RU56157U1 - DIAGNOSTIC X-RAY SCANNING DIGITAL APPARATUS - Google Patents

Abstract

The utility model relates to X-ray technology, namely to X-ray scanning digital devices, and can be used in medical institutions for X-ray diagnostics as a universal multifunctional device. A diagnostic X-ray scanning digital apparatus is disclosed, comprising an X-ray source (X-ray source) sequentially located on the same optical axis, a slotted collimator, and a multi-element linear X-ray detector that are mounted on a single bracket mounted to rotate around the scan axis located in the plane of the collimator slit and longitudinal axis of a linear multi-element detector. What is new is that the bracket is movably mounted on one of the ends of the horseshoe-shaped truss, which, with the help of a rotary mechanism and a rotation mechanism, is mounted on a platform mounted on a vertical rack. The utility model includes 8 dependent claims, 5 figures.

Description

The utility model relates to X-ray technology, namely to X-ray scanning digital devices, and can be used in medical institutions for X-ray diagnostics as a universal multifunctional device.

At present, multifunctional X-ray diagnostic complexes (RDK) of the type RUM-20, TUR-800, EDR-750, which contain three workstations, which include three workstations: a turntable with a X-ray image intensifier, are widely used; table of images with a tomographic prefix; a rack of pictures. RDK provide almost all types of X-ray diagnostic studies. Layer-by-layer tomography and special fluoroscopic studies occupy no more than 10% of the total research volume and are prescribed in the main treatment process. The indicated RDKs are quite expensive and difficult to maintain, and also occupy large areas and are installed in specialized X-ray rooms located at a certain distance from the receiving departments. In the receiving departments of medical institutions, the most relevant is to obtain overview images of various parts of the body. The time factor for obtaining x-ray information and transmitting it to specialists for reading comes to the fore, and, therefore, diagnostic x-ray machines installed in the receiving departments of hospitals and emergency rooms must meet a number of strict requirements.

Firstly, the apparatus should provide sufficient information content of the images, allowing to detect not only traumatic lesions of the body, head and limbs, cracks in the bone tissue, but also the internal structure of tissues, including foci of inflammation, tumors and other pathologies.

Secondly, the images obtained by the nature of the representation of the organs should be as close as possible to conventional x-rays, which makes their reading accessible to most radiologists.

Thirdly, the device should be small enough to accommodate in the limited areas of the reception departments of hospitals or emergency rooms.

Known low-dose digital scanning x-ray device (see journal "Medical alphabet. Hospital No. 12 (52) 2005, p. 8), containing sequentially located on the same optical axis of the x-ray source (RI), a slotted collimator and a linear receiver of RI, the source, the collimator and the receiver are rigidly interconnected

a common bracket and move in a vertical plane relative to the object located between the slotted collimator and the linear receiver RI.

The main disadvantage of this device is that the device is mainly intended for diagnosing a patient in an upright position, in particular for fluorography, and, from the point of view of informational content, is not suitable for other types of patient surveys, since for some cases, the most informative picture will be a horizontal or inclined projection, which are described in the standard styling system (see. “Atlas of styling in X-ray studies”, A. N. Kishkovsky, L. A. Tyutin, G. N. Esinovskaya, L. Medicine Leningrad. Department of 1987).

In addition, in the images obtained with the known apparatus, an increase in the size of the studied object in the horizontal plane is observed due to fan-like divergence of x-rays, and the vertical plane of magnification does not occur due to the parallel movement of the slotted fan x-ray beam along the studied object. As a result of this, the proportions of the images obtained are significantly distorted compared to those obtained on film, which makes it difficult for doctors to read the images.

Known X-ray table tripod rotary for a digital radiographic apparatus (see patent RU 2202953, class A 61 B 6/04, 2003), containing a base connected to a supporting frame and its rotation mechanism, a support wall connected to the supporting frame , a longitudinal carriage with its linear movement mechanism, a console rigidly mounted on the longitudinal carriage, on which a pendulum U-shaped lever with a mechanism for its angular movement is mounted, while on the opposite shoulders of the U-shaped lever an X-ray of etter and rentgenopriemnoe device. The inventive device allows you to conduct almost a full range of diagnostic radiographic examinations.

The main disadvantage of the known device is its significant weight and size characteristics, which significantly limits its functionality, in particular, impedes its use as a universal diagnostic device suitable for ward examinations or operative imaging during a surgical operation.

Closest to the claimed device (prototype) is an X-ray scanning device containing a source of radiation in series, a slotted collimator and a linear multi-element radiation detector, which are mounted on a single bracket mounted to rotate around the scanning axis located in the plane of the collimator slit and the longitudinal axis of the linear multi-element

detector (see PCT application WO 02/17790, class A 61 B 6/03, 2002). The device allows, basically, to obtain digital images with a vertically oriented body of the patient.

The main disadvantage of the known device is the impossibility of its use as a multifunctional diagnostic device, including obtaining complex projections of organs or limbs.

The technical problem solved by this technical solution is to eliminate these disadvantages, namely, expanding the functionality of the device.

The indicated technical problem in a diagnostic X-ray apparatus, containing a source of radiation sources, a slotted collimator and a linear multi-element detector, which are mounted on a single bracket mounted to rotate around the scan axis located in the plane of the slit of the collimator and the longitudinal axis of the linear multi-element detector, it is decided that the bracket is movably mounted on one of the ends of the horseshoe-shaped truss, which with the help of a rotary mechanism and rotation mechanism mounted on a platform mounted on a vertical rack.

The specified embodiment of the device allows, by providing several degrees of freedom for the truss with a bracket, to take pictures from various angles with arbitrary angles of inclination with respect to the patient’s body, which contributes to the maximum information content of the pictures.

To select the required shooting height (when shooting the skull, chest, pelvis, etc.), the platform is mounted movably on a vertical rack and is equipped with a reciprocating mechanism along its longitudinal axis, and for convenient location relative to the patient’s body, the platform is equipped rotational movement mechanism around the longitudinal axis of the rack.

To ensure the selection of the desired picture angle, the swivel mechanism of the horseshoe-shaped truss is rotatable around an axis parallel to the scanning axis, which allows you to take pictures with inclined angles relative to the vertical axis of the rack.

In addition, the rotation of the farm helps to introduce its lower part, in which the receiver moves, under the body of the patient lying on the couch, which is especially important when conducting ward diagnostics of seriously ill patients.

Also, to ensure the selection of the desired picture angle, the swivel mechanism of the horseshoe-shaped truss is made with the possibility of rotation around an axis parallel to the axis of the vertical axis of the rack, which allows you to take pictures inaccessible to x-ray machines equipped with horizontal tripod tables.

To ensure high mobility and the required rigidity of the device necessary for high-quality imaging, the swivel mechanism of the horseshoe-shaped truss is based on a biaxial gimbal assembly.

To carry out operational control when choosing the desired shooting angle, the swivel mechanism of the horseshoe-shaped truss is equipped with reversible gear motors along the rotation axes.

To ensure rigidity during rotation of the biaxial gimbal unit, the rotation mechanism is made on the basis of a U-shaped fork fixed movably around an axis perpendicular to the axis of the vertical strut and equipped with a reversible gear motor.

To ensure maximum versatility of the device associated with the binding of the claimed device to a specific type of room, it can be equipped with a vertical rack with a node of floor, ceiling or wall mounts.

For ward diagnostics of seriously ill patients, the vertical rack of the device can be installed on a movable base.

The specified implementation of the device allows you to create a simple, and therefore reliable universal device for obtaining digital radiographic images of high quality, providing maximum information due to the possibility of choosing the appropriate camera angle.

Figure 1 presents the inventive device in a variant of wall mounting of the vertical rack of the apparatus.

Figure 2 presents the main details of the rotary mechanism of the horseshoe-shaped truss, on which a movable bracket with an x-ray emitter, a slotted collimator and a linear radiation detector is fixed.

On figa and 3b presents options for floor and ceiling mounting of the vertical rack of the apparatus.

Figure 4 presents the inventive device in the form of a mobile (mobile) device, a vertical rack which is mounted on a wheel base.

The inventive device comprises: an x-ray emitter 1 with a slit collimator 2, forming a fan beam RI 3; object of examination 4; a linear receiver RI 5 mounted on the opposite end of the bracket 6 from the x-ray emitter, which is mounted to rotate around the scanning axis 7; horseshoe-shaped truss 8, in the lower part of which there are guides for moving the linear RI receiver; rotary mechanism 9 with the axis of rotation 10 and 11; U-shaped plug 12 mounted on a rotating

a support 13, which is mounted on a movable platform 14 with an axis of rotation 15; vertical rack 16 with a longitudinal axis 17; X-ray examination table 18.

The device operates as follows.

The examined patient 4 is placed on the diagnostic table 18 and the lower base of the farm 8 with the receiver 5 is brought under the body of the patient lying on the table under or above the table deck 18 and the shooting angle is selected according to known styling. Then turn on the x-ray emitter 1 and, due to the rotation of the bracket 6 around the axis of scanning 7, carry out the shooting of the image frame. During the scan, the scanning fan beam 3 moves along the examined area of the patient’s body in synchronism with the receiver 5, which converts the radiation transmitted through the subject into digital signals that are subsequently transmitted to a computer (not shown) to restore the image. If you need more information, the shooting angle can be quickly changed, for example, by tilting the truss 8 around axis 10 or turning the truss 8 around axis 11 or by turning the truss 8 around axis 14, etc.

Example. A prototype of the inventive device was manufactured. The apparatus is a monoblock with an examination area of 520 mm at a focal length of 1100 mm and allows you to scan an object at a speed of up to 2 seconds per frame with dimensions up to 410 × 410 mm. In this case, the patient's radiation dose in the study of the organs of the chest is about 10 μSv.

The weight of the prototype of the device in the ward version does not exceed 120 kg, which allows it to be transported to one laboratory assistant, including using elevator cabins.

The prototype is made with the following technical characteristics of the main nodes.

The X-ray emitter is made on the basis of a serial tube 2.5-50BD21-150 manufactured in Russia and provides the generation of X-ray radiation with an energy in the range of 30-150 KeV at an anode current of up to 100 mA. The emitter is powered from a single-phase 220 V.

The collimator is made of two slit, with parallel slots arranged in series, providing a beam width of about 1 mm in the plane of the RI receiver.

The receiver is made on the basis of an eight-line array with a length of 410 mm and a width of 0.8 mm, each row of which contains 4096 elements sensitive to x-ray photons with an energy of 10-300 Kev. The distance between the centers of the elements is 100 microns. In this case, the contrast sensitivity of the receiver is not worse than 1.5% with a dynamic range of 1: 400 and spatial resolution not worse than 5 pairs of lines / mm.

Claims (9)

1. Diagnostic X-ray scanning digital apparatus containing a source of x-ray radiation (RI) sequentially located on the same optical axis, a slotted collimator and a linear multielement detector RI, which are mounted on a single bracket mounted to rotate around the scan axis located in the plane of the collimator slit and the longitudinal axis of the linear multi-element detector, characterized in that the bracket is movably mounted on one of the ends of the horseshoe-shaped truss, which using the rotating mechanism and the rotation mechanism is fixed on a platform mounted on the vertical post. 2. The device according to claim 1, characterized in that the platform is mounted movably on a vertical rack and is equipped with a reciprocating mechanism along its longitudinal axis and / or a rotational movement mechanism around the longitudinal axis of the rack. 3. The device according to claim 1, characterized in that the rotary mechanism of the horseshoe-shaped truss is rotatable around an axis parallel to the scan axis. 4. The device according to claim 1, characterized in that the rotary mechanism of the horseshoe-shaped truss is rotatable around an axis parallel to the axis of the vertical rack. 5. The device according to claim 1, characterized in that the rotary mechanism of the horseshoe-shaped truss is based on a biaxial gimbal assembly. 6. The device according to claim 1, characterized in that the rotary mechanism of the horseshoe-shaped truss is equipped with reversible gear motors along the rotation axes. 7. The device according to claim 1, characterized in that the rotation mechanism of the biaxial gimbal unit is made on the basis of a U-shaped fork fixed movably around an axis perpendicular to the axis of the vertical strut and equipped with a reversible gear motor. 8. The device according to claim 1, characterized in that the vertical rack is equipped with a node of floor, ceiling or wall mounting. 9. The device according to claim 1, characterized in that the vertical rack is mounted on a movable base.