The present invention relates to a harness safety system to be used while riding, for example, a skateboard through a half pipe. More particularly, the invention relates to a harness safety system that allows such a rider of a skateboard to proceed through the flats and up the transitions of a half pipe while retaining tension on the rider throughout the process.
The use of the half pipe is emerging as an integral part of such activities as skateboarding, snowboarding, biking and rollerblading. In general terms, the half pipe is a U-shaped deck having a flat base with upward transitioning walls on either side to form the shape of a U. In use, a rider will ride his device up one transition wall then down the wall into and through the flats and then up the other transition wall. The process repeats itself as the rider goes back and forth, up and down through the U. As riders improve their skills in the half pipe, they begin to incorporate tricks into the ride. For example, when a rider has generated enough speed or momentum to reach and overcome the top of the transition walls, he can do tricks in the air and land back on the downward slope of the transition wall and ride back down into the flats of the half-pipe. Tricks would include anything from a simple turn of the device in the air, to multiple flips and spins in the air. The challenge is not only in being able to do the trick in the air, but also to be able to land back on the transition wall and continue riding on the device back through the half-pipe to the other side.
Riding the half pipe clearly is a dangerous endeavor. A fall from the walls of the half pipe can cause serious injury to a rider. In fact, many beginners are afraid to attempt the half pipe at all after they fall once or twice. In addition, many experienced riders are afraid to attempt some tricks for fear of getting seriously injured. As with any endeavor, in order to master it, practice is essential. Practicing on the half pipe, however, will inevitably lead to a fall and injury, and as a result, many will lose the confidence to attempt such a stunt again, regardless of the difficulty level, for fear of getting hurt.
In order to ease the learning process of learning to ride in the half pipe, there is a need for a system that allows a rider the ability to freely ride in the half pipe and attempt tricks without the fear or concern of falling hard or getting injured.
The invention is directed to a half-pipe safety system comprising:
A. a half-pipe shaped surface comprising a flat base and first and second transition walls wherein said first transition wall terminates at a first platform and said second transition wall terminates at a second platform;
B. a track disposed above said surface and extending horizontally from a position above said first platform to a position above said second platform;
C. a fastener disposed on said track and adapted to ride freely along said track;
D. a cord comprising a top end and a bottom end wherein said top end is fixedly attached to said fastener; and
E. a harnessing apparatus fixedly attached to the bottom end of said cord.
The invention is further directed to the half-pipe safety system set forth above further including first and second stoppers movably disposed on said track, said first stopper positioned between said fastener and said position above the first platform, and said second stopper positioned between said fastener and said position above the second platform, and each of said first and second stoppers adapted to be fixed in a predetermined position on said track.
a depicts the mobile half-pipe safety system of the present invention in a folded/closed set up to allow for mobilization.
b depicts the mobile half-pipe system device of the present invention open and set up for use.
c depicts the mobile half-pipe safety system shown in
The present invention is directed to a half-pipe safety system designed to allow riders of skateboards, snowboards, bicycles, rollerblades, etc. to ride the half pipe without the consequences of falling and hurting themselves, while not inhibiting riders from practicing new maneuvers and pushing their riding skills to the next level.
Half-Pipe
The half-pipe is a popular surface used by skateboarders, bikers, snowboarders, roller-bladers, etc. The use of half-pipes in the competitive setting for most of these sports may be recognized, for example, from its use in the annual X-Games. The half-pipe generally consists of a half-pipe or U-shaped surface that has a flat base forming the bottom of the “U”, and two upward transition walls on each side of the flat base forming the sides of the “U”. At the top of one or each of the transition walls is a platform from where the rider can start and finish their ride. One embodiment of a halfpipe is depicted in
Safety System
The safety system of the invention can be viewed in one embodiment wherein the safety system is set up with the standard half-pipe shown in
The track 20 can comprise a variety of materials. In a preferred embodiment, track 20 comprises cable or cable wire. Alternatively, however, any solid piece of material such as aluminum, steel, fiberglass or any other material along which a fastener 25 can ride can be used. Basically, any material that can satisfactorily retain the weight of a rider without breaking and otherwise function in accordance with the invention would be suitable to be used as the track 20. In an alternate embodiment, it is contemplated that the track 20 comprise a solid piece or pieces of material that follow the contours of the half-pipe so that the harness follows a perfect arch giving the rider the smoothest ride. In other words, track 20 would be shaped as a “U” above the half-pipe.
Fastener 25 should be able to freely move or ride along track 20. Non-limiting examples of such a moving fastener would include a pulley (i.e. for use on a cable) or a roller (i.e. for use on a solid track).
Stoppers 23, 24 are an optional feature of the invention that used to confine the section of the track 20 along which the fastener 25 can run. Stoppers 23 and 24 are adapted to be temporarily movable along the track 20, but should also be adapted to be tightened into a fixed position, and should be further adapted to stop and hold the fastener 25 while a rider continues to move in that direction and up the transition wall. Once the rider comes down the transition wall and past the stopper, the fastener will then move in the opposite direction. Materials that can be used as the stoppers could include, for example, a clamp and spring which would preferably be surrounded by a soft material thus cushioning the repetitive contact with the fastener 25.
Attached to said fastener 25 is a cord 26. At the opposite end of the cord 26 is attached a harnessing device 29. It is preferred that the cord 26 be made of a flexible material such as a bungee cord. In the embodiment depicted in
As mentioned above, at the end of the cord 26 (opposite the end attached to fastener 25) is attached a harnessing apparatus 29. The harnessing apparatus 29 is adapted to be worn by the rider 19 during use of the safety system of the invention. The cord 26 is preferably fixedly attached to the harnessing apparatus 29 by a nature that will allow the rider perform all phases of riding, allowing the rider to freely perform any trick desired, including twists, turns and flips without hindrance from the harness 29 or the cord 26. While it is preferred that the cord 26 is attached to the portion of the harness 29, cord 26 can be attached to any portion of harness 26 that allows the rider freedom of movement as desired. If less movement is desired a more secure attachment, or perhaps multiple attachments can be used
The system of the invention works by allowing the rider 19 to move through the flats 12 of the half pipe 10 while the fastener 25 moves along the track 20 with rider 19 until the fastener 25 abuts against the stopper 23, 24. The stoppage of the fastener 25 at that point allows the rider 19 to proceed up the transition wall 14, 16 while tension is kept on the rider's harness 29. It is preferred that the stoppers 23, 24 are disposed at a predetermined position such that the fastener 25 is stopped at approximately the same point where the rider 19 begins to proceed up the transition wall of the half-pipe. In alternative embodiments, by moving the stoppers 23, 24 further away from each other, the degree of difficulty is increased and range of motion is extended when the rider moves along the transition walls. Alternatively, range of motion can also be increased by lowering the harness 29 closer to the ground.
The height of track 20 is preferably adjustable to suit any sized rider 19. The length of cord 26 and/or the combination of flexible cord 26 and stiff cord 28 are also preferably adjustable. As such, it is a function of the invention that the height of track 20 and the length of cord 26 be adjusted so that, while wearing the harness 29, a rider 19 can ride a skateboard, bike or other device freely in the normal fashion, while enough tension is provided such that if the rider 19 falls, the fall is arrested prior to the rider 19 hitting the surface or avoiding injury from a fall. While the length of cord 26 and/or the height of the track 20 will vary depending upon the device the rider is riding (i.e. bicycle vs. skateboard) or the height of the rider, the general rule of thumb is that, without the device present, the tension should be such that the rider, while wearing the harness 29, should be hanging above the base 12 such that he can only touch his toes on the surface. This distance will generally allow the rider to comfortably ride the device while also being safe from injury from a fall.
There is no limitation on the length of track 20, so long as it traverses the entire width of the half-pipe. There is no limit to the height or width of the half-pipe so long as the track is disposed above it.
It is envisioned that the present invention will be suitable for use in a variety of settings, including, for example, back yard half pipes, skateboard parks, mobile half pipes, skate and surf events, amusement parks and zoos.
Track Set Up
In certain embodiments of this invention, the system can be set up on a half pipe with either the tracking running along the length of the half pipe or the width of the half-pipe as depicted in
An alternative embodiment for the downhill half-pipe is depicted in
The embodiments shown in
Multi-directional Set-up
In this embodiment, the system of the invention is set up to function in multidirectional fashion. For example, in one embodiment, the multi-directional system would include a three pulley system. In a single pulley system the rider is limited to how far he can go side to side or laterally on the half-pipe. In a three pulley system, there would be two pulleys tracking longitudinally or end to end and a third pulley at the same time tracking laterally or side to side. This gives the rider the ability to ride the entire half-pipe. The set up is different in that it now would require poles on all four corners with a track on either side running the length of the half pipe.
Full Course Set Up
The full course set up relates to, for example, a skateboard park set up that is designed so that a street skater can practice a variety of tricks over a variety of obstacles.
Big Air Set Up
The big air system is designed to help riders (skateboard, snowboard, skier, bicycle, etc.) overcome the fear of jumping long distances way up in the air by having the rider attached to a track running above the jump. The rider can practice the enormous jumps required in big air competition, without risking injury from severe wipe outs which tend to occur often. Ultimately, the safety system of the invention allows riders to try “big air” tricks they never thought possible with the confidence that they won't get hurt from a severe fall.
Mobile Set-up
In another embodiment, the safety system of the invention can be in the form of a mobile half-pipe as depicted in
Although the invention is illustrated and described herein with reference to specific embodiments, the invention is not intended to be limited to the details shown. Rather, various modifications may be made in the details within the scope and range of equivalents of the claims and without departing from the invention.
This application claims the benefit of U.S. Provisional Application No. 60/679,208, filed May 9, 2005 and U.S. Provisional Application No. 60/686,209, filed Jun. 1, 2005 and U.S. Provisional Application No. 60/710,326, filed Aug. 22, 2005 the contents of which are incorporated herein by reference.
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Number | Date | Country | |
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