CN208551359U - Steam valve, cover assembly and cooking apparatus - Google Patents

Abstract

The utility model provides a kind of steam valve, cover assembly and cooking apparatus.Wherein, steam valve at least has the heat exchange layers being made from a material that be thermally conductive, and a side surface of heat exchange layers forms the cryosurface for contacting with steam in pot, and another side surface of heat exchange layers is formed for the radiating surface with contacting external air.Steam valve provided by the utility model, utilize the good thermal conductivity of heat exchange layers, the thermal energy of the water vapour generated in pot, thin rice gruel foam is exported to outside pot, enable water vapour, thin rice gruel foam etc. that cooling condensation to occur at the cryosurface of heat exchange layers, it is condensed into it in liquid reflux twice-cooked stir-frying, so that thin rice gruel foam is vanished automatically, namely the cooling cooling effect by strengthening steam valve, the brokenly bubble efficiency of steam valve is improved, and then realizes effective anti-overflow effect.

Description

Steam valve, cover assembly and cooking apparatus

Technical field

The utility model relates to kitchen utensils fields, more specifically, are related to a kind of steam valve, a kind of cover assembly and one Kind cooking apparatus.

Background technique

Overflowing pot is the problem of electric cooker industry always exists.Rice want it is full it is palatable it is necessary to abundance boil so that its sufficiently Absorb moisture, once but high flame boil, steam will generate constantly, and excessive steam is put aside in pot, brings pressure, is Reduction pressure, it is necessary to allow steam to leak, thin rice gruel spilling at this moment easily occur.The electric cooker of higher-end in the industry, has all made steam valve To improve overflowing pot problem.

The current preferable electric cooker of effect anti-overflow in the industry, all use this thinking substantially: steam valve cavity space is big, with sky Between exchange the steam condensing reflux time for, make its before reaching gas outlet just realize cooling for reflux, thus realize effectively anti-overflow effect Fruit.These schemes are made that very big contribution for promoting electric cooker performance, but big steam valve also has certain limitation, mainly It shows themselves in that and makes sacrifices in the 1) globality of appearance；2) upper cover is thick and heavy；3) steam valve cleans slightly complicated.

Utility model content

The utility model aims to solve at least one of the technical problems existing in the prior art.

For this purpose, the purpose of the utility model first aspect is, a kind of steam valve is provided.

The purpose of the utility model second aspect is, provides a kind of cover assembly including above-mentioned steam valve.

The purpose of the utility model third aspect is, provides a kind of cooking apparatus including above-mentioned cover assembly.

To achieve the above object, the technical solution of the utility model first aspect provides a kind of steam valve, the steam Valve at least has the heat exchange layers being made from a material that be thermally conductive, a side surface of the heat exchange layers formed for steamed in pot Another side surface of the cryosurface of vapour contact, the heat exchange layers is formed for the radiating surface with contacting external air.

The steam valve that the utility model above-mentioned technical proposal provides will be produced using the good thermal conductivity of heat exchange layers in pot The thermal energy of raw water vapour, thin rice gruel foam is exported to outside pot, since the radiating surface and ambient temperature of heat exchange layers are relatively low Air contact keeps its cold so that cooling condensation can occur at the cryosurface of heat exchange layers for water vapour, thin rice gruel foam etc. It congeals into liquid reflux twice-cooked stir-frying, so that thin rice gruel foam is vanished automatically, namely the cooling cooling effect by strengthening steam valve, The brokenly bubble efficiency of steam valve is improved, and then realizes effective anti-overflow effect.

Specifically, since the heat exchange layers of steam valve have good thermal conductivity, and the cryosurface and pot of heat exchange layers The contact of interior steam, heat exchange layers radiating surface and contacting external air, so that the relatively high steam of kettle temperature, thin rice gruel Heat can transmit rapidly outward when foam etc. touches heat exchange layers so that steam, thin rice gruel foam etc. can cool down rapidly it is cold Solidifying, bubble can vanish thin rice gruel foam automatically in cooling procedure, and the faster effect of breaking bubble of cooling velocity is more obvious, to utilize The cooling cooling effect for promoting steam valve effectively increases the brokenly bubble efficiency of steam valve, and designs steam using this principle Valve, without increasing the size of steam valve in order to extend steam, thin rice gruel foam etc. in the circulation path of steam valve, so as to reality Existing small size steam valve reaches the anti-overflow effect of large volume steam valve, designs the overall appearance for being conducive to promote cover assembly in this way Effect, and the thickness of cover assembly, the weight of mitigation cover assembly can be thinned by the miniaturization of steam valve, so that on entire Cap assemblies are more frivolous, are conducive to the experience effect for promoting user.

In addition, the steam valve that the utility model above-mentioned technical proposal provides can also have following additional technical feature:

In the above-mentioned technical solutions, it is preferable that the heat exchange layers are alumiaum article or copper fitting.

Heat exchange layers use alumiaum article or copper fitting, on the one hand utilize aluminium or the good heating conduction of copper material, it is ensured that steam It is the convenient formation of the cooling effect of breaking bubble of steam valve, another aspect aluminium or copper material, at low cost；Certainly, heat exchange layers can also To be made of other materials with thermal conductive resin.

In the above-mentioned technical solutions, it is preferable that be formed in the heat exchange layers for increasing the cryosurface and/or institute State the concaveconvex structure of the area of radiating surface.

The cryosurface of heat exchange layers can be made irregular face, for example, heat exchange layers are done waviness, or hand in heat It changes and the structures such as ripple glaze, pit, salient point is set on the cryosurface or radiating surface of layer, to increase contact of the steam with cryosurface in pot Area, to promote the heat transfer effect of steam and outside air in pot；Likewise, the radiating surface of heat exchange layers can be made and not advise Then face, to increase the contact area of steam and radiating surface in pot, so that the heat transfer effect of steam in outside air and pot is promoted, from And improve effect of breaking bubble.

In the above-mentioned technical solutions, it is preferable that the steam valve has for the vapor chamber with vapor communication in pot, described The cryosurface of heat exchange layers is configured to the part wall of the vapor chamber.

The cryosurface of heat exchange layers is configured to the part wall of vapor chamber, so that into the thin rice gruel foam in vapor chamber Etc. heat exchange capable of occurring with extraneous free convection air directly with the condensation face contact of heat exchange layers, to make vapor chamber In thin rice gruel foam etc. it is cooling rapidly when reaching the cryosurface of heat exchange layers and vanish automatically, and the faster brokenly bubble of cooling velocity Effect is more obvious.

In the above-mentioned technical solutions, it is preferable that the steam valve also has the heat dissipation channel for being connected to outside air, The heat exchange layers are interposed between the heat dissipation channel and the vapor chamber, and the radiating surface of the heat exchange layers is configured to The part wall of the heat dissipation channel.

Steam valve has the heat dissipation channel for being connected to outside air, and what is flowed in heat dissipation channel is free convection sky Gas, and the setting of heat dissipation channel can strengthen the self-heating convection effects at the radiating surface of heat exchange layers, so that heat exchange The heat dissipation of layer is strengthened, convenient for the thin rice gruel foam etc. in vapor chamber encounter it is cooling rapidly after heat exchange layers vanish, to improve The effect of breaking bubble of steam valve.

In the above-mentioned technical solutions, it is preferable that the steam valve includes valve body, and the valve body includes the heat exchange Layer, the panel above the heat exchange layers and the bottom plate below the heat exchange layers, heat exchange layers and described The vapor chamber is formed between bottom plate, and the heat dissipation channel is formed between the heat exchange layers and the panel.

It is integrally formed vapor chamber and heat dissipation channel on the valve body of steam valve, so that the molding of steam valve is more convenient, adds Work is simpler；Valve body is preferably manufactured using aluminum profile, mainly aluminum profile price is relatively low, need to only do simple milling And drilling processing, this is conducive to technology landing and promotes the use of.

In the above-mentioned technical solutions, it is preferable that the steam valve includes valve body and the panel that is connected with the valve body, The valve body includes the heat exchange layers and the bottom plate below the heat exchange layers, the heat exchange layers and the bottom plate Between form the vapor chamber, the panel is installed in the heat exchange layers and described in being formed between the heat exchange layers Heat dissipation channel.

Panel can be made into split type structure with valve body, and such valve body can use the good heat conduction material of heating conduction Material, panel can use plastic material, and the panel that can use plastic material in this way prevents steam valve from scalding user, but also valve The structure of ontology and panel is more simplified, convenient for the molding of steam valve.

In the above-mentioned technical solutions, it is preferable that the steam valve includes valve body, and the valve body includes the heat exchange Layer and the bottom plate below the heat exchange layers, form the vapor chamber between the heat exchange layers and the bottom plate.

In order to reduce the thickness of steam valve, it can simplify the structure of steam valve, cancel the panel construction of valve body, only in valve Steam chamber configurations are formed on ontology, so that steam valve is smaller thinner, to be conducive to the thickness that cover assembly is thinned Degree, the weight for mitigating cover assembly.

In the above-mentioned technical solutions, it is preferable that offered on the bottom plate multiple steam being connected to the vapor chamber into Mouthful, the steam inlet includes the different multiple steam holes of size.

The differentiation of multiple steam holes is arranged, and is in order to which the foam size for forming thin rice gruel foam when entering vapor chamber is each It is different, it mutually hits extruding and is easy to rupture, to reach effect of breaking bubble.

In the above-mentioned technical solutions, it is preferable that offer mounting hole in the heat exchange layers, be equipped at the mounting hole Brokenly bubble cap offers the steam (vapor) outlet being connected to the vapor chamber on the brokenly bubble cap, is formed on the brokenly bubble cap for breaking The horn structure of bubble.

The mounting hole of setting installation brokenly bubble cap in heat exchange layers, in order to utilize the horn structure on brokenly bubble cap to bubble Brokenly bubble again is carried out, effect of breaking bubble is promoted；Exhaust outlet of the steam (vapor) outlet as steam valve on brokenly bubble cap, convenient for being steamed in steam valve The smooth discharge of vapour；Sealing ring effect is the gap sealed between brokenly bubble cap and mounting hole, guarantees that steam is opened up from brokenly bubble cap Steam (vapor) outlet discharge, and can also realize secured and reliable installation of the brokenly bubble cap at mounting hole using sealing ring.

The technical solution of the utility model second aspect provides a kind of cover assembly, comprising: upper cover；Such as any of the above-described skill Steam valve described in art scheme, the steam valve installation is on the cover.

The cover assembly that the utility model above-mentioned technical proposal provides, because it includes steaming described in any of the above-described technical solution Steam valve, thus the beneficial effect with steam valve described in any of the above-described technical solution, details are not described herein.

In the above-mentioned technical solutions, it is preferable that steam valve mounting hole is formed on the upper lid, the steam valve is mounted on At the steam valve mounting hole, and steam valve seals are equipped between the steam valve mounting hole and the steam valve.

Steam valve seals are set between steam valve mounting hole and steam valve, to avoid steam in pot through between the two Fit-up gap enters inside upper cover.

In the above-mentioned technical solutions, it is preferable that the cover assembly further include: removable cover is mounted on the upper cover Inside offers steam passage holes on the removable cover, and steam reaches at the steam valve through the steam passage holes in pot.

Steam passage holes are opened up on removable cover, bubble has part bubble that can vanish when passing through steam passage holes, thus into one Step promotes effect of breaking bubble.

The technical solution of the utility model third aspect provides a kind of cooking apparatus, including pot body；With it is such as any of the above-described Cover assembly described in technical solution, the cover assembly lid are located in the pot body.

The cooking apparatus that the technical solution of the utility model third aspect provides, because it includes any of the above-described technical solution institute The cover assembly stated, thus the beneficial effect with cover assembly described in any of the above-described technical solution, details are not described herein.

In the above-mentioned technical solutions, the cooking apparatus is electric cooker.

The additional aspect and advantage of the utility model will become obviously in following description section, or practical new by this The practice of type is recognized.

Detailed description of the invention

The above-mentioned and/or additional aspect and advantage of the utility model from the description of the embodiment in conjunction with the following figures will Become obvious and be readily appreciated that, in which:

Fig. 1 is the schematic perspective view of steam valve described in the utility model one embodiment；

Fig. 2 is the decomposition texture schematic diagram of steam valve shown in Fig. 1；

Fig. 3 is the schematic cross-sectional view of steam valve shown in Fig. 1；

Fig. 4 is the schematic cross-sectional view at another visual angle of steam valve shown in Fig. 3；

Fig. 5 is the schematic cross-sectional view of the valve body of steam valve shown in Fig. 3；

Fig. 6 is the side structure schematic view of the valve body of steam valve shown in Fig. 5；

Fig. 7 is the present invention looks up structural representation of the valve body of steam valve shown in Fig. 6；

Fig. 8 is the schematic cross-sectional view of the valve body of steam valve described in another embodiment of the utility model；

Fig. 9 is the present invention looks up structural representation of the valve body of steam valve shown in Fig. 8；

Figure 10 is the schematic cross-sectional view of the valve body of steam valve described in another embodiment of the utility model；

Figure 11 is the present invention looks up structural representation of the valve body of steam valve shown in Figure 10；

Figure 12 is the structural schematic diagram of cooking apparatus described in the utility model one embodiment；

Figure 13 is the schematic cross-sectional view of cooking apparatus shown in Figure 12；

Figure 14 is the overlooking structure diagram of cooking apparatus shown in Figure 12.

Wherein, corresponding relationship of the Fig. 1 into Figure 14 between appended drawing reference and component names are as follows:

1 steam valve, 10 valve bodies, 11 heat exchange layers, 111 cryosurfaces, 112 radiating surfaces, 113 mounting holes, 12 bottom plates, 121 Steam inlet, 13 panels, 131 convection holes, 14 brokenly bubble caps, 141 steam (vapor) outlets, 142 horn structures, 15 sealing rings, 16 sealing blocks, 17 vapor chambers, 18 heat dissipation channels, 2 removable covers, 21 steam passage holes, 3 covers, 4 inner covers, 5 steam valve seals, 6 pot bodys.

Specific embodiment

In order to be more clearly understood that the above objects, features, and advantages of the utility model, with reference to the accompanying drawing and have The utility model is further described in detail in body embodiment.It should be noted that in the absence of conflict, this Shen The feature in embodiment and embodiment please can be combined with each other.

Many details are explained in the following description in order to fully understand the utility model, still, this is practical It is novel to be implemented using other than the one described here mode, therefore, the protection scope of the utility model not by The limitation of following public specific embodiment.

1 to Figure 14 description according to the steam valve of some embodiments of the utility model, cover assembly and is cooked with reference to the accompanying drawings It prepares food utensil.

As shown in Figure 1 to 11, a kind of steam valve 1 provided according to some embodiments of the utility model, steam valve 1 is at least With the heat exchange layers being made from a material that be thermally conductive 11, a side surface of heat exchange layers 11 is formed for contacting with steam in pot Cryosurface 111, another side surfaces of heat exchange layers 11 is formed for the radiating surface 112 with contacting external air.

The utility model steam valve 1 provided by the above embodiment will be produced using the good thermal conductivity of heat exchange layers 11 in pot The thermal energy of raw water vapour, thin rice gruel foam is exported to outside pot, due to heat exchange layers 11 radiating surface 112 and ambient temperature relatively Low air contact so that water vapour, thin rice gruel foam etc. can be cooled down at the cryosurface 111 of heat exchange layers 11 it is cold It is solidifying, it is condensed into it in liquid reflux twice-cooked stir-frying, so that thin rice gruel foam is vanished automatically, namely by strengthening dissipating for steam valve 1 Hot cooling effect improves the brokenly bubble efficiency of steam valve 1, and then realizes effective anti-overflow effect.

Specifically, since the heat exchange layers 11 of steam valve 1 have good thermal conductivity, and the cryosurface of heat exchange layers 11 It 111 is contacted with steam in pot, the radiating surface 112 and contacting external air of heat exchange layers 11, so that kettle temperature is relatively Heat can transmit rapidly outward when high steam, thin rice gruel foam etc. touch heat exchange layers 11, so that steam, thin rice gruel foam Deng meeting cooling condensation rapidly, bubble can vanish thin rice gruel foam automatically in cooling procedure, and the faster effect of breaking bubble of cooling velocity It is more obvious, to effectively increase the brokenly bubble efficiency of steam valve 1, and utilize using the cooling cooling effect for promoting steam valve 1 This principle designs steam valve 1, without increasing steam to extend steam, thin rice gruel foam etc. in the circulation path of steam valve 1 The size of valve 1, so as to realize that small size steam valve 1 reaches the anti-overflow effect of large volume steam valve 1, design is conducive in this way It promotes the overall appearance effect of cover assembly, and the thickness of cover assembly can be thinned by the miniaturization of steam valve 1, in mitigation The weight of cap assemblies is conducive to the experience effect for promoting user so that entire cover assembly is more frivolous.

Preferably, heat exchange layers 11 are alumiaum article or copper fitting.

Heat exchange layers 11 use alumiaum article or copper fitting, on the one hand utilize aluminium or the good heating conduction of copper material, it is ensured that It is the convenient formation of the cooling effect of breaking bubble of steam valve 1, another aspect aluminium or copper material, at low cost；Certainly, heat exchange layers 11 It can also be made of other materials with thermal conductive resin.

Preferably, the bumps of the area for increasing cryosurface 111 and/or radiating surface 112 are formed in heat exchange layers 11 Structure.

The cryosurface 111 of heat exchange layers 11 can be made irregular face, to increase the contact of steam and cryosurface 111 in pot Area, to promote the heat transfer effect of steam and outside air in pot；Likewise, the radiating surface 112 of heat exchange layers 11 can be done At irregular face, to increase the contact area of steam and radiating surface 112 in pot, changed to promote outside air with steam in pot Thermal effect, to improve effect of breaking bubble.

In one embodiment of the utility model, as shown in Fig. 5 to Figure 11, steam valve 1 have for steam in pot The vapor chamber 17 of connection, the cryosurface 111 of heat exchange layers 11 are configured to the part wall of vapor chamber 17.

The cryosurface 111 of heat exchange layers 11 is configured to the part wall of vapor chamber 17, so that enters in vapor chamber 17 Thin rice gruel foam etc. can directly be contacted with the cryosurface 111 of heat exchange layers 11, heat occurs with extraneous free convection air and hands over It changes, to keep thin rice gruel foam in vapor chamber 17 etc. cooling rapidly when reaching the cryosurface 111 of heat exchange layers 11 and break automatically It goes out, and the faster effect of breaking bubble of cooling velocity is more obvious.

Further, as shown in Fig. 5, Fig. 6, Figure 10 and Figure 11, steam valve 1 also has to be dissipated for what is be connected to outside air The passage of heat 18, heat exchange layers 11 are interposed between heat dissipation channel 18 and vapor chamber 17, and the radiating surface 112 of heat exchange layers 11 is configured to The part wall of heat dissipation channel 18.

Steam valve 1 has the heat dissipation channel 18 for being connected to outside air, and what is flowed in heat dissipation channel 18 is nature pair Air is flowed, and the setting of heat dissipation channel 18 can strengthen the self-heating convection effects at the radiating surface 112 of heat exchange layers 11, thus So that the heat dissipation of heat exchange layers 11 is strengthened, encountered convenient for the thin rice gruel foam etc. in vapor chamber 17 cold rapidly after heat exchange layers 11 But it vanishes, to improve the effect of breaking bubble of steam valve 1.

In one specific embodiment, as shown in Figures 1 to 4, heat dissipation channel 18 has airflow inlet and air stream outlet, and even The heat dissipation channel 18 for connecing airflow inlet and air stream outlet is a straight channel, further, the top surface of heat dissipation channel 18 offer with The convection holes 131 that heat dissipation channel 18 is connected to.

The free convection phenomenon in upper layer cavity 1 can further be strengthened in the top surface aperture of upper layer cavity 1, so that lower layer's chamber The heat dissipation of 12 top surface of body is strengthened, so that the bubble 4 in lower layer's cavity 12 can be fast after touching 12 top surface of lower layer's cavity Speed vanishes, to improve the effect of breaking bubble of steam valve 1.

In one embodiment of the utility model, as shown in Figure 5 and Figure 6, steam valve 1 includes valve body 10, valve body 10 include that heat exchange layers 11, the panel 13 above heat exchange layers 11 and the bottom plate 12 positioned at 11 lower section of heat exchange layers, heat are handed over Formation vapor chamber 17 between layer 11 and bottom plate 12 is changed, forms heat dissipation channel 18 between heat exchange layers 11 and panel 13.

Vapor chamber 17 and heat dissipation channel 18 are integrally formed on the valve body 10 of steam valve 1, so that the molding of steam valve 1 is more It is convenient, it processes simpler；Valve body 10 is preferably manufactured using aluminum profile, mainly aluminum profile price is relatively low, need to only do Simple milling and drilling processing, this is conducive to technology landing and promotes the use of.

The steam valve that this programme is done, smaller thinner compared to common steam valve, the size of common steam valve generally exists 150mm × 120mm × 35mm or more, this programme steam valve size are less than 100mm × 50mm × 20mm, and anti-overflow effect and its phase When.

In a specific embodiment of the utility model, as shown in Figures 1 to 4, open at both ends is formed on valve body 10 Upper channel and open at both ends lower channel, upper channel be heat dissipation channel 18, the both ends of lower channel install one respectively Sealing block 16 forms vapor chamber 17, in this way design so that the cleaning of steam valve 1 is more convenient.

In another embodiment of the utility model, as shown in Figure 10 and Figure 11, steam valve 1 include valve body 10 and with The connected panel 13 of valve body 10, valve body 10 include that heat exchange layers 11 and the bottom plate 12 positioned at 11 lower section of heat exchange layers, heat are handed over Formation vapor chamber 17 between layer 11 and bottom plate 12 is changed, panel 13 is installed in heat exchange layers 11 and the shape between heat exchange layers 11 At heat dissipation channel 18.

Panel 13 can be made into split type structure with valve body 10, and such valve body 10 can be good using heating conduction Heat Conduction Material, panel 13 can use plastic material, and the panel 13 that can use plastic material in this way prevents the scald of steam valve 1 from using Family, but also the structure of valve body 10 and panel 13 is more simplified, convenient for the molding of steam valve 1.

In another embodiment of the utility model, as shown in Figure 8 and Figure 9, steam valve 1 includes valve body 10, valve sheet Body 10 includes heat exchange layers 11 and the bottom plate 12 positioned at 11 lower section of heat exchange layers, forms steam between heat exchange layers 11 and bottom plate 12 Chamber 17.

In order to reduce the thickness of steam valve 1, the structure of steam valve 1 can simplify, cancel 13 structure of panel of valve body 10, 17 structure of vapor chamber is only formed on valve body 10, so that steam valve 1 is smaller thinner, to be conducive to be thinned The thickness of cap assemblies, the weight for mitigating cover assembly.

In some embodiments of the utility model, multiple it is connected to vapor chamber 17 as shown in fig. 7, being offered on bottom plate 12 Steam inlet 121, steam inlet 121 includes the different multiple steam holes of size.

The differentiation of multiple steam holes is arranged, and is in order to which the foam size for forming thin rice gruel foam when entering vapor chamber 17 is each It is different, it mutually hits extruding and is easy to rupture, to reach effect of breaking bubble.

In one specific embodiment, bottom plate 12 is equipped with multiple steam holes, and the size of steam hole is different, some vapor hole Diameter is 4mm, and the diameter in some vapor hole is 3mm, and there are also the long and narrow holes that steam hole is width 3mm, long 10mm.

In some embodiments of the utility model, as shown in Figures 1 to 4, mounting hole is offered in heat exchange layers 11 113, brokenly bubble cap 14 is installed at mounting hole 113, the steam (vapor) outlet 141 being connected to vapor chamber 17 is offered on brokenly bubble cap 14, is broken The horn structure 142 for brokenly bubble is formed on bubble cap 14.

The mounting hole 113 of setting installation brokenly bubble cap 14 in heat exchange layers 11, in order to utilize the wedge angle on brokenly bubble cap 14 Structure 142 carries out brokenly bubble again to bubble, promotes effect of breaking bubble；Row of the steam (vapor) outlet 141 as steam valve 1 on brokenly bubble cap 14 Port, convenient for the smooth discharge of steam in steam valve 1；The effect of sealing ring 15 is between sealing brokenly bubble cap 14 and mounting hole 113 Gap guarantees that the steam (vapor) outlet 141 that steam is opened up from brokenly bubble cap 14 is discharged, and can also realize brokenly bubble using sealing ring 15 Secured and reliable installation of the cap 14 at mounting hole 113.

As shown in Figure 12 to Figure 14, the embodiment of the utility model second aspect provides a kind of cover assembly, comprising: on The steam valve 1 of lid and such as above-mentioned any embodiment, steam valve 1 are installed on the upper cover.

The utility model cover assembly provided by the above embodiment, because it includes the steam valve 1 of any of the above-described embodiment, because And the beneficial effect of the steam valve 1 with any of the above-described embodiment, details are not described herein.

In one embodiment of the utility model, as shown in figure 13, steam valve mounting hole, steam valve are formed on upper lid 1 is mounted at steam valve mounting hole, and steam valve seals 5 are equipped between steam valve mounting hole and steam valve 1.

Steam valve seals 5 are set between steam valve mounting hole and steam valve 1, to avoid steam in pot through between the two Fit-up gap enter inside upper cover.

In one embodiment of the utility model, as shown in figure 13, cover assembly further include: removable cover 2, removable cover Plate 2 is mounted on the inside of upper cover, and steam passage holes 21 are offered on removable cover 2, and steam reaches steam through steam passage holes 21 in pot At valve 1.

Steam passage holes 21 are opened up on removable cover 2, bubble by there is part bubble that can vanish when steam passage holes 21, thus Further promote effect of breaking bubble.

In one specific embodiment, as shown in figure 13, upper cover includes cover 3 and the inner cover for being mounted on the inside of cover 3, and 4, it steams Steam valve 1 and removable cover 2, steam valve seals 5, inner cover 4, cover 3 assemble, and are configured to entire anti-overflow system.

In one embodiment of the utility model, the anti-overflow and exhaust process of entire anti-overflow system is as follows: thin rice gruel foam (substantially mainly starch be dissolved in water formation mixed solution wrap gas) under pot inner pressure and water vapour power drive, Enter the space between removable cover 2 and steam valve 1 through the steam passage holes 21 on removable cover 2, experienced brokenly bubble, part is returned Stream, again at processes such as bubbles；Under water vapour power drive, enter vapor chamber through the steam inlet 121 on 1 bottom plate 12 of steam valve In 17, brokenly bubble experienced again, partial reflux arrives the cryosurface 111 of heat exchange layers 11, thermal energy release, bubble again at bubble upwards Foam brokenly bubble, the condensation of part vapor, mixed solution reflux；A small amount of mixed solution enters heat exchange under the driving of a small amount of water vapour In brokenly bubble cap 14 on layer 11, the horn structure 142 on brokenly bubble cap 14 can be to foam brokenly bubble reflux again, and a small amount of vapor is certainly broken The steam (vapor) outlet 141 of bubble cap 14 is discharged.

As shown in Figure 12 to Figure 14, the technical solution of the utility model third aspect provides a kind of cooking apparatus, including Pot body 6 and the cover assembly as described in any of the above-described technical solution, cover assembly lid are located in pot body 6.

The cooking apparatus that the technical solution of the utility model third aspect provides, because it includes described in above-mentioned technical proposal Cover assembly, thus the beneficial effect with cover assembly described in any of the above-described technical solution, details are not described herein.

In one embodiment of the utility model, the cooking apparatus is electric cooker.

Certainly, the cooking apparatus can also be other cooking apparatus being exhausted using steam valve 1, as long as not taking off Design concept from the utility model, should be within the protection scope of the present utility model.

In conclusion steam valve provided by the embodiment of the utility model will be in pot using the good thermal conductivity of heat exchange layers The water vapour of generation, the thermal energy of thin rice gruel foam are exported to outside pot, since radiating surface and the ambient temperature of heat exchange layers are relatively low Air contact make it so that cooling condensation can occur at the cryosurface of heat exchange layers for water vapour, thin rice gruel foam etc. It is condensed into liquid reflux twice-cooked stir-frying, so that thin rice gruel foam is vanished automatically, namely the cooling by strengthening steam valve is imitated Fruit improves the brokenly bubble efficiency of steam valve, and then realizes effective anti-overflow effect.

In the description of the utility model, it is to be understood that the orientation or positional relationship of the instructions such as term " on ", "lower" is It is based on the orientation or positional relationship shown in the drawings, is merely for convenience of describing the present invention and simplifying the description, rather than indicate Or imply that signified device or unit must have specific direction, be constructed and operated in a specific orientation, it is thus impossible to understand For limitations of the present invention.

In the description of the present invention, unless otherwise clearly defined and limited, term " connection ", " fixation " etc. should all It is interpreted broadly, for example, " connection " may be fixed connection or may be dismantle connection, or integral connection, or is electrically connected It connects；It can be directly connected, it can also be indirectly connected through an intermediary.For the ordinary skill in the art, may be used To understand the concrete meaning of above-mentioned term in the present invention as the case may be.

In the description of this specification, the description of term " one embodiment ", " some embodiments ", " specific embodiment " etc. Mean that particular features, structures, materials, or characteristics described in conjunction with this embodiment or example are contained at least the one of the utility model In a embodiment or example.In the present specification, schematic expression of the above terms are not necessarily referring to identical embodiment Or example.Moreover, the particular features, structures, materials, or characteristics of description can be in any one or more embodiment or examples In can be combined in any suitable manner.

The above is only the preferred embodiments of the utility model, are not intended to limit the utility model, for this field Technical staff for, various modifications and changes may be made to the present invention.Within the spirit and principle of the utility model, Any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (14)

1. a kind of steam valve, which is characterized in that

The steam valve at least has the heat exchange layers being made from a material that be thermally conductive, and a side surface of the heat exchange layers is formed Cryosurface for contacting with steam in pot, another side surface of the heat exchange layers are formed for scattered with contacting external air Hot face.

2. steam valve according to claim 1, which is characterized in that

The heat exchange layers are alumiaum article or copper fitting.

3. steam valve according to claim 1, which is characterized in that

The concaveconvex structure of the area for increasing the cryosurface and/or the radiating surface is formed in the heat exchange layers.

4. steam valve according to claim 1, which is characterized in that

The steam valve has for the vapor chamber with vapor communication in pot, and the cryosurface of the heat exchange layers is configured to institute State the part wall of vapor chamber.

5. steam valve according to claim 4, which is characterized in that

The steam valve also has the heat dissipation channel for being connected to outside air, and the heat exchange layers are interposed between the heat dissipation channel Between the vapor chamber, and the radiating surface of the heat exchange layers is configured to the part wall of the heat dissipation channel.

6. steam valve according to claim 5, which is characterized in that

The steam valve includes valve body, and the valve body includes the heat exchange layers, the face above the heat exchange layers Plate and the bottom plate below the heat exchange layers form the vapor chamber between the heat exchange layers and the bottom plate, described The heat dissipation channel is formed between heat exchange layers and the panel.

7. steam valve according to claim 5, which is characterized in that

The steam valve includes valve body and the panel that is connected with the valve body, the valve body include the heat exchange layers and Bottom plate below the heat exchange layers forms the vapor chamber, the panel between the heat exchange layers and the bottom plate It is installed in the heat exchange layers and forms the heat dissipation channel between the heat exchange layers.

8. steam valve according to claim 4, which is characterized in that

The steam valve includes valve body, and the valve body includes the heat exchange layers and the bottom below the heat exchange layers Plate forms the vapor chamber between the heat exchange layers and the bottom plate.

9. the steam valve according to any one of claim 6 to 8, which is characterized in that

Multiple steam inlets being connected to the vapor chamber are offered on the bottom plate, the steam inlet includes that size is different Multiple steam holes.

10. the steam valve according to any one of claim 6 to 8, which is characterized in that

Offer mounting hole in the heat exchange layers, brokenly bubble cap be installed at the mounting hole, offered on the brokenly bubble cap with The steam (vapor) outlet of vapor chamber connection is formed with the horn structure for brokenly bubble on the brokenly bubble cap.

11. a kind of cover assembly characterized by comprising

Upper cover；With

Steam valve as described in any one of claims 1 to 10, the steam valve installation is on the cover.

12. cover assembly according to claim 11, which is characterized in that

Steam valve mounting hole is formed on the upper lid, the steam valve is mounted at the steam valve mounting hole, and the steaming Steam valve seals are equipped between steam valve mounting hole and the steam valve.

13. cover assembly according to claim 11, which is characterized in that further include:

Removable cover is mounted on the inside of the upper cover, and steam passage holes are offered on the removable cover, in pot described in steam warp Steam passage holes reach at the steam valve.

14. a kind of cooking apparatus characterized by comprising

Pot body；With

Cover assembly as described in any one of claim 11 to 13, the cover assembly lid are located in the pot body.