JP3117693U - Heating panel for electromagnetic cooker - Google Patents

Abstract

To provide a heating plate for an electromagnetic cooker that can be used for a long time without being thermally deformed even if it is used repeatedly, can be manufactured easily and inexpensively, has excellent heat retention, and can reduce power consumption.
A heating plate 1 for electromagnetic cooking according to the present invention is a heating plate for an electromagnetic cooking device that is placed on a top plate of an electromagnetic cooking device and is interposed between cooking appliances. The heat generating board 1 for a machine has a heat-resistant ceramic base 2 or a heat-resistant glass base, and a silver film 3 stretched on the surface of the heat-resistant ceramic base 2 or the heat-resistant glass base.
[Selection] Figure 1

Description

  The present invention relates to a heating plate for an electromagnetic cooker that is used by being interposed between a top plate of an electromagnetic cooker and a cooking utensil.

  In recent years, electromagnetic cookers that do not use an open flame tend to be widely used. This electromagnetic cooker generates alternating magnetic field lines, generates eddy currents in the magnetic body of the cooking utensil placed on the top plate, and generates heat.

  By the way, a cooking utensil that can be heated by an electromagnetic cooker must be provided with a magnetic body for generating an eddy current at the bottom or the like, and such a cooking utensil is expensive and is in a widespread stage. Therefore, there is not enough product lineup in terms of design. In addition, there is a problem that the cookware already purchased cannot be used.

As a solution to such problems, there has been proposed an electromagnetic cooker plate that includes a heating plate that generates heat by electromagnetic induction, such as iron, and is interposed between the top plate of an electromagnetic cooker and a cooking utensil. Yes.
JP 2004-192980 A

  However, a material made of a metal material such as iron is deformed and becomes difficult to use as it repeatedly generates heat. In addition, a process for preventing thermal deformation is required, and accordingly, the manufacturing process becomes complicated and the cost is increased. Furthermore, since the metal material has a small specific heat, it lacks heat retention.

  Therefore, the problem of the present invention is to provide a heating plate for an electromagnetic cooker that can be used for a long time without being thermally deformed even after repeated use, can be manufactured easily and inexpensively, has excellent heat retention, and can reduce power consumption. It is to provide.

  The heating plate for an electromagnetic cooker according to the present invention is characterized mainly by having a heat-resistant ceramic base and a silver film stretched on the surface of the heat-resistant ceramic base. The heating plate for an electromagnetic cooker according to the present invention is mainly characterized by having a heat-resistant glass base and a silver film stretched on the surface of the heat-resistant glass base.

According to the first aspect of the present invention, there is an advantage that it can be used for a long time without being thermally deformed even if it is used repeatedly, it can be manufactured easily and inexpensively, it has excellent heat retention and can reduce power consumption.
According to the invention of claim 2, in addition to the effect of claim 1, there is an advantage that it is easier to manufacture and can be manufactured at low cost.
According to the invention of claim 3, in addition to the effect of claim 1 or 2, there is an advantage that it becomes a heating plate for an electromagnetic cooker that is not easily broken by an impact such as dropping.
According to the invention of claim 4, there is an advantage that it can be used for a long time without being thermally deformed even if it is used repeatedly, it can be manufactured easily and inexpensively, it has excellent heat retention and can reduce power consumption.

  The heating plate for electromagnetic cooking according to the present invention comprises a heat-resistant ceramic base or a heat-resistant glass base and a silver film stretched on the surface of the heat-resistant ceramic base or the heat-resistant glass base. A heating plate for an electromagnetic cooker has been realized that can be used for a long period of time, can be manufactured easily and inexpensively, has excellent heat retention, and can reduce power consumption.

  1 is a plan view of an embodiment of the heating plate for electromagnetic cooking according to the present invention, FIG. 2 is a side view of the heating plate for electromagnetic cooking shown in FIG. 1, and FIG. 3 is an electromagnetic cooking shown in FIG. 4 is a plan view for explaining how to use the heating plate for cooking, and FIG. 4 is a side view for explaining how to use the heating plate for electromagnetic cooking shown in FIG.

  The heating plate 1 for electromagnetic cooking according to this embodiment is a heating plate for an electromagnetic cooker that is placed on a top plate of an electromagnetic cooker and used between the cooking utensils. 1 has a heat-resistant ceramic substrate 2 and a silver film 3 stretched on the surface of the heat-resistant ceramic substrate 2. Hereinafter, each configuration will be described in detail.

  The heating plate 1 for electromagnetic cooking according to the present invention is placed on the top plate of the electromagnetic cooker 10 as shown in FIG. 3, and between the electromagnetic cooker 10 and the cooking utensil 20 as shown in FIG. It is used by interposing.

  The heat-resistant ceramic base 2 is a part constituting the main body of the heating plate 1 for an electromagnetic cooker. In this embodiment, as shown in FIG. 1 or FIG. However, the form of the heat-resistant ceramic substrate is not limited to this, and may be a shape other than a circle such as a rectangle or a polygon in a plan view. Moreover, it is not limited to a mere flat plate, You may provide the hill which has some height in the lower surface of a flat plate.

  The heat-resistant ceramic base 2 is formed with a thickness of about 3 mm, which makes it easy to generate heat, has an appropriate thickness and is easy to grip, and is a lightweight and easy to handle heating plate for electromagnetic cooking. ing. However, the thickness of the heat-resistant ceramic substrate is not limited to this, and may be formed in any dimension, but is preferably about 6 mm or less.

  The material for forming the heat-resistant ceramic substrate 2 is preferably a material for heat-resistant ceramics such as earthen pots, and contains general heat-resistant materials such as petalite and cordierite in general ceramic materials such as pottery stone, feldspar and clay. Kneaded and kneaded can be used.

  As shown in FIG. 1 or 2, a silver film 3 is stretched on the surface of the heat-resistant ceramic substrate 2. And when this silver membrane | film | coat 3 acts as a magnetic body and the electromagnetic cooker 10 raises an alternating magnetic force line, an eddy current will generate | occur | produce in the silver membrane | film | coat 3, and it will be comprised so that the base 2 made from heat-resistant ceramics may heat | fever-generate. .

  The silver film 3 is stretched by applying a silver paste made of metallic silver powder, glass frit, binder, etc. to the surface of the heat-resistant ceramic substrate 2 by applying, spraying or printing, and baking it. it can.

  In this embodiment, the silver film 3 is formed by silver transfer. Specifically, in this embodiment, the surface of a transfer paper sheet coated with water-based glue is screen-printed so that the thickness after baking the silver paste is 20 to 120 μm, and the transfer acrylic system is formed on the upper surface. The silver film 3 is formed on the surface of the heat-resistant ceramic substrate 2 by pasting and baking the silver transfer paper produced by printing the film on the surface of the heat-resistant ceramic substrate 2.

Below, the manufacturing method of the heating panel 1 for electromagnetic cooking of this invention is demonstrated.
First, a ceramic material is prepared by mixing petalite into porcelain stone, feldspar and clay. Next, a base material made of heat-resistant ceramics in a desired form, in this embodiment, is formed using the ceramic raw material. And after drying the base material made from heat-resistant ceramics, the glaze containing a black pigment is apply | coated to the surface, and after drying, it heats up to about 1250 degreeC and bakes. Further, a silver film 3 is formed on the surface of the fired heat-resistant ceramic substrate 2 by using silver transfer paper (Narumi Ceramics Co., Ltd.). Specifically, the silver film constituent is slid onto the surface of the heat-resistant ceramic substrate 2 using lukewarm water, water / air bubbles are removed with a rubber spatula, etc., and then dried. After drying, baking in a picture kiln is performed at about 800 to 840 ° C. for about 10 minutes to form the silver film 3, and the heating plate 1 for electromagnetic cooking of the present invention is manufactured.

Furthermore, the usage method of the heating plate 1 for electromagnetic cooking of this invention is demonstrated.
In order to use the heating plate 1 for electromagnetic cooking of the present invention, first, the heating plate 1 for electromagnetic cooking is placed on the top plate of the electromagnetic cooking device 10 as shown in FIG. At this time, it is preferable that the silver coating 3 is disposed on the upper surface side. However, as in this embodiment, if the heat-resistant ceramic substrate 2 is formed thin, the surface on which the silver coating 3 is stretched. There is no difference in heat generation from the back surface on which the silver coating 3 is not stretched, and the silver coating 3 may be disposed on the lower surface side.

  Next, as shown in FIG. 4, a cooking utensil 20 such as a pan is placed on the upper surface thereof. In this state, when the heating switch of the electromagnetic cooker 10 is turned on, the heating plate 1 for electromagnetic cooking generates heat, and the cooking utensil 20 is heated with the generated heat. At this time, the heating plate 1 for electromagnetic cooking according to the present invention can be used semi-permanently without being thermally deformed because the main body is formed of heat-resistant ceramics. Moreover, since it is excellent in heat retention, it can also be used for heat insulation of containers. Furthermore, even cooking utensils that are not compatible with an electromagnetic cooker can be heated simply by placing them on the heating plate 1 for electromagnetic cooking, and cleaning after cooking is not necessary unless they become dirty due to spillage or the like. Longer use is possible without wear of the coating site. In addition, even if the bottom of the cooking utensil has a diameter of about 120 mm or less and the bottom is magnetically treated, even if the cooking utensil does not show an exothermic reaction due to the coil arrangement problem of the electromagnetic cooking appliance, If it is mounted on the heating plate 1 for use, it can be heated.

  The heating plate 1 for electromagnetic cooking of the present invention has a heat-resistant ceramic base made of heat-resistant earthenware, but the heat-resistant ceramic base is made of fine ceramics so that it will not be damaged even if it receives an impact due to dropping or the like. The heating plate for electromagnetic cooking of the present invention may be formed of heat resistant glass.

It is a top view of one Example of the heating panel for electromagnetic cooking of the present invention. It is a side view of the heating plate for electromagnetic cooking shown in FIG. It is a top view for demonstrating the usage method of the heating plate for electromagnetic cooking shown in FIG. FIG. 2 is a side view for explaining how to use the heating plate for electromagnetic cooking shown in FIG. 1.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Heating board for electromagnetic cookers 2 Heat-resistant ceramic base 3 Silver film 10 Electromagnetic cooker 20 Cooking utensils

Claims (4)

A heating plate for an electromagnetic cooker that is placed on a top plate of an electromagnetic cooker and is interposed between cooking appliances, the heating plate for the electromagnetic cooker comprising a heat-resistant ceramic base and the heat-resistant ceramic A heating plate for electromagnetic cooking, characterized by having a silver film stretched on the surface of a base made of steel. The heating plate for electromagnetic cooking according to claim 1, wherein the silver film is formed by silver transfer. The heating plate for electromagnetic cooking according to claim 1, wherein the heat-resistant ceramic substrate is formed of fine ceramics. A heating plate for an electromagnetic cooker that is placed on a top plate of an electromagnetic cooker and is interposed between cooking utensils, the heating plate for the electromagnetic cooker comprising a heat-resistant glass base and the heat-resistant glass A heating plate for electromagnetic cooking, characterized by having a silver film stretched on the surface of a base made of steel.

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