A magnetic conductive car model includes a frame, a wheel positioned below the frame, a shell magnetically connected with the frame, a power supply arranged on the frame and a power consumption component positioned on the shell, when the frame is magnetically connected with the shell, the power supply is electrically connected with the power consumption component. The present disclosure can not only quickly and conveniently separate and assemble the shell and the frame, but also quickly and conveniently connect or disconnect a circuit between the shell and the frame, which is very convenient for maintenance and installation and improves use experiences of users.

A magnetic conductive car model includes a frame, a wheel positioned below the frame, a shell magnetically connected with the frame, a power supply arranged on the frame and a power consumption component positioned on the shell, when the frame is magnetically connected with the shell, the power supply is electrically connected with the power consumption component. The present disclosure can not only quickly and conveniently separate and assemble the shell and the frame, but also quickly and conveniently connect or disconnect a circuit between the shell and the frame, which is very convenient for maintenance and installation and improves use experiences of users.

A magnetic conductive car model includes a frame, a wheel positioned below the frame, a shell magnetically connected with the frame, a power supply arranged on the frame and a power consumption component positioned on the shell, when the frame is magnetically connected with the shell, the power supply is electrically connected with the power consumption component. The present disclosure can not only quickly and conveniently separate and assemble the shell and the frame, but also quickly and conveniently connect or disconnect a circuit between the shell and the frame, which is very convenient for maintenance and installation and improves use experiences of users.

A magnetic conductive car model includes a frame, a wheel positioned below the frame, a shell magnetically connected with the frame, a power supply arranged on the frame and a power consumption component positioned on the shell, when the frame is magnetically connected with the shell, the power supply is electrically connected with the power consumption component. The present disclosure can not only quickly and conveniently separate and assemble the shell and the frame, but also quickly and conveniently connect or disconnect a circuit between the shell and the frame, which is very convenient for maintenance and installation and improves use experiences of users.

The present invention provides a swing-type experience apparatus including: two vertical columns (110) configured to be vertically installed into the ground; a driving device (120) configured to be provided on the upper end of any one of the two vertical columns; a rotating shaft (130) configured to be provided on the upper ends of the two vertical columns in a lateral direction and to be rotated by the driving device; two vertical bars (150) configured such that one end of each thereof is fastened to the rotating shaft and the other end of each thereof is connected to a horizontal bar (140); wherein the driving device includes a motor (121) and a clutch (125) configured to selectively transmit the rotating force of the motor and then transfer the rotating force to the rotating shaft (130).

A method of playing a remote-control race game system, including the steps of: determining a number of players/drivers to participate in a remote-control race; selecting, by each player/driver, a vehicle/player console, wherein each vehicle/player console remotely controls a particular motorized vehicle; determining an amount of time for the remote-control race; determining a number of predetermined targets that have been crossed over or through by each of the particular motorized vehicles; determining if the amount of time for the remote-control race has expired; determining the number of points earned by each of the particular motorized vehicles; and determining which of the particular motorized vehicles earned the most number of points.

A method of playing a remote-control race game system, including the steps of: determining a number of players/drivers to participate in a remote-control race; selecting, by each player/driver, a vehicle/player console, wherein each vehicle/player console remotely controls a particular motorized vehicle; determining an amount of time for the remote-control race; determining a number of predetermined targets that have been crossed over or through by each of the particular motorized vehicles; determining if the amount of time for the remote-control race has expired; determining the number of points earned by each of the particular motorized vehicles; and determining which of the particular motorized vehicles earned the most number of points.

A toy vehicle has wheels and a steering unit. The steering unit includes a steering drive acting on at least one of the wheels and a control unit acting on the steering drive. The at least one wheel that is acted upon by the steering drive is mounted on a chassis of the toy vehicle so as to be steerable with a variable steering angle. The steering unit includes a yaw rate sensor for determining a yaw rate of the toy vehicle about its vertical axis and is free of a sensor for determining the steering angle. The steering drive, the control unit, and the yaw rate sensor together form a control loop for setting the yaw rate to a specified target value. A toy vehicle system includes a toy vehicle and a track. The control unit includes at least one sensor for detecting the track.

A toy vehicle has wheels and a steering unit. The steering unit includes a steering drive acting on at least one of the wheels and a control unit acting on the steering drive. The at least one wheel that is acted upon by the steering drive is mounted on a chassis of the toy vehicle so as to be steerable with a variable steering angle. The steering unit includes a yaw rate sensor for determining a yaw rate of the toy vehicle about its vertical axis and is free of a sensor for determining the steering angle. The steering drive, the control unit, and the yaw rate sensor together form a control loop for setting the yaw rate to a specified target value. A toy vehicle system includes a toy vehicle and a track. The control unit includes at least one sensor for detecting the track.