A toy includes a rotational lift mechanism having a rotatable drive shaft, a helical guide track positioned about the drive shaft, a receiver basin positioned atop the drive shaft, an upper track, a tilted panel, a chute having an opening formed therein and a lower track. In example forms, one or more balls traverse a closed-loop pre-defined path including along the guide track and within the basin, along the upper track, through an airborne trajectory into contact with the tilted panel, bouncing into the opening of the chute, and back along the lower track.

A track for a toy vehicle and a track section for forming the same. Each of the track sections has first and second edges and an upper surface extending therebetween. Furthermore, the track sections have a first connector extending from the first edge and a second connector extending from the second edge. The first connector of one of the track sections receives the second connector of another one of the track sections to detachably couple two of the track sections together to form the track. Furthermore, when coupled together the first and second track sections are movable relative to one another to adjust the inclination of the upper surfaces so that the track created using the track sections is modular and adjustable.

A customizable adhesive toy playscape is constructed of a combination of printed adhesive playscape tape and other accessories, such as printed stickers, upstanding signs, toy vehicles, and the tape roll core that can be used by children (or adults) for creating imaginary playscape tape worlds for play, education, or other uses. The playscape tape can be part of a two-layer track construction that includes machine-readable codes for controlling movement of a mobile agent traveling thereover.

A trampoline module for use with a plurality of physically interconnectable marble run modules includes a connecting boss, a concave shell, and a resilient head. The connecting boss is configured to connect to a corresponding connector on at least one of the physically interconnectable marble run modules, and defines a connection direction. The concave shell is arranged at least in part above the connecting boss, and includes a perimeter rim. The resilient head is affixed to the concave shell and over the perimeter rim, such that the resilient head defines a first planar surface. The first planar surface defines a first plane having a first direction perpendicular to the first plane, wherein the first direction and the connection direction are non-parallel.

A trampoline module for use with a plurality of physically interconnectable marble run modules includes a connecting boss, a concave shell, and a resilient head. The connecting boss is configured to connect to a corresponding connector on at least one of the physically interconnectable marble run modules, and defines a connection direction. The concave shell is arranged at least in part above the connecting boss, and includes a perimeter rim. The resilient head is affixed to the concave shell and over the perimeter rim, such that the resilient head defines a first planar surface. The first planar surface defines a first plane having a first direction perpendicular to the first plane, wherein the first direction and the connection direction are non-parallel.

Disclosed is a convertible toy vehicle playset convertible from a first configuration to a second, altered configuration upon a predefined interaction with a toy vehicle. A convertible track segment includes a rotating platform mounted above a base and a trigger located on the rotating platform that may be engaged by a toy vehicle. The trigger is configured to cause the convertible track segment to undergo a transformation from a section of a toy track set to an alternative structure, such as a display trophy with the toy vehicle positioned atop the trophy, which transformation occurs only when the rotating platform is within a specific, predetermined rotational angle range with respect to the base.

A device and a method for detecting, monitoring and/or controlling racing vehicles on a racetrack, having a camera for monitoring when a predetermined track section is crossed, a recording device for recording the images provided by the camera, a recording control device for automatically recording the images provided by the camera only during a specific time window within which the crossing of the track section, and a sensor device for detecting the crossing of the track section. A marking device generates a marking for a recorded image as a function of a sensor signal of the sensor device and the occurrence thereof in the specific time window. The marking is stored in an event list. An image of interest can be simply selected on the basis of the associated marking, without the images which are provided by the camera having to be evaluated themselves for this purpose.

A track for a toy vehicle and a track section that is used to form the track. In one embodiment, the track section includes a first edge, a second edge, and an upper surface extending therebetween; a first connector extending from the first edge, the first connector comprising an inner surface that defines a receiving cavity and an outer surface comprising a plurality of detents; a second connector extending from the second edge, the second connector being spaced apart from a portion of the second edge by a gap; and first and second slots extending from the second edge towards the first edge to form a hinge section of the track section between the first and second slots, the hinge section comprising the portion of the second edge of the track section.

A basic idea of the present application is that in case of determining a position of the object on the surface, it is possible to also use transport mechanisms for the transport of the object on the surface which leads to less reproducible transport movements as the regulation may be executed directly on the basis of the observed movement as compared to the desired movement. Embodiments using compressed air, magnetism and/or bending waves are described.

Example implementations may relate to an RC vehicle with a receiver and an inertial measurement unit. In particular, the RC vehicle may include vehicle controller circuitry that works together with the inertial measurement unit to instruct the receiver to enter a bind mode when the RC vehicle is rotated, oriented, or positioned in a certain way. In an example embodiment, the RC vehicle may instruct the receiver to enter a bind mode when the RC vehicle is first powered on and is rotated 180 degrees in a certain direction, such as from upright to upside-down.