SU755272A1 - Method and apparatus for panoramic roentgenotomography - Google Patents

Description

The invention relates to medical equipment, namely to x-ray. .

There is a method of panoramic x-ray tomography, which consists in moving the radiation source and receiver in the process of shooting around the object under study along geometrically similar trajectories using a device that contains an x-ray emitter and radiation receiver equipped with slit diaphragms [1].

However, this method and device does not allow 15 to vary the thickness of the excreted layer, which limits the diagnostic capabilities of x-ray tomography.

The aim of the invention is to improve the diagnostic capabilities by varying the thickness of the exuded layer.

The goal is achieved by the fact that when implementing the method of panoramic x-25 nootomy, the angle of divergence of the beam of rays from the emitter is changed, and the beam divergence angle is reduced to increase the thickness of the extracted layer, and the beam divergence angle is increased to reduce the thickness of the highlighted layer in the layer.

In addition, the device is equipped with slit width adjusting units for the diaphragms, each of which is designed as a programmed cam and a lever rigidly attached to the support, one end of which is connected to the diaphragm, and a tracking element is installed at the other end, which interacts with the software cam.

FIG. 1 shows schematically a device for implementing the method of panoramic x-ray tomography; in fig. 2 - scheme of the device (in the study of teeth).

The device contains an X-ray emitter 1 and a radiation receiver 2 located at opposite ends of the rod 3, the latter being connected to an electromechanical drive 4 providing rotation of the rod. The emitter and the radiation receiver 2 are equipped with diaphragms 5 and 6, respectively. "In both diaphragms there are slots through which a beam of rays passes from emitter 1 to receiver 2. For precise positioning and fixation of the patient’s naked patient, the device is equipped with an op3

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swarm 7 with locking elements 8.

The entire system is movably mounted on a vertical rack .9. The device is equipped with units for adjusting the slit width of the diaphragms / in which software cams 10 and 11 are fixed on support 7, and on suspensions 12 and 13 of the radiator and receiver, bushings 14 and 15, through which the levers 16 and 17 pass.

At one end of the levers 16 and 17 are located tracking elements 18 and 19, interacting with the Cams 10 and 11, respectively, and the second ends of the levers are connected to the diaphragm 5 and b.

The method is as follows.

• Depending on the patient's height, the system is installed at a given height by moving it along the rack 9, after which elements 8 fix the patient's head in support 7. Turning on the actuator 4 rotates Schhang 3, as a result of which radiator 1 and receiver 2 rotate around the patient.

In the process of their rotation, the beam of rays _r out of the emitter 1, passes through the diaphragm 5, the investigated part of the patient's body, the diaphragm 6 and enters the receiver 2.

When the bar 3 turns,

• tracking elements 18 and 19 are driven around by fixed cams 10 and 11, the profile of which is set in accordance with the profile of the examined organ of the patient. When rolling the elements 18 and 19 through the cams, the levers 16 and 17, turning, cause the diaphragms 5 and 6 to rotate. As a result of the rotation of the diaphragm, the width of these slots changes and, consequently, the angle of exit of the beam of rays from the radiator changes.

The thickness of the layer in the area of the incisor teeth is negligible! FIG. 2), while the thickness of the secreted layer in the area of the molar teeth has a sufficient value.

"To obtain the same thickness of the separated layer in the area as incisal,

and the molars, the cam profile выбира is chosen so that when the beam passes through the molar zone, the exit angle of the beam from the radiator

Y! , and as the beam approaches the incisor teeth of the diaphragm, they rotate in the direction of decreasing their slit, resulting in the angle of exit of the beam of rays ₂ , where

Thus, by changing the angle of exit of the beam of rays from the emitter, it is possible to obtain almost any thickness of the separated layer according to a predetermined program.

Claims (2)

Claim 1. The method of panoramic X-ray tomography, which consists in that the radiation source and the receiver are moved around the object under investigation along geometrically similar trajectories, characterized in that, in order to broaden the diagnostic capabilities by varying the thickness of the emitted layer, the beam divergence angle they change from the emitter, and to increase the thickness of the layer emitted, the angle of beam divergence is reduced, and to reduce the thickness of the layer emitted, the angle of beam divergence is increased. 2. A device for implementing the method of π. 1, containing an X-ray emitter and a radiation receiver, equipped with slit diaphragms, characterized in that it is equipped with diaphragm slit width adjustment nodes, each of which is designed as a program cam rigidly mounted on a support and a lever, one end of which is connected to the diaphragm, and on the other The end is installed tracking element, interacting with the software cam. '