DE2219951C3 - Device for preventing a spontaneous adjustment of the regulating element of a nuclear reactor - Google Patents

Description

Rod remains reliably prevented.

The invention is described below by the

The present invention relates to an exercise of an embodiment using the drawing device to prevent a spontaneous adjustment. It shows

development of the regulating member of a nuclear reactor when leaking Fig. 1 is a longitudinal section through the drive of the

a pressure-tight housing, dis a drive control element of a nuclear reactor,
for the vertical longitudinal movement of the regulating member F i g. 2 the detail A from FIG. 1.

supporting drive rod surrounds the device The drive of the control element of a nuclear reactor

a spring loaded on a support surface 40 consists of a pressure-tight housing 1, which comprises supporting piston with a central bore, which in an electric motor 2 via a speed reduction in an annular space in the lower part of the housing 3 and a rack pinion 4 a drive rod 5. the drive rod encloses the interior of the reactor on its underside with its lower end by means of a coupling member; stands and the control element 7 is suspended with 6, moves up and down,
The device for preventing spontaneous pressure loss in the housing is connected to the upward movement of the control element in the lower part of the: movement of the piston through conical guide surfaces in the housing 1, in which a chamber 8 with the lower part of the housing are pressed inwards conical surface is executed on the upper part. Grasp in and the connecting rod. A device of this chamber 8 is a protective tube 9, and of this type is known from the German Offenlegungsschrift 19 11 057 50, the annular space of the chamber 11 formed thereby. a piston 10 is housed. The piston 10 is through

In the known design, the Wedge Rings 11 are sealed and with the help of a spring 12 on elements in the form of pawls which are pressed onto a support surface 13 in which channels 14 circumferential teeth of the drive rod are provided together, which the chamber 8 with the interior work. The disadvantage here is that 55 connect the reactor at bends.

the driving rod or not exactly centric assembly The upper part of the piston 10 is accordingly deir

the same, as they are already conical by manufacturing inaccuracies conical surface 15 of the upper part of the chamber 8 th or later by thermal or mechanical tapered and has radial grooves 17 in the see loads are possible, the pawls with the balls 16 are inserted.

Toothing of the drive rod in permissible contact 60 The gap between the protective tube 9 and the This can lead to an undesired wedging of the connecting rod 5 in the chamber 8 by a washer 18 the connecting rod would lead. sealed.

In addition, the drive rod must be toothed under normal operating conditions of the drive

must and a smooth drive rod, which is supported by the piston 10 in normal operation would be preferable not to be used. This 65 F. under the action of gravity and the tension of the results from the fact that because of the spring 12 between the guide surface on the support surface 13 from. Will the print density Chen, wedging elements and driving rod acting. Housing 1 above the rings 1 I leaking, so forms Frictional forces of the cone angle of the guide surfaces do not create a pressure difference of the heat transfer medium between the

'• f

Space below and above the piston in chamber 8.

Under the action of so entstandenem pressure difference of the Wärnieträger pushes the piston OBEA During the upward movement of the piston 10, the balls 16 come up with the conical surface IS in contact, are thereby forced inwardly and capture the surface of the drive rod 5, whereby the movement of which prevents upward will.

As soon as the leak in the pressure-tight housing 1 is eliminated, the electric motor 2 moves through the Reduction gear 3 and the Zahnstangenritzei 4, the drive rod 5 in the starting position, so that the Normal operation of the control element drive can be continued.

1 sheet of drawings

Claims (1)

can be made flat as desired, otherwise the Patent application · There would be a risk of blocking. With larger ^v 'cone angle but would not locking forces Device for preventing a spontaneous sufficient if the mentioned toothing adjustment of the control member of a nuclear reactor was not provided at 5 of the drive rod.
Leaking of a pressure-tight housing, the object of the present invention is therefore a drive for the vertical longitudinal movement of a device of the type presupposed driving rod carrying the regulating member, to be designed in such a way that, with great simplicity, the device can be releasably releasably releasably releasable again with a piston which is under spring loader construction to lock the driving rod on a support surface and comprises an undesired central bore which is reliably prevented in an annular wedging of the drive rod
Space in the lower part of the housing encloses the drive rod, based on the design described above, which is connected to the manure on its underside to solve this problem according to the invention reactor interior and which is proposed that the wedging elements are balls, wedge elements allied *, which at one at 15, each of which is located in a radial bore of the piston in pressure loss in the housing upward part, which is conical inwardly according to the movement of the piston by conical guide surfaces, the conicity of the guide surfaces of the housing in the lower part of the housing and that a the drive rod are pressed inside and grasp the drive rod, surrounding the central bore of the piston, on the dadurchgekakter.daßdie wedge 20 housing attached protective tube is provided, which elements are balls (16), each of which is in a contact between in the rest position of the piston Radial bore (17) of the piston (10) in which the balls and the connecting rod prevent
upper part sits, which is conical according to the per se from US-PS 33 64 120 the use Conicity of the guide surfaces (15) of the housing (1) of balls known as wedging elements. This is formed and that the drive rod (S) 25 known training is of a different type, within the central bore of the piston (10) by wedging the drive rod only with surrounding, attached to the housing th protective tube (9) whose upward movement is possible . In the present case, which in the rest position of the piston lowing invention, it is a matter of preventing contact between the balls (16) and the movement of the rod upward in the sense of the drive rod (5) if necessary. ^{However, 1} ^ o wedging works in normal reactor operation a wedging during an upward movement of the