SU3465A1 - X-ray tube - Google Patents

Description

The present invention relates to tube tubes and devices for their operation. In such devices, for the most part, individual high voltage transformers are used, the primary winding of which is connected to the low voltage source. It is known that high frequency currents can be used to act on x-ray tubes, in which case an iron-free transformer can be used.

It turned out that it is possible, at least, to connect part of the transformer with the X-ray tube into one, it is not difficult to handle the X-ray tube. According to the invention, a winding is located around the X-ray tube, the ends of which are electrically conductively connected to the cathode and anti-cathode; this winding is adapted to: create

This is a high voltage. On the X-ray tube, there can be another winding surrounding the PFV and serving to create a power flux. If the X-ray tube is powered by a high frequency current, then the secondary winding may consist of a small number of turns.

The use of high frequency currents is not necessary for the operation of the proposed X-ray tubes. In order to be able to feed such X-ray tubes and low-frequency currents, according to the invention, an iron core located along the tube axis is installed inside the secondary winding wound on the X-ray tube sheath. To accomplish this, it is possible, for example, to arrange a gutter designed specifically for this purpose along the axis of the x-ray tube. Can

also, the iron core is placed inside the tube of an) anion. You dreamed that ycTpoeHHiiie was such an X-ray tube that could be powered by a current, the frequency of which was. eg. 500 periods :.

Instead of using a high frequency current source, you can also interrupt the primary current received from a relatively low frequency direct current source or an alternating current source using an appropriate chopper. If || the current is generated very quickly, then the same effect can be obtained as with high frequency currents.

On the attached trait, an exemplary embodiment of the present invention is shown.

In a metal vessel, which may be made of chromium iron, an incandescent cathode 2 is placed in the form of a tension wire. A metal cover 3 is attached to the walls of the metal tank, in which a hole is made, in front of which a part of the surface of anti-cathode 4 is located. Against this anti-cathode in M1 metal cut, there is an opening for passage of excited X-rays to the water-sway. This window consists of an airtight glass cap 5; Moreover, in the tank there is a metallic, for example, iron. ring 6. delaying, like a screen, x-rays; on this ring, wires are attached that lead to the glowing cathode. One of the wires 7, which supply current to the incandescent cathode, is isolated from the metal ring 6 through which it passes, and into: the float in the glass cap 5; The other TOC conducting wire is formed by an electrically conductive connection of pole 8 with a metal ring 6 and a metal sheath 1. The cathode rays emanating from the incandescent cathode fall only on a limited portion of the anti-cathode surface, due to the special shape of the walls and

krzlki 3 mela-metallic tank and the location of the anti-cathode relative to the above-mentioned cover. A glass tube 9 is fused to the metal tank 7, bent inwards and forming two walls. An anti-cathode 4 is melted at the end of this tube. A cooling pad of Y is positioned around the upper end of the aggikatod.

 the glass part of the X-ray tube envelope is located (the winding 11, one end of which is electrically conductively connected to the metal reservoir / and, together with the 1st, with the glowing cathode. from the first isolating insulator 73. 1 the windings 72 can be connected to a high frequency current source, consisting, for example, of an oscillatory circuit, in which oscillations are excited; 1 high frequency at the transmitting tube used for the radio grafnyh purposes lyuby.m or other known method, such as by using a spark gap or light.

Winding 72 is intended to create a high frequency alternating magnetic field. Good action is ensured by.: 1but in the case when the primary and secondary oscillatory circuits are tuned to each other. To achieve this, chains should be used in which the natural oscillations are approximately equal.

The present invention is described with reference to a cylindrical tube, but it is clear that it is applicable to x-ray tubes of a different form.

P R D L M B T R.. C H E N | - L.

1. An X-ray tube characterized by the application of a coil 77, which is inseparably connected to the tube, superimposed on the balloon of the X-ray tube and designed to create a potential difference between

anticathode and cathode, with which it is electrically conductively connected to its ends.

2.When the x-ray tube described in item 1 of the dripping winding 72, superimposed on the winding / 7, is coaxial with it, what winding 72 is designed to create an alternating magnetic field.

3. When characterized in pp 1 and 2 x-ray tube

iron core installed inside the tube, along its axis.

4. The form of implementation described in p. 1, 2. 3 of the x-ray tube, characterized in that the core is located inside the tube for the anti-cathode.

5. When characterized in pp 1, 2, 3, 4 x-ray tube application of high frequency currents to power the winding 12.

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