KR100690576B1 - The Cooking device with nano-sliver marble coating and The method there of - Google Patents

Abstract

The present invention relates to a silver nano-coated cookware and a method for manufacturing the same, and more particularly, in a cookware having a multi-coating layer formed on a metal surface, by applying a silver coating solution containing silver nano-coated on the coating layer, the silver nano-marble layer having a spot shape. It characterized by forming.

The silver nanomarble coated cookware and its manufacturing method according to the present invention can improve the quality of the cookware by forming a coating layer containing silver nano, thereby improving mechanical properties and providing beneficial properties to the human body, such as antibacterial and sterilization, and manufacturing the same. There is an effect that can improve the productivity by simplifying the process.

Cookware, Coating Layer, Silver Nano

Description

Silver nano-coated cookware and manufacturing method thereof. {The Cooking device with nano-sliver marble coating and The method there of}

1 is a perspective view and a partially enlarged view of a silver nano-coated cookware according to the present invention.

2 is a process chart of the manufacturing method according to an embodiment of the present invention.

3 is a process diagram of a manufacturing method according to another embodiment of the present invention.

Figure 4 is a process diagram of a manufacturing method according to another embodiment of the present invention.

＊ Explanation of symbols on major part of drawing ＊

1: cookware 10: metal surface

20: multiple coating layer 21: primer coating layer

22: mid coating layer 23: top coating layer

30: silver nanomarble coating layer 31: silver nanomarble layer

32: silver nano transparent layer

The present invention relates to a silver nano-coated cookware and a method for manufacturing the same, and more particularly, to form a silver nano-marble coated layer containing silver nano on the coating layer formed to prevent scratching of the metal surface of the cooker mechanical properties of the cooker The present invention relates to a silver nanomarble coated cooking utensil and a method for manufacturing the same, which may improve the antimicrobial and sterilization effects.

In general, a cooking utensil such as a frying pan is formed by molding a predetermined metal such as aluminum or iron plate, and in most cases, a coating layer is formed on the metal surface of the cooking utensil to prevent food from sticking or scratching during cooking. .

Teflon (PTFE: poly tetra fluoro ethylene) fluorine resin has been used as a coating agent for forming the coating layer, and as a coating method for forming the coating layer, a primer coating (undercoat) and a mid coating (mid coating) The technique of forming the coating layer in three layers by sequentially laminating the top coating (top coating) has been widely used.

In addition, recently, a technique of improving abrasion resistance by forming a marble layer on the triple coating layer has been disclosed.

However, since the cooking utensils are cooking utensils for human consumption, the physical properties are important, but above all, it is more important to have antimicrobial and sterilization properties which have a beneficial effect on the cooked foods. Silver is only limited to improvement of physical properties such as abrasion resistance, there is a problem that the beneficial properties of the human body do not exist at all in the component itself to form a coating layer.

The present invention has been made to solve the above problems, an object of the present invention is to form a silver nano-marble coating layer containing silver nano to improve the mechanical properties and provide beneficial properties to the human body, such as antibacterial, sterilization and simplify the manufacturing process It is to provide a silver nano-coated cookware and a method for manufacturing the same that can increase the productivity.

Silver nano-coated cookware according to the present invention for achieving the above object,

In a cooking appliance having a multi-coating layer formed on a metal surface, the silver nano-marble layer is coated on the coating layer to form a spotty silver nanomarble layer.

In addition, the silver nano-marble coating cookware according to the present invention is characterized by further forming a silver nano-transparent layer by applying a transparent coating solution containing silver nano on the coating layer on which the silver nano-marble layer is formed.

Here, the marble coating solution is 85.5% by weight of PTFE dispersion, 1.0% by weight of silver nano-dispersant, 0.3% by weight of surfactant, 5.7% by weight of distilled water, 1.5% by weight of ceramic sol, 4.5% by weight of cobalt dispersant, 0.8% by weight of Flash Pearl (shiny powder) %, Other dispersant 0.7% by weight is preferred.

In addition, the transparent coating liquid is preferably composed of 92% by weight of PTFE dispersion, 1.0% by weight of silver nano-dispersant, 0.2% by weight of surfactant, 5.4% by weight of distilled water, 0.6% by weight of Flash Pearl (shiny powder), 0.8% by weight of other dispersants. .

On the other hand, the manufacturing method of the silver nano-coated cookware according to the present invention after forming a primer coating layer on the metal surface and drying for 15 to 20 minutes at 300 ~ 350 ℃, the mid coating layer and the top coating layer sequentially on the primer coating layer And forming a silver nanomarble layer having a spot shape by applying a marble coating liquid on the top coating layer, and forming a silver nanotransparent layer by applying a transparent coating liquid on the top coating layer on which the silver nanomarble layer is formed. It characterized in that it comprises a step of heat treatment for 18 minutes at ~ 420 ℃.

In addition, according to the present invention, a method for manufacturing a silver nano-coated cookware is performed by forming a primer coating layer on a metal surface and drying at 300 to 350 ° C. for 15 to 20 minutes, and after forming a mid coating layer on the primer coating layer, marble Forming a silver nanomarble layer having a spot shape by applying a coating liquid, and forming a silver nanotransparent layer by applying a transparent coating solution on the mid coating layer on which the silver nanomarble layer is formed, and then heat-treating at 400 to 420 ° C. for 18 minutes. can do.

In addition, according to the present invention, a method for manufacturing a silver nano-coated cookware is performed by forming a primer coating layer on a metal surface and drying at 300 to 350 ° C. for 15 to 20 minutes, and after forming a mid coating layer on the primer coating layer, marble Forming a silver nanomarble layer having a spot shape by applying a coating solution, and forming a top coating layer on the mid-coating layer on which the silver nanomarble layer is formed, and then heat-treating at 400 to 420 ° C. for 18 minutes.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a silver nano-coated cookware according to the present invention and a partially enlarged view of the coating layer, wherein the silver nano-coated layer 30 is formed on the multi-coated layer 20 formed on the metal surface 10 of the cooker 1. It shows what you have done.

The multi-coating layer 20 may be composed of a triple coating layer in which the primer coating layer 21, the mid-coating layer 22, and the top coating layer 23 are sequentially stacked as shown in the drawing, and the multi-coating The coating layer 20 may be formed of a double coating layer in which the primer coating layer 21 and the mid coating layer 22 are sequentially stacked.

The primer coating layer 21 is formed by applying a primer coating liquid to the metal surface 10, the primer coating liquid is used in the conventional coating liquid, in the present invention specifically NMP soluble mixture of polyamide 18.5 It is preferable to use a coating liquid composed of a composition ratio of 22.5% by weight, 3-7% by weight of distilled water, 62.5% by weight of PTFE dispersion, 2.1% by weight of AMORPHOUS silica, and 9.9% by weight of liquid carbon.

 The mid-coating layer 22 is formed by applying a mid-coating solution on the formed primer coating layer 21, the mid-coating solution also uses a coating liquid used in the art, specifically in the present invention, 84% by weight of PTFE dispersion It is preferable to use a coating liquid consisting of 3.6% by weight of liquid black, 0.72% by weight of surfactant, 0.18% by weight of other dispersants, 1.2% by weight of Flash Pearl (shiny powder), and 10.3% by weight of distilled water.

The top coating layer 23 is formed by applying the top coating liquid on the formed mid coating layer 22 as the top coating layer when the multiple coating layer 20 is a triple coating layer.

The top coating liquid also uses a coating liquid used in the art in general, specifically, in the present invention, 89.8% by weight of PTFE dispersion, 0.72% by weight of surfactant, 0.18% by weight of other dispersants, 2.4% by weight of Flash Pearl (shiny powder), It is preferable to use a coating liquid consisting of a composition ratio of 6.9% by weight of distilled water.

The silver nanomarble coating layer 30 is formed by being applied on the multi-coating layer 20, and is composed of a silver nanomarble layer 31 and a silver nanotransparent layer 32.

The silver nanomarble layer 31 is formed by applying a marble coating liquid on the multi-coating layer 20 in the form of a spot using a low pressure spray.

That is, the silver nanomarble layer 31 is not a continuous flat coating layer, but a plurality of spherical bodies protrude above the multiple coating layer 20 to form a discontinuous layer as a whole.

The marble coating liquid forming the silver nanomarble layer 31 is a coating liquid containing silver nano, 85.5 wt% PTFE dispersion, 1.0 wt% silver nano dispersion, 0.3 wt% surfactant, 5.7 wt% distilled water, 1.5 wt% ceramic sol, cobalt It is preferably composed of a composition ratio of 4.5% by weight of dispersant, 0.8% by weight of Flash Pearl (shiny powder), and 0.7% by weight of other dispersants.

As the silver nano is a nano-silver (Ag) is known to have excellent beneficial effects on the human body, such as antibacterial, sterilization, odor removal, the silver nano marble layer 31 is differentiated from conventional cooking utensils due to the characteristics of the silver nano You can make an effect.

In addition, the marble coating liquid may form a beautiful silver nanomarble layer 31 having various shapes by using various colors.

The silver nano-transparent layer 32 is formed by spraying a transparent coating liquid on the multiple coating layer 20 in which the silver nano-marble layer 31 is formed as a transparent coating layer.

That is, the silver nano-transparent layer 32 is in contact with the negative plant in a larger surface area with the silver nano-marble layer 31 to function to antibacterial and sterilization.

The transparent coating liquid for forming the silver nano-transparent layer 32 is also a coating liquid containing silver nano, 92 wt% PTFE dispersion, 1.0 wt% silver nanodispersant, 0.2 wt% surfactant, 5.4 wt% distilled water, Flash Pearl (shiny powder) 0.6 It is preferably made up of a composition ratio of 0.8% by weight and other dispersants.

Referring to the manufacturing method of the silver nano-marble coating cookware according to the present invention as described above are as follows.

2 is a view showing step by step an embodiment of a manufacturing method according to the present invention.

Referring to the drawings, prior to the coating process of the cooking utensils (1) is first subjected to a pre-treatment process (S101), by sandblasting the metal surface 10 of the appliance molded into the shape of the cooking utensils Allow the coating solution to adhere well and then proceed with the cleaning process to remove foreign substances.

After that, the primer coating solution is applied to the metal surface 10 of the cleaned apparatus to form the primer coating layer 21. (S102) At this time, the primer coating layer 21 is preferably formed to a thickness of 12 to 15㎛. .

After the primer coating layer 21 is formed, the coating layer is dried for 15 to 20 minutes at 300 to 350 ° C. to cure the coating layer.

After the drying process, the mid-coating solution is applied to form the mid-coating layer 22 (S104), and the top-coating solution is applied before the mid-coating solution is dried to form the top-coating layer 23 (S105). At this time, the mid coating layer 22 is preferably 8 to 12㎛, the top coating layer 23 is preferably formed to a thickness of 6 to 12㎛.

After the coating of the mid-coating solution and the top coating solution, the marble coating solution containing silver nano is applied in a spotty shape through a low pressure spray to form a silver nanomarble layer 31 (S106).

Then, after the marble coating liquid is applied, the transparent coating liquid containing silver nano is applied to form the silver nano transparent layer 32 (S107). At this time, the silver nano-transparent layer 32 is preferably formed to a thickness of 6 ~ 10㎛.

After the transparent coating solution is applied as described above is finally finished through a heat treatment process for 18 minutes at 400 ~ 420 ℃ in the kiln (S108).

In the above-described process, the heat drying step is composed of only the first step after the primer coating layer 21 is formed and the second step after the formation of the silver nanotransparent layer 32, and from the application of the mid-coating liquid to the application of the transparent coating liquid. Until the application of each coating liquid is made without a drying process.

3 is a diagram showing another embodiment of the manufacturing method according to the present invention step by step, unlike the above embodiment, the silver nanomarble layer 31 directly on the mid-coating layer 22 without forming the top coating layer 23 There is a difference in carrying out the process of forming a.

That is, after going through the process of forming and drying the primer coating layer 21 in the same manner as in the above-described embodiment, after the mid-coating solution is formed to form the mid-coating layer 22, the marble coating liquid is applied immediately to form a spotty silver nanomarble. Layer 31 is formed.

Thereafter, the transparent coating solution is applied in the same manner as in the above embodiment to form the silver nano-transparent layer 32, and then the heat treatment process is finished under the same conditions.

4 is a diagram showing another embodiment of the manufacturing method according to the present invention step by step, there is a difference in performing the process of forming the top coating layer 23 on the silver nanomarble layer 31 instead of the silver nano transparent layer 32. .

That is, after going through the process of forming and drying the primer coating layer 21 in the same manner as in the above-described embodiments, after the mid-coating solution is formed to form the mid-coating layer 22, the marble coating solution is applied immediately to form a spotty silver nanomarble. Layer 31 is formed.

After the marble coating solution is applied, the top coating solution is applied to form the top coating layer 23, and then the same is finished by a heat treatment process under the same conditions.

In all the embodiments of the manufacturing method described above, the heat drying step is the same in that the first step is performed after the primer coating layer 21 is formed and only the second step is finally performed after the uppermost coating layer is formed.

The silver nano-coated cookware and its manufacturing method according to the present invention described above are not limited by the above-described embodiment and the accompanying drawings, and various transformations and substitutions within the scope without departing from the technical spirit of the present invention It is possible to say that it is obvious to those skilled in the art to which the present invention pertains belongs to the technical idea of the present invention described in the claims.

As described above, the silver nanomarble coating cookware and its manufacturing method according to the present invention form a marble coating layer containing silver nano to improve mechanical properties and improve the quality of the cookware by providing beneficial properties to the human body such as antibacterial and sterilization. In addition, there is an effect that can improve the productivity by simplifying the manufacturing process.

Claims (7)

delete In the cooking utensil having a multiple coating layer formed on the metal surface, A silver nanomarble coating layer is formed on the coating layer to form a silver nanomarble layer having a spot shape, and a silver nanotransparent layer is formed by coating a transparent coating solution containing silver nanoparticles on the coating layer on which the silver nanomarble layer is formed. Marble coated cookware. The method of claim 2, The marble coating solution is 85.5% by weight of PTFE dispersion, 1.0% by weight of silver nano-dispersant, 0.3% by weight of surfactant, 5.7% by weight of distilled water, 1.5% by weight of ceramic sol, 4.5% by weight of cobalt dispersant, 0.8% by weight of Flash Pearl (shiny powder), Silver nano-coated cookware, characterized in that the composition is composed of 0.7% by weight of other dispersants. The method of claim 2, The transparent coating solution is characterized in that the composition is composed of 92% by weight of PTFE dispersion, 1.0% by weight of silver nano-dispersant, 0.2% by weight of surfactant, 5.4% by weight of distilled water, 0.6% by weight of Flash Pearl (shiny powder), 0.8% by weight of other dispersants. Silver nano coating cookware. Forming a primer coating on the metal surface and drying at 300 to 350 ° C. for 15 to 20 minutes; Sequentially forming a mid coating layer and a top coating layer on the primer coating layer; Applying a marble coating liquid on the top coating layer to form a silver nanomarble layer having a spot shape; And forming a silver nanotransparent layer by applying a transparent coating solution on the top coating layer on which the silver nanomarble layer is formed, and then heat-treating at 400 to 420 ° C. for 18 minutes. Forming a primer coating on the metal surface and drying at 300 to 350 ° C. for 15 to 20 minutes; Forming a mid-coating layer on the primer coating layer, and then applying a marble coating liquid to form a silver nanomarble layer having a spot shape; And forming a silver nanotransparent layer by applying a transparent coating solution on the mid-coating layer on which the silver nanomarble layer is formed, and then heat-treating at 400 to 420 ° C. for 18 minutes. Forming a primer coating on the metal surface and drying at 300 to 350 ° C. for 15 to 20 minutes; Forming a mid-coating layer on the primer coating layer, and then applying a marble coating liquid to form a silver nanomarble layer having a spot shape; And forming a top coating layer on the mid-coating layer on which the silver nano-marble layer is formed, and then heat-treating at 400 to 420 ° C. for 18 minutes.

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