CN104235899A - Electric ceramic stove core - Google Patents
Electric ceramic stove core Download PDFInfo
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- CN104235899A CN104235899A CN201410549594.1A CN201410549594A CN104235899A CN 104235899 A CN104235899 A CN 104235899A CN 201410549594 A CN201410549594 A CN 201410549594A CN 104235899 A CN104235899 A CN 104235899A
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Abstract
The invention discloses an electric ceramic stove core. The electric ceramic stove core comprises a heating plate and a core base; the heating plate is arranged above the core base; the core base is provided with a circuit device chamber and a heating plate cooling fan, the two of which are separated from each other; a control circuit board is arranged in the circuit device chamber; the circuit device chamber is provided with a device chamber air inlet, a device chamber air outlet and a circuit board radiating fan. Compared with the prior art, the circuit device chamber; and the heating plate cooling fan of the electric ceramic stove core are separated from each other, and different cooling air ducts are adopted so that the control circuit board in the circuit device chamber is not affected by the radiant heat of the heating plate and the heat dissipation property of the control circuit board can be greatly improved; besides, when one fan is damaged, the other fan is capable of cooling the electric ceramic stove core, and therefore, over-temperature protection power failure is avoided.
Description
Technical field
The invention belongs to electricity pottery stove technical field, be specifically related to a kind of electricity pottery stove movement.
Background technology
Electricity pottery stove in the market generally comprises shell, movement and heating panel, movement comprises heat-generating disc, the structures such as machine core shell, radiator fan and control circuit, heating panel is located at the upside of heat-generating disc, during work, the heat heating panel that heating wire in heat-generating disc produces, heating panel heats the article placed.Electricity pottery stove purposes is wide, heating up water, decocting except the powers such as stir-frys, barbecue, chafing dish, quick-fried, hot milk, Baoshang, slow stewed, reservation except having, can also supporting baking tray, and grill, carries out tappasaki, barbecue amusement and recreation of Denging, are therefore subject to the favor of consumers in general deeply.
The heat dispersion of movement is one of key factor determining electricity pottery stove overall performance, and the heat dispersion missionary society of movement has a strong impact on the life-span of control circuit, even can lead-in wire be melted, there is potential safety hazard.General, control circuit is provided with temperature controller, and when temperature exceedes safety value, temperature controller can be cut off the electricity supply, and electricity pottery stove quits work, and electricity pottery stove often can be caused like this to be interrupted use in use, bring trouble to user.
On market, the radiator structure of existing a lot of electricity pottery stoves to movement improves, a kind of electric stove disclosed in Chinese patent CN203349318U, and the heat-generating disc heat dissipation channel of its movement is communicated with control circuit, and circuit board is located at the below of heat-generating disc; During work, the fresh air inlet of air on the bottom plate of shell and radiator fan enter in base, and portion of air enters in shell through radial guiding air holes, and the exhaust vent on shell is discharged; The axial air-guiding hole of portion of air via line plate enters in shell, and the exhaust vent on shell is discharged, and namely radiator fan needs shunting to dispel the heat to circuit board and heat-generating disc.This movement is shunted due to radiating airflow, and radiating efficiency is low, and circuit board affects greatly by the heat radiation of heat-generating disc, and thermal current can be back on circuit board, heat dispersion is bad.In addition, the heat-generating disc of this movement adopts multiple Connection Blocks of dispersion to be connected with base, and install trouble, the easy distortion of back-moving spring, heat-generating disc easily rocks.
Summary of the invention
The object of the invention is to overcome the deficiencies in the prior art, a kind of electricity pottery stove movement of perfect heat-dissipating is provided.
In order to achieve the above object, the present invention is by the following technical solutions:
Electricity pottery stove movement, comprise heat-generating disc and movement base, described heat-generating disc is located at the top of described movement base, and described movement base is provided with mutually isolated circuit devcie room and heat-generating disc radiator fan, and described circuit devcie indoor are provided with control circuit board; Described circuit devcie room is provided with device chamber air inlet and device chamber air outlet, and described circuit devcie room is provided with heat dissipation for circuit board fan.
Compared with prior art, circuit devcie room and the heat-generating disc radiator fan of electricity pottery stove movement of the present invention are mutually isolated, have employed different heat dissipation wind channels, the control circuit board of circuit devcie indoor does not affect by heat-generating disc is photothermal, can improve the heat dispersion of control circuit board significantly; And when one of them fan damages, another fan also can dispel the heat to electricity stove movement of making pottery, and avoids overheat protector power-off.
Preferably, described movement base is provided with heat-generating disc heat dissipation chamber, described heat-generating disc heat dissipation chamber and described circuit devcie room mutually isolated, the upside of described heat-generating disc heat dissipation chamber is provided with heat dissipation chamber's air outlet, be provided with heat dissipation chamber's air inlet on the downside of described heat-generating disc heat dissipation chamber, described heat-generating disc radiator fan is arranged in described heat-generating disc heat dissipation chamber.
The present invention adopts the heat dissipation wind channel of two mutually isolated circuit devcie rooms and heat-generating disc heat dissipation chamber, and adopts independently air inlet, can improve the heat dispersion of control circuit board; Heat-generating disc radiator fan is arranged in heat-generating disc heat dissipation chamber the more compact structure making electricity pottery stove movement, and integrated higher, volume is less.
Preferably, described movement base comprises drain pan and upper cover, and described upper cover is connected by demountable structure with described drain pan, and the periphery of described drain pan is provided with drain pan perisporium, and described circuit devcie room and heat-generating disc heat dissipation chamber are adjacent to the cavity in drain pan perisporium mutually; Described device chamber air inlet is located at the bottom side of described movement base, and described device chamber air outlet is located on drain pan perisporium; Cover on described and be provided with heat dissipation chamber's air outlet, make on the upside of drain pan described in described upper cover capping circuit devcie room and heat-generating disc heat dissipation chamber mutually isolated.
After adopting above-mentioned modified node method, the installation of control circuit board can be facilitated, and good heat-proof quality can be ensured; Because device chamber air outlet is located on drain pan perisporium, discharge from drain pan perisporium after radiating airflow enters circuit devcie room from the bottom side of movement base, can prevent the radiant heat of heat-generating disc from refluxing, the auxiliary heat dissipation performance to heat-generating disc can be increased simultaneously, when heat-generating disc radiator fan damages, the radiating airflow of circuit devcie room can proceed heat radiation to heat-generating disc.
Preferably, for the ease of installation and the design of control circuit board, described heat-generating disc heat dissipation chamber is located at the side of movement base, described circuit devcie room is the side that crescent is set around heat-generating disc heat dissipation chamber, described device chamber air outlet is located at meniscate two ends, can provide larger installing space like this, form the heat dissipation wind channel of arc simultaneously for control circuit board, can ventilation velocity be improved, improve the heat dispersion of circuit devcie room further.
Preferably, described control circuit board is located at the upside of circuit devcie room, and the cross sectional shape of the shape of described control circuit board and described circuit devcie room matches, and described heat dissipation for circuit board fan is connected to the downside of described control circuit board.Heat dissipation for circuit board fan is integrated on control circuit board, and radiating efficiency is high, and integrated structure makes heat dissipation for circuit board fan install and change convenient and quick.
Preferably, radiating block is connected with between described heat dissipation for circuit board fan and described control circuit board.By the heat absorption of radiating block to control circuit board, the heat dispersion of control circuit board can be improved significantly; More excellent, radiating block can be arranged heat radiation flakey or honeycomb, increase area of dissipation, improve heat dispersion.
Preferably, the position that described upper cover is positioned at described device chamber air outlet is provided with the line outlet groove of indent.Lead-in wire between heat-generating disc and control circuit board can be folded in described line outlet groove, the interior side contacts of lead-in wire and electric furnace shell of making pottery when avoiding installing, and wiring is more succinct, and the life-span of circuit is longer, and lead-in wire can be avoided to wear and tear, and improves security.
Preferably, thermal insulation layer or heat-reflecting layer is provided with on the upside of described upper cover.Adopt thermal insulation layer can intercept the impact of heat-generating disc radiant heat on circuit devcie room; Adopt reflecting layer by heat-generating disc radiation reflective, can intercept the impact of heat-generating disc radiant heat on circuit devcie room equally.
Preferably, be provided with mounting base on the downside of described movement base, described mounting base is provided with the air intake through hole corresponding with described device chamber air inlet and heat dissipation chamber's air inlet.Mounting base is used for the installation of electricity pottery stove movement and electric furnace shell of making pottery.
Preferably, described heat-generating disc by supports support on described movement base, described movement base is provided with the support through holes of more than 2, described support member comprises link, the guide pillar of more than 2 and back-moving spring, the lower end of described guide pillar is connected to the bottom of described support through holes, the upper end of described link is connected with described heat-generating disc, the lower end of described link is provided with more than 2 accordingly and installs trepanning, described installation sleeve borehole jack is located on described guide pillar, described guide pillar upper end is provided with the locating part preventing link from upwards departing from, described back-moving spring to be sheathed on described guide pillar and to be located between link and described support through holes bottom, and the diameter of described support through holes is slightly larger than the diameter of described back-moving spring.
Adopt overall link, install more convenient, guide pillar and back-moving spring are located in support through holes, and the diameter of support through holes is slightly larger than the diameter of back-moving spring, the distortion of back-moving spring and rocking of heat-generating disc can be reduced, make the elastic reset performance of support member better.
Accompanying drawing explanation
Fig. 1 is the explosive view of the present invention's electricity pottery stove movement;
Fig. 2 is the structure chart of the present invention's electricity pottery stove movement;
Fig. 3 is the structure chart of movement base of the present invention;
Fig. 4 is the explosive view of movement base of the present invention;
Fig. 5 is the structure chart of drain pan of the present invention;
Fig. 6 is the exploded view of movement base of the present invention when disassembling upper cover;
Fig. 7 is the structure chart 1 of control circuit board of the present invention;
Fig. 8 is the structure chart 2 of control circuit board of the present invention;
Fig. 9 is the structure chart of support member of the present invention;
Figure 10 is the explosive view of support member of the present invention.
Detailed description of the invention
Below in conjunction with accompanying drawing, technical scheme of the present invention is described:
See Fig. 1 to Figure 10, electricity pottery stove movement of the present invention, comprise heat-generating disc 1 and movement base 2, heat-generating disc 1 is supported on the top of described movement base 2 by support member 3, described movement base 2 is provided with mutually isolated circuit devcie room 204 and heat-generating disc heat dissipation chamber 205, is provided with control circuit board 2043 in described circuit devcie room 204; Described circuit devcie room 204 is provided with device chamber air inlet 2040 and device chamber air outlet 2014 and 2042, and described circuit devcie room 204 is provided with heat dissipation for circuit board fan 2045; The upside of described heat-generating disc heat dissipation chamber 205 is provided with heat dissipation chamber's air outlet, is provided with heat dissipation chamber's air inlet 2050 on the downside of described heat-generating disc heat dissipation chamber 205, is provided with heat-generating disc radiator fan 2051 in described heat-generating disc heat dissipation chamber 205.
Adopt the heat dissipation wind channel of two mutually isolated circuit devcie rooms 204 and heat-generating disc heat dissipation chamber 205, and adopt independently air inlet, the heat dispersion of control circuit board 2043 can be improved; Heat-generating disc radiator fan 2051 is arranged in heat-generating disc heat dissipation chamber 205 more compact structure making electricity pottery stove movement, and integrated higher, volume is less.
As the preferred scheme of one, described movement base 2 comprises drain pan 201 and upper cover 202, and described upper cover 202 is connected by demountable structure with drain pan 201; The periphery of described drain pan 201 is provided with drain pan perisporium, and described circuit devcie room 204 is adjacent to the cavity in drain pan perisporium mutually with heat-generating disc heat dissipation chamber 205; Described device chamber air inlet 2040 is located at the bottom side of described movement base 2, and described device chamber air outlet 2014 and 2042 is located on drain pan 201 perisporium; Described upper cover 202 is provided with heat dissipation chamber's air outlet 2021, make on the upside of drain pan 201 described in described upper cover capping 202 circuit devcie room 204 and heat-generating disc heat dissipation chamber 205 mutually isolated.Be provided with mounting base 203 on the downside of described drain pan 201, described mounting base 203 is provided with the air intake through hole 2032 and 2031 corresponding with described device chamber air inlet 2040 and heat dissipation chamber's air inlet 2050.
After adopting above-mentioned modified node method, the installation of control circuit board 2043 can be facilitated, and good heat-proof quality can be ensured; Because device chamber air outlet 2014 and 2042 is located on drain pan perisporium, discharge from drain pan perisporium after radiating airflow enters circuit devcie room 204 from the bottom side of movement base 2, can prevent the radiant heat of heat-generating disc 1 from refluxing, the auxiliary heat dissipation performance to heat-generating disc 1 can be increased simultaneously, even if when heat-generating disc radiator fan 2051 damages, the radiating airflow of circuit devcie room 204 can proceed heat radiation to heat-generating disc 1.
See Fig. 5, for the ease of installation and the design of control circuit board 2043, described heat-generating disc heat dissipation chamber 205 is located at the side of movement base 2, described circuit devcie room 204 is set around the side of heat-generating disc heat dissipation chamber 205 in crescent, described device chamber air outlet 2014 and 2042 is located at meniscate two ends, can provide larger installing space like this, form the heat dissipation wind channel of arc simultaneously for control circuit board 2043, can ventilation velocity be improved, improve the heat dispersion of circuit devcie room 204 further.
See Fig. 4 to Fig. 7, described upper cover 202 comprises with drain pan 201 demountable structure several Elastic buckles 208 be located at upper cover 202 auxiliary section portion on the upside of a shell 201, and is located at several catching grooves 2025 on upper cover 202 accordingly; Described control circuit board 2043 is also provided with accordingly the breach 2047 passed for described Elastic buckle 208; During installation, described control circuit board 2043 and upper cover 202 are arranged on the upside of described circuit devcie room 204 successively, and Elastic buckle 208, through being clamped on after described breach 2047 in corresponding catching groove 2025, uses this detaching structure to facilitate the installation and removal of upper cover 202.
See Fig. 4 and Fig. 5, the conveniently installation of heat-generating disc radiator fan 2051, described heat-generating disc heat dissipation chamber 205 sidewall is provided with symmetrically and is arranged on mounting groove 2053 downwards from top, be provided with mounting rail 2052 on the upside of described heat-generating disc radiator fan 2051; During installation, mounting rail 2052 is arranged in described mounting groove 2053 from top to down.
See Fig. 1, Fig. 5, Fig. 7 and Fig. 8, described control circuit board 2043 is located at the upside of circuit devcie room 204, and the shape of described control circuit board 2043 is crescent shape, the cross sectional shape of itself and circuit devcie room 204 matches, and described heat dissipation for circuit board fan 2045 is connected to the downside of described control circuit board 2043.Concrete, the sidewall of described circuit devcie room 204 is provided with some brace rods 207, and described control circuit board 2043 is shelved on the upside of brace rod 207, and upper cover 202 shelves the upside of control circuit board 2043.Heat dissipation for circuit board fan 2045 is integrated on control circuit board 2043, and radiating efficiency is high, and integrated structure makes the installation of heat dissipation for circuit board fan 2045 and changes convenient and quick.
More excellent, radiating block 2044 can be set up between described heat dissipation for circuit board fan 2045 and described control circuit board 2043.By the heat absorption of radiating block 2044 pairs of control circuit boards 2043, the heat dispersion of control circuit board 2043 can be improved significantly; More excellent, radiating block 2044 can be arranged heat radiation flakey or honeycomb, increase area of dissipation, improve heat dispersion.
Being routed in the design of electricity pottery stove movement of wire is also extremely important, and the quality of wiring directly affects the security in service life.See Fig. 4, the present invention improves wire laying mode: the line outlet groove 2022 and 2023 being respectively equipped with indent at the position that upper cover 203 is positioned at described device chamber air outlet 2041 and 2042.Like this, lead-in wire between heat-generating disc 1 and control circuit board 2043 can be folded in described line outlet groove 2022 and 2023, the interior side contacts of lead-in wire and electric furnace shell of making pottery when can avoid after adopting this structure installing, connect up more succinct, the life-span of circuit is longer, and lead-in wire wearing and tearing can be avoided, improve security.
Ginseng Fig. 6, in order on improving not the heat-proof quality of lid, thermal insulation layer or heat-reflecting layer can be set on the upside of upper cover 203.Adopt thermal insulation layer can intercept the impact of heat-generating disc radiant heat on circuit devcie room 204; Adopt reflecting layer by heat-generating disc radiation reflective, can intercept the impact of heat-generating disc radiant heat on circuit devcie room 204 equally.
The structure of support member 3 is below described, see Fig. 1, Fig. 3, Fig. 7, Fig. 9 and Figure 10, described movement base is provided with 4 support through holes 206, described support through holes 206 comprises the pilum 2062 be located on drain pan 201, described pilum 2062 is provided with pilum connecting hole, described pilum connecting hole upper end is provided with stepped hole, described upper cover 202 is provided with upper cover support through holes 2061, described upper cover support through holes 2061 lower end is provided with the socket part socket-connected with pilum connecting hole upper end step hole, described support through holes 206 is formed after described upper cover support through holes 2061 is connected with pilum connecting hole.Described support member 3 comprises link 301,4 guide pillars 3021 and 4 back-moving springs 303, the upper end of described link 301 is provided with 4 bending engaging lugs 3011, the lower end of described link 301 is the pedestal 3013 establishing 4 tie-beams to be connected in sequence, and described pedestal is provided with 4 and installs trepanning 3012 one to one with described support through holes 206; The lower end of described guide pillar 3021 is connected on described mounting base 203 through described support through holes 206, described bending engaging lug 3011 is connected with the lower end of described heat-generating disc 1, described installation trepanning 3012 is set on described guide pillar 3021, described guide pillar 3021 upper end is provided with the locating part 3022 preventing link 3 from upwards departing from, described back-moving spring 303 to be sheathed on described guide pillar 3021 and to be located between pedestal 3013 and described support through holes 206 bottom, and the diameter of described support through holes 206 is slightly larger than the diameter of described back-moving spring 303.Described guide pillar 3021 and locating part 3022 can adopt screw rod and nut respectively, and in order to make back-moving spring 303 lower end keep stable when adopting force compresses, be provided with nut 3023 in the lower end of guide pillar 3021, the lower end of described back-moving spring 303 is set on nut 3023.Adopt overall link, install more convenient, guide pillar 3021 and back-moving spring 303 are located in support through holes 206, and the diameter of support through holes 206 is slightly larger than the diameter of back-moving spring 303, the distortion of back-moving spring 303 and rocking of heat-generating disc 1 can be reduced, make the elastic reset performance of support member 3 better.
See Fig. 7 and Fig. 8, described control circuit board 2043 is provided with the draw-in groove 2046 suitable with described pilum 2062, and during installation, draw-in groove 2046 is fastened on pilum 2062, plays the role of positioning to control circuit board 2043.
Below in conjunction with accompanying drawing, operation principle of the present invention is described:
Ginseng Fig. 1 to Figure 10, during work, heat-generating disc radiator fan 2051 and heat dissipation for circuit board fan 2045 work simultaneously, the heat dissipation chamber air inlet 2050 of radiating airflow on the downside of heat-generating disc heat dissipation chamber 205 that heat-generating disc radiator fan 2051 is formed enters, and then discharges from the heat dissipation chamber's air outlet 2021 upper cover 202 and dispels the heat to heat-generating disc 1; The device chamber air inlet 2040 of radiating airflow on the downside of circuit devcie room 204 that heat dissipation for circuit board fan 2045 is formed enters, and then discharges from the device chamber air outlet 2014 and 2042 at meniscate two ends and dispels the heat to control circuit board 2043.Because circuit devcie room 204 have employed different heat dissipation wind channels from heat-generating disc heat dissipation chamber 205, so the control circuit board 2043 in circuit devcie room 204 does not affect by heat-generating disc is photothermal, also heat-generating disc radiant heat also can not reflux and enter in circuit devcie room 204, can improve the heat dispersion of control circuit board 2043 so significantly.And when one of them fan damages, another fan also can dispel the heat to electricity stove movement of making pottery, as when heat-generating disc radiator fan 2051 damages, the radiating airflow of discharging from the air outlet 2014 and 2042 of circuit devcie room 204 can continue to dispel the heat to heat-generating disc 1, and the heat radiation of control circuit board 2043 itself is unaffected, electricity pottery stove movement can continue normal work; When heat dissipation for circuit board fan 2045 damages, heat-generating disc radiator fan 2051 can continue to dispel the heat to heat-generating disc 1, and due to circuit devcie room 204 and heat dish be mutually isolated, and can be undertaken heat insulation by the thermal insulation layer of setting on upper cover 202 or reflecting layer, therefore the heat radiation of control circuit board 2043 can not be much affected, electricity pottery stove movement can continue normal work.
The announcement of book and instruction according to the above description, those skilled in the art in the invention can also change above-mentioned embodiment and revise.Therefore, the present invention is not limited to detailed description of the invention disclosed and described above, also should fall in the protection domain of claim of the present invention modifications and changes more of the present invention.In addition, although employ some specific terms in this description, these terms just for convenience of description, do not form any restriction to the present invention.
Claims (10)
1. electricity pottery stove movement, it is characterized in that: comprise heat-generating disc and movement base, described heat-generating disc is located at the top of described movement base, and described movement base is provided with mutually isolated circuit devcie room and heat-generating disc radiator fan, and described circuit devcie indoor are provided with control circuit board; Described circuit devcie room is provided with device chamber air inlet, device chamber air outlet and heat dissipation for circuit board fan.
2. electricity pottery stove movement according to claim 1, it is characterized in that: described movement base is provided with heat-generating disc heat dissipation chamber, described heat-generating disc heat dissipation chamber and described circuit devcie room mutually isolated, the upside of described heat-generating disc heat dissipation chamber is provided with heat dissipation chamber's air outlet, be provided with heat dissipation chamber's air inlet on the downside of described heat-generating disc heat dissipation chamber, described heat-generating disc radiator fan is arranged in described heat-generating disc heat dissipation chamber.
3. electricity pottery stove movement according to claim 2, it is characterized in that: described movement base comprises drain pan and upper cover, described upper cover is connected by demountable structure with described drain pan, the periphery of described drain pan is provided with drain pan perisporium, and described circuit devcie room and heat-generating disc heat dissipation chamber are adjacent to the cavity in drain pan perisporium mutually; Described device chamber air inlet is located at the bottom side of described movement base, and described device chamber air outlet is located on drain pan perisporium; Cover on described and be provided with heat dissipation chamber's air outlet, make on the upside of drain pan described in described upper cover capping circuit devcie room and heat-generating disc heat dissipation chamber mutually isolated.
4. according to the electricity pottery stove movement that Claims 2 or 3 is stated, it is characterized in that: described heat-generating disc heat dissipation chamber is located at the side of movement base, described circuit devcie room is the side that crescent is set around heat-generating disc heat dissipation chamber, and described device chamber air outlet is located at meniscate two ends.
5. electricity pottery stove movement according to claim 4, it is characterized in that: described control circuit board is located at the upside of circuit devcie room, and the cross sectional shape of the shape of described control circuit board and described circuit devcie room matches, and described heat dissipation for circuit board fan is connected to the downside of described control circuit board.
6. electricity pottery stove movement according to claim 5, is characterized in that: be connected with radiating block between described heat dissipation for circuit board fan and described control circuit board.
7. electricity pottery stove movement according to claim 3, is characterized in that: the position that described upper cover is positioned at described device chamber air outlet is provided with the line outlet groove of indent.
8. electricity pottery stove movement according to claim 3, is characterized in that: be provided with thermal insulation layer or heat-reflecting layer on the upside of described upper cover.
9. the electricity pottery stove movement according to any one of claims 1 to 3, it is characterized in that: be provided with mounting base on the downside of described movement base, described mounting base is provided with the air intake through hole corresponding with described device chamber air inlet and heat dissipation chamber's air inlet.
10. the electricity pottery stove movement according to any one of claims 1 to 3, is characterized in that: described heat-generating disc by supports support on described movement base;
Described movement base is provided with the support through holes of more than 2, described support member comprises link, the guide pillar of more than 2 and back-moving spring, the lower end of described guide pillar is connected to the bottom of described support through holes, the upper end of described link is connected with described heat-generating disc, the lower end of described link is provided with more than 2 accordingly and installs trepanning, described installation sleeve borehole jack is located on described guide pillar, described guide pillar upper end is provided with the locating part preventing link from upwards departing from, described back-moving spring to be sheathed on described guide pillar and to be located between link and described support through holes bottom, and the diameter of described support through holes is slightly larger than the diameter of described back-moving spring.
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| CN201410549594.1A CN104235899B (en) | 2014-10-16 | 2014-10-16 | Electric ceramic stove core |
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| CN201410549594.1A CN104235899B (en) | 2014-10-16 | 2014-10-16 | Electric ceramic stove core |
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| CN104235899B CN104235899B (en) | 2017-02-15 |
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Cited By (9)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104794880A (en) * | 2015-02-12 | 2015-07-22 | 中山市东凤镇铭发电器厂 | Remote control |
| CN104832961A (en) * | 2015-05-12 | 2015-08-12 | 张勇 | Electric ceramic furnace |
| CN105466002A (en) * | 2015-12-04 | 2016-04-06 | 中山市东凤镇铭发电器厂 | Cool furnace |
| CN105795948A (en) * | 2014-12-30 | 2016-07-27 | 无锡汉思特电器科技有限公司 | Multi-griddle-plate mounting structure of griddle |
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| CN106524245A (en) * | 2016-12-02 | 2017-03-22 | 中山市信轩堂文化产业投资有限公司 | Cooling stove housing, cooling stove, upper cover and manufacturing method thereof |
| CN107592781A (en) * | 2017-10-31 | 2018-01-16 | 江苏东方赛光电有限公司 | A kind of high radiating infrared machine core shell body structure of lightweight |
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| WO2018036115A1 (en) * | 2016-08-23 | 2018-03-01 | 常州市肯迪电器制造有限公司 | Active heat dissipation electrical knife of hand-held type |
Citations (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH09166329A (en) * | 1995-12-15 | 1997-06-24 | Hitachi Home Tec Ltd | Composite heating cooking device |
| CN201973758U (en) * | 2011-01-11 | 2011-09-14 | 浙江绍兴苏泊尔生活电器有限公司 | Electromagnetic oven |
| CN202709220U (en) * | 2012-05-23 | 2013-01-30 | 中山市美斯特实业有限公司 | Electric ceramic stove |
| CN203231353U (en) * | 2013-05-10 | 2013-10-09 | 井冈山市瓷福实业有限公司 | Electric ceramic stove |
| CN203231351U (en) * | 2013-04-08 | 2013-10-09 | 美的集团股份有限公司 | Induction cooker |
| CN203349317U (en) * | 2013-05-22 | 2013-12-18 | 九阳股份有限公司 | Thin type electromagnetic oven |
| CN204153834U (en) * | 2014-10-16 | 2015-02-11 | 中山市东凤镇铭发电器厂 | Electricity pottery stove movement |
-
2014
- 2014-10-16 CN CN201410549594.1A patent/CN104235899B/en active Active
Patent Citations (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH09166329A (en) * | 1995-12-15 | 1997-06-24 | Hitachi Home Tec Ltd | Composite heating cooking device |
| CN201973758U (en) * | 2011-01-11 | 2011-09-14 | 浙江绍兴苏泊尔生活电器有限公司 | Electromagnetic oven |
| CN202709220U (en) * | 2012-05-23 | 2013-01-30 | 中山市美斯特实业有限公司 | Electric ceramic stove |
| CN203231351U (en) * | 2013-04-08 | 2013-10-09 | 美的集团股份有限公司 | Induction cooker |
| CN203231353U (en) * | 2013-05-10 | 2013-10-09 | 井冈山市瓷福实业有限公司 | Electric ceramic stove |
| CN203349317U (en) * | 2013-05-22 | 2013-12-18 | 九阳股份有限公司 | Thin type electromagnetic oven |
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