Elevator-type systems for a toy vehicle and toy vehicle track sets are disclosed. The elevator-type system may include a carriage configured to receive a toy vehicle, the carriage is configured to move between a first position and a second position. The elevator-type system may additionally include a tension rope having a first end and a second end, the first end is attached to the carriage. The elevator-type system may further include a counterweight attached to the second end. The weight of the counterweight may be greater than the weight of the carriage to bias the carriage toward the first position. The weight of the counterweight may be less than the weight of both the carriage and a toy vehicle received in the carriage to allow the carriage to move toward the second position when the toy vehicle is received in the carriage.

A clearance compensation device for a model car includes: a guide part which is provided on the bottom surface of the model car and has a guide rail formed along the vertical direction; a clearance compensation part which is provided to the guide part, has a bottom surface that is in contact with the upper surface of a panel having a runway formed therein, ascends and descends along the guide rail in response to the shape of the upper surface of the panel when the model car travels, and is configured to compensate for a clearance between the bottom surface of the model car and the upper surface of the panel; and a magnetic body which is provided to the clearance compensation part and provided at the lower side of the panel with the panel therebetween to be coupled with the lead member movable in the horizontal direction.

A clearance compensation device for a model car includes: a guide part which is provided on the bottom surface of the model car and has a guide rail formed along the vertical direction; a clearance compensation part which is provided to the guide part, has a bottom surface that is in contact with the upper surface of a panel having a runway formed therein, ascends and descends along the guide rail in response to the shape of the upper surface of the panel when the model car travels, and is configured to compensate for a clearance between the bottom surface of the model car and the upper surface of the panel; and a magnetic body which is provided to the clearance compensation part and provided at the lower side of the panel with the panel therebetween to be coupled with the lead member movable in the horizontal direction.

A track device includes a switching section configured to switch a running path for guiding a wheel of a running body to running paths in multiple directions, and a traveling path guide portion disposed along the running path which follows a different direction from an inertial direction of the running body.

A driving guidance system that provides a driving guidance to a driver when the driver makes operations to remotely control a vehicle in a driving route. The driving guidance system includes at least one driving guidance equipment, an analytic engine, a control platform. The driving guidance equipment is distributed along the driving route for recording data of the vehicle. The analytic engine receives and analyzes the data of the vehicle to generate a plurality of features of the vehicle. The control platform further includes a real virtuality objects generator and a display. The real virtuality objects generator generates a plurality of real virtuality objects based on the features of the vehicle and the display shows the real virtuality objects to the driver of the vehicle for providing the driving guidance.

A learning toy which enables learning of high-level programming in a stepwise manner. A movement path is constituted by a plurality of command panels in which command information which can be read with an optical reading module is recorded being arranged. A mobile robot sequentially reads command information included in the command panels through which the mobile robot passes while moving along the movement path and stores a plurality of pieces of command information in a command information memory. The mobile robot takes out a plurality of pieces of command information from arbitrary positions in the command information memory to execute operation. If a plurality of pieces of command information necessary for operation of the mobile robot are stored in the command information memory, a control unit of the mobile robot automatically extracts and takes out the command information and causes the mobile robot to operate.

A learning toy which enables learning of high-level programming in a stepwise manner. A movement path is constituted by a plurality of command panels in which command information which can be read with an optical reading module is recorded being arranged. A mobile robot sequentially reads command information included in the command panels through which the mobile robot passes while moving along the movement path and stores a plurality of pieces of command information in a command information memory. The mobile robot takes out a plurality of pieces of command information from arbitrary positions in the command information memory to execute operation. If a plurality of pieces of command information necessary for operation of the mobile robot are stored in the command information memory, a control unit of the mobile robot automatically extracts and takes out the command information and causes the mobile robot to operate.

The utility model discloses a universal splicing track and a toy car, comprising a plurality of I-shaped track bodies which can be assembled end to end and a toy car mounted on the track bodies, wherein a first step surface of a base is overlapped with a second step surface of another base, an upper end of the track body is provided with a bar-shaped block, one end of the bar-shaped block is provided with a spherical body, and the other end is provided with a connecting groove matched with the spherical body; and both sides of the bar-shaped block are provided with racks, a power mechanism is provided with output gears meshing with the racks at the two sides of the bar-shaped block, and one end of the output gear is provided with a guide wheel for clamping the bar-shaped block.

The utility model discloses a universal splicing track and a toy car, comprising a plurality of I-shaped track bodies which can be assembled end to end and a toy car mounted on the track bodies, wherein a first step surface of a base is overlapped with a second step surface of another base, an upper end of the track body is provided with a bar-shaped block, one end of the bar-shaped block is provided with a spherical body, and the other end is provided with a connecting groove matched with the spherical body; and both sides of the bar-shaped block are provided with racks, a power mechanism is provided with output gears meshing with the racks at the two sides of the bar-shaped block, and one end of the output gear is provided with a guide wheel for clamping the bar-shaped block.

An educational gaming system includes control cards, road pieces and a robotic device. Each of the control cards has a graphic corresponding to an instruction. The road pieces are arranged to form a road on which the robotic device is configured to move. The robotic device is communicable with an electronic device that executes an application program. The electronic device captures an image of the graphic of the control card, conducts a machine learning algorithm based on the image to obtain the instruction, and transmits the instruction to the robotic device. The robotic device obtains a road-piece signal value that is generated by scanning one of the road pieces, and performs movement based on the instruction and the road-piece signal value.