RU2558752C1 - Method of assembling ionising radiation sources based on cobalt-60 radionuclide and device therefor - Google Patents

Abstract

FIELD: physics, atomic power.

SUBSTANCE: invention relates to nuclear engineering and can be used in making sources for medical purposes. Ionising radiation sources in the form of cobalt workpieces with diameter of 1 mm and length of 1 mm, placed in an open storage bin in advance, are transferred in portions by a separator through a loading unit into a capsule. The lower part of the loading unit of the capsule, when loading the capsule, is dropped below the upper part of the capsule and the number of ionising radiation sources transported in portions and their mass is determined by the dimensions and the number of grooves of the separator. A device for assembling ionising radiation sources based a cobalt-60 radionuclide includes an open storage bin with ionising radiation sources, a device for transferring portions of ionising radiation sources into a capsule and a capsule loading unit. The device for transferring portions of ionising radiation sources into the capsule is in the form of a separator connected to a stepper motor, wherein the separator is provided with grooves for transferring ionising radiation sources from the open storage bin into a capsule loading unit.

EFFECT: simple design and easier loading of ionising radiation sources into a capsule.

6 cl, 2 dwg

Description

The invention relates to the field of nuclear engineering and can be used in the manufacture of sources intended specifically for medical purposes.

A known method of manufacturing radionuclide sources and a device for its implementation (see RF patent No. 2206134, class G21G4 / 04, publ. 06/10/2003), which consists in portion filling the source capsule with a radionuclide, sealing the capsule and measuring the exposure dose rate of the finished source. The number of servings is determined by the formula N = 100 / C, where N is the number of servings; C is the planned deviation of the measured exposure dose rate from its predetermined nominal value,%. A device for implementing the method consists of a hopper with a radionuclide, a trolley with a device that opens the gate of the hopper and selects a portion of the radionuclide from it, a device for transmitting the portion to the source body, a capsule loading unit and a collimator with an ionization chamber. The advantage of the invention lies in the fact that it provides the maximum possible approximation of the measured value of the power of the exposure dose of the source to its predetermined nominal value.

The reasons that impede the achievement of the technical result indicated below when using the known invention include the fact that the method and device are more laborious in obtaining the same final product.

The essence of the proposed method of assembling ionizing radiation sources (III) based on cobalt-60 radionuclide is that III in the form of cobalt blanks with a diameter of 1 mm and a length of 1 mm, previously stored in an open hopper, are batch transported by a separator through a loading unit into a capsule, moreover, the lower part of the capsule loading unit, during the capsule loading process, is lowered below the upper part of the capsule, and the number of portioned III and their mass is determined by the size of the separator grooves and their number.

A device for assembling ionizing radiation sources based on cobalt-60 radionuclide includes a device for transferring a portion of III into a capsule, which is made in the form of a separator connected to a stepper motor, and the separator is equipped with slots for transporting III from a storage open hopper to the capsule loading unit. The separator itself is located in the body of the dispenser mechanism, which in its upper part is equipped with a storage open hopper, and in the lower part - the capsule loading unit. The case of the dispenser mechanism in the horizontal plane moves along the guides fixed in the bushes, and the bushes themselves move in a vertical plane along the vertical guides. In addition, the bushings with the dispenser mechanism fixed to them move in a vertical plane due to levers swinging on the uprights and driven by a slide moving along the guides in the vertical plane.

Moving the body of the dispenser mechanism in the horizontal plane and moving the slider in the vertical plane is carried out remotely by the arm of the manipulator in radiation-protective “hot” chambers.

The use of the invention provides the following technical result:

- simplifying the design and reducing the complexity of loading III in capsules.

The specified technical result in the implementation of the invention is achieved by the fact that the proposed method includes portion filling the capsule with ionizing radiation sources.

The peculiarity lies in the fact that III in the form of cobalt blanks with a diameter of 1 mm and a length of 1 mm, previously stored in an open hopper, are portioned transported by a separator through the loading unit to the capsule, and the lower part of the capsule loading unit, during the capsule loading process, is lower than the upper parts of the capsule, and the number of portioned III transported and their mass is determined by the size of the grooves of the separator and their number.

A device for assembling ionizing radiation sources based on cobalt-60 radionuclide includes an accumulative open hopper with III, a device for transferring a portion of III into a capsule, and a capsule loading unit.

The peculiarity lies in the fact that the device for transferring the portion of III into the capsule is made in the form of a separator connected to a stepper motor, and the separator is equipped with slots for transporting the III from the storage open hopper to the capsule loading unit. The separator itself is located in the body of the dispenser mechanism, which in its upper part is equipped with a storage open hopper, and in the lower part - the capsule loading unit. The case of the dispenser mechanism in the horizontal plane moves along the guides fixed in the bushes, and the bushes themselves move in a vertical plane along the vertical guides. In addition, the bushings with the dispenser mechanism fixed to them move in a vertical plane due to levers swinging on the uprights and driven by a slide moving along the guides in the vertical plane.

Moving the body of the dispenser mechanism in the horizontal plane and moving the slider in the vertical plane is carried out remotely by the arm of the manipulator in radiation-protective “hot” chambers.

The analysis of the prior art by the applicant, including a search by patents and scientific and technical sources of information and 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 figures.

Figure 1 - diagram of the device in the mode of changing the capsule.

Figure 2 - diagram of the device in load mode capsules III.

The device consists of a platform 1, vertical guides 2, a dispenser mechanism 3, which in turn consists of a stepper motor 4, a housing 5, a separator 6 with slots 7, a storage open hopper 8, a capsule loading unit 9, guides 10, an elevator mechanism 11, which in turn consists of guides 12, slider 13, levers 14, racks 15, bushings 16, supports 17, capsules 18, sources of ionizing radiation (III) 19.

The device is placed in a radiation protective "hot" camera and it works as follows. In a storage open hopper 8 load a batch of III 19 for the assembly of several sets of sources. To load the capsule 18, the following operations are performed. With the remote arm of the manipulator, the slider 13 is lowered down, and thereby, through the system of levers 14, the sleeves 16 and the dispenser mechanism 3 are lifted upward. Then, with the remote arm of the manipulator, the dispenser 3 is taken to the right, guiding the loading unit 9 from the installation zone of the capsule 18. Previously filled the capsule 18 is removed with the remote arm of the manipulator from the stand 17, and a new capsule is put in its place to fill. Then the dispenser mechanism 3 is returned to boot mode. Moreover, the lower part of the load node 9 should be located below the upper part of the capsule 18. This eliminates the ingress of radioactive dust on the edge of the neck of the capsule. After that, the stepper motor 4 is remotely turned on, which drives the separator 6 clockwise. The III, located in the slots 7 of the separator 6, are discretely transported to the capsule loading unit and then to the capsule itself. The number of portioned III and their mass is determined by the size of the grooves 7 by their number in the separator 6.

Thus, the above 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 for the assembly of ionizing radiation sources based on cobalt-60 radionuclide and can be used in nuclear technology;

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

- a tool embodying the claimed invention in the implementation, can ensure the achievement of the technical tasks (simplifying the design and reducing the complexity of loading III in capsules).

Claims (6)

1. A method of assembling ionizing radiation sources based on cobalt-60 radionuclide, comprising portion filling the capsule with ionizing radiation sources (III), characterized in that the III in the form of cobalt blanks with a diameter of 1 mm and a length of 1 mm, previously stored in an open bunker, in batches are transported by the separator through the loading unit into the capsule, the lower part of the capsule loading unit, in the process of loading the capsule, is lowered below the upper part of the capsule, and the number of III transported in portions and their mass is determined I am the size of the grooves of the separator and their number. 2. A device for assembling ionizing radiation sources based on cobalt-60 radionuclide, including a storage open hopper with III, a device for transferring a portion of III into a capsule, a capsule loading unit, characterized in that the device for transmitting a portion of III into a capsule is made in the form of a separator connected to the stepper motor, and the separator is equipped with slots for transporting III from the storage open hopper to the capsule loading unit. 3. The device according to p. 2, characterized in that the separator is located in the body of the dispenser mechanism, which in its upper part is equipped with a storage open hopper, and in the lower part - the capsule loading unit. 4. The device according to p. 2, characterized in that the housing of the dispenser mechanism in the horizontal plane moves along the guides fixed in the bushes, and the bushes themselves move in a vertical plane along the vertical guides. 5. The device according to claim 2, characterized in that the bushings with the dispenser mechanism fixed to them move in a vertical plane due to levers swinging on the uprights and driven by a slide moving along the guides in the vertical plane. 6. The device according to p. 2, characterized in that the movement of the housing of the dispenser mechanism in the horizontal plane and the movement of the slider in the vertical plane is carried out remotely by the manipulator's hand in radiation-protective "hot" chambers.

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