RU197317U1 - Device for sealing horizontal experimental channels of a research nuclear reactor - Google Patents

Abstract

The utility model relates to technical means for stopping the flow from pipes and can be used to seal horizontal experimental channels (HES) of a research nuclear reactor (INR). The device for sealing the HEC INR contains a rod with a shaft inside and a shaft rotation drive and a seal assembly, which is made of three steel bushings, two of which form a screw-nut threaded connection, while the sleeve-nut is connected to the shaft and A groove is made in its outer surface, into which a ring of material is installed with a coefficient of friction less than that of the steel sleeve — a “screw”, and the third sleeve is fixedly connected to the rod and ring to form a gap between its inner surface and the outer surface the sleeve is a “nut”, and between the sleeve - “screw” and the third sleeve there is a sealing ring made of radiation-resistant material with contact with the surfaces of the bushings. The device is additionally equipped with a second sealing ring. Moreover, a washer with a hole is installed between the sealing rings. The utility model makes it possible to limit the leakage of the channel in case of its depressurization and integrity control of the sealing ring and channel. 2 ill.

Description

The utility model relates to technical means for stopping the flow from pipes and can be used to seal horizontal experimental (HES) channels of a research nuclear reactor (INR).

The closest set of essential features to the claimed utility model is a device for sealing an HEC INR, comprising a rod with a shaft inside and a shaft rotation drive and a seal assembly, which is made of three steel bushings, two of which form a screw-nut threaded connection, this sleeve - the "nut" is connected to the shaft and a groove is made on its outer surface, in which a ring of material with a coefficient of friction less than that of the steel sleeve - a "screw" is installed, and the third sleeve is fixedly connected with the rod and the ring to form a gap between its inner surface and the outer surface of the sleeve "nut", wherein between the sleeve "screw" and a third sleeve sealing ring from a radiation resistant material to ensure contact with the surfaces of the bushings. (RU169663, G21C 19/00, 03/28/2017).

A disadvantage of the known technical solution is the lack of integrity control of the sealing ring and channel, as a result of which there is a leakage of radiation coolant, which significantly reduces the radiation and nuclear safety of the reactor.

The objective of this utility model is to increase the reliability and safety of a nuclear reactor.

The technical result is to limit the leakage of the channel in case of its depressurization and integrity control of the sealing ring and channel.

The specified technical result is achieved by the fact that the device for sealing the HEC INR, comprising a rod with a shaft inside and a shaft rotation drive and a seal assembly, which is made of three steel bushings, two of which form a screw-nut threaded connection, wherein the sleeve is “ nut "is connected to the shaft and a groove is made on its outer surface, into which a ring of material is installed with a coefficient of friction less than that of the steel sleeve - a" screw ", and the third sleeve is fixedly connected to the rod and ring to form a gap and between its inner surface and the outer surface of the sleeve "nut", and between the sleeve - "screw" and the third sleeve is installed a sealing ring of radiation-resistant material to ensure contact with the surfaces of the bushings, the device is also equipped with a second sealing ring, and between the sealing rings a washer with a hole is installed.

The use of two o-rings in the device, one of which, the first, is made with a smaller outer diameter than the second, thereby forming a gap between the surface of the ring and the inner surface of the channel, through which there is a directed water flow to the leak detector, and also installed between the o-rings a movable washer, in which the hole is made, for the directional output of the flow, allows you to control the integrity of the HES and the first o-ring. The washer also provides an even distribution of force between the o-rings.

The essence of the utility model is illustrated by drawings, where in FIG. 1 shows a device for sealing an HEC INR (longitudinal section), FIG. 2 shows a seal assembly (longitudinal section).

The device for sealing the HEC INR consists of a seal assembly 1, a rod 2 with a flange 3 for fixing the device, a shaft 4 with a drive for rotating the shaft 4 and a set of protective rings 5 and protective blocks 6 located outside the rod 2 and inside the shaft 4, respectively.

The seal assembly 1 is made of a set of steel bushings 7, 8, 9, sealing rings 10 and 11, and a movable washer 12 between them. The bushings 7 and 8 form a threaded screw-nut pair. The sleeve - “nut” 8 is free from engagement with the sleeve — the “screw” 7 is connected to the shaft 4 by an end and an annular groove is made on its outer surface, into which a ring 13 is made, made of a material with a friction coefficient less than the friction coefficient of steel bushings - “screw”, for example, bronze. A sleeve 9 is fixedly connected to the ring 13 at one end, facing the other end towards the sleeve 7. At the same time, a gap is formed between the inner surface of the sleeve 9 and the outer surface of the sleeve 8. O-rings 10 and 11 are located between the end surfaces of the bushings 7 and 9 facing each other, between which a movable washer 12 is installed.

For operability in aggressive conditions, the o-rings 10 and 11 are made of radiation-resistant material, for example, radiation-resistant rubber or graphite material “Grafleke”.

In addition to one fixed connection with the ring 13, the sleeve 9 has a second fixed connection with the rod 2, which can be implemented in various ways, for example, due to the intermediate element between them - the adapter sleeve 14.

The space in the exit room of the HES may be limited, while the need to install the seal assembly 1 deep inside the HES is not ruled out. To this end, the rod 2 and the shaft 4 can be made integral.

To reduce the ionizing radiation passing from the active zone through the HES sealing device, the seal assembly 1 is made with radial dimensions as close as possible to the channel dimensions, and the rod 2 and shaft 4 with variable diameters. Outside the rod 2 and inside the shaft 4 there are protective rings 5 and blocks 6 made, for example, of steel, reinforced concrete or polyethylene.

When mounting in the channel of a large-sized seal assembly 1, a skew is possible, which will complicate its movement along the channel. To avoid skewing, rollers 15 are installed on the seal assembly 1.

After installing the device, the flange 3 of the rod 2 is fixed on a fixed surface, for example, is attached by anchors to the surface of the gate.

The device can operate in two modes as follows. 1) In the case of sealing a HES with a detected violation of its integrity, the device ensures a tight contact of the seal assembly 1 with the surface of the HES.

The assembled device is raised, for example, on a trolley to the level of the HES. Then the device begins to move to the desired channel depth. Having reached a predetermined point inside the channel, the device is fixed in the exit room of the HES, for example, to the gate surface. In this case, the protective rings 5 can be installed both before installation and during installation of the device in the channel.

By means of a drive, the shaft 4 starts to rotate, as a result of which the rotational movement from the shaft 4 is transmitted to the sleeve - “nut” 8, which is screwed onto it by screw connection to the sleeve 7, bringing the sleeve “screw” 7 closer to the sleeve 9, squeezing thus, the sealing rings 10 and 11. Thus, the rings 10 and 11 are deformed in the radial direction until the channel is completely sealed.

In case of failure of the sealing ring 10, the medium enters the hole made in the washer 12, and moving along the internal cavity of the sealing assembly 1 and in the gaps between the shaft 4 and the protective blocks 6, or in the grooves of the protective blocks 6, enters the leak detector of the leakage control system and further to the HES leakage collection system.

2) In the case of sealing a hydroelectric power station, the integrity of which is not violated, the device performs the function of a “leak limiter” to exclude beyond design basis accident when the hydroelectric power station breaks and the function of monitoring the hydroelectric power station for leakage.

The assembled device is raised, for example, on a trolley to the level of the HES. Then the device begins to move to the desired channel depth. Having reached a predetermined point inside the channel, the device is fixed in the exit room of the HES.

The device is installed without tightening, while the o-ring 10 is selected to a nominal size so as to form a gap that ensures that leakage enters the hole in the washer 12 and further into the HEC leakage collection system. O-ring 12 is installed without a gap, but in the absence of a tightening, it ensures the communication of the gas cavity of the HES with the ventilation system.

When a leak is detected, tightening is performed - by rotating the shaft 4, the sealing rings 10 and 11 are tightened, or the leakage removal pipe is blocked by fittings to minimize leakage. After confirming the fact of the leak, the seal assembly 1 is tightened with the necessary effort and a decision is made on the need for additional measures for working with the HES.

Claims (1)

A device for sealing horizontal experimental channels of a research nuclear reactor, comprising a rod with a shaft inside and a shaft rotation drive and a seal assembly, which is made of three steel bushings, two of which form a screw-nut threaded connection, while the nut-nut sleeve is connected a groove is made with the shaft and on its outer surface, into which a ring of material is installed with a coefficient of friction less than that of the steel sleeve — a “screw”, and the third sleeve is fixedly connected to the rod and ring the formation of a gap between its inner surface and the outer surface of the sleeve is a "nut", and between the sleeve - "screw" and the third sleeve is installed a sealing ring of radiation-resistant material with contact with the surfaces of the bushings, characterized in that it is additionally equipped with a second sealing ring, a washer with a hole is installed between the o-rings.

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