| CPC A01B 49/06 (2013.01) [A01B 49/065 (2013.01); A01B 79/005 (2013.01); E21B 10/44 (2013.01)] | 27 Claims |
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1. A hollow shaft drill bit and a solid or hollow shaft auger or a solid or perforated hollow shaft flexible screw feeder auger, comprising:
a perforated hollow or solid shaft feeder auger or flexible screw feeder auger hollow with perforations or solid;
a hollow shaft drilling auger, wherein the solid or perforated hollow shaft flexible screw feeder auger is detachably attached to the hollow shaft drilling auger to receive vibration and torque that are dampened by a coupling or disc coupling between a platform and a gearbox interface;
a flexible conveyor flight screws to enable functions of the solid or a first perforated hollow shaft feeder auger to continue despite receiving torque;
a second perforated hollow shaft feeder auger;
a programmable logic controller (PLC);
an Artificial intelligence (AI) robot;
a computer;
an encoder;
a plurality of limit switches;
a feeder auger tube conduit comprises a distinct tube within a diameter of a feeder auger tube conduit, wherein the distinct tube has a space between the distinct tube to contain one or more of a plurality of electrical wires, and a plurality of other assembly items; and
a feeder auger motor upon receiving a signal from the AI robot, the computer, and the PLC enable the ascension of the feeder auger motor in concert with the encoder or limit switches,
wherein the feeder auger motor enables variable speeds controlled by the AI robot, computer, the PLC, and/or sensor in concert with a flight motor enabling volumes of materials to be ejected based on resistance determined by drill time and RPM measured by the encoder,
wherein the second perforated hollow shaft feeder auger through the signal from the encoder or limit switches rotates at a pre-determined depths and sequentially places amendment constituent(s) through the AI robotic, the computer, the PLC, and a sensor programming of drill bit shaft loading and ejection.
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