Pipeline leak detector

We claim: 1. A pipeline leak detector, comprising: a rotationally stationary drive component; a rotary driveshaft extending axially from the drive component; a leak detector component disposed upon the driveshaft, the leak detector component being driven in axial rotation relative to the drive component; a leak sensor support wheel disposed circumferentially about the leak detector component; and a single leak sensor array disposed radially outward from the leak sensor support wheel, the leak sensor array having a plurality of pressure differential sensing leak sensors thereon, each of the leak sensors communicating electrically with the leak detector component, wherein each of the pressure differential sensing leak sensors comprises: a radially disposed tube having an attachment end and an outer end; a frustoconical mouth extending from the outer end of the tube; a flexible valve disposed at the juncture of the frustoconical mouth and the outer end of the tube, the valve being movable between an open position and a closed position in response to pressure changes; and a strain gauge disposed upon the flexible valve, the strain gauge communicating electronically with the leak detector component. 2. The pipeline leak detector according to claim 1 , wherein the rotationally stationary drive component has a central housing, the pipeline leak detector further comprising: a rotationally powered drive wheel extending radially from the central housing; a driven wheel extending radially from the central housing; a stabilizer wheel extending radially from the central housing, the drive wheel, the driven wheel, and the stabilizer wheel being separated from one another by substantially 120° of arc, the rotary driveshaft having a drive component end and a sensor array end, said leak detector component being disposed upon the sensor array end of the driveshaft. 3. The pipeline leak detector according to claim 2 , further comprising: a drive wheel strut extending radially from the drive component, the drive wheel strut having an adjustable length; a driven wheel strut extending radially from the drive component, the driven wheel strut having an adjustable length; and a stabilizer wheel strut extending radially from the drive component, the stabilizer wheel strut having an adjustable length. 4. The pipeline leak detector according to claim 1 , wherein the rotationally stationary drive component has a central housing and the rotary driveshaft has a drive component end and a sensor array end, said leak detector component being disposed upon the sensor array end of the driveshaft, the pipeline leak detector having: a driven wheel shaft extending radially from the central housing, the driven wheel shaft having a proximal end disposed within the central housing and a distal end disposed external to the housing; a driven wheel disposed upon the distal end of the driven wheel shaft; a first bevel gear disposed upon the driven wheel; a second bevel gear disposed upon the distal end of the driven wheel shaft, the second bevel gear meshing with the first bevel gear; a third bevel gear disposed upon the proximal end of the driven wheel shaft; and a fourth bevel gear disposed upon the drive component end of the driveshaft, the third bevel gear meshing with the fourth bevel gear; whereby rotation of the driven wheel shaft by the driven wheel rotates the driveshaft and the leak detector component thereon. 5. The pipeline leak detector according to claim 1 , further comprising: a transmitter disposed within the leak detector component; and a remotely disposed receiver selectively communicating with the transmitter. 6. A pipeline leak detector, comprising: a rotationally stationary drive component, having: a central housing; a rotationally powered drive wheel extending radially from the central housing; a driven wheel extending radially from the central housing; and a stabilizer wheel extending radially from the central housing, the drive wheel, the driven wheel, and the stabilizer wheel being separated from one another by substantially 120° of arc; a leak detector component extending axially from the drive component, the leak detector component being driven in axial rotation relative to the drive component; a leak sensor support wheel disposed circumferentially about the leak detector component; and a single leak sensor array disposed radially outward from the leak sensor support wheel, the leak sensor array having a plurality of pressure differential sensing leak sensors thereon, each of the leak sensors communicating electrically with the leak detector component, wherein each of the pressure differential sensing leak sensors comprises: a radially disposed tube having an attachment end and an outer end; a frustoconical mouth extending from the outer end of the tube; a flexible diaphragm disposed at the juncture of the frustoconical mouth and the outer end of the tube, the diaphragm sealing the frustoconical mouth from the tube; and a strain gauge disposed upon the flexible diaphragm, the strain gauge communicating electronically with the leak detector component. 7. The pipeline leak detector according to claim 6 , further comprising a rotary driveshaft extending axially from the drive component, said leak detector component being disposed upon the driveshaft, said leak detector component being driven in axial rotation relative to the drive component. 8. The pipeline leak detector according to claim 6 , further comprising: a rotary driveshaft extending axially from the drive component, the rotary driveshaft having a drive component end and a sensor array end, said leak detector component being disposed upon the sensor array end of the driveshaft; a driven wheel shaft extending radially from the central housing of the drive component, the driven wheel shaft having a proximal end disposed within the central housing and a distal end disposed externally to the housing, the driven wheel being disposed upon the distal end of the driven wheel shaft; a first bevel gear disposed upon the driven wheel; a second bevel gear disposed upon the distal end of the driven wheel shaft, the second bevel gear meshing with the first bevel gear; a third bevel gear disposed upon the proximal end of the driven wheel shaft; and a fourth bevel gear disposed upon the drive component end of the driveshaft, the third bevel gear meshing with the fourth bevel gear; whereby rotation of the driven wheel shaft by the driven wheel rotates the driveshaft and the leak detector component thereon. 9. The pipeline leak detector according to claim 6 , further comprising: a drive wheel strut extending radially from the drive component, the drive wheel strut having an adjustable length; a driven wheel strut extending radially from the drive component, the driven wheel strut having an adjustable length; and a stabilizer wheel strut extending radially from the drive component, the stabilizer wheel strut having an adjustable length. 10. The pipeline leak detector according to claim 6 , further comprising: a transmitter disposed within the leak detector component; and a remotely disposed receiver selectively communicating with the transmitter. 11. A pipeline leak detector, comprising: a rotationally stationary drive component having a central housing; a driven wheel shaft extending radially from the central housing, the driven wheel shaft having a proximate end disposed within the central housing and a distal end disposed external to the housing; a driven wheel disposed upon the distal end of the driven wheel shaft; a rotary driveshaft extending axially from the drive component, the driveshaft h