JP2890099B2 - Charcoal making device and charcoal making method using the charcoal making device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a charcoal producing apparatus and a method for producing charcoal using the charcoal producing apparatus. The present invention relates to a charcoal producing apparatus having a function capable of being treated, and to a charcoal producing method using a charcoal producing apparatus for performing carbonization at high speed and in large quantities.

[0002]

2. Description of the Related Art Conventionally, charcoal is one of the typical solid fuels and has been used as a cooking fuel or a heating fuel. Recently, charcoal has hygroscopicity, and has been used for absorbing moisture in foods that easily absorb moisture by making use of the hygroscopicity. And furthermore, charcoal has gas hygroscopicity,
Utilizing its gas hygroscopicity, it has been used to adsorb undesirable gas. Also, charcoal has a filter function, and has used charcoal to purify water.
For charcoal, wood has been used as a raw material to produce charcoal of desired quality in forests in various places. Although various studies have been made on the charcoal production technology, charcoal kilns have been used in Japan. In the charcoal kiln, first, in the heating chamber, various heating materials, for example, using as much as possible the leaves and bark that do not become charcoal, send the combustion heat to the carbon pyrolysis chamber next to the heating chamber, and When the carbon material in the pyrolysis room is heated, and when the carbon material ignites, the combustion heat generated in the heating chamber is sent to the next pyrolysis room to carbonize the carbon material in the pyrolysis room. Has promoted the production of charcoal.
There are various empirical techniques in the production process, and charcoal production has been made by that. However, in the charcoal production in a charcoal kiln by such a method, even if charcoal can be produced from a carbon material suitable for the charcoal production, charcoal production cannot be achieved regardless of all conditions.

[0003]

SUMMARY OF THE INVENTION The present invention makes it possible to use charcoal for all materials that are not conventionally used for charcoal production, such as construction waste, wind-down trees, thinned wood, and sawmill scraps. If it is a material with sexual characteristics, it can be used as a material for charcoal production, and it is possible to produce charcoal from the material, and a charcoal production device that can use all of the material as a material for charcoal production Is to be provided as a first subject. In addition, the present invention provides a charcoal manufacturing apparatus capable of reliably and economically producing charcoal even if the conventional technology does not allow the production of charcoal. 2 issues. Also, the present invention
The inside of the main body of the charcoal manufacturing apparatus is divided into three chambers by partitioning walls, and a third problem is to partition the interior of the main body of the charcoal producing apparatus into three chambers. In addition, the present invention uses a nitrogen gas to extinguish and cool the material to be carbonized in the fire extinguishing cooling chamber in the charcoal manufacturing apparatus main body, thereby speeding up the extinguishing cooling and, at the same time, preheating the heat exchanged heat there. To the room to increase the thermal efficiency,
A fourth object is to provide a charcoal manufacturing apparatus for manufacturing charcoal by carbonizing a material to be carbonized in a main body of the charcoal manufacturing apparatus. In addition, the present invention accelerates fire-extinguishing cooling by using a nitrogen gas used in a fire extinguishing cooling chamber to extinguish and cool a carbonized material carbonized in a charcoal manufacturing apparatus main body.
The heat exchanged heat is led to the remaining heat chamber to increase the thermal efficiency, and the material to be carbonized is carbonized in the main body of the charcoal production apparatus to produce charcoal. Into three chambers.These chambers are made into a preheating chamber, a heating chamber, and a fire extinguishing cooling chamber.They are arranged in series, and the partitioning door can increase the thermal efficiency. The charcoal generated from the carbonized wood that becomes the raw material by moving in order through the room, heating room, fire extinguishing cooling room, and opening and closing the partition doors of the remaining heat room, heating room, fire extinguishing cooling room Using the gas as a heat source, enhance the thermal efficiency in each room to optimize the function of these three rooms, and the remaining heat room, heating room, fire-extinguishing cooling room, the remaining heat treatment, heating process, fire-extinguishing cooling process The material to be carbonized into wood Provided is a method for producing charcoal using a charcoal producing apparatus, which comprises producing charcoal by carbonizing in a production apparatus main body, and carbonizing a material to be carbonized from an inlet to an outlet from an inlet to an outlet. This is the fifth problem.

[0004]

According to the present invention, a main body of a charcoal producing apparatus is divided into three chambers by partitioning the main body, and these chambers are arranged as a residual heat chamber, a heating chamber, and a fire extinguishing cooling chamber, and are arranged in series to form a partition door. To increase the thermal efficiency, and move the container of the material to be carbonized through the preheating chamber, the heating chamber, and the fire extinguishing cooling chamber in order, and partition the preheating chamber, the heating chamber, and the fire extinguishing cooling chamber. Can be opened and closed, using charcoal gas generated from wood as the material to be carbonized as a heat source, increasing the thermal efficiency in each room to optimize the functions of these three rooms, In the heating chamber and fire extinguishing cooling chamber, after-heat treatment, heating treatment, fire extinguishing cooling processing, and the carbonized material as a material is carbonized in the charcoal making device main body to produce charcoal, and the charcoal making device main body exit from the inlet To the storage room or storage container A charcoal production apparatus characterized by the production of charcoal by carbonizing a raw material to be carbonized material by moving the container body. Further, the present invention makes it possible to move a housing such as a housing room or a housing container for a material to be carbonized, which is moved in order through a remaining heat chamber, a heating chamber, and a fire extinguishing cooling chamber in a charcoal manufacturing apparatus main body. Then, in each of the remaining heat chamber, the heating chamber, and the fire extinguishing cooling chamber, the remaining heat treatment, the heating treatment, and the fire extinguishing cooling treatment are performed for a required time to carbonize the material and the carbonized material in the main body of the charcoal making apparatus. In addition to the production of charcoal, the fire-extinguishing cooling is accelerated by being able to extinguish and cool the material to be carbonized in the charcoal production unit by the nitrogen gas used in the fire extinguishing cooling chamber, thereby expediting the fire extinguishing cooling. A method for producing charcoal, characterized in that carbonized material serving as a raw material is carbonized in a charcoal producing apparatus main body to produce charcoal so that heat efficiency can be improved by leading the charcoal.

[0005]

According to the present invention, the interior of a charcoal manufacturing apparatus is divided into three chambers by partition walls, and these chambers are arranged in series as a residual heat chamber, a heating chamber, and a fire extinguishing cooling chamber, and the thermal efficiency can be enhanced by a partition door. So that the carbonized material container is moved in order through their preheating chamber, heating chamber, fire extinguishing cooling chamber,
By opening and closing the partition doors of the remaining heat room, heating room, fire extinguishing cooling room, using charcoal gas generated from the wood of the material to be carbonized as a material as a heat source, increasing the thermal efficiency in each room The functions of these three chambers are optimized, and the surplus heat chamber, heating chamber, and fire extinguishing cooling chamber are subjected to post heat treatment, heating processing, fire extinguishing cooling processing, and carbonized the material to be carbonized in the main unit of the charcoal production device. Charcoal is produced by producing charcoal and moving a container such as a storage room or a storage container from an inlet to an outlet of a main unit of the charcoal manufacturing apparatus, thereby carbonizing a material to be carbonized as a raw material to produce charcoal. Since it is a manufacturing device, a storage body such as a storage room or a storage container for a carbonized material that is a movable material in the charcoal manufacturing device main body is made movable, and it is moved into the charcoal manufacturing device main body for a required time. Do the necessary processing, Charcoal can be easily and reliably produce the wood to be carbonized material was carbonized in charcoal production equipment. Further, the present invention makes it possible to move a container such as a container or a container for a material to be carbonized as a raw material, and to move the remaining heat chamber, the heating chamber, and the fire extinguishing cooling chamber in the charcoal manufacturing apparatus main body in order. In each of the remaining heat chamber, the heating chamber, and the fire extinguishing cooling chamber, the required heat treatment, heat treatment, and fire extinguishing cooling processing are performed for a required time, and the material to be carbonized is carbonized in the main body of the charcoal making apparatus to produce charcoal. In addition to manufacturing, the nitrogen gas used in the fire extinguishing cooling chamber can extinguish the fire extinguishing cooling by extinguishing and cooling the carbonized material in the charcoal production device main body, thereby leading the heat exchanged heat to the residual heat chamber. Since the charcoal production method is characterized in that the carbonized material as the raw material is carbonized in the main body of the charcoal producing apparatus so as to increase the thermal efficiency and the charcoal is produced in the main body of the charcoal production device, Containers such as containers After moving, the movable body such as a storage room or a storage container is subjected to a desired treatment in the main body of the charcoal manufacturing apparatus for a required time, and the material to be carbonized is carbonized in the main body of the charcoal manufacturing apparatus. Charcoal can be manufactured easily and reliably. Further, according to the present invention, the interior of the charcoal manufacturing apparatus is divided into three chambers by partitioning the main body, and the function of each of the remaining heat chamber, the heating chamber, and the fire extinguishing cooling chamber is sufficiently performed by dividing the main body into three chambers by dividing the partition. It can be used to perform the unique functions of the remaining heat room, heating room, fire extinguishing cooling room. In addition, the present invention uses a nitrogen gas to extinguish and cool the material to be carbonized in the fire extinguishing cooling chamber in the charcoal manufacturing apparatus main body, thereby speeding up the extinguishing cooling and, at the same time, preheating the heat exchanged heat there. It is a charcoal manufacturing device that produces charcoal by carbonizing the material to be carbonized as a raw material in the main body of the charcoal making device so as to increase the thermal efficiency by leading it to the room. The material to be carbonized in the fire-extinguishing cooling chamber inside is subjected to fire-extinguishing cooling treatment to accelerate the fire-extinguishing cooling, and at the same time, to conduct heat exchanged heat to the residual heat chamber, thereby increasing the thermal efficiency. Further, the present invention hastens the fire-extinguishing cooling by performing the fire-extinguishing cooling process on the carbonized material carbonized in the charcoal manufacturing apparatus main body by the nitrogen gas used in the fire-extinguishing cooling chamber, so that the heat exchanged heat is transferred to the residual heat chamber. A charcoal production apparatus characterized in that the material to be carbonized is carbonized in the main body of the charcoal production apparatus to produce charcoal in such a manner as to be able to enhance the thermal efficiency by guiding the material. Into three chambers, and make those chambers a residual heat room, a heating room, a fire extinguishing cooling room,
Arranged in series, by the partitioning door, so that the thermal efficiency can be increased, the carbonized material container is moved in order through their remaining heat chamber, heating room, fire extinguishing cooling room, the remaining heat room,
By opening and closing the partition doors of the heating room and the fire extinguishing cooling room, the charcoal gas generated from the wood to be carbonized as the material is used as a heat source to increase the thermal efficiency in each room to increase the heat efficiency of the three rooms. The function is optimized, and the preheating chamber, heating chamber and fire extinguishing cooling chamber are subjected to post heat treatment, heating treatment and fire extinguishing cooling processing to carbonize the material to be carbonized in the main body of the charcoal production equipment to make charcoal. The material is obtained by moving the housing such as the storage room or the storage container of the material to be carbonized by moving the storage body such as the storage room or the storage container from the entrance to the exit of the charcoal manufacturing apparatus body toward the outlet. Since it is a charcoal manufacturing method using a charcoal manufacturing apparatus characterized in that charcoal is manufactured by carbonizing a material to be carbonized, the remaining heat treatment, the heating treatment, the heating treatment, and the fire-extinguishing cooling treatment of the remaining heat chamber, the heating room, and the fire extinguishing cooling room are performed. Enough Get.

[0006]

[Embodiment 1] In the present invention, the interior of a charcoal production apparatus is divided into three chambers by partition walls, and these chambers are arranged in series as a residual heat chamber, a heating chamber, and a fire extinguishing cooling chamber. It is possible to move the container of the material to be carbonized through the remaining heat chamber, the heating chamber, and the fire extinguishing cooling chamber in order, and open and close the partition doors of the remaining heat chamber, the heating chamber, and the fire extinguishing cooling chamber. In this way, using the charcoal gas generated from the wood as the material to be carbonized as a heat source, the thermal efficiency in each room is increased to make the functions of the three rooms optimal, and the remaining heat chamber, heating room, By the fire extinguishing cooling chamber, after-heat treatment, heating treatment, fire extinguishing cooling treatment, the carbonized material as a material is carbonized in the charcoal manufacturing device main body to produce charcoal, and the charcoal manufacturing device main body is directed from the inlet to the outlet. Moving a container such as a container or container A charcoal production apparatus characterized by the production of charcoal by carbonizing a raw material to be carbonized material by moving the container, such as a housing chamber or container of the material to be carbonized material by causing.

[0007]

[Embodiment 2] In the present invention, the interior of a charcoal production apparatus is divided into three chambers by partitions, and these chambers are arranged as a residual heat chamber, a heating chamber, and a fire extinguishing cooling chamber, and are arranged in series. It is possible to move the container of the material to be carbonized through the remaining heat chamber, the heating chamber, and the fire extinguishing cooling chamber in order, and open and close the partition doors of the remaining heat chamber, the heating chamber, and the fire extinguishing cooling chamber. In this way, using the charcoal gas generated from the wood as the material to be carbonized as a heat source, the thermal efficiency in each room is increased to make the functions of the three rooms optimal, and the remaining heat chamber, heating room, By the fire extinguishing cooling chamber, after-heat treatment, heating treatment, fire extinguishing cooling treatment, the carbonized material as a material is carbonized in the charcoal making device main body to produce charcoal, and from the inlet to the outlet of the charcoal making device main body. Moving a container such as a container or container A charcoal manufacturing apparatus characterized in that charcoal is produced by carbonizing a material to be carbonized as a raw material, and a movable container such as a storage container is provided with a residual heat chamber, a heating chamber, and the like in a main body of the charcoal manufacturing apparatus. The fire extinguishing cooling chamber is moved so that it can be accommodated, and nitrogen gas is used to extinguish and cool the material to be carbonized in the fire extinguishing cooling chamber in the charcoal manufacturing apparatus main body, and the fire extinguishing cooling is expedited. Therefore, a charcoal manufacturing apparatus characterized in that the heat exchanged heat is led to a residual heat chamber so that thermal efficiency can be increased, and the charcoal to be used as a material is carbonized in the charcoal manufacturing apparatus body to produce charcoal. .

[0008]

[Embodiment 3] The present invention makes it possible to move a housing such as a storage room or a storage container for a material to be carbonized as a raw material, and sequentially moves the storage room, the heating room, and the fire extinguishing cooling room in the main body of the charcoal manufacturing apparatus. In each of the remaining heat chamber, the heating chamber, and the fire extinguishing cooling chamber, the heat treatment, the heating treatment, and the fire extinguishing cooling processing are performed for a required time to carbonize the material to be carbonized in the main body of the charcoal manufacturing apparatus. In addition to the production of charcoal, the fire-extinguishing cooling is accelerated by being able to extinguish and cool the material to be carbonized in the charcoal production unit by the nitrogen gas used in the fire extinguishing cooling chamber, thereby expediting the fire extinguishing cooling. A method of producing charcoal, characterized in that carbonization is performed by carbonizing the material to be carbonized in the main body of the charcoal production apparatus so that the material to be carbonized can be enhanced by increasing the thermal efficiency. Collection of storage rooms or containers Body charcoal production apparatus preheating chamber in the main body,
Move the heating room and fire extinguishing cooling room in order,
In each of the heating chamber and the fire extinguishing cooling chamber, the remaining heat treatment, heating treatment, and fire extinguishing cooling treatment are performed for a required time, and the material to be carbonized is carbonized in the main unit of the charcoal making apparatus to produce charcoal and extinguish fire. Depending on the nitrogen gas used in the cooling room,
Fire-extinguishing cooling can be accelerated by extinguishing and cooling the carbonized material carbonized in the main body of the charcoal production device, and the heat exchanged heat can be conducted to the residual heat chamber to increase the thermal efficiency, and the carbonized material to be used as a material Is produced in a charcoal production apparatus main body to produce charcoal.

[0009]

According to the present invention, the interior of the charcoal manufacturing apparatus can be divided into three chambers by partitioning them, and these chambers can be arranged in series as a residual heat chamber, a heating chamber, and a fire extinguishing cooling chamber, and the thermal efficiency can be increased by a partition door. As a result, there is an effect that the utilization of heat can be maximized by the partition wall in the main unit of the charcoal production device. In addition, there is an effect that a three-stage operation can be achieved by the characteristics of each of the three remaining heat chambers, the heating chamber, and the fire extinguishing cooling chamber divided by the partition. Also,
Skilled because the container of the material to be carbonized was moved in order through the remaining heat chamber, heating room, fire extinguishing cooling room, and the partition doors of the remaining heat room, heating room, fire extinguishing cooling room could be opened and closed. There is an effect that the work can be performed even if it is not a person. In addition, using charcoal gas generated from wood as the material to be carbonized as a heat source, the thermal efficiency in each room is increased to optimize the functions of these three rooms, and their remaining heat room, heating room, fire extinguishing cooling The chamber is subjected to post-heating treatment, heating treatment, fire-extinguishing cooling treatment, and carbonized the material to be carbonized in the main body of the charcoal making apparatus to produce charcoal. Alternatively, since the charcoal manufacturing apparatus is characterized in that charcoal is manufactured by carbonizing a material to be carbonized as a material by moving a container such as a storage container, a movable material in the main body of the charcoal manufacturing apparatus is used. The storage object such as the storage room or the storage container for the carbonized material is moved, and the movable storage room or the storage container for the carbonized material is placed in the main body of the charcoal making apparatus for a required time. The material and That the object to be carbonized material is effective, which can be easily and reliably manufactured charcoal and carbonized in charcoal production equipment. Further, the present invention makes it possible to move a container such as a container or a container for a material to be carbonized as a raw material, and to move the remaining heat chamber, the heating chamber, and the fire extinguishing cooling chamber in the charcoal manufacturing apparatus main body in order. In each of the remaining heat chamber, the heating chamber, and the fire extinguishing cooling chamber, the required heat treatment, heat treatment, and fire extinguishing cooling processing are performed for a required time, and the material to be carbonized is carbonized in the main body of the charcoal making apparatus to produce charcoal. In addition to manufacturing, the nitrogen gas used in the fire extinguishing cooling chamber can extinguish the fire extinguishing cooling by extinguishing and cooling the carbonized material in the charcoal production device main body, thereby leading the heat exchanged heat to the residual heat chamber. Since the charcoal production method is characterized in that the carbonized material as the raw material is carbonized in the main body of the charcoal producing apparatus so as to increase the thermal efficiency and the charcoal is produced in the main body of the charcoal production device, Containers such as containers After moving, the movable body such as a storage room or a storage container is subjected to a desired treatment in the main body of the charcoal manufacturing apparatus for a required time, and the material to be carbonized is carbonized in the main body of the charcoal manufacturing apparatus. There is an effect that charcoal can be easily and reliably manufactured. Further, the present invention relates to a charcoal producing apparatus, wherein the interior of the charcoal producing apparatus is divided into three chambers by dividing the main body with a partition, and is divided into three chambers by a partition to form a remaining heat chamber, a heating chamber, a fire extinguishing cooling chamber. The functions of the respective chambers can be fully exhibited to fulfill the unique functions of the remaining heat chamber, the heating chamber, and the fire extinguishing cooling chamber. Further, the present invention uses nitrogen gas to extinguish and cool the carbonized material carbonized in the fire extinguishing cooling chamber in the charcoal manufacturing apparatus main body, and at the same time accelerate the fire extinguishing cooling,
Therefore, since the heat exchanged heat is introduced into the remaining heat chamber to increase the thermal efficiency, the charcoal producing apparatus produces charcoal by carbonizing the material to be carbonized in the main body of the charcoal producing apparatus.
Using nitrogen gas, the material to be carbonized in the fire extinguishing cooling chamber in the charcoal manufacturing equipment body is subjected to fire extinguishing and cooling processing, and the fire extinguishing cooling is accelerated, and at the same time, the heat exchanged heat is conducted to the residual heat chamber to improve the thermal efficiency. There is an effect that can be increased. Further, the present invention hastens the fire-extinguishing cooling by performing the fire-extinguishing cooling process on the carbonized material carbonized in the charcoal manufacturing apparatus main body by the nitrogen gas used in the fire-extinguishing cooling chamber, so that the heat exchanged heat is transferred to the residual heat chamber. In order to increase the thermal efficiency by guiding, the material to be carbonized is carbonized in the main body of the charcoal making apparatus to produce charcoal. The room is made into a residual heat room, a heating room, a fire extinguishing cooling room, and arranged in series, so that the partitioning door can increase the thermal efficiency. And move them in order through
By opening and closing the partition doors of the remaining heat room, heating room, fire extinguishing cooling room, using charcoal gas generated from the wood of the material to be carbonized as a material as a heat source, increasing the thermal efficiency in each room Optimize the functions of these three rooms, and
The preheating chamber, the heating chamber, and the fire extinguishing / cooling chamber perform post heat treatment, heat treatment, and fire extinguishing / cooling processing to carbonize the material to be carbonized in the main body of the charcoal manufacturing apparatus to produce charcoal. A charcoal production method using a charcoal production apparatus characterized in that charcoal is produced by carbonizing a material to be carbonized as a raw material by moving a container such as the storage chamber or a storage container from an inlet to an outlet of the container. Therefore, there is an effect that the remaining heat treatment, the heating treatment, and the fire extinguishing cooling treatment of the remaining heat chamber, the heating chamber, and the fire extinguishing cooling chamber can be sufficiently performed.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view of a conceptual structure of a charcoal production device of the present invention.

FIG. 2 is a longitudinal sectional view of a conceptual structure of the charcoal production apparatus of the present invention shown in FIG.

FIG. 3 is a perspective view of a moving vehicle serving as a storage body such as a storage room or a storage container for a carbonized material used when using the charcoal production apparatus of the present invention.

FIG. 4 is a diagram illustrating a charcoal manufacturing apparatus using the charcoal manufacturing apparatus of the present invention to carbonize a material to be carbonized in a mobile vehicle in the charcoal manufacturing apparatus, and then lowering the charcoal to lower an empty vehicle in the mobile vehicle on a slope; FIG. 5 is a perspective view of a use mode in which the charcoal production of the present invention can be performed in a state where the charcoal production apparatus according to the present invention is moved to a first position by a lift in front of an entrance of a charcoal production device in a lower position.

[Explanation of symbols]

REFERENCE SIGNS LIST 1 extra heat chamber 2 heating chamber and dry distillation chamber 3 fire extinguishing cooling chamber using nitrogen gas 4 first openable door 5 second openable door 6 third openable door 7 fourth openable door 8 Mobile vehicle to store carbonized material 9 Wheel of mobile vehicle 10 Door of mobile vehicle 11 Charcoal gas tank 12 Nitrogen gas supply pipe 13 Hot gas outlet 14 Drain 15 Horizontal plane 16 Slope 17 Gas supply pipe 18 Charcoal gas tank 19 Ground surface 20 High-temperature gas take-out storage unit 21 Charcoal gas take-out storage unit 22 Nitrogen gas supply storage unit 23 Charcoal production device main body 24 Charcoal production device main body inlet 25 Charcoal production device main body outlet 26 Heating / drying room lower structure

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁶ , DB name) C10B 53/02

Claims (3)

(57) [Claims] 1. The interior of a charcoal manufacturing apparatus is divided into three chambers by partition walls, and these chambers are arranged in series as a residual heat chamber, a heating chamber, and a fire extinguishing cooling chamber, and a partitioning door can improve thermal efficiency. The container of the material to be carbonized is moved in order through the remaining heat chamber, the heating chamber, and the fire extinguishing cooling chamber, so that the partition doors of the remaining heat chamber, the heating chamber, and the fire extinguishing cooling chamber can be opened and closed, Using the charcoal gas generated from the wood to be carbonized as a heat source, the thermal efficiency in each room is raised to optimize the functions of the three rooms, and the remaining heat room, heating room, fire extinguishing cooling room , Residual heat treatment, heat treatment,
The fired material is subjected to a fire-extinguishing cooling process to carbonize the material to be carbonized in the main body of the charcoal manufacturing apparatus to produce charcoal, and a housing such as a housing room or a housing container is moved from the inlet to the outlet of the main body of the charcoal manufacturing apparatus. An apparatus for producing charcoal, characterized in that charcoal is produced by carbonizing a material to be carbonized by moving the carbonized material. 2. A charcoal production apparatus according to claim 1, wherein a movable container such as a storage container can be accommodated by moving a remaining heat chamber, a heating chamber, and a fire extinguishing cooling chamber in the main body of the charcoal production apparatus. The carbonized material carbonized in the fire extinguishing cooling chamber in the apparatus main body is subjected to fire extinguishing cooling processing, and the fire extinguishing cooling is accelerated. The charcoal production apparatus according to claim 1, wherein the charcoal is produced by carbonizing the material to be carbonized in the main body of the charcoal production apparatus. 3. A storage body such as a storage room or a storage container for a material to be carbonized, which is a material, is made movable, and is moved in order through a remaining heat chamber, a heating chamber, and a fire extinguishing cooling chamber in a main unit of a charcoal production apparatus. In each of the remaining heat room, heating room and fire extinguishing cooling room, for the required time, heat treatment, heat treatment and fire extinguishing cooling process are performed, and the material to be carbonized is carbonized in the main body of the charcoal making device to produce charcoal. At the same time, the nitrogen gas used in the fire extinguishing cooling chamber can extinguish the fire extinguishing cooling by extinguishing and cooling the material to be carbonized in the charcoal production unit by using the nitrogen gas used in the fire extinguishing cooling chamber. A method for producing charcoal using a charcoal production apparatus, characterized in that a material to be carbonized is carbonized in a main body of the charcoal production apparatus so as to produce charcoal.