CN105686611A - Inner pot for cooking utensil - Google Patents

Abstract

The invention discloses an inner pot for a cooking utensil. The inner pot comprises a pot body, wherein the pot body is a non-magnetic-conduction pot body; the pot body comprises a bottom wall and a side wall connected with the bottom wall; grooves are formed in the inner surface and/or the outer surface of the pot body; and the grooves are filled with carbon fiber. According to the inner pot for the cooking utensil provided by the embodiment of the invention, the heat conductivity of the inner pot is good, and the heating efficiency is high. After the inner pot is compounded with the carbon fiber, electromagnetic heating can be used, and the magnetic conduction effect is good. The grooves formed in the surface of the pot body are filled with the carbon fiber, so that the processing process of the inner pot is simple; the processing efficiency is high; the cost is low; the carbon fiber cannot be easily abraded and is durable; and the heating performance of the inner pot is stable.

Description

Interior pot for cooking apparatus

Technical field

The present invention relates to field of household appliances, especially relate to a kind of interior pot for cooking apparatus。

Background technology

In cooking apparatus, the interior pot that non-permeable material is made is generally not capable of being directly applied on IH product。For enabling non-magnetic pot to carry out Electromagnetic Heating, way disclosed in correlation technique has pastes magnetic film, meltallizing metal, metal swabbing etc. in pot。

Document CN203122062U discloses a kind of compound pot, this compound pot includes internal layer pot gallbladder and outer layer shell, outer layer shell is metal shell layer, and internal layer pot gallbladder is the non-metallic layer of pottery or category of glass, is provided with liquid or without the solid-state heat-conducting layer determining shape between outer layer shell and internal layer pot gallbladder。This compound pot structural strength is high, good impact resistance。But the structure of the compound pot of the internal layer pot gallbladder with metal shell layer, heat-conducting layer and pottery or category of glass in correlation technique is complicated, and processing cost is high。

Summary of the invention

The application is based on inventor to the discovery of following facts and problem and what understanding was made:

The problem that structure is complicated, processing cost is high of the compound pot of the internal layer pot gallbladder with metal shell layer, heat-conducting layer and pottery or category of glass in correlation technique。Inventor finds through research, the number of plies of pot is too much, and each shell of pot all needs independent processing to assemble again, therefore, inventor have found that, the material with magnetic conduction function is only set in the local of pot and can be greatly simplified the procedure of processing of pot, reduce processing cost。

For this, it is desirable to provide a kind of interior pot for cooking apparatus, this interior pot can carry out Electromagnetic Heating, and manufacturing procedure is simple, and processing cost is low。

The interior pot for cooking apparatus according to embodiments of the present invention, including pot, described pot is non-magnetic pot, and described pot includes diapire and the sidewall being connected with described diapire, the inner surface of described pot and/or outer surface are provided with groove, are filled with carbon fiber in described groove。

The interior pot for cooking apparatus according to embodiments of the present invention, by the surface configuration groove in pot, filling carbon fiber in groove so that the heat conductivity of interior pot is good, the efficiency of heating surface is high。And interior pot can adopt Electromagnetic Heating after being compounded with carbon fiber, and magnetic conduction is effective。Further, since carbon fiber is filled in the groove on the surface of pot, interior pot processing technique is simple, and working (machining) efficiency is high, cost is low, and carbon fiber is not easy to wear, durable in use, and interior pot heating properties is stable。

Preferably, described carbon fiber is along extending from the outer surface of described pot to the direction of the inner surface of described pot。Thus, interior pot heat conduction is quick, and heat transfer efficiency is high, thus the culinary art performance of pot in promoting。

Alternatively, the thickness of described carbon fiber is a, and the wall thickness of described pot is b, wherein 0.1≤a:b≤0.5。Thus, both having can guarantee that the structural strength of interior pot, and can guarantee that again carbon fiber thickness was sufficiently large, when interior pot carries out Electromagnetic Heating, heat produced by carbon fiber can quickly and uniformly be transmitted to the inside of pot, thus realizing quickly, uniformly heat。

In certain embodiments, described groove is located on the inner surface of described pot, and the inner surface area of described pot is n1, and the area of described carbon fiber is m1, wherein 0.2≤m1:n1≤0.8。Thus, the heating surface (area) (HS that interior pot is heated by carbon fiber is sufficiently large, thus improving heating uniformity and the efficiency of heating surface of interior pot。

In further embodiments, described groove is located on the outer surface of described pot, and the exterior surface area of described pot is n2, and the area of described carbon fiber is m2, wherein 0.2≤m2:n2≤0.8。Thus, the heating surface (area) (HS that interior pot is heated by carbon fiber is sufficiently large, thus improving heating uniformity and the efficiency of heating surface of interior pot。

In certain embodiments, described groove is multiple and is respectively provided on inner surface and the outer surface of described pot, and the surface area of described pot is n, and the area of described carbon fiber is m, wherein 0.2≤m:n≤0.8。Thus, the heating surface (area) (HS that interior pot is heated by carbon fiber is sufficiently large, it is simple to carry out the rationalization distribution of carbon fiber according to heat conduction demand, thus improving heating uniformity and the efficiency of heating surface of interior pot。

Alternatively, described groove is multiple and is located on described diapire, and plurality of described groove is the cannelure of arranged concentric；Or the strip that multiple described grooves are respectively spaced apart from each other；Or multiple described grooves are respectively formed as circle and are arranged to multiple concentric ring；Or each described groove includes the multiple arcwall grooves being circumferentially spaced one from the other along described pot, and multiple described groove arrangement becomes multiple concentric ring。

In some instances, being connected by arc transition wall between described diapire with described sidewall, described arc transition wall is provided with described groove。Thus, improve heat conductivility and the efficiency of heating surface of arc transition wall, thus the uniformity of pot heating in improving further。

In certain embodiments, described pot is pottery pot, glass pot, pot made of stones or aluminium cooker body。

Alternatively, described pot is pottery pot, and the wall thickness b of described pot meets relational expression: 4mm≤b≤10mm。Thus, the structural strength of pottery pot is big, and shock resistance is good。

The additional aspect of the present invention and advantage will part provide in the following description, and part will become apparent from the description below, or is recognized by the practice of the present invention。

Accompanying drawing explanation

Above-mentioned and/or the additional aspect of the present invention and advantage are from conjunction with will be apparent from easy to understand the accompanying drawings below description to embodiment, wherein:

Fig. 1 is the schematic diagram that carbon fiber according to embodiments of the present invention is located on pot body outer surface；

Fig. 2 is the schematic diagram that carbon fiber according to embodiments of the present invention is located on inner surface of pot body；

Fig. 3 is the perspective view of interior pot according to embodiments of the present invention；

Fig. 4 is interior according to an embodiment of the invention pot schematic diagram after filling carbon fiber；

Fig. 5 be shown in Fig. 4 in pot schematic diagram after repaired biscuit after filling carbon fiber；

Fig. 6 is the upward view of interior in accordance with another embodiment of the present invention pot；

Fig. 7 is the upward view of the interior pot according to another embodiment of the present invention；

Fig. 8 is the upward view of the interior pot according to further embodiment of the present invention。

Accompanying drawing labelling:

Interior pot 100,

Pot 10, the inner surface S1 of pot, pot outer surface S2,

Diapire 1, sidewall 2, arc transition wall 3, groove 4, arcwall groove 40,

Carbon fiber 20, the inner surface P1 of carbon fiber, carbon fiber outer surface P2,

The thickness a of carbon fiber, pot wall thickness b。

Detailed description of the invention

Being described below in detail embodiments of the invention, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has the element of same or like function from start to finish。The embodiment described below with reference to accompanying drawing is illustrative of, it is intended to is used for explaining the present invention, and is not considered as limiting the invention。

In describing the invention, it will be appreciated that, term " " center ", " thickness ", " vertically ", " level ", " top ", " end ", " interior ", " outward ", " circumference ", " axially " etc. instruction orientation or position relationship be based on orientation shown in the drawings or position relationship; be for only for ease of description the present invention and simplify describe; rather than instruction or imply indication device or element must have specific orientation, with specific azimuth configuration and operation, be therefore not considered as limiting the invention。In describing the invention, except as otherwise noted, " multiple " are meant that two or more。

Describing the interior pot 100 for cooking apparatus according to embodiments of the present invention below with reference to Fig. 1-Fig. 8, wherein, cooking apparatus can be the electric-heating cooking appliances such as electric cooker, electric cooker, pressure cooker, electric cooking pot。

The interior pot 100 for cooking apparatus according to embodiments of the present invention, as shown in Figure 1-Figure 3, including pot 10, pot 10 includes diapire 1 and the sidewall 2 being connected with diapire 1, the inner surface S1 and/or outer surface S2 of pot 10 are provided with groove 4, are filled with carbon fiber 20 in groove 4。

It is to say, the pot 10 of interior pot 100 is provided with carbon fiber layer, this carbon fiber layer may be provided on the inner surface S1 of pot 10, and carbon fiber layer may be alternatively provided on the outer surface S2 of pot 10, or is equipped with carbon fiber layer on the inner surface S1 and outer surface S2 of pot 10。

Have good heat conductive and heat loss through radiation ability due to carbon fibre material, after therefore arranging carbon fiber layer in pot 10, the heat conductivity of interior pot 100 is good, and the efficiency of heating surface is high。And, carbon fibre material both can be directly heated by thermal source, also by electromagnetic induction heating, and the magnetic conduction of carbon fibre material is effective when adopting electromagnetic induction heating, therefore when interior pot 100 is made up of the material that magnetic property is not good, the magnetic property of the interior pot 100 being provided with carbon fiber layer can be improved, thus the efficiency of heating surface of pot 100 in improving, reduces energy consumption。

Wherein, pot 10 is non-magnetic pot, and the non-magnetic pot being compounded with carbon fiber layer can have magnetic property, and namely any non-magnetic pot all can realize magnetic conduction through the mode of composite carbon fiber 20, thus realizing the function of Electromagnetic Heating, namely non-magnetic pot also can be applied on IH product。Wherein, non-magnetic pot can be pottery pot, glass pot or pot made of stones etc.。

Certainly the invention is not restricted to this, for instance pot 10 is aluminium cooker body, the aluminium cooker body being compounded with carbon fiber 20 can improve magnetic property, thus improving the efficiency of heating surface of aluminium cooker body。

The course of processing of interior pot 100 is described below with reference to Fig. 4 and Fig. 5。

As shown in Figure 4, the process of interior pot 100 composite carbon fiber 20 is: first reserve the groove 4 for composite carbon fiber 20 on interior pot blank；Then carbon fiber 20 is embedded in reserved groove 4。

Afterwards, as it is shown in figure 5, the groove 4 of interior pot 100 is carried out repaired biscuit or other technique, so that groove 4 is sealed wholly or in part, thus carbon fiber 20 is fixed in groove 4。

The manufacturing procedure that the blank of interior pot 100 carries out after being filled with carbon fiber 20 is determined by the material of interior pot 100, for instance, when interior pot 100 is ceramic inner vessel, interior pot blank needs to be sintered after embedding carbon fiber 20, no longer specifically describes here。

Owing to groove 4 is located at the surface of pot 10, and carbon fiber 20 is directly filled in groove 4 to be compound on interior pot 100 surface, this embedded mode makes that the technique of interior pot 100 is simple, process operation is easy, and carbon fiber 20 is not easy to wear, durable in use, so that the heating properties of interior pot 100 is stable。

The interior pot 100 for cooking apparatus according to embodiments of the present invention, by the surface configuration groove 4 in pot 10, filling carbon fiber 20 in groove 4, so that the heat conductivity of interior pot 100 is good, the efficiency of heating surface is high。And when interior pot 100 is made up of the material that magnetic property is not good, the pot 10 being compounded with carbon fiber 20 can adopt Electromagnetic Heating, and magnetic conduction is effective。Further, since carbon fiber 20 is filled in the groove 4 on the surface of pot 10 so that interior pot 100 processing technique is simple, working (machining) efficiency is high, cost is low, and carbon fiber 20 is not easy to wear, durable in use, and interior pot 100 heating properties is stable。

Preferably, carbon fiber 20 extends along the direction of the inner surface S1 from the outer surface S2 of pot 10 to pot 10。

It should be noted that, the course of processing of carbon fiber layer is: be woven into carbon fiber layer blank after first precursor being carried out preliminary treatment, then carbon fiber layer blank is carried out pre-oxidation treatment, Carburization Treatment, afterwards the carbon fiber layer after carbonization is carried out the operation such as Surface Finishing, coating, thus obtaining carbon fiber layer。Wherein, carry out in the process woven at precursor, can weave according to the path set, so that the fiber of carbon fiber layer extends along direction initialization。It is to say, carbon fiber 20 can process the fiber bearing of trend of setting。

Material disclosed in prior art is it can be seen that on the fiber bearing of trend of carbon fibre material, the heat conductivity of carbon fibre material is maximum。Therefore, carbon fiber 20 is arranged to along extending from the outer surface S2 of pot 10 to the direction of the inner surface S1 of pot 10 so that the heat conduction of carbon fiber 20 is oriented to the outside by pot 10 to heat conduction inside it, thus, the heat conduction of interior pot 100 is quick, and heat transfer efficiency is high, thus the culinary art performance of pot 100 in promoting。

It should be noted that, position is set can the setting according to actual needs of the carbon fiber 20 being compounded in pot 10, such as, when the bottom that the heater element of cooking apparatus is located at interior pot 100 as added hot plate, solenoid etc., carbon fiber 20 can be compounded on the diapire 1 of pot 10, and when also being provided with heater element on the periphery wall of interior pot 100, carbon fiber 20 can be compounded on the sidewall 2 of pot 10。

In some instances, being connected by arc transition wall 3 between diapire 1 with sidewall 2, thus the aesthetics of pot 100 in improving, and the stress of minimizing diapire 1 and sidewall 2 connecting place is concentrated, it is simple to the machine-shaping of interior pot 100。

Specifically, arc transition wall 3 also being provided with groove 4, so, pot 10 is also compounded with carbon fiber 20 on arc transition wall 3, can improve heat conductivility and the efficiency of heating surface of arc transition wall 3, thus the uniformity of pot 100 heating in improving further。

Alternatively, as depicted in figs. 1 and 2, the thickness of carbon fiber 20 is a, and the wall thickness of pot 10 is b, wherein 0.1≤a:b≤0.5。That is, the thickness a of carbon fiber 20 is between 1/10 to the 1/2 of pot 10 thickness b, thus, both can guarantee that the structural strength of interior pot 100, can guarantee that again carbon fiber 20 thickness is sufficiently large, when interior pot 100 carries out Electromagnetic Heating, heat produced by carbon fiber 20 can quickly and uniformly be transmitted to the inside of pot 10, thus realizing quickly, uniformly heat。

In a concrete example of the present invention, pot 10 is pottery pot, and the wall thickness b of pot 10 meets relational expression: 4mm≤b≤10mm, and thus, the structural strength of pottery pot 10 is big, and shock resistance is good。

In certain embodiments, as shown in Figures 2 and 3, groove 4 is located on the inner surface S1 of pot 10, and the inner surface area of pot 10 is n1, and the area of carbon fiber 20 is m1, wherein 0.2≤m1:n1≤0.8。Here, the area m1 of carbon fiber 20 refers to the area sum of the inner surface P1 of all carbon fibers 20 in pot 10, namely all carbon fibers 20 are towards the surface area sum within pot 10, it is to say, the area sum of the inner surface P1 of carbon fiber 20 occupies the 1/5 to 4/5 of the inner surface area of pot 10。Thus, the heating surface (area) (HS that interior pot 100 is heated by carbon fiber 20 is sufficiently large, thus improving heating uniformity and the efficiency of heating surface of interior pot 100。

In further embodiments, as it is shown in figure 1, groove 4 is located on the outer surface S2 of pot 10, the outer surface S2 area of pot 10 is n2, and the area of carbon fiber 20 is m2, wherein 0.2≤m2:n2≤0.8。Here, the area m2 of carbon fiber 20 refers to the area sum of the outer surface P2 of all carbon fibers 20 in pot 10, namely all carbon fibers 20 are towards the surface area sum outside pot 10, say, that the exterior surface area sum of carbon fiber 20 occupies the 1/5 to 4/5 of the exterior surface area of pot 10。Thus, the heating surface (area) (HS that interior pot 100 is heated by carbon fiber 20 is sufficiently large, thus improving heating uniformity and the efficiency of heating surface of interior pot 100。

In certain embodiments, as depicted in figs. 1 and 2, groove 4 is multiple and is respectively provided on the inner surface S1 and outer surface S2 of pot 10, and the surface area of pot 10 is n, and the area of carbon fiber 20 is m, wherein 0.2≤m:n≤0.8。Here, the area m of carbon fiber 20 refers to the area sum of the area of the inner surface P1 of the carbon fiber 20 on the inner surface S1 being located at pot 10 and the outer surface P2 of the carbon fiber 20 on the outer surface S2 being located at pot 10。Thus, the heating surface (area) (HS that interior pot 100 is heated by carbon fiber 20 is sufficiently large, it is simple to carry out the rationalization distribution of carbon fiber 20 according to heat conduction demand, thus improving heating uniformity and the efficiency of heating surface of interior pot 100。

In some embodiments of the invention, on the discontinuous surface covering pot 10 of carbon fiber 20, so can ensure that pot 10 by carbon fiber 20 homogeneous heating, steadily。

It should be noted that the shape for the groove 4 that embeds carbon fiber 20 can arbitrarily be arranged according to actual needs on interior pot 100, it is not especially limited here。

Carry out the concrete example arranged with reference to Fig. 4-Fig. 8 groove 4 describing in pot 10 below。

In the example of fig. 4, groove 4 is multiple and is located on diapire 1, and plurality of groove 4 is the cannelure of arranged concentric。So, the carbon fiber 20 filled to groove 4 is also the annular bar of multiple arranged concentric。Thus, interior pot 100 heats more uniform。

In the example of fig. 6, groove 4 is multiple and is located on diapire 1, and each groove 4 includes the multiple arcwall grooves 40 being circumferentially spaced one from the other along pot 10, and multiple groove 4 is arranged to multiple concentric ring。So, the carbon fiber 20 filled to each groove 4 is again formed as the multiple arc strips being circumferentially spaced one from the other along pot 10, and the carbon fiber 20 in multiple grooves 4 is in arranged concentric。

In the example in figure 7, groove 4 is multiple and is located on diapire 1, and multiple grooves 4 are respectively formed as circle and are arranged to multiple concentric ring。It is to say, groove 4 is multiple rows of, often row's groove 4 includes multiple groove 4, and often row's groove 4 is arranged into annular, and multiple rows of groove 4 shape in concentric ring, so, the carbon fiber 20 filled to groove 4 is again formed as corresponding shape。

In the example of fig. 8, the strip that multiple grooves 4 are respectively spaced apart from each other, so, fill the carbon fiber 20 to groove 4 also in multiple strips being spaced apart from each other。

The interior pot 100 for cooking apparatus according to embodiments of the present invention, by composite carbon fibrous layer in pot 10, so that interior pot 100 heat conduction is fast, heats is good, and can carry out Electromagnetic Heating and stable performance, long service life。

In the description of this specification, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means in conjunction with this embodiment or example describe are contained at least one embodiment or the example of the present invention。In this manual, the schematic representation of above-mentioned term is not necessarily referring to identical embodiment or example。And, the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiments or example。

Although an embodiment of the present invention has been shown and described, it will be understood by those skilled in the art that: these embodiments can being carried out multiple change, amendment, replacement and modification when without departing from principles of the invention and objective, the scope of the present invention is limited by claim and equivalent thereof。

Claims (10)

1. the interior pot for cooking apparatus, it is characterised in that include pot, described pot is non-magnetic pot, described pot includes diapire and the sidewall being connected with described diapire, and the inner surface of described pot and/or outer surface are provided with groove, are filled with carbon fiber in described groove。

2. the interior pot for cooking apparatus according to claim 1, it is characterised in that described carbon fiber is along extending from the outer surface of described pot to the direction of the inner surface of described pot。

3. the interior pot for cooking apparatus according to claim 1, it is characterised in that the thickness of described carbon fiber is a, and the wall thickness of described pot is b, wherein 0.1≤a:b≤0.5。

4. the interior pot for cooking apparatus according to claim 1, it is characterised in that described groove is located on the inner surface of described pot, and the inner surface area of described pot is n1, and the area of described carbon fiber is m1, wherein 0.2≤m1:n1≤0.8。

5. the interior pot for cooking apparatus according to claim 1, it is characterised in that described groove is located on the outer surface of described pot, and the exterior surface area of described pot is n2, and the area of described carbon fiber is m2, wherein 0.2≤m2:n2≤0.8。

6. the interior pot for cooking apparatus according to claim 1, it is characterized in that, described groove is multiple and is respectively provided on inner surface and the outer surface of described pot, and the surface area of described pot is n, the area of described carbon fiber is m, wherein 0.2≤m:n≤0.8。

7. the interior pot for cooking apparatus according to claim 1, it is characterised in that described groove is multiple and is located on described diapire,

Plurality of described groove is the cannelure of arranged concentric；Or

The strip that multiple described grooves are respectively spaced apart from each other；Or

Multiple described grooves are respectively formed as circle and are arranged to multiple concentric ring；Or

Each described groove includes the multiple arcwall grooves being circumferentially spaced one from the other along described pot, and multiple described groove arrangement becomes multiple concentric ring。

8. the interior pot for cooking apparatus according to claim 1, it is characterised in that being connected by arc transition wall between described diapire with described sidewall, described arc transition wall is provided with described groove。

9. the interior pot for cooking apparatus according to any one of claim 1-8, it is characterised in that described pot is pottery pot, glass pot, pot made of stones or aluminium cooker body。

10. the interior pot for cooking apparatus according to claim 3, it is characterised in that described pot is pottery pot, and the wall thickness b of described pot meets relational expression: 4mm≤b≤10mm。