KR200261636Y1 - Wear for sheilding from radioisotope - Google Patents

Abstract

The present invention relates to a radiation shielding garment to prevent the human body access of radiation, and is composed of a front plate 10 and a rear plate 10 ', the front plate 10 and the rear plate 10' are respectively endothelial (13) The outer shell 14 and the inside of the outer shell 14 are formed of a space portion 13a and 14a, and each of the space portions 13a and 14a has a plurality of stacked structures. A plurality of cells 16 partitioned by the partition wall 15 are formed.

The radiation shielding garment of the present invention has a two-layered structure of inner skin and outer skin filled with a mixture of water and boron ( ¹⁰ B), so that workers in radiation control areas such as nuclear power plants or radioisotope handling facilities can operate the equipment. The maintenance work is safe from the danger of radiation exposure, which can prevent the disaster.

Description

Clothing for radiation shielding {Wear for sheilding from radioisotope}

The present invention relates to a radiation shielding clothing for blocking radiation, and more specifically, made of a vinyl canvas material, injecting a mixture of water and boron ( ¹⁰ B) to the body to access radiation. It relates to a radiation shielding garment to prevent.

Exposure to radiation such as neutrons, beta (β) rays, and gamma (γ) rays generated during operation of a general nuclear power plant or radioactive isotope causes serious damage to the human body, and is a life-threatening disease such as cancer or genetic diseases. It is already known that it can cause. In particular, neutrons have a relative risk up to 20 times higher than those exposed to β- or γ-rays, as defined by the International Commission on Radiation Protection (ICRP60). Exposure to neutrons can cause fatal damage to humans.

In the past, the proper protective equipment for the safety of workers working in the radiation generating area was not developed. Therefore, it was very difficult to perform the equipment operation and maintenance work of related equipment, and even in such a harsh environment, the workers' work continued. This had to be done, and this became a serious social problem.

In order to solve such a problem, conventionally, a radiation shielding body is constructed using a high density lead or concrete brick as a radiation shielding material, and thus the worker can avoid radiation. However, the radiation shield made of lead or concrete brick is not easy to be worn by the operator because of the high weight, and also difficult to manufacture in a variety of shapes, there was a difficult problem in clothing.

In addition, the conventional radiation shield is easy to shield β-rays, γ-rays, etc. In the case of neutrons, shielding is difficult because the energy distribution is wide from O.OleV to 1000MeV, ranging from thermal neutrons to fast neutrons. Unlike β- and γ-rays, they reflect and bounce back when hitting a reflector (called the "Albedo phenomenon"), so that a shielding effect against neutrons can hardly be realized with a radiation shield made of lead or concrete.

The present invention has been devised to solve the conventional problems as described above, consisting of a two-layer structure of the inner skin and the outer shell filled with a mixture of water and boron ( ¹⁰ B) in order to protect the worker from radiation safely It is an object of the present invention to provide a radiation shielding garment.

1 is a plan view showing a radiation shielding garment of the present invention in a plan view

Figure 2 is a perspective view showing the configuration of the radiation shielding garment according to Figure 1

3 is a longitudinal sectional view taken along the line “A” of FIG. 2;

* Explanation of Signs of Major Parts of Drawings *

2: Water and boron ( ^10B ) mixed solution 10: Electric board

10 ': thick plate 11: shoulder portion

11a: through hole 12: coupling portion

12a: adhesive member 13: inner skin

13a, 14a: space part 14: sheath

15 bulkhead 16: cell

17: opening 18: inlet

18a: stopper 19: through hole

The present invention for achieving the above object is composed of a front plate and a thick plate, the front plate and the thick plate is made of a laminated structure of the inner shell and the shell, respectively, the inner shell and the inside of the shell is formed of a space portion, each of these spaces Characterized in that a plurality of cells partitioned into a plurality of partitions are formed.

In addition, the cell is characterized in that the opening is formed on at least one side to be able to communicate with each other.

In addition, the endothelial and the outer shell is characterized in that the cells are arranged to cross each other.

In addition, the outer shell is formed with an injection hole leading to the space portion, characterized in that each cell is filled with a mixture of water and boron ( ¹⁰ B) through the injection hole.

In addition, the front plate and the rear plate is connected via the shoulder portion, the shoulder portion is formed with a through-hole for inserting the head, the inlet is characterized in that it is detachably screwed, sealed by a stopper provided on one side .

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

1 is an exploded view of the radiation shielding garment according to the present invention, the radiation shielding garment is shown in a planar state unfolded in the longitudinal direction. Figure 2 is a perspective view showing the configuration of the radiation shielding clothing according to Figure 1, an enlarged view showing the internal structure by cutting one side of the radiation shielding clothing. FIG. 3 is an enlarged longitudinal sectional view taken along the line “A” of FIG. 2.

As shown, the radiation shielding garment of the present invention is made of a vinyl canvas (Vinyl Canvas) material, which is divided into a front plate 10 and a thick plate 10 '. The front plate 10 and the rear plate 10 ′ are interconnected through the shoulder portion 11, and the through hole 11a is formed in the shoulder portion 11 so that the operator's head is inserted therethrough. In addition, the front plate 10 and the rear plate 10 ′ are formed with coupling portions 12 which are connected to each other and tightened on both sides, and each of the coupling portions 12 is an adhesive member 12a detachably bonded to each other. ) Is provided.

The front plate 10 and the rear plate 10 'are each composed of a two-ply structure consisting of an inner shell 13 and an outer shell 14, but the inner shell 13 and the outer shell 14 are respectively spaced portions 13a. Each of the spaces 13a and 14a is divided into a plurality of partition walls 15 having a bent structure, and a cell 16 is formed between the partition walls 15 and the partition walls 15. Is formed. In addition, the partition walls 15 are spaced apart from each other, and each cell 16 is formed with an open portion 17 to communicate with each other. On the other hand, the inner shell 13 and the outer shell 14 is most preferably such that the cells 16 are arranged alternately.

In addition, the front plate 10 and the rear plate 10 'are formed with injection holes 18 communicating with the space portions 13a and 14a in each shell 14, and a stopper 18a at the inlet side of these injection holes 18. ) Is provided, the injection hole 18 and the stopper (18a) is made of a structure that is mutually combined, opening and closing.

Radiation shielding clothing of the subject innovation in the structure as described above is the plate 10 and the plate 10 'through the injection port 18 formed on the surface of hydrogen ⁽² H) content of more water and a large neutron capture cross-section of the The mixed solution 2 of boron ¹⁰ B is injected. Which as is well known, a neutron is also effective atomic number is low, the more the deceleration effect of hydrogen ⁽² H) the atomic number lower is larger most containing a water thermal neutron decelerating effect large β line γ of the line shielding, Since boron ( ^10B ) has a large neutron capture cross-sectional area, the mixture of water and boron ( ^10B ) is most effective for shielding β-rays, γ-rays, and neutrons.

The water and boron mixed liquid 2 injected into the space portion 14a in each shell 14 of the front plate 10 and the rear plate 10 'through the injection hole 18 is an opening formed between each partition wall 15. It flows down through 17 and fills the entire cell 16 gradually from below. When the water and boron mixed liquid 2 is filled to a predetermined level in the space 14a in the outer shell 14, the water and boron mixed liquid 2 is formed in a through hole formed at an interface between the outer shell 14 and the endothelial 13. 19, the space 13a in the endothelium 13 is filled. In this way, when all the space parts 13a and 14a are filled with the water-boron mixed liquid 2, the said injection hole 18 is closed with the stopper 18a, and it is sealed.

The radiation shielding garment of the present invention having such a configuration has a water-boron mixture (2) in which radiation such as β-rays, γ-rays, and neutrons is first filled in the space portion 14a in the shell 14 even if the worker wearing it is exposed to radiation. Is primarily blocked by). In this process, even if some radiation is transmitted through the envelope 14 through a microcavity (not shown) that may be formed between the water-boron mixed solution 2 and the partition wall 15, the space portion in the endothelial 13 ( It is completely blocked by the water-boron mixed liquid 2 filled in 13a), and the worker is safe from radiation.

In the above, the present invention has been described by configuring a radiation shielding clothing in the form of a vest to be easy to wear, but not limited to the upper and lower or upper and lower integral clothing in the form of sweaters and pants according to the use. Can be. In addition, the present invention can be applied to various protective equipment such as a helmet as well as clothes.

In addition, the present invention has been described mainly with a two-ply structure of the outer shell and the endothelial, but not limited to this can provide a radiation shielding garment consisting of more layers.

As described above, the radiation shielding garment of the present invention has a two-layer structure of an inner skin and an outer shell filled with a mixture of water and boron ( ¹⁰ B), and is operated by a worker in a radiation control area such as a nuclear power plant or a radioisotope handling facility. It is safe from the danger of radiation such as β-rays, γ-rays, and neutrons during operation and maintenance work, so that disasters can be prevented in advance.

Claims (5)

It consists of a front plate 10 and a thick plate 10 ', the front plate 10 and the thick plate 10' is made of a laminated structure of the endothelial 13 and the outer shell 14, respectively, the endothelial 13 and the outer shell The inside of the 14 is formed by the space portions 13a and 14a, and each of the space portions 13a and 14a is provided with a plurality of cells 16 partitioned into a plurality of partition walls 15. Radiation shielding clothing. The method of claim 1, The cell (16) is a radiation shielding garment, characterized in that the opening portion (17) is formed on at least one side to communicate with each other. The method according to claim 1 or 2, The inner skin (13) and the outer skin (14) is a radiation shielding garment, characterized in that the cells (16) are arranged to cross each other. The method of claim 1, The outer shell 14 is formed with an inlet 18 leading to the spaces 13a and 14a, and the mixed liquid 2 of water and boron ¹⁰ B in each cell 16 through the inlet 18. Radiation shielding garments, characterized in that the filling. The method according to claim 1 or 4, The front plate 10 and the rear plate 10 'is connected via the shoulder portion 11, the shoulder portion 11 is formed with a through hole (11a) to fit the head, the injection hole 18 ) Is a radiation shielding garment, characterized in that it is detachably screwed, sealed by a stopper (18a) provided on one side.