CS196703B1 - A disintegrator, in particular for destroying the reacted radioactive material - Google Patents

Abstract

The invention provides a disintegrator for the destruction of reacted radioactive material. The disintegrator is intended for the terminal of uranium ore maturation reactors.

Description

The invention provides a disintegrator for disrupting the reacted radioactive material. The disintegrator is designed for the ending of the maturing reactors of uranium ores.

Until now, technological conditions for processing radioactive materials have not required crushing of sintered or otherwise homogenized reacted material to a specified grain size. The change of some conditions of the technological process of radioactive material processing brings with it the requirement to keep the specified grain size of the reacted material. The largest dimension of the individual particles of the material should not be more than twenty millimeters.

Various types of active crushers, for example cylindrical, jaw and passive devices, for example fixed grates, through which the reacted material was to flow, were used to test the required grain size of the reacted material leaving the reactor.

The disadvantage of all these tested devices is that they do not ensure a uniform and continuous flow of the reacted material from the reactor while maintaining the required grain size. A further disadvantage is that the disruption of the homogenised material and cakes is imperfect in these devices, and these devices do not counteract the formation of vaults. A significant disadvantage of these devices is their size, which adversely affects both the path of the reacted material and the height of the entire uranium ore maturation reactor.

These disadvantages are largely eliminated by the disintegrator according to the invention. It consists of a horizontal shaft rotatably mounted on the outer walls of the conical terminal and disintegrating members coaxial with the shaft mounted at their ends in support rings mounted on the shaft, the disintegrating members being part of a spherical surface. In the interior space defined by the disintegrating members, a transverse support plate, to the edge of which the disintegrating members are fixed with their inner surfaces, may be provided with an opening having a larger diameter than the shaft diameter in the center of the support plate. An improvement of the invention consists in that the disintegrating members are provided with disintegrating nails on their outer surfaces. The carrier rings together with the disintegrating members can be mutually releasably connected.

The disintegrator according to the invention is, in particular, simpler, easy to dismantle and easily accessible during assembly in comparison with the devices used up to now. The spatial design of the crushing elements allows for a uniform passage of the reacted material while perfectly disintegrating the homogenised material. The required grain size is guaranteed, while the nails on the disintegrating members actively act on the homogenized material and thus prevent the formation of arches. The design and dimensions of the disintegrator favorably influence the length of the reacted material path and the height of the bearing of the large maturing reactor. By positioning the bearings and the pivot bearing outside the disintegrator, they are protected against aggressive environmental conditions, easy holding and sufficient service life.

The attached drawing shows schematically an embodiment of a disintegrator according to the invention.

Supporting flanges 21 are provided on the walls of the conical terminal 20. Supporting flanges 21 accommodate sliding houses 22 in which they are provided, on the shaft 10 of the gasket 11 and the bearing 12. The bearing 12 is secured by a cover 24a, b, which is screws 23 a grease nip 25 is provided in the cover 24a, b. The shaft 10 is supported by bearings 12 in the sliding houses 22, one end of the shaft 10 passing through an opening in the cover 24a to drive. The central part of the shaft 10 that passes through the conical end piece 20 is of square cross section. Supporting rings are mounted on this part of the shaft. 40, in which the disintegrating members 30 are fastened at their ends. In the interior space defined by the disintegrating members 30, there is a support plate 50, to the edge of which the disintegrating members 30 are fastened by their internal surfaces. In the center of the support plate 50, an opening 51 with a diameter greater than the diameter of the shaft 10 is provided. The disintegrating members 30 are provided with disintegrating nails 31 on their outer surfaces. Fastening feet 26 for fastening the disintegrator to the support structure of the uranium ore aging reactor are mounted on the support flange 21.

The radioactive material of varying grain size reacted from the uranium ore maturation reactor to the conical tip 20. By rotating the shaft 10 with the disintegrating members 30, the material is uniformly dosed to the discharge mouth of the conical tip 20. The disintegrating members 30 together with the disintegrating nails 31 disintegrate the desired grain size. The material is dosed so that it passes both on the periphery of the conical tip 20 and on the other hand passes between the actual disintegrating members 30.

The disintegrator according to the invention is particularly suitable for disrupting the reacted radioactive material emerging from the uranium ore maturation reactors. Furthermore, it can be used wherever it is necessary to ensure a uniform flow of powdered, granular or similar materials with a certain grain size, especially for fertilizers, grains, sand, gravel, etc.

Claims (4)

1. A disintegrator, in particular for disrupting reacted radioactive material, in particular for the uranium ore maturation end, characterized by a horizontal shaft (10) rotatably mounted on the outer walls of the conical tip (20) and disintegrating members (30) coaxial with the shaft. (10) retained at their ends in support rings (40) mounted on the shaft (10), the disintegrating members (30) being part of a spherical surface. A disintegrator according to claim 1, characterized in that in the interior space defined by the disintegrating members (30) there is at least one transverse support plate (50) to the edge of which the disintegrating members (30) are fixed with their inner surfaces while in the center of the support plate. (50), a bore (51) having a diameter greater than the diameter of the shaft (10) is provided. The disintegrator according to claim 1, characterized in that the disintegrating members (30) are provided with disintegrating nails (31) on their outer surfaces. 4. The disintegrator according to claim 1, characterized in that the carrier rings (40) together with the disintegrating members (30) are permanently connected to one another.