A remote controlled flying toy figure has a thrust-powered, weight shifting rudder head. The flying toy figure comprises a head, a body, a propulsion system, and a control system. The head is attached to the body by a flexible support member, making the head securely fixed in flexible relation to th
A remote controlled flying toy figure has a thrust-powered, weight shifting rudder head. The flying toy figure comprises a head, a body, a propulsion system, and a control system. The head is attached to the body by a flexible support member, making the head securely fixed in flexible relation to the body, thus permitting a yawing motion of the head relative to the body. The propulsion system comprises two independently operable motorized propellers, each of which is attached to opposite ends of a steering bar. The steering bar and head form an integral steering unit. Increasing the thrust from one of the propellers causes the figure to turn in the opposite direction. This increased thrust causes the steering bar to yaw, which moves the center of gravity of the head to the opposite side of the center line of the body, which causes the figure to bank towards the turn.
대표청구항▼
1. A flying toy figure comprising: a head;a body shaped in the form of a human, said body connected to the head, and said body comprising a bottom wing defining a chest of the body, a top wing defining a back of the body, lateral wings defining arms of the body, said body further comprising a first
1. A flying toy figure comprising: a head;a body shaped in the form of a human, said body connected to the head, and said body comprising a bottom wing defining a chest of the body, a top wing defining a back of the body, lateral wings defining arms of the body, said body further comprising a first side panel and a second side panel, said first side panel and said second side panel connected to the bottom wing and the top wing in a manner forming a box-like cross section of the body;a propulsion system having a first propulsion unit and a second propulsion unit, the first propulsion unit being connected to the flying toy figure at a location to the left of a longitudinal axis of the flying toy figure, and the second propulsion unit being connected to the flying toy figure to the right of the longitudinal axis of the flying toy figure; anda control system for controlling the propulsion system, said control system configured to receive electronic signals from a wireless control device. 2. The flying toy figure of claim 1, wherein the first and second propulsion units are independently operable, thereby enabling the first and second propulsion units to create a thrust differential between them, said thrust differential promoting maneuverability of the flying toy figure. 3. The flying toy figure of claim 2, wherein the body further comprises an intermediate wing disposed between the bottom wing and the top wing, said intermediate wing defining legs of the body. 4. The flying toy figure of claim 2, wherein at least part of the control system is attached to the head, thereby forming a weight shifting rudder head. 5. The flying toy figure of claim 2, wherein the lateral wings are configured at a dihedral angle, thereby promoting aerodynamic stability of the flying toy figure. 6. The flying toy figure of claim 1, wherein the body further comprises an intermediate wing disposed between the bottom wing and the top wing, said intermediate wing defining legs of the body. 7. The flying toy figure of claim 6, wherein at least part of the control system is attached to the head, thereby forming a weight shifting rudder head. 8. The flying toy figure of claim 1, wherein at least part of the control system is attached to the head, thereby forming a weight shifting rudder head. 9. The flying toy figure of claim 1, wherein the first side panel and the second side panel are configured to depict a torso, legs, and feet of the flying toy figure. 10. The flying toy figure of claim 1, wherein the lateral wings are configured at a dihedral angle, thereby promoting aerodynamic stability of the flying toy figure. 11. A flying toy figure comprising: a head;a body shaped in the form of a human, said body connected to the head, and said body comprising:(a) a bottom wing defining a chest of the body;(b) a top wing defining a back of the body;(c) lateral wings defining arms of the body;(d) an intermediate wing disposed between the bottom wing and the top wing, said intermediate wing defining legs of the body;(e) a first side panel and a second side panel, said first side panel and said second side panel connected to the bottom wing and the top wing in a manner forming a box-like cross section of the body; wherein the intermediate wing further comprises insertion tabs, and the first side panel and second side panel further comprise slots for receiving said insertion tabs, and wherein the intermediate wing is connected to the first side panel and the second side panel by inserting the insertion tabs into said slots; a propulsion system having a first propulsion unit and a second propulsion unit, the first propulsion unit being connected to the flying toy figure at a location to the left of a longitudinal axis of the flying toy figure, and the second propulsion unit being connected to the flying toy figure to the right of the longitudinal axis of the flying toy figure; anda control system for controlling the propulsion system, said control system configured to receive electronic signals from a wireless control device. 12. The flying toy figure of claim 11, wherein the first and second propulsion units are independently operable, thereby enabling the first and second propulsion units to create a thrust differential between them, said thrust differential promoting maneuverability of the flying toy figure. 13. The flying toy figure of claim 12, wherein at least part of the control system is attached to the head, thereby forming a weight shifting rudder head. 14. The flying toy figure of claim 12, wherein the first side panel and the second side panel are configured to depict a torso, legs, and feet of the flying toy figure. 15. The flying toy figure of claim 12, wherein the lateral wings are configured at a dihedral angle, thereby promoting aerodynamic stability of the flying toy figure. 16. The flying toy figure of claim 11, wherein at least part of the control system is attached to the head, thereby forming a weight shifting rudder head. 17. The flying toy figure of claim 13, wherein the lateral wings are configured at a dihedral angle, thereby promoting aerodynamic stability of the flying toy figure. 18. The flying toy figure of claim 11, wherein the first side panel and the second side panel are configured to depict a torso, legs, and feet of the flying toy figure. 19. The flying toy figure of claim 18, wherein the lateral wings are configured at a dihedral angle, thereby promoting aerodynamic stability of the flying toy figure. 20. The flying toy figure of claim 11, wherein the lateral wings are configured at a dihedral angle, thereby promoting aerodynamic stability of the flying toy figure.
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