Mechanical Spinning Robot Toy

Information

  • Patent Application
  • 20160089613
  • Publication Number
    20160089613
  • Date Filed
    September 25, 2014
    10 years ago
  • Date Published
    March 31, 2016
    8 years ago
Abstract
A mechanical spinning robot toy includes a top section and a bottom exposed outer gear section. The top section resembles a robot possibly including a head portion and a body portion which may be integral. Any of a variety of arm-like appendages extends outward from the body. The spinning drive mechanism is within the top section. The bottom section has teeth or cogs capable of meshing with another gear or a rack on any of a variety of accessories to move the robot along a track or to animate the accessories. A lower weighted convex surface portion in the bottom biases the robot upright and facilitates spinning of the robot upright. The top and bottom sections are frictionally fit together to rotate or spin together and to spin separately with respect to each when either the top or bottom sections are not allowed to spin.
Description
BACKROUND OF THE INVENTION

The present invention relates to robot toys and more particularly to a mechanical spinning robot toy that interacts with other robot toys and accessories.


Children have enjoyed spinning tops for centuries. Spinning tops operate typically with a string round around the top and throwing the top to the floor resulting in the top spinning on its apex or tip in a gyroscopic entertaining manner. Multiple tops may be played with at one time as children enjoy watching them bump violently together and in multiple environments.


Robot toys have become popular the last century as they animate humans and have multiple functionalities including but not limited to walking, fighting, noise making, utilizing weapons and vehicles and may have working appendages.


There is a need and desire in the toy market for a small robot that is mechanical and moves about that also spins and may be connected to drive additional accessories all to entertain children.


SUMMARY OF THE INVENTION

A principal object and advantage of the present invention is that the robot spins around wildly like a top causing great excitement in children.


Another object and advantage of the present invention is that the robot is simple in construction with an optional spinning top and spinning bottom sections while yet performing many functions in its spinning operations.


Another object and advantage of the present invention is that the appendages are functional in that they may carry objects, hold onto accessories to permit the bottom gear section to mesh with an accessory causing any of a variety of animations between the robot and the accessory.


Another object and advantage of the present invention is that the spinning motion is reversible to assist in up righting the robot if it is knocked over.


Another object and advantage of the present invention is that the appendages may include a clamp to hold the robot onto a gear track or rack.


Another object and advantage of the present invention is that the robot maybe driven by a battery operated motor with switches or remote control while also capable of being driven by a string, pull cord, flywheel or the like.


Another object and advantage of the present invention is that the bottom section external gear may drive all sorts of vehicles or move the robot along a gear track course.





BRIEF DESCRIPTION OF THE DRAWINGS


FIG. 1 is a perspective view of the mechanical spinning robot toy of the present invention;



FIG. 2 is a disassembled view of the toy;



FIG. 3 is a cross sectional exploded view of the toy;



FIG. 3A is another embodiment similar to FIG. 3 with the toy drive large gear on the external gear bottom section;



FIG. 4 is a cross sectional view of the assembled toy;



FIG. 5 is a perspective view into the bottom of the top section of the toy;



FIG. 5A is an enlarged view of FIG. 5 showing the rotatable notched collar on the axle;



FIG. 6 is a perspective view into the top of the lower section drive gear showing the notched post;



FIG. 6A is an enlarged view of the notched post;



FIG. 7 is a perspective view into another embodiment of the bottom of the top section of the toy showing the rotatable flat collar about the axle;



FIG. 8 is a perspective view into the top of another embodiment of the lower section drive gear showing the flat floor or top of the weighted portion for frictional engagement with the flat collar;



FIG. 9 is a perspective view illustrating two mechanical spinning robot toys spinning and fighting each other with their extending arms;



FIG. 10 is a perspective view of the robot toy holding weapons;



FIG. 11 is a perspective view of the robot toy's arms connected to a helicopter gun ship while the lower section large exposed gear drives the operation of the gun ship's weapon and spinning blades;



FIG. 12 is a perspective view of the robot toy's arms connected to a fork lift vehicle while the lower section large exposed gear drives the operation of the vehicle and fork;



FIG. 13 is an artistic sketch of a production robot toy with optional appendages that may be interchangeable and spring loaded;



FIG. 14 is an artistic sketch of a production robot toy in a vehicle while the lower section large exposed gear drives the operation of the vehicle;



FIG. 15 is an artistic sketch of a production robot toy with optional appendages that may be interchangeable and spring loaded as to shoot projectiles, drive tracks and swing objects;



FIG. 16 is an artistic sketch of a production robot toy with optional appendages and track clamps that may be interchangeable and spring loaded along with optional accessories and armor; and



FIG. 17 is an artistic sketch of a production robot toy with track clamps that are secured to a track that is engaged with the large exposed gear to drive the robot toy around the track.





DETAILED DESCRIPTION

Referring to FIGS. 1 through 4, the mechanical spinning robot toy 10 may be understood and appreciated. The robot toy 10 generally comprises a top section 12 and a bottom section 60 that are held together by an axle 50 in a low friction manner. A battery operated motor is located in the top section 12 and is connected to the bottom section 60 in numerous ways that freely rotate on the axle 50. With the motor engaged, the bottom section spins very fast like a top. The top section 12 follows the bottom section when not held stationary. When the bottom section 60 is held stationary, the top section spins alone in a very fast motion.


The top section 12 preferably has a head portion 14 and body portion 30. Appendages or arms 16 with gripping hands 18 extend outwardly from the head 14 or body 30 and are capable of performing many functions as will be appreciated here with further reading. Body portion 30 may be integral with head 14. Body 30 may also be with all or portion of head 14 as illustrated in FIGS. 1 and 2.


Within body 30 is a raised floor 32 upon which is mounted a motor 34 with a small shaft gear 36 protruding through the floor 32. A battery is also located within the body 30. The motor 34 may be engaged with a switch or a RF or IF remote control. The motor 34 is also readily reversible for special action effects of the robot toy 10, such as tipping or uprighting the toy robot 10.


Below the raised floor is a large drive gear 42 upon which the top section 12 may rest. How this large gear 42 import rotational movement to the robot toy may be done in various ways. The top section 12 and large gear 42 are rotatably mounted on axle 50. More specifically, a notched or sectioned collar 46 somewhat semicircular in shape shares a central aperture 48 with large gear 42. A retainer 52 may be used to retain axle 50 within the top section 12.


Bottom section 60 has an external or exposed gear 64 with teeth or clogs 66. Within gear 64 may be a central floor with a centrally located fixed notched post 70 which shares a central aperture 72 with gear 64. A bottom most recess 74 permits the mounting therein of weight convex spinning contact portion 78 with a convex surface 80 which facilitates the spinning of the robot toy 10 in a gyroscopic manner and assists in keeping the toy 10 upright. This floor contact portion has a central aperture 82 to receive axle 50 which the top and bottom sections 12 and 60 are secured loosely together with locking nut 84. It is important that top and bottom sections 12 and 60 are loosely held together with minimum friction for the top and bottom sections 12 and 60 to spin together and separately without putting any excessive loads on the motor 34 and battery 38.



FIG. 3A illustrates that large gear 42A may be flipped over and molded, formed or secured to internal floor 86 of the bottom section 60. Thus if the bottom section 60 is held steady, the top section 12 will spin around large gears 42 or 42A. Otherwise, top section 12 will simply follow bottom section 60 in it spinning motion simply by top section 12 resting on large gear 42. If the top section 12 is held in place, the bottom section 60 will spin independent of the top section 12.



FIGS. 5 through 6A more clearly illustrate the coupling between notched or flat-faced collar 46 about axle 50 with the notched post 70 secured in the bottom section 60.



FIGS. 7 and 8 illustrate another means to functionally connect and drive the top and bottom sections 12 and 60. A flat rotatable color 47 to be driven by gears 36 and 42 (or the like) makes a frictional contact with smooth internal floor 69.



FIG. 9 illustrates two robot toys 10 fighting in a confined area. The floor could actually be sloped centrally to encourage contact. As the toys 10 are spun in clockwise and counter clockwise motions under control of children suitably by remote control, their arms 16 and hands or fists 18 violently contact one another. Eventually one robot toy 10 may knock over the other robot toy 10 and win the fight. Spinning and reversing the downed robot toy 10 will eventually upright the toy to its desired stable spinning condition.



FIG. 10 illustrates a robot toy 10 holding weapons 90 as it spins about.



FIG. 11 illustrates a robot toy 10 connected to a helicopter gun ship 94. The hands 18 are secured to the gun ship 94. The expose gear 64 is thereby held in place and meshing with a gear on the gun ship 94 which is further meshed in a gear train to the spinning overhead blades 96, rotating machine gun 98. The exposed gear 64 also moves the ship 94 about.



FIG. 12 illustrates a robot toy 10 is placed on top and connected to a fork lift vehicle 102 by hands 18 being secured to operation-like levers 104. The expose gear 64 is thereby held in place and meshing with a gear on the fork lift 94 which is further meshed in a gear train to operate the lifting forks 106 and drive tracks 108.



FIG. 13 is an artistic sketch of a production robot toy 110 with optional appendages that may be interchangeable and spring loaded. This toy may be operated by an on/off switch 112.



FIG. 14 is an artistic sketch of a production robot toy 114 in a vehicle 116 while the lower section large exposed gear drives the operation of the vehicle.



FIG. 15 is an artistic sketch of a production robot toy 118 without appendages that may be interchangeable with spring loaded shoulder guns 120 as to shoot projectiles 124, drive tracks 126 and swing objects such as a mace 128.



FIG. 16 is an artistic sketch of a production robot toy 130 with articulable appendages 132 and track clamps 134 that may be interchangeable and spring loaded along with optional accessories including weapons and armor 136, LEDs 138 and a speaker 140.



FIG. 17 is an artistic sketch of a production robot toy 142 with track clamps 134 that are secured to a geared track 146 that is engaged with the large exposed gear 64 to drive the robot toy 142 around the track 146.


The above embodiments are for illustrative purposes. The actual scope of the invention is defined by the following claims.

Claims
  • 1. A mechanical spinning robot toy, comprising: a) a top section;b) a bottom section including an externally exposed gear for driving an accessory;c) an axle passing through the top and bottom sections; andd) a motor with a gear as to spin the top and bottom sections together as well as independently.
  • 2. The mechanical spinning robot toy of claim 1 further comprising a portion of the robot securable to a part of the accessory to keep the externally exposed gear in engagement with the accessory.
  • 3. The mechanical spinning robot toy of claim 1 further comprising a weighted convex spinning play surface contact portion.
  • 4. The mechanical spinning robot toy of claim 1 in which the top and bottom sections are secured together loosely to permit them to spin together, as well as separately if either the top section or the bottom section are kept from spinning.
  • 5. A mechanical spinning robot toy, comprising: a) a top section;b) a bottom section including an externally exposed driving gear;c) an axle passing through the top and bottom sections; andd) a motor with a gear to spin the top and bottom sections together as well as independently.
  • 6. The mechanical spinning robot toy of claim 5 in which the externally exposed gear drives an accessory.
  • 7. The mechanical spinning robot toy of claim 6 further comprising a portion of the robot securable to a part of the accessory to keep the externally exposed gear in engagement with the accessory.
  • 8. The mechanical spinning robot toy of claim 5 further comprising: a) an accessory having a moveable component; andb) the externally exposed gear drives the accessory component.
  • 9. The mechanical spinning robot toy of claim 8 further comprising a portion of the robot securable to a part of the accessory to keep the externally exposed gear in engagement with the accessory.
  • 10. The mechanical spinning robot toy of claim 5 further comprising: a) an accessory; andb) the externally exposed gear drives the robot relative to the accessory.
  • 11. The mechanical spinning robot toy of claim 5 further comprising: a) a track; andb) the externally exposed gear engages the track to drive the robot relative to the track.
  • 12. The mechanical spinning robot toy of claim 11 further comprising: a) a clamp; andb) the clamp secures the robot for movement relative to the track.
  • 13. The mechanical spinning robot toy of claim 12 in which the clamp is disposed above the external exposed gear and depends down outboard of the gear.
  • 14. The mechanical spinning robot toy of claim 11 further comprising: a) teeth on one side of the track;b) a depending clamp engaging the track for sliding movement along the other side of the track opposite the teeth on the track; andc) the clamp securing the robot for movement relative to the track.
RELATED APPLICATION

This application is based on, and claims the benefit of, U.S. Provisional Application No. 61/883,542 filed Sep. 27, 2014.