Inspection robot for horizontal tube inspection having sensor carriage

What is claimed is: 1. An inspection apparatus for inspecting a vertically arranged layer of tubes, comprising: a drive module comprising a pair of wheels structured to engage a top tube of the vertically arranged layer of tubes; at least one telescoping pole; a sensor carriage assembly coupled to the at least one telescoping pole, the sensor carriage assembly structured to accept at least one of a plurality of sensors, wherein the sensor carriage assembly comprises at least one guide arm structured to engage a tube of at least one of the vertically arranged layer of tubes or an adjacent vertically arranged layer of tubes; a sensor carriage actuator operatively engaged with the sensor carriage assembly, and structured to selectively rotate the sensor carriage assembly between an inspection position and a raising/lowering position, wherein the sensor carriage assembly has a narrower vertical profile in the raising/lowering position than in the inspection position; and a lowering mechanism operationally coupled to the at least one telescoping pole and structured to selectively extend or retract the at least one telescoping pole, thereby providing a selected vertical position of the sensor carriage assembly. 2. The inspection apparatus of claim 1 , further comprising: an encoder comprising a passive wheel, a spring, and a sliding coupler, wherein the spring of the encoder is structured to bias the passive wheel toward the top tube to ensure contact between the passive wheel and a surface of the top tube. 3. The inspection apparatus of claim 1 , wherein the drive module further comprises a motor operatively coupled to at least one wheel of the pair of wheels. 4. The inspection apparatus of claim 1 , further comprising a controller in communication with the sensor carriage assembly and configured to receive sensor data. 5. The inspection apparatus of claim 1 , wherein the at least one of the plurality of sensors comprises an ultrasonic sensor, a laser profiler, or a camera and a light. 6. The inspection apparatus of claim 1 , wherein the sensor carriage assembly is a swappable sensor carriage assembly. 7. The inspection apparatus of claim 6 , wherein the swappable sensor carriage assembly comprises a quick connect mechanism. 8. The inspection apparatus of claim 7 , wherein the quick connect mechanism comprises a pin or a set screw. 9. The inspection apparatus of claim 1 , wherein the lowering mechanism is structured to selectively extend or retract the at least one telescoping pole when the sensor carriage assembly is in the raising/lowering position. 10. A method of inspecting horizontal tubes in an industrial environment, comprising: selecting a sensor carriage assembly comprising a desired sensor for inspecting a plurality of vertically arranged layers of tubes, wherein the sensor carriage assembly comprises at least one guide arm structured to engage a tube of at least one of the vertically arranged layers of tubes or an adjacent vertically arranged layer of tubes; coupling the selected sensor carriage assembly to an inspection robot; positioning a drive module of the inspection robot on a top tube of the plurality of vertically arranged layers of tubes; moving the sensor carriage assembly of the inspection robot vertically when the sensor carriage assembly is in a raising/lowering position to align with a selected tube of the plurality of vertically arranged layers of tubes; rotating the sensor carriage assembly from the raising/lowering position to an inspection position, wherein the sensor carriage assembly has a narrower vertical profile in the raising/lowering position than in the inspection position; and interrogating the selected tube with the desired sensor of the selected sensor carriage assembly as the inspection robot travels along a length of the top tube of the plurality of vertically arranged layers of tubes. 11. The method of claim 10 , further comprising: determining a movement of the drive module along the top tube using an encoder including a passive wheel, a spring, and a sliding coupler; and biasing, using the spring, the passive wheel toward the top tube to ensure contact between the passive wheel and a surface of the top tube. 12. The method of claim 10 , further comprising: uncoupling the selected sensor carriage assembly from the inspection robot; selecting a second sensor carriage assembly comprising a second desired sensor for inspecting the plurality of vertically arranged layers of tubes, wherein the second desired sensor comprises an ultrasonic sensor, a laser profiler, or a camera and a light; and coupling the selected second sensor carriage assembly to the inspection robot. 13. The method of claim 10 , further comprising moving the inspection robot along the top tube during the interrogating at a selected speed. 14. The method of claim 13 , wherein the moving the selected sensor carriage assembly vertically comprises operating a hand wheel. 15. The method of claim 13 , further comprising operating a camera coupled to the sensor carriage assembly during the moving the selected sensor carriage assembly vertically, and confirming a vertical position of the selected sensor carriage assembly. 16. The method of claim 10 , wherein the desired sensor comprises an ultrasonic sensor, a laser profiler, or a camera and a light. 17. The method of claim 10 , wherein the sensor carriage assembly is a swappable sensor carriage assembly. 18. An inspection apparatus, comprising: a drive module comprising a motor and a pair of wheels structured to engage a top tube of a vertically arranged layer of tubes, wherein the motor is operatively coupled to at least one wheel of the pair of wheels; at least one telescoping pole; a sensor carriage assembly coupled to the at least one telescoping pole, the sensor carriage assembly structured to accept at least one of a plurality of sensors, wherein the sensor carriage assembly comprises a guide arm structured to engage a tube of at least one of the vertically arranged layer of tubes or an adjacent vertically arranged layer of tubes; a sensor carriage actuator operatively engaged with the sensor carriage assembly, and structured to selectively rotate the sensor carriage assembly between an inspection position and a raising/lowering position, wherein the sensor carriage assembly has a narrower vertical profile in the raising/lowering position than in the inspection position; and a lowering mechanism operationally coupled to the at least one telescoping pole and structured to selectively extend or retract the at least one telescoping pole. 19. The inspection apparatus of claim 18 , further comprising a vertical encoder operatively engaged with the lowering mechanism and adapted to determine a vertical position of the sensor carriage assembly. 20. The inspection apparatus of claim 18 , wherein the at least one of the plurality of sensors comprises an ultrasonic sensor, a laser profiler, or a camera and a light. 21. The inspection apparatus of claim 18 , further comprising: an encoder operatively coupled to at least one of the motor or the pair of wheels and adapted to determine a movement of the drive module along the top tube; and a controller configured to receive data from the encoder and to determine a location of the drive module along the top tube. 22. The inspection apparatus of claim 21 , wherein the encoder comprises a passive wheel, a spring, and a sliding coupler, the spring being structur