The present disclosure discloses an information processing system. The system includes at least two toy battle devices and control devices corresponding to the toy battle devices. A first control device is configured to send attack information to a first toy battle device. The first toy battle device is configured to modulate the attack information into a laser signal, and emit the laser signal. A second toy battle device is configured to receive the laser signal by using a laser receiving component, and obtain the attack information by demodulating the laser signal by using a demodulation circuit; and send the attack information to a second control device; determine an attacked status of the second toy battle device according to the attack information; and send a feedback instruction to the second toy battle device, the feedback instruction indicating the attacked status of the second toy battle device.

A floating magnetic vehicle and track toy for education and entertainment of users includes an annular plate that has an inside edge and an outside edge. A first rim, positioned adjacent to the inside edge, and a second rim, positioned adjacent to the outside edge, are coupled to and extend perpendicularly from the annular plate. A plurality of first magnets is coupled to the annular plate. The toy comprises a car that comprises a plurality of second magnets. The second magnets are positioned on the car to repel the first magnets to suspend the car above the annular plate. The first rim and the second rim are positioned on the annular plate to retain the car between the first rim and the second rim. The car is configured to be motivated around the annular plate by a pushing action of a user.

A floating magnetic vehicle and track toy for education and entertainment of users includes an annular plate that has an inside edge and an outside edge. A first rim, positioned adjacent to the inside edge, and a second rim, positioned adjacent to the outside edge, are coupled to and extend perpendicularly from the annular plate. A plurality of first magnets is coupled to the annular plate. The toy comprises a car that comprises a plurality of second magnets. The second magnets are positioned on the car to repel the first magnets to suspend the car above the annular plate. The first rim and the second rim are positioned on the annular plate to retain the car between the first rim and the second rim. The car is configured to be motivated around the annular plate by a pushing action of a user.

A vehicle configured to move through a network of interconnected tubes includes a body, a motor, a motorized wheel, a biasing assembly, and a first element. The motorized wheel directly engages an inner surface of the tubes. The biasing assembly causes the motorized wheel to maintain continuous contact with the inner surface of the tubes during operation. A waist of the vehicle is constrained by an inner diameter (D) of the curved tube, a radius of curvature (R) of the curved tube, and a length (L) of the wheelbase of the vehicle. The waist of the body is sized such that the vehicle can freely move within any of the tubes without getting stuck therein.

A vehicle configured to move through a network of interconnected tubes includes a body, a motor, a motorized wheel, a biasing assembly, and a first element. The motorized wheel directly engages an inner surface of the tubes. The biasing assembly causes the motorized wheel to maintain continuous contact with the inner surface of the tubes during operation. A waist of the vehicle is constrained by an inner diameter (D) of the curved tube, a radius of curvature (R) of the curved tube, and a length (L) of the wheelbase of the vehicle. The waist of the body is sized such that the vehicle can freely move within any of the tubes without getting stuck therein.

A motorized toy system includes a toy implement that may be manipulated. The toy implement has a bin and an auger chute. The auger chute is hingedly coupled to the toy implement. The auger chute is positionable between a deployed position and a stored position. The bin may contain particles. A dispensing unit is coupled to the toy implement. The dispensing unit is operationally coupled between the bin and the auger chute. Thus, the dispensing unit may selectively urge the particles outwardly from the auger chute.

The toy vehicle with a chassis, on which a vertical shaft with a seat is rotatably arranged, wherein the shaft is rigidly connected to a cantilever arm, pivotally connected to which is an end section of a digger arm, which is provided with a handle and whose other end section is connected to a pivotable bucket arm, which carries a pivotable bucket, is characterised in that tensioned between the cantilever arm and the digger arm there is a spring device, which biases the digger arm into a raised position and is increasingly tensioned when the digger arm is lowered.

The toy vehicle with a chassis, on which a vertical shaft with a seat is rotatably arranged, wherein the shaft is rigidly connected to a cantilever arm, pivotally connected to which is an end section of a digger arm, which is provided with a handle and whose other end section is connected to a pivotable bucket arm, which carries a pivotable bucket, is characterised in that tensioned between the cantilever arm and the digger arm there is a spring device, which biases the digger arm into a raised position and is increasingly tensioned when the digger arm is lowered.

An improved toy vehicle transfer station playset is disclosed herein. The playset includes a support frame that extends upwardly from a support surface. Coupled to the support frame is a slide rail having a first end and a second end. The first end is disposed higher than the second end with respect to the support surface. A carrier is movably coupled to the slide rail, and is configured to move along the slide rail from a first position proximate the first end to a second position proximate the second end of the slide rail via gravity. The carrier includes a track section for receiving a toy vehicle. The playset also includes a retaining mechanism disposed on the slide rail and configured to retain the carrier in the first position. However, when a toy vehicle is disposed on the track section of the carrier, the retaining mechanism releases the carrier to move along the slide rail to the second position.

A double-sided toy car capable of vertical turning within a sealed track, including: a car body (1); a front wheel (2); and a rear wheel (3) including a pair of upper driving wheels (32) and a pair of lower driving wheels (31)), a maximum distance between an upper end and a lower end of the front wheel (2) is less than or equal to a maximum distance between the upper and lower driving wheels after the rear wheel (3) is maximally elastically contracted, the maximum distance is less than or equal to a height of a sealed track (4), therefore ensuring that the double-sided car can smoothly pass through a vertical turning segment, however a maximum distance between the upper and lower driving wheels before the rear wheel (3) is elastically contracted is greater than the height of the sealed track (4), therefore achieving a crawling on the vertical track.