CN110179324A - Cooker - Google Patents

Abstract

The present invention relates to household appliance technical fields, disclose a kind of cooker, the cooker includes that furnace chamber ontology (100), setting, in the starting radiator fan (63) of the lower section of the furnace chamber ontology (100), are formed between starting radiator fan (63) and at least part of heating element for the cooling component heat dissipation wind channel to radiate in the outer heating element of the furnace chamber ontology (100) and setting.In the present invention, each functional component can be arranged in headspace and the peripheral part space of furnace chamber ontology, with compact arrangement, dismounting, the heat dissipation of being more convenient for, and component heat dissipation wind channel can effectively control temperature rise, it substantially reduces component function failure or the risk of the accidents such as electric leakage, fire occurs, to effectively improve safety, reliability.

Description

Cooker

Technical field

The present invention relates to fields of home appliance technology, and in particular, to a kind of cooker.

Background technique

The components for the cooker for having both microwave, steam and baking function on the market at present are more and structure is complicated, because It is larger that this will cause machine volume, but normally, and consumer often more favors in light-weighted product.On the other hand, in product While functional diversities and properties of product are promoted, incident is the problem of temperature rise of components, such as the temperature of electric elements Liter is exceeded to will lead to its disabler, can cause electric leakage or fire when more serious, exists and consumer is threatened to use safe risk.

It can be seen that making product have multi-functional and high-performance, and solve simultaneously how under the premise of ensuring light-weighted Above-mentioned problem of temperature rise, be at this stage urgent need to resolve the technical issues of.

Summary of the invention

In view of the above drawbacks of the prior art or insufficient, the present invention provides a kind of cookers, can rationally utilize machine It arranges to interior spaces compact and each functional component and forms high efficiency and heat radiation air duct, to ensure lightweight, multifunctionality, safety and can By property.

To achieve the above object, the present invention provides a kind of cooker, the cooker includes furnace chamber ontology, setting Starting radiator fan in the external heating element of the furnace chamber sheet and the lower section that the furnace chamber ontology is arranged in, it is described to open The component heat dissipation wind channel for cooling heat dissipation is formed between dynamic radiator fan and at least part of heating element.

Optionally, the cooker includes that the external frequency converter assembly of the furnace chamber sheet, the frequency converter group is arranged in Being equipped in part can import the outlet air end air-flow of the starting radiator fan to cool down the frequency converter radiation air of transducer body Road.

Optionally, the cooker includes being separately positioned on the furnace chamber sheet external magnetron and the temperature module, institute Stating frequency converter heat dissipation wind channel includes shunting heat dissipation wind channel and second relative to made of air inlet of air duct branch first to shunt heat dissipation Air duct, described first shunts heat dissipation wind channel equipped with air outlet is shunted towards the first of the magnetron air draft, and described second shunts Heat dissipation wind channel is equipped with towards the second of the temperature module air draft and shunts air outlet.

Optionally, the frequency converter assembly and the magnetron are arranged at intervals on lateral the two of the rear wall of the furnace chamber ontology Side, the first shunting heat dissipation wind channel extend transversely, and the temperature module is arranged in the top of the furnace chamber ontology, and described the Two shunting heat dissipation wind channels vertically extend, and the cooker further includes the relatively close magnetic that the furnace chamber ontology is arranged in Steam generator on the side wall of keyholed back plate, the first shunting heat dissipation wind channel and the second shunting heat dissipation wind channel can converge logical Cross the steam generator.

Optionally, the frequency converter assembly and the magnetron are arranged at the rear wall of the furnace chamber ontology, the culinary art Device includes the lower section positioned at the furnace chamber ontology and adjoins the filter band component of setting with the frequency converter assembly front and back, described Frequency converter heat dissipation wind channel further includes that the front side wall of the frequency converter assembly is arranged in towards the of the filter band component air draft Three shunt air outlet.

Optionally, the frequency converter assembly includes the first frequency converter bracket cover and the second frequency converter branch that can mutually cover conjunction Frame lid and the lid for being mounted on the first frequency converter bracket cover and the second frequency converter bracket cover close intracavitary flow-guiding radiation Fan and the transducer body, the lid close chamber and are formed as the frequency converter heat dissipation wind channel.

Optionally, the cooker includes the lower section that the furnace chamber ontology is arranged in and master control borad component setting up and down And bottom deck assembly, the master control borad component includes master control board mount, the master control borad sheet that is fixedly mounted on the master control board mount Body and the starting radiator fan, the rack bore of the master control board mount are formed as master control borad heat dissipation wind channel, the bottom plate group The air inlet hole for being connected to the master control borad heat dissipation wind channel is equipped on part and the master control board mount.

Optionally, the plate face of the master control borad ontology is horizontal plate face and the master control borad ontology and the starting radiation air Fan is arranged successively setting in the horizontal direction, is formed between the rotation shaft cross section and the horizontal plate face of the starting radiator fan Upward slanted angle, the upper face and fan of fan outlet air end towards the master control borad ontology of the starting radiator fan are entered the wind End is arranged towards the bottom deck assembly.

Optionally, the bottom deck assembly is equipped with power lead fixed hole, and the air outlet direction of the master control borad heat dissipation wind channel is worn The power supply line setting being connected in the power lead fixed hole.

Optionally, the bottom deck assembly is equipped with bottom plate air inlet hole, and at least partly described bottom plate air inlet hole is surrounded and is spaced It is arranged in the power lead fixed hole.

Optionally, the cooker includes that the lower section of the furnace chamber ontology is arranged in and is adjacent in the horizontal direction described The filter band component of master control borad component setting, is equipped between the master control borad component and the filter band component and is connected to the master control The master control borad air draft gap of plate heat dissipation wind channel.

Optionally, the bottom deck assembly of the cooker is equipped with for the heat transmission gas by the filter band component to be discharged The bottom plate exhaust vent of stream.

Optionally, at least partly described heating element is the side wall member device being arranged on the side wall of the furnace chamber ontology Part, the starting radiator fan are arranged along the bottom wall lateral edge of the furnace chamber ontology, the starting radiator fan and the bottom plate group It is formed with the connection master control borad heat dissipation wind channel between part and is located at ipsilateral bottom plate air draft gap with the side wall component.

Optionally, the side wall component includes light-emitting component and microswitch component.

Optionally, the cooker includes the hot air convection component and back cover that the rear wall of the furnace chamber ontology is arranged in Lid, the hot air convection component include motor cover, hot wind motor and be fixedly connected on the hot wind motor motor shaft electricity Machine radiator fan, the rear cover are equipped with rear cover air inlet hole, and the motor cover is equipped with motor cover air inlet hole and motor cover Lid exhaust vent；

And/or the outer wall of the furnace chamber ontology is equipped with thermal insulator；

And/or the cooker includes side cover lid, the side cover is covered with side cover lid exhaust vent.

In cooker of the invention, the lower section that furnace chamber ontology is arranged in by that will start radiator fan can vacate furnace The headspace of chamber ontology and peripheral part space are with compact arrangement, dismounting, the heat dissipation of each functional component of being more convenient for, it is easier to realize Multi-functional, light-weight design.In addition, some functional components itself are heating element, by starting radiator fan and at least Component heat dissipation wind channel is formed between partial heating element, temperature rise amplitude can be effectively controlled, and substantially reduces component function mistake Effect or the risk for the accidents such as electric leakage, fire occur, to improve safety, reliability.

Other features and advantages of the present invention will the following detailed description will be given in the detailed implementation section.

Detailed description of the invention

The drawings are intended to provide a further understanding of the invention, and constitutes part of specification, with following tool Body embodiment is used to explain the present invention together, but is not construed as limiting the invention.In the accompanying drawings:

Fig. 1 is the partial structurtes explosive view of the cooker in a specific embodiment of the invention；

Fig. 2 and Fig. 3 is respectively partial structurtes explosive view of the oven body part of the cooker in Fig. 1 under different angle；

Fig. 4 is the rear perspective view that the oven body part of bottom deck assembly and rear cover has been removed in Fig. 2, and arrow is heat dissipation in figure Air-flow from master control borad component discharge after flow path；

Fig. 5 is the partial enlargement diagram of the oven body part in Fig. 4, and arrow is radiating airflow from bottom plate air draft gap in figure Flow path after discharge；

Fig. 6 is the rearview of the oven body part in Fig. 4, and arrow is stream of the radiating airflow in frequency converter heat dissipation wind channel in figure Dynamic path；

Fig. 7 is another rear perspective view of the oven body part in Fig. 4, and arrow is radiating airflow from frequency converter radiation air in figure Flow path after road discharge；

Fig. 8 is frequency converter assembly, master control borad component and the filtering of the cooker in a specific embodiment of the invention The assembling schematic diagram of board group part, arrow is that radiating airflow shunts the flow path after air outlet discharge from third in figure；

Fig. 9 is the rear perspective view of the first frequency converter bracket cover of the frequency converter assembly in Fig. 8；

Figure 10 is the rear perspective view of the second frequency converter bracket cover of the frequency converter assembly in Fig. 8；

Figure 11 is the front perspective view of the second frequency converter bracket cover in Figure 10；

Figure 12 is another partial structurtes explosive view of the oven body part of the cooker in Fig. 1, and arrow is respectively to dissipate in figure Flow path of the thermal current in bottom deck assembly and master control borad component；

Figure 13 is the top perspective view of the master control borad component in Figure 12；

Figure 14 be Fig. 4 in removed frequency converter assembly oven body part rear perspective view, illustrate filter band component and Positional relationship between master control borad component；

Figure 15 is the face upwarding stereogram of the oven body part in Figure 14；

Figure 16 is the top perspective view of the filter band component in Figure 14；

Figure 17 is frequency converter assembly, master control borad component and the filtering of the cooker in a specific embodiment of the invention The assembling schematic diagram of board group part, arrow is radiating airflow in master control borad component and after the discharge of master control borad air draft gap in figure Flow path；

Figure 18 is another partial structurtes explosive view of the oven body part of the cooker in Fig. 1, and arrow is heat transmission gas in figure Flow the flow path of the roof in bottom deck assembly and in furnace chamber ontology；

Figure 19 is the top view of the bottom deck assembly in Figure 18；

Figure 20 is the hot air convection component of the cooker in a specific embodiment of the invention and the structure of rear cover Explosive view, arrow is flow path of the radiating airflow in rear cover and hot air convection component in figure；

Figure 21 is the front perspective view of the hot air convection component in Figure 20, and arrow is that radiating airflow goes out from motor cover in figure The flow path of air holes discharge；

Figure 22 is another partial structurtes explosive view of the oven body part of the culinary art component in Fig. 1, for showing thermal insulator.

Description of symbols:

100 furnace chamber ontology, 200 side cover lid

300 rear cover, 400 thermal insulator

200a side cover lid exhaust vent 300a rear cover air inlet hole

1 frequency converter assembly, 2 magnetron

3 the temperature module, 4 steam generator

5 filter band component, 6 master control borad component

7 bottom deck assembly, 8 light-emitting component

9 microswitch component, 10 hot air convection component

11 transducer body, 12 flow-guiding radiation fan

13 frequency converter heat dissipation wind channel, 14 first frequency converter bracket cover

15 second frequency converter bracket cover, 31 heating wire component

32 infrared assemblies 51 filter board mount

52 filter band ontology, 61 master control board mount

62 master control borad ontologies 63 start radiator fan

64 master control borad heat dissipation wind channel, 71 bottom plate air inlet hole

72 bottom plate exhaust vent, 73 power lead fixed hole

101 motor cover, 102 hot wind motor

103 motor radiating fans

13a first shunts heat dissipation wind channel 13b second and shunts heat dissipation wind channel

13c first shunts air outlet 13d second and shunts air outlet

13e third shunts air outlet 61a bracket air inlet hole

101a motor cover air inlet hole 101b motor cover exhaust vent

Specific embodiment

Specific embodiments of the present invention are described in detail below in conjunction with attached drawing.It should be understood that described herein Specific embodiment be merely to illustrate and explain the present invention, be not intended to restrict the invention.

Below with reference to the accompanying drawings cooker according to the present invention is described.

As shown in Fig. 1 to Figure 22, cooker of the invention includes furnace chamber ontology 100, is arranged in outside furnace chamber ontology 100 Heating element and be arranged in furnace chamber ontology 100 lower section starting radiator fan 63.Wherein, starting radiator fan 63 with extremely The component heat dissipation wind channel for cooling heat dissipation is formed between least a portion of heating element.

As it can be seen that being arranged under furnace chamber ontology 100 in cooker of the invention by the way that radiator fan 63 will be started Side, can vacate the headspace of furnace chamber ontology 100 and peripheral part space, the compact arrangement of each functional component of being more convenient for, dismounting, Heat dissipation, therefore it is more easily implemented multi-functional, light-weight design.In addition, some functional components itself be heating element (such as electricity Sub- component etc.), by forming component heat dissipation wind channel between starting radiator fan 63 and at least part of heating element, Temperature rise amplitude can be effectively controlled, substantially reduce component function failure or the risk of the accidents such as electric leakage, fire occur, to improve production The durability of product, safety and reliability.

In some embodiments, cooker includes the frequency converter assembly 1 being arranged in outside furnace chamber ontology 100, in this structure Under, it can be directly in forming frequency converter heat dissipation wind channel 13 in the modular construction of frequency converter assembly 1, so that the frequency converter heat dissipation wind channel 13 The outlet air end air-flow for starting radiator fan 63 can be directed into inside frequency converter assembly 1, to realize to transducer body 11 more Direct cooling and cooling effect.In other words, by compact modular structure ingehious design go out heat dissipation wind channel, in addition to can Other than improving to the radiating efficiency of transducer body 11, since heat dissipation wind channel need not be separately provided, it is also effectively saved air duct institute The space occupied is needed, both guarantees structural compactness, also guarantees higher radiating efficiency.

In the above-described embodiments, cooker may also include the magnetron 2 and temperature-sensitive being separately positioned on outside furnace chamber ontology 100 Component 3, i.e., cooker of the invention can have microwave function.Since the calorific value of magnetron 2 and the temperature module 3 is larger, need Air duct is preferably provided with directly to radiate with it, and for the considerations of guaranteeing structural compactness and saving space etc., it should use up Amount saves the quantity of independent ventiduct.Therefore, can further be arranged in frequency converter heat dissipation wind channel 13 relative to air inlet of air duct point First shunts the shunting of heat dissipation wind channel 13a and second heat dissipation wind channel 13b made of branch.Wherein, it is shunted in heat dissipation wind channel 13a first Setting first shunts air outlet 13c, and makes the first shunting air outlet 13c towards the direct air draft of magnetron 2, and at second point Setting second shunts air outlet 13d in wandering hot-flow flue 13b, and makes the second shunting air outlet 13d towards 3 row of the temperature module Wind guarantees that it safely and reliably works to realize the direct heat dissipation to magnetron 2 and the temperature module 3.

Certainly, first shunting heat dissipation wind channel 13a or second shunting heat dissipation wind channel 13b be not limited to can only to magnetron 2 and sense Warm component 3 directly radiates, i.e., magnetron 2 and the temperature module 3 can be replaced the big heating element of other calorific values.The present invention is logical It crosses above-described embodiment and is in order to illustrate multiple shunting heat dissipation wind channels are branched out in same heat dissipation wind channel, it is property simple for structure, tight Gathering property and space occupancy rate are substantially better than in most cases is independently arranged multiple heat dissipation wind channels, dissipates as shunting The direct heat dissipation object of hot-flow flue, the present invention is with no restriction.In addition, shunting the shunting of heat dissipation wind channel 13a and second being equipped with first On the basis of heat dissipation wind channel 13b, more heat dissipation wind channels that shunt can also be branched out from frequency converter heat dissipation wind channel 13 to other Heating element is directly radiated, i.e., in the present embodiment, frequency converter heat dissipation wind channel 13 is thus bypasses formula heat dissipation wind channel.

As shown in Fig. 4, Fig. 6, Fig. 7, frequency converter assembly 1 and magnetron 2 can be arranged at intervals on to the rear wall of furnace chamber ontology 100 Both lateral sides, by first shunting heat dissipation wind channel 13a be set as extending transversely.And the temperature module 3 can be arranged in furnace chamber sheet The top of body 100 is set as the second shunting heat dissipation wind channel 13b vertically to extend trend.As it can be seen that by by frequency converter assembly 1, Magnetron 2 and the setting of 3 subregion of the temperature module, other than having and being based on other special considerations, this arragement construction is conducive to disperse The heat production of each component avoids the excess calories in regional area from being superimposed, i.e., by improving the reasonability of structure arrangement to reduce office The exceeded risk of portion region temperature rise.In addition, arranging in this structure and under the premise of reasonable occupied space, radiation air is respectively shunted The path in road is extended, and steady and sustained radiating airflow is advantageously formed, and can better ensure that heat dissipation effect.

Further, cooker can have steam function, that is, may also include and be arranged on the side wall of furnace chamber ontology 100 Steam generator 4, the side wall are the side of relatively close magnetron 2.Therefore, from the first first point for shunting heat dissipation wind channel 13a The radiating airflow of air port 13c discharge is flowed out after through magnetron 2, can continue to run to the steam generator 4 of side wall.And for The second of heat dissipation wind channel 13b is shunted from second and shunts the radiating airflow that air outlet 13d is discharged, in the temperature module 3 for passing through top It after (generally including heating wire component 31 and infrared assembly 32), can be spread along the roof of furnace chamber ontology 100, and part diffusion gas Stream can continue to flow downwardly and through the steam generator 4 on side wall.In other words, air outlet 13c and the are shunted from first respectively The radiating airflow of two shunting air outlet 13d discharges can converge through steam generator 4, dissipate thus cooling to steam generator 4 Heat.

It should be noted that if setting is directed to the independent heat dissipation wind channel of steam generator 4, it is clear that more space can be occupied, It is unfavorable for realizing product lightweight.If branching out the shunting heat dissipation wind channel for steam generator 4 from frequency converter heat dissipation wind channel 13, Then need the intimate 90 ° of angle bendings of the shunting heat dissipation wind channel just can extend to side wall from the rear wall of furnace chamber ontology 100, it undoubtedly can be significantly Increase difficulty of processing, and the windage in bending air duct is larger, it is difficult to form continual and steady radiating airflow, therefore, it is difficult to guarantee Radiating efficiency.Hereby, comprehensively considered based on heat dissipation effect, difficulty of processing etc., can be dexterously positioned close to steam generator 4 On 100 side wall of furnace chamber ontology of the side of magnetron 2, air outlet is shunted using air outlet 13c and second is shunted from first respectively The flow behavior that the radiating airflow of 13d discharge can finally converge obtains the big and stable heat dissipation of air quantity and converges to send out steam Raw 4 high efficiency and heat radiation of device, while setting can be saved for the independent heat dissipation wind channel of steam generator 4 or shunt heat dissipation wind channel, effectively Simplify structure and reduces cost.

As shown in Fig. 6, Fig. 8 and Figure 14 to Figure 17, cooker may also include positioned at furnace chamber ontology 100 lower section and with Adjoin the filter band component 5 of setting before and after frequency converter assembly 1, filter band component 5 includes filtering board mount 51 and is mounted on filtering Filter band ontology 52 on board mount 51.Due to frequency converter assembly 1 arrange with filter band component 5 it is compact, can be directly in frequency converter The front side wall setting third of component 1 shunts air outlet 13e, and third is made to shunt air outlet 13e towards 5 row of filter band component Wind, so that saving additional setting third shunts heat dissipation wind channel.Certainly, when filter band component 5 be arranged in other positions, can also set It sets independent heat dissipation wind channel or above-mentioned third shunts heat dissipation wind channel, but need to guarantee compact-sized in machine and radiating efficiency.

As shown in Figures 9 to 11, frequency converter assembly 1 may include the first frequency converter bracket cover 14 and that can mutually cover conjunction Two frequency converter bracket covers 15 and the lid for being mounted on the first frequency converter bracket cover 14 and the second frequency converter bracket cover 15 close intracavitary Flow-guiding radiation fan 12 and transducer body 11, and make lid close chamber and be formed as frequency converter heat dissipation wind channel 13.More specifically, can incite somebody to action Flow-guiding radiation fan 12 is mounted on the air duct air intake of frequency converter heat dissipation wind channel 13, and transducer body 11 can be mounted on to One shunts heat dissipation wind channel 13a.It can be seen that can be combined compact-sized by forming heat dissipation wind channel in modular structure Property and radiating efficiency, thus meet lightweight, security reliability etc. requirement.

As shown in Figure 1 to Figure 4, Fig. 6, Figure 12 and Figure 13, shown in Figure 15, Figure 18 and Figure 19, cooker may include being arranged in furnace The master control borad component 6 and bottom deck assembly 7 of the lower section of chamber ontology 100, and master control borad component 6 and bottom deck assembly 7 are setting up and down.Its In, master control borad component 6 includes that master control board mount 61, the master control borad ontology 62 being fixedly mounted on master control board mount 61 and starting dissipate The component part that Hot-air fan 63, i.e. starting radiator fan 63 belong to master control borad component 6, is conducive to improve structural compactness.In addition, The rack bore of master control board mount 61 is formed as master control borad heat dissipation wind channel 64, i.e., directly forms heat dissipation using the internal structure of component Air duct can combine structural compactness and radiating efficiency.Specifically, it can be equipped on bottom deck assembly 7 and master control board mount 61 It is connected to the air inlet hole of master control borad heat dissipation wind channel 64, respectively corresponds bottom plate air inlet hole 71 and bracket air inlet hole 61a.Further, may be used At least part of bottom plate air inlet hole 71 is surrounded and the power lead fixed hole 73 being interval on bottom deck assembly 7 is arranged, to power supply Line radiates in time.As it can be seen that multiple air inlet pore structures advantageously ensure that the abundance of the intake in heat dissipation wind channel, it is continual and steady to be formed Radiating airflow, to guarantee heat dissipation effect.

In some specific models, the plate face of master control borad ontology 62 can be set to horizontal plate face, and by master control borad ontology 62 are set as being arranged successively in the horizontal direction with starting radiator fan 63.Under this construction and arrangement, if starting radiator fan 63 For aerofoil fan and rotary shaft is arranged perpendicular to the horizontal plate face of master control borad ontology 62, then directly passes through the scattered of master control borad ontology 62 Thermal current air quantity is less, and the heat dissipation effect that will lead to master control borad ontology 62 is bad.If start radiator fan 63 be aerofoil fan and Rotary shaft parallel interval is arranged in the horizontal plate face of master control borad ontology 62, although can guarantee that the heat dissipation to master control borad ontology 62 is imitated Fruit, but high efficiency and heat radiation can not be carried out to bottom deck assembly 7 (being again provided with heating element).In other words, for starting radiation air Selecting for the setting angle of fan 63, needs to combine the heat dissipation effect between balance bottom deck assembly 7 and master control borad ontology 62.

Hereby, in some preferred embodiments, so that starting radiator fan 63 rotation shaft cross section and horizontal plate face it Between form upward slanted angle, and make start radiator fan 63 fan outlet air end towards master control borad ontology 62 upper face and Fan air intake is arranged towards bottom deck assembly 7, to guarantee at bottom deck assembly 7 and master control borad ontology 62 by there is certain heat dissipation Air current flow, to obtain the heat dissipation balancing in each region.

In some embodiments, to make full use of master control borad heat dissipation wind channel 64, its duct outlet can be provided towards The power supply line being connected in power lead fixed hole 73 is worn, influences to work normally to prevent power supply line excessive heating.

As shown in Fig. 6, Fig. 8 and Figure 14 to Figure 17, filter band component 5 can also be adjacent to master control borad component in the horizontal direction 6 settings, and be formed between master control borad component 6 and filter band component 5 between the master control borad air draft for being connected to master control borad heat dissipation wind channel 64 Gap.In other words, the radiating airflow partially circulated in master control borad heat dissipation wind channel 64 can be expelled to filter by master control borad air draft gap At wave board group part 5, to cool down heat dissipation to it.In conjunction with aforementioned, filter band component 5 also with adjoin setting before and after frequency converter assembly 1, and The cooling heat dissipation of air outlet 13e can be shunted by the third on the front side wall of frequency converter assembly 1.Therefore in terms of comprehensive, board group is filtered Part 5 can shunt the cooling heat dissipation of air outlet 13e by master control borad air draft gap and third simultaneously, can combine structural compactness and Radiating efficiency.More specifically, referring to diagram, master control borad air draft gap may be formed at master control borad component 6 and frequency converter assembly 1 it Between.

And in order to be discharged in time through the radiating airflow after filter band component 5, bottom plate can be set on bottom deck assembly 7 Exhaust vent 72, and preferably bottom plate exhaust vent 72 is arranged close to filter band component 5, it is quick scattered in regional area to realize Heat.

As shown in Figure 1, Figure 4 and Figure 5, at least partly heating element is the side being arranged on the side wall of furnace chamber ontology 100 Wall component.In the illustrated embodiment, bottom wall lateral edge of the radiator fan 63 along furnace chamber ontology 100 will be started to be arranged, with can Dexterously utilize the bottom plate air draft gap formed between starting radiator fan 63 and bottom deck assembly 7, bottom plate air draft gap connection Master control borad heat dissipation wind channel 64 and with side wall component be located at it is ipsilateral, therefore, the part radiating airflow in master control borad heat dissipation wind channel 64 It can be exported by bottom plate air draft gap to the side wall of furnace chamber ontology 100, be radiated thus cooling to side wall component.For example, side wall Component can be light-emitting component 8 (light bulb etc.) and microswitch component 9, and the conducting wire on the side wall of furnace chamber ontology 100 Also heat dissipation is cooled off.

It should be further noted that guarantee using bottom plate air draft gap to radiate to side wall component is cooling, It is primary to be arranged on condition that bottom wall lateral edge of the radiator fan 63 along furnace chamber ontology 100 started.Otherwise, if radiator fan 63 will be started The medium position of the lower section of furnace chamber ontology 100 is set, and the radiating airflow being discharged from bottom plate air draft gap can be first in furnace chamber ontology 100 lower section is spread along surrounding, therefore the air quantity for only remaining small part can pass through the side wall of furnace chamber ontology 100, it is clear that Wu Fati For effective heat spreading function.Certainly, if being additionally provided with the heat dissipation wind channel for side wall component, starting radiator fan need not be limited 63 specific location, but based on for illustrated embodiment, starting radiator fan 63 is set along the bottom wall lateral edge of furnace chamber ontology 100 It sets, structure is relatively easy compact, preferably meets the requirement of lightweight, low cost.

In addition, cooker can have baking function as shown in Fig. 4, Figure 20 and Figure 21, that is, it may include being arranged in furnace chamber sheet The hot air convection component 10 of the rear wall of body 100, hot air convection component 10 include motor cover 101, hot wind motor 102 and fixed company It is connected to the motor radiating fan 103 of the motor shaft of hot wind motor 102.In addition, cooker further includes rear cover 300.Wherein, after The cover 300 is equipped with rear cover air inlet hole 300a, and motor cover 101 is equipped with motor cover air inlet hole 101a and motor cover exhaust vent 101b。

When cooker uses baking function, hot wind motor 102 is started to work, while driving motor radiator fan 103 Rotation, motor radiating fan 103 drive radiating airflow to pass sequentially through rear cover air inlet hole 300a and motor cover air inlet hole immediately 101a to hot wind motor 102 is cooling to radiate, and then, radiating airflow can by motor cover exhaust vent 101b outlet, thus Guarantee that hot wind motor 102 works normally at a suitable temperature always.

As shown in figure 22, also thermal insulator 400, such as lower-cost heat insulation foam can be set in the outer wall of furnace chamber ontology 100 Deng.The thermal insulator 400 can effectively obstruct the heat in furnace chamber ontology 100 to the fever member device being arranged in outside furnace chamber ontology 100 Part transmitting, to avoid heating element excessively heated.

As shown in Figure 1, cooker further includes side cover lid 200, side cover lid 200 is equipped with side cover lid exhaust vent 200a.When When starting the start-up operation of radiator fan 63, radiating airflow first is imported from bottom plate air inlet hole 71, bracket air inlet hole 61a, to heat transmission gas After stream is to the cooling heat dissipation of each heating element, finally it is discharged from side cover lid exhaust vent 200a.Due to side cover lid exhaust vent 200a In side position, when hot wind is discharged in machine will not blow-through user, usage experience is preferable.

In addition, comprehensive full text is it is found that cooker of the invention can be micro-wave oven, steam box, oven or micro- scorch one Machine etc. is used for the household electrical appliance of food heating.

In the description of the present invention, it is to be understood that, term " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside", " up time The orientation or positional relationship of the instructions such as needle ", " counterclockwise ", " axial direction ", " radial direction ", " circumferential direction " be orientation based on the figure or Positional relationship is merely for convenience of description of the present invention and simplification of the description, rather than the device or element of indication or suggestion meaning must There must be specific orientation, be constructed and operated in a specific orientation, therefore be not considered as limiting the invention.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include at least one this feature.In the description of the present invention, the meaning of " plurality " is at least two, such as two, three It is a etc., unless otherwise specifically defined.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " fixation " etc. Term shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral；It can be mechanical connect It connects, is also possible to be electrically connected or can communicate each other；It can be directly connected, can also indirectly connected through an intermediary, it can be with It is the interaction relationship of the connection or two elements inside two elements, unless otherwise restricted clearly.For this field For those of ordinary skill, the specific meanings of the above terms in the present invention can be understood according to specific conditions.

In the present invention unless specifically defined or limited otherwise, fisrt feature in the second feature " on " or " down " can be with It is that the first and second features directly contact or the first and second features pass through intermediary mediate contact.Moreover, fisrt feature exists Second feature " on ", " top " and " above " but fisrt feature be directly above or diagonally above the second feature, or be merely representative of First feature horizontal height is higher than second feature.Fisrt feature can be under the second feature " below ", " below " and " below " One feature is directly under or diagonally below the second feature, or is merely representative of first feature horizontal height less than second feature.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example Point is included at least one embodiment or example of the invention.In the present specification, schematic expression of the above terms are not It must be directed to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be in office It can be combined in any suitable manner in one or more embodiment or examples.In addition, without conflicting with each other, the skill of this field Art personnel can tie the feature of different embodiments or examples described in this specification and different embodiments or examples It closes and combines.

Although the embodiments of the present invention has been shown and described above, it is to be understood that above-described embodiment is example Property, it is not considered as limiting the invention, those skilled in the art within the scope of the invention can be to above-mentioned Embodiment is changed, modifies, replacement and variant.

Claims (15)

1. a kind of cooker, which is characterized in that the cooker includes furnace chamber ontology (100), is arranged in the furnace chamber sheet The outer heating element of body (100) and setting the lower section of the furnace chamber ontology (100) starting radiator fan (63), it is described It is formed between starting radiator fan (63) and at least part of heating element and radiates for the component of cooling heat dissipation Air duct.

2. cooker according to claim 1, which is characterized in that the cooker includes being arranged in the furnace chamber sheet The frequency converter assembly (1) of body (100) outside, interior be equipped with of the frequency converter assembly (1) can be by starting radiator fan (63) Outlet air end air-flow is imported to cool down the frequency converter heat dissipation wind channel (13) of transducer body (11).

3. cooker according to claim 2, which is characterized in that the cooker includes being separately positioned on the furnace The magnetron (2) and the temperature module (3) of chamber ontology (100) outside, the frequency converter heat dissipation wind channel (13) include relative to air duct into First shunts heat dissipation wind channel (13a) and the second shunting heat dissipation wind channel (13b) made of the branch of air port, and described first shunts radiation air Road (13a) is equipped with towards the first of the magnetron (2) air draft and shunts air outlet (13c), and described second shunts heat dissipation wind channel (13b) is equipped with towards the second of the temperature module (3) air draft and shunts air outlet (13d).

4. cooker according to claim 3, which is characterized in that the frequency converter assembly (1) and the magnetron (2) The both lateral sides of the rear wall of the furnace chamber ontology (100) are arranged at intervals on, described first, which shunts heat dissipation wind channel (13a), transversely prolongs It stretches, at the top of the furnace chamber ontology (100), described second shunts heat dissipation wind channel (13b) along upper for the temperature module (3) setting Lower extension, the cooker further include side wall of the setting in the relatively close magnetron (2) of the furnace chamber ontology (100) On steam generator (4), it is described first shunt heat dissipation wind channel (13a) and it is described second shunting heat dissipation wind channel (13b) can converge Stream passes through the steam generator (4).

5. cooker according to claim 3, which is characterized in that the frequency converter assembly (1) and the magnetron (2) Be arranged at the rear wall of the furnace chamber ontology (100), the cooker include positioned at the furnace chamber ontology (100) lower section and With the filter band component (5) for adjoining setting before and after the frequency converter assembly (1), the frequency converter heat dissipation wind channel (13) further includes setting The front side wall in the frequency converter assembly (1) is set to shunt air outlet towards the third of filter band component (5) air draft (13e)。

6. the cooker according to any one of claim 2~5, which is characterized in that frequency converter assembly (1) packet It includes the first frequency converter bracket cover (14) that can mutually cover conjunction and the second frequency converter bracket cover (15) and is mounted on described first The lid of frequency converter bracket cover (14) and the second frequency converter bracket cover (15) closes intracavitary flow-guiding radiation fan (12) and described Transducer body (11), the lid close chamber and are formed as the frequency converter heat dissipation wind channel (13).

7. cooker according to claim 1, which is characterized in that the cooker includes being arranged in the furnace chamber sheet The lower section of body (100) and master control borad component (6) and bottom deck assembly (7) setting up and down, the master control borad component (6) includes master control Board mount (61), the master control borad ontology (62) and the starting radiator fan being fixedly mounted on the master control board mount (61) (63), the rack bore of the master control board mount (61) is formed as master control borad heat dissipation wind channel (64), the bottom deck assembly (7) and institute State the air inlet hole for being equipped on master control board mount (61) and being connected to the master control borad heat dissipation wind channel (64).

8. cooker according to claim 7, which is characterized in that the plate face of the master control borad ontology (62) is level board Face and the master control borad ontology (62) and the starting radiator fan (63) are arranged successively setting in the horizontal direction, and the starting dissipates Upward slanted angle, the starting radiator fan are formed between the rotation shaft cross section of Hot-air fan (63) and the horizontal plate face (63) fan outlet air end towards the master control borad ontology (62) upper face and fan air intake towards the bottom deck assembly (7) Setting.

9. cooker according to claim 7, which is characterized in that the bottom deck assembly (7) is equipped with power lead fixed hole (73), the air outlet direction of the master control borad heat dissipation wind channel (64) is worn the power supply line being connected in the power lead fixed hole (73) and is set It sets.

10. cooker according to claim 9, which is characterized in that the bottom deck assembly (7) is equipped with bottom plate air inlet hole (71), at least partly described bottom plate air inlet hole (71) surrounds and is interval in the power lead fixed hole (73) setting.

11. cooker according to claim 7, which is characterized in that the cooker includes being arranged in the furnace chamber The lower section of ontology (100) and the filter band component (5) for being adjacent to master control borad component (6) setting in the horizontal direction, the master The master control borad air draft for being connected to the master control borad heat dissipation wind channel (64) is equipped between control board assembly (6) and the filter band component (5) Gap.

12. the cooker according to claim 5 or 11, which is characterized in that on the bottom deck assembly (7) of the cooker Equipped with the bottom plate exhaust vent (72) for the radiating airflow by the filter band component (5) to be discharged.

13. cooker according to claim 7, which is characterized in that at least partly described heating element is that setting exists Side wall component on the side wall of the furnace chamber ontology (100), the starting radiator fan (63) is along the furnace chamber ontology (100) Bottom wall lateral edge setting, be formed between the starting radiator fan (63) and the bottom deck assembly (7) and be connected to the master control borad Heat dissipation wind channel (64) and it is located at ipsilateral bottom plate air draft gap with the side wall component.

14. cooker according to claim 13, which is characterized in that the side wall component includes light-emitting component (8) With microswitch component (9).

15. cooker according to claim 1, which is characterized in that the cooker includes being arranged in the furnace chamber The hot air convection component (10) and rear cover (300) of the rear wall of ontology (100), the hot air convection component (10) includes motor cover Lid (101), hot wind motor (102) and be fixedly connected on the hot wind motor (102) motor shaft motor radiating fan (103), the rear cover (300) is equipped with rear cover air inlet hole (300a), and the motor cover (101) is entered the wind equipped with motor cover Hole (101a) and motor cover exhaust vent (101b)；

And/or the outer wall of the furnace chamber ontology (100) is equipped with thermal insulator (400)；

And/or the cooker includes side cover lid (200), the side cover lid (200) is equipped with side cover lid exhaust vent (200a).