KR20130087648A - Method for coating kitchen container - Google Patents

Abstract

PURPOSE: A coating method of a kitchen container is provided to complete an elaborate and clear three-dimensional pattern. CONSTITUTION: A coating method of a kitchen container comprises: a step of preparing a jig (21) in which a magnet pattern (MP) is prepared and a container (V) ; a step of sprinkling a coating agent (C) which contains a magnetic particle in the surface of the container; a step of forming a three-dimensional pattern (IP) on the surface of the container by accessing the container toward the jig in order that the coating agent is closed to the magnet pattern; a step of plasticizing the container.

Description

[0001] METHOD FOR COATING KITCHEN CONTAINER [0002]

The present invention relates to a kitchen container coating method, and more particularly, to a kitchen container coating method capable of realizing a clear and distinct three-dimensional pattern.

Generally, a kitchen container refers to a frying pan, a pan, a pot, or a hot pot for cooking or cooking foods. The kitchen container is prepared as a container capable of containing food, and then the rough surface is cut or grinded. The coating or the anodizing treatment is performed in order to prevent the phenomenon such as scratching due to the external contact.

The coating treatment may be performed by a base coating, a mid coating, a top coating or the like, and may be carried out by a fluororesin coating, a ceramic coating, a Teflon coating, a titanium coating or the like.

The applicant of the present invention has developed a method of applying a three-dimensional three-dimensional pattern to the surface of a container in a coating process of a kitchen container such as a base coating, a mid-coating or a top coating.

The first prior art document (10-2008-0096943; kitchen container coating method) 1 is a process drawing showing a kitchen container coating method according to an embodiment of the first prior art document. 1, a titanium coating layer, which may be referred to as a base coating layer, is applied to the surface of a kitchen container (S10), a primer coating layer is provided on the titanium coating layer (S30), applying a marble coating layer on the Teflon coating layer (S40), applying a fluororesin coating layer, which may be called a top coating layer, on the marble coating layer (S50). At this time, the surface of the kitchen container can be roughened by sandblasting in advance. The titanium coating layer is coated with a titanium group element belonging to the group 4A of the periodic table, that is, titanium. The titanium is lighter than magnesium or aluminum, has high ductility, excellent mechanical properties, (Specific gravity) is usually about twice that of steel and about 6 times that of aluminum, and is excellent in heat resistance and corrosion resistance, and is resistant to acid and corrosion. In particular, an oxide film is formed during coating, And the peeling phenomenon is thoroughly prevented. The titanium coating layer may comprise from 60 to 95 wt% of titanium and 5 to 40 wt% of diamond powder. A diamond powder with a carbon atom bond is coated on the surface of the kitchen container together with titanium by electric discharge, plasma discharge or vacuum deposition, thereby giving a stronger and more robust coating layer. Then, the primer coating layer improves the abrasion resistance optical properties, the Teflon coating layer improves the abrasion resistance to improve the mechanical properties, and the marble coating layer is coated in a speckled shape of marble pattern so as to give a feeling close to a natural stone. As described above, in the kitchen container coating method according to the first prior art, the titanium coating layer (or titanium and diamond powder mixed coating layer) is directly applied to the surface of the kitchen container, and the high strength properties of titanium and diamond are not scratched or peeled It is possible to ensure the life span, improve the quality, and prevent the pressing of the food in advance. Herein, the base coating layer functions to cover the color peculiar to aluminum while enhancing the strength of the surface of the kitchen container made of aluminum. The midcoat layer is provided with various patterns or colors such as Marble pattern or spotted pattern of the first prior art And the top coating functions to impart gloss while protecting the base coating layer or the mid coating layer. The second prior art document (10-2010-0082785; kitchen container coating method) 2 to 4 are process drawings showing a kitchen container coating method according to a first embodiment of the second prior art document. The kitchen container coating method according to the second prior art refers to a conventional base coating, mid coating or top coating, and processes other than coating such as cutting, grinding, anodizing or transferring and printing can be included in the manufacturing method of a kitchen container have. The kitchen container coating method according to the first embodiment of the second prior document sets the container V on the jig J provided with the magnet M as shown in Figs. 2 to 4 (S1) A coating material containing magnetic particles is sprayed on the surface of the container V (S2), and then the process goes to a step S3 of burning the container V. [ When a magnet M is provided on the jig J and a coating containing magnetic particles is sprayed with the container V set on the jig J, The magnetic particles are attracted by the magnetic force of the magnet M provided on the jig J so that the magnetic particles can be concentrated more densely than the portion where the magnets M are not present. Dimensional three-dimensional pattern can be formed on the surface of the container V due to the difference between the places where the density of the magnetic material is high and the places where the density is not. At this time, when the coating material is sprayed in a state in which the container V is set on the jig J provided with the magnet M, the magnetic force of the magnet M is applied to the surface of the container V more quickly The magnetic particles can be concentrated densely. On the other hand, when the other magnet M is brought into contact with the back surface of the container V (S2 + 1) as shown in FIG. 3A after the step S2, The magnetic grains are concentrated at a relatively low density by the magnetic force of the other magnets M in the three-dimensionally arranged three-dimensional patterns. 3 (b), the magnetic particles are concentrated along the movement path of the other magnet M, so that the three-dimensional It is also possible to make the three-dimensional pattern linear. Figs. 5 to 7 are process charts showing a method of coating a kitchen container according to a second embodiment of the second prior patent document, Fig. 8 is a photograph showing a sample taken by the kitchen container coating method according to the second prior patent to be. In the method of coating a kitchen container according to the second embodiment of the second prior art, a coating material containing magnetic particles is sprayed on the surface of the container V as shown in FIGS. 5 to 7 (S10) After the magnet M is brought into contact with the back surface of the container V in step S20, the process can proceed to step 30 in which the container V is baked. Instead of providing the magnets M in the jig J as in the first embodiment, in the second embodiment, the magnets M are brought into contact with the coating material sprayed to concentrate the magnetic particles with a relatively low density So that a soft three-dimensional solid pattern can be realized by firing. It is a matter of course that the step S20 may be carried out while bringing the magnet M into contact with the back surface of the container V as shown in FIG. 6A. In the kitchen container coating method according to the second prior art document, a coating material is sprayed on the surface of the container (V) and then fired via a sintering furnace (S), wherein the coating material contains magnetic particles, The magnet M is brought into contact with the back surface of the container V by bringing the magnet M into contact with the container V so that the magnetic particles are concentrated on the surface of the container V, The magnetic particles can be concentrated on the surface of the container V, so that the three-dimensional pattern as shown in Fig. 8 can be realized after firing. It is a matter of course that the magnets M may have different magnetic forces so that the differences in the density of the magnetic particles may be realized as differences in the magnetic force, thereby realizing a three-dimensional three-dimensional pattern having different sharpnesses. The coating material may be any one of a fluororesin coating liquid, a ceramic coating liquid, a Teflon coating liquid, and a titanium coating liquid, and may be coated with any one of a fluororesin coating powder, a ceramic coating powder, a Teflon coating powder and a titanium coating powder. Of course. Further, the magnetic particles may be made of iron (Fe), cobalt (Co), nickel (Ni), or an alloy thereof. Further, a color pigment may be contained in the coating, So that a three-dimensional pattern having a more three-dimensional hue can be realized on the surface of the container V. FIG. Among the above-mentioned prior art documents, the description of the base coat layer, the mid coat layer and the top coat layer in coating the kitchen container with the first prior art can be understood, and the density of the magnetic particles And can realize the technique of embodying the three-dimensional pattern of the three-dimensional. However, in the second prior art document, a coating material containing magnetic particles is sprayed on the surface of the container V, and the magnet M is brought into contact with the back surface of the container V to realize a three- ) Is applied to the magnetic particles of the coating body via the thickness of the container (V) itself, so that the influence of the magnetic force is relatively lowered and the finely three-dimensional three-dimensional pattern can not be completed. In addition, in the second prior art document, a coating material containing magnetic particles is sprayed on the surface of the container (V), a magnet (M) is brought into contact with the back surface of the container (V) Dimensional solid pattern due to the magnetic force of the magnet M due to the passage of the sintering furnace S through the sintering furnace S, but the three-dimensional pattern can not be maintained firmly during the course of natural curing, Of a dilute coating, and it is limited to complete an elaborate three-dimensional pattern.

SUMMARY OF THE INVENTION An object of the present invention is to provide a method of forming a three-dimensional pattern on a surface of a container by directly contacting a magnetic pattern on the surface of the container in a state of spraying a coating containing magnetic particles on the surface of the container, The present invention provides a kitchen container coating method capable of completing a pattern.

According to another aspect of the present invention, there is provided a kitchen container coating method,

A step of providing a jig and a container provided with a magnetic pattern,

A step of spraying a coating material containing magnetic particles on the surface of the container;

Forming a three-dimensional pattern on the surface of the container by directly approaching the container toward the jig so that the coating material is close to the magnet pattern;

And a step of firing the container.

According to another aspect of the present invention, there is provided a kitchen container coating method,

A step of providing a jig and a container provided with a magnetic pattern,

Applying a base coating layer to the surface of the container;

A step of spraying a coating material containing magnetic particles on a base coating layer of the container;

Forming a three-dimensional pattern on the surface of the container by directly approaching the container toward the jig so that the coating material is close to the magnet pattern;

And a step of firing the container.

According to another aspect of the present invention, there is provided a kitchen container coating method,

A step of providing a jig and a container provided with a magnetic pattern,

Applying a base coating layer to the surface of the container;

Applying a midcoat layer on the base coating layer;

A step of spraying a coating material containing magnetic particles on a mid coat layer of the container;

Forming a three-dimensional pattern on the surface of the container by directly approaching the container toward the jig so that the coating material is close to the magnet pattern;

And the step of firing the container is characterized by the following features of the technical method.

The present invention allows the container to be directly brought close to the magnet pattern in a state in which the coating material containing magnetic particles is sprayed on the surface of the container, so that the three-dimensional pattern can be formed so as to be formed so that a more elaborate and clear three- There is an effect.

1 is a process diagram showing a kitchen container coating method according to an embodiment of the first prior art document.
2 to 4 are process drawings showing a kitchen container coating method according to a first embodiment of the second prior art document.
5 to 7 are process drawings showing a kitchen container coating method according to a second embodiment of the second prior art document.
8 is a photograph of a sample taken by a kitchen container coating method according to the second prior art.
9 is a process diagram showing a kitchen container coating method according to a first embodiment of the present invention.
10 is a process diagram showing a kitchen container coating method according to a second embodiment of the present invention.
11 is a process diagram showing a kitchen container coating method according to a third embodiment of the present invention.

The method of coating a kitchen container according to the present invention will now be described with reference to the accompanying drawings. The present invention can utilize a conventional base coating, mid coating or top coating, (Curing to a temperature of 200 to 350 DEG C) or firing (firing at a temperature of 200 to 350 DEG C) can be carried out at the same time, and other processes such as cutting, grinding, anodizing or transferring can be included together.

9 is a process diagram showing a kitchen container coating method according to the first embodiment of the present invention.

A method of coating a kitchen container according to a first embodiment of the present invention is to provide a jig 21 and a container V provided with a magnet pattern MP as shown in Fig. And the container V is directly moved toward the jig 21 so that the coating body C is brought close to the magnet pattern MP to spray the coating liquid C on the surface of the container V, (S3) on the surface of the container (V) and firing the container (V).

According to the first embodiment of the present invention, the container V is directly brought close to the magnet pattern MP in the state of spraying the coating body C containing the magnetic particles on the surface of the container V, The three-dimensional pattern IP can be more accurately and precisely formed by allowing the three-dimensional pattern IP to be formed.

It is to be understood that the method may further include a step (S3 + 1) of applying a top coating layer T onto the coating body C together with the three-dimensional pattern IP after step S3.

10 is a process diagram showing a kitchen container coating method according to a second embodiment of the present invention.

A method of coating a kitchen container according to a second embodiment of the present invention includes providing a jig 21 and a container V provided with a magnet pattern MP as shown in FIG. 10 (S10) The base coating layer B is applied to the base coating layer B of the container V and the coating material C containing the magnetic particles is sprayed onto the base coating layer B of the container V The container V is directly brought close to the jig 21 so that the three-dimensional pattern IP is formed on the surface of the container V in step S40 and the step S50 is performed in which the container V is baked .

According to the second embodiment of the present invention, the coating material (C) containing the magnetic particles is sprayed onto the surface of the container (V) so that the coating material (C) Dimensional pattern IP can be formed on the surface of the container V directly in close proximity to the magnet pattern MP so that a finer and more accurate three-dimensional pattern IP can be completed.

In this case, it is of course possible to further include a step (S40 + 1) of applying a top coating layer T onto the coating body C together with the three-dimensional pattern IP after step S40.

11 is a process diagram showing a kitchen container coating method according to a third embodiment of the present invention.

A method of coating a kitchen container according to a third embodiment of the present invention includes providing a jig 21 and a container V provided with a magnet pattern MP (S100) as shown in FIG. 11, The base coating layer B is applied to the base coating layer B in step S200 and the mid coating layer M is applied on the base coating layer B in step S300. C to the jig 21 in step S400 and the container V is directly moved toward the jig 21 so that the coating body C is close to the magnet pattern MP so that the three- (S500), and a step (S600) of baking the container (V).

According to the third embodiment of the present invention, the coating material (C) containing the magnetic particles is sprayed onto the surface of the container (V) so that the coating material (C) Dimensional pattern IP can be formed on the surface of the container V directly in close proximity to the magnet pattern MP so that a finer and more accurate three-dimensional pattern IP can be completed.

In this case, it is of course possible to further include a step (S500 + 1) of providing a top coating layer T on the coating body C together with the three-dimensional pattern IP after step S500.

The container V may be configured to enable the container V to directly approach the jig 21 through the lifting and lowering pedestal 50 so that the coating C is brought close to the magnet pattern MP, The lifting and lowering pedestal 50 is designed to be fixed to the conveyor belt 60 to enable the implementation of the three-dimensional pattern IP during the coating process of the container V.

More specifically, the elevation pedestal 50 includes a pedestal 51 for supporting the container V and an elevation shaft 52 for elevating and lowering the pedestal 51 so that the container V is moved toward the jig 21 And the magnet pattern MP can be made of a permanent magnet, an electromagnet or a coil.

On the other hand, the coating material (C) can be completed by containing magnetic particles of iron (Fe), cobalt (Co), nickel (Ni) or an alloy thereof in a fluororesin coating liquid, a ceramic coating liquid, a Teflon coating liquid or a titanium coating liquid (C), thereby realizing a difference in the density of the color pigment due to the concentration of the magnetic particles, so that the three-dimensional pattern having the three-dimensional color (IP) can be realized on the surface of the container Of course.

The present invention is characterized in that the container V is directly moved toward the jig 21 so that the coating body C is brought close to the magnet pattern MP to form the solid pattern IP on the surface of the container V The presence or absence of the base coating layer (B), the mid coating layer (M) and the top coating layer (T), and addition and omission of other coating layers between the series of coating steps are all included in the scope of interpretation .

The present invention can be applied to industrial fields for coating kitchen containers such as frying pans, court fans, pots or pots.

V: container C: coating
MP: magnet pattern IP: three-dimensional pattern
B: base coating layer T: top coating layer
M: Midcoat layer 21: Jig
50: elevating pedestal 51: pedestal
52: lifting shaft 60: conveyor belt

Claims (10)

A step S1 of providing a jig 21 provided with a magnet pattern MP and a container V,
A step (S2) of spraying a coating (C) containing magnetic particles on the surface of the container (V)
A step of directly approaching the container V toward the jig 21 so that the coating body C approaches the magnet pattern MP to form a solid pattern IP on the surface of the container V S3,
And a step (S4) of baking the container (V). The method of claim 1,
Further comprising a step (S3 + 1) of applying a top coating layer (T) onto the coating body (C) together with the three-dimensional pattern (IP) after the step S3. A step S10 of providing a jig 21 and a container V provided with a magnet pattern MP,
(S20) of applying a base coating layer (B) to the surface of the container (V)
A step (S30) of spraying a coating material (C) containing magnetic particles on the base coating layer (B) of the container (V)
A step of directly approaching the container V toward the jig 21 so that the coating body C approaches the magnet pattern MP to form a solid pattern IP on the surface of the container V S40)
And a step (S50) of baking the container (V). The method of claim 3, wherein
Further comprising a step (S40 + 1) of applying a top coating layer (T) onto the coating body (C) together with the three-dimensional pattern (IP) after the step S40. A step S100 of providing a jig 21 and a container V provided with a magnet pattern MP,
A step (S200) of applying a base coating layer (B) to the surface of the container (V)
A step S300 of applying a mid coat layer M on the base coat layer B,
A step (S400) of spraying a coating material (C) containing magnetic particles on the midcoat layer (M) of the container (V)
A step of directly approaching the container V toward the jig 21 so that the coating body C approaches the magnet pattern MP to form a solid pattern IP on the surface of the container V S500)
And a step (S600) of baking the container (V). The method of claim 5, wherein
Further comprising the step (S500 + 1) of applying a top coating layer (T) onto the coating body (C) together with the three-dimensional pattern (IP) after the step S500. 7. The method according to any one of claims 1 to 6,
Wherein the container V directly approaches the container V toward the jig 21 through the lifting and lowering pedestal 50 so that the coating body C is brought close to the magnet pattern MP Container coating method. The method of claim 7, wherein
Wherein the lifting pedestal (50) is fixedly moved to the conveyor belt (60). The method of claim 7, wherein
The lifting and lowering pedestal (50)
A pedestal 51 for supporting the container V,
And an elevation shaft (52) for elevating and lowering the pedestal (51) so that the container (V) is moved up and down toward the jig (21). 7. The method according to any one of claims 1 to 6,
Wherein the magnet pattern (MP) comprises a permanent magnet, an electromagnet or a coil.

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