The present invention relates to a motorcycle anti-tipover device that has telescoping support arms that extend to the ground. The support arms are automatically extending when the motorcycle is stationary or moving at low speeds to prevent the motorcycle from tipping over. The telescoping support a
The present invention relates to a motorcycle anti-tipover device that has telescoping support arms that extend to the ground. The support arms are automatically extending when the motorcycle is stationary or moving at low speeds to prevent the motorcycle from tipping over. The telescoping support arms may also serve as a traditional kickstand, or may be used to lift the motorcycle during servicing. Alternatively, an airbag may be deployed underneath the motorcycle to prevent the motorcycle from tipping over.
대표청구항▼
We claim: 1. A motorcycle anti-tipover device, comprising: a support arm assembly capable of being coupled to a motorcycle frame at a pivot point, said support arm assembly comprising at least two support arms, wherein each of said at least two support arms extend outwardly from a vertical axis of
We claim: 1. A motorcycle anti-tipover device, comprising: a support arm assembly capable of being coupled to a motorcycle frame at a pivot point, said support arm assembly comprising at least two support arms, wherein each of said at least two support arms extend outwardly from a vertical axis of said motorcycle when deployed in an extended condition and remain contracted while undeployed in a collapsed condition, a sensor mechanism, said sensor mechanism being capable of detecting a tip condition and outputting a tip signal upon detection of said tip condition, and a deployment mechanism operably coupled to said support arm assembly and said sensor mechanism, said deployment mechanism causing said at least two support arms to deploy to said extended condition upon receipt of said tip signal from said sensor mechanism; a manual extension mechanism coupled to said deployment mechanism and being capable of outputting a manual extension signal upon request of a user, said manual extension mechanism causing said deployment mechanism to cause said at least two support arms to deploy to said extended condition upon receipt of said manual extension signal. 2. The motorcycle anti-tipover device of claim 1, wherein said manual extension mechanism comprises a button or a switch. 3. The motorcycle anti-tipover device of claim 1, wherein said support arm assembly is capable of supporting said motorcycle in a stable resting position. 4. The motorcycle anti-tipover device of claim 1, wherein said support arm assembly further comprises at least two additional support arms. 5. The motorcycle anti-tipover device of claim 1, wherein said deployment mechanism comprises an electromagnet and a repelling magnet configured such that said electromagnet and said repelling magnet are repelled upon power being provided to said electromagnet. 6. The motorcycle ant-tipover device of claim 5, wherein said deployment mechanism further comprises springs configured to assist deploying said at least two support arms to said extended condition. 7. The motorcycle anti-tipover device of claim 1, wherein said deployment mechanism comprises a propellant mechanism. 8. The motorcycle anti-tipover device of claim 1, wherein sensor mechanism comprises at least one of a GPS sensor, motion sensor, infrared sensor or gravity switch. 9. The motorcycle anti-tipover device of claim 1, further comprising a stop to house said support arm assembly, said stop limiting movement of said at least two support arms in said extended condition. 10. The motorcycle anti-tipover device of claim 1, wherein said at least two support arms comprise a telescoping tubular structure. 11. The motorcycle anti-tipover device of claim 10, wherein said deployment mechanism comprises an electromagnet and a repelling magnet configured such that said electromagnet and said repelling magnet are repelled upon power being provided to said electromagnet. 12. The motorcycle anti-tipover device of claim 11, wherein said deployment mechanism further comprises springs configured to assist deploying said at least two support arms to said extended condition. 13. The motorcycle anti-tipover device of claim 1, wherein said deployment mechanism comprises a hydraulic actuator. 14. The motorcycle anti-tipover device of claim 13, wherein said deployment mechanism further comprises springs configured to assist deploying said at least two support arms to said extended condition. 15. The motorcycle anti-tipover device of claim 13, further comprising a stop to house said support arm assembly, said stop limiting movement of said at least two support arms in said extended condition. 16. The motorcycle anti-tipover device of claim 15, wherein said deployment mechanism further comprises springs configured to assist deploying said at least two support arms to said extended condition. 17. A motorcycle anti-tipover device, comprising: a support arm assembly capable of being coupled to a motorcycle frame at a pivot point, said support arm assembly comprising at least two support arms, wherein each of said at least two support arms extend outwardly from a vertical axis of said motorcycle when deployed in an extended condition and remain contracted while undeployed in a collapsed condition, a sensor mechanism, said sensor mechanism being capable of detecting a tip condition and outputting a tip signal upon detection of said tip condition, and a deployment mechanism operably coupled to said support arm assembly and said sensor mechanism, said deployment mechanism causing said at least two support arms to deploy to said extended condition upon receipt of said tip signal from said sensor mechanism; said deployment mechanism comprises an electromagnet and a repelling magnet configured such that said electromagnet and said repelling magnet are repelled upon power being provided to said electromagnet. 18. The motorcycle anti-tipover device of claim 17, wherein said support arm assembly is capable of supporting said motorcycle in a stable resting position. 19. The motorcycle anti-tipover device of claim 17, wherein said support arm assembly further comprises at least two additional support arms. 20. The motorcycle anti-tipover device of claim 17, wherein said deployment mechanism further comprises springs configured to assist deploying said at least two support arms to said extended condition. 21. The motorcycle anti-tipover device of claim 17, wherein sensor mechanism comprises at least one of a GPS sensor, motion sensor, infrared sensor or gravity switch. 22. The motorcycle anti-tipover device of claim 17, further comprising a stop to house said support arm assembly, said stop limiting movement of said at least two support arms in said extended condition. 23. The motorcycle anti-tipover device of claim 17, further comprising a manual extension mechanism coupled to said deployment mechanism and being capable of outputting a manual extension signal upon request of a user, said manual extension mechanism causing said deployment mechanism to cause said at least two support arms to deploy to said extended condition upon receipt of said manual extension signal. 24. The motorcycle anti-tipover device of claim 17, wherein said at least two support arms comprise a telescoping tubular structure.
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이 특허에 인용된 특허 (40)
Rank David Brian ; Clymer Mark Lawrence ; Graves Glenn, Adaptable tip sensor.
Osuchowski Andrew J. (19396 Sherwood Ave. Detroit MI 48234) Lulenski Robert S. (29334 Campbell Drive Warren MI 48093), Inflatable garment for crash protection.
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