RU180083U1 - CONTAINER LOADING BOXES OF MIXED NUCLEAR FUEL COMPONENTS - Google Patents

Abstract

The utility model relates to nuclear engineering, in particular, to means for producing homogeneous nuclear fuel from a mixture of uranium and plutonium dioxide. The container loading box contains a housing with an adapter installed in its lid and a container equipped with a crane and mounted in the box with the possibility of vertical movement of the drive. The adapter pipe is installed inside the flange and connected to it through two rings, between which a bellows is mounted for welding. A sleeve is mounted to the lower side of the bellows, mounted on the pipe with the ability to move along it. A seal is installed on the lower end of the sleeve, provided with a spherical surface that interacts with the tapered chamfer of the upper flange of the crane. The technical result that can be obtained by implementing the utility model is to eliminate the effect of elevated temperatures on the seal and increase the specific pressure on the seal.

Description

The utility model relates to nuclear engineering, in particular, to means for producing homogeneous nuclear fuel from a mixture of uranium and plutonium dioxides.

In the manufacture of tablets with MOX fuel for the operation of mixing uranium and plutonium dioxide at the Federal State Unitary Enterprise Mining and Chemical Combine, a vortex grinding unit was used, designed according to project A.48.156.000 developed by OJSC SverdNIIkhimmash, Yekaterinburg. The known installation contains boxes for loading components into containers, weighing boxes, an automatic vortex mixer, a cooling box, a box for unloading powder from a container, combined into a looped conveyor line, with automatic control. Between the boxes, conveyors are installed to transfer containers from one box to the next box.

The loading box is a case closed on both sides by a lid and a window, and the box joins the other boxes through conveyors with the other two sides. In the lower part of the box there is a drive and a cross connected to it, on the racks of which a container is installed. An adapter is installed in the opening of the box lid, consisting of a flange attached to the lid and a pipe connected to it for welding, connected to the powder dispenser. The flange is equipped with a conical hole expanding into the box.

The container is a cylindrical vessel with needles loaded into it, made of ferromagnetic steel, in the upper part of which a ball valve is installed.

The ball valve is a housing closed on both sides by flanges. A ball with a cylindrical hole is installed inside on the half shafts inside the o-rings. An inlet is provided on the upper flange of the ball valve, provided with a conical chamfer, and an annular groove in which a fluoro rubber sealant is installed. The ball valve is equipped with a mechanism for opening and closing it, consisting of a gear mounted on one of the axle shafts, which engages with a gear rack, and stops installed inside the loading box. The upper and lower stops interact with the gear rack of the ball valve when raising and lowering the container and ensure that the ball valve opens when the container moves up, and closes when it moves down.

Boxing boot works as follows.

Using the drive, the crosspiece with the container rises up. In this case, a seal is pressed to the box lid mounted on the upper flange of the container ball valve. When the container is lifted by the opening-closing mechanism, the crane is moved to the open position. From the batcher through the adapter through an open ball valve a portion of the powder is poured into the container. After loading, the drive reverse is turned on, and the crosspiece with the container returns to its original position, while the opening and closing mechanism of the ball valve is translated into the closed position.

The disadvantages of the known loading box is that the fluororubber sealant is mounted on the upper flange of the container ball valve. Due to the fact that the container with the mixture of powders sprinkled into it is then fed to grinding and homogenizing the mixture according to RF patent No. 2 122 247, G21C 21/00 into an automatic vortex mixer with a rotating electromagnetic field, in which the mixture of powders is ground and homogenized by the rotation of ferromagnetic needles, the container warms up from eddy currents and friction of the powder and needles on the walls of the container up to the formation of discoloration colors on the walls of the titanium glass of the container.

The increased temperature leads to the destruction of the fluororubber sealant installed on the upper flange of the ball valve and the loss of its elastic properties, which contributes to the loss of tightness of the seal-box cover connection. When the powder spills from the adapter into the container, the air displaced by the powder from the container carries powder with it in the form of dust, which through the leaky connection “sealant - box cover” enters the loading box, contaminating it and the outer surfaces of the container. The decontamination of containers and the box from contamination with plutonium dioxide takes a long time, leads to simple installation and increased radiation exposure to personnel.

In addition, the conical hole in the upper flange of the crane, expanding into the box, should be located only inside the seal, which increases the diameter and area of the seal. When the container is pressed by the drive, an increase in the area of the sealant reduces the specific pressure on the sealant and contributes to the loss of tightness in the seal-box cover connection.

The well-known loading box is accepted by the applicant as a prototype.

The problem to which the utility model is directed is to reduce the radioactive contamination of the inner surfaces of the loading box and the outer surfaces of the container.

The technical result that can be obtained by implementing the utility model is to eliminate the effect of elevated temperatures on the sealant and increase the specific pressure on the sealant.

To achieve the specified technical result in a well-known loading box containing a housing, an adapter installed in its cover, consisting of a flange and a nozzle connected to each other for welding, a container installed in the box with the possibility of vertical movement by a drive and equipped with a crane, and a seal, an adapter nozzle is installed inside the flange and connected to it through two rings, between which a bellows is mounted for welding.

A sleeve is mounted to the lower side of the bellows, mounted on the pipe with a gap and the ability to move along it.

The sealant is mounted on the lower end of the sleeve and is configured to interact with the mating surface of the crane.

In the particular case of execution, the seal is provided with a spherical surface, made with the possibility of its interaction with the mating surface of the conical chamfer of the upper flange of the crane.

In another particular case of execution, a groove is made in the sleeve, in which a cuff is installed between the sleeve and the pipe.

In another particular case, the seal is made of fluoroplastic.

The installation of the adapter pipe inside the flange allows you to reduce the diameter and area of the seal and, thereby, increase the specific pressure of the seal on the mating surface of the crane when the drive compresses the container.

The connection of the nozzle with the flange through two rings between which the bellows is mounted for welding, the connection of the sleeve to the lower side of the bellows of the sleeve mounted on the nozzle with a gap and the ability to move along it, made it possible to use the bellows at the same time as a sealing and elastic element, creating due to the rigidity of the bellows force to tighten the container to the seal. In addition, attaching the sleeve to the lower side of the bellows bellows and installing them on the nozzle with a clearance allows limiting the bellows bends when the container is displaced from the central axis.

The installation of the seal on the lower end of the sleeve with the possibility of interaction with the mating surface of the crane allowed the seal to be placed in the loading box with a temperature of 25-30 ° C and, thereby, eliminate the effect of elevated temperatures on it.

The implementation of the sealing ring with a spherical surface with the possibility of its interaction with the mating surface of the conical facet of the upper flange of the crane allowed us to obtain the widely used ball-cone connection. The interaction of the spherical surface with a conical chamfer takes place along the line and has a small contact area, which contributes to an increase in the specific pressure of the sealant on the upper flange of the valve, increases the tightness of their joints and makes it possible to manufacture a sealant from fluoroplastic.

Performing a groove in the sleeve, in which a cuff is installed between the sleeve and the nozzle, helps prevent dust from entering the powder inside the bellows.

The performance of the sealant from fluoroplastic allows you to increase its service life and improve decontamination conditions.

The proposed loading box is illustrated in the drawings shown in FIG. 1 and FIG. 2.

In FIG. 1 shows a loading box and a container in a starting position;

in FIG. 2 - loading box with a container preloaded to the adapter.

The loading box (see Fig. 1) consists of a housing 1, in the cover 2 of which an adapter 3 is mounted and a container 4 with a crane 5. The adapter 3 consists of a nozzle 6, to which the ring 7 is attached for welding, and a flange 8, to which screws 9 is attached to the ring 10. The adapter 3 is placed inside the flange 8 and the cover 2. Between the rings 7 and 10 a bellows 11 is mounted for welding, to the lower side 12 of which a sleeve 13 is connected for welding. The sleeve 13 is installed with a gap on the pipe 6 and provided with a groove 14, in which the sleeve 15 is installed. A sealant is installed on the lower end of the sleeve 13 ring 16 with a spherical sealing surface 17. The valve 5 of the container 4 is provided with an upper flange 18 with a tapered bevel 19. The nozzle 6 is connected to a powder dispenser (not shown in the drawings).

The proposed box load 1 works as follows.

The container 4 with the drive (not shown) rises up. When lifting (see Fig. 2), the upper flange 18 of the valve 5 with its tapered bevel 19 runs onto the spherical sealing surface 17 of the sealing ring 16 and, moving further, raises the sleeve 13, compressing the bellows 11. Due to the rigidity of the bellows 11, a seal is achieved between the tapered bevel 19 and a spherical sealing surface 17. At the same time, when the container 4 is lifted by the opening-closing mechanism (not shown in the drawing), the crane 5 is moved to the open position. From the batcher through the adapter 3 through an open valve 5, a portion of the powder is poured into the container 4. After loading, the drive reverse is turned on, and the container 4 returns to its original position, while the movement of the opening and closing mechanism, the valve 5 closes.

Claims (4)

1. A box for loading a container with components of mixed nuclear fuel, comprising a housing, an adapter installed in its cover, consisting of a flange and a nozzle interconnected, a container mounted in the box with the possibility of vertical movement by a drive and equipped with a crane, and a sealant, characterized in that the nozzle the adapter is installed inside the flange and connected to it through two rings, between which a bellows is mounted for welding, to the lower side of which a sleeve is mounted, mounted on the pipe with a clearance and zhnosti movement therealong, and is set to seal the lower end of the sleeve for engagement with the mating surface of the crane. 2. Boxing according to claim 1, characterized in that the sealant is provided with a spherical surface configured to interact with the mating surface of the tapered chamfer of the upper flange of the crane. 3. Boxing according to claim 1, characterized in that a groove is made in the sleeve, in which a cuff is installed between the sleeve and the pipe. 4. Boxing according to claim 1, characterized in that the sealant is made of fluoroplastic.

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