FR2507809A1 - Safety device for control rod in nuclear reactor - where rod is pushed downwards in its sleeve if accident or earthquake occurs - Google Patents

Abstract

In the reactor roof is a stationary guide tube (a) contg. an electromagnet (b) employed for the suspension of a tube (c) which can move vertically in tube (a). Tube (c) has a piston located in a dash pot formed by tube (a); and on the bottom end of tube (c) is a second electromagnet (d) employed to suspend a control rod in a sleeve. If, in the event of an accident, it becomes necessary to allow the control rod to fall, magnet (b) is also released. The result is that tube (c) also falls, its wt. ensuring that the control rod drops even if there is friction between the control rod and its sleeve. Increased reliability is provided ensuring that the control rod drops even if its sleeve is distorted when an accident, e.g. an earthquake, occurs.

Description

 The present invention relates to a safety and position control device for a nuclear reactor control rod.

 A number of such devices have been proposed to date. For example, the French patent nQ 1 348 981 describes a device constituted by a vertically movable tube thanks to a rack and pinion system located at its upper part while its lower part comprises an electromagnetic gripper for gripping a bar of This grapple is equipped with a series of fingers constituting pole pieces surrounding the head of the control bar. I1 further comprises, along its central part, a rod held in the high position by a second electromagnet: when the latter is supplied with current, the rod comes to the high position, which has the effect of compressing a spring based on the one hand on a plug screwed into the carcass of the grapple and on the other hand on a piston integral with the rod. When it is desired to abruptly release the control bar, in particular in the event of an emergency, the supply current is cut off to the two electromagnets fitted to the grapple. Under the action of the spring, the rod strikes the head of the control bar and thus promotes separation of the. te te with the electromagnetic grab.

 The object of the present invention is to improve these devices, making it possible, in particular, to drive the control bar even more reliably and more effectively into its sleeve in the event of its deformation, for example following an earthquake.

 According to the main characteristic of the device which is the subject of the invention, this device, which can be used in particular in fast neutron reactors and cooled by circulation of a liquid metal, the control bar comprising a bar body sliding in a sheath and finished at its upper end by a gripping head which can cooperate with an electromagnet mounted at the lower end of a translation tube capable of sliding inside a fixed guide tube, provided with a dash-pot hydraulic, is characterized in that the translation tube comprises at its upper part a connection piece made of a magnetic material which cooperates with an electromagnet fixed to the control mechanism of the translation tube, capable of producing a disconnectable connection, so that the travel tube can fall by gravity at the same time as the control bar when cutting the supply current to the electromagnets, helping by its weight, in case of fr ottement of the bar in its sheath, at the depression of the control bar.

Other characteristics and advantages of the invention will emerge from the description which follows, given purely by way of illustration and in no way limiting, with reference to the appended drawings, in which
FIG. 1 is a schematic view in vertical section of the entire device which is the subject of the invention, and
- Figure 2 is an enlarged view, schematic and in section, of the upper part of the device object of the invention.

 Referring to FIG. 1, it can be seen that the device is placed inside a nuclear reactor vessel containing a mass of liquid sodium, a part of this device being located inside a plug 22 of the slab which closes the tank at its upper part. This device essentially comprises a translation tube 2 movable vertically inside a fixed guide tube 4. The tube 2 carries at its lower end an electromagnet 6 capable of ensuring the gripping of the control bar 10: this is in the form of a bar body 9 terminated at its upper part by a bar head 8 which can come into contact with the electromagnet 6. In a known manner, the guide tube 4 ends at its lower part by a hydraulic dash-pot 12 intended to absorb the fall of the tube 2. The dash-pot 12 is in the form of a cylinder with a diameter greater than that of the tube-4 comprising a number of holes and ending with a bearing 16. The tube 2 comprises a piston 18, located inside 11 of the dash-pot 12, this piston having the role of driving the liquid sodium contained in the dash-pot through the holes 14, thus braking the drop from the tube 2. The position of the dash-pot 12 is provided sufficiently low that it i always remains inside the mass of liquid sodium, even in the event of an accidental drop in its level. It can also be seen that the tube 2 ends at its upper part with an enlarged part 24 which cooperates with an electromagnet 26.

 The connection between the upper part 24 of the tube 2 and the electromagnet 26, as well as the system for operating this assembly, will now be described in more detail with reference to FIG. 2. In this figure, it can be seen that the enlarged part 24 of the tube 2 is integral with a part 27, made of a magnetic material and held against the lower part of the electromagnet 26 when the latter is supplied by means of the wires 28. At its upper part, the carcass 30 of the electromagnet 26 is made integral with a part 32 forming a nut. The nut 32 is fixed by means of the screws 34 to the carcass 30 of the electromagnet immobilized in rotation by the columns 46.

The nut 32 is traversed in its center by a screw 36 which is in the form of a threaded rod free to rotate, but locked in translation under the effect of a bearing 37 disposed inside a plug 47 which closes the upper part of the guide tube 4. The upper part 38 of this screw 36 engages in the hollow end of the shaft of an electric motor 40 which can be located outside or inside of the plug 22. This motor, which therefore ensures the rotational movements of the screw 36, rests on the plate 42 which is in sealed contact with a flange 44 terminating the guide tube 4 (FIG. 1). The combination of the movements of the screw 36 and the nut 32, using the geared motor 40, controls the vertical displacement of the electromagnet 26 and therefore of the tube 2 which is linked to it. by vertical columns 46 (FIG. 2): the lower part of these is kept fixed while their upper part passes through a plug 47 and ends in a threaded part 48 on which is screwed a nut 49 which has the effect of press a set of washers 50 on the upper face of the plug 47, thus ensuring elastic tightening in the event that it is desired that the columns be mounted tensioned.

 Another variant (not shown) of vertical guide of the electromagnet 26 can be obtained by means of rollers, integral with the latter and sliding in vertical rails fixed to the plug 47.

 In normal operation, the electromagnet 26 is permanently supplied with the aid of the wires 28 and remains integral with the translation tube 2.

 When it is desired to suddenly release the control rod 10, for example in the event of an anomaly in the operation of the reactor, the supply current of the lower electromagnet 6 is cut off and the bar falls into the sheath 11 under the effect of its own weight. As this movement can be slowed down by an accidental deformation of the sheath II, for example following an earthquake, the control bar is pushed, using the device object of the invention, by simultaneously cutting the supply current to the electromagnet 26. The tube 2 being suckled more securely, falls by gravity and pushes the bar 10 inside the sheath 11. This thus ensures complete depression of the bar, even in the event of accidental deformation of the sheath 11.

 The device according to the invention has particularly advantageous advantages since it allows safe and effective insertion of the bar into its sheath even in the event of deformation thereof.

During the emergency stop, only the tube 2 falls and it does not cause additional organs which could hinder its fall. In addition, the simultaneous cut-off of the two electromagnets further limits operational reliability: thus, in the event of non-separation of the electromagnet 6 with the bar head, the control bar-travel tube assembly , separated from the control mechanism at the level of the electromagnet 26, can fall into the reactor core. Finally, the arrangement of the mechanism inside the plug 22 effectively protects it against possible shocks.

 It is understood that the invention is not limited to the single embodiment which has just been described, but that variants can be envisaged without departing from the scope of the invention. For example, the mechanism for controlling the position of the electromagnet 26 by screw and nut can be replaced by any other mechanism, in particular a rack and pinion device.

Claims (5)

CLAIM}  1. Safety and position control device for a nuclear reactor control rod, the control rod (10) comprising a rod body (9) sliding in a sleeve (11) and terminated at its upper end by a bar (8) capable of cooperating with an electromagnet (6) mounted at the lower end of a translation tube (2) capable of sliding inside a fixed guide tube (4) provided with a hydraulic dash pot (12), characterized in that the translation tube (2) has at its upper part a connection piece (27) made of a magnetic material which cooperates with an electromagnet (26) fixed to the mechanism control of the translation tube and capable of producing a disconnectable connection, so that the translation tube can fall by gravity at the same time as the control bar when the supply current of the two electromagnets is cut off (6, 26) , helping by its weight, in the event of friction of the bar in its sheath, to the child ness of it.  2. Device according to claim 1, characterized in that the mechanism for controlling the vertical displacement of the electromagnet (6) comprises a pinion and rack assembly determining the axial movement of the translation tube (2) suspended from the electromagnet (6).  3. Device according to claim 1, characterized in that the mechanism for controlling the vertical displacement of the electromagnet (26) comprises a nut (32) locked in rotation cooperating with a screw (36) immobilized in translation, the screw-nut assembly which can thus control the axial movement of the translation tube (2) suspended from the electromagnet (6).  4. Device according to claim 3, characterized in that the assembly constituted by the nut (32) and the electromagnet (26) is blocked in rotation by vertical columns (46) fixed inside the tube -guide (4).  5. Device according to claim 3, characterized in that the assembly constituted by the nut (32) and the electromagnet (26) is blocked in rotation by means of rollers guided by vertical rails fixed inside of the guide tube (4).