CS257410B1 - Combined irradiation and transport container of sources of neutron neutrons - Google Patents

Abstract

The combined irradiation and transport container of radionuclide sources of radionuclide sources is intended for analytical applications. It consists of a cylindrical container through which an internal guide tube passes. The neutron source carrier is movably mounted in it, which is terminated on both sides by cylindrical shielding blocks made of a material with a high hydrogen content. A holding element for connecting an external guide element is placed on the front of the cylindrical container at the outlet of the internal guide tube. The container can be used especially for measurements in technological processes and in specialized operational laboratories.

Description

The invention solves a combined irradiation and transport container of fast neutron sources for the protection of operators in the use of fast neutron radionuclide sources primarily for analytical purposes.

The prior art solutions of analytical irradiation devices are based on the relocation of the neutron source itself from the irradiation to a non-operational position. Closing the hole in the shield _from which the neutron source is ejected is mechenically complex with the risk of failure. Similarly, the shielding of the power shift control elements is complicated.

These drawbacks are substantially limited by the combined irradiation and transport container of the fast neutron sources according to the invention, which consists in that the inner guide tube is guided coaxially through the center of the cylindrical vessel in the shield. On the outer surface of the inner guide tube, a shielding sleeve is located in its central part. Inside the inner guide tube there is movably mounted a neutron source carrier which is mechanically connected to the control rod at the rear end. On the rear wall of the cylindrical vessel, the mouth of the inner guide tube is covered by a stable lid. On the end face of the cylindrical vessel, at the outlet of the inner guide tube, a connecting element is provided for connecting the outer guide element provided with a stop.

By using the combined irradiation and transport container *, moving the neutron source from the irradiation position to the non-operational position while at the same time achieving sufficient protection for the operating personnel is achieved in a single operation by moving the carrier in a straight line. The only opposite operation is to move the neutron source from a safe position to a radiation position. Another advantage of this solution is its applicability even during manual movement of the carrier with the emitter by means of a rod passing through the inner guide tube of the container and the possibility of easy visual control of the position of the neutron source. For analy257410

[0006] Two work where a low proportion of slow neutrons in the spectrum is desirable is furthermore an advantage of the minimum amount of mass around the source of fast neutrons in the irradiation position.

The attached drawing shows sections through a combined irradiation and transport container and a neutron source carrier according to the invention. FIG. 1 is a cross-sectional view of the container and carrier of the neutron source, both in the transport (I) and radiation (II) positions. Fig. 2 is a cross-sectional view of the plane A-A;

The combined irradiation and transport container of the fast neutron sources consists of a cylindrical vessel 2 filled with a shield 2 of a material of high hydrogen content, for example paraffin, centered on the inner guide tube J at the center. a shielding sleeve 4 formed of a high density material, such as lead. Inside the inner guide tube 1, a carrier of a radionuclide neutron source 2 is movably mounted and is mechanically connected to the control rod 11 at the rear end. The carrier of the neutron source 2 is formed by two cylindrical shielding blocks 2 connected by a support element 6 to which the source is mechanically fixed. 2 neutrons. Between the neutron source 2 and the shielding blocks 2, shielding collars 8 of high density material are arranged on the carrier 2. Shielding blocks 2 are secured by the support element 6 · nuts 20. No back wall of the cylindrical container, the mouth J. inner sleeve J overlapped stable lid 14. On the front surface of the cylindrical vessel 2 ^{at the} orifice 3 ^θ inner sleeve positioned J junction element 11 for connecting the outer guide element 1.2, provided with a stop 22 · ^ ^ro transporting them to a connection element 22 instead of the outer guide member 12 mounted removable lid.

The combined irradiation and transport container according to the invention can be used in particular for rapid analysis of the composition of raw materials by neutron methods, in particular for the determination of the content of selected elements by photon registration from inelastic scattering of fast neutrons on atomic nuclei.

Claims (4)

Combined irradiation and transport container of fast neutron sources, consisting of a shielding cylindrical vessel filled with shielding material, characterized in that the center of the cylindrical vessel (1) is coaxially guided in the shielding (2) by an inner guide tube (3). a sheathing sleeve (4) is disposed in its central part, while a carrier (5) of the neutron source (7) is movably mounted inside the inner guide tube (3), mechanically connected to the control rod (13) at its rear end, (1) the mouth of the inner guide tube (3) is covered by a stable lid (14), while on the front surface of the cylindrical vessel (1) a connecting element ^- (11) is provided at the mouth of the inner guide tube (3) ), provided with a stop (15). Combined irradiation and transport container according to claim 1, characterized in that the support (5) of the source (7). The neutron consists of two cylindrical shielding blocks (9) connected by a support element (6) to which the neutron source (7) is mechanically fixed. Combined irradiation and transport container according to claim 2, characterized in that shielding collars (8) are arranged on the carrier (5) between the neutron source (7) and the shielding blocks (9). Combined irradiation and transport container according to Claims 1 to 3, characterized in that the shielding sleeve (4) and the shielding collars (8) are made of a high density material, for example lead, while the shielding (2) and the shielding blocks (9) ) are made of a material with a high hydrogen content, for example paraffin, polyethylene or water.