Patent Number: 049884751
Section: claims

1. Device for checking the axial retention force on a peripheral rod (6a) of a fuel assembly (1) of a nuclear reactor inside the framework of the assembly, comprising a plurality of spacer grids (2) retaining the fuel rods in a uniform network in transverse direction and in the axial direction of the rod (6a) by virtue of gripping means (15, 16, 7) associated with the cells of the grid (2) in which the rods (6) are inserted, the checking being performed remotely and under a certain depth of water in a fuel assembly storage pool, by virtue of the device which comprises: (a) a rod (28) on which is mounted a means (30, 32, 33) for support and displacement which is movable in an axial direction of the rod (28) and in two directions perpendicular to said axial direction;  (b) a device for pushing axially on a longitudinal end of the rod (6a) carried by the means (30, 32, 33) for support and displacement, consisting of a fork (64) comprising an end notch (66) for its engagement on a shoulder of an end plug of the rod, said fork being fixed on an element (61) which is movable in the vertical direction in a guide means (60) fixed on the means (30, 32, 33) for support and displacement, and of at least one support fork on a face of a corresponding end joining piece (4, 5) of the fuel assembly, which fork is fixed on the means (30, 32, 33) for support and displacement, the vertical displacement of the movable element being ensured by a remote control means (42, 45);  (c) means (77, 79, 76, 78) for measuring the axial pushing force on the rod (6a) and the amplitude of the axial displacement of the rod under the effect of the pushing action, disposed at the upper level of the storage pool (27);  (d) and at least one video camera (34) carried by the means (30, 32, 33) for support and displacement in order to provide an image of the zone in the vicinity of the end of the rod (6a) on which a pushing action is being exerted;  wherein the movable element consists of a sliding shaft (61) on which is machined a rack (61') of vertical direction, the remote control means (42, 45) consisting of a ball remote control whose flexible movable element (45) is connected to the end of a rack (47) engaging with a drive pinion (52) driving the displacement of the rack (61') and of the movable element (61) by means of at least one pinion (56, 57). 2. Device according to claim 1, wherein the end of the ball remote control (42, 45) opposite to its end which is connected to the rack (47) comprises an end of a sheath (42) fixed on a casing (71) and an end of a flexible element (45) which is movable in the sheath (42) fixed on a carriage (108) mounted so as to move inside the casing (71), an indicator (76) for measurement of displacement being fixed on the carriage (108) so as to comprise a movable end inside an aperture (75) passing through the casing (71) along a graduated rule (78) fixed on the outer surface of the casing (71) the indicator (76) and the graduated rule (78) making it possible to measure the displacements of the carriage (108) and of the movable flexible element (45) of the ball remote control. 3. Device according to claim 2, comprising means for displacement of the carriage (108) inside the casing (71), said means consisting of a screw (106) on which is engaged an internally threaded nut (107) interacting with the carriage (108) for its displacement guided by at least one column (101) fixed in the casing (71). 4. Device according to claim 3, wherein the screw (106) is mounted so as to move in rotation on a movable assembly (100) inside the casing (71) in the axial direction of the screw (106). 5. Device according to claim 4, wherein the movable assembly (100) comprises a sleeve (121), two end plates (104, 124, 105, 125) and a displacement device consisting of a threaded shaft (115) parallel to the screw (106) mounted so as to move in rotation in the casing (71) disposed in the bore of the sleeve (121) and along its axial direction, on which is mounted a threaded nut (118) engaging with the screw thread of the shaft (115) inside the sleeve (121), two dynamometric springs (127, 128) each being inserted between a support dish (119, 120) of the nut (118) and an end plate (104, 124, 105, 125) of the movable assembly (100), the threaded shaft (115) comprising a profiled end part outside the casing (71) for rotation of the shaft in one direction or another and for the axial displacement of the nut (118) inside the sleeve (121) ensuring the compression of a dynamometric spring (127, 128) leading to a displacement of the movable assembly (100) for a certain compression force corresponding to the pushing force necessary to overcome the axial retention force on the rod (6a). 6. Device according to claim 5, wherein the nut (118) carries an indicator (77) which is capable of being displaced inside an aperture (130) passing through the wall of the sleeve (121) coinciding with an aperture (74) passing through the casing (71) along a graduated rule (79) carrying a graduation indicating the pushing force on the pencil which is a function of the position of the nut (118). 7. Device according to claim 6, wherein the movable element (100) is guided in its displacements inside the casing (71) by two columns (101, 101') parallel to the screw (106) and to the threaded shaft (115) on which the movable assembly (100) is mounted so as to slide by means of ball bushes (103, 103') fixed on the end flanges (104, 105).