Gear case fluid sensor

What is claimed is: 1. A fluid level sensor, comprising: a frame having a hollow coupling component configured to attach to a fluid drain of a gear case of a locomotive; a lug insertable into the hollow coupling component having a first connection end; an elongated flexible sensor blade attached to the lug at a trailing end of the flexible sensor blade, the flexible sensor blade configured to be inserted into the gear case and measure a fluid level of a fluid in the gear case; a connector having a second connection end attached to the first connection end and a third connection end; and a cover attached to the frame, the cover has a fourth connection end inside of an aperture of the cover, and the fourth connection end is attached to the third connection end. 2. The fluid level sensor of claim 1 , in which the hollow coupling component is cylindrical and is threaded on an outside surface of the hollow coupling component, the fluid drain contains complimentary threads to the hollow coupling component on an interior mating face of the fluid drain, and the hollow coupling component is rotatably engaged to the fluid drain. 3. The fluid level sensor of claim 1 in which the connector is situated in an aperture of the frame and the aperture of the cover. 4. The fluid level sensor of claim 1 , in which the cover has a fifth connection end on a circumferential surface of the cover. 5. The fluid level sensor of claim 4 , in which after measuring the fluid level, the flexible sensor blade transmits a fluid level data signal from the flexible sensor blade to the first connection end, the second connection end, the third connection end, and the fourth connection end, and finally the fifth connection end. 6. The fluid level sensor of claim 1 , in which the lug further has an arm end, and the trailing end of the flexible sensor blade is attached to the arm end of the lug. 7. The fluid level sensor of claim 6 , in which the arm end of the lug extends through the hollow end of the coupling component into the gear case, the arm end further having an attachment portion, the attachment portion being perpendicular to the arm end, and the flexible sensor blade attached to and parallel with the attachment portion. 8. The fluid level sensor of claim 1 , in which the lug has a seal configured to prevent fluid from traveling from the gear case around the lug and through the hollow coupling component. 9. The fluid level sensor of claim 1 , in which the hollow coupling component has a mechanical stop to prevent the lug from traveling completely through the hollow coupling component into the gear case when the lug is inserted into the hollow coupling component. 10. The fluid level sensor of claim 9 , further including a biasing member inside of the aperture of the cover, the biasing member applying a force onto the connector, and the connector in turn applying a force on the lug against the mechanical stop. 11. The fluid level sensor of claim 1 , in which a wall of the cover has one or more pass through holes configured to allow one or more fasteners to pass through each of the one or more pass through holes, each of the one or more fasteners securing to one or more securing holes located on a back circumference of the frame to attach the cover to the frame. 12. The fluid level sensor of claim 1 , in which the flexible sensor blade is a printed circuit board having a capacitive fluid level sensor or a vibration fluid level sensor. 13. The fluid level sensor of claim 12 , in which the flexible sensor blade also includes a temperature sensor that is configured to measure the temperature of the fluid in the gear case. 14. A drive train of a locomotive, the drive train comprising: a traction motor configured to drive a pinion gear; a gear wheel engaging the pinion gear at a gear mesh, the pinion gear configured to rotate the wheel gear; and a gear case surrounding the gear wheel and having a reservoir holding a lubrication fluid, a lubrication fluid drain, and a lubrication fluid level sensor, the lubrication fluid level sensor comprising: a frame having a hollow coupling component configured to attach to the lubrication fluid drain; a lug insertable into the hollow coupling component having a first connection end; an elongated flexible sensor blade attached to the lug at a trailing end of the flexible sensor blade, the flexible sensor blade configured to be inserted through the lubrication fluid drain into the gear case and measure a fluid level of the lubrication fluid in the gear case; a connector having second connection end attached to the first connection end and a third connection end; and a cover attached to the frame, the cover has a fourth connection end inside of an aperture of the cover, and the fourth connection end is attached to the third connection end. 15. The drive train of claim 14 , in which the cover of the lubrication fluid level sensor has a fifth connection end on a circumferential surface of the cover, and after measuring the fluid level, the flexible sensor blade transmits a fluid level data signal from the flexible sensor blade to the first connection end, the second connection end, the third connection end, and the fourth connection end, and finally the fifth connection end. 16. The drive train of claim 15 , in which a wireless transceiver is attached to the fifth connection end of the lubrication fluid level sensor, the wireless transceiver sending the fluid level data signal to a controller, the controller determining a fluid level of the gear case. 17. The drive train of claim 15 , in which the drive train has two or more traction motors, each of the two or more traction motors has the gear case with the lubrication fluid level sensor, each of the lubrication fluid level sensor having a wire running from the fifth connection end to a junction box. 18. The drive train of claim 17 , in which a controller receives the fluid level data signal from each of the flexible sensor blades from each of the lubrication fluid level sensors, the controller determining a fluid level in each of the gear cases. 19. A method of attaching a fluid level sensor to a gear case of a locomotive, the method including: attaching a hollow coupling component of a frame of the fluid level sensor to a fluid drain of the gear case; inserting an elongated flexible sensor blade of the fluid level sensor attached at a trailing end to a lug of the fluid level sensor through the hollow coupling component into the gear case, the lug being inserted inside of the hollow coupling component, the lug having a first connection end positioned away from the gear case, and the flexible sensor blade configured to measure a fluid level of a fluid in the gear case; attaching a connector of the fluid level sensor to the first connection end of the lug at a second connection end of the connector; attaching a cover of the fluid level sensor to the frame, the cover having a fourth connection end inside of an aperture of the cover, and the fourth connection end attaching to a third connection end of the connector. 20. The method of claim 19 , in which the flexible sensor blade is parallel with a gear wheel of the locomotive after being inserted into the gear case.