KR200474824Y1 - A functionality Improved collimator - Google Patents

Abstract

This invention relates to improved collimators.
The collimator 1 is composed of a lower body 10 and an upper body 20 which is assembled to an upper part of the lower body 10 and is opened and closed while being selectively lifted and lowered up and down, (EN) Provided is a collimator improved in function by irradiating the radiation beam (1) with 360 degrees in a forward direction or 60 to 120 degrees in a forward direction.
In the present invention constructed as described above, the collimator is configured to be in a tow-in-one retractable manner, and the irradiation direction of the radiation is 360 degrees in the forward direction or 60 to 120 degrees in the forward direction so that two examinations can be performed with one collimator. This greatly improves the quality and reliability of the product, so that it can provide a good image by satisfying the various needs of users who are users.

Description

{A functionality improved collimator}

The present invention relates to a collimator having improved functions, and more particularly, a collimator is constructed of a tow-in-one retractable type so that the irradiation direction of the radiation is 360 degrees forward or 60-120 degrees forward, This enables the quality of the product and reliability to be greatly improved, so that it can provide a good image by satisfying the various needs of the users who are the users.

As we all know, among the non-destructive tests, radiography refers to x-ray and gamma ray inspection, and is used to inspect internal defects of a product or to investigate changes in thickness and density. Digital radiography is a method of storing data in a computer storage device using linearly arranged sensors instead of film. A similar technique is computed tomography (CT).

A collimator is a device made of materials that shield radiation such as lead or tungsten to limit the direction and diffusion of radiation. This is a mechanism for reducing the radiation dose rate other than the use beam as much as possible. In the γ-ray penetration test, it is used only in the direction necessary for the safe handling test of the radiation, and is used so that it is shielded as much as possible in other directions. Generally, it is made of tungsten or lead which shields radiation well, but the required thickness and size are different according to γ-ray energy. It is also called a home stall.

The conventional collimator as described above irradiates radiation in a direction of 360 degrees in four directions and irradiates the irradiation direction of the radiation 60 to 120 degrees forward, but the following problems have arisen.

That is, in the above-mentioned prior art, since both of irradiating 360 degrees at four directions and irradiating the irradiation direction of 60-120 degrees in the forward direction are all required in the above-mentioned prior art, there is a problem of cost burden, The problem was also caused.

Korea Patent No. 0465671 (name: coupling-integrated collimator) has been registered. Korea Patent No. 0267167 (name: Radiation dose control collimator) has been registered.

It is a first object of the present invention to provide a collimator composed of an upper body and a lower body. The second object of the present invention is to provide a collimator, The collimator was constructed as a tow-in-one retractable type. The irradiation direction of the collimator was irradiated at 360 ° in the forward direction or 60-120 degrees in the direction of the cut surface of the lower body of the upper body and two collimators The third objective is to make it possible to carry out two examinations with one collimator, so that there is no cost burden, and the advantage of being easy to store and carry and move is provided. And the fifth purpose is to ensure the quality and reliability of the product. The present invention provides a collimator improved in function that can satisfy a variety of needs (needs) of a user as a user and provide a good image.

In order to achieve the above object, the present invention is directed to a collimator for radiating a radiation direction in all directions or forward, comprising a lower body and an upper body assembled on the upper body and being opened and closed selectively up and down The lower body includes a source passage through which a source hose is inserted, an upper body having a source for receiving a source, and upper and lower bodies, The upper and lower bodies are provided with an assembling protrusion at the lower end of the upper body so as to be opened and closed while the lower body is being operated. The collimator is provided on the upper surface of the upper body, Wherein the radiation is irradiated at 60 to 120 degrees forward, and when the upper body is raised and lowered, 60 to 120 degrees and 360 degrees at a forward angle are irradiated to perform two examinations, thereby improving the function of the collimator to provide.

As described in detail above, the present invention includes a collimator composed of an upper body and a lower body.

According to the present invention, the collimator is constructed of a tow-in-one retractable type so that the irradiation direction of the collimator is 360 degrees forward or 360 degrees forward from the cut- It is possible to conduct two examinations with a single collimator

And this design is one collimator, which makes it possible to carry out two kinds of inspection, so there is no cost burden, and it is advantageous that it is easy to store, move and move.

In addition, the present invention makes it possible to irradiate even a small curie due to the structure of the front irradiation cut-out portion.

This design greatly improves the quality and reliability of the product due to the above-mentioned effects, and thus it is a very useful device that can provide a good image by satisfying the various needs of users as users.

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

FIG. 1 is a cross-sectional view of a collimator according to an embodiment of the present invention;
A perspective view of the state.
FIG. 2 is a cross-sectional view of the collimator of FIG.
A perspective view of the state.
FIG. 3 is a cross-sectional view of the collimator of FIG.
Section of the state.
FIG. 4 is a cross-sectional view of the collimator of FIG.
Section of the state.
FIG. 5 is a cross-sectional view of the collimator of FIG.
FIG.
FIG. 6 is a cross-sectional view of the upper part of the collimator of FIG.
FIG.

The collimator having improved functions applied to the present invention is configured as shown in Figs. 1 to 6.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

First, the present invention is characterized in that the collimator 1 is composed of a lower body 10 and an upper body 20 which is assembled on the upper part of the lower body 10 and is opened and closed while being selectively lifted and lowered up and down, (1) provides a collimator improved in function of irradiating the radiation direction of the radiation on the basis of the direction of the cut surface of the upper irradiation body and the lower body of the upper body by 360 degrees or 60 to 120 degrees forward .

Hereinafter, the present invention will be described in more detail.

The lower body 10 according to the present invention is provided with a source passage hole 14 in which a source guide hose 2 is inserted.

Also, the upper body 20 is provided with a source position hole 25 in which the source 3 is seated.

The lower body of the upper body 20 is provided with an assembling protrusion 23 and an upper portion of the lower body 10 so as to be opened and closed while being selectively assembled to the upper and lower bodies 20 and 10, An assembly hole 11 is formed.

In particular, as shown in FIG. 3, the assembling protrusion 23 and the assembling hole 11 are assembled in a cylindrical shape so that the assembling protrusion 23 and the assembling hole 11 are automatically lifted and lowered vertically along a cylindrical shape.

In the present invention, as shown in the enlarged view of FIG. 3, the assembling protrusions 23 and the assembling holes 11 are formed with threaded portions 16 and 26 so that they can be vertically moved up and down by mutual screwing.

In addition, according to the present invention, guide projections 27 and guide holes 17 are formed in the assembly projections 23 and the assembly holes 11, respectively, as in the enlarged view of FIG.

In addition, as the upper body 20 is lifted up, the assembly protrusion 23 having a smaller diameter is exposed to the outside of the upper and lower bodies 20 and 10 applied to the present invention, The inclined surfaces 24 and 13 are formed so as to be easily exposed to the outside.

In the upper and lower bodies 20 and 10 applied to the present invention, the front irradiation cut-out portion 21 formed with the tungsten 22 cut-out portion so that the radiation dose of the source is easily irradiated forward from the rear side, As shown in FIG.

In the drawings, reference numeral 2 denotes a source guide hose fitted into the lower body 10, and reference numeral 3 denotes a source which is fitted in the source guide hose and is located inside the collimator.

In the meantime, the present invention can be variously modified and can take various forms in applying the above components.

It should be understood, therefore, that the appended claims are not to be interpreted as limiting the invention to the particular forms set forth in the foregoing description, but rather should be construed to include all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

Hereinafter, the operation and effect of the improved collimator having the improved function of the present invention will be described.

First, the present invention is configured to make a collimator a tow in one retractable type so that the irradiation direction of the radiation is 360 degrees in the forward direction or 60 to 120 degrees in the forward direction, and two types of inspection can be performed with one collimator.

FIG. 1 is a perspective view of an upper body 20 of a collimator 1 improved in function applied to the present invention, and FIG. 3 is a perspective view of a collimator 1 having improved functions applied to the present invention. 5 is a side cross-sectional view of the upper body 20 of the collimator 1 improved in function applied to the present invention in a state in which the upper body 20 is lowered. In this state, The irradiating direction of the radiation of the light source 3 is 60 to 120 degrees forward.

That is, in the state where the upper body 20 is lowered, since the thickness of the upper body 20 and the lower body 10 is as thick as that of the upper body 20 and the lower body 10, the source 3 is relatively thin The radiation source 3 located at the source location hole 25 is irradiated forward through the tungsten 22. In this case,

FIG. 2 is a perspective view of a collimator 1 having improved functions applied to the present invention in a state where an upper body 20 of the collimator 1 is elevated. FIG. 4 is a perspective view of a collimator 1 6 is a side cross-sectional view of the upper body 20 of the collimator 1 improved in function applied to the present invention in an elevated state. In this state, in the state where the upper body 20 is raised, 3) is irradiated 360 degrees in four directions.

2, 4, and 6 are diagrams of a state in which the source 3 is positioned in the source position hole 25. In this state, when the upper body 20 is raised, The radiation is radiated in all directions as indicated by the arrows through the assembly projections 23 having a small thickness and the inclined surfaces 13 and 24 spaced apart from each other.

As described above, according to the present invention, since the assembling protrusion 23 having a small diameter is exposed to the outside as the upper body 20 is raised, the inclined surfaces 24 and 13 are formed .

Particularly, the assembling protrusion 23 and the assembling hole 11 of the present invention are assembled in a cylindrical shape and are vertically moved up and down or combined with the screw portions 16 and 26 so as to move upward and downward, Can be coupled to the guide hole 17 so as to be vertically moved up and down.

That is, when the assembling protrusion 23 and the assembling hole 11 are assembled in a cylindrical shape, the upper body 20 is vertically moved upward and downward from the lower body 10 by being pulled or pushed in a state of being assembled with a little interference .

The assembling protrusion 23 and the assembling hole 11 are assembled and operated by the threaded portions 16 and 26 so that the threaded portion 16 formed on the inner peripheral surface of the lower body 10 and the threaded portion 16 formed on the outer peripheral surface of the upper body 20 When the upper body 20 is rotated counterclockwise, the upper body 20 is lowered when the upper body 20 is rotated in the opposite direction. As a result, the upper body 20 is moved upward and downward Down operation.

The guide protrusion 27 protruding from the outer circumferential surface of the upper body 20 is fitted in the guide hole 17 formed in the inner peripheral surface of the lower body 10 so that the operator can grasp the upper body 20 The upper body 20 can be easily lifted up and down from the lower body 10 by pushing it.

As described above, according to the present invention, as the upper body 20 is moved up and down in the lower body 10, the irradiation direction of the radiation of the collimator 1 is irradiated 360 degrees in the forward direction or 60 to 120 degrees in the forward direction, (1) allows two tests.

The technical idea of the improved collimator is that the same result can be repeatedly performed. Especially, it is worth protecting the collimator because it can contribute to industrial development by promoting the technical development by implementing the design of the present invention.

Description of the Related Art
10: Collimator
20: upper body
30: Lower body

Claims (7)

delete A collimator for radiating a radiation direction of radiation in all directions or forward,
A collimator 1 is composed of a lower body 10 and an upper body 20 which is assembled on an upper part of the lower body 10 and is opened and closed while being selectively moved up and down,
The lower body 10 includes a source passage hole 14 into which a source hose 2 is inserted and a source position hole 25 into which the source 3 is seated, And upper and lower bodies 20 and 10 so as to be selectively opened and closed while being upwardly and downwardly operated while being assembled with each other, An assembling hole 11 is formed,
The upper irradiation body 21 and the cutting surface 12 formed on the same plane are provided on the upper and lower bodies 20 and 10 so that the dose of the source can be more easily irradiated forward than the rear, The collimator 1 always irradiates the radiation 60 to 120 degrees ahead of the upper body 20 irrespective of the vertical movement of the upper body 20. When the upper body 20 is raised and lowered, the collimator 1 irradiates 60 to 120 degrees and 360 degrees Wherein the collimator has an improved function.
The method of claim 2,
Wherein the assembling protrusion (23) and the assembling hole (11) are integrally assembled in a cylindrical shape and are vertically moved up and down along a cylindrical shape.
The method of claim 2,
And screw portions (16) (26) are formed in the assembling protrusion (23) and the assembling hole (11), and the vertically moving up and down operation is performed by screwing them together.
The method of claim 2,
Wherein a guide projection (27) and a guide hole (17) are formed in the assembling protrusion (23) and the assembling hole (11), respectively, and the slide operation is performed vertically.
The method of claim 2,
As the upper body 20 is raised, the assembly protrusion 23 having a smaller diameter is exposed to the outside, so that the dose of the source can be easily irradiated to the outside through the outer frame of the upper and lower bodies 20 and 10 Characterized in that an inclined surface (24) (13) is formed.
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