	US 12,345,512 B2
	Knockdown-field-target resetting system
Jacob Paul Moser, Sedona, AZ (US)
Filed by Jacob Paul Moser, Sedona, AZ (US)
Filed on Jun. 27, 2023, as Appl. No. 18/342,725.
Claims priority of provisional application 63/356,012, filed on Jun. 27, 2022.
Prior Publication US 2023/0417518 A1, Dec. 28, 2023
Int. Cl. F41J 7/04 (2006.01)

CPC F41J 7/04 (2013.01)

17 Claims

1. A knockdown-field-target resetting system comprising:

a device enclosure;

a microcontroller;

a wireless communication module;

a portable power source;

a lift arm;

an arm actuator;

a remote control;

an offsetting disc;

an offsetting axle;

the device enclosure comprising a top base portion, a bottom base portion, and a lateral portion;

the lift arm comprising a proximal arm end and a distal arm end;

the lateral portion being a closed-loop wall with a top edge and a bottom edge;

the top edge and the bottom edge being positioned opposite to each other about the closed-loop wall;

the top edge being perimetrically connected around the top base portion;

the bottom edge being perimetrically connected around the bottom base portion;

the closed-loop wall being perpendicularly positioned in between the top base portion and the bottom base portion;

the microcontroller, the wireless communication module, and the portable power source being mounted within the device enclosure;

the remote control and the lift arm being positioned external to the device enclosure;

the proximal arm end being rotatably connected to the lateral portion about an arm rotation axis;

the arm actuator being operatively integrated between the lift arm and the device enclosure, wherein the arm actuator is used to move the lift arm about the arm rotation axis relative to the device enclosure;

the microcontroller being electronically connected to the wireless communication module and the arm actuator;

the portable power source being electrically connected to the microcontroller, the wireless communication module, and the arm actuator;

the remote control being communicatively coupled to the microcontroller through the wireless communication module;

the arm actuator being a servomotor;

the servomotor comprising an actuator stator and an actuator rotor;

the actuator stator being mounted within the device enclosure;

the actuator rotor being torsionally connected to the proximal arm end;

the offsetting disc comprising a disc center and a disc periphery;

the offsetting axle traversing through the lateral portion;

the actuator rotor being torsionally connected to the disc center by the offsetting axle; and

the proximal arm end being torsionally connected to the disc periphery.