CN104864427A - Cavity structure of microwave rice cooker - Google Patents

Cavity structure of microwave rice cooker Download PDF

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Publication number
CN104864427A
CN104864427A CN201510313958.0A CN201510313958A CN104864427A CN 104864427 A CN104864427 A CN 104864427A CN 201510313958 A CN201510313958 A CN 201510313958A CN 104864427 A CN104864427 A CN 104864427A
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CN
China
Prior art keywords
microwave
cavity
plate
rice cooker
stirring
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Application number
CN201510313958.0A
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Chinese (zh)
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CN104864427B (en
Inventor
陈茂顺
彭定元
唐相伟
栾春
王轩
刘民勇
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Midea Group Co Ltd
Guangdong Midea Kitchen Appliances Manufacturing Co Ltd
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Midea Group Co Ltd
Guangdong Midea Kitchen Appliances Manufacturing Co Ltd
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Priority to CN201510313958.0A priority Critical patent/CN104864427B/en
Publication of CN104864427A publication Critical patent/CN104864427A/en
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Publication of CN104864427B publication Critical patent/CN104864427B/en
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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHTING NOT OTHERWISE PROVIDED FOR
    • H05B6/00Heating by electric, magnetic, or electromagnetic fields
    • H05B6/64Heating using microwaves
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24CDOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
    • F24C15/00Details

Abstract

The invention discloses a cavity structure of a microwave rice cooker. The cavity structure comprises a cavity body (2), a microwave transmitting mechanism and a stirring component, wherein the cavity body is internally provided with a cooking cavity, a top opening of the cooking cavity is formed in the top cover (1), and the microwave conveying mechanism comprises a waveguide component (6) with a transverse part and a decurrent part; a magnetron (11) is arranged on the decurrent part, the microwave is` input into the microwave transmitting cavity (63) by virtue of a microwave inlet (12), and the transverse part is connected with the bottom of a bottom cover; the microwave is fed into the cooking cavity by virtue of a microwave feeding port (9), the stirring component comprises a microwave stirring plate (4) and a stirring motor (7), the microwave stirring plate is disc-shaped and is arranged on the inner side of the bottom cover (5); the stirring motor is arranged on the bottom of the transverse part, and the microwave stirring plate is driven to rotate by virtue of the microwave stirring plate so as to stir the microwave fed into the cooking cavity. The cavity structure is small in body type and cavity body, compact in structure, and capable of favorably realizing the microwave heating for the cooking cavity.

Description

The cavity body structure of microwave rice cooker
Technical field
The invention belongs to household appliance technical field, particularly, relate to a kind of heating using microwave product.
Background technology
Micro-wave oven common in daily life is the modernization cooking kitchen range with microwave heating of food, and its power bracket is about 500 ~ 1000 watts, as shown in Figure 1, is generally made up of parts such as power supply, magnetron 11, control circuit and cooking cavities.Power supply provides about 4000 volts of high pressure to magnetron 11, and magnetron 11, under power supply excitation, produces microwave continuously, then through waveguide assemblies 6, is coupled in cooking cavity.Near the import department of cooking cavity, be provided with rotatable agitator, because agitator is the sheet metal of fan shape, after rotating, microwave had to the reflection of all directions, so microwave energy can be evenly distributed in cooking cavity, thus heat food.
As depicted in figs. 1 and 2, microwave oven is on the market all square at present, has square cooking cavity, and inner space is comparatively large, makes structural configuration space also comparatively abundant.But in this traditional square micro-wave oven, because topology layout is poor, modular construction design is unreasonable, cause even microwave distribution poor, cause that the efficiency of heating surface is low, speed is slow and heats uneven, bring much poor experience of cooking to user, annoying whole micro-wave oven industry always.If conventional microwave oven is in order to realize rice cooker function, then need to add the functions such as many microwave annexes realize cooking, Baoshang, pot congee, causing increases that annex is various, structure is numerous and diverse, takes up room large.
For the square micro-wave oven of Fig. 2, microwave is by waveguide assemblies 6 to feed-in microwave in cooking cavity, and door body 27 is positioned at before micro-wave oven, and door-opening mode is mainly side sliding door or lower sliding door.Because cavity volume is comparatively large, make the length of waveguide assemblies 6 longer, the magnetron 11 that microwave is installed from side direction by waveguide assemblies 6 imports cavity bottom, and then time in feed-in microwave cavity, the conduction distance of microwave is far away, causes microwave transmission to lose large.Concrete, when the microwave that magnetron 11 produces transmits in microwave tube, if transmission path is long, easily forms microwave and concentrate, make skewness in the microwave transmission chamber of microwave in waveguide, be easy to cause microwave many places in microwave transmission process to focus on sparking, make the pipe surface of microwave tube produce local temperature and raise, a large amount of loss of microwave energy, the delivery efficiency poor stability of microwave components 6, the heating uniformity of cooking process of can not effectively guaranteeing to cook and optimized cooking effect.
In addition, in existing various micro-wave oven, there is diversified microwave stirrer, but its shape and structure is designed to the laminated structure of various hollow out more, to adapt to square cooking cavity, but is difficult to all the time make microwave in rectangular cavity, reach lasting excellent distributed effect.
Along with progress and the diversified development of society, client potentially demand is multi-purpose, build, cavity less and more portable microwave new product.For this reason, need badly brand-new design is carried out to the structural configuration of microwave product and part design thereof.
Summary of the invention
For above-mentioned deficiency of the prior art or defect, the corresponding cavity body structure providing a kind of microwave rice cooker of the present invention, build, the cavity of this cavity body structure are less, compact conformation, can realize the heating using microwave to cooking cavity well.
For achieving the above object, microwave rice cooker provided by the invention includes a kind of cavity body structure of microwave rice cooker, and this cavity body structure comprises:
Cavity, is provided with cooking cavity in this cavity, and the two ends of this cooking cavity are provided with top cover and bottom, described top cover are formed with the open top of described cooking cavity;
Microwave transmitting mechanism, this microwave transmitting mechanism comprises waveguide assemblies and magnetron, described waveguide assemblies comprises lateral part and the downward part downward from the end of this lateral part, described magnetron is arranged in described downward part, described magnetron inputs microwave by microwave entrance to the microwave transmission chamber in described waveguide assemblies, described lateral part is provided with microwave outlet, the bottom of described bottom is provided with microwave feed-in mouth, described lateral part is connected to the bottom of described bottom and the outlet of described microwave is docked with described microwave feed-in mouth, with by cooking cavity described in the microwave feed-in in described microwave transmission chamber, and
Mixing component, this mixing component comprises microwave agitating plate and stirring motor, described microwave agitating plate is disc shape and is arranged on inside described bottom, described stirring motor is arranged on the bottom of the described lateral part of described waveguide assemblies, described lateral part is provided with axis hole, the motor output shaft of described stirring motor is connected with described microwave agitating plate with microwave feed-in mouth through described axis hole, microwave outlet successively, and described microwave agitating plate is driven by described stirring motor and rotates to stir the microwave be coupled in described cooking cavity.
Preferably, described cavity comprises the metal cylinder plate of anti-microwave transmission, the inner core chamber of this cylindrical plate is formed as described cooking cavity, the top periphery of described cylindrical plate is connected to described top cover, the bottom periphery of described cylindrical plate is sealedly attached to the madial wall of described bottom, and described top cover and bottom are the metal cap body of anti-microwave transmission.
Preferably, described cavity body structure also comprises and can be installed in described cooking cavity and can the inner bag of microwave transmissive.
Preferably, the diameter of described inner bag than the diameter of described cylindrical plate to when young 15mm.
Preferably, described bottom is discoid, and the inner side of described bottom is also formed with the die mould space to lower recess, is provided with circumferential step portion in this die mould space;
Wherein, described cavity also comprises can the shelf of microwave transmissive, and this shelf is arranged in the described circumferential step portion in described die mould space.
Preferably, described shelf and described inner bag are plastics, glass or ceramic member, described inner bag can pressure-bearing on described shelf.
Preferably, discoid described microwave agitating plate can be rotatably set in the described die mould space between bottom and described shelf.
Preferably, the described lateral part of described waveguide assemblies and the outer end of downward part all do not exceed the neighboring of described bottom.
Preferably, described mixing component also comprises stirring support, this stirring support comprises cylindrical sleeves and arranges and outwardly directed multiple claw along the circumferential interval of the peripheral part of described cylindrical sleeves, multiple draw-in grooves that described microwave agitating plate is provided with center mounting hole and arranges around this center mounting hole, one end of the cylindrical sleeves of described stirring support is plugged in described center mounting hole, multiple described claw is snapped in corresponding described draw-in groove respectively, and the other end of described stirring support connects described stirring motor.
Preferably, the bottom of the described cylindrical sleeves of described stirring support is formed with square inner bore, and the motor output shaft of described stirring motor is square output shaft, and this square output shaft is flush-mounted in described square inner bore.
Pass through technique scheme, in the cavity body structure of microwave rice cooker of the present invention, volume for the cylindrical shape cooking cavity of similar rice cooker is little and sidewall is the design feature of arc surface, conventional waveguide assembly cannot be arranged on side direction, thus microwave components is arranged on the bottom of microwave rice cooker and end to downward-extension, the radial dimension of waveguide assemblies is less, more compact structure, microwave transmission distance are shorter, the design in microwave transmission chamber is more reasonable, can realize the high efficiency of transmission of microwave energy and realize the excellent microwave matching of microwave in assembly inner chamber; In addition microwave agitating plate respective design become disc shape and be arranged on fully to stir microwave bottom cooking cavity, waveguide assemblies is arranged on below bottom, and stirring motor is arranged on below waveguide assemblies, and integral structure layout is compact, reasonable.
Other features and advantages of the present invention are described in detail in detailed description of the invention part subsequently.
Accompanying drawing explanation
Accompanying drawing is used to provide a further understanding of the present invention, and forms a part for description, is used from explanation the present invention, but is not construed as limiting the invention with detailed description of the invention one below.In the accompanying drawings:
Fig. 1 is the structural representation of a kind of micro-wave oven of the prior art, wherein embodies internal structure for clear, eliminates the part enclosure body of micro-wave oven;
Fig. 2 and Fig. 1 is similar, but clearer magnetron and the waveguide assemblies showing side direction assembling;
Fig. 3 is the structural representation of the microwave rice cooker according to the preferred embodiment of the present invention, is similarly clear and embodies internal structure, eliminate the peripheral envelope of microwave rice cooker;
The assembling schematic diagram that Fig. 4 is the microwave rice cooker shown in Fig. 3;
Fig. 5 is the structural representation of the door assembly in the microwave rice cooker shown in Fig. 3;
Fig. 6 is the structural representation of the cavity body structure of microwave rice cooker according to the preferred embodiment of the present invention;
Fig. 7 illustrates the nonmetal inner bag for being placed in the cylindrical shape cooking cavity of the microwave rice cooker shown in Fig. 3;
Fig. 8 is the explosive view of the cavity body structure of the microwave rice cooker shown in Fig. 6;
Fig. 9 is the structural representation being suitable for the waveguide assemblies of microwave rice cooker according to the preferred embodiment of the present invention;
Figure 10 is the explosive view of the waveguide assemblies shown in Fig. 9;
Figure 11 is the three-dimensional view of the substrate plate of the waveguide assemblies shown in Fig. 9;
Figure 12 is the three-dimensional view of the cover plate of the waveguide assemblies shown in Fig. 9;
Figure 13 is the perspective view of the microwave agitating plate according to the preferred embodiment of the present invention;
Figure 14 for the microwave agitating plate shown in Figure 13 and stirring motor assemble after half sectional view;
Figure 15 to Figure 17 is the structural representation of the microwave agitating plate shown in Figure 13, wherein specifically show size and the position relationship of the various piece on this microwave agitating plate.
description of reference numerals
1 top cover 2 cavity
3 shelf 4 microwave agitating plates
5 bottom 6 waveguide assemblies
7 stirring motors 8 stir support
9 microwave feed-in mouth 10 microwave outlets
11 magnetron 12 microwave entrances
13 angle bar 14 are welded to connect plate
15 flanging bore 16 spherical grooves
17 peripheral envelope 18 bases
19 radiator fan 20 inner bags
21 frequency converter 22 linkages
23 interlocking gear 24 Controls Palette
25 hook 26 shop fronts
27 body 28 door seals
29 sealing ring 41 string A
42 inclined reflection plane 43 string B
Arc string face 45 lateral opening on 44
46 draw-in groove 47 first slots
48 second slots 49 reflect flange
61 substrate plate 62 cover plates
63 microwave transmission chamber 64 electric machine supports
71 square output shaft 81 claws
221 pivotal axis 222 torsion springs
611 first transverse bottom plate 612 lower extending plates
613 second transverse bottom plate 614 base plate flange
The longitudinal cover plate of 621 horizontal cover plate 622
O center of circle O ' triangular apex
A, b angle D card diameter
H turns down height H 1 flange height
J distance from the chord to the centre is from L1 flange length
L long edge lengths Q cutting edge length
W broadside width
Detailed description of the invention
Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described in detail.Should be understood that, detailed description of the invention described herein, only for instruction and explanation of the present invention, is not limited to the present invention.
In the present invention, when not doing contrary explanation, the noun of locality of use as " upper and lower, top, the end, longitudinal direction " normally for direction shown in the drawings or for vertical, vertically or on gravity direction each parts mutual alignment relationship description word; " transverse direction " is normally for the left and right directions of accompanying drawing along paper." inside and outside " is commonly referred to as inside and outside the radial direction inside and outside the chamber for chamber or for the center of circle.
As shown in Figures 3 to 8, the invention provides a kind of novel microwave rice cooker, this microwave rice cooker comprises cavity body structure, door assembly and the inner bag 20 of microwave transmissive (can be generally non-metallic material, but be not limited to this material), cavity body structure comprise microwave transmitting mechanism, in be provided with the cavity 2 of cooking cavity and lay respectively at top cover 1 and the bottom 5 at cooking cavity two ends, this bottom 5 is from bottom cover cooking cavity, top cover 1 is formed with the open top of cooking cavity, inner bag 20 can be put into cooking cavity from open top or therefrom take out; Wherein, door assembly can open and close to be arranged on to open from top or to close cooking cavity on top cover 1, the bottom that microwave transmitting mechanism is installed on bottom 5 with bottom this by microwave feed-in cooking cavity.
The function of microwave rice cooker collection micro-wave oven of the present invention and rice cooker is all over the body, there is no the heating using microwave product of this type of cylinder (or cylinder) shape microwave cavity in the market.Microwave rice cooker has the top doors modular construction of electric cooker, and built-in cooking cavity and inner bag 20, conveniently put into food to be heated, meet and the habituation of rice cooker is operated, cooking cavity is also conducive to heating using microwave, is conducive to microwave and is more evenly distributed, such that the efficiency of heating surface is higher, heating is faster evenly.Also by realizing heating using microwave from the microwave transmitting mechanism of bottom feed-in microwave, utilize microwave heating principle and the microwave matching technology of micro-wave oven, the food materials that microwave transparent inner bag 20 in feed-in cooking cavity can be placed in direct hot inner bag, realize cooking, the microwave-oven-heating function of the rice cooker function such as Baoshang, pot congee or routine.
Certainly, the bottom of cooking cavity also can arrange separately the shelf 3 for holding heated, such as disc ceramic wafer, plastic plate or glass plate etc., like this by heating using microwave, can realize the heating function of micro-wave oven.Shelf 3 and inner bag 20 all can adopt the microwaves such as common pottery, plastics, glass can through and not to the material that it heats.In the present embodiment, concrete employing cylindrical shape cooking cavity (but being not limited thereto shape), bottom 5 is also correspondingly designed to discoid, as shown in Figure 8, the inner side relative to cooking cavity of bottom 5 is also formed with the die mould space to lower recess, is provided with one or more circumferential step portion, circumferential step portion can places above-mentioned shelf 3 in this die mould space, thus be able to stable support shelf 3, also facilitate fetching of shelf 3.Preferred, embed inner bag 20 in cooking cavity can pressure-bearing on shelf 3, reliable to place.Certainly can expect, inner bag is also fixed by alternate manner, and such as the tip edge of inner bag 20 bends downwards, thus can be sticked in the annular slot of respective design in cavity 2.
See Fig. 2, as a kind of example, cavity 2 can comprise the metal cylinder plate of anti-microwave transmission, and namely the inner core chamber of this cylindrical plate is formed as cooking cavity, and cylindrical plate is preferably galvanized sheet, tin plate or corrosion resistant plate.The top periphery of cylindrical plate is connected to top cover 1 by modes such as welding or embeddings, the bottom periphery of cylindrical plate is then sealedly attached to the madial wall of bottom 5, top cover 1, cylindrical plate and bottom 5 is the metal cap body of anti-microwave transmission, makes the microwave in cooking cavity can not to external radiation.In illustrated present embodiment, the internal diameter of column type cavity is 230mm ~ 260mm; Column type housing depth is 105mm ~ 135mm.Wherein preferred, the diameter of the inner bag 20 shown in Fig. 7 should be less than the diameter of cylindrical plate, such as to when young 15mm, such as 20mm or 30mm etc., cooking cavity can not only be put into like this or conveniently therefrom take out, and annular gap therebetween, facilitate the microwave in cooking cavity and repeatedly reflect on the inwall of cylindrical plate, reflect, thus realize the homogeneous heating to inner bag 20.
See Fig. 4, in the present embodiment, the first end (right-hand member in figure) of door assembly is hinged with the first end (right-hand member in figure) of top cover 1 by linkage 22, second end (left end in figure) of top cover 1 is provided with interlocking gear 23 and is provided with box-like Controls Palette 24, top cover 1 is designed to laterally roughly stretch along in figure, second end of door assembly is provided with a hook 25, and door assembly can rotate around linkage 22 and be in the closure state of closed cooking cavity or be in the open mode opening cooking cavity; Wherein, at closure state, door assembly is covered on the end face of top cover 1, door hooks 25 through the corresponding through hole that the door seal 28 shown in Fig. 5 is offered, and then sealed and send a body shutdown signal to Controls Palette 24 with interlocking gear 23, this Controls Palette 24 receiving gate body shutdown signal is also toggled to state of activation; In open mode, interlocking gear 23 sends a body opening signal, and Controls Palette 24 switches to unactivated state according to door body opening signal.By the chain design of this example, can guarantee to have and only have and completely conscientiously close at door assembly, make microwave to be confined in cooking cavity can not to external radiation time, microwave rice cooker can be started, carry out heating using microwave.
Further, linkage 22 also can comprise torsion spring 222 outside pivotal axis 221, pivotal axis 221 is arranged on the first end of top cover 1, door assembly can around pivotal axis 221 pivotable, and torsion spring 222 is set on the pivotal axis 221 and two ends of this torsion spring 222 difference fexible bias pressure on door assembly and top cover 1.Like this, door assembly just can realize elasticity and open, handled easily.Certainly will be understood that, the articulated manner between door assembly and top cover 1 and structure are not limited to present embodiment, and interlocking gear 23 herein is also well known to those skilled in the art, and does not also repeat one by one at this.When operating, put in place closed for door assembly, then door hooks 25 and naturally inserts interlocking gear 23, realizes sealed.Interlocking gear 23 is general all with depressible unlock button, and by pressing this unlock button, door assembly can automatically spring open.
As shown in Figure 5, door assembly in present embodiment comprises the shop front 26, door body 27 and the door seal 28 that engage successively from outside to inside, the shop front 26 and door body 27 comprise for closed cooking cavity in case the metal sheet of microwave transmission, door hooks 25 from door body 27 to downward-extension, at the closure state of door assembly, door seal 28 pad is located between a body 27 and top cover 1 to seal cooking cavity.Wherein, door body 27 is preferably hardware, play support structure effect and prevent the outside transmission of microwave, the shop front 26 plays decorative appearance effect, and the shop front 26 should arrange steam vent etc., when conveniently using as rice cooker, steam is discharged, now for keeping cavity air pressure, preventing steam to enter in a body 27 and cushioning foreign impacts etc., between door body 27 and door seal 28, sealing ring 29 (such as cushion rubber) etc. also can be set.
Except the door assembly at cavity top, microwave rice cooker also can comprise peripheral envelope 17 and base 18, the bottom of cavity body structure is arranged on base 18, peripheral envelope 17 arranges around cavity 2 and supports this cavity body structure so that circumference is fixing, the top of peripheral envelope 17 is by the such as fixed engagement such as button bit or screw top cover 1, and bottom can be engaged on base 18 in a similar manner, thus the profile of similar rice cooker in appearance shown in pie graph 3.In addition because microwave transmitting mechanism etc. is arranged on cavity bottom, the magnetron 11 of microwave transmitting mechanism and coupled to regulate the frequency converter 21 of the supply voltage of this magnetron 11 to be all heat-generating units, caloric value is concentrated, thus can the one or more radiator fan 19 of relative set on base 18, realize forced convertion cooling.
Be described above basic function composition and the surface structure of microwave rice cooker.To introduce as being suitable for cylindrical shape cooking cavity and specially designed microwave transmitting mechanism and microwave mixing component respectively below, and the special cavity body structure as shown in Figure 6 formed on this basis, with realize the abundant stirring of microwave, utilization and evenly, high-efficiency heating.
In the present invention, traditional strip waveguide assemblies turned around to bottom from side direction shown in Fig. 2 is difficult to be applicable to columniform microwave rice cooker of the present invention, cylindrical cavity cell structure small, sidewall is the face of cylinder, the welding operation difficulty of waveguide assemblies on the face of cylinder, add the side direction that magnetron also needs correspondingly to be arranged on cylindrical cavity cell structure, then the radial dimension of microwave rice cooker can be caused excessive.And as previously mentioned, microwave transmission chamber is long will bring aforesaid variety of problems to microwave transmission.
Therefore, see Fig. 6, Fig. 8 to Figure 12, present invention also offers a kind of microwave transmitting mechanism being exclusively used in microwave rice cooker, this microwave transmitting mechanism comprises waveguide assemblies 6 and magnetron 11, waveguide assemblies 6 comprises lateral part and from the end of this lateral part to the downward part of downward-extension, downward part is provided with magnetron 11, this magnetron 11 inputs microwave by microwave entrance 12 to the microwave transmission chamber 63 in waveguide assemblies 6, lateral part is provided with microwave outlet 10, the bottom of bottom 5 is provided with microwave feed-in mouth 9, lateral part is connected to the bottom of bottom 5 and makes microwave export 10 to dock with microwave feed-in mouth 9 with by microwave feed-in cooking cavity.
In the present invention, the microwave that magnetron 11 produces enters microwave transmission chamber 63 by the magnetron antenna head (not shown) inserted in microwave entrance 12, shake coupling wherein, again from one end (i.e. lateral part) of waveguide assemblies 6 by microwave outlet 10 and the bottom feed-in microwave of microwave feed-in mouth 9 from microwave rice cooker, the other end of waveguide assemblies 6 is no longer upwards fixed around carrying out installation to cavity wall, but postpone downwards, form downward part, can be installed on base 18.This addresses the problem the problem that welding operation is not easily oversize with microwave rice cooker, also make the transport path in microwave transmission chamber 63 shorter.Wherein, when bottom 5 is in the form of annular discs, in the radial direction of this bottom 5, within the outer end of waveguide assemblies 6 is preferably positioned at the neighboring of bottom 5, the radial dimension of peripheral envelope 17 is minimized.
For making microwave obtain better concussion coupling and laser propagation effect in microwave transmission chamber 63, and be beneficial to manufacture, waveguide assemblies 6 of the present invention has carried out structure optimization.As Figure 10 to Figure 12, this waveguide assemblies 6 comprises substrate plate 61 and cover plate 62, this cover plate 62 is L-shaped and comprise horizontal cover plate 621 and longitudinal cover plate 622, substrate plate 61 also comprises the first transverse bottom plate 611, lower extending plate 612 and the second transverse bottom plate 613 successively in " Z " shape, the outer peripheral edge of substrate plate 61 is all formed with base plate flange 614, cover plate 62 hermetically cover cap on the base plate flange 614 of substrate plate 61, to form microwave transmission chamber 63 between substrate plate 61 and cover plate 62;
Wherein, horizontal cover plate 621 is arranged on the top of the first transverse bottom plate 611, to form the horizontal chamber in microwave transmission chamber 63 between horizontal cover plate 621 and the first transverse bottom plate 611, longitudinal cover plate 622 is with lower extending plate 612 lateral separation and the bottom of longitudinal cover plate 622 extends downward joint second transverse bottom plate 613, to form the vertical cavity in microwave transmission chamber 63 between lower extending plate 612, second transverse bottom plate 613 and longitudinal cover plate 622, microwave outlet 10 is arranged on horizontal cover plate 621, and microwave entrance 12 is arranged on longitudinal cover plate 622.Certainly, in the cavity body structure shown in Fig. 6, if when not arranging stirring motor 7, microwave entrance 12 also can be arranged on lower extending plate 612, and namely magnetron 11 is arranged on the left side of lower extending plate 612.
Visible on structure composition, this waveguide assemblies 6 can preferably be made simply by two pieces of veneers.Namely substrate plate 61 is the individual plates of bending forming and peripheral flanging, in other words the individual plates that is structure as a whole of base plate flange 614 and " Z " shape plate, and cover plate 62 only needs simply to be bent into " L " shape, and selection is easy, facilitates processing and manufacturing.Wherein, lower extending plate 612 and longitudinal cover plate 622 are preferably parallel to each other and extend all straight down, with attractive in appearance and be convenient to micro-wave reflection, concussion coupling.The substrate plate 61 of individual plates is when bending flange, and base plate flange 614 easily produces in the side direction of the horizontal chamber in microwave transmission chamber 63 and the turning connectivity part of vertical cavity and stretches or produce breach, as shown in Figure 10.Therefore, waveguide assemblies 6 also comprises for from two pieces of lateral seal microwave transmission chamber 63 or more angle bar 13, and this angle bar 13 is arranged on above-mentioned turning connectivity part with shield microwaves and improves modular construction intensity.
In the present embodiment, together with substrate plate 61 is welded to each other with cover plate 62, the whole circumference of base plate flange 614 is all provided with and is welded to connect plate 14, cover plate 62 covers and is welded on and is welded to connect on plate 14.Because whole waveguide assemblies 6 needs to be welded on bottom 5 by horizontal cover plate 621, therefore the end of the close lower extending plate 612 of the first transverse bottom plate 611 need be provided with through multiple flanging bores 15, to support and to facilitate welding.Wherein, this flanging bore 15 has downward circumferential flange, and the downward flange height of this circumferential flange is preferably not less than 2mm, is unlikely to outwards to give off from flanging bore 15 to make the microwave in microwave transmission chamber 63.In addition, the vertical cavity inserting microwave transmission chamber 63 due to magnetron antenna head is darker, the madial wall of lower extending plate 612 is also preferably formed with the spherical groove 16 relative with microwave entrance 12 position, and the outer wall outwardly convex of this spherical groove 16, to avoid the aerial head of magnetron 11, increases spacing.
In microwave transmission chamber 63, well coupling is shaken for making microwave, good laser propagation effect is obtained between vertical cavity to horizontal chamber, and facilitate the installation of magnetron 11, the vertical cavity in microwave transmission chamber 63 and the volume ratio of horizontal chamber are preferably not less than 2, and the longitudinal length of longitudinal cover plate 622 is preferably not more than 1.5 times of the longitudinal length of magnetron 11.
In illustrated detailed description of the invention, on cover plate 62, microwave outlet 10 is designed to square opening, and the length of square opening is 80mm, and width is 50mm ~ 80mm, and microwave thus square opening is derived.The right side of the horizontal cover plate 621 of centre distance of square opening is 70mm ~ 80mm, and aperture and the magnetron antenna head of microwave entrance 12 match, and the height on the top of the longitudinal cover plate 622 of its centre distance is 38 ~ 42mm.On substrate plate 61, whole lateral length (comprising total lateral length of horizontal chamber and vertical cavity) is 120 ~ 130mm, the spatial altitude of horizontal chamber is 15 ~ 20mm, the spatial altitude of vertical cavity is 58 ~ 65mm, and the lateral length (i.e. the horizontal spacing of lower extending plate 612 and longitudinal cover plate 622) of vertical cavity is 32 ~ 46mm; The width of substrate plate 61 and cover plate 62 similar width are 80mm effect.Flanging bore 15 is four, and aperture is 8mm ~ 10mm, the flange height 2mm ~ 3mm of the downward flange of flanging bore 15.Transmit to horizontal chamber from vertical cavity for ease of microwave, be also provided with rounding between the first transverse bottom plate 611 and lower extending plate 612, rounding radii is 5 ~ 12mm.
Microwave, after waveguide assemblies 6 feed-in cylindrical shape microwave cavity, more needs the distributing homogeneity increasing microwave, with homogeneous heating, fast, needs fully to be stirred by microwave stirring parts for this reason.Owing to there is corresponding cylindrical shape microwave chamber in prior art hardly, be certainly also just difficult to find the stirring parts of mating with cylindrical shape microwave cavity or stirring structure.For meeting this demand, see Fig. 8, Figure 13 to Figure 17, the present invention is corresponding to be provided a kind of microwave agitating plate and has the Microwave IC of this microwave agitating plate 4, such as illustrated microwave rice cooker or other.
As a kind of new ideas product, the profile of microwave rice cooker is graceful, completely different from existing square micro-wave oven, and cylindrical shape cooking cavity is relatively less and cylindrical, this makes cannot mate with traditional microwave mixing component, and needs to optimize the assembly relation building many microwave components.As previously mentioned, the bottom of cylindrical shape cooking cavity of the present invention can arrange shelf 3 to hold food to be heated, microwave enters from the bottom of cylindrical shape cooking cavity, can give over to microwave stirring space between bottom 5 and shelf 3, microwave agitating plate 4 respective design becomes disc shape and is correspondingly arranged in this microwave stirring space to stir fully microwave.
Microwave agitating plate 4 adopts metallic plate usually, drives other waveguide assemblies etc. of the stirring motor 7 of microwave agitating plate 4 and generation and transmission microwave to be then arranged on the below of bottom 5, can support on base 18.Wherein, support structure when bottom 5 provides microwave agitating plate 4 to install, top cover 1, cavity 2, bottom 5 also play outer closure cooking cavity in case the effect that leaks of microwave.
Before the structure of showing microwave agitating plate 4, installation and the supporting construction of microwave agitating plate 4 are first described.As shown in Figure 13 and Figure 14, this microwave rice cooker comprises stirring support 8, this stirring support 8 comprises cylindrical sleeves and arranges and outwardly directed multiple claw 81 along the circumferential interval of the peripheral part of cylindrical sleeves, multiple draw-in grooves 46 that microwave agitating plate 4 is provided with center mounting hole and arranges around this center mounting hole, the cylindrical sleeves stirring support 8 is plugged in center mounting hole, and multiple claw 81 is snapped in corresponding draw-in groove 46 respectively; And the bottom of cylindrical sleeves is formed with square inner bore, stirring motor 7 comprises square output shaft 71, and this square output shaft 71 embeds in square inner bore.In other words, stir support 8 and engaged with microwave agitating plate 4 by snap, stirring motor 7 connects by stirring support 8 and drives microwave agitating plate 4 to rotate to carry out stirring operation.By snap, stir support 8 and not only engages closely with microwave agitating plate 4, more convenient dismounting, stir the same easy disassembly of shaft hole matching of support 8 and the square configuration between stirring motor 7, and not easily produce circumferential skidding, make driving and spin stabilization.Certainly, diagram only exemplifies, what those skilled in the art can know is, stir support 8 shape and structure and and syndeton etc. between stirring motor 7 or microwave agitating plate 4 can also have other conventional design multiple, such as stir support 8 and the integrative-structure design etc. of microwave agitating plate 4, illustrate no longer one by one at this.
As previously mentioned, due to the cooking cavity shape of microwave rice cooker uniqueness, be difficult to use existing microwave mixing component, the end face of the thus corresponding microwave agitating plate 4 mated with this microwave rice cooker that is that provide of the present invention is formed with the arc string portion upwards turned down along string A41, this arc string portion comprises inclined reflection plane 42 and upper arc string face 44, and inclined reflection plane 42 is tilted to down from the string B43 in upper arc string face 44 and upcountry extends to the string A41 on end face; Portion is also provided with otch to arc string, and this otch excises the mid portion of inclined reflection plane 42 and forms lateral opening 45 in this middle part; In addition, the side of the center of circle O of microwave agitating plate 4 is formed with arc string portion, opposite side is provided with the first vertically through slot 47 and the second slot 48, first slot 47 and the close separately of the second slot 48 are held close to each other and arrange in angle, the far-end of the first slot 47 extends towards an extreme direction of string A41, and the far-end of the second slot 48 extends towards the other end direction of string A41; Wherein, the long limit of the close center of circle O of the first slot 47 and the second slot 48 is all formed with the reflection flange 49 upwards turned down.
Wherein, slot is used for microwave is vertically passed through, gap between the neighboring in the arc string portion upwards turned down and cooking cavity inwall also vertically can be passed through for microwave, inclined reflection plane 42 in arc string portion and the reflection flange 49 on slot all can be used for microwave reflection, and the lateral opening 45 that arc string portion is formed by otch can make the part microwave after via inclined reflection plane 42 and reflection flange 49 multiple reflections be horizontally through arc string portion along the end face direction of microwave agitating plate 4.Wherein, the upper structural design of microwave agitating plate 4 has considered the transverse direction of microwave and vertical by property and reflect at many levels.Microwave, by microwave entrance 9 feed-in cooking cavity, through the stirring of microwave agitating plate 4, fully stirs microwave, improves the uniformly dispersed of microwave.Many tests show, when the microwave agitating plate 4 of said structure fully rotates, can especially and stir microwave fully, microwave in cylindrical shape cooking cavity be scattered more abundant, heating evenly, improve the efficiency of heating surface.
Be more than according to the basic structure on the end face of microwave agitating plate 4 of the present invention and function thereof.In the present embodiment, the also concrete shape of each basic structure of optimal design and size relationship etc.Concrete, the radial distance between string A41 and center of circle O should be not less than 0.3D, and wherein D is the diameter length of microwave agitating plate 4.Arc string portion upwards turns down twice, upwards turns down form inclined reflection plane 42 along string A41, then again turns down along string B43 and forms upper arc string face 44, namely form " Z " font flange.Wherein, on this, arc string face 44 is preferably parallel with the end face of microwave agitating plate 4, to keep attractive in appearance.Plane included angle between inclined reflection plane 42 and end face is preferably 145 ° ~ 150 °, and the angle a namely in Figure 14 is 30 ° ~ 35 °.Reflection flange 49 is positioned opposite and preferably turn down straight up with inclined reflection plane 42, and the height of inclined reflection plane 42 should be not less than the height of reflection flange 49, namely turn down height H and be greater than flange height H1, after making triplicity, obtain the reflecting effect of optimization.Reflection flange 49 preferably extends to the middle part on long limit from the far-end on the long limit near center of circle O.
Be preferably rectangular angle between first slot 47 and the second slot 48 to arrange, namely the angle b of Figure 16 is 90 °.More preferably, for making the symmetrical configuration on the end face of microwave agitating plate 4, strengthen reflecting effect, first slot 47 and the second slot 48 are arranged to can cross along the extended line of the center line on respective length direction, see Figure 16, wherein this joint, center of circle O and triangular apex O ' are preferably on roughly same straight line.
In addition, otch in arc string portion is preferably triangular incision, especially equilateral triangle otch, and the triangle base (non-cutting limit) of this otch is parallel with string A41 even to align, line between triangular apex O ' and center of circle O is approximately perpendicular to string A41 chord B43, see Figure 16.Two sides of triangular incision are actual cut limit, and this cutting edge is from upper arc string face 44 down-cutting to the end face of microwave agitating plate 4, and being cut in inclined reflection plane 42 partly can be rejected, thus final formation lateral opening 45.
As a kind of detailed description of the invention, in illustrated microwave agitating plate 4, card diameter D is 103 ~ 128mm, the radial distance between string A41 and center of circle O, and namely distance from the chord to the centre is 38 ~ 42mm from J; Turnover height H is 4.5mm, and flange height H1 is 3.5mm ~ 4.5mm; The long edge lengths L of reflection flange 49 is 55 ~ 60mm, and broadside width W is 11.5 ~ 12.5mm, and flange length L1 is 25 ~ 30mm; Cutting edge length Q is 20 ~ 25mm.In above-mentioned size range, repetition test is carried out to microwave agitating plate 4, achieved extraordinary microwave mixing effect.
On the basis in conjunction with above-mentioned cylindrical shape cooking cavity, microwave transmitting mechanism and mixing component, constitute the cavity body structure of the microwave rice cooker shown in Fig. 6.See Fig. 8 to Figure 10, mixing component is arranged on the bottom of bottom 5 together with waveguide assemblies 6, magnetron.One end of waveguide assemblies 6 is connected to the bottom of bottom 5 and fixes by screw etc., and the other end installs magnetron 11; Bottom 5 is provided with microwave entrance 9, the microwave outlet 10 alignment microwave entrance 9 of waveguide assemblies 6, stirring motor 7 also utilizes screw etc. to be fixedly mounted on the bottom of bottom 5 by electric machine support 64, and the square output shaft 71 of stirring motor 7 through axis hole, microwave outlet 10 and microwave entrance 9, penetrates in bottom 5 and is connected to drive microwave agitating plate 4 to rotate with stirring support 8 successively.Opening design on bottom 5, not only for by microwave, is more conducive to alignment when assembling.
See Fig. 6, the compact in design of the cavity body structure of microwave rice cooker, rationally, after setting up peripheral envelope 17 (see Fig. 4) packaging, form the electric cooker with microwave heating function, the more aobvious grace of outward appearance, the square micro-wave oven larger relative to existing build, the build of microwave rice cooker is less, and the movement be convenient in room is put, and even transport is carried, achieve the variation of heating using microwave product, more can meet the aesthetic and actual functional capability demand of the potential a large amount of clients in market.
Below the preferred embodiment of the present invention is described in detail by reference to the accompanying drawings, but, the present invention is not limited to the detail in above-mentioned embodiment, within the scope of technical conceive of the present invention, multiple simple variant can be carried out to technical scheme of the present invention, the shape of such as cooking cavity can be the such as square tube shape etc. except the cylindrical shape that present embodiment exemplifies, stirring motor 7 and the square output shaft 71 stirred between support 8 and the assembly structure changeable type of square inner bore are that common keyway coordinates, these simple variant all do not exceed design of the present invention, thus all protection scope of the present invention is belonged to.
It should be noted that in addition, each concrete technical characteristic described in above-mentioned detailed description of the invention, in reconcilable situation, can be combined by any suitable mode, in order to avoid unnecessary repetition, the present invention illustrates no longer separately to various possible combination.
In addition, also can be combined between various different embodiment of the present invention, as long as it is without prejudice to thought of the present invention, it should be considered as content disclosed in this invention equally.

Claims (10)

1. a cavity body structure for microwave rice cooker, is characterized in that, this cavity body structure comprises:
Cavity (2), this cavity is provided with cooking cavity in (2), and the two ends of this cooking cavity are provided with top cover (1) and bottom (5), described top cover (1) are formed with the open top of described cooking cavity;
Microwave transmitting mechanism, this microwave transmitting mechanism comprises waveguide assemblies (6) and magnetron (11), described waveguide assemblies (6) comprises lateral part and the downward part downward from the end of this lateral part, described magnetron (11) is arranged in described downward part, described magnetron (11) inputs microwave by microwave entrance (12) to the microwave transmission chamber (63) in described waveguide assemblies (6), described lateral part is provided with microwave outlet (10), the bottom of described bottom (5) is provided with microwave feed-in mouth (9), described lateral part is connected to the bottom of described bottom (5) and described microwave outlet (10) is docked with described microwave feed-in mouth (9), with by cooking cavity described in the microwave feed-in in described microwave transmission chamber (63), and
Mixing component, this mixing component comprises microwave agitating plate (4) and stirring motor (7), described microwave agitating plate (4) in disc shape and be arranged on described bottom (5) inner side, described stirring motor (7) is arranged on the bottom of the described lateral part of described waveguide assemblies (6), described lateral part is provided with axis hole, the motor output shaft of described stirring motor (7) is successively through described axis hole, microwave outlet (10) is connected with described microwave agitating plate (4) with microwave feed-in mouth (9), described microwave agitating plate (4) is driven by described stirring motor (7) and rotates to stir the microwave be coupled in described cooking cavity.
2. the cavity body structure of microwave rice cooker according to claim 1, it is characterized in that, described cavity (2) comprises the metal cylinder plate of anti-microwave transmission, the inner core chamber of this cylindrical plate is formed as described cooking cavity, the top periphery of described cylindrical plate is connected to described top cover (1), the bottom periphery of described cylindrical plate is sealedly attached to the madial wall of described bottom (5), and described top cover (1) and bottom (5) are the metal cap body of anti-microwave transmission.
3. the cavity body structure of microwave rice cooker according to claim 2, is characterized in that, described cavity body structure also comprises and can be installed in described cooking cavity and can the inner bag (20) of microwave transmissive.
4. the cavity body structure of microwave rice cooker according to claim 3, is characterized in that, the diameter of described inner bag (20) than the diameter of described cylindrical plate to when young 15mm.
5. the cavity body structure of microwave rice cooker according to claim 3, it is characterized in that, described bottom (5) is for discoid, and the inner side of described bottom (5) is also formed with the die mould space to lower recess, is provided with circumferential step portion in this die mould space;
Wherein, described cavity (2) also comprises can the shelf (3) of microwave transmissive, and this shelf (3) is arranged in the described circumferential step portion in described die mould space.
6. the cavity body structure of microwave rice cooker according to claim 5, it is characterized in that, described shelf (3) and described inner bag (20) are plastics, glass or ceramic member, described inner bag (20) can pressure-bearing on described shelf (3).
7. the cavity body structure of microwave rice cooker according to claim 5, is characterized in that, discoid described microwave agitating plate (4) can be rotatably set in the described die mould space between bottom (5) and described shelf (3).
8. the cavity body structure of microwave rice cooker according to claim 2, is characterized in that, the described lateral part of described waveguide assemblies (6) and the outer end of downward part all do not exceed the neighboring of described bottom (5).
9. the cavity body structure of microwave rice cooker according to claim 1, it is characterized in that, described mixing component also comprises stirring support (8), this stirring support (8) comprises cylindrical sleeves and arranges and outwardly directed multiple claw (81) along the circumferential interval of the peripheral part of described cylindrical sleeves, multiple draw-in grooves (46) that described microwave agitating plate (4) is provided with center mounting hole and arranges around this center mounting hole, one end of the cylindrical sleeves of described stirring support (8) is plugged in described center mounting hole, multiple described claw (81) is snapped in corresponding described draw-in groove (46) respectively, the other end of described stirring support (8) connects described stirring motor (7).
10. the cavity body structure of microwave rice cooker according to claim 9, it is characterized in that, the bottom of the described cylindrical sleeves of described stirring support (8) is formed with square inner bore, the motor output shaft of described stirring motor (7) is square output shaft (71), and this square output shaft (71) is flush-mounted in described square inner bore.
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CN109668186A (en) * 2018-12-28 2019-04-23 广东美的厨房电器制造有限公司 Microwave cavity component and micro-wave oven
CN109668187A (en) * 2018-12-28 2019-04-23 广东美的厨房电器制造有限公司 Micro-wave oven
CN109764368A (en) * 2018-12-28 2019-05-17 广东美的厨房电器制造有限公司 Microwave cavity component and micro-wave oven
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WO2016197527A1 (en) * 2015-06-08 2016-12-15 广东美的厨房电器制造有限公司 Microwave rice cooker
US10869368B2 (en) 2015-06-08 2020-12-15 Guangdong Midea Kitchen Appliances Manufacturing Co. Ltd. Microwave rice cooker
WO2017219632A1 (en) * 2016-06-21 2017-12-28 广东美的厨房电器制造有限公司 Cavity of microwave oven and microwave oven
CN105928022A (en) * 2016-06-21 2016-09-07 广东美的厨房电器制造有限公司 Chamber of microwave oven and microwave oven
CN106436236A (en) * 2016-11-28 2017-02-22 广东美的厨房电器制造有限公司 Clothes dryer
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CN106337270A (en) * 2016-11-28 2017-01-18 广东美的厨房电器制造有限公司 Inner container assembly and clothes dryer provided with the same
US10736186B2 (en) 2017-05-24 2020-08-04 Guangdong Midea Kitchen Appliances Manufacturing Co., Ltd. Cooking appliance
CN109668186A (en) * 2018-12-28 2019-04-23 广东美的厨房电器制造有限公司 Microwave cavity component and micro-wave oven
CN109668187A (en) * 2018-12-28 2019-04-23 广东美的厨房电器制造有限公司 Micro-wave oven
CN109764368A (en) * 2018-12-28 2019-05-17 广东美的厨房电器制造有限公司 Microwave cavity component and micro-wave oven
CN109668186B (en) * 2018-12-28 2020-07-14 广东美的厨房电器制造有限公司 Microwave cavity assembly and microwave oven
CN109668184A (en) * 2018-12-28 2019-04-23 广东美的厨房电器制造有限公司 Micro-wave oven

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