KR101978842B1 - Radiation shield - Google Patents

Abstract

Disclosed is a radiation shield for a radiation medical device having a guide groove formed at both ends in the width direction of the bed in a longitudinal direction. The radiation shield comprises a sheet-shaped lower shielding part made of a radiation shielding material, A shielding main body portion extending from both ends of the lower shielding portion in the width direction and having a sheet-shaped upper shielding portion made of a radiation shielding material; And guide bars formed at both ends of the lower shield in the width direction on one side and inserted into the guide grooves of the radiological medical instrument, respectively.
This makes it possible to more effectively shield radiation during radiotherapy and to easily handle radiation shields.

Description

Radiation shield {

The present invention relates to a radiation shield for preventing a portion other than a medical treatment portion from being exposed to radiation, and more particularly, to a radiation shield having excellent radiation shielding effect and easy to use.

Exposure to radiation is very harmful to the human body, but inevitably radiation should be used for accurate diagnosis and treatment of disease. Therefore, it is necessary to prevent exposure of the portion other than the medical treatment portion to radiation when performing radiotherapy such as CT (Computed Tomography).

Conventionally, in order to prevent a portion other than a medical treatment portion from being exposed to radiation during radiotherapy, a sheet formed by extruding a lead component dispersed in rubber was used.

On the other hand, during CT, the medical examination is performed while radiating the radiation in all directions from the upper, lower, left and right sides of the patient. However, since the radiation shielding for the portion other than the medical treatment portion is usually such that the patient covers the radiation shielding sheet on the patient lying on the bed, The effect of shielding is not great.

KR 10-0909075 B1 KR 10-1607289 B1

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a radiation shield which can be easily handled during a radiation shielding operation to the body.

In addition, the present invention provides a radiation shield that can more effectively shield radiation during radiotherapy.

According to the present invention, there is provided a radiation shield for a radiation medical device, comprising: a sheet-shaped bottom shield made of a radiation shielding material; A shielding main body portion extending from both ends of the lower shielding portion in the width direction and having a sheet-shaped upper shielding portion made of a radiation shielding material; And a guide block formed at both ends of the lower shield in the width direction on one surface thereof and inserted into guide grooves of the radiation medical instrument, respectively.

The shielding body portion preferably comprises a radiation shielding agent composed of at least one of a tin compound, an antimony compound, a barium compound, a tungsten compound, an indium compound and a gadolinium compound, and a binder composed of at least one of natural rubber, synthetic rubber and synthetic resin Do. In this case, the shielding main body portion may comprise 20 to 30% by weight of tin compound, 10 to 20% by weight of antimony compound, 35 to 45% by weight of barium compound, 1 to 3% by weight of tungsten compound, 1 to 3% by weight of indium compound, To 3% by weight of the binder, and 10 to 30% by weight of the binder.

The shielding body portion may be formed of a plurality of sheets of sheet fabric made of a radiation shielding material.

And an insertion guide protruding outward in a longitudinal direction of the lower shield is formed at an end of the guide base.

The guide base may be connected to the lower shield through a gap made of a flexible material, which forms a gap between the guide base and the lower shield.

It is preferable that a protective cover is formed on both sides of the shield main body portion.

It is preferable that a rim protection cover is formed along the rim of the shield main body portion.

The shield main body may be composed of a radiation shielding agent made of lead and a binder made of at least one of natural rubber, synthetic rubber and synthetic resin.

The radiation shield according to the present invention can be installed in a radiation medical instrument to facilitate radiation shielding for a patient.

The radiation shields shield radiation from all directions of the patient, and thus have excellent radiation shielding effect.

When the radiation shield is made of a lead-free material, the risk of leakage of the lead component can be reduced and the radiation shield can be more easily handled with a relatively light weight.

1 is a perspective view of a radiation medical instrument to which a radiation shield according to the present invention is applied,
2 is a cross-sectional view of the bed portion of the radiological medical device,
3 is a perspective view of a radiation shield according to the present invention,
Fig. 4 is a cross-sectional view of the radiation shield in a state in which the radiation shield is installed in the radiation medical device.

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

The present invention relates to a radiation shield which is installed in a radiation medical device (2) during radiation treatment to prevent a portion other than a medical treatment portion from being exposed to radiation. The radiation medical device 2 to which the radiation shield according to the present invention is applied has guide grooves g formed in the longitudinal direction at both ends in the width direction of the bed 2a as shown in Figs. 1 and 2 .

Fig. 3 is a perspective view of the radiation shield 1 according to the present invention. The radiation shield 1 according to the present invention largely includes a shield main body 10 and a guide base 20.

The shielding main body 10 is of a sheet type having a radiation shielding material so as to surround the portion of the patient other than the patient's medical examination portion during the medical treatment through the radiological medical instrument so that the radiation is not irradiated to the portion other than the medical examination portion.

The material of the shielding main body portion 10 is preferably made of at least one of a radiation shielding agent composed of at least one of a tin compound, an antimony compound, a barium compound, a tungsten compound, an indium compound and a gadolinium compound and at least one of natural rubber, And a binder.

The radiation shielding agent such as a tin compound serves to shield the radiation as the term encompasses, and the binder can combine a powdery radiation shielding agent to maintain the shape of the flexible sheet.

Barium is harmless to the human body and can effectively shield X-rays from lead, and tin and antimony have high radiation absorption coefficient of low energy. Tungsten has a very high radiation shielding rate and gadolinium absorbs neutrons.

The shielding main body 10, which is made of various lead-free components, can prevent the risk of leakage of lead components and absorb radiation of various energy states.

The composition ratio of the materials constituting the shielding main body 10 is 20 to 30% by weight of the tin compound, 10 to 20% by weight of the antimony compound, 35 to 45% by weight of the barium compound, 1 to 3% by weight of the tungsten compound, 3% by weight, the gadolinium compound is 1 to 3% by weight, and the binder is 10 to 30% by weight. The shielding main body 10 is formed to be about 10% lighter than the radiation shielding sheet including lead, so that it can be handled easily.

Illustrative examples include tin dioxide (SnO ₂ ) as the tin compound, antimony trioxide (Sb ₂ O ₃ ) as the antimony compound, barium sulfate (BaSO ₄ ) as the barium compound, tungsten dioxide ₂ ), indium oxide (In ₂ O ₃ ) is used as the indium compound, and gadolinium (III) oxide (Gd ₂ O ₃ ) is used as the gadolinium compound.

The shielding main body 10 is composed of a lower shielding part 11 and an upper shielding part 12 extending from both ends in the width direction of the lower shielding part 11. The lower shielding portion 11 and the upper shielding portion 12 are both made of a radiation material and formed in a sheet shape. 4, the shielded body portion 10 is configured such that the lower shielding portion 11 is located below the bed 2a and the upper shielding portion 12 is located above the bed 2a, Respectively. That is, since the shielded main body 10 is installed so that the patient P can wrap the bed 2a and the patient P together while lying on the bed 2a of the radiation medical device 2, The shielding can be shielded from radiation emitted in all directions.

Two guide rails 20 are respectively formed in the lower shielding portion 11 and both end portions in the one surface width direction and inserted into the guide grooves g formed at both ends in the width direction of the radiological medical apparatus bed 2a. The guide base 20 inserted in the guide groove g allows the radiation shield 1 according to the present invention to be easily fixed to the radiation medical device 2 and the guide groove g of the bed 2a Thereby allowing the patient P to cover a portion of the body requiring radiation shielding.

The guide base 20 is made of a hard material and maintains a constant shape in comparison with the shielding main body 10 so that the guide base 20 can be easily inserted into the guide groove g of the radiation medical device 2. [ .

The shield body portion 10 may be formed of a plurality of sheets of sheet material M made of a radiation shielding material.

The thin sheet fabric M is relatively easy to make and handle, and it is possible to form the shielding body portion 10 having a desired shielding ratio by adjusting the overlapping number of the sheet fabrics M having a constant shielding ratio.

At the end of the guide base 20, an insertion guide 21 protruding outward in the longitudinal direction of the lower shield 11 may be formed.

The insertion guide 21 protruding outward in the longitudinal direction of the lower shield 11 can be easily distinguished from the shield main body 10 by the naked eye without overlapping with the shield main body 10, So that it can be easily inserted into the guide groove (g) of the radiation medical device (2) without interference with the shielding main body (10).

The guide base 20 is preferably connected to the lower shield 11 through a spacer 30.

The spacing member 30 is formed of a flexible material so as to be spaced apart from the guide base 20 and the lower shielding portion 11 within a radius of a width of the spacing member 30 with respect to the lower shielding portion 11 So that the guide base 20 can be moved. As a result, the guide base 20 can be easily inserted into the guide groove g of the radiation medical device 2 and the gap between the guide grooves g of the radiation medical device 2 can be easily guided by the guide base 20, It is possible to use the radiation shielding device according to the present invention in the radiation medical device 2 even if the distance does not exactly coincide with the interval between the radiation shielding portions.

A protective cover 13 may be formed on both sides of the shield main body 10.

The protective cover 13 is made of, for example, synthetic fibers to protect the shield body portion 10 by repeatedly using the radiation shield according to the present invention by wrapping the flexible shield body portion 10. This effect is particularly effective in preventing the outermost sheet fabric M from being damaged when the shielded main body portion 10 is formed of a plurality of sheets of thin sheet fabrics M, respectively.

When the protective cover 13 is formed on both sides of the shielding main body 10, the guide base 20 should be formed on the outside of the protective cover 13.

The rim protection cover 14 may be formed along the rim of the shielding main body portion 10. [

The rim protection cover 14 prevents damage to the shielding main body 10 due to repetitive use of the radiation shield as in the case of the protective cover 13 and is sewn to the rim of the shielding main body 10, 10 are made up of a plurality of folded sheet fabrics M, it functions to integrate sheet fabrics.

According to another embodiment of the present invention, the shielding body portion 10 of the radiation shielding device 1 may be composed of a radiation shielding agent made of lead and a binder made of at least one of natural rubber, synthetic rubber and synthetic resin .

The radiation shielding agent made of lead serves to shield the radiation, and the binder can combine the powdered radiation shielding agent to maintain the shape of the flexible sheet.

Lead has a good radiation shielding effect and low cost.

The radiation shield according to the present invention may further include a handle (not shown) or a Velcro (not shown) attached to a side surface of the shield main body in addition to the above-described configurations. The handle facilitates the delivery of the radiation shield and the Velcro is formed in the upper shield 12 to bond the upper shields 12 together to allow the radiation shield to maintain the patient wrapped condition.

The scope of the present invention is not limited to the above-described embodiments, but may be embodied in various forms of embodiments within the scope of the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

1: Radiation shielding zone 2: Radiation medical device
2a: bed 10: shielded body part
11: lower shielding part 12: upper shielding part
13: Protective cover 14: Border protection cover
20: Guide Bands 21: Insertion Guide
30:
g: Guide groove M: Sheet fabric

Claims (9)

A radiation shield for a radiation medical device having a guide groove formed in a lengthwise direction at both ends in a width direction of a bed,
A shielding main body portion having a sheet-shaped lower shielding portion made of a radiation shielding material and a sheet-shaped upper shielding portion extending from both ends in the width direction of the lower shielding portion and made of a radiation shielding material; And
And guide bases formed at both ends of the lower shielding portion in the width direction on one surface thereof and respectively inserted into guide grooves of the radiation medical device,
And an insertion guide protruding outward in the longitudinal direction of the lower shield is formed at an end of the guide base.
The method according to claim 1,
The shield main body portion
A radiation shielding agent comprising at least one of a tin compound, an antimony compound, a barium compound, a tungsten compound, an indium compound and a gadolinium compound,
And a binder composed of at least one of natural rubber, synthetic rubber, and synthetic resin.
3. The method of claim 2,
The shield main body portion
Wherein the antimony compound is 10 to 20 wt%, the barium compound is 35 to 45 wt%, the tungsten compound is 1 to 3 wt%, the indium compound is 1 to 3 wt%, the gadolinium compound is 1 to 3 wt% 10 to 30% by weight.
The method according to claim 1,
Characterized in that the shielding body portion comprises a multi-ply sheet fabric made of a radiation shielding material.
delete The method according to claim 1,
Wherein the guide block is spaced apart from the guide block and the lower shielding portion and connected to the lower shielding portion through a gap made of a flexible material.
The method according to claim 1,
And a protective cover is formed on both sides of the shield main body part.
The method according to claim 1,
And a rim protection cover is formed along the rim of the shielding main body part.
The method according to claim 1,
The shield main body portion
A radiation shielding agent made of lead,
And a binder composed of at least one of natural rubber, synthetic rubber, and synthetic resin.

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