PL213223B1 - Working container of isotope release - Google Patents

Description

The subject of the invention is a working container of isotope sources intended for use in research and measurement devices based on the phenomenon of low and medium energy gamma radiation absorption.

Known from the Polish description of the utility model Ru 55774 is a shield for medical syringes with radioactive solution, which has a lead body made in the shape of a sleeve. At the end of the sleeve there is a brass outer ring in which there is a radially positioned locking screw with a knurled head. On the opposite side of the body there is a lead glass sight glass.

There is known from the Polish application no. P.372052 of the invention a tank for a vial with a radioactive drug and a set for its transport or for its infusion on a patient, in which the disclosed polymethyl methacrylate tank consists of a tank with a space suitable for placing a vial of a radioactive pharmaceutical , and a cover screwed onto the tank to close it. The cover has a central through hole.

Also known from the Polish application no. P.375052 of the invention is a protective pharmaceutical isotope container and a method of its use, in which the protective container is used to transport a syringe containing a liquid radio-pharmaceutical. The protective container has a lid releasably attached to the base. The elements in the lid and base are closed with shielding. An inner liner may be used in the base of the container, but never in the lid.

The working container of isotope sources according to the invention (consists of the upper part and the lower part filled inside with a material that strongly absorbs low- and medium-energy gamma radiation, and it has an isotope socket and a closing element. In the upper part there is an isotope socket and a rotating curtain in the shape of a cylinder with a collimation hole located on the side surface of the cylinder and passing through its center. The rotating curtain is inseparably connected to one end of the control shaft, and at the other end of this control shaft there is a two-position ball latch. they are in the cork which closes the upper part, in the upper part there is a centrally located through hole.

The second end of the control shaft and the two-position ball catch are preferably outside the cylindrical surface of the upper part.

The solution according to the invention enables easy and safe control of the operating state of the container during tests and measurements. The stabilization of the rotating curtain ensures safety during container transport, renovation of adjacent devices and longer stops.

The subject of the invention has been shown in the embodiment on the drawing showing the axial section of the container.

The isotope source working container is built from the upper part 1, in which isotope socket 6, rotatable curtain 3 and plug 4 are placed. One or more isotope sources are attached to the isotope socket 6. The rotatable curtain 3 is cylindrical in shape and has a collimation hole located on the side surface of the cylinder and passing through its center, and is provided with a control shaft 7 for its rotation.

The diameter of the rotatable curtain 3 is a function of two parameters. The minimum diameter is determined from the safety conditions so that for the container walls, together with the size of the collimation opening used in the rotary curtain 3, the value of the radiation dose on the container surface does not exceed the value specified in the relevant standards and regulations. The second parameter influencing the diameter of the rotating curtain 3 is the required length of the collimation path of the radiation flux, appropriate for the tests or measurements to be carried out.

The rotatable curtain 3 against falling out of the container, and in order to ensure a suitable wall thickness of the upper part 1 in this place, protects the stopper 4, which is also the element closing the container. In the plug 4 there are slide bearings of the control shaft 7, which at one end is inseparably connected to the rotary curtain 3. Outside the container, at the other end of this control shaft 7 there is a two-position ball latch 5, which on one side ensures a stable position of the hole in the rotary shutter. the curtain 3 with a through hole located at the top of the upper part 1, and on the other hand, a stable position of the rotating curtain 3 in the closed position during its rotation by 90 °, used during transport, renovation of adjacent devices or longer breaks in work.

PL 213 223 B1

The lower part 2 is a shielding element that protects the handling of the container against dangerous ionizing radiation from isotope sources placed in it.

The upper part 1 and the lower part 2 are filled inside with a material strongly absorbing low and medium energy gamma radiation, with a thickness such that the radiation dose passing through the rotating curtain 3 set in the closed position on the surface of the container does not exceed the permissible dose specified in the relevant standards and regulations that guarantee the safety of operation.

The operation of the container is based on the fact that the two-position ball catch 5 in one operating state stabilizes the position of the opening in the rotatable curtain 3 with the opening in the upper part 1 and directs the radiation beam to a specific target. In the second operating condition, it turns the curtain 3 through an angle of 90 ° and stabilizes it in the closed position.

Claims (3)

1. The isotope source working container consisting of a cylindrical upper part and a lower part filled with lead inside, strongly absorbing gamma radiation, having an isotope seat and a closing element, characterized in that in the upper part (1) there is an isotope seat (6) and a rotating seat a cylinder-shaped screen (3), with a collimation hole on the side surface of the cylinder and passing through its center, and which is inseparably connected to one end of the control shaft (7), at the same time, at the other end of the control shaft (7), there is a two-position a ball latch (5), and the slide bearings of this control shaft (7) are placed in the plug (4) which closes the upper part (1), moreover, at the top in the upper part (1) there is a centrally located through hole. 2. The processing container according to claim The method of claim 1, characterized in that the second end of the control shaft (7) and the two-position ball latch (5) are outside the cylindrical surface of the upper part (1). 3. The processing container according to claim 1, The process of claim 1, wherein the strong low and medium energy gamma absorber is tungsten or depleted uranium.