RU2649080C9 - Method and device for control of sealing capacity of capsule using source of ionizing radiation - Google Patents

Abstract

FIELD: test technology.

SUBSTANCE: invention relates to the field of analysis of the sealing capacity of devices and can be used to control the tightness of capsules using a source of ionizing radiation. Essence: the capsule tightness control device with the ionizing radiation source (IRS) includes electric heater (4), on which cassette (3) of containers filled with a solution is installed. Above cassette (3) of the tanks, grate (2) is placed, into the holes of which cylindrical cups (1) perforated at the bottom are inserted. Inside cups (1) capsules are placed with IRS. Entire installation is installed in fume hood (5). Disposable syringes (8) for sampling the solution are installed in the gripper of the sword manipulator. Capsules with IRS are placed in cups located in cassette (3) of sealed containers and immersed in a solution. Necessary number of cycles of heating the capsules with IRIS electric heater (4) is performed and then they are cooled. Samples of the solution are taken separately from each hermetic container of cassette (3) with disposable syringes (8) for radioactive control. If the radioactivity of the sample does not exceed the allowed values, the capsule with IRS is considered air-tight. In the case of increased radiation contamination of the solution with active isotopes of the radionuclide, the capsules with IRS are discarded, and cups (1) and cassette (3) of sealed containers are deactivated before loading the next batch of capsules.

EFFECT: simplification of the technology to control the air-tightness of capsules with a source of ionizing radiation.

2 cl, 3 dwg

Description

The invention relates to the field of radiation technology, and in particular to methods for monitoring the tightness of a capsule with a source of ionizing radiation (III).

A known method of monitoring the tightness of a capsule with a source of ionizing radiation (see RF Patent No. 2559304, class IPC G01T 1/167, publ. 10.08. 2015), which includes immersing the capsule in a solution, sampling a solution for radioactive control, different the fact that, first of all, the deactivated capsule placed in a container with 7-10% nitric acid solution is heated and boiled for 10 minutes, secondly, the capsule container is cooled for 15-20 minutes, then the container is heated to boiling two more times, followed by cool the vessel, thirdly, after the third cooling capacity of a sample of nitric acid solution in an amount of 50 ml and measuring its radioactivity is carried out.

A disadvantage of the known method for monitoring the tightness of a capsule with a radiation source (III) is that the tightness control of a capsule is carried out with only one capsule, which significantly increases the time when controlling a large batch of III.

The essence of the proposed method for monitoring the tightness of a capsule with a source of ionizing radiation is that the tightness control is carried out by heating a batch of capsules with III placed in cups located in the cassette of sealed containers according to the number of controlled capsules with III, and then taking the solution separately from each tight container cassettes with disposable syringes to measure its radioactivity, and if the radioactivity of the sample does not exceed the permissible established values, then the capsule with III is considered tight, in case of increased radiation contamination of the solution with the active isotopes of the radionuclide, the capsules with III are discarded, and the cups and the cartridge of the sealed containers are deactivated before loading the next batch of capsules with III.

The use of the invention provides the following technical result:

- simplifying the technology and reducing the cost of monitoring the tightness of capsules with a source of ionizing radiation.

The specified technical result in the implementation of the invention is achieved by the fact that the proposed method involves immersing the capsule with III in the solution, conducting the required number of cycles of heating by an external electric source and cooling the capsules with III, sampling the solution for radioactive control.

The peculiarity lies in the fact that the tightness control is carried out by heating a batch of capsules with III placed in cups located in the cassette of sealed containers according to the number of controlled capsules with III, and then taking the solution separately from each pressurized container of the cartridge with disposable syringes to measure its radioactivity, and if the radioactivity of the sample does not exceed the permissible established values, then the capsule with III is considered airtight, in case of increased radiation contamination of the solution with active isotope and a radionuclide capsules IRS discarded, and the cassette sealed cups and containers are deactivated before loading the next batch of capsules with IRS.

An installation for monitoring the tightness of a capsule with an ionizing radiation source (III) that implements the proposed method is installed in a research radiation-protective chamber and includes an electric heater, on which a cartridge of containers filled with a solution is installed, a grid is placed above the container cartridge, with perforated cylindrical holes in the lower part of the cups, inside of which there are capsules with sources of ionizing radiation, the entire installation is mounted in a fume hood fu, the sampling of the solution is carried out with disposable syringes installed in the capture of the stepper manipulator.

The analysis of the prior art by the applicant, including a search by patents and scientific and technical sources of information, and the identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the claimed invention.

Therefore, the claimed invention meets the condition of "novelty."

The construction of the invention is presented in the drawings.

Figure 1. Appearance of the device.

Figure 2. View A. Sampling with a disposable syringe.

Figure 3. Section BB.

The device consists of cups 1 inserted into the grate 2, a cartridge of containers 3, an electric heater 4, a fume hood 5, a capsule with a source of ionizing radiation (III) 6, a stepper arm 7, a disposable syringe 8 and a solution 9.

The tightness control of capsules with III is as follows. Capsules with III 6 are loaded into cups 1 (one capsule in one cup), and the cups are perforated in the lower part. Then the cups are placed in the holes of the lattice 2, and the lattice itself is lowered into the cartridge cassette 3, and the cartridge cassettes are pre-filled with a special solution 9, into which the cups 1 with capsules 6 with III are immersed. A cartridge of containers 3 is mounted on an electric heater 4. The entire assembled installation is mounted in a fume hood 5, which is placed in a radiation protection research chamber.

The tightness control is carried out by conducting the required number of heating cycles to a boiling point, and then cooling to 20 ° C cassettes of containers 3 with a special solution 9. After the last cooling of the cassettes of containers 3 from each container with a disposable syringe 8, using a step manipulator 7, a sample of a special solution 9 is taken and its radioactivity is measured. In the case of increased radiation contamination of the solution with the active isotopes of the radionuclide (over 0.2 kBq), the capsules 6 with III are discarded, and the glasses 1 and the cartridge of sealed containers 3 are deactivated before loading the next batch of capsules 6 with III.

Thus, the foregoing description indicates the fulfillment of the following set of conditions when using the claimed invention:

- a tool embodying the claimed invention, in its implementation is intended to control the tightness of the capsule with a source of ionizing radiation and can be used in atomic engineering;

- for the claimed method, in the form as described in the claims, the possibility of its implementation using the means and methods described in the application is confirmed;

- a tool embodying the claimed invention, when implemented, is able to achieve the technical objectives perceived by the applicant - simplifying the technology and reducing the cost of monitoring the tightness of capsules with a source of ionizing radiation.

Claims (2)

1. A method of monitoring the tightness of capsules with a source of ionizing radiation (III), including immersing capsules with III in a solution, conducting the required number of cycles of heating by an external electric source and cooling the capsules with III, sampling a solution for radioactive control, characterized in that the tightness is controlled by heating a batch of capsules with III placed in cups located in the cassette of sealed containers according to the number of controlled capsules with III, and then taking the solution separately from each the hermetic container capacity with disposable syringes to measure its radioactivity, and if the radioactivity of the sample does not exceed the permissible established values, then the capsule with III is considered leakproof, in case of increased radiation contamination of the solution with the active isotopes of the radionuclide, the capsules with III are discarded, and the glasses and cartridge of the sealed containers are deactivated before loading the next batch of capsules with III. 2. Installation of capsule tightness control with III installed in the research radiation-protective chamber, including an electric heater, on which a cartridge of containers filled with solution is installed, a lattice is placed above the container cartridge, into the holes of which are inserted cylindrical, perforated cups in the lower part, inside of which capsules with III are placed, the entire installation is mounted in a fume hood, the sampling of the solution is carried out with disposable syringes installed in the capture of the sword manip Yator.

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