ground.
Other prior art devices include a variety of clothing items with built in padding and sliders but these devices have the same friction issue described above and solved by the present invention.
Other variations of prior art devices include knee rollers designed for use while working on the ground (on one's knees) rather than riding a motorcycle. These do include rollers, but not rollers designed for high speed low friction operation and not substantially wear resistant for durability when making contact with the ground at high speed.

OBJECTS OF THE INVENTION

It is an object of the invention to provide a motorcycle glider for the shin and forearm.
It is an object of the invention to provide a motorcycle glider that provides support during high speed cornering with a minimum of friction.
It is an object of the invention to provide a motorcycle glider that provides improved support during cornering and improved rider comfort.
It is an object of the invention to provide a motorcycle glider with improved durability.
It is an object of the invention to provide a motorcycle glider with improved rider fit.
It is an object of the invention to provide a motorcycle glider with multiple attachment means to the rider's clothing.

SUMMARY OF THE INVENTION

The present invention relates to motorcycling and devices that facilitate high speed cornering for motorcycle riders, particularly in motorcycle racing. Motorcycle riders lean into turns while cornering with increasing lean angles dependent on the speed and radius of the corner. Improved tire compounds allow increased cornering angles for riders. Riders typically provide support during cornering by dropping their knees and forearms to the ground. Prior art pads exist to protect riders during these cornering maneuvers but have the significant drawback of substantial friction between the ground and the pad. This friction slows the rider, impacts the cornering geometry and creates rider discomfort.
The present invention seeks to solve these problems by providing a forearm and shin glider for motorcycle cornering. The claimed invention includes a deformable base with slits that allow secure and comfortable fit to the rider's arm or leg. An deformable casing is attached to the base. This casing holds a set of abrasion resistant balls made of high speed smooth abrasion resistant ceramic. The abrasion resistant balls are located by bearings, also manufactured of ceramic. The bearings are located by an abrasion resistant ring. This device allows the rider to make contact with the ground for support during tight cornering maneuvers with substantially reduced and minimized friction. The abrasion resistant balls move smoothly within the bearings and casing and roll when contacting the ground, creating minimal friction but also providing substantial rider support. The glider device is attached to the rider's clothing using Velcro or hook and loop attachment devices. The preferred embodiment also includes a locating wire to provide additional grip and support to the device as it's worn around the rider's leg or arm.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a view of a motorcyclist cornering at a significant lean angle.

FIG. 2 shows a view of the glider device with the casing in place.

FIG. 3 shows a view of the glider device with the casing removed and the bearings visible.

FIG. 4 shows a side view of the glider with the casing removed

FIG. 5 shows a side view of the glider with the casing in place.

FIG. 6 shows a side view of the glider with the slits closed to show deformability.

FIG. 7 shows a vertical side view of the glider with the casing removed.

FIG. 8 shows a vertical side view of the glider with the casing in place.

FIG. 9 shows a cross section exploded view of the glider.

FIG. 10 shows curved and flattened views of the glider and the locating wire.

FIG. 11 shows a cross section of the glider in a semi-circle with the casing removed.

FIG. 12 shows the glider in a semi-circle with the casing in place.

DESCRIPTION OF THE PREFERRED EMBODIMENT

The following detailed description outlines the preferred embodiment of the claimed invention. There may be many other configurations that comport with the attached claim language and this description is in no way limiting to the scope of the invention.
FIG. 1 shows an image of a motorcycle rider leaning into a turn at a significant angle. In this figure, rider 1 is located on motorcycle 2 traveling over road surface 3. The rider's leg 4 and arm 5 are visible in the figure. Forearm glider 6 is attached to the rider's clothing at their arm 5 and shin glider 7 is attached to the rider's clothing between their knee and shin to protect leg 4. In this figure, forearm glider 6 and shin glider 7 will contact road surface 3 to provide support for rider 1 as they corner their motorcycle at high speed. While the preferred embodiment shows motorcycle 2, the present invention is suitable for use for any two wheeled vehicle where support of the shin and forearm would be helpful during cornering like scooters, etc.
FIG. 2 show the road contact side of forearm glider 6. Forearm glider 6 and shin glider 7 have similar compositions and structures so while forearm glider 6 is described in detail, the description applies to shin glider 7 as well. Abrasion resistant balls 8 contact the road surface 3 (not shown in this figure) to provide support but also roll to avoid friction that slows the rider or pulls the rider toward the ground or into the turn. Prior art motorcycle sliders create significant friction and thus slow the rider or change the cornering geometry in a negative way. In the preferred embodiment, abrasion resistant balls 8 are made of high speed wear resistant smooth ceramic. This material provides wear resistance, durability and low friction, however many other suitable materials could be used like wear resistant, durable plastics and various metals, like high carbon steel and stainless steel. Glider casing 10 is deformable so that it can bend when the glider is bent around the rider's leg or arm. In the preferred embodiment, casing 10 is made of rubber but could be made out of other suitable materials such as flexible plastic, various flexible metals or other flexible and deformable materials. Attachment device 11 is shown and in the preferred embodiment would be Velcro attached to the rider's clothing at the suitable location. Other suitable attachment methods include hook and loop fasteners known in the art or zippers, snaps and buttons.
FIG. 3 shows the road contact side of the forearm glider 6 with casing 10 removed. In this view, abrasion resistant ball 8, made of ceramic materials, is located by bearing 9 on the top, bottom and both sides. Bearings 9 are also manufactured out of high speed wear resistant smooth ceramic. These bearings rotate on their axis to allow abrasion resistant ball 8 to rotate quickly with a minimum of friction. Bearings 9 also locate abrasion resistant ball 8 so each stays in place during the stress of high speed cornering where the ball 8 comes into contact with road surface 3. Attachment device 11 is also shown in this view.
FIG. 4 shows a lateral side view cutaway view of forearm glider 6. Abrasion resistant ball 8 is shown located by bearings 9. As previously discussed, in the preferred embodiment, these items are made of high speed wear resistant smooth ceramic. Casing 10 is shown as is attachment device 11. Slit 12 are cuts in the material that allow the unit to be deformed to fit securely around the rider's arm or leg. When these slits collapse, it allows the device to fit the curve of the user's extremity. The slits can be made in any formation, but in the preferred embodiment they are formed vertically. Base 14 is made out of a deformable material that can be molded to the user's leg or arm, in the preferred embodiment hard rubber. This deformable material also provides better user comfort.
In the preferred embodiment, casing 10 is attached to base 14 using either adhesive known in the art or stitching. Another possible method for attaching casing 10 to base 14 is using clips that snap in place in a matching location in the base to securely attach the two items. The clip mechanism also allows the user to replace the casing as it becomes worn and to inspect, clean and replace the abrasion resistant balls 8 or bearings 9.
FIG. 5 shows a side view of the forearm glider 6 with casing 10 in place around the device. In this view, the slits 12 are visible in their open position, prior to having the device installed on the rider's leg or arm. Base 14 is made of a deformable material, in the preferred embodiment, hard rubber to enable the user to mold the device to their extremity, either arm or leg. Installation device 11 is also shown.
FIG. 6 shows the glider 6 bent in an arc with slits 12 closed so that the device can be molded to the rider's arm or leg.
FIGS. 7 and 8 show vertical views of the glider device. In cutaway view FIG. 7, abrasion resistant ball 8 is located by bearings 9. This installation allows the abrasion resistant ball to rotate with a minimum of friction but also to be firmly installed in the device. In the preferred embodiment, abrasion resistant balls 8 and bearings 9 are made of high speed wear resistant ceramic. Casing 10 is shown in both figures, as is slit 12 and base 14.
FIG. 9 shows a cross section of layers for an alternate preferred embodiment. Casing 10 is made of a deformable material that encloses abrasion resistant balls 8 and bearings 9. Both abrasion resistant balls 8 and bearings 9 are made of high speed wear resistant smooth ceramic but could be made of other suitable low friction, wear resistant materials such as various metals including stainless steel, titanium and others. Base 14 is also made of a deformable material such as rubber that allows it to be formed around the arm or leg of the rider. Other deformable materials could also be used such as flexible plastic. Locating wire 15 is a thin wire made of bendable metal. This wire will be built into the base 14 to provide additional grip and support for the device around the rider's arm or leg. The locating wire 15 will run horizontally across the glider so that it can be wrapped around the circumference of the rider's arm or leg. The rider will simply wrap the device around their arm or leg and locating wire 15 will form a contour to match the shape of the arm or leg and provide support for the device in that shape. Installation device 11 is shown as a layer here and is made of Velcro in the preferred embodiment. This layer attaches the device to the rider's clothing. The combination of locating wire 15 and installation device 11 provide secure attachment and support for the device as the user wears it and as it contacts the ground during cornering.
FIG. 10 shows a view of the glider 6 and locating wire 15 with the glider 6 flat or bend in a semi-circle to be wrapped around the rider's arm or leg. FIG. 10 additionally shows locating wire removed from the glider device. Locating wire 15 is manufactured from high tensile steel in the preferred embodiment but can be manufactured out of any suitable flexible and high strength metal such as stainless steel, titanium or other suitable materials such as flexible plastic, well known in the art.
FIG. 11 provides a cross section view of glider 6 with it formed in a semi circle to be worn around the rider's arm or leg. In this view, the deformable casing 10 is shown, abrasion resistant balls 8 and bearing 9 are all visible.
FIG. 12 shows the same view as FIG. 11 but with casing 10 in place and covering the glider 6.
The present figures display the preferred embodiment of the claimed invention and are not meant to limit the scope of the claims. Many other configurations and embodiments are possible within the scope of the present claims.

Claims

1. A glider device for use by a motorcyclist rider for providing support while cornering a motorcycle comprising;

A first glider located at the rider's shin and knee comprising:

abrasion resistant balls,

a casing for holding said abrasion resistant balls,

low friction bearings that firmly hold each abrasion resistant ball within the casing and allow free rolling of the balls with low resistance,

a base, located between the rider's shin and knee, the casing attached to the base, the base formed of a deformable material, and

means for attaching the knee roller to the motorcyclist's clothing,

the roller providing support and low friction, free movement and free rolling when the rider's knee and shin engages the ground,

A second glider located at the rider's forearm comprising:

abrasion resistant balls,

a casing for holding said abrasion resistant balls,

a base, located between the rider's forearm, the casing attached to the base, the base formed of a deformable material, and

means for attaching the knee roller to the motorcyclist's clothing,

said roller providing support and low friction, free movement and free rolling when the rider's forearm engages the ground.

2. The glider device of claim 1 where the abrasion resistant balls and low friction bearings are made from ceramic material.

3. The glider device of claim 1 where the casing is deformable.

4. The glider device of claim 1 where the casing is formed of rubber.

5. The glider device of claim 1 where the base has slits cut in the material to allow the base to form securely around the rider's shin and knee and forearm.

5. The glider device of claim 1 where the base is formed of rubber.

6. The glider device of claim 1 where the base contains locating wires.

7. The glider device of claim 6 where the locating wires are formed of high tensile steel.

8. The roller device of claim 1, where the means for attaching the roller is a hook fastener secured to the back of the roller device that connects to an associated loop on the motorcyclist's clothing.

9. The roller device of claim 1 where the means for attaching the roller is Velcro.