JP3579774B2 - Burner heating type polymer incinerator - Google Patents

Description

[0001]
[Industrial applications]
The present invention relates to a burner-heated polymer incinerator that burns high-molecular substances such as plastics and rubber styrene and general flammable substances (hereinafter simply referred to as flammable substances) by a burner. The present invention relates to a burner heating type polymer incinerator capable of eliminating odor.
[0002]
[Prior art]
Conventionally, an incinerator is composed of a combustion furnace having a hollow interior and a chimney extending above the combustion furnace, and an input port for charging combustible waste is provided at the front side of the combustion furnace, and the input port is opened and closed. A lid was attached. When incinerating combustible waste, the combustible waste was introduced into the incinerator through the inlet, and after ignition, the lid of the inlet was closed.
[0003]
[Problems to be solved by the invention]
However, conventional incinerators, especially when burning combustible waste such as polymeric substances, have a high combustion temperature, causing smoke and residual ash to rise from the chimney, and give off odors to nearby residents. The impact was great and it was also an environmental problem. Therefore, in many cases, it was treated as landfill.
[0004]
The present invention has been made to solve the above-mentioned problems, and provides an incinerator capable of safely injecting combustible waste such as a polymer substance and enabling smokeless and odorless combustion, thereby making it possible to obtain a polymer in the city. An object of the present invention is to enable combustible waste such as substances to be burned.
[0005]
[Means for Solving the Problems]
A burner heating type polymer incinerator according to the present invention is configured as follows to solve the above-mentioned problems. That is,
In the fuselage, a chimney is arranged from the fuselage to the outside of the fuselage, and a primary combustion chamber and a secondary combustion chamber located above the primary combustion chamber are provided in the chimney. A burner heating type polymer incinerator, wherein a primary burner is disposed below the primary combustion chamber, and a secondary burner is disposed below the secondary combustion chamber. hand,
A gas generating chamber is formed around the primary combustion chamber while a first heat insulator is disposed in the primary combustion chamber,
A gas path is formed between the gas generating chamber and an outer wall of the fuselage,
A second heat insulator is disposed in the secondary combustion chamber,
With grate is disposed in the lower portion of the chimney definitive the bottom of the primary combustion chamber, the air control valve for supplying air to the primary combustion chamber below the primary burner is disposed,
An air pipe connected to the air amount adjustment valve is vertically disposed so as to penetrate the primary burner, and extends an air valve that discharges air from a distal end to the first heat retaining body,
An air valve element for supplying air is provided below the secondary combustion chamber .
Further, it is more preferable that a stirrer for stirring the object to be burned is provided below the gas generating chamber.
[0008]
[Action and Effect of the Invention]
In the burner-heated polymer incinerator according to claim 1, a chimney extending from the inside of the body toward the outside of the body is disposed inside the body, and a first combustion chamber and a first combustion chamber are provided inside the chimney. a secondary combustion chamber is arranged to be positioned above the next combustion chamber. A primary burner is provided below the primary combustion chamber, and a secondary burner is provided below the secondary combustion chamber. A gas generation chamber is formed around the primary combustion chamber, and a gas path is formed between the gas generation chamber and an outer wall of the machine body. Further, a first heat insulator is disposed in the primary combustion chamber, a second heat insulator is disposed in the secondary combustion chamber, and a grate is disposed in a lower portion of the primary combustion chamber. ing.
[0009]
Then, the primary combustion chamber is heated by the primary burner. Since the first heat retaining member is provided in the primary combustion chamber, the temperature of the heated combustion chamber is maintained. Then, when an object to be burned such as combustible waste is put into the gas generating chamber in this state, the object to be burned is burned to generate gas. The gas enters the primary combustion chamber from a grate formed in the lower part of the primary combustion chamber through a gas passage, and is ignited and burned in the primary combustion chamber. Further, if smoke is generated in the primary combustion chamber, the smoke rises and enters the secondary combustion chamber. The secondary combustion chamber is heated to a higher temperature than the primary combustion chamber by the heating from the primary combustion chamber and the secondary burner, and is kept warm by the second heat retaining body. The smoke that has entered the secondary combustion chamber is ignited and burns in the high-temperature secondary combustion chamber.
[0010]
For this reason, smokeless and odorless combustion is possible, and combustible waste such as polymer substances can be incinerated in the city without inconveniencing local residents.
[0013]
【Example】
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
[0014]
Figure 1-2 shows the overall burner-heated polymer incinerator, Figure 1 is a front sectional view, FIG. 2 is a front view.
[0015]
A furnace body 2 including a furnace wall 3, a furnace bottom 4, and a gas generating chamber 5 surrounded by the furnace wall 3 and the furnace bottom 4 is provided in an upper portion of the body 1. A chimney 6 extending from the inside of the furnace bottom 4 to the outside of the body 1 upward is provided.
In the chimney 6, a primary combustion chamber 9 surrounded by a first heat insulator 8 is formed at a lower portion, and a secondary combustion chamber 11 surrounded by a second heat insulator 10 is formed at an upper portion. . A primary burner 12 is disposed below the primary combustion chamber 9 , that is, directly below the furnace body 2, and a secondary burner 13 is disposed below the secondary combustion chamber 11. Further, a grate 14 having a notch is provided below the primary combustion chamber 9 so that a part of the gas remaining in the gas generation chamber 5 can enter the primary combustion chamber 9. Further, a valve body 15 is provided between the secondary combustion chamber 11 and the secondary burner 13, and air in an air pipe 16 piped to the secondary burner 13 is supplied to the entire secondary combustion chamber 11. Acts to spread.
Below the airframe 1, that is, below the furnace bottom 2, an air main pipe 19 connected to an air pipe 18 disposed in the lower part of the primary combustion chamber 9 penetrates through the inside of the primary burner 12 . It is arranged. Further, the tip of the air pipe 18 is mounted an air amount adjusting valve 20, the air main pipe 19, the air valve 22 is disposed in the connection port of the air tube 18, the end on the side against the air valve 22 The blower 21 is connected.
In the lower part of the gas generating chamber 5, there is provided a stirrer 23 for stirring combustible waste and a screw ash 24 for discharging burned ash to an ash furnace 26 through an ash outlet 25. Has been. The ash discharged into the ash furnace 26 can be taken out of the machine body 1 .
[0019]
A gas path 29 is formed between the furnace wall 3 and the outer wall 28 of the fuselage 1, and gas generated by burning combustible waste enters the primary combustion chamber 9 through the lower side of the furnace bottom 4. It is a passage.
[0020]
An ignition port 30 for igniting the primary burner 12 is formed on the front side.
Furthermore, the upper part of the machine body 1 is formed inlet 32 combustibles waste is turned is vertically movably distribution bucket 35 for introducing combustible material debris from inlet 32 is outside the body 1 Has been established. Further, a lid 36 is attached to the bucket 35 so as to be openable and closable.
[0023]
Next, the operation of the burner-heated polymer incinerator having the above configuration will be described.
First, the ignition port 30 is opened to ignite the primary burner 12. At this time, the blower 21 is operated, and air is flowing toward the primary combustion chamber 9 through the main air pipe 19 and the air pipe 18. The air amount is adjusted by the air amount adjusting valve 20 . The inflowing air hits the air valve 20 and is stirred and enters the primary combustion chamber 9 .
[0025]
When the primary burner 12 is ignited, the inside of the primary combustion chamber 9 is heated and the temperature rises. The increased temperature is held by the first heat retaining body 8, and is further transmitted through the chimney 6 toward the secondary combustion chamber 11.
[0026]
On the other hand, the bucket 35 is lowered to a position where the worker can easily put combustible dust and the like in the normal standing posture. As combustible waste, there are many chemical products such as vinyl, rubber, plastics and high molecular substances such as styrene , and paper is naturally included.
[0027]
In this state, the furnace lid 35 a formed in the bucket 35 blocks the charging port 32 of the machine body 1. After the bucket lid 36 is opened to put combustible waste into the bucket, the chain block 39 is operated to raise the bucket 35.
Then, the lid 36 of the bucket 35 is opened, and combustible waste is introduced. In a state where the temperature in the gas generating chamber 5 is increased and the combustibles waste is introduced into the gas generating chamber 5, combustibles waste is immediately burned, often combustibles waste of chemical products, first gas The generated gas is convected in the gas generation chamber 5. Note that some of the gas is burned in the gas generation chamber 5.
[0030]
The gas passes through the lower side of the furnace body 2 through the gas passage 29, enters the inside of the chimney 6, and enters the primary combustion chamber 9. Further, a part of the gas enters the primary combustion chamber 9 from the lower part of the furnace body 2 through the cutout portion of the grate 14. The gas that has entered the primary combustion chamber 9 is burned in the primary combustion chamber 9 that is heated and held at a high temperature.
When smoke is generated from the gas burned in the primary combustion chamber 9 , the smoke rises and enters the secondary combustion chamber 11. In the secondary combustion chamber 11, an appropriate amount of air flows from the air pipe 16 and is heated by the secondary burner 13 in addition to the heat transmitted from the primary combustion chamber 9, so that the primary combustion chamber 9 is maintained at a higher temperature. Therefore, the smoke that has entered the secondary combustion chamber 11 is almost burned in the secondary combustion chamber 11 and is not discharged to the outside of the body 1.
[0032]
When the amount of combustible waste is large and the combustion efficiency is low, the stirrer 23 can be operated to stir the combustible waste to increase the combustion efficiency.
[0033]
When there is a lot of smoke, the combustion efficiency can be increased and the smoke can be burned by increasing the amount of air from the air pipe 16.
When the secondary combustion is reached, the heating from the primary burner 12 can be stopped, and the fuel can be saved.
[0035]
The ash of the burnable combustible waste is discharged to the ash furnace 26 through the ash outlet 25 by the screw ash 24.
As described above , according to the burner-heated polymer incinerator of the present embodiment, when burning combustible waste such as polymer substances, it is possible to perform smokeless and odorless incineration which has been considered impossible. At the same time, the operation can be performed extremely safely even when combustible waste is thrown in. Therefore, it is possible to install an incinerator in the city.
[Brief description of the drawings]
FIG. 1 is a front sectional view of an embodiment according to the present invention. FIG. 2 is a front view thereof .
1, body 2, furnace body 5, gas generation chamber 6, chimney 8, first heat retaining body 9, first combustion chamber 10, second heat retaining body 11, secondary combustion chamber 12, primary burner 13, Secondary burner 14, grate 15, valve body
16. Air tube
20, air amount adjusting valve 35, bucket 36, lid

Claims (2)

In the fuselage, a chimney is disposed from the fuselage to the outside of the fuselage, and a primary combustion chamber and a secondary combustion chamber located above the primary combustion chamber are provided in the chimney. A burner-heated polymer incinerator, wherein a primary burner is disposed below the primary combustion chamber and a secondary burner is disposed below the secondary combustion chamber. hand,
A gas generating chamber is formed around the primary combustion chamber while a first heat retaining body is disposed in the primary combustion chamber,
A gas path is formed between the gas generating chamber and an outer wall of the fuselage,
A second heat insulator is disposed in the secondary combustion chamber,
With grate is disposed in the lower portion of the chimney definitive the bottom of the primary combustion chamber, the air control valve for supplying air to the primary combustion chamber below the primary burner is disposed,
An air pipe connected to the air amount adjusting valve is vertically disposed so as to penetrate the primary burner, and an air valve that discharges air from a tip extends to the first heat retaining body,
A burner-heated polymer incinerator, characterized in that an air valve element for supplying air is provided below the secondary combustion chamber . The burner-heated polymer incinerator according to claim 1, wherein a stirrer for stirring the object to be burned is provided at a lower portion of the gas generation chamber.