A detachable seat assembly, including: a handle member, a seat member and a saddle member, the handle member including a mounting portion at a bottom side thereof, the mounting portion including an inner threaded hole at a front side thereof and a buckling member; the seat member and the handle member being detachably connected, the seat member including a mounting hole within which the mounting portion is inserted, the seat member further including a knob and a first hole, the knob including a handle and a threaded section, the threaded section being screwed to the inner threaded hole, the buckling member being disposed through the first hole; the saddle member being mounted on the handle member and the seat member.

A detachable seat assembly, including: a handle member, a seat member and a saddle member, the handle member including a mounting portion at a bottom side thereof, the mounting portion including an inner threaded hole at a front side thereof and a buckling member; the seat member and the handle member being detachably connected, the seat member including a mounting hole within which the mounting portion is inserted, the seat member further including a knob and a first hole, the knob including a handle and a threaded section, the threaded section being screwed to the inner threaded hole, the buckling member being disposed through the first hole; the saddle member being mounted on the handle member and the seat member.

In an aspect, a toy vehicle is provided and includes a main body, wheels and a power source. The main body includes a fixed portion and a movable portion that is movably connected to the fixed position for movement between a first movable portion position and a second movable portion position, which moves the center of gravity of the vehicle to a first or second position respectively. When the movable portion is in the first position, the power source drives the toy vehicle into a wheelie. When the movable portion is in the second position, the power source drives the toy vehicle without driving the toy vehicle into a wheelie.

A drift motorcycle includes a body and an advancing unit provided on the body and configured to provide advancing power for the body, and the body is further provided with a tilting unit and a transverse moving unit. The tilting unit is movably mounted on the body, and two ends of the tilting unit extend from two sides of the body to control the body to be switched between an upright state and a tilted state. The transverse moving unit is arranged at two sides of the body, and the transverse moving unit is configured to be in contact with a driving surface to generate a transverse power in a width direction of the body when the tilting unit controls the body to be switched to the tilted state.

A drift motorcycle includes a body and an advancing unit provided on the body and configured to provide advancing power for the body, and the body is further provided with a tilting unit and a transverse moving unit. The tilting unit is movably mounted on the body, and two ends of the tilting unit extend from two sides of the body to control the body to be switched between an upright state and a tilted state. The transverse moving unit is arranged at two sides of the body, and the transverse moving unit is configured to be in contact with a driving surface to generate a transverse power in a width direction of the body when the tilting unit controls the body to be switched to the tilted state.

A remote-control vehicle is disclosed. The vehicle comprises a first wheel and a second wheel offset along the longitudinal axis of the vehicle. The vehicle further comprises a device adapted to apply a torque to the first wheel, a sensor configured to monitor the pitch angle of the vehicle, and a control module. The control module is configured to control the torque applied by the device to the first wheel in accordance with the monitored vehicle pitch angle so as to accelerate the vehicle while maintaining the vehicle pitch angle within a range of acute angles. Also disclosed is a second remote-control vehicle, comprising: a first wheel and a second wheel offset along the longitudinal axis of the vehicle, a steering system adapted to steer the first wheel, a sensor configured to monitor the roll angle of the vehicle, and a control module configured to control the steering of the first wheel in accordance with the monitored vehicle roll angle while the vehicle is travelling so as to maintain the vehicle roll angle within a range of acute angles. A third remote-control vehicle is also disclosed and comprises: a first wheel and a second wheel, a device adapted to apply a torque to the first wheel, a sensor configured to monitor the pitch angle of the vehicle, and a control module configured to control the torque applied by the device to the first wheel in accordance with the monitored vehicle pitch angle when the vehicle is in free fall so as to maintain the vehicle pitch angle within a specified range of angles.

A remote-control vehicle is disclosed. The vehicle comprises a first wheel and a second wheel offset along the longitudinal axis of the vehicle. The vehicle further comprises a device adapted to apply a torque to the first wheel, a sensor configured to monitor the pitch angle of the vehicle, and a control module. The control module is configured to control the torque applied by the device to the first wheel in accordance with the monitored vehicle pitch angle so as to accelerate the vehicle while maintaining the vehicle pitch angle within a range of acute angles. Also disclosed is a second remote-control vehicle, comprising: a first wheel and a second wheel offset along the longitudinal axis of the vehicle, a steering system adapted to steer the first wheel, a sensor configured to monitor the roll angle of the vehicle, and a control module configured to control the steering of the first wheel in accordance with the monitored vehicle roll angle while the vehicle is travelling so as to maintain the vehicle roll angle within a range of acute angles. A third remote-control vehicle is also disclosed and comprises: a first wheel and a second wheel, a device adapted to apply a torque to the first wheel, a sensor configured to monitor the pitch angle of the vehicle, and a control module configured to control the torque applied by the device to the first wheel in accordance with the monitored vehicle pitch angle when the vehicle is in free fall so as to maintain the vehicle pitch angle within a specified range of angles.

A toy holding adapter for removably attaching a fidget spinner to an article. The article may include an airplane; a helicopter, or a cycle, such as a motorcycle or a bicycle. The fidget spinner is mounted to the article to provide the article with a visual appearance of a rotating body associated with the article to which it is applied. The holding adapter has a stem extending from a back face that is operatively coupled to a receiver in the article. A central cavity in the front face receives a cylindrical adapter cup that is dimensioned to receive a holding disk of the fidget spinner.

A toy holding adapter for removably attaching a fidget spinner to an article. The article may include an airplane; a helicopter, or a cycle, such as a motorcycle or a bicycle. The fidget spinner is mounted to the article to provide the article with a visual appearance of a rotating body associated with the article to which it is applied. The holding adapter has a stem extending from a back face that is operatively coupled to a receiver in the article. A central cavity in the front face receives a cylindrical adapter cup that is dimensioned to receive a holding disk of the fidget spinner.

A toy holding adapter for removably attaching a fidget spinner to an article. The article may include an airplane; a helicopter, or a cycle, such as a motorcycle or a bicycle. The fidget spinner is mounted to the article to provide the article with a visual appearance of a rotating body associated with the article to which it is applied. The holding adapter has a stem extending from a back face that is operatively coupled to a receiver in the article. A central cavity in the front face receives a cylindrical adapter cup that is dimensioned to receive a holding disk of the fidget spinner.