초록 ▼

A toy vehicle. The toy vehicle includes a base, a plurality of wheels spinably connected to the base, and a pneumatic piston operatively connected to at least one of the wheels. The toy also includes a plurality of body pieces at least partially covering the base, and a pneumatic disassembly mechani

A toy vehicle. The toy vehicle includes a base, a plurality of wheels spinably connected to the base, and a pneumatic piston operatively connected to at least one of the wheels. The toy also includes a plurality of body pieces at least partially covering the base, and a pneumatic disassembly mechanism operatively connected to at least some of the plurality of body pieces. A pneumatic system is configured to deliver pressurized gas to the pneumatic piston to cause at least the base to jump by extending the at least one wheel away from the base. The pneumatic system is also configured to deliver pressurized gas to the pneumatic disassembly mechanism to separate at least some of the plurality of body pieces from the base.

대표청구항 ▼

The invention claimed is: 1. A toy vehicle, comprising: a base; a plurality of wheels spinably connected to the base; a pneumatic piston operatively connected to at least one of the wheels; a plurality of body pieces at least partially covering the base; a pneumatic disassembly mechanism operativel

The invention claimed is: 1. A toy vehicle, comprising: a base; a plurality of wheels spinably connected to the base; a pneumatic piston operatively connected to at least one of the wheels; a plurality of body pieces at least partially covering the base; a pneumatic disassembly mechanism operatively connected to at least some of the plurality of body pieces; and a pneumatic system configured to deliver pressurized gas to the pneumatic piston to cause at least the base to jump by extending the at least one wheel away from the base, and to deliver pressurized gas to the pneumatic disassembly mechanism to separate at least some of the plurality of body pieces from the base. 2. The toy vehicle of claim 1, wherein each of the plurality of wheels is operatively connected to a pneumatic piston that uses pressurized gas delivered from the pneumatic system to extend each of the plurality of wheels, thereby causing the body to jump. 3. The toy vehicle of claim 1, wherein the pneumatic disassembly mechanism includes an ejection port configured to discharge pressurized gas that blows at least some of the plurality of body pieces away from the base. 4. The toy vehicle of claim 1, wherein the pressurized gas delivered to the pneumatic piston and the pressurized gas delivered to the pneumatic disassembly mechanism are from a common source. 5. A toy, comprising: a base; a plurality of pieces at least partially covering the base; a jumping mechanism operatively connected to the base and configured to cause at least the base to jump responsive to a first triggering event; 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 base responsive to a second triggering event, wherein the jumping mechanism and the disassembly mechanism use energy from a common source to cause the base to jump and to cause at least some of the pieces to separate from the base. 6. The toy of claim 5, wherein the common source is a reservoir holding pressurized gas. 7. The toy of claim 5, wherein the first triggering event includes the toy traveling a threshold distance. 8. The toy of claim 5, wherein the first triggering event includes a collision with another object. 9. The toy of claim 5, wherein the second triggering event includes toy acceleration exceeding a threshold acceleration. 10. The toy of claim 9, wherein the disassembly mechanism includes an inertia lever for detecting if toy acceleration exceeds a threshold acceleration. 11. The toy of claim 5, wherein the jumping mechanism includes at least one pneumatic piston. 12. The toy of claim 5, wherein the disassembly mechanism includes at least one pneumatic ejection port. 13. A pneumatic toy, comprising: a pneumatic tank for storing pressurized gas; a first pneumatically energized system in fluid communication with the pneumatic tank and configured to use the pressurized gas to effectuate a first action, the first action being the toy jumping; and a second pneumatically energized system in fluid communication with the pneumatic tank and configured to use the pressurized gas to effectuate a second action, different than the first action, the second action being the separation of at least one part from the toy. 14. The pneumatic toy of claim 13, further comprising: a first trigger in operative communication with the first pneumatically energized system and configured to initiate the first action responsive to a first triggering event; and a second trigger in operative communication with the second pneumatically energized system and configured to initiate the second action responsive to a second triggering event, different than the first triggering event. 15. The toy of claim 14, wherein the first triggering event includes the toy traveling a threshold distance. 16. The toy of claim 14, wherein the first triggering event includes a collision with another object. 17. The toy of claim 14, wherein the second triggering event includes toy acceleration exceeding a threshold acceleration. 18. The toy of claim 17, wherein the second trigger includes an inertia lever for opening a valve if toy acceleration exceeds a threshold acceleration. 19. A toy, comprising: a pneumatic port defining an air passage; and a plurality of body panels collectively forming a toy body, wherein at least two of the body panels include mating tab portions that are collectively sized and shaped to fit into the pneumatic port, and at least two of the body panels are operatively connected via a hinge; wherein air forced through the pneumatic port causes the plurality of body panels to separate from the pneumatic port and causes the hinge to pivot. 20. The toy of claim 19, wherein air forced through the pneumatic port further causes the plurality of body panels to separate from one another. 21. A toy vehicle, comprising: a core including a pneumatic system having a tank for storing pressurized gas and a pump for pressurizing gas within the tank; a body releasably covering at least some of the core; a plurality of pneumatic pistons operatively connecting a plurality of spinable wheels to the core, each pneumatic piston being configured to extend one of the plurality of wheels away from the core responsive to receiving a charge of the pressurized gas; a jump selector having at least a first state and a second state, wherein the toy does a rotating jump when the plurality of pneumatic pistons cause the toy to jump and the jump selector is in the first state, and wherein the toy does a less-rotating jump when the plurality of pneumatic pistons cause the toy to jump and the jump selector is in the second state; and a pneumatic disassembly mechanism configured to separate the body from the core responsive to receiving a charge of the pressurized gas. 22. The toy vehicle of claim 21, wherein the jump selector limits extension of at least one of the plurality of wheels.