CN105987411B - The fit structure and electromagnetic oven of coil disc of electric stove and furnace body panel - Google Patents

Abstract

The present invention is suitable for household appliance technical field, disclose the fit structure and electromagnetic oven of coil disc of electric stove and furnace body panel, the fit structure of coil disc of electric stove and furnace body panel includes furnace body panel, the coil panel set on furnace body below the panel and the containment member that is sealed between coil panel and furnace body panel, a vacuum lumen is enclosed between coil panel and furnace body panel, run through on coil panel and vacuumize hole equipped with what is connected with vacuum lumen, vacuumizing to be equipped at hole can prevent air from entering the sealing control in vacuum lumen.The present invention, the heat being transmitted to from furnace body panel inside electromagnetic oven is reduced by the heat-blocking action of vacuum lumen, scatter and disappear so as to reduce heat of the electromagnetic oven in use on furnace body panel, improve the heating effect of electromagnetic oven, culinary art effect, can valid value and effects of energy saving and emission reduction；Meanwhile it can be conducive to further be promoted the heat dissipation effect of electromagnetic oven internal electric component, and then conducive to the service life of extension electromagnetic oven.

Description

The fit structure and electromagnetic oven of coil disc of electric stove and furnace body panel

Technical field

The invention belongs to household appliance technical field more particularly to coil disc of electric stove and furnace body panel fit structure and have The electromagnetic oven of the fit structure.

Background technology

Electromagnetic oven generally comprises furnace body panel and the coil panel set on furnace body below the panel, electromagnetic oven at work, cookware It is positioned on furnace body panel, and the heat of the cookware in heating can be constantly transmitted on furnace body panel；And in the prior art, furnace body Heat insulation between panel and coil panel is all poor, so that the heat on furnace body panel can constantly be transmitted to coil panel Inside the electromagnetic oven at place, in this way, the continuous of heat on furnace body panel on the one hand can be caused to scatter and disappear, electromagnetic oven has been seriously affected The efficiency of heating surface；On the other hand the heat dissipation effect of electromagnetic oven internal electric component can be influenced, and then seriously affected electromagnetic oven The promotion of energy.

Invention content

It is an object of the invention to overcome above-mentioned the deficiencies in the prior art, coil disc of electric stove and furnace body panel are provided Fit structure and electromagnetic oven constantly transmit the technology being lost to inside electromagnetic oven which solve the heat on existing furnace body panel and ask Topic.

In order to achieve the above objectives, the technical solution adopted by the present invention is：The cooperation knot of coil disc of electric stove and furnace body panel Structure, including furnace body panel, containment member and the coil panel set on the furnace body below the panel, the containment member is sealed in described Between coil panel and the furnace body panel, and a vacuum lumen, institute are enclosed between the coil panel and the furnace body panel State run through on coil panel be equipped with connect with the vacuum lumen vacuumize hole, it is described vacuumize at hole equipped with can prevent air into Enter the sealing control in the vacuum lumen；Further include temperature measurement component, the temperature measurement component include thermistor, conducting wire pin and Connecting wire；The thermistor is contacted with the furnace body panel or the thermistor is fastened on the stove On honorable plate；The conducting wire pin is fixed on using insert-molding mode on the coil panel, and the conducting wire pin, which has, to be worn In the inscribed line end in the vacuum lumen and the external terminal being arranged in outside the vacuum lumen, the both ends of the connecting wire The thermistor and the inscribed line end are connected respectively.

Specifically, the coil panel includes the disk body with cavity, the coil in the cavity and set on the disk The magnetic stripe of body bottom, it is described vacuumize hole run through be set on the disk body on, the containment member be sealed in the disk body with it is described Between furnace body panel, and the vacuum lumen is enclosed between the disk body and the furnace body panel.

Preferably, the top towards the furnace body panel of the disk body has what is extended towards the center far from the disk body Radial flange and towards the axially extending flange of furnace body panel, radial direction card slot and axial direction are correspondingly provided on the containment member Card slot, the radial flange card insertion is in the radial direction card slot, and the axial ledge card insertion is in the axial card slot.

Preferably, the periphery of the disk body is convexly equipped with several lugs, and the disk body is fastenedly connected institute by the lug State furnace body panel.

Preferably, the lug by hot melt adhesive hot melt adhesion mode either screw connecting mode or riveting method or The mode of snapping connection is fastenedly connected the furnace body panel.

Further, the present invention also provides another coil disc of electric stove and the fit structure of furnace body panel, including stove Honorable plate and the coil panel set on the furnace body below the panel, it is characterised in that：Containment member is further included, the containment member is close It is encapsulated between the coil panel and the furnace body panel, and a vacuum is enclosed between the coil panel and the furnace body panel Inner cavity, runs through the hole that vacuumizes for being equipped with and connect with the vacuum lumen on the coil panel, described to vacuumize at hole equipped with prevent Only air enters the sealing control in the vacuum lumen；Temperature measurement component is further included, the temperature measurement component includes thermistor, leads Wire pin and connecting wire, the thermistor are contacted with the furnace body panel, and the conducting wire pin, which has, is arranged in institute State the inscribed line end in vacuum lumen and the external terminal being arranged in outside the vacuum lumen, the both ends difference of the connecting wire Connect the thermistor and the inscribed line end；The temperature measurement component further includes stent, sealing ring and elastic component, the stent Being installed on the bottom of the coil panel and its has the interior protuberance being arranged in the vacuum lumen, and the conducting wire pin is using embedding Part molding mode is fixed in the interior protuberance, and the sealing ring is sealed between the stent and the coil panel, the bullet One end of property part is resisted against on the coil panel, the thermistor is resisted against on the furnace body panel by the other end；The line It encloses on disk to run through and is equipped with mounting hole, the stent includes the body of rod that can be arranged in the mounting hole and is convexly equipped in the body of rod bottom The pedestal held and be stuck in outside the mounting hole, the interior protuberance are the part being arranged in the vacuum lumen of the body of rod, The sealing ring include being arranged in the stem seal that in the mounting hole and is sealed between the body of rod and the mounting hole and It is stuck in the seat sealing that the mounting hole is outer and is sealed between the pedestal and the coil panel.

The fit structure of coil disc of electric stove provided by the invention and furnace body panel, coil panel is sealed in by containment member Between furnace body panel, and by the air vacuumized between hole extraction coil panel and furnace body panel on coil panel so that coil A vacuum lumen is formed between disk and furnace body panel, in this way, can be effectively reduced from furnace body face by the heat-blocking action of vacuum lumen The heat being transmitted on plate inside electromagnetic oven dissipates so as to effectively reduce heat of the electromagnetic oven in use on furnace body panel It loses, improves heating effect, culinary art effect, energy valid value and the effects of energy saving and emission reduction of electromagnetic oven；Simultaneously as from furnace body panel Being transmitted to the heat inside electromagnetic oven reduces, therefore, it can be conducive to further be promoted the heat dissipation of electromagnetic oven internal electric component Effect, and then conducive to the service life of extension electromagnetic oven.In addition, the setting of sealing control, can effectively prevent outside air from pumping Enter in vacuum lumen at vacuum hole, ensure that the sealing performance of vacuum lumen.

Further, the present invention also provides electromagnetic oven, matching with above-mentioned coil disc of electric stove and furnace body panel Close structure.

Electromagnetic oven provided by the invention, as a result of the fit structure of above-mentioned coil disc of electric stove and furnace body panel, Therefore reduce during electromagnetic oven heating scattering and disappearing for heat on cookware, improve heating effect, culinary art effect, the energy of electromagnetic oven Valid value and effects of energy saving and emission reduction, and conducive to the service life of electromagnetic oven is extended, so as to improve the comprehensive performance of electromagnetic oven, and then Conducive to the raising competitiveness of product in market.

Description of the drawings

Fig. 1 is the diagrammatic cross-section of coil disc of electric stove provided in an embodiment of the present invention and the fit structure of furnace body panel；

Fig. 2 is the decomposition diagram of coil panel provided in an embodiment of the present invention, containment member and temperature measurement component；

Fig. 3 is the assembling schematic top plan view of coil panel provided in an embodiment of the present invention, containment member and temperature measurement component；

Fig. 4 is the diagrammatic cross-section of A-A in Fig. 3；

Fig. 5 is the assembling elevational schematic view of coil panel provided in an embodiment of the present invention, containment member and temperature measurement component.

Specific embodiment

In order to make the purpose , technical scheme and advantage of the present invention be clearer, with reference to the accompanying drawings and embodiments, it is right The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and It is not used in the restriction present invention.

It should be noted that when element is referred to as on " being fixed on " or " being set to " another element, it can be direct On another element or it may be simultaneously present centering elements.When an element is known as " connection " another element, it Can be directly connected to another element or may be simultaneously present centering elements.

Only it is each other relatively generally it should also be noted that, the orientation term such as left and right, upper and lower, top, bottom in the present embodiment It reads or using the normal operating condition of product as reference, and should not be regarded as restrictive.

As depicted in figs. 1 and 2, the fit structure of coil disc of electric stove provided in an embodiment of the present invention and furnace body panel, packet Furnace body panel 1, containment member 3 and the coil panel 2 set on 1 lower section of furnace body panel are included, containment member 3 is sealed in coil panel 2 and stove Be enclosed a vacuum lumen 4 between honorable plate 1, and between coil panel 2 and furnace body panel 1, run through on coil panel 2 be equipped with it is true What empty inner cavity 4 connected vacuumizes hole 211, and vacuumizing to be equipped at hole 211 can prevent air from entering the sealing control in vacuum lumen 4 (not shown).Furnace body panel 1 specifically can be used ceramic material and be made.The setting of containment member 3, can effectively encapsulated coil disk 2 with Fit clearance between furnace body panel 1；The setting in hole 211 is vacuumized, is mainly used for being taken out for vacuum extractor (not shown) The air between coil panel 2 and furnace body panel 1 is taken so as to form vacuum lumen 4 between coil panel 2 and furnace body panel 1；Sealing control The setting of part can prevent outside air from entering in vacuum lumen 4 at hole 211 from vacuumizing.The embodiment of the present invention, in coil panel 2 Vacuum lumen 4 between furnace body panel 1 is set, and is ensured especially by the sealing function of containment member 3 and sealing control The sealing performance and vacuum degree of vacuum lumen 4, in this way, can be effectively reduced from furnace body panel 1 by the heat-blocking action of vacuum lumen 4 On be transmitted to heat inside electromagnetic oven, dissipated so as to effectively reduce heat of the electromagnetic oven in use on furnace body panel 1 It loses, improves heating effect, culinary art effect, energy valid value and the effects of energy saving and emission reduction of electromagnetic oven；Simultaneously as from furnace body panel 1 On the heat that is transmitted to inside electromagnetic oven reduce, therefore, can be conducive to further promote dissipating for electromagnetic oven internal electric component Thermal effect, and then conducive to the service life of extension electromagnetic oven.

Specifically, sealing control is to be installed on the check valve vacuumized at hole 211, and causes the air in vacuum lumen 4 It can be from outflow be vacuumized at hole 211 and outside air can not flow into vacuum lumen 4 from vacuumizing at hole 211, in this way, both protecting The operability vacuumized is demonstrate,proved, and effectively prevents outside air and is sent out from the phenomenon that entering in vacuum lumen 4 at hole 211 is vacuumized It is raw.It of courses, in concrete application, sealing control is alternatively the sealing element of other controllable gas unidirectional flowings.

Specifically, as depicted in figs. 1 and 2, coil panel 2 includes the disk body 21 with cavity 212, in cavity 212 Set on 21 bottom of disk body, (bottom of disk body 21 refers to the portion back to furnace body panel 1 of disk body 21 to coil (not shown) with several Point, accordingly, the top of disk body 21 refers to the part towards furnace body panel 1 of disk body 21) magnetic stripe (not shown), vacuumize hole 211 run through on disk body 21, and containment member 3 is sealed between disk body 21 and furnace body panel 1, and disk body 21 and furnace body panel 1 Between be enclosed vacuum lumen 4.The specific circumferentially distributed bottom back to furnace body panel 1 for being installed on disk body 21 of several magnetic stripes Portion；Cavity 212 is specifically recessed downwards from the middle section at the top towards furnace body panel 1 of disk body 21, and the bottom of cavity 212 is set There is the wire casing 217 that positioning is caught in for coil；Vacuumizing hole 211 can specifically pass through from the bottom of disk body 21 or side towards cavity 212 It wears and puts.Coil pin 22 is additionally provided on disk body 21, and coil pin 22 has the interior leads ends being arranged in vacuum lumen 4 221 and the outer lead end 222 that is arranged in outside vacuum lumen 4, the lead of coil be connected in interior leads ends 221, outer pin End 222 is electrically connected with other electric components outside coil panel 2.

Preferably, coil pin 22 is fixed on using insert-molding mode on disk body 21.Insert-molding mode refers in mould It after being packed into pre-prepd different material inserts in tool, then is added in mold and treats formed in mould material, so as to treat that mold is molded Material and different material inserts engagement cure, the molding mode of integration product is made.In the present embodiment, coil pin 22 can adopt It being made of conductive metallic material, disk body 21 can be used injection molding, in specific process, the line that will can in advance process Circle pin 22 is positioned in the mold cavity (not shown) of disk body 21, is then carried out by adding in plastic material in mold cavity Injection molding disk body 21 can form the disk body 21 embedded with coil pin 22 after solidification to be cooled.Coil pin 22 uses inserts Molding mode is fixed on disk body 21, can also be abundant under the premise of achievable coil pin 22 is locked on disk body 21 Ensure the sealing performance of the installed position on disk body 21 of coil pin 22, so as to the sealing performance conducive to guarantee vacuum lumen 4； Meanwhile the follow-up assembling procedure of coil pin 22 and disk body 21 can be also reduced, simplify the production technology of coil panel 2.

Preferably, as shown in Figure 2 and Figure 4, the top towards furnace body panel 1 of disk body 21 has towards far among disk body 21 The radially extending flange 213 of the heart and towards 1 axially extending flange 214 of furnace body panel, is correspondingly provided on containment member 3 and radially blocks Slot (not shown) and axial card slot (not shown), 213 card insertion of radial flange is in radial direction card slot, and 214 card insertion of axial ledge is in axis Into card slot.In this way, pass through the cooperation of the card insertion of radial flange 213 and radial direction card slot, axial ledge 214 and the card insertion of axial card slot Cooperation, can not only ensure the solid and reliable property that containment member 3 is connect with disk body 21, but also can fully ensure that the sealing effect of containment member 3 Fruit.

Preferably, as depicted in figs. 1 and 2, the periphery of disk body 21 is convexly equipped with several lugs 215, and disk body 21 passes through lug 215 are fastenedly connected furnace body panel 1.The present embodiment, lug 215 further connect the fastening for realizing coil panel 2 and furnace body panel 1 Connection in this way, staff, which on the one hand can be conducive to, carries out vacuum pumping, is on the other hand conducive to ensure that containment member 3 is sealed in Reliability between coil panel 2 and furnace body panel 1.And since lug 215 is outwardly extending along the periphery of disk body 21, seal structure Part 3 is provided between 21 top of disk body and furnace body panel 1, therefore, the setting of lug 215 will not produce the sealing of containment member 3 Raw interference phenomenon.The quantity of lug 215 can be three or four or other numerical value.

Preferably, lug 215 is fastenedly connected furnace body panel 1 by hot melt adhesive hot melt adhesion mode, and fastening is reliable, operation It is convenient.The center position of lug 215, which runs through, is equipped with hot melt handle hole 2151, and in concrete application, staff can pass through hot melt Handle hole 2151 carries out heating hot melt adhesive.Of course, in concrete application, lug 215 also can be connected by screw or rivet or Person the modes such as snaps connection and is fastenedly connected furnace body panel 1.

Preferably, as depicted in figs. 1 and 2, the fit structure of above-mentioned coil disc of electric stove and furnace body panel further includes survey Warm component 5, temperature measurement component 5 include thermistor 51, conducting wire pin 52 and connecting wire (not shown), thermistor 51 and furnace body Panel 1 contacts or thermistor 51 is fastened on furnace body panel 1；Conducting wire pin 52, which has, to be arranged in vacuum Inscribed line end 521 and the external terminal 522 being arranged in outside vacuum lumen 4 in chamber 4, the both ends of connecting wire connect temperature-sensitive respectively Resistance 51 and inscribed line end 521.The setting of temperature measurement component 5 is mainly used for detecting the temperature of furnace body panel 1 in real time and be detected On information Real-time Feedback to the main circuit board (not shown) of electromagnetic oven, and then conducive to the intelligent control effect of guarantee electromagnetic oven.

Preferably, as depicted in figs. 1 and 2, in the present embodiment, temperature measurement component 5 further includes stent 53, sealing ring 54 and elasticity Part 55, stent 53, which is installed on the bottom of coil panel 2 and its, has the interior protuberance being arranged in vacuum lumen 4, and conducting wire pin 52 is adopted It is fixed in interior protuberance with insert-molding mode, sealing ring 54 is sealed between stent 53 and coil panel 2, the bottom end of elastic component 55 It is resisted against on coil panel 2, thermistor 51 is resisted against on furnace body panel 1 by top, push pipe and the thermistor 51 of elastic component 55 It is fastenedly connected.In the present embodiment, there is no lockings to be connected on furnace body panel 1 for thermistor 51, but passes through elastic component 55 Resilient support effect support and be contacted on furnace body panel 1, installation process is simple, and can ensure thermistor 51 and furnace body face The contact always of plate 1, ensure that the accuracy of 51 thermometric of thermistor.The setting of sealing ring 54, can effectively sealed support 53 with The fit clearance of coil panel 2 ensure that the sealing performance of vacuum lumen 4.In the present embodiment, conductive gold can be used in conducting wire pin 52 Belonging to material to be made, stent 53 can be used injection molding, in specific process, the conducting wire pin 52 that will can in advance process It is positioned in the mold cavity (not shown) of stent 53, then carries out injection molding by adding in plastic material in mold cavity Stent 53 can form the stent 53 embedded with conducting wire pin 52 after solidification to be cooled.Conducting wire pin 52 uses insert-molding mode It is fixed on stent 53, under the premise of achievable conducting wire pin 52 is locked on stent 53, can also fully ensure that conducting wire The sealing performance of the installed position on stent 53 of pin 52, so as to the sealing performance conducive to guarantee vacuum lumen 4；Meanwhile The follow-up assembling procedure of conducting wire pin 52 and stent 53 can be also reduced, simplifies the production technology of coil panel 2.

Preferably, elastic component 55 is helix spring, and (helix spring exists the initial length of helix spring Do not generate the length under elastic deformation) more than or equal to the distance between 212 inner bottom wall of cavity to furnace body panel 1, this Thermistor 51 is supported the reliability being contacted on furnace body panel 1 conducive to guarantee elastic component 55 by sample；Connecting wire is arranged in spiral shell Its both ends of hollow space inscribe of rotation sleeve, which each extend over, to be connected on thermistor 51 and conducting wire pin 52.Helix The structure of spring is simple, elasticity is good, easily fabricated, and its hollow space can prevent elastic component 55 from being generated to the setting of connecting wire Interference phenomenon；Meanwhile the bottom end of helix spring is sheathed on outside interior protuberance, in this way, can be by interior protuberance to elastic component 55 Elastic telescopic plays guiding role, conducive to preventing the inclination and distortion of elastic component 55 from stretching, and determines conducive to ensureing that elastic component 55 is installed The reliability of position.It of courses, in concrete application, other structures, such as elastoplastic pipe, shrapnel can also be used in elastic component 55.

It is highly preferred that as shown in Figure 2 and Figure 4,212 inner bottom wall of cavity of disk body 21 is equipped with groove 218, elastic component 55 Bottom end card insertion, in this way, by the position-limiting action of groove 218, can be conducive to further improve the installation of elastic component 55 in groove 218 Guiding reliability in 55 telescopic process of solid and reliable property and elastic component.

Specifically, as shown in Figure 1 and Figure 4, thermistor 51, which includes bottom, has the metal shell 511 of shrinkage pool 5111 and sets Resistive element in shrinkage pool 5111, the top card insertion of elastic component 55 are fixed in shrinkage pool 5111.It passes through metal shell 511 Setting can increase the contact area of thermistor 51 and furnace body panel 1, so as to accurately may be used conducive to the thermometric for improving thermistor 51 By property.On the one hand the setting of shrinkage pool 5111 can ensure elastic component 55 and thermistor 51 by card insertion of the elastic component 55 in it The reliability of connection；On the other hand it can mitigate the weight of thermistor 51, so as to be conducive to elastic component 55 preferably by thermistor 51 support and are contacted on furnace body panel 1, reduce the aeroelastic requirements of elastic component 55, reduce the cost of product.

Preferably, as shown in Figure 2-5, run through on the disk body 21 of coil panel 2 and be equipped with mounting hole 216, stent 53 includes to wear The body of rod 531 in mounting hole 216 and it is convexly equipped in 531 bottom end of the body of rod and the pedestal 532 being stuck in outside mounting hole 216, interior protuberance For the part being arranged in vacuum lumen 4 of the body of rod 531, sealing ring 54 includes being arranged in mounting hole 216 and being sealed in the body of rod Stem seal 541 between 531 and mounting hole 216 and to be stuck in mounting hole 216 outer and be sealed between pedestal 532 and coil panel 2 Seat sealing 542.On stent 53 also a blind hole 530, conducting wire pin 52 are recessed with towards the body of rod 531 from the bottom of pedestal 532 Inscribed line end 521 it is convex be exposed on the top of the body of rod 531, external terminal 522 is convex to be exposed in blind hole 530, passes through blind hole 530 in this way Setting, may be such that the length of conducting wire pin 52 can set shorter, and conducive to reduce stent 53 material cost.Stem seal Between 541 are compressed in 216 inner wall of 531 outer wall of the body of rod and mounting hole along the radial elastic of disk body 21, seat sealing 542 is along disk body 21 The axis elasticity compress between the top of pedestal 532 and 21 bottom of disk body, in this way, passing through stem seal 541 and seat sealing 542 Dual sealing functions, can effectively ensure that the sealing reliability that sealing ring 54 is sealed between stent 53 and disk body 21.

Preferably, as shown in Figures 2 and 3, the axially penetrating through set on the center of disk body 21 along disk body 21 of mounting hole 216 Place, the axial direction of groove 218 along disk body 21 are also set on the center position of disk body 21, the i.e. central shaft of mounting hole 216 and groove 218 Center overlapping of axles, and the radial dimension of groove 218 be more than mounting hole 216 radial dimension.Wire casing 217 surround and is distributed in installation The periphery in hole 216, in this way, generating interference phenomenon conducive to the setting prevented between coil and temperature measurement component 5.

Preferably, as shown in Figure 2 and Figure 5, pedestal 532 is also fastenedly connected disk body 21 by screw, if pedestal 532 is equipped with The dry perforation 5321 worn for screw, seat sealing 542 are equipped with the avoid holes 544 with the contraposition setting of each perforation 5321, disk The bottom of body 21 is equipped with threaded hole (not shown), and screw sequentially passes through perforation 5321, avoid holes 544 and is threadedly coupled threaded hole, It is achieved thereby that pedestal 532 is connect with the screw of disk body 21.The present embodiment is connected by screw and carries out reinforced liner 53 and disk body 21 connection in this way, other than it can improve the stability of the installation of stent 53, can also be further ensured that sealing ring 54 is sealed in stent Sealing reliability between 53 and disk body 21, and then fully ensured that the sealing performance of vacuum lumen 4.

Preferably, containment member 3 and sealing ring 54 are made of silica gel, and elasticity is good, good seal performance.Containment member 3 center, which is run through, is equipped with the first hollow endoporus 31, in this way, on the one hand can be avoided to thermistor 51, on the other hand The material cost of containment member 3 can be reduced, the center position of sealing ring 54, which runs through, is equipped with the second hollow endoporus 543, in second The setting of empty endoporus 543 is mainly used for realizing being arranged on the body of rod 531 of sealing ring 54.

In the embodiment above, thermistor 51 be by elastic component 55 support be resisted against on furnace body panel 1, conducting wire pin 52 are disposed on stent 53；It of courses, in concrete application, thermistor 51 can also pass through bonding or screw connection or riveting It the connection modes such as connects directly to be fastened on furnace body panel 1, it is directly solid that insert-molding mode can be used in the correspondence of conducting wire pin 52 Due on disk body 21, in this way, can also realize the connection of thermistor 51 and furnace body panel 1 and the fixation of conducting wire pin 52, at this time The bottom of disk body 21 is not provided with mounting hole 216 and sealing ring 54.

Further, the embodiment of the present invention additionally provides electromagnetic oven, with above-mentioned coil disc of electric stove and furnace body face The fit structure of plate.Electromagnetic oven provided in an embodiment of the present invention, may also include pedestal (not shown) etc., and coil panel 2 is set on pedestal Interior, the lid of furnace body panel 1, which closes, to be set on pedestal；It is as a result of above-mentioned coil disc of electric stove and the cooperation knot of furnace body panel Structure, therefore, reduce during electromagnetic oven heating scattering and disappearing for heat in cookware (not shown), improve electromagnetic oven heating effect, Effect, energy valid value and effects of energy saving and emission reduction are cooked, and conducive to the service life of electromagnetic oven is extended, so as to improve the comprehensive of electromagnetic oven Performance is closed, and then conducive to the raising competitiveness of product in market.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention Any modification, equivalent replacement or improvement made within refreshing and principle etc., should all be included in the protection scope of the present invention.

Claims (10)

1. the fit structure of coil disc of electric stove and furnace body panel, the line including furnace body panel and set on the furnace body below the panel Enclose disk, it is characterised in that：Further include containment member, the containment member be sealed in the coil panel and the furnace body panel it Between, and a vacuum lumen is enclosed between the coil panel and the furnace body panel, run through being equipped with and institute on the coil panel The hole that vacuumizes of vacuum lumen connection is stated, it is described to vacuumize the sealing for being equipped at hole and preventing air from entering in the vacuum lumen Control；Temperature measurement component is further included, the temperature measurement component includes stent and sealing ring, and the stent is installed on the bottom of the coil panel Portion, the sealing ring are sealed between the stent and the coil panel；Run through on the coil panel and be equipped with mounting hole, the branch Frame includes the body of rod that can be arranged in the mounting hole and is convexly equipped in the body of rod bottom end and the pedestal being stuck in outside the mounting hole, The sealing ring include being arranged in the stem seal that in the mounting hole and is sealed between the body of rod and the mounting hole and It is stuck in the seat sealing that the mounting hole is outer and is sealed between the pedestal and the coil panel.

2. the fit structure of coil disc of electric stove as described in claim 1 and furnace body panel, it is characterised in that：The coil panel It is described to vacuumize hole including the disk body with cavity, the coil in the cavity and the magnetic stripe set on the disk body bottom Through on the disk body, the containment member is sealed between the disk body and the furnace body panel, and the disk body with The vacuum lumen is enclosed between the furnace body panel.

3. the fit structure of coil disc of electric stove as claimed in claim 2 and furnace body panel, it is characterised in that：The disk body it Have towards the top of the furnace body panel towards the radially extending flange in center far from the disk body and towards the furnace body face The axially extending flange of plate, is correspondingly provided with radial direction card slot and axial card slot on the containment member, the radial flange card insertion in In the radial direction card slot, the axial ledge card insertion is in the axial card slot.

4. the fit structure of coil disc of electric stove as claimed in claim 3 and furnace body panel, it is characterised in that：The disk body Periphery is convexly equipped with several lugs, and the disk body is fastenedly connected the furnace body panel by the lug.

5. the fit structure of coil disc of electric stove as claimed in claim 4 and furnace body panel, it is characterised in that：The lug leads to Cross hot melt adhesive hot melt adhesion mode either screw connecting mode or riveting method or snap connection mode be fastenedly connected it is described Furnace body panel.

6. such as the fit structure of coil disc of electric stove described in any one of claim 1 to 5 and furnace body panel, it is characterised in that： The temperature measurement component includes thermistor, conducting wire pin and connecting wire, and the thermistor is abutted with the furnace body panel matches It closes, the conducting wire pin has the inscribed line end being arranged in the vacuum lumen and is arranged in external outside the vacuum lumen Line end, the both ends of the connecting wire connect the thermistor and the inscribed line end respectively.

7. the fit structure of coil disc of electric stove as claimed in claim 6 and furnace body panel, it is characterised in that：The thermometric group Part further includes elastic component, and the stent has the interior protuberance being arranged in the vacuum lumen, and the conducting wire pin uses inserts Molding mode is fixed in the interior protuberance, and one end of the elastic component is resisted against on the coil panel, the other end is by the warm Quick resistance is resisted against on the furnace body panel.

8. the fit structure of coil disc of electric stove as claimed in claim 7 and furnace body panel, it is characterised in that：The interior protuberance The part being arranged in the vacuum lumen for the body of rod.

9. the fit structure of coil disc of electric stove as claimed in claim 6 and furnace body panel, it is characterised in that：The temperature-sensitive electricity Resistance is fastened on the furnace body panel, and the conducting wire pin is fixed on using insert-molding mode on the coil panel.

10. electromagnetic oven, it is characterised in that：With coil disc of electric stove as described in any one of claim 1 to 9 and furnace body panel Fit structure.