KR200308581Y1 - Device for finding position of radioactive source - Google Patents

Abstract

The present invention relates to a radiation source location tracking device, comprising a rod-type radiation source handling device having a predetermined length, and a shielding body, the shielding body is part of the side portion and the central portion is bent from the top to the bottom of the shield, filled in the shielding box A shielding material which is a radiation shielding material, a connection clip which is installed in a corresponding relationship on both sides of the bent side portion of the shield and is coupled to the shield and is detachably coupled to each other, and a rubber packing coupled to the inner surface of the connection clip And a radiation alarm built in the bent central portion of the shield and equipped with a radiation measuring sensor, wherein the radiation source handling device is inserted and coupled to the bent portion of the side of the shield.

According to the present invention, a radiation detector equipped with a radiation measuring sensor is installed therein and includes a shield for detecting only radiation transmitted from a specific direction and blocking radiation transmitted from other directions, thereby providing a Accurate location tracking is possible.

Description

Device for finding position of radioactive source

The present invention relates to a radiation source location tracking device, and more particularly to a radiation source location tracking device that tracks the exact location of the radiation source (deviated from the radiation irradiator).

In the case of a radiological inspection using a sealed radioactive source, which is a sealed radioisotope, a company that performs a non-destructive inspection in the past, a Geiger Müller counter, which is a radiation measuring sensor, is generally used to track the position of the radiation source that is released from the irradiator. Geiger-Muller counter (hereinafter referred to as 'GM tube') has been used without radiation shielding or radiation meter. That is, in tracking the position of a radiation source, the radiation alarm which does not shield a radiation, the radiation measuring instrument, etc. have been used.

However, the sealed source is a radiation source that emits high energy radiation, and according to the prior art, the radiation alarm is provided in an unshielded state, so that the radiation dose is out of the measurement range of the radiation dose when tracking the location of the radiation source. Accordingly, there is a problem that it is difficult to track the location of the radiation source.

In addition, since it is difficult to track the location of the displaced radiation source by using the device as described above, the radiation source has to be directly tracked by the naked eye, and in this process, the radiation source may be exposed to radiation for a long time, resulting in a risk of radiation accident.

The present invention is conceived in view of the above-described problems, a built-in radiation alarm equipped with a radiation measuring sensor is installed, it detects only the radiation transmitted from a specific direction and shielding the radiation transmitted from other directions An object of the present invention is to provide a radiation source location tracking device that includes.

1 is a schematic diagram of a device configuration according to an embodiment of the present invention,

FIG. 2 is a diagram illustrating a configuration of some devices of FIG. 1;

3 is a view showing the configuration of the remaining device of FIG.

4 is a side view of the apparatus of FIGS. 2 and 3 coupled;

FIG. 5 is a front view of the apparatus of FIGS. 2 and 3 coupled; FIG.

<Description of Signs of Major Parts of Drawings>

1 ... radiation source handling device, 3 ... shield,

5 rods, 7 handles,

9 tongs, 11 shields,

13 ... shields, 15 ... radiation alarms,

17 ... connection clip, 19 ... rubber packing.

In order to achieve the above object, the present invention is a radiation source position tracking device, comprising a rod-type radiation source handling apparatus having a predetermined length, and the shielding body, the shielding part of the side portion and the center portion of the shielding bent from the top to the bottom A shielding material which is a radiation shielding material filled in the shielding box, a connection clip which is installed in a corresponding relationship on both sides of the bent side portion of the shielding box and is coupled to the shielding box and detachably coupled to each other at the same time; It is configured to include a rubber packing coupled to the side and a radiation alarm mounted to the bent central portion of the shield and equipped with a radiation measuring sensor, the radiation source handling device is inserted and coupled to the bent portion of the side of the shield. It is done.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram of a device according to the present invention, FIG. 2 is a view showing the configuration of some devices of the device according to the present invention of FIG. 1, and FIG. 3 is a configuration of the remaining devices of the device according to the present invention of FIG. It is a figure which shows.

As shown in FIG. 1, the apparatus according to the present invention is composed of a radiation source handling apparatus 1 and a shield 3. As shown in FIG. 2, the radiation source handling apparatus 1 includes a rod 5. , The handle 7 and the tongs 9, the handle 7 is coupled to one end of the rod 5, the tongs 9 are coupled to the other end.

The rod 5 is preferably provided with a predetermined length or more so that the worker can be protected from external exposure by handling the radiation source while maintaining a sufficient distance from the radiation source. The handle 7 is rotated 360 °, the shield 3 is a means for detecting only the radiation transmitted from a specific direction, and blocking the radiation transmitted from the other direction, the radiation source handling device ( Detachable combined with 1).

In addition, as shown in FIG. 3, the shield 3 is composed of a shield 11, a shielding material 13, a radiation alarm 15, a connecting clip 17 and a rubber packing 19. A shielding material 13 is filled in the shield box 11, the radiation alarm 15 is installed in the center of the shield box 11, and the connection clip 17 is shielded in the shield box 11. And the rubber packing 19 is engaged with the inner side of the connecting clip 17.

The shield box 11 is a portion of the side portion and the center portion is bent from the top to the bottom is composed of a steel plate or the like. The connecting clip 17 is a coupling means, which is detachably coupled to each other, and the radiation alarm 15 is a means for detecting radiation, and is equipped with a radiation measuring sensor such as a GM tube. Under this configuration, the radiation alarm 15 is built in the bent central portion of the shield 11, the connection clip 17 is corresponding to both sides around the bent side of the shield 11 Installed as and are respectively coupled to the shield 11 and at the same time detachably coupled to each other.

The shielding material 13 is a material having high radiation shielding efficacy such as tungsten or lead.

By the above configuration, the shield 3 detects only the radiation delivered to the bent portion of the side portion, that is, the radiation delivered from a specific direction, and the radiation delivered to other portions, that is, transmitted from other directions It becomes possible to block the radiation which becomes.

The radiation source handling apparatus 1 and the shield 3 are combined in the following manner. That is, the radiation source handling apparatus 1 is inserted into the bent portion of the side surface of the shield 11 in a state in which the coupling clip 17 of the shield 3 is released, and then the coupling clip 17 is engaged. do. 4 and 5 show state diagrams coupled in this manner.

4 is a side view of the radiation source handling apparatus 1 of FIG. 2 and the shield 3 of FIG. 3 coupled to each other, and FIG. 5 shows the radiation source handling apparatus 1 of FIG. 2 and the shield 3 of FIG. 3 coupled thereto. It is a front view of the state.

The rod 5 in FIG. 5 is shown for convenience and substantially shows the radiation source handling apparatus 1.

The following describes a method of using the device according to the present invention.

By the above-described configuration, since the radiation passes only through the bent portion of the side surface of the shield, that is, the opening, first, the handle is rotated to an appropriate level and the opening of the shield is directed in the horizontal direction to grasp the rough position of the radiation source. In other words, it is determined in which direction the radiation source is located. Continue to rotate the handle to the appropriate level and point the opening downward to confirm the exact location of the radiation source. That is, it is checked at which height of the direction the radiation source is measured above.

According to the present invention, there is provided in the radiation source position tracking device, a radiation detector equipped with a radiation measuring sensor is provided with a shield to detect only the radiation transmitted from a specific direction and to block the radiation transmitted from other directions. In addition, accurate location tracking of displaced radiation sources can be achieved, further reducing the time required to recover the radiation sources.

In addition, by tracking the location of the displaced radiation source using the device, it reduces the time for which the worker is exposed to radiation, and further reduces radiation accidents.

In addition, since the coupling and separation of the other device and the shield is easy, it is possible to use the shield at a low cost by attaching the shield to the source clip used in the prior art.

Claims (1)

In the radiation source position tracking device, A rod-shaped radiation source handling apparatus having a predetermined length, and a shielding body, the shielding body is a shielding box bent from the upper part to the lower part of the side part, the shielding material which is a radiation shielding material filled in the shielding, It is installed in a corresponding relationship on both sides of the bent side portion is connected to the shield and are coupled to each other at the same time detachable coupling between each other, the rubber packing is coupled to the inner surface of the connection clip and is installed in the bent central portion of the shield And a radiation alarm equipped with a radiation measuring sensor, wherein the radiation source handling device is inserted into and coupled to the bent portion of the side of the shield.