KR100414046B1 - Pb ARRAYMENT STRUCTURE of X-ray Grid. - Google Patents

Abstract

The present invention relates to a lead arrangement method of the X-ray grid (X-ray Grid) used in X-ray imaging, and has a conventional stripe form in terms of the quality of the grid by having a uniform X-ray filtering function for the overall radial direction Compared to this, the sharper X-ray image can be displayed and thus the effect of minimizing the false positive rate of the patient.

In the present invention for realizing this, in the conventional X-ray grid arrangement structure in which the transmission portion for transmitting the X-ray, and the lead that is the material absorbing the X-ray is arranged to form a non-transmissive portion, the non-transmissive portion 100 made of lead is grid In the radial direction of the center 300 is arranged in an alternating form with the transmission portion 200, the non-transmissive portion 100 and the transmission portion 200 is arranged to be repeated at the same interval with respect to each radial direction It features.

Description

Pb ARRAYMENT STRUCTURE of X-ray Grid.

The present invention relates to an X-ray grid used for X-ray imaging, and more particularly, the transmission unit through which radiation is transmitted and the non-transmission unit through which radiation is absorbed are effectively arranged so that a clearer X-ray image may appear. In general, X-rays, which are widely applied in general hospitals / clinics, allow doctors to effectively treat patients' abnormalities by accurately reading them on the X-ray film. In this case, the X-ray grid is provided so that the image can be more clearly expressed on the film during X-ray imaging. Such a conventional X-ray grid is provided with an X-ray as shown in FIG. The lead (Pb) 10 to be absorbed and the egg through which X-rays are transmitted The arrangement of aluminum (Al) 20 alternates with each other to form a stripe-like array structure in one direction. In this arrangement, the lead 10 has X-rays radiated from the X-ray sphere passing through a human body (or a subject). It acts as a filter when it is developed on the film (Fig. 3), that is, lead (Pb) absorbs X-rays and aluminum (Al) transmits to increase the development (clarity) of the film. As the X-rays are radiated in a conical radiation angle as shown in FIG. 3, the X-rays do not play an effective X-ray in the vertical direction or the diagonal direction, but only to filter out X-rays in one direction (horizontal direction). . In particular, in the vertical direction, since the filtering function is not exhibited at all, two grids are used to compensate for this, but the fundamental solution cannot be solved.

The present invention has been proposed to improve the above-described problems in the prior art, and by providing an X-ray grid having improved lead array structure of the grid to have a uniform filtering function in the radial direction, a clearer X-ray image can be displayed. The purpose is to minimize the error rate of the patient through this.

Figure 1. Lead arrangement of a conventional X-ray grid

Figure 2 shows a lead arrangement of the X-ray grid according to an embodiment of the present invention, 2a is a circular arrangement structure diagram. 2b is a spiral arrangement structure diagram.

3, Functions of the X-ray grid <Description of the symbols for the main parts of the drawings> 100,100 ': Lead (non-transmissive portion) 200,200': Aluminum (transmissive portion) 300: Center

The object of the present invention is a conventional X-ray grid arrangement structure in which a transmissive portion for transmitting X-rays and lead absorbing X-rays are arranged to form a non-transparent portion, wherein the non-transmissive portion made of lead is formed from a transmissive portion in a radial direction from the center of the grid. It is arranged in an alternating form, it can be achieved through the lead array structure of the X-ray grid, characterized in that arranged to be repeated at a predetermined interval. Hereinafter, with reference to Figures 2 and 3 attached to a specific embodiment of the present invention First, FIG. 2A illustrates a grid structure to which a lead array method is applied according to an embodiment of the present invention. As shown, a non-transmissive part made of lead, which is a material to which an X-ray is absorbed ( 100 and the transmission part 200 made of an aluminum material through which the X-rays can be passed, respectively. The center 300 is arranged around the center 300 in a circular shape having a different size. That is, the position of the center 300 when the X-ray grid is installed is aligned with the X-ray sphere in FIG. It can be seen that in the vertical direction, the left and right direction, and the diagonal direction, the same is always the same. In the case of the X-ray grid having such a lead-array structure, it is possible to manufacture by combining a plurality of lead and aluminum in different sizes. And, the X-ray grid of the present invention constituting the circular arrangement structure in the X-ray radiating from the X-ray sphere as shown in Figure 3 in the penetration of the patient's human body, the abnormal part of the patient in the direction It can be read accurately on the X-ray film regardless. As shown, a grid structure to which a lead array method is applied is shown. That is, as shown, a non-transmissive portion 100 'made of lead, which is an X-ray absorbable material, and a transmissive portion made of an aluminum material through which the X-ray can pass. (200 ') is arranged so as to form a continuous spiral shape starting from the center 300. Such a spiral lead arrangement structure can be manufactured by winding lead and aluminum each having a predetermined length. In addition, since the lead arrangement in the radial direction is alternately formed, the X-ray reading ability can achieve a direction closer to the circular arrangement. And while specific embodiments of the invention have been described and illustrated above, It is obvious that the lead array structure may be variously modified and implemented by those skilled in the art. For example, in the above embodiment, the lead array method described and illustrated only a circular and a spiral array structure. It can be seen that the X-rays emitted from the photosphere can be effectively filtered by arranging in the shape of a plurality of rhombuses, hexagons, and dozens of polygons in the form of alternating with aluminum in the radial direction about 300. Such modified embodiments should not be individually understood from the technical spirit or the prospect of the present invention, and such modified embodiments should fall within the appended claims of the present invention.

According to the X-ray grid product to which the lead array structure of the present invention is applied as described above, the X-ray grid has a uniform X-ray filtering function for the entire radial direction, so that the image of the X-ray is clearer than the conventional stripe in terms of the quality of the grid. It can be shown, thereby minimizing the error rate of the patient.

Claims (3)

In a typical X-ray grid arrangement structure in which a transmission portion for transmitting X-rays and lead, which absorbs X-rays, are arranged to form a non-transmission portion, The non-transmissive part 100 made of lead is arranged in an alternating manner with the permeable part 200 toward the radial direction in the center 300 of the grid, but the non-permeable part 100 and the permeable part 200 are in the respective radial directions. Lead array structure of the x-ray grid, characterized in that arranged to be repeated at equal intervals with respect to. The method according to claim 1, The lead is lead array structure of the X-ray grid, characterized in that arranged in a plurality of circular shape is gradually increasing the radius around the same center (300). The method according to claim 1, The lead is a lead array structure of the x-ray grid, characterized in that the radial from the center 300 to gradually widen and form a continuous spiral.