JPH0363425A - Stove - Google Patents

Abstract

PURPOSE:To suppress damage of a combustion chamber and to radiate far infrared rays by coating part or all of the inner walls of the chamber with heat resistant ceramics, and coating the part or all of the outer surface of a body with ceramics for generating far infrared rays in heating. CONSTITUTION:The damage of the inner walls of a combustion chamber 12 due to heat from a heat source 14 is suppressed by a heat resistant ceramic coating layer. The inner wall of a chimney 16 is similarly protected by heat resistance ceramics. Further, heat radiated to the wall, furnitures, etc., of a housing at the rear of a reflecting plate 18 is interrupted by the plate 18 to protect the wall, the furnitures, etc., against the heat of a stove. When a body 10 is heated by the source 14, far infrared rays comfortable for a human body are radiated from the outer surfaces of the body 10, the chimney 16 and the plate 18. Food can be heated to be cooked on a cooking plate 22 by utilizing the far infrared rays.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a stove, and particularly to a stove including a combustion chamber inside the main body.

(Prior Art) Conventionally, the main body of a stove that includes a combustion chamber inside the main body is formed of a steel plate or cast iron. This type of stove burns fuel such as firewood or coal in a combustion chamber, the heat generated by the combustion heats the main body, and the radiant heat radiated from the outer surface of the main body warms the indoor air.

(Problems to be Solved by the Invention) However, the conventional stove described above has the following problems.

In order to warm the indoor air, it is better to have a high temperature stove. However, in order to raise the temperature of the stove itself, more fuel must be supplied, and in addition, when the stove is heated to a high temperature, there is a problem that damage caused by high-temperature oxidation inside the combustion chamber is significant.

In addition, it is now known that exposure to far infrared rays warms the body from the core, and far-infrared heaters are used in electric stoves, etc., but far-infrared heaters are not used in conventional stoves with combustion chambers. There is also the problem that far infrared rays cannot be emitted because it cannot be used.

Therefore, an object of the present invention is to provide a stove that has a combustion chamber, which is capable of suppressing damage to the combustion chamber, and is also capable of emitting far-infrared rays.

(Problem to be solved by the invention) In order to solve the above problems, the present invention includes the following configuration.

That is, in a stove comprising a combustion chamber inside the main body, part or all of the wall surface of the combustion chamber is coated with a heat-resistant ceramic, and part or all of the outer surface of the main body is coated with a heat-resistant ceramic. It is characterized by being coated with ceramic that can emit far infrared rays.

(effect) The effect will be explained.

By coating the inner wall surface of the combustion chamber with a heat-resistant ceramic, the inner wall surface can be protected from heat during combustion. Furthermore, by coating the outer surface of the main body with a ceramic that can emit far infrared rays, the outer surface of the main body emits far infrared rays when heated by the heat in the combustion chamber, making it possible to warm the main body with far infrared rays.

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

First, the configuration will be explained.

The IO is the main body of the stove and is made of cast iron.

A combustion chamber 12 is formed inside the main body IO. Fuel such as firewood or coal is burned in this combustion chamber 12 and the heat source 1
It becomes 4. The inner wall surface of the combustion chamber 12 is the entire surface or, in particular,
Portions that easily receive heat from the heat source 14 are coated with heat-resistant ceramic (thermal barrier coating), which will be described in detail later. Further, the entire outer surface of the main body 10 or a portion that efficiently radiates heat is coated with ceramic that radiates far infrared rays when heated, as will be described in detail later.

16 is a chimney, which is a cylindrical body formed of a steel plate,
The lower end of the main body 10 projects into the combustion chamber 12 from the upper part and is fixed therein. The smoke from combustion in the combustion chamber 12 is released into the atmosphere through this chimney 16, and this chimney 16 is also heated by the heat from the heat source 14, warming the air in the room where the stove is installed. . Therefore, in this embodiment, the inner surface of the chimney 16 is coated with the same heat-resistant ceramic as the inner wall of the combustion chamber 12, and a thermal barrier coating is applied to the inner surface of the chimney 16.
The outer surface of the main body 10 is coated with ceramic for far-infrared radiation, just like the outer surface of the main body 10.

Reference numeral 18 denotes a reflecting plate, which is fixed to the back side of the main body 10 (right side in FIG. 1), and whose surface 20 is formed into a curved surface.
This is a steel plate provided to reflect the radiant heat from 0 forward (to the left in Figure 1).

The surface 20 of the reflector plate is coated with the same thermal barrier coating as the inner wall surface of the combustion chamber 12 in order to prevent the influence of heat on the walls and furniture of the house located behind the stove. Incidentally, since the ceramic used in the thermal barrier coating also emits far infrared rays, the reflector 18 has the advantage of protecting the walls of the house and emitting far infrared rays.

Reference numeral 22 denotes a cooking plate, which is detachably fixed to the top surface of the main body 10, and the top surface is also coated with a ceramic that can emit far infrared rays like the outer surface of the main body 10. A fluororesin paint that is water- and oil-repellent is applied.

The reason why the cooking plate 22 is coated with ceramic is to ensure that when fish, etc. is grilled on the cooking plate 22, the fire penetrates through the meat of the fish. This is to make it easier to wipe off even if the cooking plate 22 becomes dirty with oil or fat. Note that even if the cooking plate 22 is not provided, cooking can be performed at a predetermined location on the upper surface of the main body 10 by applying fluororesin coating to the predetermined location.

In addition, 24 is a lid, and the combustion chamber I opened in the main body lO
This opens and closes the entrance 13 of No. 2. The inner wall surface of the lid 24 is coated with the same heat-resistant ceramic coating as the inner wall surface of the combustion chamber 12, and the outer surface of the lid 24 is coated with a ceramic coating for far-infrared radiation, which is the same as the outer surface of the main body 10. .

Next, an embodiment of the heat-resistant ceramic coating on the inner wall surface of the combustion chamber 12 will be explained step by step.

(1) Pretreatment The inner wall surface of the combustion chamber 12 is degreased, firmed, and rusted, and the surface is roughened by blasting in order to increase the adhesive strength of the ceramic.

(2) Before spraying the preheating ceramic, heat at least the inner wall surface of the part to be coated to about 90°C.

This is done to increase the adhesion of the ceramic to the inner wall surface.

(3) Thermal Spraying Thermal spraying the heat-resistant ceramic at a working temperature of about 90°C to 250'C.

An example of the thermal spraying procedure is shown below.

■ Apply a nickel-based bonding coat to the inner wall surface.

This is to make it easier to adhere the heat-resistant ceramic.

■ Coating with a ceramic mixture of nickel and zirconia. This is to increase the thickness of the ceramic coating, and by increasing the thickness, it is possible to obtain a heat retention effect within the combustion chamber 12, and it becomes possible to suppress fuel consumption.

■ The top layer is coated with zirconia ceramic by thermal spraying. The reason why the top layer was coated with zirconia-based ceramic is that zirconia-based ceramics have durability against heat cycles.

In this example, the thickness of the heat-resistant ceramic coating is approximately 2 mm.

Next, an example of coating the outer surface of the main body 10 will be described step by step.

(1) Pretreatment Degrease, degrease, and remove rust from the outer surface of the main body IO.

Furthermore, a blast treatment is performed to form countless fine irregularities on the outer surface. This is done to increase the surface area by providing irregularities on the outer surface of the main body 10, to increase the adhesive strength of the ceramic, and to increase the amount of far-infrared rays emitted and to widen the radiation direction.

(2) Preheating Before spraying the ceramic, at least the outer surface of the part to be coated is heated to about 90°C.

This is done to increase adhesion to the outer surface of the ceramic.

(3) Thermal Spraying The ceramic is sprayed at a working temperature of about 90°C to 250'C.

An example of the thermal spraying procedure is shown below.

■ Apply a nickel-based bonding coat to the outer surface.

This is to make it easier to adhere the ceramic for far infrared radiation.

■ Spraying ceramic that emits far infrared rays.

The temperature is 250°C for a ceramic that emits far infrared rays.
A material that emits far infrared rays with a wavelength of about 2.5 microns to 25 microns is suitable, and in this example, Al 203 Cr203, which is an example of alumina ceramic, is used.
is used.

The thickness of the ceramic coating on the outer surface may be extremely thin since it is not intended for heat resistance.

(4) Exterior finishing The top layer of the outer surface is colored, decorated, etc. with a heat-resistant paint that can withstand up to 500'C.

In the stove of this embodiment configured as described above, damage to the inner wall surface due to heat from the heat source 14 is suppressed within the combustion chamber 12 by a coating layer of heat-resistant ceramic. The inner wall surface of the chimney 16 is also protected by heat-resistant ceramic, and the heat radiated toward the walls and furniture of the house behind the reflective film 8 is blocked by the reflector plate 18. can be protected from heat.

When the main body 10 is heated by the heat 'rA14, the main body 10
External surface, chimney 16 external surface and reflector! 8 surface 20 emits far infrared rays that are comfortable for the human body.

Further, food can be heated and cooked on the cooking plate 22 using far infrared rays.

Although various preferred embodiments of the present invention have been described above, the present invention is not limited to the above-mentioned embodiments, and it goes without saying that many modifications can be made without departing from the spirit of the invention. be.

(Effects of the Invention) When the stove according to the present invention is used, it becomes possible to protect the wall surface of the combustion chamber from damage caused by heat with a heat-resistant ceramic material. Therefore, the lifespan of the stove is extended, making it economical. On the other hand, since the outer surface of the body is coated with ceramic that emits far-infrared rays when heated, it emits far-infrared rays that are comfortable for the human body, and has great effects such as warming the body from the core.

[Brief explanation of drawings]

FIG. 1 is a sectional view showing an embodiment of a stove according to the present invention. 10...Main body, 12...Combustion chamber.

Claims (1)

[Claims] 1. In a stove comprising a combustion chamber inside the main body, part or all of the wall surface of the combustion chamber is coated with heat-resistant ceramic, and part or all of the outer surface of the main body is coated with a heat-resistant ceramic. , a stove characterized by being coated with ceramic that emits far infrared rays when heated.