SU758576A1 - X-ray generator - Google Patents

Description

The invention relates to X-ray technology, and more specifically to X-ray generators, preferably of an autonomous type. X-ray monoblock generators are known that contain a housing filled with an insulating fluid medium in which an X-ray tube and a high-voltage transformer 13 are installed. In this type of generators, the heating of the heated elements occurs due to heat transfer through the housing to the surrounding atmosphere, which in many cases does not guarantee effective cooling . X-ray generators are known in which forced pumping of a liquid insulating medium through the casing, which increases the efficiency of the heat sink 2. The closest technical solution is an x-ray generator containing an x-ray tube, a power source, a casing divided into two communicating cavities , in one of which an X-ray tube is installed and in the other - a power source filled with a liquid dielectric, the means for setting the liquid dielectric in motion, are made These are in the form of a forced pumping system. 3. The disadvantages of this generator are the large dimensions and weight, which are occupied by the presence of a system of forced pumping, as well as the need for additional energy to bring this system into action. . . The purpose of the invention is to reduce the size and weight of the generator. The goal is achieved by the fact that, in an X-ray generator containing an X-ray tube, a power source, a housing divided into two communicating holes through the cavity, one of which has an X-ray tube, and the other a power source filled with a liquid dielectric. liquid dielectric in motion, the latter are made in the form of two electrodes, one of which is connected to the anode of the x-ray tube, and the second to the minus pole of the power source, both electrodes installed in single cavity casing.

In this case, the electrodes are made in the form of rings and are installed around the anodic and cathodic parts of the x-ray tube, and the second ring electrode is made with a pointed edge facing the first electrode.

The drawing shows one of the possible embodiments of the generator.

The X-ray tube 1 with the anode 2 is installed in the first cavity 3 of the casing 4, Cavity 3 communicates with the second cavity 5 of the casing 4 through holes b evenly spaced around the perimeter. In the cavity 3 installed around the anode 2 a metal ring 7, and around the cathode 8 a ring with a sharp edge 9, the tip of the ring is directed toward the anode, Kolko 7 is electrically connected to the anode 2, and ring 9 - with the minus pole of the high-voltage source 10 of the tube.

The anode 2 is surrounded by an additional electrode 11, which is connected to a source of positive voltage, slightly higher than the voltage of the x-ray tube,

In the casing 4 with the base 12, a liquid dielectric is poured so that it completely fills the cavities 3 and 5. In the example of the generator, an additional anode is performed by the upper part of the casing 4, the additional anode is made in the form of a ring and is installed in the upper part of the cavity 3 independently from the casing. Rings 7 and 9 are mounted directly on the x-ray tube. Such mounting of rings is optional, as the generator works even in cases when these rings are installed in cavity 3, loose on tube 1, Ring 7 is made with one flat surface and is set so that this surface is directed towards the pointed surface of ring 9.

The generator works as follows.

When the generator is turned on and a high voltage x-ray tube 1 appears on the anode 2, an uneven electric field is created in the first cavity 3 (between rings 7 and 9). This field acts on the / molecules of the dielectric fluid and causes them to move in the direction of the ring 9 to ring 7, t, e, a pump effect is created, as a result, the dielectric begins to move along the body of the x-ray tube 1 to the anode 2. The streamline anode 2 of tube 1 the liquid dielectric heats up, and the passage along the base 12 transfers heat to the base. The temperature of the anode 2 of the tube 1 decreases, while the temperature of the base 12 rises, t, temperature equalization occurs and local overheating of the ande 2 of the tube 1 and the power supply 10 elements located near the anode 2 is eliminated.

The speed of movement of the liquid dielectric and the rate of temperature equalization depend on the viscosity of the liquid dielectric (the lower the viscosity, the higher the speed),

To further accelerate the movement of the liquid dielectric, an additional electrode 11 is supplied with a voltage higher than the voltage of the anode 2 of the X-ray tube 1. Due to this THESE voltage difference, they create the same effect of the pump

This embodiment allows us to extend the continuous operation of the X-ray generator and increase its efficiency.

Claims (1)

Invention Formula 1, An X-ray generator containing an X-ray tube, a power source, a housing divided into two communicating cavities through holes, in one of which there is an installation-. Lena X-ray tube, and in another power source, filled with a liquid dielectric, means for setting the liquid dielectric in motion, RTL, and with the fact that, For the purpose of reducing dimensions and weight, the means of driving the liquid dielectric are in the form of two electrodes, one of which is connected to the anode of the X-ray tube and the second to the minus pole of the power source, both of which are installed in the same cavity of the housing, 2, The generator according to claim 1, 1, for example, with the fact that the electrodes are made in the form of rings and are installed around the anode and cathode parts of the X-ray tube, the second ring electrode being made with a pointed edge facing the first electrode, . Sources of information taken into account in the examination. 1, Baysa K, et al., X-ray technology. AN of Hungary, Budapest, 1973, p. 116117, 2, Shmelev V, K, X-ray apparatus, M., Energie, 1973, p., 75, 3, German Patent No. 745067, 21 g 20/01, published, 1943 (prototype).