SU1035842A1 - X-ray apparatus - Google Patents

Abstract

X-RAY DEVICE, containing a high-voltage transformer, connected to the secondary windings of a transformer, high-voltage rectifier, connected to an x-ray rectifier, high-voltage regulator, connected to the primary windings of the transformer, adjustable current source, connected to the cathode of the x-ray tube, system of regulating transformer the dose behind the object u) and the pictures with the X-ray radiation intensity meter behind the objek, you, in the form of an ionization chamber with several they are dominant and connected to the outputs of the ionization chamber by a dominant selection device connected to the control inputs: a high voltage tiller and / or a current source, an exposure relay connected to a dose gauge meter and a power switch,) screen-picture a device, an X-ray electron-optical converter, a television system connected thereto with a video monitoring device and an image brightness stabilization system with a sensor, characterized in that, in order to simplify of the image and reduce the effects of losses and distortions in the electron-optical converter, the ionization chamber of the DaEz power control system behind the object was used as the sensor of image brightness stabilization, and the coitrust control system was added to the device, including the means of obtaining the signal ratio of any selected dominant combination ionization chamber to a signal / you Another vibranny combination of dominants and a means of comparing the obtained ratios with the reference signal scrap shlhod ko01 toryh yudklyuchen to the control input 00 of the television system contrast. ii; uh

Description

The invention relates to X-ray technology, and more specifically to universal X-ray machines, equipped with translucency in the scanning mode by amplifiers of the gene imager, connected to a television video monitoring system. X-ray machines are known to have a system for visualizing X-ray images containing X-rays; an electronic converter, an optical system transmitting a television tube, a video monitor and a stabilization system. The luminance of the converter screen with the sensor of either an optical or television signal in the visualization system included in the feedback circuit for adjusting the voltage of the gene tube and / or the filament current is 3 3. A disadvantage of the known systems is the loss in the information transmission path associated with the withdrawal of the signal to the feedback circuit. The closest technical solution to the invention is an X-ray apparatus operating in the image mode and the scanning mode, respectively, at stabilizing the dose rate behind the object and stabilizing the image brightness. This device contains a high-voltage transformer, a high-voltage rectifier connected to the secondary windings of the transformer, a high-voltage regulator connected to the rectifier, an high voltage regulator connected to the primary windings of the transformer of the formatter, an adjustable heat source connected to the cathode of the x-ray tube, a system for controlling the dose rate behind the object with photographs with a meter, the intensity of X-ray radiation behind the object, made in the form of an ionization chamber with several “dominants” A dominant selector device connected to the outputs of the ionization chamber, connected to the control inputs of a high voltage regulator and / or heat source, an exposure relay connected to the dose rate meter and network impedance screen-imaging device, X-ray electron-optical converter A television system connected to it, a television with a video monitoring device, a stabilization system for 5FKOST of an image, containing a screen brightness sensor, introduced either into the optical or the body izionny Hrak source of reference voltage and comparing cxetg, y. the input of which is connected to a luminance screen sensor and a voltage source, and an output to a high voltage regulator and / or heat source (2J. The disadvantage of the known device is its excessive complexity associated with the use of two independent power control systems DZZA behind the object and stabilization of the image brightness, which is associated with the stabilization of the dose rate behind the object in the mode of luminescence. In addition, with the stabilization of brightness, losses and distortions occur during the transmission of information in or the electron path, affecting, among other things, the image contrast. The purpose of the invention is to simplify the design and reduce the effect of losses and distortions in the electron-optical converter. The goal is achieved by having an X-ray device containing a high-voltage transformer. connected to the secondary windings of the transformer high voltage rectifier connected to the rectifier x-ray tube, high voltage regulator connected to the primary windings of the transformer, adjustable A filler current source connected to the cathode of an x-ray tube, a power control system for the dose behind an object when taking pictures with an x-ray intensity meter behind an object made in the form of a multi-dominant ionization bin and connected to the outputs of the ionization chamber by a dominee selector connected to the control inputs high voltage regulator and / and current source of the exposure relay connected to the dose rate meter and the power switch, screen-shooting device The X-ray electron-optical converter, the television system connected to it with a video monitoring device and the image brightness stabilization system with a sensor, use the ionization chamber of the dose rate control system behind the object as the latter and the image contrast control system 7 is added to the device: the ratio of the signal of any selected combination of dominants of the ionization chamber to the signal of any other selected combination of dominants and means for comparing the resulting ratio with the reference signal, the output of which is connected to the television contrast control input; system. The drawing shows an embodiment implemented ("a block diagram of an x-ray apparatus.

The X-ray machine contains a high-voltage transformer 1, the primary winding through a network switch 2 connected to the network terminals. Secondary winding transformer. 1 are connected to a vsvrvoltny vsh1r to the scissors 3, to which the x-ray tube 4 is connected.

In addition, the transformer windings are connected to the high voltage controller 5. And the filament of the X-ray tube 4 to the source of current filament b.

On the way of the X-ray tube 4 passing through the object under study 7, a passive ionization chamber 8 with several sensitive fields (dominants} 9-11, Camera 8 is shown expanded, & l were seen dominants 9-11, Behind camera 8 an X-ray cassette 12 is installed

/ film, which is introduced by a screening device (not shown in the working position when the device is operated in a pexoiMe of the image,. the device also contains an X-ray X-ray electrono-optical converter of REOP) 13, an optical

system 14, a Btyio television broadcast tube 15, a video monitor 16..

The adjustment systems of the apparatus -i include combined dose rate control systems behind the object during the image and the screen brightness stabilization system of the REOP 13 screen. The ionization chamber 8 dominant 9-11 of which is connected to the first selector 17 is used as a sensitive element of these systems.

and to the selector 18, on the outputs of which a signal can be formed corresponding to any combination

Dominant 9-11, the berth of the combining at the outputs of the selectors 17 and 18 should be {1s. The output of the selector 17 is connected to the first comparison circuit 19, and the first Reference voltage source 20 is also connected to the coiler; Exit | 19 phyphenenic circuit connects to the control inputs of the high voltage regulator 5 and the current source heat source b.

In addition, the output of the selector 17 is connected to an exposure relay 21-23, consisting of block 21, including an integrator and a null organ to which an adjustable second source of voltage 22 is connected. Block 21 is connected to an actuator 23 that controls the power switch 2, the actuator can be blocked by a switch 24,

The outputs of the selectors 17 and 18 are connected to the inputs of dividing circuit 25, the gas drive of which is connected to one input of the third comparison circuit 26, to the other side of which a third source of reference voltage 27 is connected. The third gate of the third comparison circuit 26 is connected to the input of contrast control of the television tube 15 .

I X-ray machine works as follows. .

In snapshot mode for ionization

camera 8 is installed cassette with x-ray film. Selector.

17 selected required dominant 9-11 or combination of dominants. Selector

18 and the division scheme 25 of the block 1 & 1, When the X-ray unit is turned on. 4 generates x-rays that pass

through the investigated object 7, the ionization chamber 8 and gets on the tape 12 with the film. The signal selected by the selector 17 of the dominant of the imaging chamber 8 is fed to the comparison circuit 19, where it is compared with the signal of the first source

the reference voltage 20; The signals from: the output of the comparison circuit 19 of the FFW circuit are controlled by the high voltage regulator 5 and / or the source of the current of the heating 6 until equality. signal with an ionization chamber 8 reference signal.

If the level of the reference signal is constant, this means stabilization of the dose rate behind the object. When the level of the reference signal changes, it is possible to realize dynamic modes, for example, the incident load mode.

At the same time, the signal from the ionization chamber 8 is fed to the integrator of block 21. When the integrator signal reaches the level specified by the Signal on the second source of reference voltage 22, the null organ of block 21 triggers, which: generates a control pulse

executive element 23; which causes the effect of the network. switch 2, stopping power to the device,

In paging mode. Cassette

: 12 out of the floor of the beam of the REITGEN pipe 4 and in its place the REOP 13 is installed. The first source of the reference radiation 20 is set to a fixed level that sets the illumination of the REOP screen 13, the Actuator 23 is disconnected from the block 21 using the switch 24, the selector is released 18, which is established in this way | so that at its output there was a signal, corresponding to another combination of Zhzhganant ionization chamber B or, in particular, just another: dominant (for example, at the output of the collector 17 - a signal from the dominant 10 /

and the output of the selector 18 is a signal from the dominant 9 /.

The signal from the output of the selector 17 serves as an input to the dose rate stabilization system for the object 7 and is used in the manner described. In addition, in the division circuit .25, a signal is formed between the signals of two different dominants or two different combinations of dominants of the ionization chamber 8, serves as an input to the contrast control system and is fed to the input of the third comparison circuit 26, the difference signal at the output of which

controls the contrast of the transmitting television tube 15.

Thus, by combining the dose rate control system behind the object and the luminance stabilization system of the REOP screen, the sensors built into the X-ray imaging system are eliminated from the design of the device, which simplifies the design of the device as a whole, eliminates additional controls and distortions related to the retrieval of information

creates conditions for using a simple contrast management system.

Claims (1)

X-ray apparatus, containing a high-voltage transformer connected to the secondary windings of the transformer; a high-voltage rectifier connected to the rectifier; an x-ray tube; a high-voltage regulator connected to the primary windings of the transformer; an adjustable glow current source connected to the cathode of the x-ray tube; a dose rate control system for the object images with an X-ray intensity meter behind an object made in the form of an ionization chamber with several inants and a dominant selector connected to the outputs of the ionization chamber, connected to the control inputs of the high voltage regulator and / or glow current source, exposure relay connected to the dose rate meter and network switch, (screen-capture device, electron-optical X-ray a converter, a television system with a video monitoring device connected to it, and an image brightness stabilization system with a sensor, characterized in that, in order to simplify the design and reduce Impact of losses and distortion in the electron-optical transformation _of zovatele as a sensor system to stabilize the image brightness control system used power an ionization chamber the dose of the object, and the apparatus dopolniteya * but introduced management system kont- * Rast image comprising means for obtaining the relationship the signal of any chosen combination of dominants of the ionization chamber to the signal of any ^ other selected combination of dominants and means of comparing the obtained ratio with the reference signal, the output of which is It is connected to the contrast control input of the television system. ZV8S £ 0lTiS>.