A leg actuator mechanism, a method of manufacturing the leg actuator mechanism, and a doll implementing a leg actuator mechanism is provided. The leg actuator includes an upper leg mechanism comprising a hip end and an opposing knee end. The leg actuator also includes a lower leg mechanism comprising a first end and an opposing second end, wherein the first end of the lower leg portion is operably coupled to the knee end of the upper leg portion. The leg actuator further includes a follower mechanism. The follower mechanism includes a mounting defining a follower pathway configured to receive a follower joint. The follower mechanism also includes an upper follower connector and a lower follower connector. The follower mechanism moves at least one of the upper leg mechanism or the lower leg mechanism when activated.

Device to aesthetically cover and provide protection to motorcycle vehicle identification numbers (vin) and/or emission label stickers on a motorcycle frame. Typically motorcycle frames will have a vin and/or/combination emission information sticker attached to them. Typically these stickers are required and cannot be removed. Besides the fact that these stickers are aesthetically displeasing, they are also exposed to the elements and debris of the road when riding. The device comprises of a removable semi cylindrical panel. The panel is secured to a motorcycle frame to cover and protect a vin and/or/combination emissions information label sticker.

A ride-on vehicle for children comprising a main body that includes one or more built-in toy vehicle tracks that allow a toy vehicle to travel on the main body. A wheel assembly comprising a plurality of wheels is coupled to the main body. A drive assembly is operatively coupled to the wheel assembly and is configured to drive two or more wheels of the wheel assembly. A steering assembly is also operatively coupled to the wheel assembly and is configured to steer the vehicle based on a received user input.

A leg actuator mechanism, a method of manufacturing the leg actuator mechanism, and a doll implementing a leg actuator mechanism is provided. The leg actuator includes an upper leg mechanism comprising a hip end and an opposing knee end. The leg actuator also includes a lower leg mechanism comprising a first end and an opposing second end, wherein the first end of the lower leg portion is operably coupled to the knee end of the upper leg portion. The leg actuator further includes a follower mechanism. The follower mechanism includes a mounting defining a follower pathway configured to receive a follower joint. The follower mechanism also includes an upper follower connector and a lower follower connector. The follower mechanism moves at least one of the upper leg mechanism or the lower leg mechanism when activated.

A fuel tank assembly for a motorcycle. The fuel tank assembly includes a fuel tank defining a fuel containment volume. The fuel tank has an upper wall. A fuel cap is operable to selectively open and close the fuel containment volume. A motorcycle accessory is attachable to the fuel tank via a connection structure including first and second connection portions that are complementary and inter-engageable together to positively define a fully-secured state. The first connection portion is secured to an exterior surface of the upper wall of the fuel tank, and the second connection portion is secured to the motorcycle accessory. The connection structure defines a finite position and rotational orientation of the motorcycle accessory upon relative rotation of the motorcycle accessory with respect to the fuel tank to the fully secured state.

An electronic component is integrated into a vehicle body component, such as an automobile, a bicycle, etc., and may be an electronic lighting material and/or an electronic sensor. The vehicle body component is formed of multiple layers of a composite material that may be assembled to take the shape of a mold of a particular vehicle component. A sensor or lighting device is disposed in a void formed in the one or more of the layers of the composite material, and this device may be enclosed in the void by other layers. The lighting material and/or sensing mechanism are configured to connect to a power source via electrical wiring that is disposed either between or through the composite layers that form the vehicle body component and the vehicle body component is then cured to form a hardened vehicle body part with the sensor or lighting device formed therein.

A toy projectile launcher assembly installed in a ride-on vehicle having a flap, a tire as a storage device for projectiles, and a steering wheel with an activation switch, the toy projectile launcher assembly includes a projectile launcher configured to project the projectiles, a hopper having a feeder carousel which feeds the projectiles via agitator arms from the tire into an air supply outlet of the hopper and an air supply inlet having an airfoil that reduces a cross-sectional area of the air supply inlet at a portion nearest the feeder carousel to a first size from a second size located at an exit of the air supply inlet positioned farthest from the feeder carousel, a blower provides air to the air supply inlet of the hopper which is sped up when passing the airfoil and entering into the hopper.

A powered wheeled riding device is configured to receive left and right foot inputs from a user and in response control a left motor and a right motor to move respective left and right wheels forwardly and backwardly consistent with the left and right foot inputs in order to steer the device without changing a direction of the wheels relative to a frame of the riding device. The riding device has at least one rear wheel that is not powered. The rear wheel is mounted on a wheel mount that rotates freely about a vertical axis so that the rear wheel freely is directed in any direction.

A decorative accessory system comprises first, second, and third decorative accessory devices. Each device comprises a rigid main body having a T-handle or hook and a ferrous plate or magnet, a flexible sleeve defining a chamber, and a decorative element having a magnet or a ferrous plate. The main body is selectively at least partially insertable into the chamber such that the T-handle or hook protrudes through a first sleeve opening and such that the ferrous plate or magnet of the main body is aligned with a second sleeve opening. The decorative element is selectively attachable to the main body by contacting the magnet or ferrous plate of the decorative element to the ferrous plate or magnet of the main body.

A decorative accessory system comprises first, second, and third decorative accessory devices. Each device comprises a rigid main body having a T-handle or hook and a ferrous plate or magnet, a flexible sleeve defining a chamber, and a decorative element having a magnet or a ferrous plate. The main body is selectively at least partially insertable into the chamber such that the T-handle or hook protrudes through a first sleeve opening and such that the ferrous plate or magnet of the main body is aligned with a second sleeve opening. The decorative element is selectively attachable to the main body by contacting the magnet or ferrous plate of the decorative element to the ferrous plate or magnet of the main body.