Patent Number: 042591538
Section: description

In the text of the present disclosure, the term "can of the control and safety system" is to be understood as a housing, wherein a rod of the control and safety system is installed. When in the housing, the dimensions of the rod are equal to those of a fuel assembly. The device of this invention can be used to remove both empty cans and cans containing rods of the control and safety system; it can also be used to remove fuel assemblies. The proposed device 1 for the removal of fuel assemblies and cans of the control and safety system from the core 2 of a nuclear reactor, shown in FIG. 1, is installed in a cover 3 of the nuclear reactor, over the core 2 containing fuel assemblies 4 secured in sockets of a collector 5. The device 1 includes a hollow bar 6, wherein there is arranged a grip 7 intended to grip the fuel assembly 4 by its head to withdraw said fuel assembly 4 from the reactor core 2. The grip 7 is coupled to the hollow bar 6 by means of rollers 8 arranged in a housing 9 of the grip 7 at an angle of 120.degree. relative to each other and interacting with the internal surface of the hollow bar 6. As a result, the grip 7 is centered in relation to the axis of the hollow bar 6 and is movable along said axis of the hollow bar 6 over a distance which is not less than the length of the fuel assemblies 4. The internal diameter of the hollow bar 6 enables the bar 6 to envelop the fuel assembly 4 so that there is a clearance between the bar 6 and the fuel assembly 4 being removed; as a result, the fuel assembly 4 can freely move inside the hollow bar 6 over the entire length of said fuel assembly 4. On the core-facing end of the hollow bar 6 there is mounted an auxiliary grip 10. A magnified view of the auxiliary grip 10 is presented in FIG. 2. The auxiliary grip 10 is intended to grip the lower ends of the fuel assemblies 4 being removed (FIG. 1). The grip 10 (FIGS. 1 and 2) comprises six jaws 11 movable mounted on axles 12 which are rigidly secured in the hollow bar 6. Fitted over the hollow bar 6 is a sleeve member 13 which envelops the auxiliary grip 10 and is adapted for axial movement in relation to the hollow bar 6. The bar 6 is sufficiently long for the auxiliary grip 10 to reach the end of the fuel assembly 4 being removed, while the main grip 7 is on the head of said fuel assembly 4, which is at the opposite end of the fuel assembly 4. Opposite each of the jaws 11, there is an opening 14 (FIG. 2) in the sleeve member 13. Each opening 14 has bevelled sides 15 and 16 to interact with external surfaces 17 and 18, respectively, of the jaws 11, bevelled so as to correspond to the profile of the bevelled surfaces 15 and 16. In FIG. 2, the auxiliary grip 10 is opened; the bevelled external surfaces 17 of the jaws 11 interact in this case with the bevelled sides 15 of the openings 14. The hollow bar 6 (FIG. 1) is coupled to the sleeve member 13 by means of a nut 19 which makes it possible for the hollow bar 6 to axially move with respect to the sleeve member 13 over a distance necessary to close (open) the jaws 11 of the auxiliary grip 10. At the end of the sleeve member 13, on the side of the auxiliary grip 10, there is provided an external conical surface 20 (FIG. 2) intended for centering the main grip 7 relative to the axis of the fuel assembly 4 being removed, as the latter is gripped by its head. On the sleeve member 13 there is mounted a support 21 (FIG. 1) which is slidable along the axis of the sleeve member 13 and is secured on the cover 3 of the nuclear reactor. Mounted on the support 21 are hydraulic cylinders 22 which provide enough traction to extract the assembly 4 from the collector 5, as the auxiliary grip 10 grips the lower end of the fuel assembly 4. To withdraw the fuel assembly 4, rods 23 of the hydraulic cylinders 22 interact with stops 24 rigidly mounted on the sleeve member 13. In the portions of the hollow bar 6 and the sleeve member 13, extending above the cover 3 of the reactor, and in the support 21 there are installed sealings 25, 26, 27 and 28 to prevent the penetration of air into the nuclear reactor, as well as a discharge of contaminated gas from the nuclear reactor into the atmosphere. FIG. 3 shows the device of FIG. 1, the only difference being that the fuel assemblies, adjacent to the fuel assembly 4 being withdrawn, have been removed, and the hollow bar 6 with the auxiliary grip 10 and the sleeve member 13 is lowered to the stop into the collector 5; the auxiliary grip 10 is released. FIG. 4 shows the area A of FIG. 3; the bevelled external surfaces of the jaws 11 of the auxiliary grip 10 interact with the bevelled sides 16 of the openings 14 provided in the sleeve member 13. FIG. 5 shows an alternative embodiment of the proposed device for the removal of fuel assemblies and cans of the control and safety system from the core of a nuclear reactor. The device of FIG. 5 is used to remove jammed adjacent fuel assemblies. FIG. 5 only shows part of this device, located just above the core 2 of the nuclear reactor. According to this second embodiment, the hollow bar 6 and the sleeve member 13 are provided with a longitudinally extending slot 30 to receive the fuel assembly 4 which is adjacent to the one being removed. As a fuel assembly is received in the slot 30, there is a clearance between said fuel assembly and the walls of the slot 30. The slot 30 is somewhat longer than the fuel assembly 4; in all other respects, the device of FIG. 5 is similar to that of FIG. 1. FIG. 6 is a sectional view taken on line VI--VI of FIG. 5 and shows the arrangement of the slot 30 with respect to the jammed fuel assembly 4; all the adjacent fuel assemblies have been removed. The width of the slot 30 is determined by the size of the fuel assembly 4. The hollow bar 6 and the sleeve member 13 may be provided with several slots 30 arranged at an angle to one another. The number, arrangement, shape and dimensions of the slots 30 depend on the arrangement, shape and dimensions of the fuel assemblies 4 to be withdrawn from the reactor core 2. The device provided with the slots 30 can also be used to extract single jammed fuel assemblies 4. The proposed device 1 (FIG. 1) for the removal of fuel assemblies and cans of the control and safety system from the core 2 of a nuclear reactor operates as follows. In order to remove unjammed fuel assemblies 4 from the reactor core 2, the device 1 is oriented in the known manner with respect to the coordinates of the fuel assembly 4 to be removed. After this, the sleeve member 13, the hollow bar 6 and the opened auxiliary grip 10 are lowered with the aid of a drive 29 until they abut against the upper end faces of the fuel assemblies 4 adjacent to the one that has to be removed. The sleeve member slides under gravity with respect to the support 21; at the end of its travel it interacts with its external conical surface 20 with the heads of the fuel assemblies 4 adjacent to the one that is to be extracted and thus accurately centers the main grip 7 relative to the axis of the fuel assembly 4 to be removed. It also forces the adjacent fuel assemblies 4 aside from the one that is to be removed; the width of the clearance corresponds to the overall design of the fuel assemblies 4. The main grip 7 is then lowered with the aid of the same drive 29 onto the head of the fuel assembly 4 to be removed, grips the head and draws it. As this takes place, the force directed into the hollow bar 6 is limited so as not to destroy the fuel assembly 4 being removed. The drive 29 then raises the sleeve member 13, the hollow bar 6, the opened auxiliary grip 10 and the fuel assembly 4 being removed, gripped by the main grip 7, somewhat above the heads of the fuel assemblies 4 in the reactor core 2, and the device 1 is oriented with respect to the coordinates of the socket, wherein the fuel assembly 4 being removed is to be inserted. The removed fuel assembly 4 is installed in its socket in a similar manner, although the sequence of operations in this case is reversed. As fuel assemblies are being removed from the core of a nuclear reactor, there may be a situation when a fuel assembly is jammed in the collector so that it cannot be taken out by using the traction force developed by the main grip 7. In such a case, all the fuel assemblies 4 that are adjacent to the jammed one are first removed from the core 2 (FIGS. 1 and 3) of the nuclear reactor, which is done as described above. After this, the device 1 is oriented in the known manner with respect to the coordinates of the jammed fuel assembly 1. The sleeve member 13, the hollow bar 6 and the opened auxiliary grip 10 move down by gravity and with the aid of the drive 29. As this takes place, the sleeve member freely slides in the support 21, whereas the fuel assembly 4 to be removed enters the hollow bar 6. As the end face of the sleeve member 13 abuts against the collector 5, the auxiliary grip 10 grips the fuel assembly 4 by its lower end, which is done by rotating the nut 19. The rotation of the nut 19 causes downward movement of the hollow bar 6 with respect to the sleeve member 13. As this takes place, the bevelled surfaces 18 of the jaws 11 (FIG. 4) of the auxiliary grip 10 slide along the bevelled sides 16 of the openings 14 provided in the sleeve member 13. Upon reaching the end face of the collector 5, the grip 10 closes and firmly grips the lower end of the fuel assembly 4 (FIG. 3). The main grip 7 is then lowered onto the head of the fuel assembly 4 being removed and grips it by the head. In order to provide the necessary traction force to withdraw the fuel assembly 4 from its socket in the collector 5, working fluid is directed under pressure into the hydraulic cylinders 22. As a result, the rods 23 of the hydraulic cylinders 22 interact with the stop 24 rigidly mounted on the sleeve member 13 and produce axial pressure on the sleeve member 13, which is necessary to withdraw the fuel assembly 4 from its socket in the collector 5. As the tail of the fuel assembly 4 leaves the collector 5, the drive 29 raises the sleeve member 13, the hollow bar 6 and the fuel assembly 4, gripped by the closed auxiliary grip 10 and the main grip 7, somewhat above the heads of the fuel assemblies 4 in the reactor core 2, and the device 1 is oriented with respect to the socket, into which the removed fuel assembly 4 is to be inserted. By rotating the nut 19, the auxiliary grip 10 is released, and the fuel assembly 4 is installed by the main grip 7 into its socket in the manner described above. The fuel assembly can also be placed in its socket by the auxiliary grip 10; in this case the main grip 7 first disengages from the head of the fuel assembly 4. The adjacent jammed fuel assemblies 4 (FIGS. 5 and 6) are removed from the reactor core 2 as the single jammed fuel assembly 4, although in this case prior to lowering the sleeve member 13 with the auxiliary grip 10 and the hollow bar 6, the slot 30 is oriented with due regard for the position of the adjacent jammed fuel assemblies 4. All the other operations involved in the removal of jammed fuel assemblies 4 are carried out as described above. The device 1 (FIGS. 1 and 3) is capable of the removal of empty cans of the control and safety system, as well as cans containing rods of the control and safety system. In the case of empty cans, all the operations are carried out by the auxiliary grip 10.