RU2068223C1 - Microwave heating device - Google Patents

Abstract

FIELD: heating and drying dielectric and poorly conducting materials and parts made of them. SUBSTANCE: device has heating chamber electrically connected through sealed joint to below-cutoff waveguide sections for holding material being treated. Heating chamber and waveguide sections are built up of two parts; bottom part is filled with energy-absorbing liquid and has projection; walls of top part are located in clearance between projection and walls of bottom part and are partially immersed in energy-absorbing liquid. EFFECT: improved design. 2 dwg

Description

 The invention relates to the field of microwave technology, in particular, to microwave heating devices, and can be used for heating and drying dielectric and poorly conductive materials and products from them.

 Known devices for microwave heating, containing a microwave source, a heating chamber, a means of moving the heated material or products and at least one cavity filled with energy-absorbing liquid and connected to the heating chamber either directly or through a waveguide.

 The known device is a microwave heating chamber, hermetically connected to the segments of the waveguide for loading and unloading of processed products or material. The ends of the waveguide segments are immersed in an energy-absorbing liquid, which is filled with a specially provided cavity. Containers with processed materials or products by means of a conveyor are immersed in an energy-absorbing liquid, pass under it and through a section of the waveguide fall into the microwave irradiation zone. After heat treatment, the containers through the second segment of the waveguide and through the energy-absorbing liquid enter the discharge chamber.

 Cavities filled with energy-absorbing liquid completely prevent the emission of microwave energy from the working chamber during loading and unloading of processed products or material.

 In such devices, many microwave sealed joints (usually welds) of the parts of the working chamber, waveguides and the working chamber with segments of the waveguides for loading and unloading the processed products are necessary, which complicates its manufacture. In addition, these designs of the working chamber and waveguides are inseparable, which complicates the maintenance of the device.

 The camera and waveguides can also be manufactured using detachable joints, for example, by tightening bolts of individual elements. But at the same time, microwave radiation is possible at the junction points, and the process of opening the camera or waveguides if maintenance is necessary is also difficult.

 The aim of the present invention is to simplify the manufacture and maintenance of the device.

 This goal is achieved in that the heating chamber and the waveguide segments for loading and unloading the processed materials and products are formed by two microwave sealed enclosures, lower and upper. The lengths of the waveguides for loading and unloading are transcendental. The lower casing is filled with energy-absorbing liquid, and the side walls of the upper casing enter the lower casing and are partially immersed in the energy-absorbing liquid, forming a water seal. The bottom of the lower casing has a flat protrusion. The surface of the part of the protrusion located in the working chamber, forming the bottom of the working chamber, is located above the level of the energy-absorbing liquid. The surfaces of the protrusion parts located in the transcendent loading and unloading waveguides are below the level of the energy-absorbing liquid.

 In FIG. 1 schematically shows a cross section of the proposed device.

 In FIG. 2 schematically shows a longitudinal section of the proposed device.

 As shown in figure 1, the proposed device contains a lower casing 1 filled with energy-absorbing liquid 2 and an upper casing 3. The bottom of the lower casing 1 has a flat protrusion 4. The walls of the upper casing 3 are constipated between the walls of the lower casing 1 and the protrusion 4 and are partially immersed into the energy-absorbing liquid 2, forming a water trap. The surface of the part of the protrusion 4 located in the working chamber 6 is below the level of the energy-absorbing liquid 2 and is the bottom of the working chamber 6. The surfaces of the parts 7 of the protrusion 4 located in the transverse waveguides 8 are below the level of the energy-absorbing liquid 2. A device 9 is provided in the device, for example , conveyor type, for transporting material or products 10 through transcendental waveguides 8 and the working chamber 6. The cross-sectional dimensions of the working chamber 6 should be larger than the transcendent ones.

 The lower casing 1, including the protrusion 4, can be made by bending a metal sheet and welding only the end walls. The protrusion 4 can be made separately from a sheet curved in the shape of P and installed on the bottom of the lower casing 1.

 The protrusion may also consist of three protrusions not connected to each other, one of which is located in the working chamber and its surface forming the bottom of the working chamber is located above the level of the energy-absorbing liquid. Two other protrusions are located in the segment of the transcendental waveguides for unloading loading and their surfaces are located below the level of the energy-absorbing liquid.

 The upper casing is made in the same way.

 The lower and upper casings are not mechanically interconnected. If maintenance is required, the upper casing can be easily removed.

 Thus, the proposed device is easy to manufacture and maintain.

 Currently made and tested a prototype of the proposed device.

Claims (1)

 A device for microwave heating containing a heating chamber, segments of the waveguides electrically connected to it for loading and unloading the processed material or products, and a water trap, characterized in that the segments of the waveguides are transcendental and together with the housing of the heating chamber are made of two parts, the lower of which partially filled with an energy-absorbing liquid and its bottom is made with a flat protrusion, part of the surface of which is located in the heating chamber, is located above the level of the energy-absorbing liquid, and part of The surface located in the segments of the waveguides is located below the level of the energy-absorbing liquid, the walls of the upper part of the housing are located in the gap between the protrusion and the walls of the lower part of the housing and are partially immersed in the energy-absorbing liquid, forming a water seal.

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