A cutting-power-off detection structure of a toy gun has a main structure that includes a gun body, a muzzle defined at one side of the gun body, a feeding channel defined in the gun body, a chamber defined in the gun body and in communication with the muzzle and the feeding channel, a circuit device arranged in the gun body, at least one wireless detection device arranged in the gun body and electrically connected with the circuit device, and a shot forwarding device arranged in the chamber and electrically connected with the circuit device. The feeding channel is connectable to a magazine and the wireless detection device is operable to detect a shot fed from the magazine. When the magazine runs out of shots and the wireless detection device detects no shot, a signal is transmitted to the circuit device to cut off electricity supplied to the shot forwarding device.

A cutting-power-off detection structure of a toy gun has a main structure that includes a gun body, a muzzle defined at one side of the gun body, a feeding channel defined in the gun body, a chamber defined in the gun body and in communication with the muzzle and the feeding channel, a circuit device arranged in the gun body, at least one wireless detection device arranged in the gun body and electrically connected with the circuit device, and a shot forwarding device arranged in the chamber and electrically connected with the circuit device. The feeding channel is connectable to a magazine and the wireless detection device is operable to detect a shot fed from the magazine. When the magazine runs out of shots and the wireless detection device detects no shot, a signal is transmitted to the circuit device to cut off electricity supplied to the shot forwarding device.

A cutting-power-off detection structure of a toy gun has a main structure that includes a gun body, a muzzle defined at one side of the gun body, a feeding channel defined in the gun body, a chamber defined in the gun body and in communication with the muzzle and the feeding channel, a circuit device arranged in the gun body, at least one wireless detection device arranged in the gun body and electrically connected with the circuit device, and a shot forwarding device arranged in the chamber and electrically connected with the circuit device. The feeding channel is connectable to a magazine and the wireless detection device is operable to detect a shot fed from the magazine. When the magazine runs out of shots and the wireless detection device detects no shot, a signal is transmitted to the circuit device to cut off electricity supplied to the shot forwarding device.

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 airsoft firearm system configured to provide a plurality of operational parameters of the airsoft firearm during utilization thereof. The airsoft firearm system includes a communications module wherein the communications module is operable to wirelessly transmit operational parameter data to a remote computing device. A power supply and a power monitoring module are located in the firearm so as to provide the necessary power to operate the firearm and monitoring thereof. An ammunition counting module is present within the firearm wherein the ammunition counting module provides data on ammunition consumption rate and remaining ammunition. A safety module is present and is operably coupled to the power supply and is configured to provide control thereof. A position sensor is located on the firearm and is operable to detect the orientation of the firearm. An audio module is operably coupled to the communications module and is configured to broadcast sound effects.

An airsoft firearm system configured to provide a plurality of operational parameters of the airsoft firearm during utilization thereof. The airsoft firearm system includes a communications module wherein the communications module is operable to wirelessly transmit operational parameter data to a remote computing device. A power supply and a power monitoring module are located in the firearm so as to provide the necessary power to operate the firearm and monitoring thereof. An ammunition counting module is present within the firearm wherein the ammunition counting module provides data on ammunition consumption rate and remaining ammunition. A safety module is present and is operably coupled to the power supply and is configured to provide control thereof. A position sensor is located on the firearm and is operable to detect the orientation of the firearm. An audio module is operably coupled to the communications module and is configured to broadcast sound effects.

A safety device configured to fire projectiles. The safety device includes a firing mechanism, a y-axis frame, an x-axis frame, a first control unit, a camera, and a monitoring control unit. The y-axis frame having a first actuator and the x-axis frame having a second actuator. The monitoring unit having a second control unit, wherein the second control unit is in communication with the first control unit. The safety device capturing imaging and transmitting imaging to the monitoring unit. The monitoring unit generating a display. The second control unit tracking a target on the display and calculating angle coordinates. The second control unit communicating the angle coordinates to the first control unit. The first control unit generating firing coordinates and transmitting the firing coordinates to the first actuator and the second actuator. The first actuator and the second actuator adjusting the firing mechanism position to correspond to the firing coordinates.

A safety device configured to fire projectiles. The safety device includes a firing mechanism, a y-axis frame, an x-axis frame, a first control unit, a camera, and a monitoring control unit. The y-axis frame having a first actuator and the x-axis frame having a second actuator. The monitoring unit having a second control unit, wherein the second control unit is in communication with the first control unit. The safety device capturing imaging and transmitting imaging to the monitoring unit. The monitoring unit generating a display. The second control unit tracking a target on the display and calculating angle coordinates. The second control unit communicating the angle coordinates to the first control unit. The first control unit generating firing coordinates and transmitting the firing coordinates to the first actuator and the second actuator. The first actuator and the second actuator adjusting the firing mechanism position to correspond to the firing coordinates.

A toy projectile shooter that includes a housing defining a housing interior, a barrel, a trigger movable between a firing position and a non-firing position, a firing motor, a plunger sensor, a plunger disposed in the housing interior, and a shot firing mode system configured to activate the firing motor when the trigger is moved from the non-firing position to the firing position, move the plunger from a first plunger position to a second plunger position when the firing motor is activated, actuate the plunger sensor when the plunger is moved from the first plunger position to the second plunger position, bias the plunger from the second plunger position to the first plunger position after the plunger sensor is actuated, and deactivate the firing motor after the plunger sensor has been actuated a predetermined number of times.

A toy projectile shooter that includes a housing defining a housing interior, a barrel, a trigger movable between a firing position and a non-firing position, a firing motor, a plunger sensor, a plunger disposed in the housing interior, and a shot firing mode system configured to activate the firing motor when the trigger is moved from the non-firing position to the firing position, move the plunger from a first plunger position to a second plunger position when the firing motor is activated, actuate the plunger sensor when the plunger is moved from the first plunger position to the second plunger position, bias the plunger from the second plunger position to the first plunger position after the plunger sensor is actuated, and deactivate the firing motor after the plunger sensor has been actuated a predetermined number of times.