Patent Number: 047537698
Section: claims

1. In a nuclear reactor having a pressure vessel, a cover for said vessel, a sleeve (20) secured to the cover and projecting therethrough, upper internals insertable into and movable from said vessel, having a guide tube (18) in alignment with said sleeve, a drive shaft (22) formed with circumferential grooves and linearly movable along said guide tube, and a control cluster connectable by means of a remotely controlled tool to a lower end of said drive shaft, a device for retaining said drive shaft in locked condition within said upper internals, said device comprising (a) a base member (28) fixedly secured to an upper portion of said upper internals;  (b) a plurality of spaced apart grippers (34) distributed about the axis of said base member (28) and each mounted about a pin carried by said base member for pivotal movement about a horizontal axis between a position of engagement with said drive shaft and a released position free from engagement with said drive shaft;  (c) slide means (42) axially movable with respect to said base member between a higher position and a lower position, said slide means having a mechanical interconnection with said grippers such as to cause pivotal movement of said grippers into engagement with one of the grooves of said drive shaft when moved to said upper position; and  (d) resilient means (44) arranged to exert an upwardly directed force on said slide means tending to engage said grippers into said shaft;  (e) wherein said slide means is so dimensioned with respect to said base member as to be held by said sleeve at a position sufficiently remote from said upper position for maintaining the grippers out of engagement whatever the temperature prevailing in the reactor and consequently whatever the variations of relative position of the sleeve and the upper internals due to differential thermal expansion. 2. The device of claim 8, wherein said resilient means comprise three springs compressed between the base member and the slide means, distributed about the axis. 3. The device of claim 2, wherein said springs are circumferentially distributed about said axis and alternating with said grippers. 4. The device of claim 8, wherein each of said grippers is in the form of a bell crank lever having one arm formed with at least one latching tooth and another arm having a terminal ball emprisoned in the slide means. 5. The device of claim 8, wherein each of said sleeves is provided with a tulip shaped end piece arranged for engaging said slide means and which constitutes heat protection means.