SU1045449A1 - Device for x-ray investigations - Google Patents

Abstract

A X-RAY RESEARCH DEVICE containing an X-ray source, X-ray printing and screening rasters, a film cassette, characterized in that, in order to reduce the radiation load on the patient, the X-ray printing raster is installed with the patient's ability between the rasters. rt Oh. : l j 1; o

Description

The invention relates to the field of medical X-ray technology and can be used in the X-ray functional diagnosis of lung diseases. A device for X-ray logical studies is known, which contains an X-ray source, film cassettes, and flj rasters. The disadvantage of this device is that the patients in the examination are in the zone of the direct radiation beam. The closest to the invention in technical essence and the achieved effect is a device for X-ray studies, containing an X-ray source, X-ray printing and screening screens, film cassette 2. In the known device, due to the Maltese mechanism, rasters are displaced, which ensures the placement of 2 or 4 x-rays of the chest organs in different respiratory phases on the same radiographic film. The disadvantage of this device is that the rasters and cassettes are in close proximity to each other, and the patient is located between the source and the raster. When the x-ray machine is repeatedly switched on, the patient receives a multiple dose of radiation. The purpose of the invention is to reduce the patient's radiation load during x-ray examinations. The goal is achieved by the fact that in a device containing an X-ray source, an X-ray coping and screening rasters, film assemblies, an X-ray raster is installed with the possibility of placing the patient between the rasters. Fig. 1 shows a general view of the device in Fig. 2, section A-A of Fig. 1. The device contains a tripod 1 with a carriage 2, to which the supporting wall 3 and the frame 4 attached to the hinges 5 are attached. The frame 4 contains interchangeable cassettes 6, X-ray 7 and screening 8 rasters. Moving the rasters and cassettes is driven by an electric motor 9 floating coupling 10, two four-contact Maltese mechanisms 11 associated with the frame 4. On the outer surface of the supporting wall 3 are fixed sensors 12 of the respiratory biosync detector and the biocurrents of the heart. The alignment of the movement of the raster 7 and the cassette b is provided by the telescopic brackets 14 connected with the frame 4 with fixing screws 15. The rasters are closed with protective covers 16. The x-ray source 17 is located in front of the raster 7. The ratio of the raster window side to the distance of the radiation source is raster 0 0013-0,0015. The device works as follows. The patient is placed between the supporting wall 3 and the solution 7, behind which is the source 17 of the radiation. When X-ray pneumopolygraphy is -g, a two-phase printing system is used. The first shot takes place at the height of the maximum inhalation. Then raster 7 is moved along. horizontals one width of one window by means of an electric motor 9 with a drive, a floating coupling 10 and a Maltese mechanism 11, after which the second picture is taken. In X-ray diffraction, a four-phase raster is used, which by means of mechanism 11 is moved in a circle four times and four images are recorded on a film. When staged X-ray pneumopolygraphy or X-ray tetragraphy, the rasters 7 remain fixed, the cassette 6 is moved using the same mechanisms (9, .10 and 11). Thus, the placement of radiographs in front of the object of study in the proposed device reduces the radiation load on the patient by 2 or 4 times.

HELL

Claims (1)

DEVICE FOR X-RAY STUDIES, containing a source of X-ray radiation, · X-ray printing and screening rasters, film cassette, characterized in that, in order to reduce the radiation load 'on the patient, the X-ray printing raster is installed with the possibility of placing the patient between the rasters. l '