Devices, systems, and methods of enhancing the gameplay of a toy are disclosed herein. For example, the toy can be a remotely controlled vehicle that includes a radio frequency identification (“RFID”) reader, configured to detect signals generated by a plurality of markers with RFID tags. Each marker of the plurality can be arranged such that the markers define a course for the remotely controlled vehicle. Certain markers can be designated as a starting line, a finish line, and “special,” which would enable programmable and variable gameplay features and actions of the remotely controlled vehicle. The remotely controlled vehicle can be communicably coupled to a mobile computing device configured to receive and process signals from the vehicle, display metrics associated with the gameplay, enable immediate functioning of special tag features, display metrics, and generate control codes transmitted to the vehicle, which control certain features in accordance with the programmed gameplay.

A propulsion system for a vehicle or toy vehicle is disclosed. The system comprises rotary drive means for driving the vehicle along ground, the rotary drive means operating in a plane and having a peripheral ground-engagement part. The system further comprises a rotor comprising one or more rotor blades rotatable about a rotor axis for producing thrust, wherein the rotary drive means and the rotor are positioned relative to each other so that during rotation of the rotor, the rotor blades pass through the plane of the rotary drive means, inside the peripheral ground-engagement part. In this way, the rotor blades are protected by the peripheral ground-engagement part.

A propulsion system for a vehicle or toy vehicle is disclosed. The system comprises rotary drive means for driving the vehicle along ground, the rotary drive means operating in a plane and having a peripheral ground-engagement part. The system further comprises a rotor comprising one or more rotor blades rotatable about a rotor axis for producing thrust, wherein the rotary drive means and the rotor are positioned relative to each other so that during rotation of the rotor, the rotor blades pass through the plane of the rotary drive means, inside the peripheral ground-engagement part. In this way, the rotor blades are protected by the peripheral ground-engagement part.

A modular robot system includes N (N is an integer that is 2 or greater) cube-type unit robots, each of the N cube-type unit robots comprising: a housing in the shape of a regular hexahedron; a step motor installed in the housing; and a controller installed in the housing and for controlling the step motor. The housing has, on one surface thereof, a mounting groove in which a rotary body rotating by means of a rotating shaft of the step motor can be mounted, and, on the other surface of the housing, a connection groove in the same shape, so that by means of a connector to be mounted in the connection groove, connection to another cube-type unit robot is possible, and the housing has identification marks with different shapes from one another on the respective surfaces thereof.

The present invention relates to a transformer toy car that automatically transforms the shape to turn a card over to provide the information on the card, if the card is attached to the transformer toy car. The transformer toy car includes: a separable toy car body; and cards adapted to be attached to the underside of the toy car body, wherein if one of the cards is attached to the underside of the toy car body, a portion of the separable toy car body is separated, and a portion of the separated toy car body pressurizes a floor surface, thereby making the toy car body stand up or turn over and thus allowing the underside surface of the card attached to the underside of the toy car body to be exposed to the outside.

The present invention relates to a transformer toy car that automatically transforms the shape to turn a card over to provide the information on the card, if the card is attached to the transformer toy car. The transformer toy car includes: a separable toy car body; and cards adapted to be attached to the underside of the toy car body, wherein if one of the cards is attached to the underside of the toy car body, a portion of the separable toy car body is separated, and a portion of the separated toy car body pressurizes a floor surface, thereby making the toy car body stand up or turn over and thus allowing the underside surface of the card attached to the underside of the toy car body to be exposed to the outside.

A support assembly for a vehicle includes at least two spherical tires travelling on a road surface and rotating relative to the road surface and the vehicle and a drive system magnetically driving rotation of the tires relative to the drive system itself such that no portion of the drive system physically contacts the tires or the road surface. The tires each have an outer tread layer comprising a material having a first stiffness when dry and a second stiffness when wet, the first stiffness being greater than the second stiffness.

A toy vehicle includes at least a chassis, a front wheel base, and a suspension system. The suspension system adjustably secures the front wheel base to the chassis in a manner that provides two operational modes. In a first mode of the two operational modes, the front wheel base is freely, resiliently supported below the chassis. In a second mode of the two operational modes, the front wheel base is selectively posable by a user over a range of orientations for different types of vehicle mobility. The suspension system retains poses when the toy vehicle is operating in the second mode.

A toy track system for a toy car to move therein and along having a plurality of tube sections including at least first and second tube sections which are connectable endwise together to form part of the toy track system; and a connection module comprising: coupling means having first and second coupling parts which are provided on the first and second tube sections respectively and are inter-engageable with each other to prevent axial separation between the first and second tube sections; and interlocking means having first and second interlocking parts which are provided on the first and second tube sections respectively and are inter-engageable with each other to fix the first and second tube sections in one predetermined angular position relative to each other selected from at least two predetermined angular positions. The car has a wheel, a motor, gears, a presser, principal guiding members and auxiliary guiding members.

A system and method is provided for a toy race track. Preferred embodiments of the present invention operate in conjunction with a vehicle affixed to a track, wherein the track is supported in relation to at least one fixed surface via a plurality of support structures. In one embodiment, the track comprises a plurality of flexible sections, allowing a user to construct a track resembling a rollercoaster, having steep curves, upside-down portions, etc. In one embodiment, the vehicle includes a plurality rollers that can be used to both affix the vehicle to the track and propel the vehicle along the track. By affixing the vehicle to the track, the vehicle is prevented from leaving the track during extreme situations (e.g., steep curves, upside-down portions, etc.).