CN203273980U - Electromagnetic oven - Google Patents

Electromagnetic oven Download PDF

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Publication number
CN203273980U
CN203273980U CN 201320259606 CN201320259606U CN203273980U CN 203273980 U CN203273980 U CN 203273980U CN 201320259606 CN201320259606 CN 201320259606 CN 201320259606 U CN201320259606 U CN 201320259606U CN 203273980 U CN203273980 U CN 203273980U
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CN
China
Prior art keywords
deep bead
wind
air inlet
base
electromagnetic oven
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Active
Application number
CN 201320259606
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Chinese (zh)
Inventor
幸程华
冯圆圆
李兵
英俊民
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Midea Group Co Ltd
Foshan Shunde Midea Electrical Heating Appliances Manufacturing Co Ltd
Original Assignee
Midea Group Co Ltd
Foshan Shunde Midea Electrical Heating Appliances Manufacturing Co Ltd
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Priority to CN 201320259606 priority Critical patent/CN203273980U/en
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Abstract

The utility model discloses an electromagnetic oven, comprising a base, a panel, a fan, a heating piece and an air blocking component, wherein an air inlet is formed in the base; the panel is arranged in an accommodating space which is limited by the base and is arranged on the base; the fan is arranged in the accommodating space and is close to the air inlet; the heating piece is arranged in the accommodating space; and the air blocking component is arranged on the base and is close to the outer peripheral edge of the fan, and an air storage area is limited between the air blocking component and the outer peripheral edge of the fan. According to the electromagnetic oven, through the air storage area limited between the air blocking component and the outer peripheral edge of the fan, the air inhaled from the air inlet can be partially stored in the area, so that the air can not flow back to the outside of the electromagnetic oven and can be continuously blown to the heating piece, thus the air speed is increased, the air quantity is increased, the heat of the heating piece can be quickly carried away, and the requirements for temperature rise of the electromagnetic oven are met.

Description

Electromagnetic oven
Technical field
The utility model relates to appliance field, especially relates to a kind of electromagnetic oven.
Background technology
the cooling fan of traditional electromagnetic oven is arranged on base, be provided with the blower fan baffle plate near the blower fan outer rim, after blower fan sucks wind in stove, suck the interior wind of stove on the one hand due to the panel that is subject to the top, stopping of the baffle plate of periphery and mainboard and coil panel, easily outside the inlet scoop refluence is come out of the stove, do not hold on the other hand the space of air quantity due to the blower fan periphery, the wind that sucks blows out air outlet immediately, air quantity is little and do not have the air quantity substitute of relay-type to cause its wind speed, air quantity descends simultaneously, therefore to mainboard, the heat radiation of the heater elements such as coil panel is not enough, thereby it is slow to cause dispelling the heat in stove, be difficult to satisfy the temperature rise requirement.
The utility model content
The utility model is intended to solve at least one of technical problem that exists in prior art.For this reason, a purpose of the present utility model is to propose a kind of electromagnetic oven of simple in structure and good heat dissipation effect.
Another purpose of the present utility model is to propose a kind of good heat dissipation effect and the low electromagnetic oven of cost.
Electromagnetic oven according to the utility model first aspect embodiment comprises: base is formed with air inlet on described base; Panel, described panel are located on described base and with described base and jointly limit spatial accommodation; Blower fan, described blower fan are located in described spatial accommodation and contiguous described air inlet setting; Heat generating member, described heat generating member are located in described spatial accommodation; And the assembly that keeps out the wind, the described assembly that keeps out the wind is located on described base, the outer peripheral edges setting of the contiguous described blower fan of the described assembly that keeps out the wind and and the outer peripheral edges of described blower fan between limit storage wind zone.
Electromagnetic oven according to the utility model first aspect embodiment, limit storage wind between outer peripheral edges by keep out the wind assembly and blower fan regional, the wind that sucks from air inlet can partly be stored in this zone, thereby can make wind can not flow backwards outside electromagnetic oven, the wind that is stored in storage wind zone can effectively replenish air quantity, thereby has improved wind speed, increased air quantity, and then can take away fast the heat of heat generating member, and realize the effect of quick heat radiating, greatly satisfy electromagnetic oven to the requirement of temperature rise.
Electromagnetic oven according to the utility model second aspect embodiment comprises: base is formed with air inlet on described base; Panel, described panel are located on described base and with described base and jointly limit spatial accommodation; Blower fan, described blower fan are located in described spatial accommodation and contiguous described air inlet setting; Heat generating member, described heat generating member are located in described spatial accommodation; And the assembly that keeps out the wind, the described assembly that keeps out the wind is located on described base, the contiguous described air inlet setting of the described assembly that keeps out the wind and and described air inlet between limit storage wind zone.
Electromagnetic oven according to the utility model second aspect embodiment, limit storage wind between assembly and air inlet by keeping out the wind regional, the wind that sucks from air inlet can partly be stored in this zone, thereby can make wind can not flow backwards outside electromagnetic oven, the wind that is stored in storage wind zone can effectively replenish air quantity, thereby has improved wind speed, increased air quantity, and then can take away fast the heat of heat generating member, and realize the effect of quick heat radiating, greatly satisfy electromagnetic oven to the requirement of temperature rise.
In addition, also can have following additional technical feature according to electromagnetic oven of the present utility model:
According to an embodiment of the present utility model, the described assembly that keeps out the wind comprises the first deep bead and the second deep bead, the contiguous described air inlet setting of the first end of described the first deep bead and the second end extend towards the direction away from described air inlet, and an end of described the second deep bead is connected with described the first deep bead and extend towards the direction of described heat generating member on the edge.Thus, by the first deep bead and the second deep bead are set, the wind that sucks from air inlet can be brought into the storage wind zone that limits between the outer peripheral edges of the first deep bead and the second deep bead and blower fan, thereby wind can be continuously with electromagnetic oven in heat generating member carry out heat exchange, accelerate the rate of heat dispation of heat generating member, thereby just can reduce in the short period of time the temperature of heat generating member.In addition, the wind that enters in electromagnetic oven is difficult for having improved the utilization rate of wind outside air inlet flows backwards electromagnetic oven.
Alternatively, the described second end setting of contiguous described the first deep bead of described the second deep bead.
Further, the height of described the second deep bead is less than the height of described the first deep bead.Thus, can partly cross the second deep bead from the wind that air inlet enters, thereby carry out heat exchange with heat generating member, reduce the temperature of heat generating member.
Particularly, described the first deep bead comprises: the first sub-deep bead, the described first described air inlet setting of sub-deep bead circle segment; The second sub-deep bead, the described second sub-deep bead extends towards the direction away from described air inlet from an end of described the first sub-deep bead, and described the second deep bead is connected with the described second sub-deep bead.
According to another embodiment of the present utility model, the described assembly that keeps out the wind comprises the 3rd deep bead, and the contiguous described air inlet setting of the first end of described the 3rd deep bead and the second end extend towards the direction of described heat generating member.Thus, limit storage wind between the outer peripheral edges of the 3rd deep bead and blower fan regional, under the effect of blower fan, the wind that enters from air inlet can partly be stored in storage wind zone, wind can not flow backwards, and replenish air quantity can for the wind that blows to heat generating member, thereby improved wind speed, increased air quantity, and processing is simple.
Alternatively, described the 3rd deep bead is circular arc.
Further, described air inlet is positioned on the diapire of described base, and described blower fan is positioned at the top of described air inlet, and described heat generating member is positioned on the distinguished and admirable air-out direction of described blower fan formation.Thus, by heat generating member being located at the air-out direction of air inlet, be conducive to the heat generating member heat radiation.
According to an embodiment of the present utility model, the storage volume that described storage wind zone is configured to air quantity is 10cm 3~20cm 3
Additional aspect of the present utility model and advantage part in the following description provide, and part will become obviously from the following description, or recognize by practice of the present utility model.
Description of drawings
Above-mentioned and/or additional aspect of the present utility model and advantage are from obviously and easily understanding becoming the description of embodiment in conjunction with following accompanying drawing, wherein:
Fig. 1 is the schematic diagram according to the base of the electromagnetic oven of an embodiment of the utility model and the assembly that keeps out the wind;
Fig. 2 is the schematic diagram according to the electromagnetic oven of an embodiment of the utility model;
Fig. 3 is the A section enlarged drawing that Fig. 2 centre circle shows;
Fig. 4 is the top view according to the electromagnetic oven of an embodiment of the utility model;
Fig. 5 is the explosive view according to the electromagnetic oven of an embodiment of the utility model;
Fig. 6 is inner distinguished and admirable to schematic diagram according to the electromagnetic oven of an embodiment of the utility model;
Fig. 7 is the schematic diagram according to each part temperatures in each part temperatures in the electromagnetic oven of an embodiment of the utility model and traditional electromagnetic oven.
Description of reference numerals:
100: electromagnetic oven;
1: base; 11: air inlet; 12: air outlet;
21: coil panel; 22: mainboard;
3: assembly keeps out the wind; 31: storage wind is regional;
32: the first deep beads;
321: the first sub-deep beads; 322: the second sub-deep beads;
33: the second deep beads;
4: blower fan; 41: installed part; 5: radiator;
6: wind guiding component; 61: the first wind deflectors; 62: the second wind deflectors.
The specific embodiment
The below describes embodiment of the present utility model in detail, and the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or the element with identical or similar functions from start to finish.Be exemplary below by the embodiment that is described with reference to the drawings, only be used for explaining the utility model, and can not be interpreted as restriction of the present utility model.
in description of the present utility model, it will be appreciated that, term " " center ", " laterally ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end ", " interior ", orientation or the position relationship of indications such as " outward " are based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, rather than device or the element of indication or hint indication must have specific orientation, with specific orientation structure and operation, therefore can not be interpreted as restriction of the present utility model.In addition, term " first ", " second " only are used for describing purpose, and can not be interpreted as indication or hint relative importance or the implicit quantity that indicates indicated technical characterictic.Thus, one or more these features can be expressed or impliedly be comprised to the feature that is limited with " first ", " second ".In description of the present utility model, except as otherwise noted, the implication of " a plurality of " is two or more.
In description of the present utility model, need to prove, unless clear and definite regulation and restriction are separately arranged, term " installation ", " being connected ", " connection " should be done broad understanding, for example, can be to be fixedly connected with, and can be also to removably connect, or connect integratedly; Can be directly to be connected, also can indirectly be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, can concrete condition understand the concrete meaning of above-mentioned term in the utility model.
Below with reference to the electromagnetic oven 100 of Fig. 1-Fig. 6 description according to the utility model embodiment, this electromagnetic oven 100 can be used for heating or cooking food.
As Fig. 1, Fig. 2 and shown in Figure 4, according to the electromagnetic oven 100 of the utility model embodiment, comprise base 1, panel (scheming not shown), blower fan 4, heat generating member and the assembly 3 that keeps out the wind.Be formed with air inlet 11 on base 1.for example in the example of Fig. 1, the top of base 1 is opened wide, air inlet 11 is formed on the diapire of base 1 and is positioned at the place ahead of base 1, be formed with the shape that a plurality of air inlets 11 and a plurality of air inlet 11 be combined on base 1 roughly rounded, the top that blower fan 4 is located at air inlet 11 sucks in electromagnetic oven 100 with the wind with the outside, also be formed with a plurality of air outlets 12 on base 1, a plurality of air outlets 12 are distributed in the left side wall of base 1, on right side wall and rear wall, the air outlet 12 of the left and right sides is respectively formed at the rear portion of left side wall and right side wall, so that the air and the abundant heat exchange of heat generating member that enter from air inlet 11, air after heat exchange is discharged outside electromagnetic oven 100 via air outlet 12.It will be appreciated that, the setting position of air inlet 11 and air outlet 12 and quantity can be according to the actual requirement settings, to satisfy better actual requirement.
Panel is located on base 1 and with base 1 and jointly limits spatial accommodation.In one of them example of the present utility model, the top of base 1 is opened wide, and panel is located at the top of base 1, and panel and base 1 limit spatial accommodation jointly.
Blower fan 4 is located in spatial accommodation, and the contiguous air inlet 11 of blower fan 4 arranges.With reference to Fig. 2, air inlet 11 is formed on the diapire of base 1, and blower fan 4 is located at the top of air inlet 11 and is connected on the diapire of base 1.Certainly, the utility model is not limited to this, and in other example of the present utility model, blower fan 4 also can be located at other position in spatial accommodation.It will be appreciated that, the setting position of air inlet 11 also can be according to the actual requirement setting, to satisfy better actual requirement.
Heat generating member is located in spatial accommodation.With reference to Fig. 2, Fig. 4 and Fig. 5, heat generating member comprises coil panel 21 and mainboard 22, and coil panel 21 and mainboard 22 all are located at the rear portion of base 1, and coil panel 21 is positioned at the top of mainboard 22, and alternatively, coil panel 21 is located on base 1.Here, need to prove, the structure of coil panel 21 and mainboard 22 and operation principle etc. have been prior art, and are known by those skilled in the art, no longer describe in detail here.It will be appreciated that, the setting position of coil panel 21 and mainboard 22 and arrangement can be according to the actual requirement settings, to satisfy better actual requirement.
The assembly 3 that keeps out the wind is located on base 1, the outer peripheral edges setting of the contiguous blower fans 4 of assembly 3 of keeping out the wind, and limit between the outer peripheral edges of keep out the wind assembly 3 and blower fan 4 and store up wind zone 31.In the example of Fig. 1, Fig. 2 and Fig. 4, the assembly 3 that keeps out the wind extends straight up from the diapire of base 1, and the spaced apart certain distance of air inlet 11 with circle, the formed space of this isolated distance is storage wind zone 31, storage wind zone 31 is formed by the assembly 3 that keeps out the wind, blower fan 4 outer peripheral edges, after panel is connected on base 1 assembling, the diapire of the roof of panel, below base 1 encloses formation only to the enclosure space of heat generating member opening up and down with described storage wind zone 31, and the storage volume that this storage wind zone 31 is configured to air quantity is about 10cm 3~20cm 3Alternatively, keep out the wind assembly 3 and base 1 is one-body molded.Certainly, the assembly 3 that keeps out the wind also can link into an integrated entity with base 1 in other way, such as bonding etc.
Electromagnetic oven 100 according to the utility model embodiment, limit storage wind zone 31 between outer peripheral edges by keep out the wind assembly 3 and blower fan 4, the wind that sucks from air inlet 11 can partly be stored in this zone, thereby can make wind can not flow backwards outside electromagnetic oven 100, the wind that is stored in storage wind zone 31 can effectively replenish air quantity, thereby has improved wind speed, increased air quantity, and then can take away fast the heat of heat generating member, and realize the effect of quick heat radiating, greatly satisfy the requirement of 100 pairs of temperature rises of electromagnetic oven.
by the test data of experiment of Fig. 7 as can be known, according to the temperature of each parts in electromagnetic oven of the present utility model 100 all less than the temperature of each parts in traditional electromagnetic oven corresponding with it 100, for example the temperature on traditional coil panel surface is 200 ℃ of left and right, according to the temperature on coil panel 21 surfaces in electromagnetic oven of the present utility model 100 a little more than 100 ℃, hence one can see that, electromagnetic oven 100 of the present utility model can effectively improve the radiating efficiency of each parts in electromagnetic oven, compare with traditional electromagnetic oven, effectively reduced for example temperature rise of electronic component of electromagnetic oven inner part, thereby very big satisfied the requirement of electromagnetic oven to temperature rise.
In an embodiment of utility model, the assembly 3 that keeps out the wind comprises the first deep bead 32 and the second deep bead 33, the contiguous air inlet 11 of the first end of the first deep bead 32 arranges and the second end extends towards the direction away from air inlet 11, and an end of the second deep bead 33 is connected with the first deep bead 32 and extend towards the direction of heat generating member on the edge.
with reference to Fig. 1-Fig. 6, the assembly 3 that keeps out the wind is located at the right side of blower fan 4, particularly, the first end of the first deep bead 32 (left end as shown in Figure 4) is connected with the installed part 41 in blower fan 4 left sides, and the first end of the first deep bead 32 form circular arc and with air inlet 11 concentrics of circle, the second end of the first deep bead 32 (right-hand member as described in Figure 4) is gradually away from the center of circle of air inlet 11, and extend towards the right side edge of heat generating member backward, the second deep bead 33 is near the first deep bead 32, and the direction extension towards the heat generating member middle part, like this, when blower fan 4 rotates counterclockwise, the wind that sucks from air inlet 11 can be brought into the storage wind zone 31 that limits between the outer peripheral edges of the first deep bead 32 and the second deep bead 33 and blower fan 4, thereby wind can be continuously with electromagnetic oven 100 in heat generating member carry out heat exchange, accelerate the rate of heat dispation of heat generating member, thereby just can reduce in the short period of time the temperature of heat generating member.In addition, the wind that enters in electromagnetic oven 100 is difficult for having improved the utilization rate of wind outside air inlet 11 flows backwards electromagnetic oven 100.Certainly, the utility model is not limited to this, and the assembly 3 that keeps out the wind also can be located at the left side (scheming not shown) of blower fan 4, and this moment, blower fan 4 can clockwise rotate, thereby the wind of outside is brought in the storage wind zone 31 in left side.
In one of them example of the present utility model, the second deep bead 33 one-body molded with the first deep bead 32.That is to say, the second deep bead 33 and the first whole processing and manufacturing of deep bead 32, the second deep bead 33 is the part of the first deep bead 32.Thus, improve production efficiency, saved cost.Certainly, the utility model is not limited to this, in other example of the present utility model, the second deep bead 33 and the first deep bead 32 also can link into an integrated entity by bonding mode, this moment, the second deep bead 33 and the first deep bead 32 were respectively two parts, and respectively independent processing and manufacturing, then the second deep bead 33 and the first deep bead 32 are by the bonding mode structure that forms as one.
Alternatively, second end (right-hand member as described in Figure 4) of second deep bead 33 contiguous the first deep beads 32 arranges.For example in the example of Fig. 1-Fig. 6, an end of vicinity first deep bead 32 of the second deep bead 33 is connected on the side internal face away from air inlet 11 centers of the first deep bead 32.It will be appreciated that, the concrete setting position of the second deep bead 33 can be according to the actual requirement setting, so that electromagnetic oven 100 has better radiating effect.
Perhaps alternatively, an end of the second deep bead 33 be connected with the second end of the first deep bead 32 (scheming not shown).At this moment, the second deep bead 33 can extend towards the direction of heat generating member from second end (right-hand member as described in Figure 4) of the first deep bead 32, the first deep bead 32 and the second deep bead 33 can be bent into respectively such as circular arc or ellipse arc etc. of arc, here, it will be appreciated that, the shape of the first deep bead 32 and the second deep bead 33 can be according to the actual requirement setting, to satisfy better actual requirement.Alternatively, the first deep bead 32 and the second deep bead 33 part that is formed in one.
Further, the height of the second deep bead 33 is less than the height of the first deep bead 32.As Fig. 1 and shown in Figure 5, the second deep bead 33 less than the height of the first deep bead 32 on above-below direction, like this, can partly be crossed the second deep bead 33 from the wind that air inlet 11 enters at the height on above-below direction, thereby carry out heat exchange with heat generating member, reduce the temperature of heat generating member.
Particularly, the first deep bead 32 comprises: the sub-deep bead 321 circle segment air inlets 11 of the first sub-deep bead 321 and the second sub-deep bead 322, the first arrange.The second sub-deep bead 322 extends towards the direction away from air inlet 11 from an end of the first sub-deep bead 321, and the second deep bead 33 is connected with the second sub-deep bead 322.
With reference to Fig. 4, the first sub-deep bead 321 roughly is positioned at the left side of base 1, the first sub-deep bead 321 forms circular arc and its center of circle overlaps with the center of circle of air inlet 11, the second sub-deep bead 322 roughly is positioned at the right side of base 1, and the left end of the second sub-deep bead 322 is connected with the right-hand member of the first sub-deep bead 321, the right-hand member of the second sub-deep bead 322 away from the center of circle of air inlet 11 and with top, the right side outer rim almost parallel of base 1, the second deep bead 33 is connected with the second sub-deep bead 322.Alternatively, the second sub-deep bead 322 is arc plate.
Further, the height of the part of the second sub-deep bead 322 is greater than the height of the first sub-deep bead 321.As shown in Figure 1, the height of the part of the second end of the second sub-deep bead 322 and contiguous the second end is greater than the height of the first sub-deep bead 321, can reduce like this gap between the second sub-deep bead 322 and top panel, thereby can not run off from the side from the wind that air inlet 11 enters, and then improve the radiating efficiency of heat generating member.Certainly, the utility model is not limited to this, can also be that the height of the first end of the second sub-deep bead 322 and the part of being close to first end is greater than the height (scheming not shown) of the first sub-deep bead 321.
In one of them example of the present utility model, the first sub-deep bead 321 one-body molded with the second sub-deep bead 322.That is to say, the first sub-deep bead 321 and the second whole processing and manufacturing of sub-deep bead 322, the first sub-deep bead 321 is the part of the second sub-deep bead 322.Thus, processing is simple and cost is low.Certainly, the utility model is not limited to this, in other example of the present utility model, the first sub-deep bead 321 and the second sub-deep bead 322 also can link into an integrated entity by bonding mode, this moment, the first sub-deep bead 321 and the second sub-deep bead 322 were respectively two parts, and respectively independent processing and manufacturing, then the first sub-deep bead 321 and the second sub-deep bead 322 are by the bonding mode structure that forms as one.
In another embodiment of the present utility model, the assembly that keeps out the wind comprises the 3rd deep bead, and the contiguous air inlet setting of the first end of the 3rd deep bead and the second end extend (scheming not shown) towards the direction of heat generating member.That is to say, the contiguous air inlet setting of one end of the 3rd deep bead, its other end towards heat generating member for example the direction of coil panel 21 extend, store up wind zone 31 thereby limit between the outer peripheral edges of the 3rd deep bead and blower fan 4, under the effect of blower fan 4, the wind that enters from air inlet 11 can partly be stored in storage wind zone 31, wind can not flow backwards, and can give blow to heat generating member for example the wind of coil panel 21 replenish air quantity, thereby improved wind speed, increased air quantity, and processing is simple.Alternatively, the 3rd deep bead roughly is circular arc.
Further, air inlet 11 is positioned on the diapire of base 1, and blower fan 4 is positioned at the top of air inlet 11, and heat generating member is positioned on the distinguished and admirable air-out direction of blower fan 4 formation, is namely the air channel that is positioned at contiguous blower fan 4.With reference to Fig. 4 and Fig. 5, air inlet 11 is located at the front side of base 1 diapire, heat generating member for example coil panel 21 and mainboard 22 all is positioned at the rear of air inlet 11, the assembly 3 that keeps out the wind is located at the right side of base 1, when blower fan 4 is worked and is rotated counterclockwise, the wind that sucks from air inlet 11 blows to coil panel 21 and mainboard 22 under the effect of the assembly 3 that keeps out the wind, like this, be conducive to the heat generating member heat radiation.
Further, also be provided with radiator 5 on base 1.for example at Fig. 2, in the example of Fig. 4 and Fig. 5, radiator 5 is located at the left side of base 1 and is positioned at the below of coil panel 21, limit air-guiding aisle by wind guiding component 6 between air inlet 11 and radiator 5, particularly, wind guiding component 6 comprises the first wind deflector 61 and the second wind deflector 62, the first wind deflector 61 extends towards the direction of radiator 5 from the outer rim of air inlet 11, the second wind deflector 62 and the first wind deflector 61 spaces are arranged to limit air-guiding aisle, further, distance between the second wind deflector 62 and base 1 center is less than the distance between the first wind deflector 61 and base 1 center.
Further, the height of the first wind deflector 61 on above-below direction is greater than the height of the second wind deflector 62, and alternatively, the first wind deflector 61 to the second wind deflectors 62 exceed 5mm, thereby can prevent effectively that wind runs off from the side.It will be appreciated that, the first wind deflector 61 exceeds the height of the second wind deflector 62 can be according to the actual requirement setting, to satisfy better actual requirement.
Electromagnetic oven according to the utility model second aspect embodiment comprises: base 1, panel (scheming not shown), blower fan 4, heat generating member and the assembly 3 that keeps out the wind.
Be formed with air inlet 11 on base 1.Panel is located on base 1, and panel and base 1 limit spatial accommodation jointly.Blower fan 4 is located in spatial accommodation and contiguous air inlet 11 arranges.Heat generating member is located at spatial accommodation.The assembly 3 that keeps out the wind is located on base 1, and the contiguous air inlets 11 of the assembly 3 of keeping out the wind arrange, and keeps out the wind to limit between assembly 3 and air inlet 11 and store up wind zone 31.
Here, need to prove, according to the difference of the electromagnetic oven 100 of the electromagnetic oven of the utility model second aspect embodiment and above-mentioned first aspect embodiment only be the to keep out the wind setting position of assembly 3, for other such as the composition of the assembly that keeps out the wind and the setting position of blower fan etc., all can adopt the composition of the assembly that keeps out the wind in above-described embodiment and the setting position of blower fan to arrange, repeat no more here.
Electromagnetic oven according to the utility model embodiment, limit storage wind zone 31 between assembly 3 and air inlet 11 by keeping out the wind, the wind that sucks from air inlet 11 can partly be stored in this zone, thereby can make wind can not flow backwards outside electromagnetic oven, the wind that is stored in storage wind zone 31 can effectively replenish air quantity, thereby has improved wind speed, increased air quantity, and then can take away fast the heat of heat generating member, and realize the effect of quick heat radiating, greatly satisfy electromagnetic oven to the requirement of temperature rise.
Be all known to those skilled in the art according to other formations and the operation of the electromagnetic oven 100 of the utility model embodiment, be not described in detail here.
In the description of this specification, the description of reference term " embodiment ", " some embodiment ", " illustrative examples ", " example ", " concrete example " or " some examples " etc. means to be contained at least one embodiment of the present utility model or example in conjunction with specific features, structure, material or the characteristics of this embodiment or example description.In this manual, the schematic statement of above-mentioned term not necessarily referred to identical embodiment or example.And the specific features of description, structure, material or characteristics can be with suitable mode combinations in any one or more embodiment or example.
Although illustrated and described embodiment of the present utility model, those having ordinary skill in the art will appreciate that: in the situation that do not break away from principle of the present utility model and aim can be carried out multiple variation, modification, replacement and modification to these embodiment, scope of the present utility model is limited by claim and equivalent thereof.

Claims (10)

1. an electromagnetic oven, is characterized in that, comprising:
Base is formed with air inlet on described base;
Panel, described panel are located on described base and with described base and jointly limit spatial accommodation;
Blower fan, described blower fan are located in described spatial accommodation and contiguous described air inlet setting;
Heat generating member, described heat generating member are located in described spatial accommodation; And
The assembly that keeps out the wind, the described assembly that keeps out the wind is located on described base, the outer peripheral edges setting of the described contiguous described blower fan of assembly that keeps out the wind and and the outer peripheral edges of described blower fan between limit storage wind zone.
2. an electromagnetic oven, is characterized in that, comprising:
Base is formed with air inlet on described base;
Panel, described panel are located on described base and with described base and jointly limit spatial accommodation;
Blower fan, described blower fan are located in described spatial accommodation and contiguous described air inlet setting;
Heat generating member, described heat generating member are located in described spatial accommodation; And
The assembly that keeps out the wind, the described assembly that keeps out the wind is located on described base, the contiguous described air inlet setting of the described assembly that keeps out the wind and and described air inlet between limit storage wind zone.
3. electromagnetic oven according to claim 1 and 2, it is characterized in that, the described assembly that keeps out the wind comprises the first deep bead and the second deep bead, the contiguous described air inlet setting of the first end of described the first deep bead and the second end extend towards the direction away from described air inlet, and an end of described the second deep bead is connected with described the first deep bead and extend towards the direction of described heat generating member on the edge.
4. electromagnetic oven according to claim 3, is characterized in that, the described second end setting of contiguous described the first deep bead of described the second deep bead.
5. electromagnetic oven according to claim 3, is characterized in that, the height of described the second deep bead is less than the height of described the first deep bead.
6. electromagnetic oven according to claim 3, is characterized in that, described the first deep bead comprises:
The first sub-deep bead, the described first described air inlet setting of sub-deep bead circle segment; With
The second sub-deep bead, the described second sub-deep bead extends towards the direction away from described air inlet from an end of described the first sub-deep bead, and described the second deep bead is connected with the described second sub-deep bead.
7. electromagnetic oven according to claim 1 and 2, is characterized in that, the described assembly that keeps out the wind comprises the 3rd deep bead, and the contiguous described air inlet setting of the first end of described the 3rd deep bead and the second end extend towards the direction of described heat generating member.
8. electromagnetic oven according to claim 7, is characterized in that, described the 3rd deep bead is circular arc.
9. electromagnetic oven according to claim 1 and 2, is characterized in that, described air inlet is positioned on the diapire of described base, and described blower fan is positioned at the top of described air inlet, and described heat generating member is positioned on the distinguished and admirable air-out direction of described blower fan formation.
10. electromagnetic oven according to claim 1 and 2, is characterized in that, the storage volume that described storage wind zone is configured to air quantity is 10cm 3~20cm 3
CN 201320259606 2013-05-13 2013-05-13 Electromagnetic oven Active CN203273980U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104197383A (en) * 2014-09-22 2014-12-10 珠海格力电器股份有限公司 Electromagnetic oven
CN105318374A (en) * 2014-07-28 2016-02-10 佛山市顺德区美的电热电器制造有限公司 Shell of induction cooker

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105318374A (en) * 2014-07-28 2016-02-10 佛山市顺德区美的电热电器制造有限公司 Shell of induction cooker
CN104197383A (en) * 2014-09-22 2014-12-10 珠海格力电器股份有限公司 Electromagnetic oven

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