Launching apparatus for underwater payload

The invention claimed is: 1. An apparatus for launching an underwater payload with water pressure, the launching apparatus for underwater payloads comprising: a launch tube in which an underwater payload is loaded; a conduit including a first end portion, which is one of axially opposite ends, a communicating portion located in a position separate from the first end portion and communicating with the launch tube, and a second region extending axially between the communicating portion and a second end portion which is an axial end portion of the conduit opposite to the first end portion, the conduit being filled with water; a plurality of conduit coils disposed around the conduit in a first region between the communicating portion and the first end portion, the plurality of conduit coils aligned axially of the conduit; a plurality of main circuits configured to pass an electric current through the conduit coils, respectively, so as to generate an axial first magnetic field in the conduit; a main-circuit control section configured to control an operation of each of the plurality of main circuits; a moving object disposed in the conduit and including a magnetic material or an induction coil, the moving object being configured to move in the conduit in an advance direction from the first end portion toward the communicating portion to thereby generate, in the launch tube, water pressure for launching the underwater payload a return coil disposed in the second region; a return circuit configured to pass an electric current through the return coil so as to generate an axial third magnetic field in the conduit; and a return-circuit control section configured to control operation of the return circuit, wherein the main-circuit control section controls the operation of each of the plurality of main circuits such that the main circuits pass electric currents through the conduit coils corresponding to the main circuits, respectively, to generate the axial first magnetic field and to thereby cause an axial second magnetic field in the moving object, the first magnetic field and the second magnetic field making an interaction which moves the moving object in the advance direction, and the return-circuit control section controls the operation of the return circuit such that the return circuit passes an electric current through the return coil to generate the third magnetic field and to cause an axial fourth magnetic field in the moving object, the third magnetic field and the fourth magnetic field making an interaction therebetween which decelerates the moving object. 2. The launching apparatus for underwater payloads according to claim 1 , further comprising a plurality of sensors disposed in respective positions corresponding to the plurality of conduit coils so as to be capable of detecting the moving object, wherein the main-circuit control section controls the operation of the main circuits on the basis of information on the position of the moving object acquired from the plurality of sensors. 3. The launching apparatus for underwater payloads according to claim 1 , wherein the main-circuit control section controls the operation of the plurality of main circuits such that the plurality of main circuits pass electric currents through the conduit coils corresponding to the main circuits, respectively, to thereby generate an axial fifth magnetic field and to cause an axial sixth magnetic field in the moving object, the fifth magnetic field and the sixth magnetic field making an interaction therebetween which moves the moving object in a retraction direction which is an axial direction toward the first end portion. 4. The launching apparatus for underwater payloads according to claim 1 , further comprising a fixing mechanism switchable between a state of fixing the moving object at a predetermined position in the conduit and a state of releasing the moving object. 5. An apparatus for launching an underwater payload with water pressure, the launching apparatus for underwater payloads comprising: a launch tube in which an underwater payload is loaded; a conduit including a first end portion, which is one of axially opposite ends, a communicating portion located in a position separate from the first end portion and communicating with the launch tube, and a second region extending axially between the communicating portion and a second end portion which is an axial end portion of the conduit opposite to the first end portion, the conduit being filled with water; a plurality of conduit coils disposed around the conduit in a first region between the communicating portion and the first end portion, the plurality of conduit coils aligned axially of the conduit; a plurality of main circuits configured to pass an electric current through the conduit coils, respectively, so as to generate an axial first magnetic field in the conduit; a main-circuit control section configured to control an operation of each of the plurality of main circuits; a moving object disposed in the conduit and including a magnetic material or an induction coil, the moving object being configured to move in the conduit in an advance direction from the first end portion toward the communicating portion to thereby generate, in the launch tube, water pressure for launching the underwater payload; a return coil disposed in the second region; a return circuit configured to pass an electric current through the return coil so as to generate an axial third magnetic field in the conduit; and a return-circuit control section configured to control operation of the return circuit, wherein the main-circuit control section controls the operation of each of the plurality of main circuits such that the main circuits pass electric currents through the conduit coils corresponding to the main circuits, respectively, to generate the axial first magnetic field and to thereby cause an axial second magnetic field in the moving object, the first magnetic field and the second magnetic field making an interaction which moves the moving object in the advance direction, the moving object includes the induction coil, and the main-circuit control section controls the operation of each of the plurality of main circuits such that the main circuits pass electric currents through the conduit coils corresponding to the main circuits, respectively, to generate the axial first magnetic field and to thereby pass an electric current in the induction coil to generate the second magnetic field in an axial direction opposite to the direction of the first magnetic field, the interaction between the first magnetic field and the second magnetic field causing the moving object and the induction coil forming the first magnetic field to repulse each other so as to move the moving object in the advance direction, and the return-circuit control section controls the operation of the return circuit such that the return circuit passes an electric current through the return coil to generate the third magnetic field and to thereby pass an electric current through the return coil of the moving object to cause a fourth magnetic field in an axial direction opposite to the direction of the third magnetic field, the third magnetic field and the fourth magnetic field making an interaction therebetween which causes the moving object and the return coil forming the third magnetic field to repulse each other so as to decelerate the moving object. 6. The launching apparatus for underwater payloads according to claim 5 , wherein the main-circuit control section controls the operation of the plurality of main circuits such that the plurality of main circuits pass electric currents through the conduit coils corresponding to the main circuits, respectively, to thereby generate an axial fifth magnetic fiel