The present disclosure provides a collision judgment method and apparatus. The method includes: determining, by a moving device, according to acceleration data collected by an acceleration sensor, that the moving device collides; sending collision information to the corresponding control device, including at least a moving device identifier and a collision time; sending, by the corresponding control device, the collision information to a collision judgment device; detecting, by the collision judgement device, whether at least two collision information sent by the at least two control devices is received within a predetermined time interval; when the at least two collision information is received within the predetermined time interval, and a difference between collision times carried in the at least two collision information is less than a preset threshold, determining that moving devices corresponding to moving device identifiers carried in the at least two collision information collided with one other.

The present disclosure provides a collision judgment method and apparatus. The method includes: determining, by a moving device, according to acceleration data collected by an acceleration sensor, that the moving device collides; sending collision information to the corresponding control device, including at least a moving device identifier and a collision time; sending, by the corresponding control device, the collision information to a collision judgment device; detecting, by the collision judgement device, whether at least two collision information sent by the at least two control devices is received within a predetermined time interval; when the at least two collision information is received within the predetermined time interval, and a difference between collision times carried in the at least two collision information is less than a preset threshold, determining that moving devices corresponding to moving device identifiers carried in the at least two collision information collided with one other.

To provide a plastic model that can achieve a realistic surface state by actual iron rust or the like appearing on an iron-coated component surface and a method of manufacturing the plastic model, and a plastic model component and a method of manufacturing the plastic model component. The above-described problem is solved by a plastic model assembled using a component including a base material and at least an iron-coated layer provided on the base material as some or all components. The iron-coated layer may be provided directly on the base material, may be provided between the base material and a paint film, or may be provided as an outermost surface layer on the base material or on the paint film on the base material provided as necessary on the base material. The iron-coated layer is a pure iron-coated layer or an iron alloy-coated layer, and may contain a dispersing material.

Disclosed are mobile toys using paper craft which can be widely applied in various ways, as well as being friendly and attracting interest by operating a paper model. The mobile toy using paper craft includes a drive device including at least one operating unit which is operated by a power, and a paper model including a plurality of model units which are made on the basis of a development figure and are assembled and engaged to an outside of the drive device to form a toy, at least one of the mobile units being detachably engaged to the operating unit.

A simple, glue-free movable track model with a dual-pin structure comprises an intermediate connecting component (1), a track shoe (2), elastic pin bushes (58) and an auxiliary clamp, an elastic opening (50) is formed on a rotating shaft hole of the intermediate connecting component (1), and the intermediate connecting component (1) is spliced, in a snap-fit manner, with an intermediate rotating shaft (51) of the track shoe (2) through the elastic opening (50); back-off dowels (21) are arranged at the both ends of the track shoe (2) and are spliced with the elastic pin bushes (58) so that the elastic pin bushes (58) can be fit into the back-off dowels (21) and then securely engaged. The movable track model can realize one-time assembly, reduce manufacturing difficulty and improve manufacturing efficiency.

A simple, glue-free movable track model with a dual-pin structure comprises an intermediate connecting component (1), a track shoe (2), elastic pin bushes (58) and an auxiliary clamp, an elastic opening (50) is formed on a rotating shaft hole of the intermediate connecting component (1), and the intermediate connecting component (1) is spliced, in a snap-fit manner, with an intermediate rotating shaft (51) of the track shoe (2) through the elastic opening (50); back-off dowels (21) are arranged at the both ends of the track shoe (2) and are spliced with the elastic pin bushes (58) so that the elastic pin bushes (58) can be fit into the back-off dowels (21) and then securely engaged. The movable track model can realize one-time assembly, reduce manufacturing difficulty and improve manufacturing efficiency.

The invention is remote-controlled water toy that has an outer shell that is a continuous and external surface, a plurality of apertures in the outer shell that allow water to infiltrate the outer shell, and an interior volume that collects and stores water that has infiltrated the outer shell. The remote-controlled water toy can shoot water, be shot at by other similar vehicles, retain water that hits them directly in the interior volume, continue to be operational after being hit, and sink or otherwise become deactivated when a predetermined volume of water has infiltrated the exterior shell.

A remote control vehicle includes a vehicle body and an acoustic vibration detection device. The vehicle body includes a protection cover. The acoustic vibration detection device is located at a side of the protection cover away from an external surface of the protection cover and configured to detect acoustic vibration generated when the protection cover is hit by an external object. The acoustic vibration detection device includes a housing body, a damping assembly, and an acoustic sensor. The housing body includes a chamber. The acoustic sensor includes a microphone arranged in the chamber through the damping assembly.

The present disclosure provides a collision judgment method and apparatus. The method includes: determining, by a moving device, according to acceleration data collected by an acceleration sensor, that the moving device collides; sending collision information to the corresponding control device, including at least a moving device identifier and a collision time; sending, by the corresponding control device, the collision information to a collision judgment device; detecting, by the collision judgement device, whether at least two collision information sent by the at least two control devices is received within a predetermined time interval; when the at least two collision information is received within the predetermined time interval, and a difference between collision times carried in the at least two collision information is less than a preset threshold, determining that moving devices corresponding to moving device identifiers carried in the at least two collision information collided with one other.

The present disclosure provides a collision judgment method and apparatus. The method includes: determining, by a moving device, according to acceleration data collected by an acceleration sensor, that the moving device collides; sending collision information to the corresponding control device, including at least a moving device identifier and a collision time; sending, by the corresponding control device, the collision information to a collision judgment device; detecting, by the collision judgement device, whether at least two collision information sent by the at least two control devices is received within a predetermined time interval; when the at least two collision information is received within the predetermined time interval, and a difference between collision times carried in the at least two collision information is less than a preset threshold, determining that moving devices corresponding to moving device identifiers carried in the at least two collision information collided with one other.