Thrown Flying Toy that Produces Lift Regardless of Direction of Rotation

Abstract

A flying toy that is thrown into flight. The flying toy has a central hub with a central axis. A central opening is formed in the hub. Wings radially extend from the central hub. Each of the wings has a first section that extends from the hub, a second section that extends from the hub, and a curved section that joins the first section to the second section. A shaped opening is defined in each of the wings. The curved section in each of the wings is shaped as an airfoil. The curved sections produce lift as air flows over the curved sections in flight. The openings in the hub and the wings enable air to flow over the air foils regardless to flight speed or rotational speed. The shape of the flying toy also produces an air cushion in flight that supplements lift.

Claims

1. A flying toy, comprising: a central hub symmetrically disposed about an imaginary central axis; a plurality of wings radially extending from said central hub in a pattern symmetrically disposed about said central axis, wherein each of said plurality of wings has a first section that extends from said hub, a second section that extends from said hub, and a curved section that joins said first section to said second section, wherein a shaped opening is defined in each of said plurality of wings between said hub, said first section, said curved section, and said second section.

2. The flying toy according to claim 1, wherein each said curved section of said plurality of wings is shaped as an airfoil that produces and enhances lift as air flows over each said curved section.

3. The flying toy according to claim 1, wherein a central opening is formed in said hub that is concentric with said central axis.

4. The flying toy according to claim 3, wherein said plurality of wings extend a maximum distance apart on opposite sides of said hub, wherein said central opening has a diameter that is at least twenty percent as long as said maximum distance.

5. The flying toy according to claim 4, wherein each said shaped opening in said plurality of wings has an area at least as large as said central opening.

6. The flying toy according to claim 1, wherein each said curved section of said plurality of wings terminates along a leading edge, wherein a lip extends from said leading edge in a direction parallel to said central axis.

7. The flying toy according to claim 1, wherein said plurality of wings radially extends from said central hub following a curved plane that has an apex at said central axis.

8. The flying toy according to claim 7, wherein said plurality of wings extends a maximum distance apart on opposite sides of said hub, wherein said curved plane has a radius of curvature at least as large as said maximum distance.

9. The flying toy according to claim 1, further including a core frame molded of a first plastic and an exterior overmold of a second plastic, wherein said core frame and said exterior overmold form said central hub and said plurality of wings.

10. The flying toy assembly according to claim 9, wherein said core frame contains openings through which said second plastic can flow, therein mechanically joining said exterior overmold to said core frame.

11. The flying toy assembly according to claim 9, wherein said second plastic is a soft elastomeric material.

12. A flying toy, comprising: a central hub symmetrically disposed about an imaginary central axis; a plurality of wings radially extending from said central hub in a pattern symmetrically disposed about said central axis, wherein each of said plurality of wings has a shaped opening therein, and wherein each of said plurality of wings forms an airfoil between said shaped opening and a leading outer edge that creates aerodynamic lift as said flying toy progresses through air.

13. The flying toy according to claim 12, wherein a central opening is formed in said hub that is concentric with said central axis.

14. The flying toy according to claim 13, wherein said plurality of wings extend a maximum distance apart on opposite sides of said hub, wherein said central opening has a diameter that is at least twenty percent as long as said maximum distance.

15. The flying toy according to claim 14, wherein each said shaped opening in said plurality of wings has an area at least as large as said central opening.

16. The flying toy according to claim 12, wherein a lip extends from said leading outer edge of each of said plurality of wings in a direction parallel to said central axis.

17. The flying toy according to claim 12, wherein said plurality of wings radially extends from said hub following a curved plane that has an apex at said central axis.

18. The flying toy according to claim 17, wherein said plurality of wings extend a maximum distance apart on opposite sides of said hub, and wherein said curved plane has a radius of curvature at least as large as said maximum distance.

19. The flying toy according to claim 12, further including a core frame molded of a first plastic and an exterior overmold of a second plastic, wherein said core frame and said exterior overmold form said central hub and said plurality of wings.

20. The flying toy according to claim 19, wherein said core frame contains openings through which said second plastic can flow, therein mechanically joining said exterior overmold to said core frame.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0011] For a better understanding of the present invention, reference is made to the following description of exemplary embodiments thereof, considered in conjunction with the accompanying drawings, in which:

[0012] FIG. 1 is a perspective view of an exemplary embodiment of the present invention flying toy;

[0013] FIG. 2 is a top view of the exemplary embodiment of FIG. 1;

[0014] FIG. 3 is cross-sectional view of a segment of the flying toy as viewed along line 3-3 in FIG. 1;

[0015] FIG. 4 is a side view of the exemplary embodiment of FIG. 1;

[0016] FIG. 5 is an exploded view of the exemplary embodiment of FIG. 1; and

[0017] FIG. 6 is a fragmented bottom view of a specialized wing on the exemplary embodiment of the flying toy.

DETAILED DESCRIPTION OF THE DRAWINGS

[0018] The present invention flying toy can be configured in many ways. For example, the flying toy can be configured with any number of symmetrically spaced wings. Although many such configurations can be produced, only one exemplary embodiment with four specialized wings is illustrated and described. The exemplary embodiment is selected in order to set forth one of the best modes contemplated for the invention. The illustrated embodiment, however, is merely exemplary and should not be considered a limitation when interpreting the scope of the appended claims.

[0019] Referring to FIG. 1, and FIG. 2, a flying toy 10 is shown. The flying toy 10 is held in one hand and is thrown into flight in the same manner as a traditional flying disc. As such, when in flight, the flying toy 10 rotates about an imaginary central axis 12 located in its geometric center.

[0020] The flying toy 10 has a body 14. The body 14 has a maximum diameter D1. As will later be explained, the body 14 has a two-part construction wherein a soft elastomeric material 16 is over-molded onto a more rigid core frame. This provides the flying toy 10 with a soft exterior that is easy to grip and is not likely to cause impact damage. The body 14 of the flying toy 10 is symmetrically formed around the central axis 12. In this manner, the body 14 is stable when rotating about the central axis 12 in flight. The flying toy 12, therefore, does not wobble in flight and will have a constant, straight and stable flight profile.

[0021] The body 14 of the flying toy 10 has an annular hub 18 that defines a center opening 20. The center opening 20 is round and has a diameter D2 that is at least as long as twenty percent of the overall diameter D1 of the body 14. The central axis 12 extends through the center of the center opening 20. A plurality of specialized wings 22 radially extend from the central hub 18 in a pattern that is symmetrically disposed about the central axis 12. Each of the specialized wings 22 is identical in size, shape, and weight. In this manner, when the flying toy 10 is rotating about the central axis 12, the flying toy 10 remains balanced and stable. Each specialized wing 22 has a periphery consisting of with a first straight side 24 and a second straight side 26. The first straight side 24 and the second straight side 26 are joined by a curved leading edge 28. The first straight side 24 and the second straight side 26 are oriented between 80 degrees and 110 degrees apart, with a preferred relative angle of approximately 90 degrees. This provides each specialized wing 22 with a shape that has two salient points 30 along its periphery edge that are joined by the curved leading edge 28.

[0022] The specialized wings 22 are not solid. Rather each of the specialized wings 22 defines a shaped opening 32 that is formed in the center of each of the specialized wings 22. Each shaped opening 32 has an area that is equal to or greater than the area of the center opening 20 in the center of the hub 18. The shaped opening 32 divides each of the specialized wings 22 into three sections 34, 36, 38. The first section 34 exists between the shaped opening 32 and the first straight side 24. The second section 36 exists between the shaped opening 32 and the second straight side 26. The third section 38 exists between the shaped opening 32 and the curved leading edge 28, wherein the third section 38 is the farthest from the central hub 18.

[0023] The shaped openings 32 in each of the specialized wings 22 are not round. Rather, the shaped openings 32 are slightly oblong in order to ensure that the minimum width W1 of the first section 34, the second section 36 and the third section 38 of the specialized wings 22 are equal.

[0024] Referring to FIG. 3 in conjunction with FIG. 1 and FIG. 2, it can be seen that the third section 38 of each specialized wing 22 has a protruding upper camber 40, so as to form an airfoil. The applicant refers to the configuration creates by the protruding upper camber 40 as a turbulator. Below the protruding upper camber 40 is a nearly flat bottom surface 42 that acts as the chord of the airfoil. The result is an aerodynamically lifting airfoil shape that produces lift as air passes over the protruding upper camber 40. Lift is produced regardless of whether air is flowing from the shaped opening 32 to the curved leading edge 28 or vice versa. The lift that is produced is created by the relative movement of the flying toy 10 through space. No substantial lift is created by the rotational movement of the flying toy 10 around the central axis 12. Additionally, the spinning nature of the flying toy 10 does create additional lift as the symmetrical wings 22 are traveling both in forward motion and a spinning motion. The spinning motion enhances the forward lifting aspects. Both the spin and the throw directional speed (either left or right spinning) crates lift over the airfoils sections. As such, the same amount of lift is created if the flying toy 10 is thrown with a clockwise rotation or a counter-clockwise rotation.

[0025] A lip 44 extends downwardly from the curved leading edge 28 of the third section 38. The lip 44 helps define a recessed area 46 under each of the extending wings 22. The recessed areas 46 turbulates or slightly disrupts the air at the leading edge and airfoil surface level thus gaining performance retaining laminar airflow across the entire airfoil at any speed, like an airplane wing when the flying toy 10 is in flight. This enables the flying toy 10 to better produce lift.

[0026] Referring to FIG. 4, it can be seen that the body 14 of the flying toy 10 is not planar. Rather, the body 14 is slightly curved between opposing ends when viewed from a side edge. The extending wings 22 radially extend from the central hub 18 following a curved plane that has an apex at the central axis 12.

[0027] The slight curvature follows a radius R1 that is at least as large as the diameter D1 of the flying toy 10. The slight curvature causes the lift forces created by the specialized wings 22 to diverge away from the central axis 12. This results in more stable flight characteristics at all rotational speeds.

[0028] Referring to FIG. 5 and FIG. 6 in conjunction with FIG. 2, it can be seen that the flying toy 10 has a core frame 50 that is molded from a strong plastic. The core frame 50 provides structural integrity to the flying toy 10 and maintains the shape of the flying toy 10, both while the flying toy 10 is in flight and while the flying toy 10 is being caught and thrown.

[0029] The core frame 50 is formed with multiple projecting rails 52. Optional through holes may also be provided. An elastomeric material 16 is molded around the core frame 50 to complete the shape of the flying toy 10. The elastomeric material 16 can be a thermoplastic rubber or a polymer foam material that is bond compatible to the core frame 50. During the over-molding process, the elastomeric material 16 flows around the rails 52 and into any holes present in the core frame 50. This creates a mechanical bond between the core frame 50 and the over-molded elastomeric material 16 that can resist any bending or flexing of the flying toy 10. Additionally, by molding the core frame 50 from one color and over-molding elastomeric material 16 of a second color, decorative patterns 56 can be achieved in the flying toy 10 where the projecting rails 52 of the core frame 50 is exposed on the exterior of the flying toy 10.

[0030] With reference to all figures, it will be understood that any of the extending wings 22 can be grasped and the flying toy 10 thrown in flight with a rotation. As the flying toy 10 flies in a particular direction, air flows over the airfoil sections 38 of the extending wings 22 that are facing and trailing the line of flight. This creates lift. Simultaneously, the recessed areas 46 under each extending wing 22 turbulates or produces laminar air flow, creating a more efficient air cushion that further prolongs flight. The result is a strong, lightweight flying toy 10 that has a soft exterior and is capable of maintaining prolonged periods of flight from a single throw.

[0031] It will be understood that the embodiment of the present invention that is illustrated and described is merely exemplary and that a person skilled in the art can make many variations to that embodiment. All such embodiments are intended to be included within the scope of the present invention as defined by the appended claims.