RU2108009C1 - Microwave oven - Google Patents

Abstract

FIELD: microwave devices. SUBSTANCE: device has upper and lower removable compartments. Lower compartment is designed as housing which contains microwave power source which is connected to metal emitter, which is designed as disk, by means of coaxial line piece. Part of housing serves as base for resonance heating chamber along which edge a metal support which is shaped as tube is welded. Said metal support is designed as tube on which microwave-transparent plate is located. Heated objects are located on this plate. Base is designed as rectangle and has adjustment screws which are connected to base with galvanic contact and are located on perpendicular to lines which run through centers of sides of rectangle. Each of them is spaced by λ/4 from base edge. Said adjustment screws are used for tuning of resonance heating chamber. Upper removable compartment is designed as finned side surface of heating chamber which is made from flexible material which conducts electric current and is shaped as tube which is extended in direction from base towards housing cap with slope of 1:10. Upper end of side surface is connected by means of cantilever screw joint which is welded to housing cap on its inner side. Lower end is connected to flange using screw joint. Fixing members are designed as struts which lower ends are connected to flange using hinge joints. Upper ends are flexibly connected to corresponding guides which are welded to inner side of cap of housing. The fact that side surface of heating chamber is made from current-conducting material, distance between its ridges is equal to λ/2, their height is λ/8, and struts are designed in this way results in possibility to fold them into housing cap when microwave oven does not function. Lower and upper removable compartments of microwave oven are connected to each other by means of clamps. In order to prevent leakage through their joint, choke connection is used. It is designed by means of upper end of metal support and flange which are folded towards flange. EFFECT: decreased size, facilitated transportation, facilitated field use. 1 dwg

Description

 The invention relates to microwave technology and can be used for heat treatment of dielectric materials, such as food products.

 The achieved level of technology in the development of designs of microwave ovens is characterized by the use of technical solutions that ensure uniform heating of products, which allows to obtain high quality products. There are known designs of microwave ovens in which microwave energy is introduced into the resonant heating chamber from below, while the heated products are placed above the emitter. Such microwave ovens are large in size, due to several reasons, firstly, the heated products are placed at a certain distance from the emitter in order not to cause significant distortion of the electromagnetic field in the resonant heating chamber, and secondly, the resonant heating chamber itself, representing a rigid structure, has large dimensions. Such microwave ovens are inconvenient during transportation, for example by car or bus, as well as when used in camping trips, expeditions, etc.

 A known design of a microwave oven containing a source of microwave energy, a resonant heating chamber, interconnected by means of a communication device connected to an emitter, above which is a radio-transparent stand for accommodating heated products. In addition, the microwave oven is equipped with a ballast load located outside the resonance chamber and connected with the latter additional communication device. The resonance heating chamber is made in the form of a hemispherical resonator connected to the base of the microwave oven [1].

 The main disadvantage of this microwave oven is that it has large dimensions and therefore is inconvenient during transportation, for example by car or other vehicles, as well as when using it on expeditions, etc.

 The closest in technical essence analogue to the claimed technical solution is a microwave oven containing a microwave energy source located in the housing and a resonant heating chamber interconnected by means of a communication device made in the form of a piece of a coaxial line and connected to a metal radiator in the form of a disk located along the axis of the microwave oven, above which is installed a radiotransparent plate to accommodate heated products. It should be noted that the microwave oven additionally contains a load and a surface wave pathogen. The communication device is made coaxially with a metal emitter equipped with concentric ribs on which a radiolucent plate is mounted to accommodate heated products, and is connected in series with the first radial line, an additional coaxial line, in the inner conductor of which a second radial line is placed. In addition, the inner diameter of the surface wave pathogen is equal to the diameter of the radiotransparent plate to accommodate heated products; the diameter of the inner conductor of the additional coaxial line is equal to the diameter of the metal emitter. The load is placed in the second radial line. A coupling element is located along the axis of the microwave oven through which the metal emitter is connected to the second radial line [2].

 The main disadvantage of this microwave oven is that it is characterized by large dimensions, which causes significant inconvenience when transporting it in a car or forced transfers in camping trips, expeditions, etc.

 The main task, which the invention is directed to, is to provide a reduction in the dimensions of the microwave oven in the transport position, i.e. inoperative during transportation or transfer through the use of a folding resonant heating chamber.

 The solution of this problem is achieved by the fact that in a microwave oven containing a microwave source located in the housing and a resonant heating chamber, interconnected by means of a communication device made in the form of a piece of a coaxial line and connected to a metal radiator in the form of a disk located at the axis of the microwave oven, over which a radiolucent plate is installed to accommodate the heated products, according to the invention, the resonant heating chamber is bounded above by a lid a whisker made of electrically conductive material, and from the bottom - a base connected to the adjusting pins to ensure galvanic contact, and a side surface made of elastic conductive material and forming a pipe that extends from the base to the housing cover with a slope of 1:10, the upper end which is fixed on the inner side of the housing cover, the edges of which are bent in the direction of the housing, and the lower end is connected to a flange mounted on the housing, and the latter is connected The lower ends of the fixing elements are provided, the upper ends of which are connected with the inner side of the housing cover, and a radiolucent plate for accommodating heated products is mounted on a metal stand made in the form of a pipe, the lower end of which is connected to the housing along the base boundary, and the upper end is bent towards the flange forming with the last throttle joint; the lateral surface of the resonant heating chamber is ribbed with a distance between adjacent vertex vertices of the ribs parallel to the base equal to λ / 2 and the depth of the ribs equal to λ / 8; the fixing elements are made in the form of racks, the lower ends of which are rashly connected to the flange, and the upper ends are movably connected to the corresponding guides located on the inner side of the housing cover, while the adjustment pins are located on mutually perpendicular straight lines passing through the midpoints of the sides of the rectangular quadrangle, in the form whose base is made, each at a distance of λ / 4 from its boundary, where λ is the wavelength of the microwave energy source.

 The execution of the lateral surface of the resonance heating chamber, bounded above by the housing cover and the bottom by a base, made of elastic material, as well as the implementation of the fixing elements in the form of racks, the lower ends of which are pivotally connected to the flange, and the upper ends are movably connected to the corresponding guides located on the inner side of the lid of the case, allows before the upcoming transportation of the microwave oven, when the latter is inoperative, fold it in such a way that elastic Lateral surface of the rack and compact fit into the cover, which folded edge tightly cover the body. The execution of the specified side surface in the form of a pipe, expanding in the direction from the base to the housing cover with an experimentally selected slope of 1:10, allows you to more compactly fold the side surface into the cover; This is also facilitated by the fact that the lateral surface of the resonant heating chamber is ribbed, which is achieved by using transverse stiffeners parallel to the base. Indeed, when folding the microwave oven, the side surface is inserted into the lid with an accordion, and the expansion of it contributes to the fact that the stiffeners are laid not on each other, but in one plane.

 In addition, due to the use of the ribbed side surface of the resonant heating chamber with a distance between adjacent vertex edges of the ribs equal to λ / 2 and a depth of ribs equal to λ / 8, such a surface structure of the chamber is created that promotes the excitation of higher types of vibrations, which increases the uniformity of heating of products. The implementation of a metal stand under the radiolucent plate for placing the heated products in the form of a pipe, the lower end of which is connected to the housing along the base border, and the upper end is bent towards the flange, forming a throttle joint with the latter, which prevents microwave energy leakage through the detachable connection flange - the case of the microwave oven into the surrounding space, thereby increasing the safety of the staff with the microwave oven. Thanks to the use of adjusting pins associated with the base of the microwave oven with galvanic contact and located on mutually perpendicular straight lines passing through the midpoints of the sides of a rectangular quadrangle in the shape of which the base is made, each at a distance of λ / 4 from its boundary, it became possible to adjust the distribution of the electromagnetic field, the distortion of which occurs in the near zone of the emitter due to the close proximity of the heated products to it.

 The invention is illustrated in the drawing, which shows a microwave oven, a longitudinal section.

 The microwave oven contains a microwave energy source located in the housing 1 and including a magnetron 2 and a power supply unit 3 and a control panel 4 connected thereto; a resonant heating chamber bounded on top by a housing cover 5 made of an electrically conductive material and provided with a handle 6, on the bottom by a base 7 made, for example, in the shape of a square, and a ribbed side surface 8 made of an elastic electrically conductive material, for example, a woven material reinforced with metal mesh, and forming a pipe, expanding in the direction from the base 7 to the cover 5 of the housing with a slope of 1:10. Moreover, the distance between neighboring vertexes of the ribs located parallel to the base 7 is equal to λ / 2, and the depth of the ribs is equal to λ / 8, where λ is the wavelength of the microwave energy source. The upper end of the side surface 8 is secured, for example, by a screw connection to the bracket 9, welded to the housing cover 5 from its inner side, and the lower end is connected, for example, by a screw connection, to the flange 10. The edges of the housing cover 5 are bent in the direction of the housing 1. Source Microwave energy and a resonant heating chamber are interconnected by means of a communication device made in the form of a segment 11 of a coaxial line and connected to a metal emitter 12. The latter is made in the form of a disk and is located along the axis of the microwave oven. Above the emitter 12 is installed radiolucent plate 13 to accommodate heated products. It is fixed on a metal stand 14, made in the form of a pipe, the lower end of which is welded to the housing 1 along the border of the base 7, and the upper end is bent towards the flange 10, forming a throttle joint with it, which prevents leakage of microwave energy through a detachable connection flange 10 - housing 1. Thus, the base 7 is part of the housing 1, and the shape of the base 7, in this case a square, determines the cross-sectional shape of the stand 14, flange 10, and therefore the side surface 8 of the heating chamber. In a specific embodiment, the housing 1 has a square cross-section; for tight coverage of the housing 1 with the bent edges of the cover 5, the latter is made similar to it. The flange 10 is connected to the housing 1 by means of latches 15. The fixing elements, made, for example, in the form of racks 16, are designed to fix (maintain) the heating chamber in the expanded state during the heating process. The lower ends of these racks are pivotally connected to the flange 10, and their upper ends are movably connected to the corresponding guides 17, welded to the cover 5 of the housing from its inner side. If necessary, the flange 10 with the side surface 8 attached to it and the housing cover 5, as well as the struts 16, is disconnected from the housing 1. The distortion of the electromagnetic field in the near zone of the emitter 12, caused by the proximity of the heated products to the emitter 12, is corrected with the help of adjusting pins 18 The adjustment pins 18 associated with the base 7 with galvanic contact are located on mutually perpendicular straight lines passing through the middle of the sides of the square in the form of which the base 7 is made, on standing λ / 4 from the boundary of the latter, where λ - wavelength of the source of microwave energy. By adjusting the resonant heating chamber using the adjusting pins 18 achieve redistribution of the electromagnetic field, which helps to ensure uniform heating of the processed products.

 The device operates as follows.

 Initially, the microwave oven, folded and closed by the cover 5 of the housing, is brought into working position. To do this, using the handle 6 located on the housing cover 5 from the outside, lift the housing cover 5 up until the racks 16, moving their upper ends along the guides 17, fix the resonant heating chamber and the deployed state, in which the side surface 8 is rotated so that the distance between adjacent vertices of the ribs is equal to λ / 2, and the depth of the ribs is equal to λ / 8. Then, removing the latches 15, remove the upper removable part of the microwave oven: flange 10 and the associated racks 16, side surface 8, cover 5 of the housing. Products intended for heating are placed on a radiolucent plate 13, after which, with the help of clamps 15, the upper removable part of the microwave oven is fixed on the housing 1. The microwave energy source is placed in the housing 1 and contains a magnetron 2 and a power supply unit 3 connected to it and remote control 4 controls. Microwave energy from a microwave energy source through a segment 11 of the coaxial line, the emitter 12 enters the resonant heating chamber, bounded from above by the housing cover 5, below by the base 7 and side surface 8. The ribbed structure of the side surface 8 of the heating chamber contributes to the excitation of higher types of vibrations, which increases the uniformity of heating products. The throttle joint, which forms the vertical part of the flange 10 with the upper end of the stand 14 bent to its side, prevents the leakage of microwave energy into the free space and contributes to the safe operation of the microwave oven. After heating the products, the microwave energy source is turned off; removing the clips 15 and removing the upper removable part of the microwave oven, take out the product. After that, using the clamps 15, fix the upper removable part of the microwave oven on the housing 1, which closes with a cover 5. The side surface 8 and racks 16 are compactly laid in the cover 5. The microwave oven is ready for transportation. It has small overall dimensions in transport position.

It should be noted that the resonant heating chamber is tuned once before using the microwave oven. To do this, with the resonant heating chamber deployed and without load, an automatic voltage standing wave coefficient meter (VSWR) connected to the magnetron 2 frequency drift band f _o ± Δf is connected to the coaxial line segment 11, where f ₀ is the center frequency of the magnetron generation. Using the adjustment pins 18, the specified heating chamber is adjusted to a minimum value of VSWR equal to 2-2.5. Then placed in a load chamber, for example, water in an amount of 0.2% 0.5 L. VSWR is measured; it must not exceed a value of 1.5. With a higher value of VSWR, the adjustment with the adjustment pins 18 is repeated.

Claims (3)

 1. Microwave oven containing a microwave energy source located in the housing, and a resonant heating chamber, interconnected by means of a communication device made in the form of a segment of a coaxial line and connected to a metal radiator in the form of a disk located on the axis of the microwave oven, above which is installed radiotransparent plate for accommodating heated products, characterized in that the resonant heating chamber is bounded on top by a housing cover made of an electrically conductive material Ala, from the bottom - the base connected with the adjusting pins to ensure galvanic contact, and a side surface made of flexible electrically conductive material and forming a pipe expanding in the direction from the base to the housing cover with a 1: 10 inclination, the upper end of which is fixed to the inside of the cover housing, the edges of which are bent in the direction of the housing, and the lower end is connected to a flange fixed to the housing, the lower ends of the fixing elements being attached to the latter, the upper the ends of which are connected with the inner side of the housing cover, and the radiolucent plate for accommodating the heated products is mounted on a metal stand made in the form of a pipe, the lower end of which is connected to the housing along the border of the base, and the upper end is bent towards the flange, forming a dummy joint with the latter .  2. The furnace according to claim 1, characterized in that the side surface of the resonant heating chamber is ribbed with a distance between adjacent vertexes of the ribs located parallel to the base equal to λ / 2 and the depth of the ribs equal to λ / 8, where λ is the source wavelength Microwave energy.  3. The furnace according to claim 1, characterized in that the locking elements are made in the form of racks, the lower ends of which are pivotally connected to the flange, and the upper ends are movably connected to the corresponding rails located on the inner side of the housing cover, while the adjustment pins are located on mutually perpendicular straight lines passing through the midpoints of the sides of a rectangular quadrangle in the shape of which the base is made, each at a distance of λ / 4 from its border, where λ is the wavelength of the microwave energy source.