A remote control decoy for luring game animals includes a motorized frame with wheels, a wireless remote controller, and at least one life-like decoy shell. The motorized frame is a miniature wheeled vehicle having battery-powered drive and steering motors and a mounting plate for securing the decoy
A remote control decoy for luring game animals includes a motorized frame with wheels, a wireless remote controller, and at least one life-like decoy shell. The motorized frame is a miniature wheeled vehicle having battery-powered drive and steering motors and a mounting plate for securing the decoy. The wireless controller transmits control signals to a receiver within the motorized frame, thereby allowing a user to remotely control the movement of the decoy. In use, the user moves the decoy in order to lure prey while occupying a concealed location. The user can also selectively interchange the type of decoy being used.
대표청구항▼
1. A remote control decoy apparatus comprising: a motorized manipulation assembly comprising a chassis frame, a plurality of wheel assemblies capable of moving across a ground surface, and a drive mechanism mechanically coupled to said wheel assemblies, said frame comprising a substantially planar t
1. A remote control decoy apparatus comprising: a motorized manipulation assembly comprising a chassis frame, a plurality of wheel assemblies capable of moving across a ground surface, and a drive mechanism mechanically coupled to said wheel assemblies, said frame comprising a substantially planar top surface and a substantially planar bottom surface;a plurality of upwardly projecting brackets affixed to said frame proximate a perimeter of said top surface;a mounting plate spaced apart from said frame, said mounting plate comprising a plurality of outwardly projecting post connectors disposed around a perimeter thereof, each post connector of said plurality of post connectors being removably connected to a correspondingly positioned bracket of said plurality of brackets, said plurality of brackets defining a gap between said frame and said mounting plate, said drive mechanism being disposed within said gap between said frame and said mounting plate;a vertical mounting post extending upwardly from a top surface of said mounting plate;at least one decoy removably coupled to said mounting post, said decoy having an exterior simulating a game animal, said decoy defining a hollow interior and an opening into said hollow interior disposed in a lower end to receive said mounting plate and said drive mechanism; and,a radio controller in radio communication with said motorized manipulation assembly capable of remotely controlling at least speed and direction of said motorized manipulation assembly by communication of a control signal. 2. The apparatus of claim 1, wherein said plurality of wheel assemblies are rotatably coupled to said frame and responsive to said control signal. 3. The apparatus of claim 2, wherein said mounting plate is removably connected to said plurality of brackets parallel to said top surface. 4. The apparatus of claim 3, wherein said decoy further comprises a decoy fastening aperture disposed in an upper end; and, wherein said mounting post further comprises a post fastening aperture having an internal thread which is aligned with said decoy fastening aperture to threadingly receive a fastener that secures said decoy to said mounting post. 5. The apparatus of claim 4, wherein each bracket of said plurality of brackets comprises a bracket fastener aperture proximate an upper end thereof; wherein said post connector protrudes outwardly from peripheral vertical edges of said mounting plate; and,wherein said post connector is insertingly connected within said bracket fastener aperture of said correspondingly positioned bracket to removably connect said mounting plate to said frame in a spaced apart relationship defining said gap. 6. The apparatus of claim 5, wherein said motorized manipulation assembly further comprises: a radio receiver capable of receiving said control signal;a control module coupled to said frame and in electrical communication with said radio receiver capable of interpreting said control signal;a power supply capable of powering said motorized manipulation assembly;wherein said drive mechanism is electrically coupled to said control module and is responsive to speed and direction commands from said control module to control rotation and direction of at least two wheel assemblies of said plurality of wheel assemblies. 7. The apparatus of claim 6, wherein said drive mechanism further comprises: a front axle mounted to said frame, wherein a front two wheel assemblies of said plurality of wheel assemblies are mechanically connected to opposing ends of said front axle;at least one front drive motor having a shaft in mechanical communication with said front axle, wherein rotation of said front drive motor shaft translates into rotation of said two wheel assemblies; and,at least one steering servomotor in mechanical communication with a steering linkage, wherein actuation of said steering servomotor moves said steering linkage to change direction of said front two wheel assemblies. 8. The apparatus of claim 7, wherein said radio controller further comprises: a controller body having a handle;a throttle control mechanism being responsive to user generated speed commands;a directional control mechanism being responsive to user generated directional commands;a radio frequency transmitter in electrical communication with said throttle control mechanism and said directional control mechanism capable of generating said control signal in response to said user generated speed commands and user generated directional commands; and,a power supply capable of powering said radio controller. 9. The apparatus of claim 8, wherein said drive mechanism further comprises: a rear axle mounted to said frame, wherein a rear two wheel assemblies of said plurality of wheel assemblies are mechanically connected to opposing ends of said rear axle; and,at least one rear drive motor having a shaft in mechanical communication with said rear axle, wherein rotation of said rear drive motor shaft translates into rotation of said rear two wheel assemblies. 10. The apparatus of claim 9, wherein said mounting post is disposed upon said mounting plate in a forward of a center position. 11. A remote control decoy apparatus comprising: a chassis frame comprising a substantially planar top surface and a substantially planar bottom surface;a plurality of upwardly projecting brackets affixed to said frame around a perimeter of said top surface;a mounting plate removably connected to said plurality of brackets, said mounting plate comprising a plurality of outwardly projecting post connectors disposed around a perimeter thereof, each post connector of said plurality of post connectors being removably connected to a correspondingly positioned bracket of said plurality of brackets, said plurality of brackets being removably connected to said plurality of post connectors at a front edge, a rear edge, and opposing side edges of said mounting plate such that a gap is defined between said frame and said mounting plate;a front axle mounted to said frame;two front wheel assemblies mechanically connected to opposing ends of said front axle;at least one front drive motor disposed within said gap between said mounting plate and said top surface of said frame, said front drive motor comprising a shaft in mechanical communication with said front axle;at least one steering servomotor in mechanical communication with said front axle;a rear axle mounted to said frame;two rear wheel assemblies mechanically connected to opposing ends of said rear axle;a vertical mounting post extending upwardly from a top surface of said mounting plate;a plurality of decoys interchangeably attached to said mounting post, each decoy of said plurality of decoys comprising an exterior simulating a game animal defining a hollow interior and an opening into said hollow interior disposed in a lower end to receive said mounting plate and said front drive motor;a radio frequency transmitter capable of generating a control signal in response to user generated speed commands and user generated directional commands;a radio receiver disposed on said frame in radio communication with said radio frequency transmitter capable of receiving said control signal;a control module disposed within said gap between said mounting plate and said top surface of said frame, said control module being capable of interpreting said control signal to control said front drive motor and said steering servomotor to move said remote control decoy apparatus across a ground surface; and,a power supply disposed within said gap between said mounting plate and said top surface of said frame for powering said remote control decoy apparatus. 12. The apparatus of claim 11, wherein each decoy of said plurality of decoys further comprises a decoy fastening aperture disposed in an upper end; and, wherein said mounting post further comprises a post fastening aperture having an internal thread which is aligned with said decoy fastening aperture to threadingly receive a fastener that secures said decoy to said mounting post. 13. The apparatus of claim 12, wherein each bracket of said plurality of brackets comprises a bracket fastener aperture disposed through an upper end thereof; wherein said protrudes outwardly from front, rear, and side vertical edges of said mounting plate; and,wherein post connector is insertingly connected within said bracket fastener aperture of said correspondingly positioned bracket to removably connect said mounting plate to said frame in a spaced apart relationship defining said gap. 14. The apparatus of claim 11, further comprising at least one rear drive motor disposed within said gap between said mounting plate and said top surface of said frame, said rear drive motor comprising a shaft in mechanical communication with said rear axle, said rear drive motor being received by said opening in said decoy; wherein said control module is capable of controlling said rear drive motor. 15. The apparatus of claim 14, wherein said mounting post is disposed upon said mounting plate in a forward of a center position.
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이 특허에 인용된 특허 (11)
Richard J. Cornell, Jr. ; David T. Hamby, Apparatus and method for imparting a traversing motion to a turkey decoy.
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