SU1562981A1 - Device for treating extended dielectric articles - Google Patents

Abstract

This invention relates to a microwave technique. The purpose of the invention is to expand the range of diameters of the processed dielectric products 7. An energizing rectangular waveguide 3 converts the main H ₁₀ wave of a rectangular waveguide using radiating pin 4 into an E ₀₁ coaxial waveguide wave that propagates in the heating chamber in the space between the circular a metal waveguide 1 and a segment 6 of a metal pipe in the direction from the short-circuiting wall 2, interact with the heated material of the product 7. Unused energy enters the output section, de is completely absorbed by the material of the article 7. In this case, the length L of the segment portion 6, located inside the waveguide 1 is selected equal to or greater than a quarter of the wavelength in the waveguide 1, which provides a stable excitation wave E _01. Because the existence of a wave in a coaxial waveguide is determined only by the ratio of the diameters D and D, respectively, of waveguide 1 and segment 6, then the design practically removes the restriction on the diameter of the heat treatable product 7. 1 ill.

Description

The invention relates to technology! Microwave and can be used in the food industry for the heat treatment of sausages, in the textile industry j for the thermification of products made of synthetic fibers, in the rubber industry for vulcanization of profile rubber.

The purpose of the invention is the expansion of the diapason of the diameters of the processed extended dielectric products.

The drawing shows the design of the Device for processing extended Dielectric products. fifteen

A device for processing extended dielectric products contains a heating chamber in the form of a round metal waveguide 1, on one end of which there is a short-circuit-shaped wall 2, an Energy input unit located on the short-circuit wall 2 and made, for example, in the form of a rectangular waveguide 3 and a radiating pin 4, a hermetic ^ 5 titrated from a round metal waveguide 1 by a dielectric cup 5 of radiolucent material, such as ceramics, a piece of metal pipe 6 inserted inside 30 of a round metal tally waveguide through the hole in the short-circuit wall 2 and is simultaneously a continuation of the input vehicle, with the help of which the processed 35 dielectric long product 7 moves. The output section of the round metal waveguide 1 has a narrowing 8.

A device for processing extended 40 K dielectric products operates as follows.

The energy-supplying waveguide 3 converts the main wave of the Non-rectangular waveguide using a pin 4 in the wave Еф, a coaxial waveguide, which propagates in the heating chamber in the space between the round metal waveguide 1 and the piece of metal pipe 6 in the direction from the short-circuit wall 2, Interacting with the heated material of the product 7 "Unused energy enters the output section, where it is completely absorbed by the material 55 of the product 7.

The length of section 1 of segment 6 of the metal pipe located inside the round metal waveguide 1 is selected from condition 17 t, which 4 provides stable excitation of the wave E ₀₁ . Since the energy input unit is removed from the heating zone of the product 7, the wave excitation zone Έ. _Ο1 does not affect the heating process, i.e. on uniformity. Since the existence of a wave in a coaxial waveguide is determined only by the ratio of the diameters of the chamber — the round metal waveguide I and the segment 6 of the metal pipe, the design has almost lifted the restriction on the diameter of the heat-treated product 7. During the heat treatment of large-sized products, although the dimensions of the heating chamber increase, but at the same time, the single-mode field distribution is maintained, which ensures uniform heating along the generatrix of the product.

Claims (1)

Claim A device for processing extended dielectric products containing a round metal waveguide, at one end of which there is a short-circuit wall, and a piece of metal pipe inserted through an opening into the short-circuit wall inside the circular waveguide coaxially with it, and an energy input unit, characterized in that, with the purpose of expanding the range of diameters of the processed elongated dielectric products, the length of the part of the segment of the metal pipe located inside the round metal waveguide Yes, it is selected from the condition, the energy input unit is installed on the short-circuiting wall between the side surfaces of the round metal waveguide and the length of the metal pipe, while the ratio of the diameters D and d of the round metal waveguide and the length of the metal pipe is respectively selected from the condition Dd »AEj., where A ₈ is the wavelength in a round metal waveguide, X _K pE ₀ T is the critical wavelength E ₀₁ .