Patent Number: 052767183
Section: claims

1. A control blade for use in nuclear reactors comprising: an upper structure means;  a lower structure means;  a central tie means disposed between said upper structure means and said lower structure means;  a wing means having a plurality of wings connected to each other by said central tie means in such a manner that a plurality of said wings are disposed to form a cross-shaped lateral cross section; and  neutron absorber means enclosed in at least a major portion of a multiplicity of accommodiating holes formed in a widthwise direction of each wing and in line disposed in a lengthwise direction of said wing,  said wing means being arranged in such a manner that each of said wings is constituted by a plate member made of hafnium metal, a hafnium alloy composed of hafnium and zirconium or titanium or an alloy the main component of which is zirconium or titanium,  said neutron absorber menas comprising a long-lived type neutron absorber which is enclosed in said accommodating holes formed in a front insertion portion of said wing which is exposed to a large amount of neutrons and made of hafnium, metal a main component of which is hafnium, a silver-indium-cadmium alloy; and a neutron absorber which in inserted into at least a major portion of residual accommodating holes and which contains a boron compound, and  a mixture of a material containing a boron compound and at least one hydrogen absorber composed of at least one of zirconium particles and hafnium powder being enclosed in said accommodating holes among said accommodating holes for accommodating said neutron absorber containing a boron compound disposed in a range from the front insertion portion, which is exposed to a large amount of neutrons, to 1/4L of a height L of an effective core portion from the front insertion portion of a nuclear reactor, said neutron absorber means further including at least one of: a gap between said long-lived type neutron absorber and a covering pipe; a sleeve around said long-lived type neutron absorber; and an oxide film on a surface of said long-lived neutron absorber.  an upper structure means;  lower structure means;  a central tie means for establishing a connection between said upper structure means and said lower structure means;  a sheath plate means connected to said central tie means and having a U-shaped lateral cross section to constitute wings disposed to form a cross-shaped lateral cross section; and  a neutron absorber rod means accommodated in said sheath plate means in line, wherein said neutron absorber rod means is constituted by inserting said long-lived type neutron absorber made of hafnium metal, metal the main component of which is hafnium or a silver-indium-cadmium (Ag-In-Cd) alloy into a covering pipe said neutron absorber rod means further including at least one of: a gap between said long-lived type neutron absorber and said covering pipe; a sleeve around said long-lived type neutron absorber; and an oxide film on a surface of said long-lived neutron absorber.  an elongated covering pipe;  a plug means for sealing two end portions of said covering pipe; and  a neutron absorber means accommodated in said covering pipe,  said neutron absorber means comprising a long-lived type neutron absorber enclosed in one side of said covering pipe, which is exposed to a large amount of neutrons, and made of hafnium metal, alloy a main component of which is hafnium or a silver-indium-cadmium alloy and a neutron absorber enclosed in a residual region and composed of a boron compound, and  wherein said long-lived type neutron absorber is enclosed in said covering pipe and wherein said neutron absorber means further includes at least one of: a gap between said long-lived type neutron absorber and said covering pipe; a sleeve around said long-lived type neutron absorber; and an oxide film on a surface of said long-lived neutron absorber.  an upper structure means;  a lower structure means;  a central tie means disposed between said upper structure means and said lower structure means;  a wing means having a plurality of wings connected to each other by said central tie means in such a manner that a plurality of said wings are disposed to form a cross-shaped lateral cross section;  said wing means including at least first, second, third and fourth regions, and wherein said second through fourth regions include accommodating holes formed in a widthwise direction of each wing; and  wherein said second region includes at least one of said accommodating holes having a tubular member inserted therein, said tubular member formed of zirconium. 2. A control blade for use in nuclear reactors according to claim 1, wherein said accommodating holes formed in said wing and disposed in a range from the front insertion portion, which is exposed to a large amount of neutrons, to 1/4.multidot.L are filled with said material which contains a boron compound and which is surrounded by a pure zirconium sheet. 3. A control blade for use in nuclear reactors according to claim 1, wherein said accommodating holes, which is formed in said wing and in which said long-lived type neutron absorber is enclosed, are filled with said long-lived type neutron absorber which is surrounded by a zirconium sheet. 4. A control blade for use in nuclear reactors according to claim 1, wherein said long-lived type neutron absorber to be inserted into a shape such as a thread having projections and pits on the outer surface thereof. 5. A control blade for use in nuclear reactors according to claim 1, wherein the length of said long-lived type neutron absorber to be inserted into each of said accommodating holes formed in said wing is shorter than the depth of said accommodating hole and at least a hydrogen absorber composed of at least either zirconium particles or hafnium powder is enclosed in a space of said accommodating hole in a range which corresponds to said length shortened. 6. A control blade for use in nuclear reactors according to claim 1, wherein said long-lived type neutron absorber to be inserted into each of said accommodating holes formed in said wing is divided into a plurality of short neutron absorber elements, a gap is formed in at least a portion between said neutron absorber elements and at least a hydrogen absorber composed of at least either zirconium particles or hafnium powder is charged into said gap. 7. A control blade for use in nuclear reactors according to claim 1, wherein said long-lived type neutron absorber to be inserted into each of said accommodating holes formed in said wing is longitudinally divided into a plurality of pieces in parallel to the axial direction of said accommodating hole and projecting portions are formed for the purpose of creating gaps between said pieces. 8. A control blade for use in nuclear reactors according to claim 1, wherein said long-lived type neutron absorber to be inserted into each of said accommodating holes formed in said wing is longitudinally divided into a plurality of pieces in parallel to the axial direction of said accommodating hole and zirconium strip is interposed between said pieces. 9. A control blade for use in nuclear reactors according to claim 1, wherein an oxide film is formed on the surface of said long-lived type neutron absorber to be inserted into each of said accommodating holes formed in said wing. 10. A control blade for use in nuclear reactors according to claim 1, wherein an oxide film is formed on the inner surface of said accommodating holes, in which said neutron absorber containing a boron compound is enclosed, among said accommodating holes formed in said wing. 11. A control blade for use in nuclear reactors according to claim 1, wherein at least a hydrogen absorber composed of at least either zirconium particles or hafnium powder is enclosed in at least one accommodating hole among said accommodating holes formed in a range of 3 cm or more and as well as 35 cm or shorter from the front insertion portion of said wing. 12. A control blade for use in nuclear reactors according to claim 1, wherein a zirconium tubular member is inserted to form a gas plenum into at least one accommodating hole among said accommodating holes formed in a range of 3 cm or more and as well as 35 cm or shorter from the front insertion portion of said wing. 13. A control blade for use in nuclear reactors according to claim 1, wherein a long-lived type neutron absorbing rod made of hafnium metal, metal the main component of which is hafnium or an Ag-In-Cd alloy, which extends in the lengthwise direction of said wing, is disposed on the outer portion of each of said accommodating holes disposed in a range of at least 1/4.multidot.L from the front insertion portion of said wing, the major portion of said neutron absorbing rod being covered with a zirconium sleeve. 14. A control blade for use in nuclear reactors according to claim 1, wherein a long-lived type neutron absorbing rod made of hafnium metal, metal the main component of which is hafnium or an Ag-In-Cd alloy, which extends in the lengthwise direction of said wing, is disposed on the outer portion of each of said accommodating holes disposed in a range of at least 1/4.multidot.L from the front insertion portion of said wing and a zirconium strip is disposed between said neutron absorbing rod and each of said accommodating holes. 15. A control blade for use in nuclear reactors according to claim 1, wherein hafnium particles are enclosed in a range of 1 to 2 cm from the outer end portion of each of said accommodating holes disposed in at least a range of 1/4.multidot.L from the front insertion portion of said wing toward the inside of the wing. 16. A control blade for use in nuclear reactors according to claim 1, wherein zirconium tubular member is inserted into each of said accommodating holes among said accommodating holes formed in said wing and accommodates said neutron absorber containing a boron compound disposed at least a range of 1/4.multidot.L from the front insertion portion of said wing, which is exposed to a large amount of neutrons and zirconium particles and said boron compound mixed are enclosed in said tubular member. 17. A control blade for use in nuclear reactors comprising: 18. A control blade for use in nuclear reactors according to claim 17, wherein said neutron absorber rod means is inserted into a predetermined region in said covering pipe in such a manner that a boron compound is mixed with at least a hydrogen absorber composed of at least either zirconium particles or hafnium powder. 19. A neutron absorbing rod comprising: 20. A neutron absorbing rod according to claim 19, wherein a hydrogen absorber composed of at least either zirconium particles or hafnium powder is mixed and enclosed with said neutron absorber among said neutron absorbers composed of said boron compound to be enclosed in said covering pipe in a predetermined region, which is exposed to a large amount of neutrons. 21. A neutron absorbing rod according to claim 19, wherein said neutron absorber, among said neutral absorbers composed of said boron compound to be enclosed in said covering pipe, in a predetermined region which is exposed to a large amount of neutrons is enclosed in an unsealed type inner pipe accommodated in said covering pipe. 22. The control blade of claim 17, wherein a gap is provided between said long-lived type neutron absorber and said covering pipe, and wherein said long-lived type neutron absorber comprises a rod having at least one of a plurality of projections and a thread formed thereon, thereby maintaining said gap between said long-lived type neutron absorber and said covering pipe. 23. The control blade of claim 17, wherein a gap is provided between said long-lived type neutron absorber and said covering pipe, and wherein said covering pipe includes a plurality of inward projections disposed upon an inner surface thereof, thereby maintaining said gap between said long-lived type neutron absorber and said covering pipe. 24. The control blade of claim 19, wherein a gap is provided between said long-lived type neutron absorber and said covering pipe, and wherein said long-lived type neutron absorber comprises a rod having at least one of a plurality of projections and a thread formed thereon, thereby maintaining said gap between said long-lived type neutron absorber and said covering pipe. 25. The control blade of claim 19, wherein a gap is provided between said long-lived type neutron absorber and said covering pipe, and wherein said covering pipe includes a plurality of inward projections disposed upon an inner surface thereof, thereby maintaining said gap between said long-lived type neutron absorber and said covering pipe. 26. A control blade for use in nuclear reactors comprising: 27. The control blade of claim 26, wherein said first region includes at least one accommodating hole having a tubular member disposed therein formed of zirconium, and wherein said at least one accommodating hole of said second region further includes zirconium disposed inside of said tubular member. 28. The control blade of claim 27, wherein said third region includes a plurality of said accommodating holes, and wherein said plurality of accommodating holes of said third region include zirconium tubular members disposed therein and a long-lived neutron absorber rod disposed inside of said zirconium tubular member. 29. The control blade of claim 28, wherein said fourth region includes a plurality of accommodating holes having a high reactivity neutron absorber and zirconium disposed therein. 30. The control blade of claim 26, wherein said third region includes a plurality of said accommodating holes, and wherein said plurality of accommodating holes of said third region include zirconium tubular members disposed therein and a long-lived neutron absorber rod disposed inside of said zirconium tubular member. 31. The control blade of claim 30, wherein said fourth region includes a plurality of accommodating holes having a high reactivity neutron absorber and zirconium disposed therein. 32. The control blade of claim 31, wherein said first through fourth regions extend along a length of said control blade which is in the range of 1/4L to 3/4L of a height L of an effective core portion from a front insertion portion of a nuclear reactor, and wherein said control blade further includes a fifth region having a plurality of accommodating holes disposed therein, and wherein accommodating holes of said fifth region contain a boron compound.