KR200388618Y1 - Inner bowl structure of electric pressure rice pot - Google Patents

Abstract

The inner cylinder structure of the disclosed electric pressure cooker is a multi-stage structure in which an aluminum layer and a stainless layer are alternately stacked, and thus has excellent heat retention, and improves the heat transfer rate from the heating coil embedded in the electric pressure cooker by removing the conventional Teflon coating. Economical effect while reducing power consumption.

Description

Inner bowl structure of electric pressure rice pot

The present invention relates to the inner cylinder structure of the electric pressure cooker.

In general, the inner cylinder of the pressure cooker is a container in which rice and water are accommodated to make rice, and is accommodated inside the outer cylinder of the electric pressure cooker. These inner cylinders include a hot plate method and an electric method, and the hot plate method is a heating coil installed at the bottom of the electric pressure cooker to heat the bottom of the inner cylinder, and the electric method is provided with a heating coil to the side of the electric pressure cooker. It heats not only the bottom but also the sides. Electricity flows through the heating coil in this electric system, and a magnetic field is formed and heated by this electricity.

This conventional electrical inner cylinder structure is coated with Teflon 2 to 3 times in a double structure of aluminum and stainless steel.

However, the double structure of aluminum and stainless steel has a problem in that heat is easily deprived of heat when the holding force of the heat transmitted from the heating coil is dropped and the heating is stopped.

In addition, Teflon coated on the surface of the double structure of aluminum and stainless steel forms a layer that prevents heat transfer from the heating coil to the double structure of aluminum and stainless steel, which consumes more power and thus is uneconomical.

The present invention was devised to solve the above problems, and its object is to provide an improved inner cylinder structure that can change the inner cylinder structure to improve the heat retention of the inner cylinder and improve the conductivity of heat transferred from the heating coil. .

The inner cylinder structure of the electric pressure cooker of the present invention for achieving the above object is made of a multi-stage heating layer to increase the heat transfer coefficient.

Here, the multi-stage heating layer is preferably a laminate of heterogeneous metal material alternately.

In addition, the heterogeneous metal material is preferably aluminum and stainless steel.

The multi-stage heating layer may include an inner aluminum layer, an inner stainless layer laminated on the inner aluminum layer, an outer aluminum layer laminated on the inner stainless layer, and an outer stainless layer laminated on the outer aluminum layer. desirable.

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

1 is a cross-sectional view showing the inner cylinder structure of the electric pressure cooker according to an embodiment of the present invention.

Referring to the drawings, the inner cylinder 10 of the electric pressure cooker of the present invention is composed of a multi-stage heating layer (15).

The multi-stage heating layer 15 is formed by alternately stacking heterogeneous metal materials, and the heterogeneous metal materials are aluminum and stainless steel having high thermal conductivity coefficients.

In an embodiment of the present invention, the multi-stage heating layer 15 includes an inner aluminum layer 11, an inner stainless layer 12, an outer aluminum layer 13, and an outer stainless steel from an inner portion in which rice is accommodated. It is possible to have a quadruple structure in which the layers 14 are sequentially stacked. Here, the aluminum layers 11 and 13 and the stainless layers 12 and 14 are materials having excellent thermal conductivity and heat retention.

The inner cylinder 10 structure of the electric pressure cooker having such a structure is superior in heat retention as compared to the double structure of the conventional aluminum layer and stainless layer. That is, both the inner aluminum layer 11, the inner stainless layer 12, the outer aluminum layer 13, and the outer stainless layer 14 hold heat transferred from a heating coil (not shown) built in the electric pressure cooker. Therefore, even if the inner aluminum layer 11 and the outer stainless layer 14 in contact with the outside easily lose heat to the outside, the inner stainless layer 12 provided between the inner aluminum layer 11 and the outer stainless layer 14 is provided. Since the outer aluminum layer 13 has heat, the amount of heat supplied to cook rice or supplied to keep warm is reduced than before, thereby reducing power consumption.

And, by removing the conventional Teflon coating, the heat transfer rate from the heating coil embedded in the electric pressure cooker increases, so that the heat supply can be reduced by that it can provide an effect of reducing the power consumption.

On the other hand, it has a quadruple structure of the aluminum layer and the stainless layer can also increase the strength of the inner cylinder.

As described above, the inner cylinder structure of the electric pressure cooker according to the present invention is a quadruple structure in which an aluminum layer and a stainless layer are alternately stacked, and thus has excellent heat retention, and removes the conventional Teflon coating and heats the electric pressure cooker. It improves the heat transfer rate from the coil, reducing the power consumption and providing economical effect.

It is understood that the invention is not limited to that described above and illustrated in the drawings and that many more modifications and variations are possible within the scope of the following claims.

1 is a cross-sectional view showing the inner cylinder structure of the electric pressure cooker according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10 ... inner cylinder 11 ... inner aluminum layer

12 ... inner stainless layer 13 ... outer aluminum layer

14 ... outer stainless layer

Claims (4)

In the electric pressure cooker consisting of an inner cylinder, an outer cylinder for accommodating the inner cylinder, The inner cylinder is an inner cylinder structure of the electric pressure cooker, characterized in that consisting of a multi-stage heating layer to increase the heat transfer coefficient. The method of claim 1, The multi-stage heating layer is an inner cylinder structure of an electric pressure cooker, characterized in that the heterogeneous metal material is alternately stacked. The method of claim 2, The heterogeneous metal material is the inner cylinder structure of the electric pressure cooker, characterized in that aluminum and stainless steel. The method of claim 2, The multi-stage heating layer includes an inner aluminum layer, an inner stainless layer laminated on the inner aluminum layer, an outer aluminum layer laminated on the inner stainless layer, and an outer stainless layer laminated on the outer aluminum layer. Inner cylinder structure of electric pressure cooker.