Electron beam irradiation apparatus

The invention claimed is: 1. An electron beam irradiation apparatus that emits an electron beam into a container, the electron beam irradiation apparatus comprising: a vacuum chamber; an electron generator provided in the vacuum chamber; a cylindrical nozzle member that is extended from the vacuum chamber so as to be inserted into the container and has exit windows on a distal end of the nozzle member, the exit windows being provided for emission of an electron beam generated by the electron generator into the container; and a magnetic shield member for the vacuum chamber, the shield member being provided for the vacuum chamber so as to block variable magnetism generated around an electron beam trajectory extended from the electron generator to the exit windows. 2. The electron beam irradiation apparatus according to claim 1 , further comprising a magnetic shield member for the nozzle member, the shield member being provided for the nozzle member so as to block variable magnetism generated around the electron beam trajectory extended front the electron generator to the exit windows. 3. The electron beam irradiation apparatus according to claim 2 , wherein the magnetic shield member for the vacuum chamber and the magnetic shield member for the nozzle member are made of a high permeability material having relative permeability of at least 50000. 4. The electron beam irradiation apparatus according to claim 3 , wherein the magnetic shield member for the nozzle member is disposed to surround the electron beam trajectory. 5. The electron beam irradiation apparatus according to claim 4 , wherein the magnetic shield member for the nozzle member is disposed in a shape like one of a cylinder, a ring, and a spiral relative to an axis of the nozzle member. 6. The electron beam irradiation apparatus according to claim 3 , wherein the magnetic shield member for the nozzle member is disposed inside the nozzle member and is separated from a distal end of a nozzle by a predetermined distance along an axial direction of the nozzle so as to prevent heat generated near the exit windows during electron beam emission and transmitted to the magnetic shield member for the nozzle member from reducing the relative permeability of the magnetic shield member for the nozzle member. 7. The electron beam irradiation apparatus according to claim 3 , wherein the magnetic shield member for the nozzle member and a cooling flow path for passage of a medium for cooling the nozzle member are provided on a side of the nozzle member. 8. The electron beam irradiation apparatus according to claim 2 , wherein the magnetic shield member for the nozzle member is disposed to surround the electron beam trajectory. 9. The electron beam irradiation apparatus according to claim 8 , wherein the magnetic shield member for the nozzle member is disposed in a shape like one of a cylinder, a ring, and a spiral relative to an axis of the nozzle member. 10. The electron beam irradiation apparatus according to claim 2 , wherein the magnetic shield member for the nozzle member is disposed inside the nozzle member and is separated from a distal end of a nozzle by a predetermined distance along an axial direction of the nozzle so as to prevent heat generated near the exit windows during electron beam emission and transmitted to the magnetic shield member for the nozzle member from reducing the relative permeability of the magnetic shield member for the nozzle member. 11. The electron beam irradiation apparatus according to claim 2 , wherein the magnetic shield member for the nozzle member and a cooling flow path for passage of a medium for cooling the nozzle member are provided on a side of the nozzle member.