CN205885241U - Novel pottery non -stick pan - Google Patents
Novel pottery non -stick pan Download PDFInfo
- Publication number
- CN205885241U CN205885241U CN201620375702.2U CN201620375702U CN205885241U CN 205885241 U CN205885241 U CN 205885241U CN 201620375702 U CN201620375702 U CN 201620375702U CN 205885241 U CN205885241 U CN 205885241U
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- stick pan
- pot body
- boss
- pan
- heat conduction
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Abstract
The utility model provides a novel pottery non -stick pan, includes by the bottom of a boiler and the pot body that constitutes of pot body, pot body mainly comprises three layer construction, and outside -in is ceramic basic unit, thermal conductive aluminum layer and nano diamond alkene layer in proper order, thermal conductive aluminum layer and ceramic basic unit pass through heat -conducting glue bonding connection, thermal conductive aluminum layer passes through hot briquetting technology with nano diamond alkene layer and is connected, is thermal conductive aluminum layer 13 of a pot height degree along the height of pot body direction of height 1 2 it is a neotype non -stick pan to use the non -stick pan of this novel structure, can avoid the problem that poor problem of ceramic mould non -stick pan heat conductivity and stainless steel type non -stick pan application range are narrow, contain noxious material, does not have any poisoning effect, long service life, application range guangZhou to people's health.
Description
Technical field
This utility model belongs to ceramic non-stick frying pan field, more particularly, to a kind of new ceramics non-stick pan.
Background technology
At present, the non-stick pan on market mainly has a two kinds of non-stick pan, a kind of be stainless die non-stick pan, another
Planting is the non-stick pan of ceramic mould.Wherein, the non-stick pan of stainless die is mainly coated with the painting of a layer " Teflon " on the bottom of a pan
Layer, the self-lubricity being had using this coating and do not glue;And ceramic mould non-stick pan is to be produced using ceramic surface densification tight
Non-stick and do not glue.However, the non-stick pan of stainless die is due to the fluorine-containing noxious substance of " Teflon " coating, this coating is in high temperature
Under (250 DEG C) easily decomposite fluorine-containing noxious substance, be preferentially absorbed in the person during edible, make this coating quilt simultaneously
Destroy, thus the performance that cannot not lose viscously, meanwhile, the non-stick pan of stainless die can not use in fried, frying etc., nor
Using irony scoop, range is restricted;And the non-stick pan of ceramic mould is for the non-stick pan of stainless die, performance
Stable, high temperature resistant, without poisonous coating, but its preparation technology is more complicated, and topmost problem is that ceramic rate is too low,
Power consumption is big.
Content of the invention
This utility model purpose is to provide a kind of ceramic non-stick frying pan of new structure.
Based on above-mentioned purpose, this utility model adopts the following technical scheme that: a kind of new ceramics non-stick pan, including by the bottom of a pan
The pot body forming with pot body, described pot body is mainly made up of three-decker, and ecto-entad is followed successively by ceramic substrate, heat conduction aluminum
Layer and nanometer diamond alkene layer;Described heat conduction aluminium lamination passes through heat-conducting glue bonding connection with ceramic substrate;Described heat conduction aluminium lamination and nanometer
Diamond alkene layer is connected by hot press forming technology;Described heat conduction aluminium lamination along pot body short transverse height be pot body height 1/3-
1/2.
Described nanometer diamond alkene layer surface is provided with boss arranged in arrays, and the convex surface of described boss assumes diamond in shape shape, boss
Side be obliquely installed, angle of inclination is 30 ° -90 °, is crisscross arranged between adjacent two row's boss, and each row's boss head and the tail connect simultaneously
Form groove.
The convex surface of described boss be one group of parallel interior angle be 120 °, 60 ° of diamond structure, length of side a of convex surface is 1-2 μm,
Described groove is in V-shaped structure, and the width of rebate b of groove is 0.5-1 μm, and depth c of groove is 1-1.5 μm.
The angle of inclination that the side of boss is obliquely installed is 45 °.
The described the bottom of a pan be shaped as round bottom or flat, its thickness is 4-6mm, and the thickness of heat conduction aluminium lamination is 2-4mm, and nanometer is bored
The thickness of stone alkene layer is 20-40 μm.
Compared with prior art, its advantage is:
The application using from the outer surface of pot successively to inner surface be ceramic substrate, heat conduction aluminium lamination, nanometer diamond alkene layer
Three-decker, pottery is conducive to improving service life, and middle heat conduction aluminium lamination makes the heat transfer rate of pot fast, also increases simultaneously
So that being heated evenly, inner surface is nanometer diamond alkene layer to heating surface area, and nanometer diamond alkene layer can avoid oil and food directly and aluminum
Layer contact, thus avoiding substantial amounts of aluminium element to enter in the person with food, produces harm to the person.
What is more important, the nanometer diamond alkene of employing has high abrasion, high heat conduction, the performance of surface hydrophilic oleophobic.First
Its high-wearing feature before this, can make the inner surface of pot more wear-resisting, even if still having wear-resisting effect using irony scoop, irony is shoveled
Son cannot be by its nanometer diamond alkene damage layer;Next to that its high-termal conductivity is so that the rate of heat addition is accelerated, energy saving;Especially
Its hydrophilic oleophobic property, oil does not glue on its surface, easily realizes not gluing effect.
Groove in nanometer diamond alkene layer can be used for storing edible oil, in heating process, can produce steam in groove, prevents
Only food glues the bottom of a pan so that food is uniformly heated, and will not burn food, the effect that cannot not further function as viscously.
Additionally, nanometer diamond alkene is a kind of pure carbonizable substance, without any side effects to the person, its phase transition temperature is 600
More than DEG C, the boiling point of significantly larger than edible oil, it is applicable to fried, frying operation.
Therefore, the problem and stainless of ceramic mould non-stick pan thermal conductivity difference can using the non-stick pan of this new structure, be avoided
Die non-stick pan range is narrow, the problem containing noxious substance, is a kind of new non-stick pan, no any murder by poisoning to the person
Effect, long service life, range is wide.
Brief description
Fig. 1 is structural representation of the present utility model;
Fig. 2 is the schematic front view of nanometer diamond alkene layer in this utility model;
Fig. 3 is the schematic top plan view of nanometer diamond alkene layer in this utility model.
Specific embodiment
A kind of ceramic non-stick frying pan of new structure, as shown in Figure 1, Figure 2 and Figure 3, including the pot being made up of the bottom of a pan and pot body
Body, the bottom of a pan be shaped as round bottom or flat, its thickness is 4-6mm, and described pot body is mainly made up of three-decker, by extroversion
Inside it is followed successively by ceramic substrate 1, heat conduction aluminium lamination 2 and nanometer diamond alkene layer 3;The thickness of heat conduction aluminium lamination is 2-4mm, nanometer diamond alkene layer
Thickness be 20-40 μ.
Heat conduction aluminium lamination 2 passes through heat-conducting glue bonding connection with ceramic substrate 1;Described heat conduction aluminium lamination 2 and nanometer diamond alkene layer 3 lead to
Cross hot press forming technology to connect;Described heat conduction aluminium lamination 2 is the 1/3-1/2 of pot body height along pot body short transverse.
Nanometer diamond alkene layer surface is provided with boss 4 arranged in arrays, and the convex surface of boss 4 assumes diamond in shape shape, the side of boss 4
Be obliquely installed, angle of inclination be 45 ° (angle of inclination is in 30-90 ° in other embodiments), adjacent two row's boss 4 it
Between be crisscross arranged, each row's boss 4 head and the tail connect and form groove 5.The convex surface of each boss 4 be one group of parallel interior angle be 120 °,
60 ° of diamond structure, groove 5 section is in V-shaped structure, and the width of rebate b of groove is 0.5-1 μm, and depth c of groove is 1-1.5 μ
m.
Claims (5)
1. a kind of new ceramics non-stick pan, including the pot body being made up of the bottom of a pan and pot body it is characterised in that described pot body master
To be made up of three-decker, ecto-entad is followed successively by ceramic substrate, heat conduction aluminium lamination and nanometer diamond alkene layer;Described heat conduction aluminium lamination with
Ceramic substrate passes through heat-conducting glue bonding connection;Described heat conduction aluminium lamination is connected by hot press forming technology with nanometer diamond alkene layer;Institute
State heat conduction aluminium lamination along pot body short transverse height be pot body height 1/3-1/2.
2. new ceramics non-stick pan as claimed in claim 1 is it is characterised in that described nanometer diamond alkene layer surface is provided with square
The boss of battle array arrangement, the convex surface of described boss assumes diamond in shape shape, and the side of boss is obliquely installed, and angle of inclination is 30 ° -90 °, adjacent
It is crisscross arranged between two row's boss, each row's boss head and the tail connect and form groove.
3. new ceramics non-stick pan as claimed in claim 2 is it is characterised in that the convex surface of described boss is one group of parallel interior angle
For the diamond structure of 120 °, 60 °, length of side a of convex surface is 1-2 μm, and described groove is in V-shaped structure, and the width of rebate b of groove is
0.5-1 μm, depth c of groove is 1-1.5 μm.
4. new ceramics non-stick pan as claimed in claim 3 is it is characterised in that the angle of inclination that is obliquely installed of the side of boss
For 45 °.
5. described new ceramics non-stick pan as arbitrary in claim 1-4 it is characterised in that the described the bottom of a pan be shaped as round bottom or
Flat, its thickness is 4-6mm, and the thickness of heat conduction aluminium lamination is 2-4mm, and the thickness of nanometer diamond alkene layer is 20-40 μm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620375702.2U CN205885241U (en) | 2016-04-29 | 2016-04-29 | Novel pottery non -stick pan |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620375702.2U CN205885241U (en) | 2016-04-29 | 2016-04-29 | Novel pottery non -stick pan |
Publications (1)
Publication Number | Publication Date |
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CN205885241U true CN205885241U (en) | 2017-01-18 |
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ID=57765620
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CN201620375702.2U Active CN205885241U (en) | 2016-04-29 | 2016-04-29 | Novel pottery non -stick pan |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109437971A (en) * | 2018-12-13 | 2019-03-08 | 德奥通用航空股份有限公司 | Ceramic non-stick cooker and its manufacturing process |
-
2016
- 2016-04-29 CN CN201620375702.2U patent/CN205885241U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109437971A (en) * | 2018-12-13 | 2019-03-08 | 德奥通用航空股份有限公司 | Ceramic non-stick cooker and its manufacturing process |
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GR01 | Patent grant |