RU2560107C1 - Method of assembling ionising radiation sources using compensators and apparatus therefor - Google Patents

Abstract

FIELD: atomic physics.

SUBSTANCE: invention relates to nuclear engineering and can be used in making ionising radiation sources for medical purposes. The method includes filling a capsule with ionising radiation sources. Ionising radiation sources in the form of cobalt workpieces with diameter of 1 mm and length of 1 mm, stacked in a first open hopper in advance, are transported one by one using magnetic forces through a unit for loading into the capsule, to which compensators are additionally transported one by one from a second open hopper using magnetic forces through the unit for loading into the capsule. The number of ionising radiation sources and compensators is measured by a counter. Capsules are loaded at a loading post and capsules are replaced at a replacement post by moving the capsules with a distant arm of a manipulator. Also disclosed is an apparatus for operation in a radiation-protected "hot" chamber.

EFFECT: easier loading of ionising radiation sources into capsules using compensators.

7 cl, 1 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 (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 reasons that impede the achievement of the following technical result when using the known invention include the fact that the known method and device do not provide dense packaging of finished sources in a filled capsule.

The essence of the proposed method of assembling ionizing radiation sources (III) using compensators consists 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 the first open hopper, are transported one unit by magnetic forces through the loading unit into the capsule, where additionally one compensators are transported from the second open hopper using magnetic forces through the loading unit into the capsule, and the number of III and compensators is fixed by the counter . The capsule is loaded at the loading post, and the capsule is changed at the shift post by moving the capsule with the remote arm of the manipulator.

A device for assembling ionizing radiation sources using compensators includes a device for transmitting III into a capsule, which is made in the form of a separator equipped with magnetic elements around the circumference of the circle, the capsule loading unit, on the one hand, is additionally equipped with a knife for tearing the III from the magnetic elements of the separator, and on the other sides - with a knife to tear off the compensators from the magnetic elements of the separator. The device is additionally equipped with a storage open hopper for storing compensators, which is connected to the second separator, along the circumference of the circle equipped with magnetic elements. The lower part of the capsule loading unit is equipped with a device for counting III and compensators passing into the capsule.

Separators for transporting III and compensators are equipped with stepper motors, and storage open bins with III and compensators are equipped with vibrators.

The device is equipped with a base, two racks with guides fixed in them, along which the platform moves with the capsule installed on it.

The use of the invention provides the following technical result:

- reducing the complexity of loading III in capsules using compensators,

- use of the device in a radiation protective "hot" camera.

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

The peculiarity lies in the fact that III in the form of blanks made of cobalt with a diameter of 1 mm and a length of 1 mm, previously stored in the first open hopper, are transported one unit by magnetic forces through the loading unit into the capsule, where compensators are additionally transported from the second open hopper by one unit using magnetic forces through the loading unit into the capsule, and the number of III and compensators is fixed by the counter. The capsule is loaded at the loading post, and the capsule is changed at the shift post by moving the capsule with the remote arm of the manipulator.

A device for assembling ionizing radiation sources with compensators includes a storage open hopper with III, a device for transmitting III into a capsule, and a capsule loading unit. The peculiarity lies in the fact that the device for transferring the III into the capsule is made in the form of a separator equipped with magnetic elements around the circumference of the circle, and the capsule loading unit is additionally equipped with a knife for detaching the III from the magnetic elements of the separator, and on the other hand with a knife for separating the compensators from the magnetic elements of the separator. The device is additionally equipped with a storage open hopper for storing compensators, which is connected to the second separator, along the circumference of the circle equipped with magnetic elements. The lower part of the capsule loading unit is equipped with a device for counting III and compensators passing into the capsule.

Separators for transporting III and compensators are equipped with stepper motors, and storage open bins with III and compensators are equipped with vibrators.

The device is equipped with a base, two racks with guides fixed in them, along which the platform moves with the capsule installed on it.

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 invention, allowed to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the invention.

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

The design of the invention is presented in the drawing.

The device consists of a base 1, vertical racks 2, guides 3, platforms 4, capsules 5, devices 6 counting III and compensators, node 7 loading capsules, knives 8 and 9, separators 10 and 11 with step electric drives, which are equipped with magnetic inserts 12 and 13, a storage open hopper 14 for storing III III, a storage open hopper 16 for storing expansion joints 17, hoppers 16 and 17 are equipped with electric vibrators 18 and 19.

The device is placed in a radiation protective "hot" camera and it works as follows. A batch of III 15 in the form of blanks of cobalt with a diameter of 1 mm and a length of 1 mm is loaded into the accumulating open hopper 14, and compensators 17 are loaded into the hopper 16 in the form of steel balls with a diameter of 1 mm. When the vibrator 18 is turned on, the III III blanks along the inclined bottom of the hopper 14 are moved to the outlet and one unit are captured by the magnetic inserts 12 of the separator 10. The rotating separator moves the III 15 to the knife 8, which separates the III from the magnet and dumps it into the loading unit 7. Device Account 6, fixed at the bottom of the loading unit 7, fixes the amount of III entering the capsule 5. After loading the capsule 5 with the required number of III, the capsule 5 is reloaded with compensators 17 in order to fully pack the capsule and prevention of free movement of III in the capsule after its sealing.

The compensators 17 are transported by means of a separator 11 and magnetic inserts 13 to a knife 9, which separates the compensators from the magnet and dumps it into the loading unit 7. The counting device 6 fixes the number of compensators falling into the capsule 5. The capsule 5 is loaded with 5 compensators 17 until it is completely filled.

After filling the capsule 5 mounted on the platform 4, remotely by the hand of the operator, the platform 4 is moved from the loading station to the capsule changing station.

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

- a tool embodying the invention, in its implementation is intended for the assembly of ionizing radiation sources using compensators and can be used in atomic engineering;

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

- a tool embodying the invention in the implementation, is able to achieve the perceived technical objectives perceived by the applicant: reducing the complexity of loading III in capsules using compensators and using the device in a radiation-protective "hot" camera.

Claims (7)

1. A method of assembling ionizing radiation sources using compensators, including 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 the first open hopper, are transported one unit each using magnetic forces through the loading unit into the capsule, where additionally one compensator is transported from the second open hopper by one unit using magnetic forces through the loading unit into the capsule, and in IRS and compensators fixed counter. 2. The method according to p. 1, characterized in that the capsule is loaded at the loading post, and the capsule is changed at the shift post by moving the capsule with the remote arm of the manipulator. 3. A device for assembling ionizing radiation sources with compensators, including a storage open hopper with III, a device for transmitting an III into a capsule, a capsule loading unit, characterized in that the device for transmitting an III into a capsule is made in the form of a separator equipped with magnetic elements around the circumference, the capsule loading unit, on the one hand, is additionally equipped with a knife for tearing the III from the magnetic elements of the separator, and on the other hand, with a knife for tearing the compensators from the magnetic elements of the separator. 4. The device according to p. 3, characterized in that it is additionally equipped with a storage open hopper for storing compensators, which is connected to the second separator, along the circumference of the circle equipped with magnetic elements. 5. The device according to p. 3, characterized in that the lower part of the capsule loading unit is equipped with a device for counting III and compensators passing into the capsule. 6. The device according to p. 3, characterized in that the separators for transporting III and compensators are equipped with stepper motors, and the storage open bins with III and compensators are equipped with vibrators. 7. The device according to p. 3, characterized in that it is equipped with a base, two racks with guides fixed in them, along which the platform moves with the capsule installed on it.