Thermoelectric generator unit and method of testing the thermoelectric generator unit

What is claimed is: 1. A thermoelectric generator unit comprising: a plurality of tubular thermoelectric generators, each of which has an outer peripheral surface, an inner peripheral surface and a flow path defined by the inner peripheral surface, and each of which generates electromotive force in an axial direction of each said tubular thermoelectric generator based on a difference in temperature between the inner and outer peripheral surfaces; a plurality of electrically conductive members for electrically connecting the plurality of tubular thermoelectric generators; and a container housing the plurality of tubular thermoelectric generators inside, the container having fluid inlet and outlet ports through which a fluid flows inside the container, a plurality of openings into which the respective tubular thermoelectric generators are inserted, a shell surrounding the plurality of tubular thermoelectric generators, and a pair of plates, each of which is fixed to the shell and at least one of which has the plurality of openings and a plurality of channels, each channel housing an electrically conductive member, wherein respective ends of the tubular thermoelectric generators are inserted into the plurality of openings of the plates, at least one of the channels has an interconnection which connects at least two of the plurality of openings together and a testing hole portion which runs from the interconnection through an outer edge of the at least one plate, and the plurality of tubular thermoelectric generators are electrically connected together in series via the electrically conductive member that is housed in the interconnection of the at least one channel. 2. The thermoelectric generator unit of claim 1 , wherein two of the channels are terminal connections, each of which runs from one of the plurality of openings of the plate through an outer edge thereof. 3. The thermoelectric generator unit of claim 2 , wherein the plurality of electrically conductive members include: at least one connection plate with two through holes, into which two of the tubular thermoelectric generators are respectively inserted; and two terminal plates, each having a single through hole into which one of the tubular thermoelectric generators is inserted and having one end that sticks out, the at least one connection plate is housed in the interconnection of the at least one channel, the two terminal plates are respectively housed in the two terminal connections, a portion of each said terminal plate sticking out of the plate, and the at least one connection plate and the two terminal plates are electrically connected to the tubular thermoelectric generators inserted into the through holes. 4. The thermoelectric generator unit of claim 3 , wherein the at least one connection plate has a branch portion, and an end of the branch portion sticks out of the plate through the testing hole portion. 5. The thermoelectric generator unit of claim 3 , further comprising a wire, one end of which is electrically connected to the at least one connection plate and the other end of which is extended out of the plate through the testing hole portion. 6. The thermoelectric generator unit of claim 1 , further comprising a terminal box including a plurality of terminals, wherein each of the plurality of terminals is electrically connected to an associated one of the electrically conductive members through the testing hole portion. 7. The thermoelectric generator unit of claim 5 , further comprising a terminal box which is arranged at the outer edge of one of the pair of plates and which includes a terminal, a portion of the wire extended out of the plate is arranged along the outer edge of the plate, and the other end of the wire is electrically connected to the terminal. 8. The thermoelectric generator unit of claim 5 , wherein the at least one connection plate has a threaded hole which has been cut parallel to the direction in which the testing hole portion runs. 9. The thermoelectric generator unit of claim 1 , wherein each of the plurality of openings has a first seating surface to receive a first O-ring inserted into the opening from outside of the shell, at least one of the pair of plates include: a first plate portion which is fixed to the shell and in which the first seating surface has been formed; and a second plate portion which is attached removably to the first plate portion, the plurality of openings running through the first and second plate portions, each of the plurality of openings of the second plate portion has a second seating surface to receive a second O-ring inserted into the opening, and in each channel, the electrically conductive member is arranged between the first and second O-rings. 10. The thermoelectric generator unit of claim 9 , wherein at least one of respective sealing surfaces of the first and second plate portions has a groove portion, the surface of which forms part of an inner peripheral surface of the testing hole portion. 11. The thermoelectric generator unit of claim 1 , wherein the at least one plate has an insulating coating which covers an inner peripheral surface of the testing hole portion of the at least one channel. 12. The thermoelectric generator unit of claim 1 , wherein the testing hole portion of the at least one channel runs straight from the interconnection through the outer edge of the plate. 13. The thermoelectric generator unit of claim 1 , wherein the testing hole portion of the at least one channel has a ramified portion inside of the plate. 14. The thermoelectric generator unit of claim 1 , wherein the at least one plate has a cap capable of closing the testing hole portion of the at least one channel. 15. A method of testing the thermoelectric generator unit of claim 1 , the method comprising: inserting a probe into the testing hole portion of the at least one channel; bringing a tip end of the probe into contact with the electrically conductive member housed in the interconnection; and getting electrical or thermal information about the electrically conductive member with which the tip end is in contact.