CN100562508C - Method for making pottery or porcelain container for induction cooker - Google Patents

Abstract

A method for making a ceramic container for an induction cooker includes raw material preparation, blank making, and firing. The method is special in that: when preparing the raw materials, a magnetic conductive metal slurry is prepared, and the magnetic conductive metal slurry is prepared by mixing metal powder and water and stirring them evenly; when making the blank, a layer of magnetic conductive metal slurry is embedded in the bottom of the blank; or a layer of magnetic conductive metal slurry is embedded in the bottom of the blank between the blank and the glaze layer of the porcelain. In the method, during the firing process, the metal powders fuse with each other, and the metal powders fuse with the blank, so that the metal powders and the blank are melted and bonded to each other, and the magnetic conductive metal slurry is fired into a magnetic conductive metal layer. Therefore, it not only has a high yield rate, but also the magnetic conductive metal layer and the container body are melted and bonded to each other, and the expansion coefficient of the magnetic conductive metal layer and the body is basically the same.

Description

The making method of pottery that electromagnetic oven is used or porcelain container

Technical field

The present invention relates to a kind of making method of heating container, the pottery that especially a kind of electromagnetic oven is used or the making method of porcelain container.

Background technology

Present prior art, Chinese patent, the patent No.: ZL200520055040.2, invention and created name: the marmite that a kind of electromagnetic oven is used.Make through technical process such as batching, moulding, drying, roastings, its primary structure is: be embedded with the metallic disc-shaped plate in the bottom of pot body; The metallic disc-shaped plate is the stainless iron material.Existing problems are: the finished product that application method is made, yield rate is low, because iron material is different with the coefficient of expansion of the material of pottery, is easy to generate the metallic disc-shaped plate and separates with the pot body, causes the bottom of a pan to break.

Summary of the invention

The objective of the invention is: the pottery that a kind of electromagnetic oven uses or the making method of porcelain container are provided, and it is the yield rate height not only, and magnetic conductive metal layer and body is melting adhered is integral, and the coefficient of expansion of magnetic conductive metal layer and container body is basic identical.

The present invention is achieved in that the making method of the pottery container that a kind of electromagnetic oven is used, comprise preparation of raw material, base tire, roasting, its special character is: when preparation of raw material, and preparation magnetic conductive metal mud, magnetic conductive metal mud mixes, stirs formulated by metal powder and water; When the base tire, embedding one deck magnetic conductive metal mud at the bottom of the mold of mold;

Described metal powder is made of Stainless Steel Powder, tungsten powder, copper powder, zinc powder and potter's clay, and its weight percent is:

Stainless Steel Powder 40～70% tungsten powders 10～25% copper powders 10～25%

Zinc powder 5～10% potter's clay 5～10%

Metal powder: water=1: 1.

The making method of the pottery container that a kind of electromagnetic oven is used comprises preparation of raw material, base tire, roasting, and its special character is: when preparation of raw material, and preparation magnetic conductive metal mud, magnetic conductive metal mud mixes, stirs formulated by metal powder and water; When the base tire, on the outside surface at the bottom of the mold of mold, adhere to one deck magnetic conductive metal mud;

Described metal powder is made of Stainless Steel Powder, tungsten powder, copper powder, zinc powder and potter's clay, and its weight percent is:

Stainless Steel Powder 40～70% tungsten powders 10～25% copper powders 10～25%

Zinc powder 5～10% potter's clay 5～10%

Metal powder: water=1: 1.

The making method of the porcelain container that a kind of electromagnetic oven is used, comprise preparation of raw material, base tire, be coated with glaze, roasting, its special character is: when preparation of raw material, and preparation magnetic conductive metal mud, magnetic conductive metal mud mixes, stirs formulated by metal powder and water; When the base tire, embedding one deck magnetic conductive metal mud at the bottom of the mold of mold;

Described metal powder is made of Stainless Steel Powder, tungsten powder, copper powder, zinc powder and china clay, and its weight percent is:

Stainless Steel Powder 40～70% tungsten powders 10～25% copper powders 10～25%

Zinc powder 5～10% china clay 5～10%

Metal powder: water=1: 1.

The making method of the porcelain container that a kind of electromagnetic oven is used, comprise preparation of raw material, base tire, be coated with glaze, roasting, its special character is: when preparation of raw material, and preparation magnetic conductive metal mud, magnetic conductive metal mud mixes, stirs formulated by metal powder and water; After making mold, be coated with before the glaze, on the outside surface at the bottom of the mold of mold, adhere to one deck magnetic conductive metal mud;

Described metal powder is made of Stainless Steel Powder, tungsten powder, copper powder, zinc powder and china clay, and its weight percent is:

Stainless Steel Powder 40～70% tungsten powders 10～25% copper powders 10～25%

Zinc powder 5～10% china clay 5～10%

Metal powder: water=1: 1.

The making method of the porcelain container that a kind of electromagnetic oven is used, its special character is: brushing or wire mark one deck magnetic conductive metal mud on pottery or porcelain bottom outer surface, after magnetic conductive metal mud is done; Brushing or wire mark one deck far infrared hyperthermia radiation ceramic coating; Roasting to 850 ℃ ± 20 ℃ gets final product;

Magnetic conductive metal mud mixes, stirs formulated by metal powder and water;

Described metal powder is made of Stainless Steel Powder, tungsten powder, copper powder, zinc powder and potter's clay, and its weight percent is:

Stainless Steel Powder 40～70% tungsten powders 10～25% copper powders 10～25%

Zinc powder 5～10% potter's clay 5～10%

Metal powder: water=1: 1.

Require the making method of the porcelain container that 5 described a kind of electromagnetic ovens use according to power, its special character is: on far infrared hyperthermia radiation ceramic coating, be coated with one deck glaze again, and then roasting.

The making method of pottery that electromagnetic oven of the present invention is used or porcelain container, when preparation of raw material, preparation magnetic conductive metal mud, magnetic conductive metal mud mixes, stirs formulated by metal powder and water; When the base tire, embedding one deck magnetic conductive metal mud or on outside surface at the bottom of the mold of mold, adhere to one deck magnetic conductive metal mud at the bottom of the mold of mold.The employing method, in roasting process, metal powder merges each other, and metal powder and embryo are merged, and has reached metal powder and embryo melting adhered being integral mutually, the roasting of magnetic conductive metal mud becomes the magnetic conductive metal layer, obviously improved yield rate, overcome in the existing technology, the metallic disc-shaped plate is different because of the coefficient of expansion with mold, metal sheet can not be effectively and the melting adhered defective together of mold, the defective that yield rate is low.So its yield rate height not only, and magnetic conductive metal layer and body is melting adhered is integral, the coefficient of expansion of magnetic conductive metal layer and container body is basic identical.

Description of drawings

Fig. 1 is the sectional view that first kind of embodiment of the present invention made product.

Fig. 2 is the sectional view that second kind of embodiment of the present invention made product.

Fig. 3 is the sectional view that the third embodiment of the present invention is made product.

Fig. 4 is the sectional view that the 4th kind of embodiment of the present invention made product.

Embodiment

Below the present invention is further described.

Embodiment 1

The making method of the pottery that a kind of electromagnetic oven is used comprises preparation of raw material, base tire, roasting.When preparation of raw material, preparation magnetic conductive metal mud, magnetic conductive metal mud mixes, stirs formulated by metal powder and water; When the base tire, embedding one deck magnetic conductive metal mud at the bottom of the mold of mold.

Described metal powder is made of Stainless Steel Powder, tungsten powder, copper powder, zinc powder and potter's clay, and its weight percent is:

Stainless Steel Powder 40 tungsten powders 25% copper powder 20% zinc powder 5% potter's clay 10%

In roasting process, mutual fusion constitutes the magnetic conductive metal layer between the metal powder different components, and metal powder and mold are together melting adhered mutually.

As shown in Figure 1, the structure iron of product, mold 1, magnetic conductive metal layer 2.Magnetic conductive metal layer 2 is positioned at the bottom of the mold of mold 1.

Embodiment 2

The making method of the pottery container that a kind of electromagnetic oven is used comprises preparation of raw material, base tire, roasting.When preparation of raw material, preparation magnetic conductive metal mud, magnetic conductive metal mud mixes, stirs formulated by metal powder and water; Behind the base tire, on the outside surface at the bottom of the mold of mold, adhere to one deck magnetic conductive metal mud, carry out roasting again.

Described metal powder is made of Stainless Steel Powder, tungsten powder, copper powder, zinc powder and potter's clay, and its weight percent is:

Stainless Steel Powder 70% tungsten powder 10% copper powder 10% zinc powder 5% potter's clay 5%

Metal powder: water=1: 1

As shown in Figure 2, the structure iron of product, mold 1, magnetic conductive metal layer 2.Magnetic conductive metal layer 2 is positioned on the outside surface at the bottom of the mold of bad tire 1.

Embodiment 3

The making method of the porcelain container that a kind of electromagnetic oven is used comprises preparation of raw material, base tire, is coated with glaze, roasting.When preparation of raw material, preparation magnetic conductive metal mud, magnetic conductive metal mud mixes, stirs formulated by metal powder and water; When the base tire, embedding one deck magnetic conductive metal mud at the bottom of the mold of mold.

Described metal powder is made of Stainless Steel Powder, tungsten powder, copper powder, zinc powder and china clay, and its weight percent is:

Stainless Steel Powder 50% tungsten powder 15% copper powder 25% zinc powder 5% china clay 5%

As shown in Figure 3, the structure iron of product, bad tire 1, glaze layer 11, magnetic conductive metal layer 2.Magnetic conductive metal layer 2 is positioned at the bottom of the mold of mold 1.

Embodiment 4

The making method of the porcelain container that a kind of electromagnetic oven is used comprises preparation of raw material, base tire, is coated with glaze, roasting, when preparation of raw material, and preparation magnetic conductive metal mud, magnetic conductive metal mud mixes, stirs formulated by metal powder and water; After making mold, be coated with before the glaze, the outside surface at the bottom of the mold of mold adheres to one deck magnetic conductive metal mud.

Described metal powder is made of Stainless Steel Powder, tungsten powder, copper powder, zinc powder and china clay, and its weight percent is:

Stainless Steel Powder 60% tungsten powder 10% copper powder 20% zinc powder 5% china clay 5%

As shown in Figure 4, the structure iron of product, mold 1, glaze layer 11, magnetic conductive metal layer 2.Magnetic conductive metal layer 2 is between outside surface at the bottom of the mold of mold 1 and glaze layer 11.

Embodiment 5

Brushing or wire mark one deck magnetic conductive metal mud on pottery or porcelain bottom outer surface; After magnetic conductive metal mud is air-dry, brushing or wire mark one deck far infrared hyperthermia radiation ceramic coating; Roasting to 850 ℃ ± 20 ℃ gets final product.

Embodiment 6

Brushing or wire mark one deck magnetic conductive metal mud on pottery or porcelain bottom outer surface; After magnetic conductive metal mud is air-dry, brushing or wire mark one deck far infrared hyperthermia radiation ceramic coating; On far infrared hyperthermia radiation ceramic coating, be coated with one deck glaze again, and then roasting; Roasting to 850 ℃ ± 20 ℃ gets final product.

The function of far infrared hyperthermia radiation ceramic coating is the work-ing life that shortens the heating-up time, prolongs the magnetic conductive metal layer, this coating safety non-pollution, energy-saving effect is remarkable and high temperature resistant, chemical stability is good, anti-various atmosphere corrosions, good heat-radiating properties, yield of radiation and high rate of displacement are arranged, scour resistance is good, and high temperature keeps surfacing, smooth down.

Claims (6)

1. A method for making a pottery container for an induction cooker, comprising preparing raw materials, making a green tire, and roasting, characterized in that: when preparing raw materials, a magnetically conductive metal slurry is prepared, and the magnetically conductive metal slurry is mixed and stirred by metal powder and water It is uniformly prepared; when making the green tire, a layer of magnetically conductive metal mud is embedded in the bottom of the green tire; The metal powder is composed of stainless steel powder, tungsten powder, copper powder, zinc powder and pottery clay, and its weight percentage is: Stainless steel powder 40-70% Tungsten powder 10-25% Copper powder 10-25% Zinc powder 5～10% Clay 5～10% Metal powder: water = 1:1. 2. A method for making a pottery container for an induction cooker, comprising raw material preparation, billet making, and roasting, characterized in that: when the raw material is prepared, a magnetically conductive metal slurry is prepared, and the magnetically conductive metal slurry is mixed and stirred by metal powder and water Prepared uniformly; when making the green tire, a layer of magnetically conductive metal mud is attached to the outer surface of the green tire bottom of the green tire; The metal powder is composed of stainless steel powder, tungsten powder, copper powder, zinc powder and pottery clay, and its weight percentage is: Stainless steel powder 40-70% Tungsten powder 10-25% Copper powder 10-25% Zinc powder 5～10% Clay 5～10% Metal powder: water = 1:1. 3. A method for making a porcelain container for an induction cooker, comprising preparation of raw materials, blank making, glaze coating, and roasting, characterized in that: when the raw materials are prepared, a magnetically conductive metal slurry is prepared, and the magnetically conductive metal slurry is made of metal powder and water It is prepared by mixing and stirring evenly; when making the green tire, a layer of magnetically conductive metal mud is embedded in the bottom of the green tire; The metal powder is composed of stainless steel powder, tungsten powder, copper powder, zinc powder and china clay, and its weight percentage is: Stainless steel powder 40-70% Tungsten powder 10-25% Copper powder 10-25% Zinc powder 5～10% China clay 5～10% Metal powder: water = 1:1. 4. A method for making a porcelain container for an induction cooker, comprising preparation of raw materials, blank making, glaze coating, and roasting, characterized in that: when the raw materials are prepared, magnetically conductive metal slurry is prepared, and the magnetically conductive metal slurry is made of metal powder and water It is prepared by mixing and stirring evenly; after the green tire is made and before the glaze is applied, a layer of magnetically conductive metal slurry is attached to the outer surface of the green tire bottom of the green tire; The metal powder is composed of stainless steel powder, tungsten powder, copper powder, zinc powder and china clay, and its weight percentage is: Stainless steel powder 40-70% Tungsten powder 10-25% Copper powder 10-25% Zinc powder 5～10% China clay 5～10% Metal powder: water = 1:1. 5. A method for making a porcelain container for an induction cooker, characterized in that: paint or screen-print a layer of magnetically conductive metal slurry on the outer surface of the pottery or porcelain bottom, and after the magnetically conductive metal slurry dries; paint or screen-print A layer of far-infrared high-temperature radiation ceramic coating; baked to 850 ° C ± 20 ° C; Magnetic metal slurry is prepared by mixing metal powder and water and stirring evenly; The metal powder is composed of stainless steel powder, tungsten powder, copper powder, zinc powder and pottery clay, and its weight percentage is: Stainless steel powder 40-70% Tungsten powder 10-25% Copper powder 10-25% Zinc powder 5-10% Clay 5-10% Metal powder: water = 1:1. 6. A method for making a porcelain container for an induction cooker according to claim 5, characterized in that: coating a layer of glaze on the far-infrared high-temperature radiation ceramic paint, and then firing.

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