The present invention relates to a toy gun having a bolt configured to move forward or backward such that a recoil and a following thrill can be experienced as in the case of an actual gun. The toy gun according to the present invention comprises: a body for firing dummy bullets; a bolt assembly provided inside the body so as to move forward or backward in the process of loading and firing the dummy bullets; and a driving portion provided inside the body so as to drive the bolt assembly in order to load and fire the dummy bullets, wherein the driving portion comprises a ratchet gear configured to receive power from a driving motor that drives the driving portion, a piston gear that receives power from the ratchet gear and moves the bolt assembly backward, and a ratchet assembly that selectively transfer power, which is transferred to the ratchet gear, to the piston gear; the ratchet assembly comprises a piston gear cap that penetrates the ratchet gear and is coupled to the piston gear while the ratchet gear remains fitted to the center of the piston gear cap and a ratchet pole configured to slide in a direction with regard to the piston gear cap; and an engaging groove, into which the ratchet pole is inserted, is provided on the inner surface of the piston gear such that, as the ratchet pole is inserted into and released from the engaging groove, power is selectively transferred from the driving motor to the piston gear.

An interactive toy is shown and described. The toy can be in the shape of a balloon animal, such as a dog, and react in a predetermined manner to user input or stimulus. More specifically, the balloon animal responds and reacts to the user input provided to specific locations on the balloon animal and/or to placement of an object in proximity to or in contact with the balloon animal.

An interactive toy is shown and described. The toy can be in the shape of a balloon animal, such as a dog, and react in a predetermined manner to user input or stimulus. More specifically, the balloon animal responds and reacts to the user input provided to specific locations on the balloon animal and/or to placement of an object in proximity to or in contact with the balloon animal.

A model vehicle with body mount components are provided. A tongue member attached to a model vehicle body with a first and second tongue member is configured to engage a first securing member attached to a model vehicle chassis. A top surface of the second tongue member draws the model vehicle body towards the model vehicle chassis when the second tongue member engages the first securing member. A lever member with a lever handle, jaw clamp, and a lever pivot is configured to pivot between an engage and an unengaged position. The jaw clamp engages with a second securing member in the engaged position. The lever member further contains a retaining mechanism that is configured to rotate between a retained and unretained position. The retaining mechanism inhibits the lever handle from moving from the engaged to the unengaged position when the retaining mechanism is in the retained position.

A model vehicle with body mount components are provided. A tongue member attached to a model vehicle body with a first and second tongue member is configured to engage a first securing member attached to a model vehicle chassis. A top surface of the second tongue member draws the model vehicle body towards the model vehicle chassis when the second tongue member engages the first securing member. A lever member with a lever handle, jaw clamp, and a lever pivot is configured to pivot between an engage and an unengaged position. The jaw clamp engages with a second securing member in the engaged position. The lever member further contains a retaining mechanism that is configured to rotate between a retained and unretained position. The retaining mechanism inhibits the lever handle from moving from the engaged to the unengaged position when the retaining mechanism is in the retained position.

The present disclosure provides a multi-control-mode intelligent pet toy vehicle, including a body, a body frame, a multi-control assembly, a first drive wheel assembly, a second drive wheel assembly, and a guidance assembly. The multi-control-mode intelligent pet toy vehicle exchanges information with the mobile terminals or the remote controllers of the users in multiple connecting methods by the multi-control assembly. Thus, the users control the multi-control-mode intelligent pet toy vehicle by multiple control methods. The infrared sensors of the multi-control assembly detect the obstacles in the motion track of the multi-control-mode intelligent pet toy vehicle, and the infrared sensors return relevant information to the control mainboard. The control mainboard controls both the first drive wheel assembly and the second drive wheel assembly to run, thereby changing the motion track of the multi-control-mode intelligent pet toy vehicle.

The present disclosure provides a multi-control-mode intelligent pet toy vehicle, including a body, a body frame, a multi-control assembly, a first drive wheel assembly, a second drive wheel assembly, and a guidance assembly. The multi-control-mode intelligent pet toy vehicle exchanges information with the mobile terminals or the remote controllers of the users in multiple connecting methods by the multi-control assembly. Thus, the users control the multi-control-mode intelligent pet toy vehicle by multiple control methods. The infrared sensors of the multi-control assembly detect the obstacles in the motion track of the multi-control-mode intelligent pet toy vehicle, and the infrared sensors return relevant information to the control mainboard. The control mainboard controls both the first drive wheel assembly and the second drive wheel assembly to run, thereby changing the motion track of the multi-control-mode intelligent pet toy vehicle.

Provided are methods, apparatus and articles for vehicles, such as or relating to a skid-plate shock absorber, body mounting, chassis assembly, component securing, engine mounting, slipper clutch, and transmission housing that may be employed in the assembly, operation, and control of vehicles.

Provided are methods, apparatus and articles for vehicles, such as or relating to a skid-plate shock absorber, body mounting, chassis assembly, component securing, engine mounting, slipper clutch, and transmission housing that may be employed in the assembly, operation, and control of vehicles.

A self-propelled rocket toy includes an elongated body located along a longitudinal axis having a top end opposite a bottom end. The body may include at least two supports outwardly extending from and fixed relative to the body. A propeller is centered about the longitudinal axis located about the body's bottom end. An electric motor is disposed within the body and mechanically coupled to the propeller. A power source is disposed within the body and electrically coupled to the electric motor. An activation mechanism is electrically coupled to the electric motor and power source. The activation mechanism may be a launch button or a centrifugal switch. The at least two supports are fins extending outwardly and are configured to induce an autorotation for a controlled descent, either by their shape and design and/or by including a pivotably attached flap.