KR101618768B1 - Manufactruing method for magnesium alloy kitchen bowl for using at the induction range - Google Patents

Abstract

The present invention relates to a method for manufacturing a magnesium alloy kitchen bowl usable on an induction range. More specifically, the method for manufacturing a magnesium alloy kitchen bowl: allows a magnesium alloy kitchen bowl to be usable on an induction range by applying stainless magnetic plates to the outer bottom surface of the magnesium alloy kitchen bowl; solves a problem of a coating layer being consumed or exfoliated by preventing a temperature of the kitchen bowl from being excessively raised when using the kitchen bowl; and interposes an aluminum foil between the outer bottom surface of the kitchen bowl, formed with different materials, and the magnetic plates to prevent oxidization of the magnesium alloy, which might happen when combining the different materials (magnesium alloy and stainless). In addition, the method for applying the stainless magnetic plates to the outer bottom surface of the magnesium alloy kitchen bowl includes the following steps: forming protrusions on the outer bottom surface of the kitchen bowl; forming insertion grooves on the magnetic plates; inserting and coupling the protrusions to the insertion grooves; and compressing the resultant product to be coupled in a rivet form.

Description

TECHNICAL FIELD [0001] The present invention relates to a method of manufacturing a kitchen container using a magnesium alloy material usable in an induction cooking stove,

The present invention uses a magnetic plate made of stainless steel on the bottom surface of a kitchen container of a magnesium alloy material so that a kitchen container made of a magnesium alloy material can be used in an induction cooking range, To a method of manufacturing a kitchen container made of a magnesium alloy material, which makes it possible to solve the problem of consumption and peeling of a coating layer.

Generally, kitchen containers such as various pots, frying pans, rice cookers, rice bins, coppels, cups and the like are mainly made of materials such as stainless steel or aluminum alloy.

Generally, stainless steel is used in consideration of durability. However, the stainless steel has a heavy weight and low thermal conductivity. In order to compensate this, stainless steel is used as a lightweight aluminum alloy There is a problem in that scratches are likely to be generated by a light impact from the outside and aluminum which is easily corroded or eluted due to such scratches is absorbed and accumulated in the human body and may be harmful to the human body.

Therefore, studies have been actively conducted to utilize a magnesium alloy material, which is lighter than an aluminum material and harmless to the human body, as a material of a kitchen container, and there are Patent Documents 1 and 2 as related prior arts.

Furthermore, recently, a coating layer made of Teflon or ceramics on the inner surface of a kitchen container using a magnesium alloy material not only prevents the contents of foods and the like from adhering thereto, but also improves scratch resistance and durability.

However, in the case of a kitchen container made of a magnesium alloy as described above, since the thermal conductivity is so excellent, the inner surface tends to wear and peel off the coating layer relatively quickly, which causes deterioration in scratch resistance and durability there was.

In recent years, the induction range has been increasingly used as a cooking appliance replacing a conventional gas stove or an electric stove. As for the operation principle of the induction cooking stove, if current is supplied to the coil under the stove top plate When a magnetic force line is generated in the coil and the magnetic force line passes through the bottom of the cooking device placed on the upper plate, a swirling current is generated by a magnetic component (for example, iron component) included in the material of the cooking device. In this way, the eddy current generated at the bottom of the cooking appliance causes the heating only in the cooking device itself, so induction heating occurs in which only the cooking appliance is heated without the heating of the cooking stove.

Therefore, when the cooker is heated, the heating is stopped immediately, and even if the top plate is touched by hand, it is not hot, and energy is generated only at the portion where the cooking appliance touches.

In order to use the induction cooking appliance as described above, a metal having a magnetic component should be formed integrally on the bottom surface of the cooking utensil. However, in the case of the kitchen container made of the magnesium alloy, There was no problem.

Patent Document 1: Korean Patent Registration No. 10-0415876 "Kitchen container and manufacturing method thereof" Patent Document 2: Korean Patent Laid-Open Publication No. 10-2012-0138061 "Kitchen container of refractory material &

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a kitchen container made of a magnesium alloy material, which can be used in an induction cooking stove by applying a magnetic plate made of stainless steel to a bottom surface of a kitchen container, It is possible to prevent the temperature from excessively increasing during use, thereby solving the consumption or peeling problem of the coating layer.

On the other hand, since the magnesium alloy can be oxidized when the dissimilar materials (magnesium alloy and stainless steel) are bonded as described above, the aluminum foil is placed between the outer bottom surface of the kitchen container made of different materials and the magnetic plate, The other task is to make it possible.

In the case of applying the magnetic plate made of stainless steel to the outer bottom surface of the magnesium alloy material of the magnesium alloy material, the protrusion is formed on the outer bottom surface of the kitchen container, the insertion groove is formed in the magnetic plate, To be joined in a rivet shape by pressing and bonding.

The present invention relates to a container body (10) made of a magnesium alloy material;

An aluminum foil 20 provided on an outer bottom surface of the container body 10; And

And a magnetic plate (30) fitted to the outer bottom surface of the container body (10) provided with the aluminum foil (20). The magnesium container of the magnesium alloy material usable in the induction cooking stove This is the solution to the problem.

Here, the container body 10 and the magnetic plate 30,

A protrusion 10a is formed on the outer bottom surface of the container body 10,

An insertion groove 30a is formed in the magnetic plate 30,

The protrusion 10a is fitted into the insertion groove 30a and is then compressed,

It is preferable that the protrusion 10 is coupled to the insertion groove 30a in the form of a rivet.

In addition, the magnetic plate 30 is preferably made of stainless steel.

According to another aspect of the present invention, there is provided a method of manufacturing a kitchen container of a magnesium alloy material usable in an induction cooking stove,

(S100) of a container body 10 made of a magnesium alloy material and having a protrusion 10a formed on an outer bottom surface thereof;

Placing an aluminum foil (20) on an outer bottom surface of the container body (S200);

A step S300 of placing a magnetic plate 30 made of stainless steel and having an insertion groove 30a at a position corresponding to the protrusion 10a on the lower surface of the aluminum foil 20; And

And pressing the container body 10, the aluminum foil 20 and the magnetic plate 30 at a temperature of 50 to 300 DEG C (S400)

The protrusions 10a of the container body 10 are fitted into the insertion grooves 30a of the magnetic plate 30 and then are pressed and joined to the insertion grooves 30a in a rivet shape. , Another method of manufacturing a kitchen container made of a magnesium alloy material that can be used in an induction cooking stove is another solution to the problem.

The present invention uses a magnetic plate made of stainless steel on a bottom surface of a kitchen container of a magnesium alloy material so that a kitchen container made of a magnesium alloy material can be used in an induction cooking range as well as an excessive rise in temperature And it is possible to solve the problems of consumption and peeling of the coating layer.

1 is an exploded perspective view of a kitchen container according to the present invention;
2 is a cross-sectional view of a kitchen container according to the present invention
3 is a flowchart showing a method of manufacturing a kitchen container according to the present invention.

In order to achieve the above-mentioned effects, the present invention relates to a method of manufacturing a kitchen container of a magnesium alloy material usable in an induction cooking stove, wherein only a part necessary for understanding the technical structure of the present invention is explained, It should be noted that it will be omitted so as not to disturb the gist.

Hereinafter, the construction of a magnesium container of a magnesium alloy material usable in the induction cooking stove according to the present invention will be described in detail.

FIG. 1 is an exploded perspective view of a kitchen container according to the present invention. FIG. 2 is a cross-sectional view of a kitchen container according to the present invention. The present invention includes a container body 10, an aluminum foil 20, and a magnetic plate 30 .

1 and 2, a protrusion 10a is formed on an outer bottom surface of the container body 10, and the protrusion 10a is formed on the outer surface of the magnetic plate 10a, Is fitted to the insertion groove 30a of the second housing 30 and is then joined in a rivet shape by pressing.

At this time, the container body 10 is made of a magnesium alloy material. The magnesium alloy is not limited to a specific composition or type, but can be applied to all types and compositions of magnesium alloys used in ordinary kitchen containers. In particular, Magnesium alloy (95.6 to 97% by weight of magnesium, 2.4 to 3.0% by weight of aluminum, and zinc (by weight) of magnesium 0.3 to 0.7% by weight and calcium or calcium oxide 0.3 to 0.7% by weight).

On the other hand, the inside surface of the container body 10 may be coated with Teflon or ceramics, which corresponds to a known coating type and can be selectively applied in consideration of the usage and environment of the kitchen container A detailed description thereof will be omitted.

The aluminum foil 20 is provided to prevent oxidation of the magnesium alloy due to bonding between dissimilar materials. The container body 10 is made of a magnesium alloy and the magnetic plate 30 to be described later is made of stainless steel The aluminum foil 20 is placed between the container body 10 and the magnetic plate 30 to oxidize the aluminum foil 20 as shown in FIGS. 1 and 2 because the container body 10 can be oxidized prevent.

The aluminum foil 20 is placed between the container body 10 and a magnetic plate 30 to be described later. Specifically, as shown in FIG. 2, And is disposed on the contact portion between the protrusion 10a and the magnetic plate 30.

The magnetic plate 30 is made of magnetic stainless steel and can be used in an induction cooking stove. The magnetic plate 30 prevents the temperature from rising excessively, thereby solving the consumption and peeling problems of the coating layer. The insertion groove 30a is formed at a position corresponding to the projection 10a of the projection 10a.

That is, the protrusion 10a of the container main body 10 is fitted into the insertion groove 30a of the magnetic plate 30 and is then pressed so that the protrusion 10a is coupled to the insertion groove 30a in a rivet shape .

Therefore, when a magnetic force line is generated in the coil under the induction cooking zone and the magnetic force lines pass through the bottom of the kitchen vessel according to the present invention placed on the upper plate, the eddy current is generated by the magnetic plate 30, So that heat is generated only in the kitchen container itself, without the overheating of the cooking stove.

Next, a method of manufacturing a kitchen container of a magnesium alloy material usable in the induction cooking stove according to the present invention will be described in detail.

FIG. 3 is a flow chart illustrating a method of manufacturing a kitchen container according to the present invention. The present invention includes a step S100 of positioning the container body 10, a step S200 of positioning the aluminum foil 20, a step of positioning the magnetic plate 30 S300) and a pressing step (S400).

Specifically, after the protrusion 10a is formed on the outer bottom surface in step S100 and the container body 10 made of the magnesium alloy material is positioned, the aluminum foil 20 (20) is attached to the outer bottom surface of the container body 10 The magnetic plate 30 made of stainless steel is placed on the lower surface of the aluminum foil 20 in the position corresponding to the protrusion 10a in step S300, The aluminum foil 20 and the magnetic plate 30 are bonded to each other at a temperature of 50 to 300 DEG C so that the protrusion 10a of the container body 10 is pressed against the magnetic plate 30 so that the protrusions 10a are connected to the magnetic plate 30 in a rivet shape to manufacture a magnesium alloy container usable in the induction cooking stove.

At this time, when the pressing condition is out of the range of 50 to 300 ° C, the container body 10, the aluminum foil 20 and the magnetic plate 30 may not be coupled to each other. In addition, the pressing force at the time of pressing is not particularly limited, because it is very variable depending on the type, thickness, and application of the kitchen container.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation in the present invention. It will be possible.

10: container body 10a: projection
20: aluminum foil 30: magnetic plate
30a: insertion groove

Claims (4)

delete delete delete A method of manufacturing a kitchen container of a magnesium alloy material usable in an induction cooking stove,
(S100) of a container body 10 made of a magnesium alloy material and having a protrusion 10a formed on an outer bottom surface thereof;
Placing an aluminum foil (20) on an outer bottom surface of the container body (S200);
A step S300 of placing a magnetic plate 30 made of stainless steel and having an insertion groove 30a at a position corresponding to the protrusion 10a on the lower surface of the aluminum foil 20; And
And pressing the container body 10, the aluminum foil 20 and the magnetic plate 30 at a temperature of 50 to 300 DEG C (S400)
The protrusions 10a of the container body 10 are fitted into the insertion grooves 30a of the magnetic plate 30 and then are pressed and joined to the insertion grooves 30a in a rivet shape. , A method of manufacturing a kitchen container of a magnesium alloy material usable in an induction range.

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