SU576634A1 - High voltage device - Google Patents

Description

These compounds are widely used to cool the electronics.

Physical and chemical studies of vapor mixtures of these compounds with air at 110 ° C1) Nominal pressure showed that mixtures of air (the baby gas itself) with compounds of the hierfluoroamine series have sufficiently high electrical strength and resistance to multiple electrical discharges and therefore can successfully used as electroplating media in high voltage devices.

Depending on the operating conditions of the high-voltage device (the temperature of the external medium, the device’s capacity, the number of heat generating elements), it is advisable to use one of three types of hierfluoroamines, CjFisN or CaFisN, with boiling points of 25, 46 and 71 ° C, respectively.

The drawing shows the described high-voltage generator device for powering X-ray equipment, a slit.

The device comprises a housing 1 with power 2. Transformers with low-voltage windings 3 and 4 are installed in the housing. The transformer windings are wrapped with a fiberglass wick 5, the end of which is fixed in the center of the diish. The cylindrical housing of the device has a slightly concave bottom, so that the volume of fluid 6 poured into the block 6 accumulates in the center of the vessel.

When the device is in operation, the liquid 6 rises through the wick to the heating windings, which are cooled due to the heat of its generation. The liquid evaporates and condenses on the strips of the housing 1 and the lid 7 of the device. The condensate flows off the bottom, and the process has cooled down (and simultaneously with the increase in the electrical strength of the air-insulator) proceeds automatically and intermittently. As the load increases, the evaporation of the liquid and the concentration of Q air in the air increases, and the strength of the gaseous medium, as compared to clean air, increases 2.5 times, the temperature of these heat release elements / is 55-70%. Stability

output parameters (iapr zhpi and current)

the device is no worse than ± 0.05% for

12 hours of continuous work.

Due to the high electrical strength of the main insulation of the device, as well as the active heat removal from its heat-generating elements, stable output parameters of the device are achieved, its dimensions are significantly reduced, the fitability and the production culture are increased.

The device can be used in x-ray animation.

Claims (2)

1.Bogoroditsky I.P. and others. Electrotechnical materials. Gosenergoizdat, 1963, with. 169, 171, 184. 2. Greenberg L. 11. Methods of accelerating charged particles. State publishing house of technical and theoretical literature. M., L.-D., 1950, p. 54-55.