SU455405A1 - Waveguide Sealer - Google Patents

Description

one

The invention relates to radio engineering, in particular to waveguide paths with a high level of microwave energy.

Waveguide sealers are known that consist of a metal cage with a dielectric window located therein.

However, the known device can operate only at a relatively low level of microwave energy, due to the natural cooling of the dielectric window.

The purpose of the invention is to increase the efficiency of the device.

This goal is achieved by the fact that a cavity filled with a liquid metal coolant is made in the dielectric window and is connected via channels in the cage and dielectric window to the coolant circulation and cooling system.

FIG. 1 shows a waveguide sealer, general view; in fig. 2 is a section along A-A in FIG. one.

The waveguide sealer consists of a metal cage I, with channels and mounting holes, and a dielectric window 2 with an internal closed cavity 3 and branch channels 4.

The dielectric window 2 through the cavity 3 and the outlet channels 4 is cooled by a liquid metal coolant 5.

The clip 1 can be made of copper,

brass or aluminum. Window 2 is made of a dielectric with a low loss tangent, for example, fluoroplast-4, polyethylene, quartz, and glass. The dielectric window 2 with a cavity 3 and channels 4 can be made of two or more components, hermetically interconnected by any of the known methods. Metals and alloys that are under the operating conditions of operation of the sealer in a liquid state can be used as a heat carrier. For example, for the case of room temperatures, mercury or indium-gallium alloy can be used.

The sealer is installed in the waveguide path between the throttle flanges or flat contact flanges and separates the path sections with different or the same pressure. In the latter case, he

performs protective functions. The sealer is installed in such a position that the direction of the channels 4 in the window 2 is perpendicular to the direction of the electric field vector in the waveguide path. In time

The operation of the coolant flows through the input channels into the internal cavity of the dielectric window, cools the window and is output through the output channels to the cooling and circulation system of the coolant. Cooling dielectric window sealer

through the internal cavity using a liquid metal or alloy makes it possible to use the proposed sealer at very high energy loads.

Subject invention

Waveguide sealer, consisting of a metal clip with placed in it

a dielectric window, characterized in that, in order to increase the efficiency of the device, a cavity filled with a liquid metal coolant and connected by means of channels in the cage and a dielectric window with a coolant circulation and cooling system is made in the dielectric window.

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