RU2124278C1 - Microwave oven - Google Patents

Abstract

FIELD: domestic appliances. SUBSTANCE: microwave oven has heating chamber, electronic module with radiating system incorporating microwave oscillator, disk radiator, base and ring, and waveguide channel (coaxial line section). Oven is of modular design; electronic module is packaged separately from heating chamber. There is no metal case (screen) common for electronic unit and heating chamber. To prevent leakage of microwave energy from heating chamber over perimeter of coupling hole for input of microwave energy, depression is made in heating chamber wall to receive electromagnetic packing; throttling groove is provided over perimeter of metal bezel on open end of electronic unit facing heating chamber; slot is made for electromagnetic packing over perimeter of ring placed on perimeter of coupling hole for microwave energy input. EFFECT: reduced metal input and mass of oven, reduced cost, facilitated manufacture. 3 cl, 1 dwg

Description

 The invention relates to electrical engineering, in particular to electric heaters using microwave energy, and can be used for heat treatment of food products.

 A known design of a microwave oven in which a heating chamber and an electronic unit including a microwave generator, the output of which is connected to a rectangular waveguide, the open end of which serves as a radiator, are located in a common metal housing / 1 /. This design of the furnace is characterized by low manufacturability, because Assembly and installation (or dismantling) of its units are carried out on a common basis and cannot be performed separately (in blocks). In addition, the design of the node for inputting microwave energy into the heating chamber does not allow the electronic unit to be autonomous with respect to the camera. And this, in turn, makes it difficult to replace failed parts, complicates the adjustment process.

 Closest to the invention in terms of features is a microwave oven containing a heating chamber, an electronic unit including a microwave generator, the output of which is connected through a section of a coaxial line to a radiator made in the form of a disk and installed in the recess of the base with the possibility of galvanic contact between them, with the base is connected with the possibility of galvanic contact a ring attached to the outer surface of one of the walls of the heating chamber around the perimeter the communication hole made therein for introducing microwave energy filled with radiolucent material, the ring, base and emitter are made of a material conducting electromagnetic waves / 2 /. Note that the ring is fixedly mounted on the outer surface of one of the walls of the heating chamber, and a base is detachably connected to it, in which a groove for electromagnetic sealing is made. The inner surfaces of the two walls of the heating chamber, one of which is adjacent to the wall of the heating chamber with a communication hole, and the other is located opposite the communication hole, are ribbed. The heating chamber, the electronic unit, the segment of the coaxial line and the radiating system, including the disk radiator, the base and the ring, are located in a common metal casing.

 The main disadvantage of the known device is its low manufacturability and high metal consumption. The design of the device does not allow the use of the block layout of the microwave oven, in which the heating chamber with controls and the electronic unit with the radiating system are structurally separated and easily joined at the last stage of assembly. In the known microwave oven, the heating chamber and the electronic unit including the microwave generator are assembled on a common basis. This design of the furnace is characterized by low manufacturability, complexity in production due to the inability to separate the assembly process of its mechanical and electronic parts. In particular, the assembly and installation of the electronic unit cannot be carried out in the absence of a heating chamber, as part of the radiating system - the ring is mounted on the outer surface of the wall of the heating chamber and is rigidly connected to it, and its remaining components (base and disk radiator), as well as the length of the coaxial line through which the microwave generator is connected to the radiator, require precise installation relative to the center of the hole communication made in one of the walls of the heating chamber. This greatly complicates the assembly and repair of individual components of the microwave oven. In addition, an external metal casing is incorporated in the furnace design, which provides shielding for the user from the microwave field emitted by the microwave generator (usually a magnetron) and microwave elements. This casing closes the heating chamber, also made of sheet metal. Double shielding (a metal chamber plus a metal casing) increases the mass of the furnace, the consumption of metal and its cost, which is very significant in mass production.

 The main task to which the invention is directed is to increase the manufacturability of the device and reduce the metal consumption, and hence its cost, by using the block design of the microwave oven without compromising its electrical tightness and reliability.

 The solution to this problem is achieved by the fact that in a microwave oven containing a heating chamber, an electronic unit including a microwave generator, the output of which through a piece of a coaxial line is connected to a radiator made in the form of a disk and installed in the recess of the base with the possibility of galvanic contact between them, with the base is connected with the possibility of galvanic contact a ring attached to the outer surface of one of the walls of the heating chamber along the perimeter made in th communication hole for introducing microwave energy filled with radiolucent material, the ring, base and emitter are made of a material that conducts electromagnetic waves, according to the invention, the ring is detachably connected to the outer surface of the wall of the heating chamber and a groove for electromagnetic sealing, an electronic unit, a cut is made along its perimeter the coaxial line, the base, the emitter and the ring are located in a housing of the electronic unit, separate from the heating chamber, made in the form of a tray facing its open end m to the outer surface of the wall of the heating chamber, in which the communication hole is made, the open end of the housing of the electronic unit is connected to the metal frame along its outer perimeter, the metal frame is detachably connected to provide galvanic contact to the outer surface of the wall of the heating chamber in which the communication hole is made, and equipped with a recess in which the electromagnetic seal is placed, and a throttle groove made around the perimeter of the specified frame, a heating chamber and an electronic housing locks are located on a stand made in the form of guide strips, the case of the electronic unit being detachably connected to the stand and the heating chamber fixedly connected to it; the groove in the ring is made with a depth of λ / 4 at a distance of λ / 4 from the edge of the communication hole; the width of the metal frame is λ / 4, the recess in which the electromagnetic seal is placed is made at a distance of λ / 16 from the outer edge of the frame, which is at a distance of λ / 8 from the throttle groove edge nearest to it, the depth of which is λ / 4, where λ is the wavelength of the microwave generator.

 Due to the fact that the ring is detachably connected to the outer surface of the wall of the heating chamber and rigidly connected to the remaining elements of the radiating system, the latter was able to be placed in a separate electronic unit housing made autonomous with respect to the heating chamber. Thus, the electronic part of the microwave oven with a radiating system and a segment of the coaxial line are located separately from the heating chamber. And this facilitates the manufacture, installation, dismantling of the device, its routine inspection. The execution of the housing of the electronic unit in the form of a tray facing its open end to the outer surface of the wall of the heating chamber in which the communication hole is made also provides access to the electronic part during furnace repair and routine inspection of the device. Thus, thanks to the block design of the microwave oven without the common for the heating chamber and the electronic block of the metal casing, it was possible to increase its manufacturability and significantly reduce the metal consumption. In addition, the facilitation of the assembly process (or dismantling) of the device is facilitated by the use of guide rails for connecting and fixing the positions of the heating chamber and the housing of the electronic unit.

 Introduction to the device of a metal frame connected along its outer perimeter to the open end of the housing of the electronic unit and detachably connected to provide galvanic contact to the outer surface of the wall of the heating chamber in which the communication hole is made, as well as provided with a recess in which the electromagnetic seal is placed, and a throttle groove made around the perimeter of the specified frame prevents leakage of microwave energy from the heating chamber, ensuring the safe operation of personnel. The groove made along the perimeter of the ring for electromagnetic compaction also serves this purpose. Experimental data show that the best results are achieved when a groove with a depth of λ / 4 is made at a distance of λ / 4 from the edge of the communication hole, a width of the metal frame is λ / 4 and a recess is made for the seal at a distance of λ / 16 from the point of attachment of the frame to the open end of the electronic housing block, which is located at a distance of λ / 8 from the edge of the throttle groove adjacent to it, the depth of which is λ / 4, where λ is the wavelength of the microwave generator.

 The invention is illustrated in the drawing, which shows a General view of a microwave oven.

 The microwave oven comprises a heating chamber 1 made of metal or impact resistant plastic. In the second case, a layer of food-grade aluminum with a thickness of ~ 20 skin layers is deposited on the inner surface of this chamber 1, so that the radiation attenuation is more than 150 dB. In the wall 2 of the heating chamber 1, a communication hole 3 is made for introducing microwave energy filled with radiolucent material. In an autonomous metal case 4 of the electronic unit, made in the form of a tray facing its open end to the outer surface of the wall 2, an electronic unit is placed, including a microwave generator 5, usually a magnetron, the output of which is connected through a segment 6 of the coaxial line to the radiating system 7 It includes an emitter 8, made in the form of a disk, a base 9, in the recess of which is placed an emitter 8 connected to the base 9 by a jumper 10, and a ring 11, welded, for example, by spot welding to the base 9. In the ring 11 you full groove 12, designed to prevent leakage of microwave energy into the open space, a depth of λ / 4 at a distance of λ / 4 from the edge of the hole 3 of the connection. The emitter 8, the base 9 and the ring 11 are made of a material conducting electromagnetic waves, for example metal. The microwave generator 5, the segment 6 of the coaxial line and the radiating system 7 are mounted on a rack 13 located inside the housing 4. A metal frame 14 is welded to the open end of the housing 4 by spot welding along its outer perimeter, width λ / 4. The frame 14 is attached using special connections (for example, instrument locks) to the wall 2 of the chamber 1 in such a way that galvanic contact is provided between them. A recess is made along the perimeter of the frame 14 at a distance of λ / 16 from its outer edge, in which a seal 15 is installed on the adhesive. It is made of a composite material based on basalt threads reinforced with thin stainless steel or copper wires. As seal 15, Getelec microwave seals can be used. In addition, a throttle groove 16 with a depth of λ / 4 is made along the perimeter of the frame 14 in such a way that the outer edge of the frame 14 is separated from the nearest edge of the throttle groove 16 by λ / 8. The seal 15 and the throttle groove 16 prevent the leakage of microwave energy into the open space and, thus, contribute to the safe operation of personnel. The heating chamber 1 and the housing 4 of the electronic unit are mounted on metal guide rails 17, which are a dovetail type connection. Moreover, the heating chamber 1 is fixed to the straps 17 with the help of screws motionless, and the housing 4 can be moved along the straps 17 for docking with the camera 1.

 The proposed device operates as follows.

 First, the final operation of assembling a microwave oven is carried out — attaching an electronic unit to chamber 1. For this, an electronic unit located in the housing 4 is attached to the heating chamber 1 fixed to the brackets 17, moving it to a position corresponding to the tight fit of the surfaces of the frame 14 and the ring 11 with the outer surface of the wall 2 of the heating chamber 1. Using special connections (instrument locks), the frame 14 is attached to the wall 2. Thus, the microwave oven is assembled. Then it is placed products that need to be cooked or heated. Close the door (not shown) of the chamber 1 tightly, turn on the microwave generator 5. Microwave energy through the segment 6 of the coaxial line, the radiating system 7 and the hole 3 in the wall 2 of the heating chamber 1 enters the chamber 1. The radiating system 7, including a radiator 8 in the form of a disk, connected by a jumper 10 to the base 9, provided with a groove 12, the ring 11, excites in the chamber 1 the heating of electromagnetic waves with circular polarization. For connection and high quality matching of the emitter 8 with the microwave generator 5 is a segment 6 of the coaxial line. The groove 12 in the ring 11, the seal 15 and the throttle groove 16, made around the perimeter of the metal frame 14, prevent the leakage of microwave energy from the heating chamber 1 into the surrounding space.

 The proposed microwave oven is highly technological due to the use of a detachable block design, which facilitates operations such as manufacturing the mechanical and electronic parts of the furnace, installation, and professional examination. Reduced metal consumption of the device, because the inventive microwave oven does not contain a metal body; Thus, the mass of the device and its cost are reduced in comparison with the prototype, in which the heating chamber and the electronic unit are housed in a common housing made of metal.

Claims (3)

 1. An microwave oven containing a heating chamber, an electronic unit including a microwave generator, the output of which is connected through a segment of a coaxial line to a radiator made in the form of a disk and installed in a recess of the base with the possibility of providing galvanic contact between them, with the base connected to the possibility of providing galvanic contact, the ring attached to the outer surface of one of the walls of the heating chamber along the perimeter of the communication hole made therein for inputting microwave energy is filled of radio-transparent material, the ring, the base and the radiator are made of a material that conducts electromagnetic waves, characterized in that the ring is detachably connected to the outer surface of the wall of the heating chamber and along its perimeter there is a groove for electromagnetic sealing, an electronic unit, a segment of the coaxial line, base, radiator the ring is located in a housing of the electronic unit, separate from the heating chamber, made in the form of a tray facing its open end to the outer surface of the wall of the heating chamber, a communication hole is made, the open end of the electronic unit housing is connected to the metal frame along its outer perimeter, the metal frame is detachably connected to provide galvanic contact to the outer surface of the heating chamber wall in which the communication hole is made, and is provided with a recess in which the electromagnetic seal is placed , and a throttle groove made around the perimeter of the specified frame, the heating chamber and the body of the electronic unit are located on a stand made in the form e guide rails, and the electronic unit housing is detachably connected to the stand, and the heating chamber is connected to it motionless.  2. The furnace according to claim 1, characterized in that the groove in the ring is made with a depth of λ / 4 at a distance of λ / 4 from the edge of the communication hole, where λ is the wavelength of the microwave generator.  3. The furnace according to claim 1, characterized in that the width of the metal frame is λ / 4, the recess in which the electromagnetic seal is located is made at a distance of λ / 16 from the outer edge of the frame, which is at a distance of λ / 8 from the nearest the edges of the throttle groove, the depth of which is λ / 4, where λ is the wavelength of the microwave generator.