CS223597B1 - Head of the multisource of the radiation mainly gamma and x one - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multi-radiation head, in particular gamma and X radiation, at one end with a barrier provided with a through-hole for radiation output and a primary excitation radiation radiation located on its inner side and at the other end with a rotating body of an output radiation source holder. In current technical practice, the variable radiation sources used are designed to emit X radiation of several different energies or radiation of different radionuclides. The design does not allow to select the intensity of radiation emitted from the head. These circumstances complicate the production of variable radiation sources, especially when the identity of the property is required between the individual variable sources of the same type, or when the intensity of the individual, from the source, emits differentiated energy. Also, the use of existing variable radiation sources is not optimal, in particular, for example, by routinely measuring the content of a particular component in matrices by varying the radiation absorption with different energies, since it is not possible to compensate for the radiation absorption variations of different energy and species in the matrix by adjusting the intensity of the emitted radiation. The existing variable radiation sources also do not address the practical need for easy alternating radiation of gamma and X radiation. These disturbances are remarkably removed by the rault-radiation head, especially gamma and X radiation, according to the invention. It is based on the fact that the sources of the output radiation are on separate carriers, adjustable in the rotating body of the output radiation source holder. An advantage of the multi-radiation head according to the invention is the ease of manufacture, since the deviations of the properties in the heads and on the carriers of the stored radiation sources can be easily compensated by changing the geometry of the system "primary excitation source - source of radiation"

Description

BACKGROUND OF THE INVENTION The present invention relates to a multisource head, in particular gamma and X radiation, on one cone with a baffle provided with a radiation exit aperture and a primary excitation radiation source located on its inner side and at the other end with a rotatable radiation source holder body.

In the current technical practice, the variable radiation sources used are designed to emit X radiation of several different energies or radiation of different radionuclides. The design does not allow selection of the intensity of radiation emanating from the head. These circumstances complicate the generation of variable radiation sources, especially when the property identity is required between different variable sources of the same type, or when the intensity of the individual radiation-emitting radiation is differentiated by different energies. Also, the use of existing variable radiation sources is not optimal, especially for routine measurement of the content of a component in matrices by the rate of absorption of radiation of different energy, since it is not possible to compensate for variations in radiation absorption of different energy and species in the matrix. Existing variable radiation sources also do not address cases of practical need for easy alternating gamma and X radiation.

These shortcomings are largely eliminated by the radiation source heads, in particular gamma and X radiation, of the invention. It is based on the fact that the output radiation sources are on separate supports, which can be adjusted in the rotatable body of the output radiation holder.

The advantage of the multisource head according to the invention is the ease of manufacture, since the deviations of the properties in the heads and on the carriers of the stored radiation sources can be easily compensated by changing the geometry of the system the primary excitation radiation source.

- X-ray radiation output X-hole for radiation output from the head or by changing the geometry of the system radionuclide radiation source - hole for radiation output from the head *. Another advantage is the possibility of fitting individual discrete carriers of output radiation sources located in the head, in addition to the output radiation sources X, with one or more radionuclide sources. An important advantage is the possibility of adjusting the intensity of the emitting radiation according to the conditions of a particular practical application of the multisource head, especially in cases of routine application, such as analysis of uranium content on an ion exchanger during operational control of technological processes of ore processing.

An example of a particular embodiment of the head of the multisource radiation source according to the invention is shown in the attached drawing.

The head of the multisource is formed by a housing 1, which is closed at one end by a partition 2, in which a through hole 3 for output of radiation from the head is made. On the inside of the partition 2 is mounted a primary excitation radiation source 4 made of the isotope americia 241 (Am 241) on a metal support. The rotating body 5 of the output radiation source holder 6 is positioned opposite the partition. Four longitudinal holes 8 with an axis on a common pitch circle that intersect the axis of the through hole 3 are made in the rotating body 5 of the holder. The longitudinal holes 8 and the shanks of the separate carriers 2 are provided with a M12 thread of 1 mm pitch. The individual carriers 1 are adjustable in the longitudinal openings 8 by screwing after removal of the handle 9 from the rotating body 5 of the holder. Sources 6 of output radiation are made of cerium (Ce), barium, (Ba) and tin (Sn) for emission of X radiation after excitation of targets by radiation from primary excitation source 4. and is a source of gamma output radiation with 59.6 keV energy.

To prepare the multisource head for practical applications, the handle 9 is detached and a screwdriver in the hole 8 by rotating the shank of the separate carrier 7, which is opposite the through hole 3, changes the distance between the output radiation source 6 and the through hole 3 and the primary excitation source 4. By varying the distance, a change in the intensity of the radiation exiting the warhead is achieved. The physical nature of this effect is described in generally available information sources. The multi-source head is positioned so that the through hole 3 is opposite the radiation detector and the rotation of the shank of the separate carrier 7 is terminated,

3223 597 when the detector shows the desired value of the emitted radiation intensity. Thereafter, the rotating body 5 of the holder is rotated so that there is another separate carrier 4 against the through-hole 3 and the previous control operation is repeated. By adjusting the positions of all the separate carriers Ί, the preparation is completed. Then, the handle 9 is reconnected to the rotating body 5 of the output radiation source holder 6. By rotating the handle 9 to the corresponding positions, either radiation X with the appropriate energy or gamma radiation of the output radiation source 6 is emitted from the head of the multi-radiation source.

Hlavioe multisource sources, especially gamma and X radiation, are applicable in numerous research and practice cases where gamma and X radiation sources with energies up to 100 keV are used. Particular applicability is in the field control of ion-exchange technology for the production of uranium concentrates and, moreover, in particular in other hydrometallurgical and chemical production.

Claims (2)

A multi-radiation source head, in particular gamma and X radiation, on one cone with a baffle provided with a radiation exit opening and a primary excitation source located on its inner side and at the other end with a rotatable body of the radiation source holder, that the output radiation sources (6) are displaceably mounted on separate carriers (7) in a rotatable body (5) of the output radiation source holder (6) 2. Multisource head according to claim 1, characterized in that at least:. In one separate carrier (7) is a radionuclide source (6) of output radiation.