A toy vehicle. The toy vehicle includes a body with at least one rollable wheel operatively connected to the body, and a pneumatic system operatively connected to the body and configured to store a pressurized gas and release stored gas upon a triggering event. A lifter is operatively connected to t
A toy vehicle. The toy vehicle includes a body with at least one rollable wheel operatively connected to the body, and a pneumatic system operatively connected to the body and configured to store a pressurized gas and release stored gas upon a triggering event. A lifter is operatively connected to the at least one wheel and is configured to use energy from the pressurized gas to cause the toy to jump responsive to the triggering event, at least in part, by extending the at least one wheel.
대표청구항▼
The invention claimed is: 1. A toy vehicle, the toy vehicle having a first configuration and a second configuration, comprising: a body; at least one rollable wheel operatively connected to the body; a pneumatic system operatively connected to the body and configured to store a pressurized gas and
The invention claimed is: 1. A toy vehicle, the toy vehicle having a first configuration and a second configuration, comprising: a body; at least one rollable wheel operatively connected to the body; a pneumatic system operatively connected to the body and configured to store a pressurized gas and release stored gas upon a triggering event; and a lifter operatively connected to the at least one wheel and configured to use energy from the pressurized gas to cause the toy to jump responsive to the triggering event, at least in part, by extending the at least one wheel, a jump of the toy vehicle in the first configuration having more rotation than a jump of the toy vehicle in the second configuration. 2. The toy vehicle of claim 1 wherein one of at least two different vehicle motions generate the triggering event. 3. The toy vehicle of claim 2 wherein one of the vehicle motions includes a collision with another object, where a front of the toy collides with the object. 4. The toy vehicle of claim 2 wherein one of the vehicle motions includes the toy traveling a threshold distance. 5. The toy of claim 1 further comprising a jump selector, the first configuration comprising the jump selector in a first position and the second configuration comprising the jump selector in a second position, and wherein the jump in the first configuration includes at least one full rotation of the toy. 6. The toy vehicle of claim 1, further including a pump mechanism configured to increase pressure in the pneumatic system. 7. The toy vehicle of claim 1, further including: a plurality of pieces at least partially covering the body of the toy; and a disassembly mechanism operatively connected to at least some of the plurality of pieces and configured to cause at least some of the plurality of pieces to separate from the body. 8. The toy of claim 7, wherein the disassembly mechanism is in communication with the pneumatic system, the disassembly mechanism being configured to use pressurized gas from the pneumatic system to cause at least some of the plurality of pieces to separate from the body. 9. The toy vehicle of claim 1 further comprising an element detachably coupled to the body and configured to be detached from the body by the pressurized gas. 10. The toy vehicle of claim 1 wherein one of at least two different vehicle motions generate the triggering event, wherein one of said vehicle motions includes a collision with another object, where a front of the toy collides with the object, and another one of the vehicle motions includes the toy traveling a threshold distance, the toy vehicle further including a plurality of pieces at least partially covering the body of the toy; and a disassembly mechanism operatively connected to at least some of the plurality of pieces and configured to cause at least some of the plurality of pieces to separate from the body, and the pneumatic system further comprising a pump longitudinally positioned in the toy. 11. A method of toy operation, the toy having a first toy configuration and a second toy configuration, the method comprising: storing gas at a first pressure different from atmospheric pressure; translating the stored gas over a distance via a wheel of the toy; releasing at least a first portion of the stored gas into a pneumatic system operatively connected to the toy upon a triggering event, the pneumatic system coupled to the wheel; and jumping by extending the wheel of the toy by utilizing the released stored gas a first amount of rotation when the toy is in the first toy configuration and a second amount of rotation when the toy is in the second toy configuration. 12. The method of claim 11, further comprising releasing at least a second portion of the stored gas into an ejection system operatively connected to a shell of the toy. 13. The method of claim 12 wherein the releasing the second portion is responsive to the triggering event. 14. The method of claim 12, wherein the releasing the second portion is responsive to a second triggering event after the first triggering event. 15. The method of claim 11, wherein the triggering event includes translating a predetermined distance. 16. The method of claim 11, wherein the triggering event includes a collision between the toy and an obstacle. 17. The method of claim 11, wherein the first amount of rotation is greater than the second amount of rotation. 18. A toy including a vehicle body and at least one wheel, comprising: a pneumatic system configured to store and retain pressurized gas; at least one valve having a closed position that retains the pressurized gas in the pneumatic system, and an open position that allows the pressurized gas to be released from the pneumatic system, the at least one valve being configured to control movement of the at least one wheel; and a lock configured to automatically maintain the at least one valve in the closed position when the toy is in a first orientation and to automatically allow the at least one valve to move to the open position responsive to a triggering event when the toy is in a second orientation, different than the first orientation. 19. The toy of claim 18, further including a charge mechanism configured to increase the pressure in the pneumatic system. 20. The toy of claim 19, wherein the first orientation positions the charge mechanism in a vertical charging position. 21. The toy of claim 19, wherein the lock is actuated by gravity. 22. The toy of claim 18, wherein the lock is rotatably mounted to the body and configured to engage a rear axle of the vehicle. 23. A toy vehicle, comprising: a core; a plurality of wheels rotatably coupled to the core; a jumping assembly operatively connected to at least one of the wheels and configured to cause the toy to jump at least in part by extending that wheel away from the core; and a jump selector having at least a first state and a second state, the toy performing a rotating jump when the jumping assembly causes the toy to jump and the jump selector is in the first state, and the toy performing a less-rotating jump when the jumping assembly causes the toy to jump and the jump selector is in the second state. 24. The toy vehicle of claim 23, wherein, when in the first state, the jump selector limits extension of at least one of the plurality of wheels and allows unhindered extension of another of the plurality of wheels. 25. The toy vehicle of claim 24, wherein the jump selector limits extension of two rear wheels and allows unhindered extension of two front wheels. 26. The toy vehicle of claim 23, wherein the jump selector includes a latch that engages a wheel axle in the second state. 27. The toy vehicle of claim 23, wherein the rotational jump includes a back flip. 28. A toy vehicle, comprising: a body; a plurality of wheels operatively connected to the body; a pneumatically powered jump assembly operatively connecting the body to at least one of the wheels, the pneumatically powered jump assembly configured to cause that wheel to extend away from the body responsive to a triggering event; and a lock configured to selectively prevent the jump assembly from causing that wheel to extend away from the body. 29. The toy vehicle of claim 28, wherein the plurality of wheels includes at least one front wheel and at least one back wheel, and wherein one of the at least one back wheel or at least one front wheel is the wheel that the lock prevents from extending. 30. The toy vehicle of claim 29, wherein the pneumatically powered jumping assembly is configured to extend the other of the at least one front wheel or the at least one back wheel with sufficient force to cause the body to do a back flip. 31. A toy vehicle, comprising: a core; a jumping mechanism operatively connected to the core and configured to cause the core to jump; and a triggering system operatively communicating with the jump mechanism and configured to cause the jump mechanism to actuate responsive to at least two different types of triggering events, including a first triggering event and a second triggering event; and a jump selector having at least a first state and a second state, wherein the toy does a rotating jump when the jumping mechanism causes the toy to jump and the jump selector is in the first state, and the toy does a less-rotating jump when the jumping mechanism causes the toy to jump and the jump selector is in the second state.
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이 특허에 인용된 특허 (33)
Takasaka Akira (Yashio JPX) Takuma Eiji (Kanagawa JPX) Tomizawa Hirotsugu (Tokyo JPX), Air action toy system.
Kulesza Ralph J. (Chicago IL) Disko Harry (South Barrington IL) Cook Stuart A. (New Richmond OH) Newton Jean M. (Park Hills KY) Smith William N. (Batavia OH), Impact responsive toy vehicle.
D\Andrade Bruce M. (3 Ten Eyck Rd. Whitehouse Station NJ 08889) Johnson Lonnie G. (4030 Ridgehurst Dr. Smyrna GA 30080), Pressurized toy rocket with rapid action release mechanism.
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