KR19980077051A - X-ray grid applied to x-ray - Google Patents

Abstract

The present invention relates to an X-ray grid (X-RAY GRID) applied to X-ray imaging, in particular an interspacer made of a material (Synthetic Resins) excellent in X-ray transmittance, and the aluminum foil on both sides of such a synthetic resin material After the deposition process is a grid made by closely bonding and fixing the thin thin plate using the aluminum thin plate and the thin thin adhesive. Therefore, the intermediate material is made of a synthetic resin to be able to create a clearer X-ray image while maintaining a lower radiation exposure than the conventional body; An aluminum thin plate that can be deposited on both sides of the intermediate material as a thin film; An epoxy adhesive applied to the outer circumferential surface of the aluminum thin plate to maintain sufficient adhesive force; And it is characterized in that the flexible thin plate is provided so that it can be closely adhered to the epoxy adhesive.

Description

X-ray grid applied to x-ray

In general, X-rays widely applied in general hospitals / clinics are provided so that doctors can effectively treat the abnormal part of the patient on the X-ray film, so that the X-ray grid (X -RAY GRID) is provided so that the image can be more clearly displayed on the film during X-ray imaging.

More specifically, in the so-called diagnostic X-ray imaging, the primary X-rays projected on the imaging device pass through the human body to increase diffuse reflection and scattered lines, which in turn affects the X-ray film, resulting in contrast, By lowering the sharpness and resolution, the image quality is poor, and the X-ray grid is positioned between the human body and the X-ray film to remove the scattered lines.

At this time, the X-ray grid is usually made of aluminum material and bonded to a thin plate having good X-ray absorption rate to the INTERSPACER plate with excellent X-ray transmittance, and then composed of a narrow and long strip (STRIP) plate at regular intervals. Angle and a continuous array.

However, the X-ray grid having the above-described configuration is given another objective of appropriately protecting the patient from exposure radiation as well as displaying clearer X-ray images. Development must precede.

At present, aluminum is adopted as a general intermediate material, but since the specific gravity is slightly high as 2.7, it is urgently needed to replace it with a lower specific gravity material.

Accordingly, the present invention has been conceived that synthetic resins may be adopted as an alternative material which has a low specific gravity and can obtain a clearer X-ray image while maintaining a small amount of radiation exposure to the human body.

1 is an X-ray grid of some notched state showing the configuration of the present invention.

2 is a partially enlarged configuration diagram of FIG. 1.

3 is an exemplary view showing a state of use of the present invention.

Explanation of symbols on the main parts of the drawings

10: intermediate material 11: aluminum sheet

12: adhesive 13: thin sheet

14: cover material 100: grid

The configuration of the X-ray grid for achieving the requirements and objects of the present invention is an intermediate material provided with a resin; An aluminum thin plate that can be deposited on both sides of the intermediate material as a thin film; An epoxy adhesive applied to the outer circumferential surface of the aluminum thin plate to maintain sufficient adhesive force; And it is characterized in that the flexible thin plate is provided so that it can be closely adhered to the epoxy adhesive.

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

1 is an X-ray grid of a partially cut out state showing the configuration of the present invention, Figure 2 is a partially enlarged configuration of FIG.

According to an embodiment of the present invention, by using a synthetic resin (for example, polyester and polycarbonate, etc.), the intermediate material 10 which is somewhat narrow and maintains a constant length is provided, and both sides of the intermediate material 10 are light aluminum The thin plate 11 is prepared and vapor-deposited.

At this time, the outer peripheral surface of the aluminum thin plate 11 is coated with an epoxy adhesive 12 which is a dedicated adhesive of the aluminum thin plate 11 and the lead thin (lead) so that sufficient adhesive force can be maintained, and such an epoxy adhesive 12 In order to be closely bonded to each other, the thin plate 13 which maintains the same length direction as the intermediate material 10 is also integrally provided and is covered with a separate cover material 14 so that the synthetic resin grid 100 may be provided. Can be.

According to the present invention of the configuration, in order to overcome the imperfection according to the mutual bonding of the intermediate material 10 and the lead thin plate 13 of the synthetic resin material to make the aluminum sheet 11 with 1/10000 on both sides of the intermediate material 10 After the deposition, it is only to apply the epoxy thin adhesive 12 to integrate the thin thin plate 13, the conventional specific gravity of 2.7 to about half of that of the synthetic resin of 1.3, which is about half of the remarkable reduction of specific gravity can be maintained Can be.

3 is an exemplary view showing a state of use of the present invention, when the synthetic resin grid 100 of the present invention which maintains such a low specific gravity is fixed to the front of the X-ray film and used as much as the lowered specific gravity of radiation. Clear X-ray images can be obtained even with the exposure dose.

Therefore, the present invention can reduce the overall cost according to the manufacture of the grid, while maintaining a lower dose of radiation than conventionally according to the patient's medical treatment, providing a clearer X-ray image is provided with economical usefulness of the patient It is possible to improve safety.

The present invention relates to an X-ray grid (X-RAY GRID) applied to X-ray imaging, in particular an interspacer made of a material (Synthetic Resins) excellent in X-ray transmittance, and the aluminum foil on both sides of such a synthetic resin material After the deposition process, the aluminum thin plate and the thin thin adhesive are closely adhered and fixed to the thin plate, thereby significantly reducing the specific gravity of the grid and at the same time maintaining a small amount of radiation exposure to the human body while creating a clearer X-ray image. Provides an X-ray grid that is applied to X-ray imaging wherever possible.

Claims (1)

An intermediate material made of resin; An aluminum thin plate that can be deposited on both sides of the intermediate material as a thin film; An epoxy adhesive applied to the outer circumferential surface of the aluminum thin plate to maintain sufficient adhesive force; And X-ray grid (X-RAY GRID) is applied to X-ray imaging, characterized in that the thin plate is provided so that it can be closely adhered to the epoxy adhesive.