A mobile device includes a body, at least one drive wheel coupled with the body, a control structure configured to automatically control rotational movements of the at least one drive wheel so as to selectively control movement of the body, and a motion detection system coupled with the control structure and configured to detect a plurality of different movements of a user. The control structure controls rotational movements of the at least one drive wheel to effect different movements of the body based upon different detected movements of the user.

A robotic activity system, which includes a board and an autonomous robotic device, is described herein. The board may display a line and one or more color patterns. The robotic device may traverse the line using one or more integrated sensors. For example, sensor data may include light intensity data for visible light reflected or emitted by the board. The sensor data may be analyzed to 1) ensure the robotic device follows the line and/or 2) detect color sequences associated with color patterns shown on the board. Upon detection of a color sequence, the robotic device may attempt to match the color sequence with a known color pattern definition. The color pattern definition may be associated with a function to be performed by the robotic device. Using multiple sets of color patterns and associated functions allows the robotic device to move in a variable and potentially unpredictable fashion.

A robotic activity system, which includes a board and an autonomous robotic device, is described herein. The board may display a line and one or more color patterns. The robotic device may traverse the line using one or more integrated sensors. For example, sensor data may include light intensity data for visible light reflected or emitted by the board. The sensor data may be analyzed to 1) ensure the robotic device follows the line and/or 2) detect color sequences associated with color patterns shown on the board. Upon detection of a color sequence, the robotic device may attempt to match the color sequence with a known color pattern definition. The color pattern definition may be associated with a function to be performed by the robotic device. Using multiple sets of color patterns and associated functions allows the robotic device to move in a variable and potentially unpredictable fashion.

A servo motor device that is easy to attach is provided. A servo motor device according to the present invention includes a main body including a motor, an output shaft protruding from the main body and rotatably held by the main body to output power of the motor, and a through hole penetrating the main body.

A servo motor device that is easy to attach is provided. A servo motor device according to the present invention includes a main body including a motor, an output shaft protruding from the main body and rotatably held by the main body to output power of the motor, and a through hole penetrating the main body.

A mobile device includes a body, at least one drive wheel coupled with the body, a control structure configured to automatically control rotational movements of the at least one drive wheel so as to selectively control movement of the body, and a motion detection system coupled with the control structure and configured to detect a plurality of different movements of a user. the control structure controls rotational movements of the at least one drive wheel to effect different movements of the body based upon different detected movements of the user.

A mobile device includes a body, at least one drive wheel coupled with the body, a control structure configured to automatically control rotational movements of the at least one drive wheel so as to selectively control movement of the body, and a motion detection system coupled with the control structure and configured to detect a plurality of different movements of a user. the control structure controls rotational movements of the at least one drive wheel to effect different movements of the body based upon different detected movements of the user.

There is provided a toy, including a ball chasing robot including: a controller configured to receive power from a battery a plurality of infrared sensors configured to detect infrared radiation emitted by a satellite object, the plurality of infrared sensors connected to the controller; a motor configured to drive a wheel arrangement, the wheel arrangement including at least two drive wheels, wherein: the controller is configured to control the motor and wheel arrangement to drive the ball chasing robot towards the infrared radiation emitted by the satellite object detected by the plurality of infrared sensors; wherein the ball chasing robot includes a plurality of settings, including: a play setting, wherein the controller is configured to control the motor, such that the ball chasing robot is driven towards the source of the infrared radiation emitted by the satellite object, and a sleep setting wherein the controller is configured to turn off the plurality of sensors, wherein the sleep setting is entered automatically after a period of inactivity; and/or: a hard floor setting, wherein the motor is configured to drive the wheel arrangement at a first power setting, and a carpet setting, wherein the motor is configured to drive the wheel arrangement at a second power setting.

There is provided a toy, including a ball chasing robot including: a controller configured to receive power from a battery a plurality of infrared sensors configured to detect infrared radiation emitted by a satellite object, the plurality of infrared sensors connected to the controller; a motor configured to drive a wheel arrangement, the wheel arrangement including at least two drive wheels, wherein: the controller is configured to control the motor and wheel arrangement to drive the ball chasing robot towards the infrared radiation emitted by the satellite object detected by the plurality of infrared sensors; wherein the ball chasing robot includes a plurality of settings, including: a play setting, wherein the controller is configured to control the motor, such that the ball chasing robot is driven towards the source of the infrared radiation emitted by the satellite object, and a sleep setting wherein the controller is configured to turn off the plurality of sensors, wherein the sleep setting is entered automatically after a period of inactivity; and/or: a hard floor setting, wherein the motor is configured to drive the wheel arrangement at a first power setting, and a carpet setting, wherein the motor is configured to drive the wheel arrangement at a second power setting.

A toy vehicle including a chassis, four running wheels, which are attached to the chassis, an activating element configured to steer the toy vehicle, and a steering device. The steering device includes a steering plate articulated onto all four running wheels. The steering plate is movable by the steering activating element relative to the chassis. The vehicle also includes four axle knuckles, each axle knuckle supporting one of the four running wheels, thee axle knuckles being articulated both onto the steering plate and also the chassis. The steering plate has a central portion extending along a longitudinal axis of the vehicle, and four cross-arms extending outwardly from the central portion, each of the cross-arms connecting to a respective one of the four axle knuckles.