JPH08114329A - Heat generating method and magnesium range - Google Patents

Abstract

PURPOSE: To obtain heat for cooking or room heating, which is big in the generating mount of heat without accompanying any generation of carbon monoxide, by heating a lid employing molten magnesium. CONSTITUTION: A heat generating method and a magnesium range is constituted so that a lid 5, provided on a vessel 1, is heated by heat from molten magnesium 6 received in the vessel 1 while heating cooking is effected by putting a kettle, a food or the like on the lid 5 or a room can be heated by the heat of the lid 5.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a magnesium stove, and more particularly to heating a lid with molten magnesium to obtain heat for cooking or heating with a large calorific value without generation of carbon monoxide. Regarding new improvements in.

[0002]

2. Description of the Related Art Generally, gas, electricity, charcoal, etc. have been used as a stove of this type which has been used conventionally.

[0003]

Since the conventional stove is configured as described above, there are the following problems. That is, in the case of gas, although it has excellent portability, harmful carbon monoxide and the like were generated. Also, in the case of electricity, since it requires a power source, there is no problem indoors,
It was extremely inconvenient outdoors. In the case of a charcoal fire, the amount of heat generated (C + O ₂
Has a small amount of CO ₂ +93.7 Kcal), and its intended use was limited. In addition, since charcoal fire has an irregular shape, the charcoal was not suitable for use in mountain climbing and the like.

The present invention has been made in order to solve the above-mentioned problems, and in particular, the lid is heated by using molten magnesium, and the heating value is large for cooking or without generating carbon monoxide. An object is to provide a magnesium stove adapted to obtain heat for heating.

[0005]

A magnesium stove according to the present invention ignites magnesium contained in a container to generate molten magnesium, and by providing a lid on the container, the lid is heated by the molten magnesium. Is the way to do it.

More specifically, it is a method of adjusting the air supply to the molten magnesium in the container by using a valve.

The magnesium stove according to the present invention comprises a container having a recess for accommodating magnesium and a lid detachably attached to the upper opening of the container, and melts the magnesium to heat the lid. This is the configuration.

More specifically, the container is formed with an air inlet communicating with the recess.

More specifically, the lid is formed with an air inlet communicating with the recess.

More specifically, the air inlet is provided with a valve for adjusting the inflow amount of air.

[0011]

In the heat generation method and magnesium stove according to the present invention, when magnesium is accommodated in the recess of the container and the magnesium is ignited to form molten magnesium, the lid is provided on the container and the lid is heated by the molten magnesium. By using the heating lid as a heat source, cooking or heating can be performed. Further, after the lid is provided, the amount of heat as the heat source of the molten magnesium or the combustion duration thereof can be made variable by adjusting the air inflow amount by the opening degree of the valve. Note that the ash generated by the molten magnesium after use can be removed manually and the next heating can be performed by refilling with the next new magnesium.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A preferred embodiment of the magnesium stove according to the present invention will be described in detail below with reference to the drawings. In FIG. 1, reference numeral 1 indicates a bottomed type and an upper opening 2.
In addition, the heat-resistant container has a ring-shaped concave portion 3, and the bottom portion 3 is provided at the center of the concave portion 3 (at a position other than the center).
A cylindrical air inlet 4 is formed so as to penetrate through a, and a lid 5 having a U-shaped cross section is detachably provided in the upper opening 2. In addition, the lid 5 is used for the container 1.
Any of the case of mounting on the top, the case of bonding with a heat-resistant adhesive, the case of screwing through a screw portion, or the like can be adopted.

The upper end 4a of the air inlet 4 is maintained in non-contact with the back surface 5a of the lid 5 so that the air can communicate with the molten magnesium 6 in the recess 3. The lower end 4b of the air inlet 4 is located above the lower end 1a of the container 1, and the opening 4c of the lower end 4b is located.
Is configured not to be blocked.

Above the lower end 4b of the air inlet 4,
A valve 7 is provided for varying the amount of inflow of air from the opening 4c. In addition, the present invention is not limited to the above-mentioned configuration, and as another embodiment, when the opening 4c having a certain size is formed without using the valve 7, the bottom portion 3a is also used.
Is a deformed state in which a hole of a certain size is formed as the air inlet 4 in the upper portion of the side wall of the lid 5 or the container 1 without a hole and a certain amount of air is supplied into the concave portion 3 in various ways. It can also be configured as an example.

Next, a case where the above-mentioned configuration is actually used as a stove will be described. First, when the lid 5 is removed from the container 1 and the magnesium provided in the recess 3 is ignited by a known magnesium ribbon or the like, this magnesium becomes molten magnesium 6.

When the lid 5 is provided on the container 1 in the above-mentioned state, the inflow of air from the upper opening 2 into the recess 3 is blocked, and the air communicates with the molten magnesium 6 through the valve 7 and the air inlet 4. After that, the amount of heat and the duration of time will be in accordance with the open state of the valve 7. Therefore, the lid 5 is heated by the heat generated by the oxidation of the molten magnesium 6, and a pot or food can be placed on the lid 5 to obtain the function of the stove. Also, this lid 5
The heat can be used to obtain the action for heating. The magnesium oxidation reaction is Mg + 1 /
Since 2O ₂ is MgO + 143.6 Kcal, it is possible to achieve a large increase in heat quantity as compared with the conventional charcoal fire.

[0017]

Since the present invention is constructed as described above, the following effects can be obtained. That is,
Since the stove is constructed using magnesium as fuel, the overall structure can be miniaturized, does not generate toxic gas such as carbon monoxide, and should be an optimal heat source for both indoor and outdoor cooking and heating. You can

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing a magnesium stove to which a heat generating method according to the present invention is applied.

[Explanation of symbols]

 1 Container 2 Upper Opening 3 Recess 4 Air Inlet 5 Lid 6 Molten Magnesium 7 Valve

Claims (6)

[Claims] 1. The container (1) is ignited to generate molten magnesium (6) by igniting the magnesium contained in the container (1).
A heating method, characterized in that the lid (5) is provided with a lid (5) to heat the lid (5) with the molten magnesium (6). 2. The heat generating method according to claim 1, wherein air supply to the molten magnesium (6) in the container (1) is adjusted by using a valve (7). 3. Recess for accommodating magnesium (3)
A container (1) having a and a lid (5) detachably provided in the upper opening (2) of the container (1), so that the magnesium is melted and the lid (5) is heated. A magnesium stove characterized by being constructed. 4. The magnesium stove according to claim 3, wherein the container (1) is formed with an air inlet (4) communicating with the recess (3). 5. The magnesium stove according to claim 3, wherein the lid (5) is formed with an air inlet (4) communicating with the recess (3). 6. The magnesium stove according to claim 4, wherein the air inlet (4) is provided with a valve (7) for adjusting an air inflow amount.