The present invention relates to a start gate assembly for use by a racer when racing or practicing, and more particularly to such a start gate assembly used for motocross or motorbike racing vehicles that allow the racer himself to practice start times without the assistance of a second person.
Motocross racing has become an increasingly popular sport in the United States after World War II and is extremely popular in Europe. Motocross has evolved from relatively flat, off-road races to hilly, dirty races filled with obstacles to provide a challenging environment for the driver and a test for the machine that they ride. Supercross races eventual started springing up to bring racing in urban and suburban areas that brought the concept of these outdoor races inside where artificial hills and obstacles could be added on a race track in a sports stadium. Given the popular fan base and the corporate sponsorship that supports these types of races, a lot of money can be made for a successful racer.
As racers clearly have to be competent drivers and have a strong command over their machine's performance, one of the most critical components to a racer's success is their ability to get a good jump out of the start gate. Due to the difficultly of the terrain and the windiness of the tracks, it can be extremely difficult for other racers to overtake their leaders during a race. These facts, combined with the narrowness of some courses, further strengthen the need to be the leader right out of the start gate to greatly improve the racer's chance of winning the race.
Today's motocross and supercross racers must practice start times to help increase their odds of being the leader in competitive races. However, in order to train to help better their racing start times, a racer is limited to using readily available track equipment and start gates. Current start gate designs are manual in nature and require a second party to be available to set and open the start gates. The manual start gates are attached together so that multiple racers can start at the same time. Someone must set the gates to a ready position by hand, although some designs use a latch or pedal. The ready position is secured by a locking mechanism that is of a constant height to ensure consistent start gate heights by all racers. A pull string is then used to collapse the start gates so that the racers might proceed forward unimpeded. The pull string is operated by a second party that stands on one of the sides of the manual start gate, thus requiring the need of an additional person besides the racer.
Another issue not addressed by current manual start gates is that it is impractical for an operator to take these manual start gates with them for practice because they are too large and bulky for transport. There are no known start gates that exist for backyard or alternative site practicing. Furthermore, a racer practicing with the manual start gates does not have an indicator to prompt the racer to anticipate the manual start gate dropping.
The start gate assembly might also be further modified to accommodate multi-racer usage so that several start gate assemblies might be placed together in a linear manner and used as one for racing. Current start gates for motocross racing are permanently attached together and are not easily taken apart for single user operations. It would be convenient and beneficial to have an automated operation start gate assembly that can be used by one racer, yet capable of fitting other start gate assemblies for multi-racer events.
Therefore, it is desired to have a start gate assembly for practice that can be easily operated by the racer while on a motorbike or other type of racing vehicle. Furthermore, it is desired that this start gate assembly has safety features that protect the start gate assembly itself and the race. An indication device is also desired that communicates to the racer that the start gate assembly is about to move to a go position. Additionally, the start gate assembly is desired to be light and transportable so that the start gate assembly can be easily moved from one location to another. It is also desired that a start gate assembly might be adaptable for use with multiple start gate assemblies such that several racers might utilize the start gate assembly for racing purposes.
Thus, there is a need for a start gate assembly capable of being used and operated solely by a racer without the assistance of a second person. Racers need the ability to practice their starting times away from the track to perfect their start times, thereby, making it necessary to have a start gate assembly that can be transported in the back of a vehicle. Moreover, there is a need for such a start gate assembly to be safe for operation to minimize the risk of harm to the racer or the start gate assembly itself.
The above-identified needs are addressed by the present start gate assembly for use by a racer when racing or practicing. One feature of the present invention is a moveable start gate frame that can be modified to resemble a barrier normally associated with racing start gates. The moveable start gate frame is pivotally attached to a foundation platform to erect itself to a ready position and allowed to fall to a go position. By giving the moveable start gate frame the ability to swing freely to a false start position when acted upon as a racer moves forward before the start gate assembly moves to a go position, injury to the racer and start gate assembly can be avoided. Therefore, the present invention is provided with an open ended lift lever to allow the moveable start gate assembly to freely swing to a false start position.
Another feature of the present invention is to provide a start switch that can be operated by a racer while he resides in or on his vehicle. The start switch is capable of sending an electrical signal to a control panel that in turn, directs a lift mechanism when to lift the start gate assembly to the ready position and when to move the start gate assembly to the go position. The control panel also activates an indicator to inform the racer when the start gate assembly is about to move to the go position. An additional feature of the present invention is that the start gate assembly is small and light enough to be easily transported by a minimal number of movers from one location to another location so that the start gate assembly can be used in various and multiple venues.
More specifically, a start gate assembly for use by a racer when racing on a ground surface is provided with a moveable start gate frame where the moveable start gate frame is pivotally attached to a foundation platform. A moving mechanism is additionally provided for placing the moveable start gate frame in a ready position so that forward movement of the racer is obstructed sufficiently for racing purposes. A control device is also provided that regulates the movement of the moveable start gate frame from the ready position to a go position relative to when a start switch is activated to initiate movement of the moving mechanism.
In another embodiment, a start gate assembly for use by a racer when racing on a ground surface is provided with a moveable start gate frame pivotally attached to a foundation platform wherein the foundation platform lies in a substantially planar relationship with the ground surface. A pneumatic lift device is employed for placing the moveable start gate frame in a ready position where the ready position is further defined as being of sufficient height to obstruct forward movement of the racer. The moveable start gate frame is placed at an acute angle relative to the ground surface when in the ready position such that the moveable start gate frame is moveable to a go position by gravity induced force. A control device is further provided to regulate the movement of the moveable start gate frame from the ready position to the go position.
In yet another embodiment, a start gate assembly for use by a racer when racing when racing on a ground surface is provided with a moveable start gate frame that is pivotally attached to a foundation platform. The start gate assembly is also provided with a pneumatic lift device for placing the moveable start gate frame in a ready position. A start switch activates a control device to initiate operation of the pneumatic lift device and further controls the activation of an at least one indicator light associated with the control device to communicate when, relative to triggering the start switch, that the moveable start gate frame will move to the go position.
a is a side perspective view of the start gate assembly in a ready position in relation to a motorbike and start switch.
b is a side perspective view of the start gate assembly in a go position.
c is a side perspective view of the start gate assembly in a false start position where the motorbike moves forward before the start gate assembly drops to the go position.
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The air compressor 46 is powered by a power supply source 48. Preferably, the power supply source 48 is a battery 50 for ease of mobility and the reduction of the need to find a fixed power supply source. The battery 50 employed in the preferred embodiment is a 12 volt battery that is connected electrically with the air compressor 46. The air compressor 46 is fitted with a mounted compressor air regulator 52 that maintains the air pressure generated by the air compressor 46 between approximately 110 psi and 85 psi. When the air pressure falls below 85 psi as read by the mounted compressor air regulator 52, the air compressor 46 is reactivated automatically to compress more air until the air pressure reaches approximately 110 psi, at which point the air compressor 46 switches off.
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A start switch 66 is provided that activates the control device 54 to initiate the moving mechanism 20. In the preferred embodiment, the start switch 66 is removeably and pivotally connected to the foundation platform 14 by a connection arm 67. In this manner, the start switch 66 can swivel to a comfortable position close to the racer for easy accessibility while he is on the vehicle. However, it is appreciated that a remote start switch might also be used to activate the control device 54 for portability ease. The start switch 66 using the pivotally attached design uses the electrical control feed wire 56 to control the electrical signal that is given to the control device 54.
The operation of a solenoid air release valve 70 is directed by the control device 54. An air tube 71 transports air from the air compressor 46 to the solenoid air release valve 70. The air tube 71 is preferably fed though the foundation platform 14 in a similar manner as the electrical control feed wire 56, but on an electrical control wire opposing side 72. The triggering of the start switch 66 initiates the air release timer 62 that simultaneously sends a signal to the solenoid air release valve 70 to allow air from the air compressor 46 to be fed into the pneumatic lift device 36 via a pneumatic tube feed line 73. The solenoid air release valve 70 is placed between the pneumatic tube feed line 73 and the air tube 71 which lead up to the pneumatic lift device 36 to regulate air fed into and out of the pneumatic lift device 36.
The air fed into the pneumatic lift device 36 creates sufficient air pressure to drive the pneumatic arm 38 the lift length 40 while bearing the weight of the moveable start gate frame 12 to place the moveable start gate frame 12 in the ready position 22. A pneumatic air regulator 74 is preferably provided on the end of the pneumatic tube feed line 73 to prevent extensive air pressure from building up that might otherwise damage the pneumatic lift device 36. The air release timer 62 is preset to a predetermined amount of time that the racer or user believes would be an adequate wait time from triggering the start switch 66 and starting a race or practice run. When the predetermined amount of time expires, air is then released out the solenoid air release valve 70 through a pair of exit baffles 76. The pair of exit baffles 76 allow the pressure to be released rapidly from within the pneumatic lift device 36 and the pneumatic tube feed line 73 without causing much noise. When the air pressure is released from the pneumatic lift device 36, the moveable start gate frame 12 falls to the go position 24 by gravity induced force.
The start gate assembly 10 may optionally be provided with an at least one indicator 78 associated with the control device 54 to communicate to the racer when the moveable start gate frame 12 will move. In the most preferred embodiment, the at least one indicator 78 is a light 80 that visually signals a ready time when the moveable start gate frame 12 is about to drop to the go position 24. Preferably, two separate lights 80 are used, one on top of each opposing start cover 18. The at least one indicator 78 may also be a sound or other sensory affect that signals to the racer that the moveable start gate frame 12 is about to drop to the go position 24.
The at least one indicator 78 is operated in a similar fashion as the pneumatic lift device 36 when commanded by the control device 54. When the racer or other user triggers the start switch 66, the indicator timer 64 is initiated. The indicator timer 64 is preferably preset to a specified time purposely set to expire just a couple seconds before the air release timer 64. In doing so, the indicator timer 64 sends an electrical signal to the at least one indicator 78 to set off the at least one indicator 78. In the preferred embodiment, a pair of lights 80 light up to signal to the driver that the moveable start gate frame 12 is about to drop to the go position 24.
While a particular embodiment of the present start gate assembly has been described herein, it will be appreciated by those skilled in the art that changes and modifications may be made thereto without departing from the invention in its broader aspects and as set forth in the following claims. It is also contemplated that the described utility design herein may be modified to accommodate multiple start gate assemblies aligned side by side by an extension of the rotation rod 30 to support additional lift levers 28 to achieve substantially the same function of the single state gate assembly 10.
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20080222960 A1 | Sep 2008 | US |