KR100966291B1 - Sealed source loading tool for the radiation irradiation system - Google Patents

Abstract

TECHNICAL FIELD This invention relates to the technical field which sets so that a sealed source may be located at a reference point precisely when loading a sealed source which sealed the radiation source to a radiation irradiator.

The present invention is characterized in that the resilient bias means for elastically biasing the sealing source source and the sealing source source in sequence to the loading groove of the source holder, and screw assembly the source support cap to prevent the separation of the sealing source source in the source holder. .

 In addition, the present invention is characterized in that the back of the loading groove of the source holder is formed by communicating with the anti-scattering portion to prevent the back scattering of the radiation, characterized in that the opening for removing the attenuation of the radiation in the source support cap.

Radiation source, gamma source, sealed source, reference position, setting, loading, elasticity, bias

Description

Sealed source loading device for radiation irradiator {Sealed source loading tool for the radiation irradiation system}

The present invention relates to a technical field of loading a sealed source source sealed with a radiation source to a source holder in a simple manner, and in particular, the reference position of the radiation source is firmly adhered to the reference plane when the sealed source is automatically loaded. Since it is fixed, it is possible to irradiate at the same position at all times, and the radiation irradiator technology for improving the quality of radiation by minimizing the backscattering and forward attenuation of radiation.

In general, radiation is widely used in fields such as industry, research, education, and medical care. However, since radiation can have an extremely harmful effect on the human body, when working in a place using the radiation, a radiation dosimeter of a pocket type (hereinafter, Working with a 'dose meter' or installing a measuring device that accurately measures the dose rate prevents overexposure to radiation.

These dosimeters must ensure the accuracy and reliability of the performance that can maintain the radiation dose, which is a measure of human exposure below the reference value, the dosimeter is to be calibrated at regular intervals in accordance with the nuclear power law, to calibrate the dosimeter There is a need for a radiation irradiator for irradiating radiation to the dosimeter.

By measuring the measured value of the radiation irradiated with the dosimeter in the radiation irradiator with the reference value, if the performance of the dosimeter is deteriorated, it is corrected accurately to ensure the accuracy and reliability of the dosimeter, so that the radiation can be used more safely. To prepare.

The radiation source is equipped with a radiation source for radiation irradiation inside such a radiation source is made of a sealed source sealed in the form of a capsule (密封 線 源), which is conventionally a separate medium (loading sealed source) By loading the inside of the radiation irradiator directly without a device, the loading work of the radiation source is not performed efficiently, and it includes improvements that require a lot of time and manpower.

In addition, even if the sealing source is manufactured precisely, the sealing source is not loaded to be precisely positioned at the designed reference plane due to the mechanical error, and thus the reference position of the radiation is changed according to the specification of the sealing source, thus preventing accurate and accurate calibration work. This implies improvements.

And the radiation scattered from the back of the irradiator includes an improvement that significantly lowers the quality of the radiation put into the calibration.

In addition, in the past, a sealed source is often put in a sealed container for security purposes and charged into the radiation irradiator body. In this case, since the entire surface of the sealed source is obscured during the calibration operation, there is an inevitable improvement in radiation attenuation.

The present invention is to actively solve a number of improvements required during the loading operation of the sealed source according to the prior art, so that the elastic bias means elastically biased by the elastic bias means in close contact with the reference surface of the source support cap In order to automatically set the correct reference position regardless of the specification of the sealed source when the sealed source is loaded as a problem of the invention.

The present invention is to sequentially load the sealing bias source and the elastic bias means for elastically biasing the sealed source in the loading groove of the source holder as a means to actively solve the above problems, and to prevent the departure of the sealed source to the source holder Develop a technique for screwing the source support cap.

In addition, the present invention seeks a technique for communicating with the scattering preventing portion for reducing the backscattering of radiation behind the loading groove of the source holder.

In addition, the present invention seeks a technique for forming an opening for preventing attenuation of radiation in the source support cap.

According to the present invention, an elastic bias means for elastically biasing the sealed source is embedded in the loading groove of the source holder for loading the sealed source exclusively, so that the sealed source is automatically in close contact with the reference plane of the source support cap, thereby accurately determining the radiation source. Always set the same position.

Therefore, irrespective of the specifications of the sealed source, the radiation source always provides an accurate and accurate calibration by maintaining an accurate reference position.

In addition, the scattering prevention portion is formed in communication with the rear of the loading groove to reduce the backscatter during irradiation of the radiation to ensure excellent radiation quality of the radiation as well as the opening formed in the source support cap provides an effect of preventing the attenuation of the radiation. do.

It will be described a preferred embodiment for implementing the solution of the problem to be solved by the present invention in more detail.

Looking at the general technical configuration according to the accompanying drawings in accordance with a preferred embodiment of the present invention, the source holder 10 is provided with a loading groove 13 is opened outward on one side; A resilient support 22 fitted to the resilient housing 21 embedded in the loading groove 13 and having a plurality of guide holes 22-2 radially formed on an outer circumference thereof, and the resilient housing 21. And the elastic member 23 which is simultaneously received inside the elastic support 22 and elastically biases the elastic support 22, and is fixed to the elastic housing 21 in a state of being fitted into the guide hole 22-2. An elastic bias means (20) which is installed and constituted by a separation prevention means (24) for preventing the elastic support (22) from being separated; A sealing source 30 loaded in the loading groove 13 in close contact with the tip of the elastic support 22; It is made of an organic coupling configuration of the source support cap 40 is screwed to the front end of the source holder 10, the reference surface 42 is formed in close contact with the sealing source 30 on the inner surface of the front plate (41).

Hereinafter, the present invention having the above-described schematic configuration will be described in more detail for facilitating the implementation.

First of all, the source holder 10 of the present invention is for loading the sealed source 30 exclusively in a state in which it is coupled to the source loader 50 mounted inside the radiation irradiator 1, and each side of the source loader A male screw 11 screwed to the coupling end 51 and the source support cap 40 of the 50 is formed, and the tightening protrusion 12 protrudes between the male screw 11 so that the source holder 10 is formed. While tightening the assembly can be assembled to the source loader 50, the loading groove 13 is formed to be opened outward on one side of the inside it is possible to simply load the sealed source (30).

The elastic bias means 20, which is built in the loading groove 13 and automatically sets the correct reference position while elastically supporting the sealed source 30 in close contact with the reference plane 42 at all times, has an elastic housing 21 as shown in FIG. 6. ), The elastic support 22, the elastic member 23 and the separation prevention component 24 is largely divided.

When describing the elastic bias means 20 in more detail, the elastic housing 21 is a support plate on one side of the engaging jaw 14 protruding inside the loading groove 13 in a state of being embedded in the loading groove 13. 21-1 is supported, and the other side of the support plate 21-1 is opened so that the elastic member 23 and the elastic support 22 are fitted.

The elastic support 22 is inserted into the elastic housing 21 so as to be slidably movable, and the support plate 22-1 formed on one side serves to push the sealing source 30, and the support plate 22-. The other side of 1) is opened so that the elastic member 23 is fitted, while the outer periphery is formed with a plurality of guide holes 22-2 radially.

In such an elastic housing 21 and the elastic support 22, the elastic member 23 is simultaneously received through the opening, and both ends of the elastic member 23 are supported by the support plates 21-1 and 22-, respectively. The elastic member 23 elastically biases the elastic support 22 by being supported by 1), and a plurality of separation prevention devices 24 fixedly installed through the elastic housing 21 are provided in the guide hole 22-2. By being fitted, the elastic support 22 maintains the integrity with the elastic housing 21 to prevent separation.

Therefore, the elastic support 22 is slidably moved by the elasticity of the elastic member 23, it can be in and out of the elastic housing 21, the guide hole 22-2 in this process is formed long By guiding the smooth movement of the elastic support 22 accordingly, even if the size of the sealed source 30 is not precise, the elastic support 22 pushes the sealed source 30 regardless of the size while the source support cap 40 Resilient support in close contact with the reference surface 42 of the.

At this time, the elastic support 22 is formed to be smaller than the inner diameter of the loading groove 13, the support plate 22- to prevent the elastically biased sealing source 30 in an unstable state in the vertical flow occurs or eccentric to one side. The outflow flange 22-3 protruding outward is integrally formed in 1).

On the other hand, the front end of the resilient support 22 is loaded in the loading groove 13 in a state in which the sealing source 30 is in close contact, the source support cap 40 is screwed to the front end of the source holder 10 in sequence As a result, the sealing source 30 may be maintained in close contact with the reference surface 42 formed on the inner surface of the front plate 41 of the source support cap 40 as well as preventing the separation of the sealing source 30.

When the sealed source 30 emits radiation in all directions, when the rear is closed, the radiation scattered from the rear is mixed with the primary radiation emitted to the front, thereby deteriorating the quality of the radiation.

Therefore, in the present invention, the elastic housing 21 and the support plates 21-1 and 22-1 of the elastic support 22 can be deceived so that the radiation can be guided to the rear smoothly through the elastic bias means 20. An empty guide tube 27 penetrates through it. This empty guide tube 27 is one of the methods for reducing backscattering of radiation.

In addition, the source holder 10 is further provided with a scattering preventing portion 17, which is a similarly empty space, passing through the central portion of the locking jaw 14 and communicating with the loading groove 13 to the rear, thereby minimizing backscattering of radiation. You can do it.

And in order to eliminate the attenuation of the radiation emitted from the sealed source 30, the source support cap 40 of the present invention is formed by the opening 45 in the front plate 41 to remove the attenuation phenomenon during the emission of radiation more efficient Investigations are possible.

On the other hand, the source holder 10 of the present invention, as described above, the other side of the coupling portion of the source support cap 40 is screwed to the inside of the coupling end 51 formed in the source loader 50, the coupling end 51 The set screw 52 screwed through) maintains a firm fixed state while being fixed while pressing the source holder 10, and the radiation inside the source loader 50 except for the coupling end 51 is rearward. The shield 53 is filled to prevent leakage.

Here, as the coupling end portion 51 is further formed with an anti-scattering extension portion 55 communicating with the anti-scattering portion 17 of the source holder 10, the back scattering of the radiation is further reduced to improve the quality of the radiation. Provides a significant improvement in performance.

The present invention made up of such a configuration automatically sets the exact reference position of the radiation source at all times irrespective of the size of the sealed source 30, as well as minimizing the backscattering and forward attenuation of the radiation to improve the quality of the radiation, It is clear that accurate calibration is possible and more efficient investigations are made.

1 is a longitudinal cross-sectional view of a state equipped with a radiation source is assembled to the radiation source is loaded with a sealed source loading device of the present invention;

Figure 2 is a partially cut-away longitudinal sectional view of the assembled state of the sealed source loader and the source loader of the present invention.

Figure 3 is an assembled longitudinal cross-sectional view of the present invention sealed source loading device.

4 is a longitudinal sectional view of the source holder of the present invention;

Figure 5 is a longitudinal cross-sectional view of the present invention source support cap

6 is a partially cutaway exploded perspective view of the elastic bias means of the present invention

7 is an enlarged cross-sectional view of a state in which a sealed source is loaded in the source holder of the present invention.

Figure 8 is an enlarged cross-sectional view of the support cap is assembled to the source holder of the present invention;

[Explanation of symbols on the main parts of the drawings]

10: Sailor Holder 13: Load Home

17: scattering prevention portion 20: elastic bias means

21: elastic housing 22: elastic support

23: elastic member 24: separation prevention

27: guide pipe 30: sealed source

40: source support cap 42: reference plane

45: opening 50: sailor loader

Claims (8)

A source holder 10 having a loading groove 13 open outwardly at one side; A resilient support 22 fitted to the resilient housing 21 embedded in the loading groove 13 and having a plurality of guide holes 22-2 radially formed on an outer circumference thereof, and the resilient housing 21. And the elastic member 23 which is simultaneously received inside the elastic support 22 and elastically biases the elastic support 22, and is fixed to the elastic housing 21 in a state of being fitted into the guide hole 22-2. An elastic bias means (20) which is installed and constituted by a separation prevention means (24) for preventing the elastic support (22) from being separated; A sealing source 30 loaded in the loading groove 13 in close contact with the tip of the elastic support 22; For the radiation irradiator, which is screwed to the distal end of the source holder 10, made of a source support cap 40 formed with a reference surface 42 in which the sealing source 30 is in close contact with the inner surface of the front plate 41. Sealed source loading device. The method of claim 1, The elastic housing 21 and the elastic support 22 smoothly radiate the radiation emitted from the sealed source 30 to the support plates 21-1 and 22-1 which respectively support both ends of the elastic member 23. Sealed source charging device for a radiation irradiator, characterized in that the guide pipe 27 is guided through. The method of claim 1, Resilient support 22 is a radiation source loading device for a radiation irradiator, characterized in that the flow preventing flange (22-3) integrally protruded outwardly formed on the support plate (22-1) for supporting one side of the elastic member (23). The method of claim 1, The source holder 10 is formed by the scattering prevention part 17 which communicates with the loading groove 13 to prevent the back scattering of radiation through the central portion of the locking step 14 formed inside the loading groove 13 Sealed source loading device for irradiator characterized in that the. The method of claim 1, The source support cap 40 is a sealed source charging device for a radiation irradiator, characterized in that an opening 45 is formed in the front plate 41 to eliminate the attenuation of radiation. The method of claim 1, The other side of the source holder 10 to which the source support cap 40 is coupled is screwed to the inside of the coupling end 51 formed in the source loader 50, and the coupling end 51 is provided with an anti-scattering part 17. Sealed source loading device for a radiation irradiator, characterized in that the additional scattering preventing extension portion 55 is formed in communication. The method of claim 6, Said source holder 10 is a sealed source charging device for a radiation irradiator, characterized in that to maintain a rigid fixed state by the set screw 52 coupled through the coupling end (51). The method of claim 6, Said source loader 50 is a sealed source charging device for a radiation irradiator, characterized in that the shield 53 is filled inside.

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