SU995395A1 - X-ray apparatus - Google Patents

Description

(54) X-RAY DEVICE

one

The invention relates to X-ray technology, in particular to X-ray apparatus with means of stabilizing high voltage on an X-ray tube.

X-ray machines are known in which a high voltage control signal on the X-ray tube is obtained in the circuit for measuring the dose rate after object 1.

The disadvantage of such devices is a certain inertia in the processing of dose rate changes, which is especially manifested in devices in which the dose rate signal is taken off the screen of an electron-optical converter or a television channel.

The closest technical solution to the present invention is an X-ray apparatus containing a three-phase high-voltage transformer connected to its secondary windings a three-phase high-voltage rectifier connected to an x-ray straightener connected to the primary windings of the high-voltage transformer of a high-voltage three-phase rectifier.

forming a control voltage, including a network measuring transformer, a measuring three-phase rectifier connected to its secondary windings, a filter connected to the specified 5 rectifier to isolate the variable component 2.

In this apparatus, by changing the voltage on a low-voltage rectifier, the voltage on the primary side of the non-high-voltage transformer is changed in such a way that the voltage on the x-ray tube is constant.

The disadvantage of the known apparatus is that in it the process of stabilizing high voltage is related to the true value of the dose rate behind the object, which reduces the accuracy of stabilization of the radiation intensity.

The purpose of the invention is to increase the quality of the resulting images by increasing the accuracy of stabilizing the intensity of the radiation.

This aim is achieved in that the X-ray apparatus, comprising a three-phase voltage transformer connected to its secondary windings of a three-phase high voltage rectifier coupled to the high voltage rectifier-ray tube, connected to the primary windings of high voltage transformer low voltage three-phase rectifier connected to the low voltage three-phase rectifying means tifiers control voltage generation, including a network measuring transformer connected to its secondary windings, a measuring three-phase rectifier, a filter for separating a variable component connected to the rectifier, a circuit for generating a signal for the deviation of the radiation dose rate from a predetermined value and an operational amplifier, the inputs of which are connected to the filter output for selecting a variable component and a circuit for obtaining a signal for a deviation of the radiation dose rate from a predetermined value.

The drawing schematically shows the x-ray apparatus.

The X-ray machine contains an X-ray tube 1 connected to a high-voltage three-phase rectifier 2. A high-voltage three-phase transformer 4 is connected to the rectifier 2 with its second windings 3. The primary windings 5 of the transformer 4 are connected to the low-voltage three-phase rectifier 6. The transformer 4 also includes measuring windings 7 forming a measuring transformer with its primary windings 5 and connected to the measuring three-phase rectifier 8, which is connected to the filter 9 for selecting variable th component. Below the object under study 10 is a radiation intensity detector 11, made, for example, in the form of an ionization chamber or a screen luminance sensor, connected to one input of the comparison circuit 12, to the second input of which the reference voltage source 13 is connected.

Elements AND -13 form a scheme for obtaining a signal for disconnecting the dose rate from a given value. The output of the comparison circuit 12 is connected to one input of the operational amplifier 14, to the other input of which the output of the filter 9 is connected to separate the variable component. The output of the operational amplifier 14 is connected to the regulating input of the high-frequency master oscillator 15, which is connected to the high-frequency switching element 16, such as a transistor switch, between which and the low-voltage three-phase rectifier 6 the smoothing LC filter 17 is connected. The output of the operational amplifier 14 can be connected directly to the rectifier Mentor b, but in

In this case, elements 7-9, 11 and 12 should operate in a force mode, which increases the size and weight of these elements.

X-ray machine operates as follows.

The radiation of the X-ray tube 1 passes through the object under study 10 and falls on the detector 11. The signal of the detector 11 is compared in circuit 12 with a reference signal from the source 13 of the reference voltage. The power of the x-ray tube 1 is carried out

0 from a three-phase high-voltage transformer 4 via a high-voltage rectifier 2. The voltage at the output of the rectifier 2 under normal conditions is a constant voltage with some variable component, the frequency of which is equal to the six-fold frequency of the supply voltage.

To obtain information about the variable component, measuring windings 7 are inserted into the apparatus;

the secondary side of the high voltage transformer 4 and connected to a three-phase measuring rectifier 8, the output of which is a voltage similar to the voltage of the output of the high voltage rectifier 2. This is filtered by the filter 9 to isolate the variable component at the output of which only an alternating signal appears, the frequency of which exactly corresponds to the frequency of the variable coQ supplying the output of the high voltage rectifier 2. The signal from the variable variable filter 9 combines in operational amplifier 14 with a signal output circuit mismatch -12 comparison. The output signal of the operating amplifier5 of the body 14 is fed to the regulating input of the master oscillator 15, which controls the high-frequency switching element 16. In accordance with the frequency of this control, the frequency of the pulses applied to the smoothing LC filter changes

 17, the output voltage at which the input to the three-phase low-voltage rectifier 6 is thus determined by the switching frequency of the switching element 16. In turn, the voltage on the primary windings 5 of the high-voltage transformer 4 is determined besides the mains voltage and the voltage supplied to the low-voltage breaker 6, i.e. the voltage on the LC filter 17. As a result of this, when the last voltage changes on the primary windings 5 of the high-voltage transformer 4 The voltage on the X-ray tube 1 is eliminated.

The proposed apparatus implements such a system for forming a control voltage ng of a low-voltage rectifier, which allows the pulsation to be worked out with an inertial detection system

Claims (1)

Claim An x-ray apparatus containing a three-phase high-voltage transformer connected to its secondary windings a three-phase high-voltage rectifier connected to a high-voltage rectifier, an x-ray tube connected to the primary windings of a high-voltage transformer, a low-voltage rectifier connected to a low-voltage rectifier, means for generating a control voltage, including a network measuring transformer, including a network measuring transformer secondary windings measuring three-phase rectifier: connect a filter for isolating the variable component, which is characterized by the fact that, in order to improve the quality of the images obtained by “increasing the accuracy of stabilization of the radiation intensity,” a means for generating a control voltage is introduced, a receiving circuit for a signal that deviates the radiation dose rate from a given value and the operational amplifier, to the inputs of which are connected, the output of the filter to isolate the variable component and the circuit for receiving a signal for deviation of radiation dose rate power from a given quantities.