CN1899702A - Device for forming ink coating layer on single coating layer or three coating layers and its method - Google Patents
Device for forming ink coating layer on single coating layer or three coating layers and its method Download PDFInfo
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- CN1899702A CN1899702A CN 200510085453 CN200510085453A CN1899702A CN 1899702 A CN1899702 A CN 1899702A CN 200510085453 CN200510085453 CN 200510085453 CN 200510085453 A CN200510085453 A CN 200510085453A CN 1899702 A CN1899702 A CN 1899702A
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Abstract
The present invention is a kind of utensil with ink pigment layer painted onto one single or three coatings and its coating forming process. The utensil has raised scratch hardness, raised wear resistance, raised production efficiency, raised cooking performance and improved appearance. Onto the single ceramic coating or the three coatings, ink pigment is sprayed to form discontinuous spots and irregular uneven patterns.
Description
Technical field
The present invention relates to the method that forms the utensil of mottled coat and on above-mentioned utensil, form coat by ink jet pigment on the surface of single coat or three coats, in more detail, the present invention relates to by on any single coat that forms of coated ceramic coating or heat-resisting paint or fluorine resin coating on the utensil surface, thereby apply the method that ink pigment forms the utensil of irregular concavo-convex discontinuous coat and form discontinuous coat on utensil mottledly.
Background technology
The general utensil that need carry out surface-coated almost all is to be made of the aluminium metalloid material.Only be to use the utensil of making by metal material in early days, but the utensil that this class is only made by metal material, when the cooking food, or, the problems such as surface tear of above-mentioned utensil can take place in other occasions as utensil for kitchen use.In order to prevent the generation of this problem, developed by being coated with coating liquid from the teeth outwards on above-mentioned surface the utensil that forms coat, occurred subsequently variously forming the utensil of various form coats by applying different coating liquids from the teeth outwards.
Particularly, be widely used in above-mentioned utensil by on the surface of utensil, stacking gradually three coating layers that primary coat coating, middle coat, top coat form coat.Recently, further developed a kind of coat, it is to be at the primary coat coating 20 that forms on the utensil 10 or middle coat 30 to apply the different color printing ink that spatters under the dry or moistening state of part, the discontinuous coat 60 that formation is made of continuous bead body, by being coated with top coat 40 thereon, make above-mentioned discontinuous coat when polychrome diversely shows three coats 50, himself is outstanding a little, thereby can prevent the surface tear of utensil.Such utensil is applicable to kitchen appliance typically.
; in the coating of this form; owing to lying in, the main purpose that discontinuous coat is used for three coats do not provide the utensil that is easy to manifest the reflective pigments color; so as mentioned above; discontinuous coat is being coated between primary coat coating and the middle coat or in the mode between middle coat and the top coat; above-mentioned top coat covers discontinuous coat fully, so the coat on surface has become the face of general planar, existence can not be given full play to the problem of scratch-proofness.
In addition, in aforesaid way, when on three coats, forming discontinuous coat, as shown in Figure 3, for example under the situation of kitchen appliance, owing to not forming bigger surface area (position of contacting foodstuff), so when cooking food, exist the heat conduction inhomogeneous, normally the problem of cooking food.
Summary of the invention
The objective of the invention is to, in order to improve the existing problem of utensil that forms above-mentioned coat, more positively bring into play the scratch-proofness and the wearability on utensil surface, evenly carry out the heat conduction, the irreflexive luster effect of more certain performance, and provide a kind of utensil that forms surface coating layer, it applies with ceramic coating or any of heat-resisting paint or fluorine resin coating, and apply ink pigment being formed on single coat on utensil surface mottledly, form discontinuous coat thus, perhaps on the coat of the top of three coats or at top coat not the time, on middle coat, apply ink pigment mottledly, with irregular concavo-convex discontinuous coat with above-mentioned top coat or middle coat as surface coating layer.The present invention also provides a kind of method that forms coat, this method comprises that formation has three coats of the primary coat coating of specific component and component ratio, middle coat and top coat, the ink pigment that will have specific components and component ratio is coated on single coat or the top coat, in being coated in when top coat not on the coat.
To achieve these goals, the invention reside in provides the utensil that is coated with ink pigment on a kind of superficial layer, described utensil is by ceramic coating being applied the single coat utensil that forms ceramic coating layer from the teeth outwards, or by stacking gradually the primary coat coating from the teeth outwards, the three coat utensils that middle coat and top coat form, it is characterized in that spraying ink pigment more than 1 time at above-mentioned single coat or on the coat of above-mentioned top with sprayer, apply above-mentioned ink pigment, the single coat of above-mentioned ceramic coating layer or the discontinuous coat of above-mentioned top coat and above-mentioned ink pigment form irregular concavo-convex from the teeth outwards thus mottledly.
In above-mentioned three coats, can not form above-mentioned top coat, but in above-mentioned, directly form above-mentioned discontinuous coat on the coat.
In above-mentioned three coats, can do not form above-mentioned under the situation of coat, form discontinuous coat.
Above-mentioned ceramic coating can be by alcohol, SiO
2, acid, silane and carbon or inorganic pigment dispersion liquid and constitute.
The composition ratio of above-mentioned ceramic coating is by weight being alcohol 30%, SiO
210%, acid 10%, silane 20% and carbon or inorganic pigment dispersion liquid 30%.
Above-mentioned single coat or above-mentioned three coats can be by applying the heat-resisting coat that heat-resisting paint forms.
Above-mentioned heat-resisting paint can be made of silicon compound resin, compounded organic solvent, composite filling material and carbon or inorganic pigment dispersion liquid.
Each the component ratio that constitutes above-mentioned heat-resisting paint can be silicon compound resin 35%, compounded organic solvent 40%, carbon or inorganic pigment dispersion liquid 5% and composite filling material 20% by weight.
Above-mentioned single coat can be to apply the fluororesin coat that forms with fluorine resin coating.
Above-mentioned fluorine resin coating can be made of polyamide nmp mixture, water, PTFE dispersion liquid, silica and carbon or inorganic pigment dispersion liquid.
Each the component ratio that constitutes above-mentioned fluorine resin coating can be polyamide nmp mixture 16.8%, water 4.1%, PTFE dispersion liquid 67.2%, carbon or inorganic pigment dispersion liquid 3.5% and silica 8.4% by weight.
The ink pigment that is coated in above-mentioned single coat or above-mentioned three coat surfaces can be the ink pigment of different form and aspect.
The above-mentioned ink pigment coating liquid that is coated on the above-mentioned coat can be made of PTFE dispersion liquid, water, aromatic hydrocarbon, triethylamine, oleic acid, surfactant and inorganic dispersion liquid.
Each the component ratio that constitutes above-mentioned ink pigment coating liquid can be PTFE dispersion liquid 86.8%, water 3.38%, aromatic hydrocarbon 0.56%, triethylamine 0.17%, oleic acid 0.17%, surfactant 0.12% and inorganic dispersion liquid 8.8% by weight.
In addition, to achieve these goals, the present invention also provides the painting method on a kind of utensil surface, its feature comprises following operation, promptly, thereby handle the operation that increases surface area as the utensil surface that applies object by sandblast, on the surface of above-mentioned utensil, apply single coat of the thick ceramic coating formation ceramic coating layer of 15~25 μ m, perhaps form the primary coat coating at the thick primary coat coating coating liquid of surface-coated 10~12 μ m of above-mentioned utensil, following dry 15 minutes at 200 ℃ then, on above-mentioned primary coat coating, apply the thick middle coat coating liquid of 10~12 μ m and form middle coat, afterwards 300 ℃-350 ℃ following dry 15 minutes operations, with on single coat of above-mentioned ceramic coating layer or drying in be coated with and be covered with ink jet pigment and form irregular concavo-convex discontinuous coat, under 400~3150 ℃, carry out 20 minutes heat treated operations then.
After described method further is included in the single coat that forms above-mentioned ceramic coating layer, in 10~15 minutes operation of 200~250 ℃ of following sintering.
Said method can carry out under the moistening state of above-mentioned top coat.
Said method can be in above-mentioned under the moistening state of coat, in above-mentioned, apply the thick top coat coating liquid of 8~12 μ m on the coat and form the top coat, 300~350 ℃ dry 15 minutes down, in drying above-mentioned top coat on form discontinuous coat.
Said method can do not form above-mentioned under the condition of coat, only constitute by operation that forms above-mentioned primary coat coating and the operation that forms the top coat.
Said method can carry out under the moistening state of above-mentioned top coat.
In the present invention with above-mentioned purpose and formation, because in the utensil that applies ink pigment on single coat or three coats and the method that forms the utensil coat is to apply ink pigment on the top coat of single coat or three coats by injection mottledly, its discontinuous coat is projected upwards fully, so when using as cooking appliance for example, can improve the scratch-proofness and the wearability of mar-proof phenomenon, therefore, scar can not occur, it is easy that the cleaning behind the using appliance also becomes.
In addition, owing to adopted the discontinuous coat of above-mentioned ink pigment, the total coat thickness that contains single coat or three coats is reached more than 20~40 μ m, be improved so have durability, disqualification rate reduces, the advantage that productivity ratio improves.
Particularly for cooking appliance because other utensil of the surface area ratio that contact with food relatively increases, the heat conduction evenly, so can evenly boil delicious effect of cooking in addition.
Its further advantage is, owing to directly reflect the luster effect of discontinuous coat on single coat of ceramic coating layer, heat-resisting coat or fluororesin coat or top coat, therefore can provide pattern senior and beautiful utensil.
Description of drawings
Fig. 1 represents the perspective view of the utensil that forms the discontinuous coat of ink pigment on single coat of the present invention and the amplification profile diagram of presentation surface coat;
Fig. 2 represents the perspective view of the utensil that forms the discontinuous coat of ink pigment on three coats of the present invention and the amplification profile diagram of presentation surface coat.
Fig. 3 represents the perspective view of existing cooking appliance and the amplification profile diagram of presentation surface coat.
Wherein, Reference numeral:
1 utensil
100 single coats
200 3 coats
201 primary coat coating
Coat in 202
203 top coats
6 discontinuous coats
The specific embodiment
Below, explain an embodiment of the invention according to accompanying drawing.In addition, in this specification and accompanying drawing,, give prosign and omit repeat specification for having the inscape that same function constitutes in fact.
Fig. 1 and Fig. 2 are the perspective view of expression utensil of the present invention and the amplification profile diagram of surface coating layer.
As shown in Figure 1, by forming single coat 100 of ceramic coating layer on the surface that ceramic coating is coated in utensil 1, on single coat 100 of above-mentioned ceramic coating layer, apply ink pigment with identical or different kinds of above-mentioned single coat such as ceramic coatings mottledly, form irregular concavo-convex discontinuous coat 6 with single coat of ceramic coating layer by above-mentioned ink pigment with injector.
On the other hand, as shown in Figure 2, form three coats 200 by on the surface of utensil 1, applying stacked primary coat coating, middle coat and top coat successively, on the top coat 203 of above-mentioned three coat topmosts, apply ink pigment mottledly, form irregular concavo-convex discontinuous coat with the top coat by above-mentioned ink pigment with injector.
Discontinuous coat at the mottled ink pigment that forms on single coat 100 of above-mentioned ceramic coating layer or on the top coat 203 of three coats 200 projects upwards.Amplification profile diagram in the accompanying drawing is the enlarged drawing that expression comprises the discontinuous coat of ink pigment of single coat of ceramic coating layer or three coats, but the summation of the discontinuous coat thickness of the coat thickness of in fact above-mentioned ceramic coating layer and outstanding ink pigment is about 10 μ m.
Here, above-mentioned discontinuous coat also can be formed in the coat be made up of primary coat coating and middle coat above-mentioned on the coat or be formed on the above-mentioned top coat of the coat of being made up of primary coat coating and top coat.
On the other hand, single coat of the ceramic coating layer that forms by coated ceramic coating on the surface of above-mentioned utensil not necessarily is defined in above-mentioned ceramic coating layer, it for example also can be single coat by the heat-resisting coat that applies heat-resisting paint formation, or single coat of the fluororesin coat that forms by fluororesin-coated coating, by on single coat of single coat of above-mentioned heat-resisting coat or fluororesin coat, spraying, make the discontinuous coat of ink pigment that is mottled set project upwards with injector.
Like this, on any single coat that ink pigment is coated in ceramic coating layer, heat-resisting coat, fluororesin coat, form discontinuous coat, perhaps be coated in when forming discontinuous coat on the top coat of three coats, because gross thickness reaches more than 20~30 μ m, so by the coat that single coat or three coats and ink pigment form, durability is improved, disqualification rate reduces, therefore, productivity ratio improves.
For the coated ceramic coating of single coat that forms above-mentioned ceramic coating layer has alcohol 30%, SiO by weight
210%, acid 10%, the component of silane 20% and carbon or inorganic pigment dispersion liquid 30% and component ratio, for the coated heat-resisting paint of single coat that forms heat-resisting coat has by weight silicon composite number 35%, compounded organic solvent 40%, the component of carbon or inorganic pigment dispersion liquid 5% and composite filling material 20% and component ratio are for the coated fluorine resin coating of single coat that forms the fluororesin coat has by weight polyamide nmp mixture 16.8%, water 4.1%, PTFE dispersion liquid 67.2%, the component of carbon or inorganic pigment dispersion liquid 3.5% and silica 8.4% and component ratio.
As being dispersed in above-mentioned ceramic coating layer, heat-resisting coat, on single coat of one of fluororesin coat and be the ink pigment of mottled coating, the pigment that can use and form coated ceramic coating of above-mentioned single coat or heat-resisting paint or fluorine resin coating identical type or have similar form and aspect, but not limited by these, also can use and ceramic coating, heat-resisting paint, or the pigment of fluorine resin coating variety classes or form and aspect, as required, when applying repeatedly ink pigment, have different form and aspect by the ink pigment that makes each coating, can make mottled decorative pattern have polyenergic multiple form and aspect.
In above-mentioned three coats, the coating liquid of primary coat coating has the nmp dissolving mixt 16.8% by weight polyamide, water 4.1%, PTFE dispersion liquid 67.2%, the component of carbon black dispersion liquid 3.5% and silica dispersions 8.4% and component ratio, the coating liquid of middle coat has by weight PTFE dispersion liquid 81.5%, water 9.22%, aromatic hydrocarbon 3.14%, triethylamine 0.46%, oleic acid 0.46%, surfactant 0.33%, the component of carbon black dispersion liquid 3.35% and mica 1.54% and component ratio, the coating liquid of top coat have by weight PTFE dispersion liquid 89.25%, water 6.53%, aromatic hydrocarbon 1.09%, triethylamine 0.32%, oleic acid 0.32%, the component of surfactant 0.25% and mica 2.24% and component ratio.
In addition, the ink pigment that is dispersed on the top coat of above-mentioned three coats and is mottled coating has by weight the component and the component ratio of PTFE dispersion liquid 86.8%, water 3.38%, aromatic hydrocarbon 0.56%, triethylamine 0.17%, oleic acid 0.17%, surfactant 0.12% and inorganic dispersion liquid 8.8%.
To illustrate below on the single coat with one of any ceramic coating layer, heat-resisting coat or fluororesin coat that applies back formation in ceramic coating, heat-resisting paint or the fluorine resin coating with said components and component ratio uses ink pigment of the same race or not of the same race to form the method for coat on the surface of utensil.
At first, in the 1st operation, the sandblast (sand blasting) that forms countless trickle embossings as the utensil surface that applies object is handled, its surface area is increased, in the 2nd operation, utensil surface through above-mentioned blasting treatment is fully washed, in the 3rd operation, form single coat or three coats on utensil surface through blasting treatment and washing.Promptly, with from ceramic coating, heat-resisting paint, the thickness that a kind of coating of selecting in the fluorine resin coating applies into 15~25 μ m forms ceramic coating layer, heat-resisting coat, behind the coat of one of fluororesin, apply into 100~150 ℃ of following heat treatments 10~15 minutes or with the coating liquid of primary coat coating after 10~12 μ m thickness form the primary coat coating, drying is 15 minutes under 200 ℃, in the 4th operation, apply the thick middle coat coating liquid of 10~12 μ m on the primary coat coating on utensil surface and form middle coat being coated on, in the 5th operation, in above-mentioned before the coat bone dry, apply the thick top coat coating liquid of 8~12 μ m and form the top coat, descended dry 15 minutes at 300~350 ℃ subsequently, finish three coats.In the operation of back, ink jet pigment forms the concavo-convex discontinuous coat of mottled irregular pattern on the dry top coat in single coat or three coats, carries out heat treatment in 20 minutes afterwards under 405~415 ℃.
In the utensil that forms with above-mentioned painting method, it is the discontinuous coat that on the coat of the top of three coats, forms ink pigment, but limited by these, according to circumstances, can be in formation primary coat coating reaches behind the coat, under the situation of top coat not, in above-mentioned, directly form the discontinuous coat of ink pigment on the coat with said method, coat in perhaps not forming, and after just forming coat, on the coat of above-mentioned top, form the discontinuous coat of ink pigment with said method with primary coat coating and top coat.
In addition, in the formation method of above-mentioned coat, be under middle coat or top coat dry status, to form discontinuous coat, but limited by these, according to circumstances, also can be in above-mentioned form discontinuous coat under the moistening state of coat or top coat.When using such method, the size of discontinuous coat, just the size of mottled projection is littler than the projection that applies under drying regime, so can be used to regulate the size of above-mentioned discontinuous coat.
Here, when single coat, according to circumstances can omit blasting treatment operation and one of coated ceramic coating, heat-resisting paint or fluorine resin coating, and in 15 minutes operation of 100~150 ℃ of following heat treatment.But under the situation of carrying out blasting treatment, the cohesive force that is coated in ceramic coating, heat-resisting paint or the fluorine resin coating on utensil surface increases.
In the formation method of above-mentioned coat, be in the discontinuous coat of formation under the drying regime by the single coat that makes ceramic coating layer or heat-resisting coat or fluororesin coat, thereby make the surface of utensil more outstanding, but limited by these, according to circumstances, can be in the discontinuous coat of formation under the moistening state at single coat of ceramic coating layer or heat-resisting coat or fluororesin coat.When using such method, the size of discontinuous coat, just the size of mottled projection is lower than the projection that applies under drying regime, so can be used to regulate the size of above-mentioned discontinuous coat, under such moisture state, that is to say that when under moistening state, carrying out mottled coating the projecting degree of the mottled projection that consequently obtains reduces.
Applied surperficial utensil with said method, as shown in the figure, mainly be applicable to the kitchen appliance that its surface contacts with food typically, but also be applicable to the utensil that other need surface-coated.
When forming coat with said method, under the situation of kitchen appliance as shown in Figures 1 and 2, other situation of the surface area ratio that contacts with food increases more, heat transmission to food is uniform, and be fast, so cooking food equably, on the other hand, covering under the situation of discontinuous coat with the top coat in the past, be in by the discontinuous coat under the above-mentioned top coat covering state at reflex time, luster effect can not be given full play to, and in the present invention, owing to be at ceramic coating layer, heat-resisting coat, or single coat of one of fluororesin coat, perhaps form the reflection of discontinuous coat on the coat of top, so can more positively bring into play luster effect.
More than; with reference to description of drawings suitable embodiment of the present invention; but the present invention is not subjected to the restriction of these embodiment; those skilled in the art; in the scope of claim record, can expect various variation or revise example, but these corresponding changes and distortion all should belong to the protection domain of the appended claim of the present invention.
Claims (20)
1. utensil that on superficial layer, is coated with ink pigment, it is the utensil that ceramic coating is applied the single coat (100) that forms ceramic coating layer from the teeth outwards, or stack gradually primary coat coating (201) from the teeth outwards, the three coat utensils that middle coat (202) and top coat (203) form, it is characterized in that: go up with sprayer at described single coat (100) or at described top coat (203) and spray ink pigment more than 1 time, thereby apply described ink pigment mottledly, make the single coat (100) of described ceramic coating layer or the discontinuous coat (6) of described top coat (203) and described ink pigment form irregular concavo-convex from the teeth outwards.
2. the utensil that on superficial layer, is coated with ink pigment according to claim 1, it is characterized in that: in described three coats, do not form described top coat (203), but coat (202) is gone up directly formation described discontinuous coat (6) in described.
3. the utensil that is coated with ink pigment on superficial layer according to claim 1 is characterized in that: do not form described middle coat (202).
4. the utensil that is coated with ink pigment on superficial layer according to claim 1 is characterized in that: described ceramic coating is by alcohol, SiO
2, acid, silane and carbon or inorganic pigment dispersion liquid constitute.
5. the utensil that is coated with ink pigment on superficial layer according to claim 1 is characterized in that: described single coat (100) is to apply the heat-resisting coat that heat-resisting paint forms.
6. the utensil that is coated with ink pigment on superficial layer according to claim 5 is characterized in that: described heat-resisting paint is made of silicon compound resin, compounded organic solvent, composite filling material and carbon or inorganic pigment dispersion liquid.
7. the utensil that is coated with ink pigment on superficial layer according to claim 6 is characterized in that: the ratio that constitutes each component of described heat-resisting paint is silicon compound resin 35%, compounded organic solvent 40%, carbon or inorganic pigment dispersion liquid 5% and composite filling material 20% by weight.
8. the utensil that is coated with ink pigment on superficial layer according to claim 1 is characterized in that: described single coat (100) is to apply the fluororesin coat that forms with fluorine resin coating.
9. the utensil that is coated with ink pigment on superficial layer according to claim 8 is characterized in that: described fluorine resin coating is to be made of polyamide nmp mixture, water, PTFE dispersion liquid, silica and carbon or inorganic pigment dispersion liquid.
10. the utensil that is coated with ink pigment on superficial layer according to claim 9 is characterized in that: the ratio that constitutes each component of described fluorine resin coating is polyamide nmp mixture 16.8%, water 4.1%, PTFE dispersion liquid 67.2%, carbon or inorganic pigment dispersion liquid 3.5% and silica 8.4% by weight.
11. the utensil that is coated with ink pigment on superficial layer according to claim 1 is characterized in that: the coating liquid that is coated in the described ink pigment of described coat is made of PTFE dispersion liquid, water, aromatic hydrocarbon, triethylamine, oleic acid, surfactant and inorganic dispersion liquid.
12. the utensil that is coated with ink pigment on superficial layer according to claim 11 is characterized in that: the ratio of each component that constitutes the coating liquid of described ink pigment is PTFE dispersion liquid 86.8%, water 3.38%, aromatic hydrocarbon 0.56%, triethylamine 0.17%, oleic acid 0.17%, surfactant 0.12% and inorganic dispersion liquid 8.8% by weight.
13. the utensil that is coated with ink pigment on superficial layer according to claim 1 is characterized in that: going up the described ink pigment that applies more than 1 time at described single coat (100) is the ink pigment of different form and aspect.
14. the formation method of a utensil coat is characterized in that: comprise the sandblast operation, it increases its surface area to carry out blasting treatment as the utensil surface that applies object; Washing procedure, it washs the surface of described utensil; Apply operation, it forms single coat (100) of ceramic coating layer at the ceramic coating of surface-coated 15~25 μ m thickness of described utensil; And heat treatment step, the ink pigment identical or inequality more than its single coat (100) at ceramic coating layer is gone up and sprayed once with described ceramic coating layer, form irregular concavo-convex discontinuous coat (6), then 100~150 ℃ of following heat treatments 10~15 minutes.
15. the formation method of a utensil coat is characterized in that: comprise the sandblast operation, it increases its surface area to carry out blasting treatment as the utensil surface that applies object; Washing procedure, it washs the surface of described utensil; Apply drying process, it is coated in primary coat coating coating liquid the primary coat coating (201) that forms 10~12 μ m thickness on the surface of described utensil, afterwards, 200 ℃ dry 15 minutes down; Apply drying process, it is gone up at primary coat coating (201) and applies the middle coat (202) that the thick middle coat coating liquid of 10~12 μ m forms moisture state, coat (202) go up to apply the thick top coat coating liquid of 8~12 μ m and forms top coat (203) in described then, subsequently 300~350 ℃ dry 15 minutes down; And heat treatment step, its in drying top coat (203) go up ink jet pigment and form irregular concavo-convex discontinuous coat (6) thus after, 405~415 ℃ of following heat treatments 20 minutes.
16. utensil coat formation method according to claim 14 is characterized in that: further comprise sintering circuit, it is after forming single coat (100) of described ceramic coating layer, 200~250 ℃ of following sintering 15 minutes.
17. utensil coat formation method according to claim 15, it is characterized in that: during coat in formation (202), go up the middle coat coating liquid that applies 10~12 μ m thickness at described primary coat coating (201), after forming the middle coat (202) of moisture state, directly coat (202) is gone up ink jet pigment in described.
18. utensil coat formation method according to claim 17, it is characterized in that: behind the middle coat (202) that forms described moisture state, the top coat coating liquid that coat in described (202) go up to apply 8~12 μ m thickness forms the top coat, then 300~350 ℃ dry 15 minutes down.
19. utensil coat formation method according to claim 15, it is characterized in that: further comprise following operation, promptly, coat in not forming, but form top coat (203) at the top coating liquid that described primary coat coating (201) go up to apply 8~12 μ m thickness, then 300~350 ℃ dry 15 minutes down.
20. according to claim 18 or 19 described utensil coat formation methods, it is characterized in that: described top coat (203) is in moisture state.
Priority Applications (1)
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CNB200510085453XA CN100486717C (en) | 2005-07-20 | 2005-07-20 | Device for forming ink coating layer on single coating layer or three coating layers and its method |
Applications Claiming Priority (1)
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CNB200510085453XA CN100486717C (en) | 2005-07-20 | 2005-07-20 | Device for forming ink coating layer on single coating layer or three coating layers and its method |
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CN1899702A true CN1899702A (en) | 2007-01-24 |
CN100486717C CN100486717C (en) | 2009-05-13 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105170425A (en) * | 2014-06-16 | 2015-12-23 | 金玲 | Kitchen appliance coated by dot method and method of preparing the same |
US12084593B2 (en) | 2018-12-19 | 2024-09-10 | Ppg Industries Ohio, Inc. | Sprayable silicone polymer dispersion |
-
2005
- 2005-07-20 CN CNB200510085453XA patent/CN100486717C/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105170425A (en) * | 2014-06-16 | 2015-12-23 | 金玲 | Kitchen appliance coated by dot method and method of preparing the same |
US12084593B2 (en) | 2018-12-19 | 2024-09-10 | Ppg Industries Ohio, Inc. | Sprayable silicone polymer dispersion |
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