RU168369U1 - X-RAY FILTER - Google Patents

Abstract

The proposed technical solution relates to the section of medical equipment, more specifically to x-ray, and is intended for use in the composition of an x-ray emitter of a diagnostic apparatus for forming a working beam in a certain range of the x-ray spectrum. The aim of this work is to create an inexpensive x-ray filter that provides spectral uniformity of the x-ray beam at the filter output included in the radiator of a general-purpose x-ray machine. Technical result field This model is expressed in expanding the arsenal of technical means for filtering the X-ray beam of the X-ray diagnostic apparatus. It is achieved by the fact that in an X-ray filter containing a working fluid having a concave spherical surface, the radius of which is equal to the distance from the working fluid to the actual focus of the emitter, made of a homogeneous metal of the same thickness and fixed in the x-ray beam of the emitter, along the outer boundary of the spherical surface of the working fluid made a plate for mounting the filter on the holder of the x-ray emitter, equipped with a handle. The proposed x-ray filter is inexpensive at cost and can not It is widely used in medical radiology.

Description

The proposed technical solution relates to the section of medical equipment, more specifically to x-ray, and is intended for use in the composition of an x-ray emitter of a diagnostic apparatus for forming a working beam in a certain range of the x-ray spectrum.

X-ray filters are mainly used to attenuate the soft components of the spectrum, which reduces the exposure of patients and medical personnel.

Known x-ray filter based on a polymer film coated with a layer of sulfur (USSR copyright certificate No. 432698 from 09/29/1969 [1]).

Also known is an X-ray filter made of a homogeneous material in the form of a stepped wedge (RF patent No. 2367122 of 02/11/2008 [2]).

The closest technical solution to the claimed object is an x-ray filter containing a working fluid having a concave spherical surface, the radius of which is equal to the distance from the working fluid to the actual focus of the emitter, made of a homogeneous metal of the same thickness and fixed in the x-ray beam of the emitter (US 2006002512 A1, 05.01 .2006 [3]).

The analogue [3] is selected as a prototype.

The set of X-ray diagnostic apparatus includes several filters that differ in the material of the working fluid (aluminum, copper, etc.) and its thickness. The choice of a filter is determined by the anode voltage on the x-ray tube. Filter replacement is done by the radiologist manually.

The prototype [3] works on the principle of specular reflection, differs in its complexity, is designed to work as part of a specialized digital x-ray apparatus and cannot be introduced into the design of the emitter of a general-purpose x-ray apparatus.

Thus, the disadvantage of the prototype is expressed in its complexity.

The aim of this work is to create an inexpensive x-ray filter that provides spectral uniformity of the x-ray beam at the output of the filter, which is part of the emitter of the x-ray apparatus of general purpose.

The technical result of the utility model is expressed in expanding the arsenal of technical means for filtering the x-ray beam of the x-ray diagnostic apparatus. It is achieved by the fact that in an X-ray filter containing a working fluid having a concave spherical surface, the radius of which is equal to the distance from the working fluid to the actual focus of the emitter, made of a homogeneous metal of the same thickness and fixed in the x-ray beam of the emitter, along the outer boundary of the spherical surface of the working fluid made a plate for mounting the filter on the holder of the x-ray emitter, equipped with a handle.

Further description is accompanied by drawings and explanations to them. In FIG. 1 shows a general view of an x-ray filter; in FIG. 2 shows the design of an x-ray filter (top view); in FIG. 3 is a section AA of FIG. 2, and in FIG. 4 shows an x-ray filter in position on an x-ray emitter.

The proposed x-ray filter has a working fluid 3 in the form of a concave spherical surface of a homogeneous metal, such as aluminum (Fig. 2, 3). The radius of the concave surface is equal to the distance from the working fluid 3 to the actual focus F of the emitter 2 (in the working position of the filter on the emitter 2 R = oF, as shown in Fig. 4). At its border 4, the concave spherical surface of the working fluid 3 of the filter passes into the plate 5, designed to install the x-ray filter on the holder 6 of the x-ray emitter 2 (Fig. 4). The handle 7 is designed to facilitate this operation.

When the X-ray filter occupies a working position on the holder 6 of the X-ray emitter 2 in the radial direction, the concave surface of the working body 3 of the X-ray filter has the same thickness for x-rays li = lk = ls = lm = ln, therefore, all x-rays passing through the concave spherical surface of the filter will be absorbed equally, which ensures the uniformity of radiation over the spectrum at the filter output.

The proposed x-ray filter is inexpensive at cost and can be widely used in medical radiology.

Claims (1)

An X-ray filter containing a working fluid having a concave spherical surface, the radius of which is equal to the distance from the working fluid to the actual focus of the emitter, made of a homogeneous metal of the same thickness and fixed in the x-ray beam of the emitter, characterized in that a plate is made along the outer boundary of the spherical surface of the working fluid for mounting the filter on the holder of the x-ray emitter, equipped with a handle.

Images