SU479271A1 - X-ray tube anode temperature control method - Google Patents

Description

one

The invention relates to methods for adjusting the operating modes of X-ray machines.

The known method of a falling load, which means that during a very short initial period of time pulsed heating of the anode is produced, and the focus acquires a temperature close to the permissible one. Then the tube power is reduced so that the focus temperature remains unchanged. The initial and final powers are provided by a power circuit through a transformer and rectifier.

The disadvantage of this method is that the devices for implementing it are very cumbersome and expensive, since the supply network, the transformer and the rectifier are designed for high power.

The purpose of the invention is to simplify the implementation of the method and thereby increase the cost-effectiveness of the entire X-ray unit.

The goal is achieved by accumulating an electric charge on a high-voltage capacitor in the secondary winding of a high-voltage transformer of an x-ray tube, using a high-voltage control element to close the x-ray tube and discharging the capacitor to it.

the tube is kept constant, and the power during the fall of the anode current is drawn from the mains.

FIG. Figure 1 shows a schematic diagram of the high-voltage part of an X-ray diagnostic apparatus, in which the proposed method of providing the incident load mode is applied. FIG. 2 graphically illustrates the principle of the incident load.

The mains supply (/ 0 by resistance 1 is connected to transformer 2, the boost winding of which is connected via rectifier 3 to high-voltage capacitance 4. In turn, this capacitance 4 is connected to x-ray tube 5 through high-voltage electron tube 6, which plays the role of controlled variable resistance. In parallel with said tube 5, a divider 7 is connected, the potential of which is supplied through an amplifier to the control grid of a high-voltage electron tube 6 in order to maintain a constant anode voltage Ux on the X-ray tube 5.

At the initial moment of time (with an open X-ray tube circuit 5), high-voltage capacitance 4 is charged. In this case, the current of the supply network, transformer 2 and rectifier 3 is determined mainly by the resistance value 1 of the supply network, and be made sufficiently small (about 25a ).

At the time of the shot, the high-voltage electron lamp 6 closes the x-ray tube circuit 5 and discharges into the last high-voltage capacitance 4. At the same time, in a very short initial time interval (about 0.01 sec), the anode current ja has a maximum value (see Fig. 2), and then decreases to a minimum constant value of rms, according to such a law that the temperature of the focus T% of the x-ray tube, having risen sharply to the maximum permissible value of T% ax for 0.01 s, then remains constant throughout the entire time of the image.

In this case, a large value of the anode current 4 is covered by the high voltage capacitance 4 at the initial time interval o, and the subsequent exposure time, when the values of the anode current are small, the current is drawn from the network.

Throughout the entire time / snapshot, the voltage UK on the X-ray tube 5 is kept constant by supplying a high-voltage electron tube 6 potential from the divider 7 to the control grid.

Subject invention

The method of controlling the temperature of the anode of the x-ray tube, which consists in the fact that at the initial moment of operation of the tube, the anode is heated by pulsed power increase of the tube, and then the power is reduced according to a given law, characterized in that, in order to reduce the dimensions of the devices for in the secondary winding of the high voltage transformer of the x-ray tube, electric charge is accumulated on the high-voltage capacitor; they close the x-ray circuit with the help of a high-voltage control element nd tube and discharging it zhayut charge capacitor, wherein the voltage at the X-ray tube is kept constant, and the power at the recession of the anode current was consumed from the network.

-miji

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