JP2004210964A - Apparatus and method for producing charcoal each using inert gas heavier than air - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To produce a method and an apparatus for producing charcoal in which 100% of a material to be carbonized put in a hermetically sealed container on the inside of a carbonizing furnace is carbonized and the surface of carbonized material is not oxidized and attachment of charcoal powder to human hand is prevented when touching with the human hand. <P>SOLUTION: (1) The material to be carbonized is put in the hermetically sealed container on the inside of a carbonizing furnace. (2) Air in the hermetically sealed container on the inside of the carbonizing furnace is substituted with an inert gas heavier than air. (3) The hermetically sealed container on the inside of the carbonizing furnace is heated. (4) After finishing carbonization, the interior of the hermetically sealed container on the inside of the carbonizing furnace is cooled and the pressure in the hermetically sealed container on the inside of the carbonizing furnace is lowered and the inert gas heavier than air is poured into the container to prevent invasion of air into the container. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a charcoal production method and a charcoal production device, in which the surface of the charcoal is not oxidized, so that charcoal powder is hardly deposited even when touched by hand, and all the carbonized material put in the carbonization device becomes charcoal. .
[0002]
[Prior art]
Conventionally, when carbonized material is placed in a closed container and carbonized, the surface and a part of the carbonized material are oxidized by air in the closed container, and the yield is not 100%. There was a drawback that the powder was attached.
[0003]
[Problems to be solved by the invention]
The present invention solves the above-mentioned problems, and carbonizes 100% of the material to be carbonized placed in the inner closed vessel of the carbonization furnace, so that the surface of the carbide does not oxidize and the charcoal powder does not adhere even if touched by hand. It is an object of the present invention to provide a method and apparatus for producing charcoal.
[0004]
[Means for Solving the Problems]
According to the present invention, in order to achieve the above object, first, the material to be carbonized is placed in a closed container inside the carbonization furnace. Second, the air in the inner closed vessel of the carbonization furnace is replaced with an inert gas heavier than air. Third, the inside closed vessel of the carbonization furnace is heated. Fourth, at the end of carbonization, the inside of the inner closed vessel of the carbonizing furnace is cooled and the pressure in the inner closed vessel of the carbonizing furnace decreases, so that an inert gas heavier than air is injected and air enters the inner closed vessel of the carbonizing furnace. Not to be.
[0005]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of the present invention will be described with reference to the drawings.
[0006]
FIG. 1 is a cross-sectional view of a carbonization furnace with a lid 11 opened, and FIG. 2 is a cross-sectional view of the carbonization furnace during operation.
[0007]
In FIG. 1, a material to be carbonized 14 is placed in an inner closed container 12 of a carbonization furnace.
[0008]
In FIG. 2, a material to be carbonized 14 is placed in an inner closed container 12 of a carbonization furnace, and a lid 11 is closed and sealed. The heating chamber 15 is heated by an electric heater, a gas burner, a kerosene burner, wood, or the like.
The pipe 3 attached to the hole 1 and the valve 5 attached to the pipe 3 are opened, and the moisture of the carbonized material is discharged from the closed container 12 inside the carbonization furnace.
After confirming the ignition point of the carbonized material below the ignition point with a thermometer 13, the pipe 4 attached to the hole 2 and the valve 6 attached to the pipe 4 are opened, and an inert gas heavier than air is blown into the inside of the closed vessel 12 inside the carbonization furnace. Put in.
Since the inert gas that is heavier than air is heavier than air, the air in the inner closed vessel 12 of the carbonization furnace is discharged from the pipe 3 attached to the hole 1 and the valve 5 attached to the pipe 3, Inside is replaced by an inert gas heavier than air.
When the inside of the closed vessel inside the carbonization furnace is replaced with an inert gas heavier than air, the valve 6 is closed.
The material to be carbonized in the inner closed vessel 12 of the carbonization furnace does not come into contact with oxygen even after passing the ignition point, and is carbonized without being oxidized. After the completion of the carbonization is confirmed by a thermometer, the heating of the heating chamber 15 is stopped, and at the same time, the valve 5 is closed and the valve 6 is opened to compensate for the shrinkage of the inert gas which is heavier than the air accompanying the cooling in the inner closed vessel 12 of the carbonization furnace. Top up with a heavier inert gas.
When the inside of the inner closed vessel 12 of the carbonization furnace becomes lower than the ignition point, the valve 6 is closed to stop the inert gas heavier than air.
By the above operation, the surface is not oxidized, the charcoal powder is hardly attached even if touched by hand, and the carbonized material is all charcoal.
[0009]
DESCRIPTION OF THE PREFERRED EMBODIMENTS
Embodiment 1
In FIG. 1, bamboo pieces, wood pieces, eggplants and tangerines 14 are put in an inner closed container 12 of a carbonization furnace. In FIG. 2, bamboo pieces, wood pieces, eggplants and tangerines 14 are put in an inner closed container 12 of the carbonization furnace, and the lid 11 is closed and sealed. The heating chamber 15 is heated to 150 ° C. by an electric heater. The pipe 3 attached to the hole 1 and the valve 5 attached to the pipe 3 are opened, and the moisture of the bamboo pieces, wood pieces, eggplants, and mandarins 14 is discharged from the inner closed container 12 of the carbonization furnace.
After confirming 150 ° C. below the ignition point of bamboo pieces, wood pieces, eggplants and tangerines 14 with a thermometer 13, open the pipe 4 attached to the hole 2 and the valve 6 attached to the pipe 4, and open an inert gas heavier than air. Of argon gas is put into the closed container 12 inside the carbonization furnace.
Since the inert gas, argon gas, which is heavier than air, is heavier than air, the air in the inner closed vessel 12 of the carbonization furnace is discharged from the pipe 3 attached to the hole 1 and the valve 5 attached to the pipe 3, and the inside of the carbonization furnace is sealed. The inside of the container 12 is replaced with an inert gas, argon gas, which is heavier than air. When the inside of the inner closed vessel 12 of the carbonization furnace is replaced with an inert gas, argon gas, which is heavier than air, the valve 6 is closed. The bamboo pieces, wood pieces, eggplants and tangerines 14 in the inner closed container 12 of the carbonization furnace are carbonized without being oxidized because they do not come into contact with oxygen even after the ignition point. After confirming the completion of carbonization at 600 ° C. by a thermometer, the heating of the heating chamber 15 is stopped, and at the same time, the valve 5 is closed, the valve 6 is opened, and an inert gas, argon gas, which is heavier than air accompanying the cooling in the inner closed vessel 12 of the carbonization furnace. Replenish the inert gas, argon gas, which is heavier than the air that compensates for the shrinkage. When the temperature in the inner closed vessel 12 of the carbonization furnace reaches 150 ° C. below the ignition point, the valve 6 is closed and the inert gas argon gas which is heavier than air is stopped. With the above operations, the bamboo pieces, wood pieces, eggplants, and tangerines 14 are all charcoal, the surface of which is not oxidized, the charcoal powder is hard to adhere even if touched by hand.
Embodiment 2
In FIG. 1, bamboo pieces, wood pieces, eggplants and tangerines 14 are put in an inner closed container 12 of a carbonization furnace. In FIG. 2, bamboo pieces, wood pieces, eggplants and tangerines 14 are put in an inner closed container 12 of the carbonization furnace, and the lid 11 is closed and sealed. The heating chamber 15 is heated to 150 ° C. by a gas burner. The pipe 3 attached to the hole 1 and the valve 5 attached to the pipe 3 are opened, and the moisture of the bamboo pieces, wood pieces, eggplants, and mandarins 14 is discharged from the inner closed container 12 of the carbonization furnace.
After confirming 150 ° C. below the ignition point of bamboo pieces, wood pieces, eggplants and tangerines 14 with a thermometer 13, open the pipe 4 attached to the hole 2 and the valve 6 attached to the pipe 4, and open an inert gas heavier than air. Of carbon dioxide gas is put into the closed container 12 inside the carbonization furnace.
Since the inert gas carbon dioxide gas, which is heavier than air, is heavier than air, the air in the inner closed vessel 12 of the carbonization furnace is discharged from the pipe 3 attached to the hole 1 and the valve 5 attached to the pipe 3, and The inside of the sealed container 12 is replaced with carbon dioxide gas, which is an inert gas heavier than air. When the inside of the inner closed vessel 12 of the carbonization furnace is replaced with carbon dioxide gas, which is an inert gas heavier than air, the valve 6 is closed. The bamboo pieces, wood pieces, eggplants and tangerines 14 in the inner closed container 12 of the carbonization furnace are carbonized without being oxidized because they do not come into contact with oxygen even after the ignition point. After confirming the completion of carbonization at 600 ° C. with a thermometer, the heating of the heating chamber is stopped, and at the same time, the valve 5 is closed, the valve 6 is opened, and an inert gas carbon dioxide gas which is heavier than air accompanying the cooling in the inner closed vessel 12 of the carbonization furnace. Replenish carbon dioxide gas, an inert gas that is heavier than air that compensates for the shrinkage of the air. When the temperature in the inner closed vessel 12 of the carbonization furnace reaches 150 ° C. below the ignition point, the valve 6 is closed to stop the inert gas carbon dioxide gas heavier than air.
By the above operation, bamboo pieces, wood pieces, eggplants, and tangerines 14 are all charcoal, the surface of which is not oxidized, the charcoal powder is hard to adhere even if touched by hand.
Embodiment 3
In FIG. 1, bamboo pieces, wood pieces, eggplants and tangerines 14 are put in an inner closed container 12 of a carbonization furnace. In FIG. 2, bamboo pieces, wood pieces, eggplants and tangerines 14 are put in an inner closed container 12 of the carbonization furnace, and the lid 11 is closed and sealed. The heating chamber 15 is heated to 150 ° C. by a kerosene burner. The pipe 3 attached to the hole 1 and the valve 5 attached to the pipe 3 are opened, and the moisture of the bamboo pieces, wood pieces, eggplants, and mandarins 14 is discharged from the inner closed container 12 of the carbonization furnace.
After confirming 150 ° C. below the ignition point of bamboo pieces, wood pieces, eggplants and oranges 14 with a thermometer 13, open the pipe 4 attached to the hole 2 and the valve 6 attached to the pipe 4, and open an inert gas heavier than air. Of the mixture of the argon gas and the carbon dioxide gas in the closed container 12 inside the carbonization furnace.
Since the mixture of the inert gas, argon gas and carbon dioxide gas, which is heavier than air, is heavier than air, the air in the inner closed vessel 12 of the carbonization furnace is discharged from the pipe 3 attached to the hole 1 and the valve 5 attached to the pipe 3. The inside of the inner closed vessel 12 of the carbonization furnace is replaced with a mixture of argon gas and carbon dioxide gas, which are inert gases heavier than air. When the inside of the inner closed vessel 12 of the carbonization furnace is replaced with a mixture of an inert gas, argon gas and carbon dioxide gas, which is heavier than air, the valve 6 is closed. The bamboo pieces, wood pieces, eggplants and tangerines 14 in the inner closed container 12 of the carbonization furnace are carbonized without being oxidized because they do not come into contact with oxygen even after the ignition point. After confirming the completion of carbonization at 600 ° C. with a thermometer, the heating of the heating chamber was stopped, and at the same time, the valve 5 was closed and the valve 6 was opened. The mixture of argon gas and carbon dioxide gas, which are inert gases heavier than air, supplements the contraction of the mixture of carbon dioxide gas. When the inside temperature of the inner closed vessel 12 of the carbonization furnace becomes 150 ° C. below the ignition point, the valve 6 is closed and the mixture of the inert gas, argon gas and carbon dioxide gas, which is heavier than air, is stopped.
With the above operations, the bamboo pieces, wood pieces, eggplants, and tangerines 14 are all charcoal, the surface of which is not oxidized, the charcoal powder is hard to adhere even if touched by hand.
[0010]
【The invention's effect】
As described above, since the material to be carbonized is not oxidized, hands are not blackened even when handling charcoal. Good yield of carbide. Thin objects such as bamboo, trees, eggplants and mandarins, and thin objects such as plant leaves are also carbonized as they are. As described above, it is possible to produce charcoal that overturns the conventional concept of charcoal and that can withstand beautiful interiors.
[Brief description of the drawings]
FIG. 1 is a sectional view showing a state in which a closed container is open.
FIG. 2 is a cross-sectional view showing a state where a closed container is closed.
[Explanation of symbols]
1 Hole above inner closed vessel of carbonization furnace 2 Hole below inner closed vessel of carbonization furnace 3 Pipe 4 Pipe 5 Valve 6 Valve 7 Argon gas container 8 Outer frame of carbonization furnace 9 Insulation material 10 Insulation material 11 Carbonization furnace Upper lid 12 of inner sealed container 12 Inner sealed container 13 Thermometer 14 Carbonized material 15 Heating chamber

Claims (5)

Drill two or more holes at the top and bottom of the closed vessel inside the carbonization furnace with a lid made of non-breathable material, attach pipes to individual holes, attach valves to individual pipes, valves for pipes below A carbonization device that can inject inert gas heavier than air through. Drill two or more holes at the top and bottom of the closed vessel inside the carbonization furnace with a lid made of non-breathable material, attach pipes to individual holes, attach valves to individual pipes, valves for pipes below Characterized in that an inert gas heavier than air can be injected through the air. The method for producing charcoal according to claim 2, wherein argon gas which is an inert gas heavier than air is used. The method for producing charcoal according to claim 2, wherein carbon dioxide gas, which is an inert gas heavier than air, is used. The method for producing charcoal according to claim 2, wherein argon gas and carbon dioxide gas, which are inert gases heavier than air, are mixed and used.

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