KR102058599B1 - Ceramic pot for induction heating device having anti-thermal shock - Google Patents

Abstract

The present invention discloses a ceramic container dedicated to induction heating for mitigating thermal shock caused by temperature deviation by heating to the side as well as the bottom surface when the induction stove is heated. The present invention is a container body made of a ceramic material; A plurality of anti-slip portions formed along a circumference of the bottom surface of the container body and protruded downward by a predetermined height; And an induction heating-sensitive member formed on the bottom surface of the container body and extending to the side of the container body to induce heating.

Description

CERAMIC POT FOR INDUCTION HEATING DEVICE HAVING ANTI-THERMAL SHOCK}

The present invention relates to a ceramic container dedicated to induction heating for mitigating thermal shock, and more particularly, to induction heating only ceramic for relieving thermal shock due to temperature deviations by heating to the side as well as the bottom surface when heating an induction stove. It's about courage.

In general, an induction range used as a kitchen heater refers to an induction heating (IH) type cooking appliance, and the IH method refers to an electromagnetic induction heating type cooking appliance.

This induction stove uses the principle that when a high voltage is applied to the coil under the top plate, a magnetic field is induced around the coil and the metal body in the material of the container is heated when the magnetic field passes through the bottom of the cooking vessel, which is in the influence of the magnetic field. will be.

Since the induction stove only heats the metal body, induction heating occurs in which only the contents of the upper portion of the metal body become hot without the baking of the top plate. Therefore, when the container is lifted out of the influence of the magnetic field of the induction stove, the heating of the cooking vessel immediately stops, energy is generated only in the area where the container touches the energy efficiency is high.

Induction stoves do not generate any sparks, so there is no risk of fire, and because they do not burn fuels such as gas, there is no generation of combustion gas containing carbon monoxide. In particular, the induction stove is a kitchen heater that can be used very safely because the induction stove only heats the container in contact with the metal plate and thus does not cause burns even when touching the top plate.

In order to cook food using such an induction stove, the cooking vessel itself must contain iron (Fe) so that it can be induction heated by the magnetic field generated by the induction stove. In the case of glass and ceramics, that is, a ceramic cooking vessel, there was a problem that its use is impossible.

Therefore, in order to solve this problem, a separate metal sensitive plate is attached to the bottom of the cooking vessel, forming a recessed groove in the bottom bottom of the cooking vessel and inserting a metal sensitive plate in the recessed groove or the bottom of the bottom of the cooking vessel. By attaching the induction plate formed on the projection, there was a problem that the groove between the inlet groove and the induction plate of the cooking vessel is not firmly bonded or easily falls as the thermal expansion coefficient is different as a different material. In addition, the weight of the sensitizing plate is not only heavy and beautiful appearance, there is a problem in that it is difficult to attach the sensitizing plate in the case of ceramic cooking containers (for example, casserole) such as heat-resistant glass and ceramics.

Therefore, conventionally, a silver transfer paper may be attached to a lower portion of a ceramic cooking vessel (tasserbung) to be used for an induction stove.

However, when such silver transfer paper (sensitizing member) inductively heats a ceramic cooking vessel (casserole) attached to the bottom, the heated heat concentrates only on the bottom surface of the ceramic cooking vessel (i.e., a sidewall made of ceramic) As a result, the heat balance of the entire container (particularly the bottom and the sides) is easily broken, which causes thermal shocks in the entire container due to the thermal deviation of the bottom and the sides and the bottom of the container. In this case, a ceramic container such as a casserole has a problem of causing cracking or damage of the container by being vulnerable to thermal shock due to the characteristics of the ceramic.

The present invention was devised to solve the above problems, and the object of the present invention is to provide a ceramic container dedicated for induction heating to alleviate thermal shock due to temperature deviations by heating to the side as well as the bottom surface when the induction stove is heated. do.

According to an embodiment of the present invention for achieving the above object, the container body made of a ceramic material; A plurality of anti-slip portions formed along a circumference of the bottom surface of the container body and protruded downward by a predetermined height; And an induction heating sensation member formed on the bottom surface of the container body and extending to the side of the container body to induce heating.

It is formed between each of the non-slip portion and bent smoothly from the bottom surface of the container body to the top, it may be made including a heat transfer portion formed by a predetermined height to the side of the container body.

The hot air transfer portion may be formed in a concave shape than the side of the container body.

At least a portion of the heat transfer part may include the induction heating sensitive member.

The heat transfer part may be formed to be wider toward the top.

The step formed between the hot air transfer unit and the side of the container body may be formed to be larger toward the lower side of the side of the container body. .

According to the present invention, a silver transfer paper (induction heating sensitive member) is formed not only on the bottom but also on the side of the induction container used in the induction stove. It has a relaxing effect.

1 is a perspective view showing a container body of a ceramic container for induction heating only for thermal shock relief according to an embodiment of the present invention;
Figure 2 is a bottom view of the container body of the induction heating only ceramic container for thermal shock relief according to an embodiment of the present invention,
Figure 3 is a side view of the induction heating only ceramic container for thermal shock relief according to an embodiment of the present invention,
Figure 4 is a side view of the induction heating only ceramic container for thermal shock relief according to another embodiment of the present invention,
5 is a side view of a ceramic container for induction heating only for thermal shock relieving according to another embodiment of the present invention, and
6 is a bottom view of FIG. 5.

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

As shown in Figs. 1 and 2, the present invention is applied to a ceramic vessel represented by a conventional pot. Specifically, the container body 10 may be a ceramic container (including a container such as ceramics or earthenware) may be applied.

In addition, the container bottom surface 13 is made of a flat surface, the bottom surface is formed with a non-slip portion 14 is formed at regular intervals to protrude downward. In addition, the hot air delivery unit 20 is formed on the container side 12 at regular intervals. In this case, the silver transfer paper 30 is mounted on the heat transfer part 20 as the induction heating sensitive member as shown in FIG. 3. At this time, the silver transfer paper 30 is formed from a container bottom surface 13 to a predetermined height of the container side surface 12 as shown in FIG.

Accordingly, induction heating by the silver transfer paper 30 mounted on the container side 12 together with induction heating through the container bottom surface 13 during induction heating may be performed.

On the other hand, the container bottom surface 13 of the container body 10 has a structure that is formed in a circular shape and a plurality of non-slip 14 protrudes along the circumferential direction. This anti-slip 14 is provided to prevent the container from slipping due to condensation or moisture generated due to the temperature difference between the container bottom surface 13 and the container side 12 before and after using the container.

On the other hand, the heat transfer unit 20 is composed of a first gradient unit 21 and the second gradient unit 22. In detail, the hot air transfer unit 20 has no step on the plane at the bottom of the container 13, and a first gradient part 21 is formed along the curved surface 23 to the container side 12 by a predetermined height. In addition, the second gradient part 22 is formed to extend further upward from the first gradient part 21 based on the boundary line.

At this time, the first gradient portion 21 and the second gradient portion 22 is preferably formed to have a shape that is wider toward the upper portion, and is formed more concave than the other container side surface 12, and also the container side surface 12 ) And the step between the heat transfer unit 20 is preferably formed larger toward the bottom. In this case, the silver transfer paper 30 may be formed in the areas of the first gradient part 21 and the second gradient part 22 as the first surface 31 and the second surface 32, respectively.

In this way, the heat transfer portion 20 is formed to be wider toward the top has a shape that widens toward the top so that the heat rising from the container bottom surface 13 is evenly transferred to the container side (12).

In addition, the first gradient portion 21 and the vessel bottom surface 13 of the heat transfer portion 20 are not smoothly stepped without any step so that the heat rising from the vessel bottom surface 13 is not impeded to the side surface. It is formed to lead to.

On the contrary, the non-slip part 14, which is another part of the container bottom surface 13, has a shape projecting downward, so that the container bottom surface 13 is formed to be spaced apart from the heating surface to uniformly heat up the heating surface. It is desirable to ensure that the delivery.

In addition, the induction heating is also performed on the side of the container by the silver transfer paper 30 mounted on the side of the container 12, so that the heating can be performed evenly to the side of the container as well as the bottom of the container.

When the container of the present invention configured as described above is heated by a hot plate, the anti-slip portion 14 serves to lift the bottom surface 13 of the container body 10 to a predetermined height on a flat heating surface.

In addition, the heat rising from the heating surface may be transferred along the container bottom surface 13 and moved along the smoke delivery unit 20 to be uniformly transmitted to the entire container side surface 12. At this time, the heat transfer part 20 serves to prevent the crack or damage of the container by primarily reducing the temperature shock caused by the heat deviation by reducing the temperature difference between the container bottom surface 13 and the container side surface (12).

In addition, it functions to vaporize and remove the remaining water by heat transferred to prevent the container from slipping due to water or water vapor present on the container bottom surface 13 or the container body 10.

Meanwhile, as illustrated in FIG. 4, the silver transfer paper 30 may be formed to cover not only the bottom of the container 13 but also a part of the container side 12, and as shown in FIGS. 5 and 6. Silver may be made by mounting the transfer paper 30. In addition, the heat transfer part 20 may be formed in the form of the recess 15.

Although the present invention has been illustrated and described with respect to specific embodiments thereof, the present invention is not limited to the above-described embodiments, and a person skilled in the art to which the present invention pertains has the present invention described in the following claims. Various changes may be made without departing from the spirit of the technical idea of the invention.

10: container body 11: handle
12: container side 14: slipper
20: heat transfer unit 21: the first gradient unit
22: second gradient section 23: the curved surface
30: Silver Transfer Paper 31: First Page
32: second side

Claims (7)

A container body made of a ceramic material;
A plurality of anti-slip portions formed along a circumference of the bottom surface of the container body and protruded downward by a predetermined height; And
An induction heating response member formed on a bottom surface of the container body and extending to a side surface of the container body to induce heating; And
It is formed between each of the non-slip portion and is bent smoothly from the bottom surface of the container body to the top, and includes a heat transfer portion formed by a certain height to the side of the container body,
A step is formed between the heat transfer unit and the side of the container body, wherein the step is a ceramic container dedicated to induction heating for thermal shock, characterized in that formed toward the lower portion of the side of the container body. delete The method of claim 1,
Induction heating dedicated ceramic container for thermal shock relief, characterized in that the heat transfer portion is formed in a concave than the side of the container body. The method of claim 3,
At least a portion of the heat transfer unit includes a ceramic container for induction heating for thermal shock relief, characterized in that the induction heating sensitive member is included. The method of claim 4, wherein
The hot air transfer unit, the ceramic container for induction heating for thermal shock relief, characterized in that the width is formed to be wider toward the top. delete The method of claim 1,
The induction heating sensitive member is a ceramic container for induction heating for thermal shock alleviating, characterized in that the silver (지) transfer paper.

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