Patent Number: 046684662
Section: claims

1. An apparatus for measuring the spring force imposed on a fuel rod when disposed through a cell in a support grid of a fuel assembly which contains at least one spring-like element, said apparatus comprising: (a) means for generating an increasing force at a first location external of said grid cell;  (b) means for transmitting said increasing force from said first location and applying said increasing force at a second location displaced from said first location and internal of said grid cell to said at least one spring-like element disposed in said cell; and  (c) means for measuring the level of said increasing force at the instance the application of said force causes deflection of said spring-like element to occur;  (d) said transmitting and applying means including a pair of front and rear elongated members, each having a mid-section and upper and lower end portions extending in opposite directions from said mid-section, said members being connected together at their mid-sections for pivotal movement such that as said upper end portions of said members being juxtaposed in spaced apart relation to one another are moved toward and away from each other said lower end portions of said members also being juxtaposed in spaced apart relation to one another are moved away from and toward each other, said lower end portions of said members being adapted to fit into a grid cell while said upper end portions of said member extend upwardly therefrom.  a pair of transversely spaced tabs attached to said rear bar at its mid-section and extending outwardly from a side thereof facing said front bar, said tabs having respective aligned holes defined therethrough;  means defining a hole through said mid-section of said front bar; and  a pivot pin extending through said aligned holes in said spaced tabs on said rear bar and through said hole in said front bar and mounting said front bar on said tabs for pivotal movement relative to said rear bar.  a shaft rotatably connected to one of said upper end portions of said elongated members and threadably connected to the other thereof; and  a knob attached to an end of said shaft for facilitating rotation of said shaft in either of two opposite directions in order to move said upper end portions of said elongated members toward and away from each other.  an adjustable stop attached to one of said members for engaging said grid so as to provide correct positioning of said lower end portions of said members in said grid cell for application of said increasing force to said spring-like element in said cell.  guide means coupled between said upper end portions of said elongated members to assist in maintaining alignment of said members with one another as they are pivotally moved relative to one another.  a guide pin anchored in said upper end portion of one of said elongated members and extending transversely toward said upper end portion of the other of said members; and  a guide bore formed through said upper end portion of the other of said members for slidably receiving said guide pin therethrough as said members are pivotally moved relative to one another.  limit means connected to said upper end portion of one of said elongated members and extending transversely toward said upper end portion of the other of said elongated members for engagement therewith upon relative pivotal movement of said elongated members toward one another, said limit means being adjustable for presetting the minimum displacement between said upper end portions of said elongated members and thereby defining a maximum force which can be applied at said lower end portions of said elongated members to said spring-like element in said grid cell.  means coupled to at least one of said members for sensing the level of said increasing force being applied to said spring-like element within said grid cell;  means coupled to at least one of said members for sensing when said deflection of said spring-like element occurs; and  means coupled to said force level sensing means and said spring deflection sensing means for indicating the level of force at the instance said deflection of said spring-like element occurs.  a circuit element attached to and electrically insulated from said lower end portion of one of said elongated members; and  a set screw attached to said lower end portion of the other of said elongated members, said set screw being adjusted to preset the displacement between said lower end portions of said elongated members and being disposed in contact with said circuit element when said elongated members are initially inserted into said grid cell.  (a) a pair of front and rear elongated members, each having a mid-section and upper and lower end portions extending in opposite directions from said mid-section, said members being pivotally connected together at their mid-sections such that as said upper end portions of said members being juxtaposed in spaced apart relation to one another are moved toward and away from each other said lower end portions of said members also being juxtaposed in spaced apart relation to one another are moved away from and toward each other;  (b) means disposed on said lower end portion of at least one of said members and being operable to coact with said lower end portion of the other of said members to preset a minimum displacement between said members at said respective lower end portions thereof and thereby a minimum combined cross-sectional dimension of said members at their lower end portions such that when said lower end portions of said members are inserted into a grid cell they simulate a fuel rod disposed through said cell having a predetermined outside diamter;  (c) means coupling said upper end portions of said members together and being operable to apply a progressively increasing force so as to draw said upper end portions toward one another and thereby, via said pivotal connection of said members, push said lower end portions apart from one another when deflection of said spring-like element positioned within said grid cell in engagement with at least one of said lower end portions of said members occurs;  (d) means coupled to at least one of said members for sensing the level of the increasing force being applied to said spring-like element within said grid cell;  (e) means coupled to at least one of said members for sensing when said deflection of said spring-like element occurs; and  (f) means coupled to said force level sensing means and said spring deflection sensing means for indicating the level of force at the instance said deflection of said spring-like element occurs.  an adjustable stop attached to one of said members for engaging said grid so as to provide correct positioning of said lower end portions of said members in said grid cell for application of said increasing force to said spring-like element in said cell.  guide means coupled between said upper end portions of said elongated members to assist in maintaining alignment of said members with one another as they are pivotally moved relative to one another.  limit means connected to said upper end portion of one of said elongated members and extending transversely toward said upper end portion of the other of said elongated members for engagement therewith upon relative pivotal movement of said elongated members toward one another, said limit means being adjustable for presetting the minimum displacement between said upper end portions of said elongated members and thereby defining a maximum force which can be applied at said lower end portions of said elongated members to said spring-like element in said grid cell. 2. The measuring apparatus as recited in claim 1, wherein said increasing force is applied to said spring-like element at said second location in a direction generally perpendicular to a central axis of said grid cell along which said fuel rod is inserted through said cell. 3. The measuring apparatus as recited in claim 1, wherein said elongated members include a pair of front and rear bars, said upper and lower end portions of said rear bar extending in opposite directions from said mid-section thereof and in generally linear alignment with one another, said upper and lower end portions of said front bar extending in opposite directions from said mid-section thereof and in a transversely offset relationship in which said upper end portion of said front bar is spaced remote from said upper end portion of said rear bar while said lower end portion of said front bar is spaced adjacent to said lower end portion of said rear bar. 4. The measuring apparatus as recited in claim 3, wherein said elongated members further include: 5. The measuring apparatus as recited in claim 1, wherein said generating means includes a rotatable member coupling said upper end portions of said elongated members together and being operable to apply said increasing force at said first location so as to draw said upper end portions toward one another and thereby, via said pivotal connection of said members, push said lower end portions apart from one another when deflection of said spring-like element positioned within said grid cell in engagement with at least one of said lower end portions of said members occurs. 6. The measuring apparatus as recited in claim 5, wherein said rotatable member includes: 7. The measuring apparatus as recited in claim 1, further comprising: 8. The measuring apparatus as recited in claim 1, further comprising: 9. The measuring apparatus as recited in claim 8, wherein said guide means includes: 10. The measuring apparatus as recited in claim 1, further comprising: 11. The measuring apparatus as recited in claim 10, wherein said limit means is a set screw threadably received through said upper end portion of said one elongated member. 12. The measuring apparatus as recited in claim 1, wherein said transmitting and applying means further includes adjustable means disposed on said lower end portion of at least one of said elongated members and being operable to coact with said lower end portion of the other of said elongated members to preset a minimum displacement between said members at said respective lower end portions thereof and thereby a minimum combined cross-sectional dimension of said members at their lower end portions such that when said lower end portions of said members are inserted into a grid cell they simulate a fuel rod disposed through said cell having a predetermined outside diameter. 13. The measuring apparatus as recited in claim 1, wherein said measuring means includes: 14. The measuring apparatus as recited in claim 13, wherein said force level sensing means is a strain gauge attached to said lower end portion of one of said elongated members. 15. The measuring apparatus as recited in claim 13, wherein said spring deflection sensing means includes a pair of electrical contacts coupled between said lower end portions of said members and being capable of breaking contact with one another when said application of said increasing force to said spring-like element causes deflection of said spring-like element to occur. 16. The measuring apparatus as recited in claim 15, wherein said pair of electrical contacts includes: 17. An apparatus for measuring the spring force imposed on a fuel rod when disposed through a cell in a support grid of a fuel assembly which contains at least one spring-like element, said apparatus comprising: 18. The measuring apparatus as recited in claim 17, further comprising: 19. The measuring apparatus as recited in claim 17, further comprising: 20. The measuring apparatus as recited in claim 17, further comprising: