CS233370B1 - Safeguard mechanism of the closure in quick-acting by-passing apparatus - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fastener shut-off mechanism for a fast-acting overflow device, used in particular in a steam generator emergency protection system in a sodium-cooled fast reactor nuclear power plant.

Its task is to immediately close the coolant flow in the inlet and outlet pipelines while simultaneously and synchronously opening the coolant outlet and its reaction products with water and steam to the drain line.

To date, pressure relief devices are known, such as self-rupture diaphragms supplemented with shut-off valves on the main inlet and outlet pipes to separate the steam generator from the other circuit. The improved system of emergency steam generator protection is represented by special quick-acting devices, where only the valve-type shut-off function in various construction designs is addressed. With these solutions, there is a difficulty in sizing the shutter control, which excludes their use for greater clearance. In other known quick-release embodiments, the overflow function is also provided, i.e., shutting off the main sodium pipeline simultaneously and opening the inlet to the separation tanks, thereby relieving the pressure portion of the steam generator under pressure. For example, in the solution ref. Zoo 606 is on a common rod, controlled by a solenoid and spring, located a stopper of the sodium circuit and a cylindrical knife for punching the separating diaphragm, which releases the discharge throat to exit the reaction products into the separation tanks or waste pipes. The disadvantage of this solution is the difficult dimensioning of the shutter control, since when cutting the separating diaphragm the cylindrical knife must overcome both the resistance of the diaphragm and the diaphragm resistance.

233 370 i Pressure in, sodium or steam circuit · Still at risk. it does not mean that. due to high temperatures, the spring preload will relax after some time and thus the end cap function will be compromised or malfunctioned. In the case where the outlet cap and the separating wall of the overflow neck are supported on the rod. which is fitted with an elongated part of the rod, fixedly connected to the separating wall, provided with a stop at the end · There is a side opening in the extension, in which a semi-M stop is provided with a control servomotor · The disadvantage of this quick-action device is that it is designed smaller diameter diaphragms · When using large diameter diaphragm membranes, the existing enorrae size would increase in size and thus the afternoon, and taking into account the demanding authentic material used to manufacture both the body and the individual components of the interior set, these staitečnooti would be reflected production costs - and high product price ·

These disadvantages are eliminated in the paragraph ^of the ^{p y M} .ez ^which the locking mechanism of the closure rychločiirného bypass device used in particular in the system of the vermin-protecting steam generators in nuclear power plants with the fast reactor cooled by sodium assem- bly * camel compounding of the support plate on which the piercing knife is fixedly attached and on which lies the central part of the piercing diaphragm, which is clamped by its circumferential part between the upper body flange and the guide sleeve housed in the lower body flange, the core being provided with a radial recess, in which there are slidably mounted retaining stones which are provided with a bevelled face for engagement with a sloping surface formed on the inner wall of the lower body and a circular groove formed on the lower one. surface of the stones and is provided with a chamfer for engagement with the fuse mounted on the rod ·

Another object of the invention is that the stones are provided with a bore on their inner face for receiving the guide pin.

The last aspect of the invention is that the lower body is provided in its upper part with a shoulder in which the guide sleeve · ft * oti of the construction used up to now is obtained, according to the invention achieves a higher effect by solving the locking mechanism of the quick-release device. large diameter diaphragm diaphragms, while maintaining optimal construction dimensions and hmoonnoti

- 3,233,370 equipment, saving on austenitic material and manufacturing costs ·

An example of a specific embodiment of the invention is shown schematically in the drawing of the drawing, showing a partial longitudinal section through a certain mechanism of the fast-action transfer device closure.

The locking mechanism of the quick-acting transfer device closure according to the invention consists of a support plate 1 on whose upper shoulder 11 the cutter blade 4 is fixedly attached. 6, housed in the lower body shoulder 51. The central portion 31 of the shear 2 is mounted on the support plate. A radial recess 12 is provided in the support plate 1 in which the retaining blocks X are slidably mounted. Their rectilinear movement is ensured by guide pins 8 fixedly mounted in the face 13 of the radial recess 12 and loosely inserted into the bores 71 in the clear stones X · The locking stones X are supported by a bevelled surface 72 on an inclined surface 51 formed on the inner wall of the lower body 2 · In the lower surface 73 of the locking blocks χ, circular grooves 71 are formed, the inside of which is formed by a plurality of grooves The wall 75 is provided with a bevel 76. It is inserted into the annular groove 74. with its top edge. a cup-shaped fuse 2 firmly connected to the tie rod 10 on which the weight 14 strikes. This ensures the basic position of the locking blocks X, i.e., the closed flow to the separation tanks or to the drain pipe.

If water or steam penetration into sodium is detected during operation, an indicator system (not shown) will send an electrical pulse to the drawbar control device (not shown), thereby commanding the main refrigerant flow to be closed and the drain to drain. By releasing the weight 14 which strikes the rod 10, the necessary unlocking force is exerted on the rod 10. By moving the rod 10, which is firmly connected to the fuse 2, the fuse 2 is pulled out with its upper edge from a circular groove 74 formed in individual block stones X When the fuse 2 is pulled out, its inner diameter 91 of the upper edge presses the chamfer 76 formed on the inner wall 75 of the groove 74, thereby sliding the 2 locking stones X away from the surface 51 formed on the inner wall of the lower body 2 · 2.

-4-.

233 370 releases the support plate 1 and the locking stones and fall into the lower body. By releasing the support plate 1, the shear blade 2 acts on the diaphragm. And its effect is intensified by the internal pressure of the working fluid, which causes the shear diaphragm to be cut through and the coolant flow closure to be opened into the drain line. The movement of the weight 14 of the support plate 1 with retaining stones 6 is attenuated by the spring washers (not shown) located in the lower part of the lower body 2 °.

The present invention can be applied to all devices using mechanically cut safety membranes in nuclear power plants and in the chemical industry.

Claims (2)

The fastening mechanism of the fast-release device used, in particular in the emergency system of a steam generator in nuclear power plants by a fast-cooled sodium-cooled reactor, consisting of a support plate on which a cutting knife is firmly attached and on which lies the central part of the cutting membrane. which is clamped by its peripheral part between the upper body flange and the guide sleeve housed in the lower body flange, characterized in that the support plate (1) is provided with a radial recess (12) in which the retaining stones (7) are slidably mounted; They are provided on the one hand with a bevelled face (72) for engaging the inclined. a surface (51) formed on the inner wall of the lower body (5), and on the one hand a circular groove (74) which is formed on the bottom surface (75) of the stones (7) and is provided with a chamfer (76) on the rod (10). (7) They are provided with a bore (71) on their inner face for receiving the guide pin (8) « 5. The fastening mechanism of the quick release device according to claim 4, characterized in that the lower body (5) is supported in its upper part by a shoulder (52) in which the guide sleeve (6) is received. 2 · The quick-action locking mechanism of the quick-action steering according to item 1, indicated. with ^ WŘESWny