Patent Number: 047145820
Section: claims

1. For use in a nuclear reactor having an upper stationary structure, a lower stationary structure and a core under said lower stationary structure, an actuating device for vertically moving a cluster of control elements between an upper position in engagement with said upper stationary structure and a lower position where said cluster is retained by said lower stationary structure, said actuating device comprising:  a vertical shaft movable along its axis and comprising gripping means at the lower end thereof,  grab means fast with said cluster and located at a top end thereof, said grab means having resilient fingers arranged to engage said gripping means and to be latched by snap fitting on the upper stationary structure in a predetermined position,  said gripping means being so shaped as to engage with said resilient fingers when the latter are unlatched from said upper structure and when said gripping means are raised beyond the predetermined position which causes locking of the grab on the upper stationary structure, whereas said lower fixed structure is arranged for causing forced disengagement of said gripping means when the latter are lowered by said shaft beyond a rest position of the grab means on said lower stationary structure, raising of the gripping means then driving the grab means by a simple abutment force.  an actuating and locking device for vertically moving a cluster of control elements between an upper position in engagement with said upper stationary structure and a lower position where said cluster is retained by said lower stationary structure, said actuating device comprising:  a longitudinally movable vertical drive shaft;  gripping means fast with the lower end of said drive shaft and including a plurality of upwardly directed rigid blades having radial locking lips at an upper free end thereof,  grab means fast with said cluster, located at a top end thereof and including a plurality of upwardly directed resilient fingers, said fingers having radially directed latching projections,  recess means formed in said upper structure and dimensioned to receive said latching projections for resiliently locking said grab means in said upper structure,  wherein said blades and gripping means are mutually proportioned for said lips to abut said latching projections in an abutment position and to carry said grab means and cluster upon upward movement of said gripping means; for said lips to upwardly force said latching projections into said upper structure until they snap into said recess; and for said lips to slide over said latching projections and to resiliently bend said fingers inwardly upon continued upward movement of the gripping means from the abutment position while said latching projectons are retained in said recess for forcing said latching projections radially inwardly and disengaging said latching projections from said recess.  an actuating and locking device for vertically moving a cluster of control elements between an upper position in engagement with said upper stationary structure and a lower position where said cluster is retained by said lower stationary structure, said actuating device comprising:  a longitudinally movable vertical drive shaft;  gripping means fast with the lower end of said drive shaft and including a plurality of upwardly directed rigid blades having radial locking lips at an upper free end thereof,  grab means fast with said cluster, located at a top end thereof and including a plurality of upwardly directed resilient fingers, formed with groove means shaped to receive said lips and to exert a radial expansion force on said fingers for mutually locking said fingers and blades with a predetermined resilient force, said fingers having radially directed latching projections,  recess means formed in said upper structure and dimensioned to receive said latching projections for resiliently lockings said grab means in said upper structure,  wherein said blades and gripping means are mutually proportioned for said lips to abut said latching projections in a predetermined relative abutment position and to carry said grab means and cluster upon upward movment of said gripping means; for said lips to upwardly force said latching projections into said upper structure until they snap into said recess; and for said lips to slide over said latching projections and to resiliently bend said fingers inwardly upon continued upward movement of the gripping means from the abutment position while said latching projections are retained in said recess for radially inwardly disengaging said latching projections from said recess,  and wherein said lower fixed structure has a plurality of pins arranged for abutting connection with said gripping means and for causing forced disengagement of said groove means from said lips when said gripping means are lowered by said shaft beyond a rest position of said gripping means. 2. A device according to claim 1, wherein the gripping means comprise a rigid nipper comprising rigid blades for connection with said resilient finger and a bottom wall formed with passages for pins fast with an upper end nozzle of a fuel assembly and arranged to force out the grab means. 3. A device according to claim 2, wheren said grab means comprise a tubular body split up so as to form said resilient fingers and having a lower part cooperating with said pins and a resilient stop intended to bear on the nipper and having a prestress force greater than the weight of the grab means and greater than the snap engagement force of the latter end of the cluster and wherein the upper stationary structure comprises a grab housing having an annular recess defined by a downwardly facing shoulder on which the resilient fingers bear and by a flange for locking projections of the fingers. 4. A device according to claim 3, further comprising grooves formed in said flange for allowing the passage of the rigid blades, wherein said blades comprise endmost lips intended to cause bending of the fingers during raising of the nipper when the grab is resting thereon, until the lips are engaged in a groove of the fingers, the bending being sufficient for freeing the fingers from the recess and from the flange. 5. A device according to claim 3, wherein said cluster is formed of a plurality of independent sub-clusters, distributed about the vertical shaft and each associated with a grab supported by a cross piece fixed to the shaft and constituting part of said grab means. 6. A device according to claim 2, wherein the pins are carried by the upper core plate of the reactor. 7. A device according to claim 2, wherein said pins are carried by an upper end nozzle of a fuel assembly associated with the cluster. 8. A device according to claim 1, wherein said cluster is formed of elements containing neutron absorbing material. 9. A device according to claim 1, wherein said cluster is formed of elongated elements containing fertile material. 10. A device according to claim 5, wherein said vertical shaft is disposed coaxially with a second shaft connected to a cluster of elements for controlling the reactivity of the reactor. 11. For use in a nuclear reactor having an upper stationary structure, a lower stationary structure and a core under said lower stationary structure, 12. For use in a nuclear reactor having an upper stationary structure, a lower stationary structure and a core under said lower stationary structure, 13. An actuating device according to claim 12, wherein each of said radially directed latching projections is separated by said groove means into a lower portion having a first radial distance from an access of said grab means and an upper portion having a greater distance to said axis.