KR200321442Y1 - Potable Radiation Shielding Apparatus - Google Patents

Abstract

The present invention relates to a mobile radiation shielding device loaded with a plastic block coupled to the shield block up and down.

In the mobile radiation shielding device according to the present invention, left and right blocks having the same size as the middle block and located on the same line are formed on the same axis as the middle block, respectively, on the left and right sides of the intermediate block in the form of a rectangular parallelepiped. A shielding block filled with transparent paraffin inside the block, the left block and the middle block is loaded up, down, left and right, and mounted on the moving means.

Accordingly, it is easy to use because it can be connected to the top, bottom, left and right appropriately according to the lung object, and because the shield is a transparent paraffin, the inside can be observed and can be easily carried by the moving means.

Description

Portable Radiation Shielding Apparatus

The present invention relates to a device for shielding radiation such as neutrons, gamma rays, and beta rays in a radiation handling facility such as a nuclear power plant and a laboratory, and more particularly, a shielding block provided to prevent radiation exposure of a radioisotope handler. It relates to a mobile radiation shield that can be loaded up and down before and after the plastic block.

In general, radioactive isotope handling facilities in nuclear power plants and hospitals used shielding materials made of dense lead material for the purpose of shielding radiation generated. However, lead is heavy, difficult to transport and handle, and cannot be commercialized in various models. Also, due to the reflection phenomenon that protrudes again when a radiation neutron strikes, it is less effective for shielding neutrons generated during operation of a nuclear power plant. Due to this, there is a problem in that the workers put into the work are exposed to radiation.

Radiation neutrons have a wide energy distribution, ranging from thermal neutrons to neutrons (0.01 eV to 1000 Mev). In particular, neutrons do not have charge and lose energy due to elastic collisions with the nucleus. When neutrons gradually lose energy and become thermal neutrons (0.025 eV) they decay into protons and electrons. Therefore, a material having a low atomic number is preferable as the shield of the neutron, but since the lead or concrete is used for the purpose of shielding the gamma beta ray with the existing shield, the neutron shielding has a problem.

The present invention is designed to solve the above problems, it is an object to provide a mobile radiation shielding device that can prevent the external exposure of workers by shielding the radiation generated from the nuclear power plant or radioisotope handling equipment.

1 is a perspective view of a shielding block of a mobile radiation shielding apparatus according to the present invention.

Figure 2 is a view showing the connection of the shielding block of the mobile radiation shielding device according to the present invention.

Figure 3 is a perspective view of the moving means of the mobile radiation shielding device according to the present invention.

※ Explanation of main code of drawing ※

1: middle block 2: left block

3: right block 11: vehicle

12: lower frame 13: upper frame

14: height fixing device 15: wheels

16: base

In order to achieve the object of the present invention as described above, the movable radiation shielding device of the present invention has a size equal to that of the intermediate block in the left and right sides of the intermediate block in the form of a rectangular parallelepiped in the radiation shielding device connecting the shielding block up, down, left and right. Left block and right block located on the same line are formed on a different axis from the middle block, and the shielding block filled with transparent paraffin inside the middle block, the left block and the middle block is mounted on the moving means. It is characterized by.

The shielding block is made of H-based paraffin plastic.

The moving means is characterized in that it is provided with a lower frame fixed to the base perpendicular to the base on which the wheel is formed on the lower surface so as to move the shielding block and the upper frame slidably coupled to the lower frame.

Hereinafter, the mobile radiation shielding device of the present invention will be described with reference to the accompanying drawings.

Mobile radiation shielding device according to the present invention is configured by combining the blocks of the same shape.

The movable radiation shielding device of the present invention connects the shielding block in which the left block 2 and the right block 3 are coupled to the left and right sides of the intermediate block 1, respectively, and is mounted on the moving means.

The left block 2 and the right block 3 formed on the left and right sides of the intermediate block 1 are located on the same line, and on the other axis between the left block 2 and the right block 3 of the intermediate block 1. Located in

At this time, the intermediate block (1), the left block (2) and the right block (3) is made of a high-paragraph element of low atomic number, such as hydrogen, oxygen, carbon, etc. Preferably, grooves may be formed at the corners of each block to facilitate connection.

In addition, the inside of the intermediate block (1), the left block (2) and the right block (3) is also filled with transparent H-series paraffin plastic. Each block (1, 2, 3) is formed of plastic and the inside is filled with transparent H-series paraffin plastic to transmit visible light so that the opposite side of the blocks (1, 2, 3) can be seen.

The middle block (1), the left block (2) and the right block (3) forming the shielding block have the form of a block, and the left block (2) and the right block (3) on the left and right sides of the middle block (1) Since it is on the same line, it can be easily connected up, down, left and right. And since the intermediate block 1 is not in line with the left block 2 and the right block 3, it is possible to block the radiation leaking through the gap.

The moving means 11 is coupled to the lower frame 12 so that the upper frame 13 is height adjustable.

The lower frame 12 is coupled to the base 16 perpendicular to the ground, and the upper frame 13 is coupled to the lower frame 12 so as to be slidable. At this time, the lower frame 12 is provided with a height fixing device 14 for fixing the upper frame 13 after adjusting the height.

And the lower surface of the base 16 is coupled to the wheel 15 is provided with a fixing device to enable movement.

Referring to the operation of the mobile shield of the present invention having the configuration as described above are as follows.

A shielding block having an intermediate block 1, a left block 2, and a right block 3 is connected to the base 16 of the moving means by loading up, down, left, and right. The height, width and thickness at which the shielding block is loaded are determined depending on the transmission power and the transmission range of the radiation.

When the loading of the shielding block is completed on the moving means, the height is adjusted and the shielding block is fixed to shield the radiated radiation. When the movement is necessary, the shielding block is moved to a moving means loaded, and fixed by using a fixing device provided on the wheel 15 when the movement is completed.

Mobile radiation shielding device of the present invention having the configuration and action as described above can obtain the following effects.

Such a mobile radiation shielding device can prevent the worker's external exposure from radiation generated during operation of the nuclear power plant or radioisotope handling facility.

In addition, according to the shielding object it can be used by connecting to the top, bottom, left and right as appropriate, it is easy to use, since the shield is a transparent paraffin can observe the inside, can be easily carried by the moving means.

Claims (3)

In the radiation shielding device for connecting the shielding block up, down, left and right, Left and right blocks each having the same size as the middle block and located on the same line on the left and right sides of the intermediate block in the form of a cuboid are formed on an axis different from the middle block, and the inside of the middle block, the left block and the middle block. A mobile radiation shielding device, characterized in that the transparent paraffin-filled shielding block is mounted on the moving means by loading up, down, left and right. The method of claim 1, The shielding block is a mobile radiation shielding device, characterized in that made of H-series paraffin plastic The method of claim 1, The moving means includes a lower radiation frame vertically fixed to the base on which the wheel is formed on the lower surface and the upper frame is coupled to the lower frame to be movable so that the shielding block can be moved. .