Sensor system with an interior sensor and a piezoelectric power supply

We claim: 1. A drilling system, comprising: a drill bit having a terminal end, a connection end opposite the terminal end, and an interior channel extending from the connection end toward the terminal end; and a sensor system being mounted in the interior channel and comprising: a system housing having a distal end, a proximal end opposite the distal end, a center housing axis being co-axial with said interior channel, a center chamber between the distal end and the proximal end, and a power chamber between the center chamber and the proximal end, said center chamber being co-axial with said interior channel; a primary power supply being mounted in the power chamber and being comprised of: a plurality of piezoelectric panels radially arranged around the center housing axis within the power chamber so as to convert radial vibration into energy; and a housing capacitor connected to the plurality of piezoelectric panels; and an interior sensor being mounted in said center chamber and being connected to the primary power supply so as to collect data related to a downhole condition, wherein the interior sensor and the primary power supply are in communication so as to generate confirmed data based on the data related to a downhole condition and an amount of energy generated by said primary power supply. 2. The drilling system, according to claim 1 , wherein said plurality of piezoelectric panels is comprised of three piezoelectric panels evenly distributed around said center housing axis. 3. The drilling system, according to claim 1 , wherein each piezoelectric panel of said plurality of piezoelectric panels is comprised of a piezoelectric element and an electrode plate. 4. The drilling system, according to claim 1 , wherein said primary power supply further comprises an additional housing capacitor connected to said housing capacitor. 5. The drilling system, according to claim 1 , wherein said primary power supply further comprises a torsional vibration energy generator, extending longitudinally through the power chamber parallel to the center housing axis and being connected to the housing capacitor, so as to convert torsional vibration into energy. 6. The drilling system, according to claim 1 , wherein said primary power supply further comprises a vertical vibration energy generator, extending orthogonal to the center housing axis, being mounted in the power chamber between the plurality of piezoelectric panels and the center chamber, and being connected to the housing capacitor so as to convert vertical vibration into energy. 7. The drilling system, according to claim 1 , wherein said interior sensor is comprised of an accelerometer, said data related to said downhole condition being vibration data, said confirmed data being confirmed vibration data based on said vibration data and said amount of power generated by said primary power supply. 8. The drilling system, according to claim 1 , further comprising: a circuit board, said interior sensor being mounted on said circuit board. 9. The drilling system, according to claim 1 , wherein said sensor system further comprises: a cap body between said center chamber and said distal end having a distal cap end, a proximal cap end opposite said distal cap end, and a cap channel extending from said distal cap end toward the proximal cap end; and a sensor body being removable mounted into said cap channel and having a distal sensor body end and a proximal sensor body end opposite said distal sensor body end, wherein said sensor body is comprised of: an exterior sensor being comprised of a pressure sensor and being positioned at the distal cap end of the cap body so as to convert pressure into energy; and a secondary power supply connected to the exterior sensor, wherein said secondary power supply is comprised of: a piezoelectric body; and sensor body capacitor connected to said piezoelectric body. 10. The drilling system, according to claim 1 , wherein said secondary power supply is further comprised of a thermoelectric generator connected to said sensor body capacitor so as to convert heat into energy. 11. The drilling system, according to claim 1 , wherein said sensor system further comprises: an additional interior sensor being connected to said primary power supply so as to collect data related to another downhole condition, wherein said confirmed data is based on said data related to another downhole condition, said data related to said downhole condition and said amount of power generated by said primary power supply. 12. The drilling system, according to claim 1 , wherein said interior sensor is an accelerometer, and wherein the additional interior sensor is selected from a group consisting of: a temperature sensor, a weight sensor, an inclination sensor, an azimuth sensor, a depth sensor, a pressure sensor, a vibration sensor, and an accelerometer. 13. The drilling system, according to claim 1 , further comprising: a circuit board, said interior sensor being mounted on said circuit board, said primary power supply being connected to said circuit board. 14. A method for drilling, comprising the steps of: deploying the drilling system, according to claim 1 , into a rock formation; drilling a borehole with said drill bit; powering said interior sensor with said primary power supply; collecting said data related to said downhole condition by said interior sensor; and generating said confirmed data based on said data related to said downhole condition and said amount of energy generated by said primary power supply, wherein the step of powering said interior sensor comprises the step of converting radial vibration into energy; and controlling said drill bit according to said confirmed data. 15. The method for drilling, according to claim 14 , wherein the sensor system further comprises: a cap body between said center chamber and said distal end having a distal cap end, a proximal cap end opposite said distal cap end, and a cap channel extending from said distal cap end toward the proximal cap end; and a sensor body being removable mounted into said cap channel and having a distal sensor body end and a proximal sensor body end opposite said distal sensor body end, wherein said sensor body is comprised of: an exterior sensor being comprised of a pressure sensor and being positioned at the distal cap end of the cap body so as to convert pressure into energy; and a secondary power supply connected to the exterior sensor, wherein said secondary power supply is comprised of: a piezoelectric body; and sensor body capacitor connected to said piezoelectric body, the method further comprising the steps of: powering said exterior sensor with said secondary power supply; collecting pressure data by said exterior sensor; and generating confirmed pressure data based on said pressure data and an amount of power generated by the secondary power supply, wherein the step of controlling said drill bit is according to said confirmed pressure data. 16. A drilling system, comprising: a drill bit having a terminal end, a connection end opposite the terminal end, and an interior channel extending from the connection end toward the terminal end; a sensor system being mounted in the interior channel and comprising: a system housing having a distal end, a proximal end opposite the distal end, a center housing axis being co-axial with said interior channel, a center chamber between the distal end and the proximal end, and a power chamber between the center chamber and the proximal end, said center chamber being co